From 71f0f1d94d3de425dd177df88c21cca0fb7b0500 Mon Sep 17 00:00:00 2001 From: Harald Welte Date: Mon, 20 May 2019 17:00:39 +0200 Subject: titan support: Rebuild C++ source from ttcn using ttcn3_compiler --- titan/General_Types.cc | 14431 ------------------- titan/General_Types.hh | 2327 --- titan/General_Types.ttcn | 329 + titan/MNCC_Types.cc | 34155 --------------------------------------------- titan/MNCC_Types.hh | 4010 ------ titan/MNCC_Types.ttcn | 1939 +++ titan/Makefile | 13 +- titan/Osmocom_Types.cc | 2332 ---- titan/Osmocom_Types.hh | 375 - titan/Osmocom_Types.ttcn | 156 + titan/PCUIF_Types.cc | 32386 ------------------------------------------ titan/PCUIF_Types.hh | 3638 ----- titan/PCUIF_Types.ttcn | 805 ++ 13 files changed, 3240 insertions(+), 93656 deletions(-) delete mode 100644 titan/General_Types.cc delete mode 100644 titan/General_Types.hh create mode 100644 titan/General_Types.ttcn delete mode 100644 titan/MNCC_Types.cc delete mode 100644 titan/MNCC_Types.hh create mode 100644 titan/MNCC_Types.ttcn delete mode 100644 titan/Osmocom_Types.cc delete mode 100644 titan/Osmocom_Types.hh create mode 100644 titan/Osmocom_Types.ttcn delete mode 100644 titan/PCUIF_Types.cc delete mode 100644 titan/PCUIF_Types.hh create mode 100644 titan/PCUIF_Types.ttcn (limited to 'titan') diff --git a/titan/General_Types.cc b/titan/General_Types.cc deleted file mode 100644 index 9f29bee..0000000 --- a/titan/General_Types.cc +++ /dev/null @@ -1,14431 +0,0 @@ -// This C++ source file was generated by the TTCN-3 compiler -// of the TTCN-3 Test Executor version CRL 113 200/6 R5A -// The generation of user and time information were disabled by the -D flag. - -// Copyright (c) 2000-2018 Ericsson Telecom AB - -// Do not edit this file unless you know what you are doing. - -/* Including header files */ - -#include "General_Types.hh" - -namespace General__Types { - -/* Prototypes of static functions */ - -static boolean init_comp_type(const char *component_type, boolean init_base_comps); - -/* Literal string constants */ - -static const unsigned char module_checksum[] = { 0xd5, 0xd7, 0x4d, 0x4b, 0x6c, 0x22, 0x04, 0xdf, 0x4a, 0x64, 0x1d, 0x88, 0x85, 0x39, 0x97, 0x50 }; - -/* Global variable definitions */ - -const TTCN_RAWdescriptor_t BIT1n_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT1n_xer_ = { {"BIT1n>\n", "BIT1n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT1n_descr_ = { "@General_Types.BIT1n", &BITSTRING_ber_, &BIT1n_raw_, NULL, &BIT1n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT1n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT2n_raw_ = {2,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT2n_xer_ = { {"BIT2n>\n", "BIT2n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT2n_descr_ = { "@General_Types.BIT2n", &BITSTRING_ber_, &BIT2n_raw_, NULL, &BIT2n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT2n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT3n_raw_ = {3,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT3n_xer_ = { {"BIT3n>\n", "BIT3n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT3n_descr_ = { "@General_Types.BIT3n", &BITSTRING_ber_, &BIT3n_raw_, NULL, &BIT3n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT3n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT4n_raw_ = {4,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT4n_xer_ = { {"BIT4n>\n", "BIT4n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT4n_descr_ = { "@General_Types.BIT4n", &BITSTRING_ber_, &BIT4n_raw_, NULL, &BIT4n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT4n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT5n_raw_ = {5,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT5n_xer_ = { {"BIT5n>\n", "BIT5n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT5n_descr_ = { "@General_Types.BIT5n", &BITSTRING_ber_, &BIT5n_raw_, NULL, &BIT5n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT5n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT6n_raw_ = {6,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT6n_xer_ = { {"BIT6n>\n", "BIT6n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT6n_descr_ = { "@General_Types.BIT6n", &BITSTRING_ber_, &BIT6n_raw_, NULL, &BIT6n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT6n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT7n_raw_ = {7,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT7n_xer_ = { {"BIT7n>\n", "BIT7n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT7n_descr_ = { "@General_Types.BIT7n", &BITSTRING_ber_, &BIT7n_raw_, NULL, &BIT7n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT7n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT8n_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT8n_xer_ = { {"BIT8n>\n", "BIT8n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT8n_descr_ = { "@General_Types.BIT8n", &BITSTRING_ber_, &BIT8n_raw_, NULL, &BIT8n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT8n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT9n_raw_ = {9,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT9n_xer_ = { {"BIT9n>\n", "BIT9n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT9n_descr_ = { "@General_Types.BIT9n", &BITSTRING_ber_, &BIT9n_raw_, NULL, &BIT9n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT9n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT12n_raw_ = {12,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT12n_xer_ = { {"BIT12n>\n", "BIT12n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT12n_descr_ = { "@General_Types.BIT12n", &BITSTRING_ber_, &BIT12n_raw_, NULL, &BIT12n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT12n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT14n_raw_ = {14,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT14n_xer_ = { {"BIT14n>\n", "BIT14n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT14n_descr_ = { "@General_Types.BIT14n", &BITSTRING_ber_, &BIT14n_raw_, NULL, &BIT14n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT14n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT15n_raw_ = {15,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT15n_xer_ = { {"BIT15n>\n", "BIT15n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT15n_descr_ = { "@General_Types.BIT15n", &BITSTRING_ber_, &BIT15n_raw_, NULL, &BIT15n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT15n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT16n_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT16n_xer_ = { {"BIT16n>\n", "BIT16n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT16n_descr_ = { "@General_Types.BIT16n", &BITSTRING_ber_, &BIT16n_raw_, NULL, &BIT16n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT16n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT56n_raw_ = {56,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT56n_xer_ = { {"BIT56n>\n", "BIT56n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT56n_descr_ = { "@General_Types.BIT56n", &BITSTRING_ber_, &BIT56n_raw_, NULL, &BIT56n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT56n_default_coding("RAW"); -const XERdescriptor_t BIT14__24n_xer_ = { {"BIT14_24n>\n", "BIT14_24n>\n"}, {11, 11}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT14__24n_descr_ = { "@General_Types.BIT14_24n", &BITSTRING_ber_, &BITSTRING_raw_, NULL, &BIT14__24n_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT14__24n_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT1np_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT1np_xer_ = { {"BIT1np>\n", "BIT1np>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT1np_descr_ = { "@General_Types.BIT1np", &BITSTRING_ber_, &BIT1np_raw_, NULL, &BIT1np_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT1np_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT2np_raw_ = {2,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT2np_xer_ = { {"BIT2np>\n", "BIT2np>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT2np_descr_ = { "@General_Types.BIT2np", &BITSTRING_ber_, &BIT2np_raw_, NULL, &BIT2np_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT2np_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT3np_raw_ = {3,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT3np_xer_ = { {"BIT3np>\n", "BIT3np>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT3np_descr_ = { "@General_Types.BIT3np", &BITSTRING_ber_, &BIT3np_raw_, NULL, &BIT3np_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT3np_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT4np_raw_ = {4,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT4np_xer_ = { {"BIT4np>\n", "BIT4np>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT4np_descr_ = { "@General_Types.BIT4np", &BITSTRING_ber_, &BIT4np_raw_, NULL, &BIT4np_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT4np_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT5np_raw_ = {5,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT5np_xer_ = { {"BIT5np>\n", "BIT5np>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT5np_descr_ = { "@General_Types.BIT5np", &BITSTRING_ber_, &BIT5np_raw_, NULL, &BIT5np_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT5np_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT6np_raw_ = {6,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT6np_xer_ = { {"BIT6np>\n", "BIT6np>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT6np_descr_ = { "@General_Types.BIT6np", &BITSTRING_ber_, &BIT6np_raw_, NULL, &BIT6np_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT6np_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT7np_raw_ = {7,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT7np_xer_ = { {"BIT7np>\n", "BIT7np>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT7np_descr_ = { "@General_Types.BIT7np", &BITSTRING_ber_, &BIT7np_raw_, NULL, &BIT7np_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT7np_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT15np_raw_ = {15,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT15np_xer_ = { {"BIT15np>\n", "BIT15np>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT15np_descr_ = { "@General_Types.BIT15np", &BITSTRING_ber_, &BIT15np_raw_, NULL, &BIT15np_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT15np_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT1_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT1_xer_ = { {"BIT1>\n", "BIT1>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t BIT1_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t BIT1_descr_ = { "@General_Types.BIT1", &BITSTRING_ber_, &BIT1_raw_, NULL, &BIT1_xer_, &BITSTRING_json_, &BIT1_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT1_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT2_raw_ = {2,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,2,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT2_xer_ = { {"BIT2>\n", "BIT2>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t BIT2_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t BIT2_descr_ = { "@General_Types.BIT2", &BITSTRING_ber_, &BIT2_raw_, NULL, &BIT2_xer_, &BITSTRING_json_, &BIT2_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT2_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT3_raw_ = {3,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,3,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT3_xer_ = { {"BIT3>\n", "BIT3>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t BIT3_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t BIT3_descr_ = { "@General_Types.BIT3", &BITSTRING_ber_, &BIT3_raw_, NULL, &BIT3_xer_, &BITSTRING_json_, &BIT3_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT3_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT4_raw_ = {4,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,4,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT4_xer_ = { {"BIT4>\n", "BIT4>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t BIT4_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t BIT4_descr_ = { "@General_Types.BIT4", &BITSTRING_ber_, &BIT4_raw_, NULL, &BIT4_xer_, &BITSTRING_json_, &BIT4_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT4_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT5_raw_ = {5,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,5,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT5_xer_ = { {"BIT5>\n", "BIT5>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t BIT5_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t BIT5_descr_ = { "@General_Types.BIT5", &BITSTRING_ber_, &BIT5_raw_, NULL, &BIT5_xer_, &BITSTRING_json_, &BIT5_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT5_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT6_raw_ = {6,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,6,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT6_xer_ = { {"BIT6>\n", "BIT6>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t BIT6_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t BIT6_descr_ = { "@General_Types.BIT6", &BITSTRING_ber_, &BIT6_raw_, NULL, &BIT6_xer_, &BITSTRING_json_, &BIT6_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT6_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT7_raw_ = {7,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,7,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT7_xer_ = { {"BIT7>\n", "BIT7>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t BIT7_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t BIT7_descr_ = { "@General_Types.BIT7", &BITSTRING_ber_, &BIT7_raw_, NULL, &BIT7_xer_, &BITSTRING_json_, &BIT7_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT7_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT8_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,8,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT8_xer_ = { {"BIT8>\n", "BIT8>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t BIT8_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t BIT8_descr_ = { "@General_Types.BIT8", &BITSTRING_ber_, &BIT8_raw_, NULL, &BIT8_xer_, &BITSTRING_json_, &BIT8_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT8_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT9_raw_ = {9,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,9,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT9_xer_ = { {"BIT9>\n", "BIT9>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT9_descr_ = { "@General_Types.BIT9", &BITSTRING_ber_, &BIT9_raw_, NULL, &BIT9_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT9_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT10_raw_ = {10,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,10,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT10_xer_ = { {"BIT10>\n", "BIT10>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t BIT10_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t BIT10_descr_ = { "@General_Types.BIT10", &BITSTRING_ber_, &BIT10_raw_, NULL, &BIT10_xer_, &BITSTRING_json_, &BIT10_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT10_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT11_raw_ = {11,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,11,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT11_xer_ = { {"BIT11>\n", "BIT11>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT11_descr_ = { "@General_Types.BIT11", &BITSTRING_ber_, &BIT11_raw_, NULL, &BIT11_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT11_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT12_raw_ = {12,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,12,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT12_xer_ = { {"BIT12>\n", "BIT12>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT12_descr_ = { "@General_Types.BIT12", &BITSTRING_ber_, &BIT12_raw_, NULL, &BIT12_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT12_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT13_raw_ = {13,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,13,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT13_xer_ = { {"BIT13>\n", "BIT13>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT13_descr_ = { "@General_Types.BIT13", &BITSTRING_ber_, &BIT13_raw_, NULL, &BIT13_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT13_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT14_raw_ = {14,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,14,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT14_xer_ = { {"BIT14>\n", "BIT14>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT14_descr_ = { "@General_Types.BIT14", &BITSTRING_ber_, &BIT14_raw_, NULL, &BIT14_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT14_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT15_raw_ = {15,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,15,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT15_xer_ = { {"BIT15>\n", "BIT15>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT15_descr_ = { "@General_Types.BIT15", &BITSTRING_ber_, &BIT15_raw_, NULL, &BIT15_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT15_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT16_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,16,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT16_xer_ = { {"BIT16>\n", "BIT16>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT16_descr_ = { "@General_Types.BIT16", &BITSTRING_ber_, &BIT16_raw_, NULL, &BIT16_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT16_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT24_raw_ = {24,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,24,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT24_xer_ = { {"BIT24>\n", "BIT24>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT24_descr_ = { "@General_Types.BIT24", &BITSTRING_ber_, &BIT24_raw_, NULL, &BIT24_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT24_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT28_raw_ = {28,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,28,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT28_xer_ = { {"BIT28>\n", "BIT28>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT28_descr_ = { "@General_Types.BIT28", &BITSTRING_ber_, &BIT28_raw_, NULL, &BIT28_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT28_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT29_raw_ = {29,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,29,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT29_xer_ = { {"BIT29>\n", "BIT29>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT29_descr_ = { "@General_Types.BIT29", &BITSTRING_ber_, &BIT29_raw_, NULL, &BIT29_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT29_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT30_raw_ = {30,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,30,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT30_xer_ = { {"BIT30>\n", "BIT30>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT30_descr_ = { "@General_Types.BIT30", &BITSTRING_ber_, &BIT30_raw_, NULL, &BIT30_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT30_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT31_raw_ = {31,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,31,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT31_xer_ = { {"BIT31>\n", "BIT31>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT31_descr_ = { "@General_Types.BIT31", &BITSTRING_ber_, &BIT31_raw_, NULL, &BIT31_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT31_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT32_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,32,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT32_xer_ = { {"BIT32>\n", "BIT32>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT32_descr_ = { "@General_Types.BIT32", &BITSTRING_ber_, &BIT32_raw_, NULL, &BIT32_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT32_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT56_raw_ = {56,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,56,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT56_xer_ = { {"BIT56>\n", "BIT56>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT56_descr_ = { "@General_Types.BIT56", &BITSTRING_ber_, &BIT56_raw_, NULL, &BIT56_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT56_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT0n_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT0n_xer_ = { {"OCT0n>\n", "OCT0n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT0n_oer_ext_arr_[0] = {}; -const int OCT0n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT0n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT0n_oer_ext_arr_, 0, OCT0n_oer_p_}; -const TTCN_Typedescriptor_t OCT0n_descr_ = { "@General_Types.OCT0n", &OCTETSTRING_ber_, &OCT0n_raw_, &OCTETSTRING_text_, &OCT0n_xer_, &OCTETSTRING_json_, &OCT0n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT0n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT1n_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT1n_xer_ = { {"OCT1n>\n", "OCT1n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1n_oer_ext_arr_[0] = {}; -const int OCT1n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1n_oer_ext_arr_, 0, OCT1n_oer_p_}; -const TTCN_Typedescriptor_t OCT1n_descr_ = { "@General_Types.OCT1n", &OCTETSTRING_ber_, &OCT1n_raw_, &OCTETSTRING_text_, &OCT1n_xer_, &OCTETSTRING_json_, &OCT1n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT2n_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT2n_xer_ = { {"OCT2n>\n", "OCT2n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT2n_oer_ext_arr_[0] = {}; -const int OCT2n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT2n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT2n_oer_ext_arr_, 0, OCT2n_oer_p_}; -const TTCN_Typedescriptor_t OCT2n_descr_ = { "@General_Types.OCT2n", &OCTETSTRING_ber_, &OCT2n_raw_, &OCTETSTRING_text_, &OCT2n_xer_, &OCTETSTRING_json_, &OCT2n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT2n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT3n_raw_ = {24,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT3n_xer_ = { {"OCT3n>\n", "OCT3n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT3n_oer_ext_arr_[0] = {}; -const int OCT3n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT3n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT3n_oer_ext_arr_, 0, OCT3n_oer_p_}; -const TTCN_Typedescriptor_t OCT3n_descr_ = { "@General_Types.OCT3n", &OCTETSTRING_ber_, &OCT3n_raw_, &OCTETSTRING_text_, &OCT3n_xer_, &OCTETSTRING_json_, &OCT3n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT3n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT4n_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT4n_xer_ = { {"OCT4n>\n", "OCT4n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT4n_oer_ext_arr_[0] = {}; -const int OCT4n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT4n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT4n_oer_ext_arr_, 0, OCT4n_oer_p_}; -const TTCN_Typedescriptor_t OCT4n_descr_ = { "@General_Types.OCT4n", &OCTETSTRING_ber_, &OCT4n_raw_, &OCTETSTRING_text_, &OCT4n_xer_, &OCTETSTRING_json_, &OCT4n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT4n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT5n_raw_ = {40,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT5n_xer_ = { {"OCT5n>\n", "OCT5n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT5n_oer_ext_arr_[0] = {}; -const int OCT5n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT5n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT5n_oer_ext_arr_, 0, OCT5n_oer_p_}; -const TTCN_Typedescriptor_t OCT5n_descr_ = { "@General_Types.OCT5n", &OCTETSTRING_ber_, &OCT5n_raw_, &OCTETSTRING_text_, &OCT5n_xer_, &OCTETSTRING_json_, &OCT5n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT5n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT6n_raw_ = {48,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT6n_xer_ = { {"OCT6n>\n", "OCT6n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT6n_oer_ext_arr_[0] = {}; -const int OCT6n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT6n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT6n_oer_ext_arr_, 0, OCT6n_oer_p_}; -const TTCN_Typedescriptor_t OCT6n_descr_ = { "@General_Types.OCT6n", &OCTETSTRING_ber_, &OCT6n_raw_, &OCTETSTRING_text_, &OCT6n_xer_, &OCTETSTRING_json_, &OCT6n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT6n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT7n_raw_ = {56,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT7n_xer_ = { {"OCT7n>\n", "OCT7n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT7n_oer_ext_arr_[0] = {}; -const int OCT7n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT7n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT7n_oer_ext_arr_, 0, OCT7n_oer_p_}; -const TTCN_Typedescriptor_t OCT7n_descr_ = { "@General_Types.OCT7n", &OCTETSTRING_ber_, &OCT7n_raw_, &OCTETSTRING_text_, &OCT7n_xer_, &OCTETSTRING_json_, &OCT7n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT7n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT8n_raw_ = {64,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT8n_xer_ = { {"OCT8n>\n", "OCT8n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT8n_oer_ext_arr_[0] = {}; -const int OCT8n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT8n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT8n_oer_ext_arr_, 0, OCT8n_oer_p_}; -const TTCN_Typedescriptor_t OCT8n_descr_ = { "@General_Types.OCT8n", &OCTETSTRING_ber_, &OCT8n_raw_, &OCTETSTRING_text_, &OCT8n_xer_, &OCTETSTRING_json_, &OCT8n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT8n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT9n_raw_ = {72,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT9n_xer_ = { {"OCT9n>\n", "OCT9n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT9n_oer_ext_arr_[0] = {}; -const int OCT9n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT9n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT9n_oer_ext_arr_, 0, OCT9n_oer_p_}; -const TTCN_Typedescriptor_t OCT9n_descr_ = { "@General_Types.OCT9n", &OCTETSTRING_ber_, &OCT9n_raw_, &OCTETSTRING_text_, &OCT9n_xer_, &OCTETSTRING_json_, &OCT9n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT9n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT10n_raw_ = {80,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT10n_xer_ = { {"OCT10n>\n", "OCT10n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT10n_oer_ext_arr_[0] = {}; -const int OCT10n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT10n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT10n_oer_ext_arr_, 0, OCT10n_oer_p_}; -const TTCN_Typedescriptor_t OCT10n_descr_ = { "@General_Types.OCT10n", &OCTETSTRING_ber_, &OCT10n_raw_, &OCTETSTRING_text_, &OCT10n_xer_, &OCTETSTRING_json_, &OCT10n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT10n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT11n_raw_ = {88,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT11n_xer_ = { {"OCT11n>\n", "OCT11n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT11n_oer_ext_arr_[0] = {}; -const int OCT11n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT11n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT11n_oer_ext_arr_, 0, OCT11n_oer_p_}; -const TTCN_Typedescriptor_t OCT11n_descr_ = { "@General_Types.OCT11n", &OCTETSTRING_ber_, &OCT11n_raw_, &OCTETSTRING_text_, &OCT11n_xer_, &OCTETSTRING_json_, &OCT11n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT11n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT12n_raw_ = {96,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT12n_xer_ = { {"OCT12n>\n", "OCT12n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT12n_oer_ext_arr_[0] = {}; -const int OCT12n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT12n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT12n_oer_ext_arr_, 0, OCT12n_oer_p_}; -const TTCN_Typedescriptor_t OCT12n_descr_ = { "@General_Types.OCT12n", &OCTETSTRING_ber_, &OCT12n_raw_, &OCTETSTRING_text_, &OCT12n_xer_, &OCTETSTRING_json_, &OCT12n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT12n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT13n_raw_ = {104,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT13n_xer_ = { {"OCT13n>\n", "OCT13n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT13n_oer_ext_arr_[0] = {}; -const int OCT13n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT13n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT13n_oer_ext_arr_, 0, OCT13n_oer_p_}; -const TTCN_Typedescriptor_t OCT13n_descr_ = { "@General_Types.OCT13n", &OCTETSTRING_ber_, &OCT13n_raw_, &OCTETSTRING_text_, &OCT13n_xer_, &OCTETSTRING_json_, &OCT13n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT13n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT14n_raw_ = {112,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT14n_xer_ = { {"OCT14n>\n", "OCT14n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT14n_oer_ext_arr_[0] = {}; -const int OCT14n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT14n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT14n_oer_ext_arr_, 0, OCT14n_oer_p_}; -const TTCN_Typedescriptor_t OCT14n_descr_ = { "@General_Types.OCT14n", &OCTETSTRING_ber_, &OCT14n_raw_, &OCTETSTRING_text_, &OCT14n_xer_, &OCTETSTRING_json_, &OCT14n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT14n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT15n_raw_ = {120,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT15n_xer_ = { {"OCT15n>\n", "OCT15n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT15n_oer_ext_arr_[0] = {}; -const int OCT15n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT15n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT15n_oer_ext_arr_, 0, OCT15n_oer_p_}; -const TTCN_Typedescriptor_t OCT15n_descr_ = { "@General_Types.OCT15n", &OCTETSTRING_ber_, &OCT15n_raw_, &OCTETSTRING_text_, &OCT15n_xer_, &OCTETSTRING_json_, &OCT15n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT15n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT16n_raw_ = {128,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT16n_xer_ = { {"OCT16n>\n", "OCT16n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT16n_oer_ext_arr_[0] = {}; -const int OCT16n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT16n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT16n_oer_ext_arr_, 0, OCT16n_oer_p_}; -const TTCN_Typedescriptor_t OCT16n_descr_ = { "@General_Types.OCT16n", &OCTETSTRING_ber_, &OCT16n_raw_, &OCTETSTRING_text_, &OCT16n_xer_, &OCTETSTRING_json_, &OCT16n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT16n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT17n_raw_ = {136,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT17n_xer_ = { {"OCT17n>\n", "OCT17n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT17n_oer_ext_arr_[0] = {}; -const int OCT17n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT17n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT17n_oer_ext_arr_, 0, OCT17n_oer_p_}; -const TTCN_Typedescriptor_t OCT17n_descr_ = { "@General_Types.OCT17n", &OCTETSTRING_ber_, &OCT17n_raw_, &OCTETSTRING_text_, &OCT17n_xer_, &OCTETSTRING_json_, &OCT17n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT17n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT18n_raw_ = {144,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT18n_xer_ = { {"OCT18n>\n", "OCT18n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT18n_oer_ext_arr_[0] = {}; -const int OCT18n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT18n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT18n_oer_ext_arr_, 0, OCT18n_oer_p_}; -const TTCN_Typedescriptor_t OCT18n_descr_ = { "@General_Types.OCT18n", &OCTETSTRING_ber_, &OCT18n_raw_, &OCTETSTRING_text_, &OCT18n_xer_, &OCTETSTRING_json_, &OCT18n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT18n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT19n_raw_ = {152,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT19n_xer_ = { {"OCT19n>\n", "OCT19n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT19n_oer_ext_arr_[0] = {}; -const int OCT19n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT19n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT19n_oer_ext_arr_, 0, OCT19n_oer_p_}; -const TTCN_Typedescriptor_t OCT19n_descr_ = { "@General_Types.OCT19n", &OCTETSTRING_ber_, &OCT19n_raw_, &OCTETSTRING_text_, &OCT19n_xer_, &OCTETSTRING_json_, &OCT19n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT19n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT20n_raw_ = {160,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT20n_xer_ = { {"OCT20n>\n", "OCT20n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT20n_oer_ext_arr_[0] = {}; -const int OCT20n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT20n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT20n_oer_ext_arr_, 0, OCT20n_oer_p_}; -const TTCN_Typedescriptor_t OCT20n_descr_ = { "@General_Types.OCT20n", &OCTETSTRING_ber_, &OCT20n_raw_, &OCTETSTRING_text_, &OCT20n_xer_, &OCTETSTRING_json_, &OCT20n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT20n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT28n_raw_ = {224,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT28n_xer_ = { {"OCT28n>\n", "OCT28n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT28n_oer_ext_arr_[0] = {}; -const int OCT28n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT28n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT28n_oer_ext_arr_, 0, OCT28n_oer_p_}; -const TTCN_Typedescriptor_t OCT28n_descr_ = { "@General_Types.OCT28n", &OCTETSTRING_ber_, &OCT28n_raw_, &OCTETSTRING_text_, &OCT28n_xer_, &OCTETSTRING_json_, &OCT28n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT28n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT32n_raw_ = {256,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT32n_xer_ = { {"OCT32n>\n", "OCT32n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT32n_oer_ext_arr_[0] = {}; -const int OCT32n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT32n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT32n_oer_ext_arr_, 0, OCT32n_oer_p_}; -const TTCN_Typedescriptor_t OCT32n_descr_ = { "@General_Types.OCT32n", &OCTETSTRING_ber_, &OCT32n_raw_, &OCTETSTRING_text_, &OCT32n_xer_, &OCTETSTRING_json_, &OCT32n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT32n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT34n_raw_ = {272,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT34n_xer_ = { {"OCT34n>\n", "OCT34n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT34n_oer_ext_arr_[0] = {}; -const int OCT34n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT34n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT34n_oer_ext_arr_, 0, OCT34n_oer_p_}; -const TTCN_Typedescriptor_t OCT34n_descr_ = { "@General_Types.OCT34n", &OCTETSTRING_ber_, &OCT34n_raw_, &OCTETSTRING_text_, &OCT34n_xer_, &OCTETSTRING_json_, &OCT34n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT34n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT46n_raw_ = {368,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT46n_xer_ = { {"OCT46n>\n", "OCT46n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT46n_oer_ext_arr_[0] = {}; -const int OCT46n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT46n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT46n_oer_ext_arr_, 0, OCT46n_oer_p_}; -const TTCN_Typedescriptor_t OCT46n_descr_ = { "@General_Types.OCT46n", &OCTETSTRING_ber_, &OCT46n_raw_, &OCTETSTRING_text_, &OCT46n_xer_, &OCTETSTRING_json_, &OCT46n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT46n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT50n_raw_ = {400,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT50n_xer_ = { {"OCT50n>\n", "OCT50n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT50n_oer_ext_arr_[0] = {}; -const int OCT50n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT50n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT50n_oer_ext_arr_, 0, OCT50n_oer_p_}; -const TTCN_Typedescriptor_t OCT50n_descr_ = { "@General_Types.OCT50n", &OCTETSTRING_ber_, &OCT50n_raw_, &OCTETSTRING_text_, &OCT50n_xer_, &OCTETSTRING_json_, &OCT50n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT50n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT69n_raw_ = {552,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT69n_xer_ = { {"OCT69n>\n", "OCT69n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT69n_oer_ext_arr_[0] = {}; -const int OCT69n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT69n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT69n_oer_ext_arr_, 0, OCT69n_oer_p_}; -const TTCN_Typedescriptor_t OCT69n_descr_ = { "@General_Types.OCT69n", &OCTETSTRING_ber_, &OCT69n_raw_, &OCTETSTRING_text_, &OCT69n_xer_, &OCTETSTRING_json_, &OCT69n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT69n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT100n_raw_ = {800,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT100n_xer_ = { {"OCT100n>\n", "OCT100n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT100n_oer_ext_arr_[0] = {}; -const int OCT100n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT100n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT100n_oer_ext_arr_, 0, OCT100n_oer_p_}; -const TTCN_Typedescriptor_t OCT100n_descr_ = { "@General_Types.OCT100n", &OCTETSTRING_ber_, &OCT100n_raw_, &OCTETSTRING_text_, &OCT100n_xer_, &OCTETSTRING_json_, &OCT100n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT100n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT128n_raw_ = {1024,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT128n_xer_ = { {"OCT128n>\n", "OCT128n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT128n_oer_ext_arr_[0] = {}; -const int OCT128n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT128n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT128n_oer_ext_arr_, 0, OCT128n_oer_p_}; -const TTCN_Typedescriptor_t OCT128n_descr_ = { "@General_Types.OCT128n", &OCTETSTRING_ber_, &OCT128n_raw_, &OCTETSTRING_text_, &OCT128n_xer_, &OCTETSTRING_json_, &OCT128n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT128n_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT500n_raw_ = {4000,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT500n_xer_ = { {"OCT500n>\n", "OCT500n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT500n_oer_ext_arr_[0] = {}; -const int OCT500n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT500n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT500n_oer_ext_arr_, 0, OCT500n_oer_p_}; -const TTCN_Typedescriptor_t OCT500n_descr_ = { "@General_Types.OCT500n", &OCTETSTRING_ber_, &OCT500n_raw_, &OCTETSTRING_text_, &OCT500n_xer_, &OCTETSTRING_json_, &OCT500n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT500n_default_coding("RAW"); -const XERdescriptor_t OCTNn_xer_ = { {"OCTNn>\n", "OCTNn>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCTNn_oer_ext_arr_[0] = {}; -const int OCTNn_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCTNn_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCTNn_oer_ext_arr_, 0, OCTNn_oer_p_}; -const TTCN_Typedescriptor_t OCTNn_descr_ = { "@General_Types.OCTNn", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCTNn_xer_, &OCTETSTRING_json_, &OCTNn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCTNn_default_coding("RAW"); -const XERdescriptor_t OCT1__3n_xer_ = { {"OCT1_3n>\n", "OCT1_3n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__3n_oer_ext_arr_[0] = {}; -const int OCT1__3n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__3n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__3n_oer_ext_arr_, 0, OCT1__3n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__3n_descr_ = { "@General_Types.OCT1_3n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__3n_xer_, &OCTETSTRING_json_, &OCT1__3n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__3n_default_coding("RAW"); -const XERdescriptor_t OCT1__4n_xer_ = { {"OCT1_4n>\n", "OCT1_4n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__4n_oer_ext_arr_[0] = {}; -const int OCT1__4n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__4n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__4n_oer_ext_arr_, 0, OCT1__4n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__4n_descr_ = { "@General_Types.OCT1_4n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__4n_xer_, &OCTETSTRING_json_, &OCT1__4n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__4n_default_coding("RAW"); -const XERdescriptor_t OCT1__5n_xer_ = { {"OCT1_5n>\n", "OCT1_5n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__5n_oer_ext_arr_[0] = {}; -const int OCT1__5n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__5n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__5n_oer_ext_arr_, 0, OCT1__5n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__5n_descr_ = { "@General_Types.OCT1_5n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__5n_xer_, &OCTETSTRING_json_, &OCT1__5n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__5n_default_coding("RAW"); -const XERdescriptor_t OCT1__6n_xer_ = { {"OCT1_6n>\n", "OCT1_6n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__6n_oer_ext_arr_[0] = {}; -const int OCT1__6n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__6n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__6n_oer_ext_arr_, 0, OCT1__6n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__6n_descr_ = { "@General_Types.OCT1_6n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__6n_xer_, &OCTETSTRING_json_, &OCT1__6n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__6n_default_coding("RAW"); -const XERdescriptor_t OCT1__7n_xer_ = { {"OCT1_7n>\n", "OCT1_7n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__7n_oer_ext_arr_[0] = {}; -const int OCT1__7n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__7n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__7n_oer_ext_arr_, 0, OCT1__7n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__7n_descr_ = { "@General_Types.OCT1_7n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__7n_xer_, &OCTETSTRING_json_, &OCT1__7n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__7n_default_coding("RAW"); -const XERdescriptor_t OCT1__8n_xer_ = { {"OCT1_8n>\n", "OCT1_8n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__8n_oer_ext_arr_[0] = {}; -const int OCT1__8n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__8n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__8n_oer_ext_arr_, 0, OCT1__8n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__8n_descr_ = { "@General_Types.OCT1_8n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__8n_xer_, &OCTETSTRING_json_, &OCT1__8n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__8n_default_coding("RAW"); -const XERdescriptor_t OCT1__12n_xer_ = { {"OCT1_12n>\n", "OCT1_12n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__12n_oer_ext_arr_[0] = {}; -const int OCT1__12n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__12n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__12n_oer_ext_arr_, 0, OCT1__12n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__12n_descr_ = { "@General_Types.OCT1_12n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__12n_xer_, &OCTETSTRING_json_, &OCT1__12n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__12n_default_coding("RAW"); -const XERdescriptor_t OCT1__15n_xer_ = { {"OCT1_15n>\n", "OCT1_15n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__15n_oer_ext_arr_[0] = {}; -const int OCT1__15n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__15n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__15n_oer_ext_arr_, 0, OCT1__15n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__15n_descr_ = { "@General_Types.OCT1_15n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__15n_xer_, &OCTETSTRING_json_, &OCT1__15n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__15n_default_coding("RAW"); -const XERdescriptor_t OCT1__16n_xer_ = { {"OCT1_16n>\n", "OCT1_16n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__16n_oer_ext_arr_[0] = {}; -const int OCT1__16n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__16n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__16n_oer_ext_arr_, 0, OCT1__16n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__16n_descr_ = { "@General_Types.OCT1_16n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__16n_xer_, &OCTETSTRING_json_, &OCT1__16n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__16n_default_coding("RAW"); -const XERdescriptor_t OCT1__18n_xer_ = { {"OCT1_18n>\n", "OCT1_18n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__18n_oer_ext_arr_[0] = {}; -const int OCT1__18n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__18n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__18n_oer_ext_arr_, 0, OCT1__18n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__18n_descr_ = { "@General_Types.OCT1_18n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__18n_xer_, &OCTETSTRING_json_, &OCT1__18n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__18n_default_coding("RAW"); -const XERdescriptor_t OCT1__20n_xer_ = { {"OCT1_20n>\n", "OCT1_20n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__20n_oer_ext_arr_[0] = {}; -const int OCT1__20n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__20n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__20n_oer_ext_arr_, 0, OCT1__20n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__20n_descr_ = { "@General_Types.OCT1_20n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__20n_xer_, &OCTETSTRING_json_, &OCT1__20n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__20n_default_coding("RAW"); -const XERdescriptor_t OCT1__24n_xer_ = { {"OCT1_24n>\n", "OCT1_24n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__24n_oer_ext_arr_[0] = {}; -const int OCT1__24n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__24n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__24n_oer_ext_arr_, 0, OCT1__24n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__24n_descr_ = { "@General_Types.OCT1_24n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__24n_xer_, &OCTETSTRING_json_, &OCT1__24n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__24n_default_coding("RAW"); -const XERdescriptor_t OCT1__32n_xer_ = { {"OCT1_32n>\n", "OCT1_32n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__32n_oer_ext_arr_[0] = {}; -const int OCT1__32n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__32n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__32n_oer_ext_arr_, 0, OCT1__32n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__32n_descr_ = { "@General_Types.OCT1_32n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__32n_xer_, &OCTETSTRING_json_, &OCT1__32n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__32n_default_coding("RAW"); -const XERdescriptor_t OCT1__34n_xer_ = { {"OCT1_34n>\n", "OCT1_34n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__34n_oer_ext_arr_[0] = {}; -const int OCT1__34n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__34n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__34n_oer_ext_arr_, 0, OCT1__34n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__34n_descr_ = { "@General_Types.OCT1_34n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__34n_xer_, &OCTETSTRING_json_, &OCT1__34n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__34n_default_coding("RAW"); -const XERdescriptor_t OCT1__46n_xer_ = { {"OCT1_46n>\n", "OCT1_46n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__46n_oer_ext_arr_[0] = {}; -const int OCT1__46n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__46n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__46n_oer_ext_arr_, 0, OCT1__46n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__46n_descr_ = { "@General_Types.OCT1_46n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__46n_xer_, &OCTETSTRING_json_, &OCT1__46n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__46n_default_coding("RAW"); -const XERdescriptor_t OCT1__50n_xer_ = { {"OCT1_50n>\n", "OCT1_50n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__50n_oer_ext_arr_[0] = {}; -const int OCT1__50n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__50n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__50n_oer_ext_arr_, 0, OCT1__50n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__50n_descr_ = { "@General_Types.OCT1_50n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__50n_xer_, &OCTETSTRING_json_, &OCT1__50n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__50n_default_coding("RAW"); -const XERdescriptor_t OCT1__112n_xer_ = { {"OCT1_112n>\n", "OCT1_112n>\n"}, {11, 11}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__112n_oer_ext_arr_[0] = {}; -const int OCT1__112n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__112n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__112n_oer_ext_arr_, 0, OCT1__112n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__112n_descr_ = { "@General_Types.OCT1_112n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__112n_xer_, &OCTETSTRING_json_, &OCT1__112n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__112n_default_coding("RAW"); -const XERdescriptor_t OCT1__127n_xer_ = { {"OCT1_127n>\n", "OCT1_127n>\n"}, {11, 11}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__127n_oer_ext_arr_[0] = {}; -const int OCT1__127n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__127n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__127n_oer_ext_arr_, 0, OCT1__127n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__127n_descr_ = { "@General_Types.OCT1_127n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__127n_xer_, &OCTETSTRING_json_, &OCT1__127n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__127n_default_coding("RAW"); -const XERdescriptor_t OCT1__128n_xer_ = { {"OCT1_128n>\n", "OCT1_128n>\n"}, {11, 11}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__128n_oer_ext_arr_[0] = {}; -const int OCT1__128n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__128n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__128n_oer_ext_arr_, 0, OCT1__128n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__128n_descr_ = { "@General_Types.OCT1_128n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__128n_xer_, &OCTETSTRING_json_, &OCT1__128n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__128n_default_coding("RAW"); -const XERdescriptor_t OCT1__172n_xer_ = { {"OCT1_172n>\n", "OCT1_172n>\n"}, {11, 11}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__172n_oer_ext_arr_[0] = {}; -const int OCT1__172n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__172n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__172n_oer_ext_arr_, 0, OCT1__172n_oer_p_}; -const TTCN_Typedescriptor_t OCT1__172n_descr_ = { "@General_Types.OCT1_172n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__172n_xer_, &OCTETSTRING_json_, &OCT1__172n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__172n_default_coding("RAW"); -const XERdescriptor_t OCT3__5n_xer_ = { {"OCT3_5n>\n", "OCT3_5n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT3__5n_oer_ext_arr_[0] = {}; -const int OCT3__5n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT3__5n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT3__5n_oer_ext_arr_, 0, OCT3__5n_oer_p_}; -const TTCN_Typedescriptor_t OCT3__5n_descr_ = { "@General_Types.OCT3_5n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT3__5n_xer_, &OCTETSTRING_json_, &OCT3__5n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT3__5n_default_coding("RAW"); -const XERdescriptor_t OCT3__7n_xer_ = { {"OCT3_7n>\n", "OCT3_7n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT3__7n_oer_ext_arr_[0] = {}; -const int OCT3__7n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT3__7n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT3__7n_oer_ext_arr_, 0, OCT3__7n_oer_p_}; -const TTCN_Typedescriptor_t OCT3__7n_descr_ = { "@General_Types.OCT3_7n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT3__7n_xer_, &OCTETSTRING_json_, &OCT3__7n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT3__7n_default_coding("RAW"); -const XERdescriptor_t OCT3__8n_xer_ = { {"OCT3_8n>\n", "OCT3_8n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT3__8n_oer_ext_arr_[0] = {}; -const int OCT3__8n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT3__8n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT3__8n_oer_ext_arr_, 0, OCT3__8n_oer_p_}; -const TTCN_Typedescriptor_t OCT3__8n_descr_ = { "@General_Types.OCT3_8n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT3__8n_xer_, &OCTETSTRING_json_, &OCT3__8n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT3__8n_default_coding("RAW"); -const XERdescriptor_t OCT3__14n_xer_ = { {"OCT3_14n>\n", "OCT3_14n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT3__14n_oer_ext_arr_[0] = {}; -const int OCT3__14n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT3__14n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT3__14n_oer_ext_arr_, 0, OCT3__14n_oer_p_}; -const TTCN_Typedescriptor_t OCT3__14n_descr_ = { "@General_Types.OCT3_14n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT3__14n_xer_, &OCTETSTRING_json_, &OCT3__14n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT3__14n_default_coding("RAW"); -const XERdescriptor_t OCT3__17n_xer_ = { {"OCT3_17n>\n", "OCT3_17n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT3__17n_oer_ext_arr_[0] = {}; -const int OCT3__17n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT3__17n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT3__17n_oer_ext_arr_, 0, OCT3__17n_oer_p_}; -const TTCN_Typedescriptor_t OCT3__17n_descr_ = { "@General_Types.OCT3_17n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT3__17n_xer_, &OCTETSTRING_json_, &OCT3__17n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT3__17n_default_coding("RAW"); -const XERdescriptor_t OCT4__8n_xer_ = { {"OCT4_8n>\n", "OCT4_8n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT4__8n_oer_ext_arr_[0] = {}; -const int OCT4__8n_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT4__8n_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT4__8n_oer_ext_arr_, 0, OCT4__8n_oer_p_}; -const TTCN_Typedescriptor_t OCT4__8n_descr_ = { "@General_Types.OCT4_8n", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT4__8n_xer_, &OCTETSTRING_json_, &OCT4__8n_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT4__8n_default_coding("RAW"); -const TTCN_RAWdescriptor_t CHAR4_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t CHAR4_xer_ = { {"CHAR4>\n", "CHAR4>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t CHAR4_descr_ = { "@General_Types.CHAR4", NULL, &CHAR4_raw_, &CHARSTRING_text_, &CHAR4_xer_, &CHARSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING CHAR4_default_coding("RAW"); -const TTCN_RAWdescriptor_t HEX4n_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t HEX4n_xer_ = { {"HEX4n>\n", "HEX4n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX4n_descr_ = { "@General_Types.HEX4n", NULL, &HEX4n_raw_, NULL, &HEX4n_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX4n_default_coding("RAW"); -const TTCN_RAWdescriptor_t HEX6n_raw_ = {24,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t HEX6n_xer_ = { {"HEX6n>\n", "HEX6n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX6n_descr_ = { "@General_Types.HEX6n", NULL, &HEX6n_raw_, NULL, &HEX6n_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX6n_default_coding("RAW"); -const TTCN_RAWdescriptor_t HEX8n_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t HEX8n_xer_ = { {"HEX8n>\n", "HEX8n>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX8n_descr_ = { "@General_Types.HEX8n", NULL, &HEX8n_raw_, NULL, &HEX8n_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX8n_default_coding("RAW"); -const TTCN_RAWdescriptor_t HEX15n_raw_ = {60,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t HEX15n_xer_ = { {"HEX15n>\n", "HEX15n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX15n_descr_ = { "@General_Types.HEX15n", NULL, &HEX15n_raw_, NULL, &HEX15n_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX15n_default_coding("RAW"); -const TTCN_RAWdescriptor_t HEX16n_raw_ = {64,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t HEX16n_xer_ = { {"HEX16n>\n", "HEX16n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX16n_descr_ = { "@General_Types.HEX16n", NULL, &HEX16n_raw_, NULL, &HEX16n_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX16n_default_coding("RAW"); -const TTCN_RAWdescriptor_t HEX24n_raw_ = {96,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t HEX24n_xer_ = { {"HEX24n>\n", "HEX24n>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX24n_descr_ = { "@General_Types.HEX24n", NULL, &HEX24n_raw_, NULL, &HEX24n_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX24n_default_coding("RAW"); -const XERdescriptor_t HEX0__3n_xer_ = { {"HEX0_3n>\n", "HEX0_3n>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX0__3n_descr_ = { "@General_Types.HEX0_3n", NULL, &HEXSTRING_raw_, NULL, &HEX0__3n_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX0__3n_default_coding("RAW"); -const XERdescriptor_t HEX0__18n_xer_ = { {"HEX0_18n>\n", "HEX0_18n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX0__18n_descr_ = { "@General_Types.HEX0_18n", NULL, &HEXSTRING_raw_, NULL, &HEX0__18n_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX0__18n_default_coding("RAW"); -const XERdescriptor_t HEX1__20n_xer_ = { {"HEX1_20n>\n", "HEX1_20n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX1__20n_descr_ = { "@General_Types.HEX1_20n", NULL, &HEXSTRING_raw_, NULL, &HEX1__20n_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX1__20n_default_coding("RAW"); -const XERdescriptor_t HEX1__34n_xer_ = { {"HEX1_34n>\n", "HEX1_34n>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX1__34n_descr_ = { "@General_Types.HEX1_34n", NULL, &HEXSTRING_raw_, NULL, &HEX1__34n_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX1__34n_default_coding("RAW"); -const XERdescriptor_t INT3nb_xer_ = { {"INT3nb>\n", "INT3nb>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT3nb_descr_ = { "@General_Types.INT3nb", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &INT3nb_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT3nb_default_coding("RAW"); -const XERdescriptor_t INT4nb_xer_ = { {"INT4nb>\n", "INT4nb>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT4nb_descr_ = { "@General_Types.INT4nb", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &INT4nb_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT4nb_default_coding("RAW"); -const XERdescriptor_t INT5nb_xer_ = { {"INT5nb>\n", "INT5nb>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT5nb_descr_ = { "@General_Types.INT5nb", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &INT5nb_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT5nb_default_coding("RAW"); -const XERdescriptor_t INT8nb_xer_ = { {"INT8nb>\n", "INT8nb>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT8nb_descr_ = { "@General_Types.INT8nb", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &INT8nb_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT8nb_default_coding("RAW"); -const XERdescriptor_t INT2nbp_xer_ = { {"INT2nbp>\n", "INT2nbp>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT2nbp_descr_ = { "@General_Types.INT2nbp", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &INT2nbp_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT2nbp_default_coding("RAW"); -const XERdescriptor_t INT1nbp_xer_ = { {"INT1nbp>\n", "INT1nbp>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT1nbp_descr_ = { "@General_Types.INT1nbp", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &INT1nbp_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT1nbp_default_coding("RAW"); -const XERdescriptor_t INT3nbp_xer_ = { {"INT3nbp>\n", "INT3nbp>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT3nbp_descr_ = { "@General_Types.INT3nbp", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &INT3nbp_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT3nbp_default_coding("RAW"); -const XERdescriptor_t INT5nbp_xer_ = { {"INT5nbp>\n", "INT5nbp>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT5nbp_descr_ = { "@General_Types.INT5nbp", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &INT5nbp_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT5nbp_default_coding("RAW"); -const XERdescriptor_t INT9nbp_xer_ = { {"INT9nbp>\n", "INT9nbp>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT9nbp_descr_ = { "@General_Types.INT9nbp", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &INT9nbp_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT9nbp_default_coding("RAW"); -const XERdescriptor_t INT13nbp_xer_ = { {"INT13nbp>\n", "INT13nbp>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT13nbp_descr_ = { "@General_Types.INT13nbp", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &INT13nbp_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT13nbp_default_coding("RAW"); -const XERdescriptor_t INT15nbp_xer_ = { {"INT15nbp>\n", "INT15nbp>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT15nbp_descr_ = { "@General_Types.INT15nbp", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &INT15nbp_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT15nbp_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT6__BO__LAST_raw_ = {6,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT6__BO__LAST_xer_ = { {"BIT6_BO_LAST>\n", "BIT6_BO_LAST>\n"}, {14, 14}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT6__BO__LAST_descr_ = { "@General_Types.BIT6_BO_LAST", &BITSTRING_ber_, &BIT6__BO__LAST_raw_, NULL, &BIT6__BO__LAST_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT6__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT16__BO__LAST_raw_ = {16,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT16__BO__LAST_xer_ = { {"BIT16_BO_LAST>\n", "BIT16_BO_LAST>\n"}, {15, 15}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT16__BO__LAST_descr_ = { "@General_Types.BIT16_BO_LAST", &BITSTRING_ber_, &BIT16__BO__LAST_raw_, NULL, &BIT16__BO__LAST_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT16__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t BIT32__BO__LAST_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t BIT32__BO__LAST_xer_ = { {"BIT32_BO_LAST>\n", "BIT32_BO_LAST>\n"}, {15, 15}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t BIT32__BO__LAST_descr_ = { "@General_Types.BIT32_BO_LAST", &BITSTRING_ber_, &BIT32__BO__LAST_raw_, NULL, &BIT32__BO__LAST_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING BIT32__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t Dummy_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t Dummy_xer_ = { {"Dummy>\n", "Dummy>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int Dummy_oer_ext_arr_[0] = {}; -const int Dummy_oer_p_[0] = {}; -const TTCN_OERdescriptor_t Dummy_oer_ = { -1, TRUE, -1, FALSE, 0, 0, Dummy_oer_ext_arr_, 0, Dummy_oer_p_}; -const TTCN_Typedescriptor_t Dummy_descr_ = { "@General_Types.Dummy", &OCTETSTRING_ber_, &Dummy_raw_, &OCTETSTRING_text_, &Dummy_xer_, &OCTETSTRING_json_, &Dummy_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING Dummy_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT0_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT0_xer_ = { {"OCT0>\n", "OCT0>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT0_oer_ext_arr_[0] = {}; -const int OCT0_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT0_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT0_oer_ext_arr_, 0, OCT0_oer_p_}; -const TTCN_Typedescriptor_t OCT0_descr_ = { "@General_Types.OCT0", &OCTETSTRING_ber_, &OCT0_raw_, &OCTETSTRING_text_, &OCT0_xer_, &OCTETSTRING_json_, &OCT0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT0_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT1_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT1_xer_ = { {"OCT1>\n", "OCT1>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1_oer_ext_arr_[0] = {}; -const int OCT1_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1_oer_ext_arr_, 0, OCT1_oer_p_}; -const TTCN_Typedescriptor_t OCT1_descr_ = { "@General_Types.OCT1", &OCTETSTRING_ber_, &OCT1_raw_, &OCTETSTRING_text_, &OCT1_xer_, &OCTETSTRING_json_, &OCT1_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT2_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,2,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT2_xer_ = { {"OCT2>\n", "OCT2>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT2_oer_ext_arr_[0] = {}; -const int OCT2_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT2_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT2_oer_ext_arr_, 0, OCT2_oer_p_}; -const TTCN_Typedescriptor_t OCT2_descr_ = { "@General_Types.OCT2", &OCTETSTRING_ber_, &OCT2_raw_, &OCTETSTRING_text_, &OCT2_xer_, &OCTETSTRING_json_, &OCT2_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT2_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT3_raw_ = {24,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,3,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT3_xer_ = { {"OCT3>\n", "OCT3>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT3_oer_ext_arr_[0] = {}; -const int OCT3_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT3_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT3_oer_ext_arr_, 0, OCT3_oer_p_}; -const TTCN_Typedescriptor_t OCT3_descr_ = { "@General_Types.OCT3", &OCTETSTRING_ber_, &OCT3_raw_, &OCTETSTRING_text_, &OCT3_xer_, &OCTETSTRING_json_, &OCT3_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT3_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT4_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,4,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT4_xer_ = { {"OCT4>\n", "OCT4>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT4_oer_ext_arr_[0] = {}; -const int OCT4_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT4_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT4_oer_ext_arr_, 0, OCT4_oer_p_}; -const TTCN_Typedescriptor_t OCT4_descr_ = { "@General_Types.OCT4", &OCTETSTRING_ber_, &OCT4_raw_, &OCTETSTRING_text_, &OCT4_xer_, &OCTETSTRING_json_, &OCT4_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT4_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT5_raw_ = {40,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,5,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT5_xer_ = { {"OCT5>\n", "OCT5>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT5_oer_ext_arr_[0] = {}; -const int OCT5_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT5_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT5_oer_ext_arr_, 0, OCT5_oer_p_}; -const TTCN_Typedescriptor_t OCT5_descr_ = { "@General_Types.OCT5", &OCTETSTRING_ber_, &OCT5_raw_, &OCTETSTRING_text_, &OCT5_xer_, &OCTETSTRING_json_, &OCT5_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT5_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT6_raw_ = {48,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,6,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT6_xer_ = { {"OCT6>\n", "OCT6>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT6_oer_ext_arr_[0] = {}; -const int OCT6_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT6_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT6_oer_ext_arr_, 0, OCT6_oer_p_}; -const TTCN_Typedescriptor_t OCT6_descr_ = { "@General_Types.OCT6", &OCTETSTRING_ber_, &OCT6_raw_, &OCTETSTRING_text_, &OCT6_xer_, &OCTETSTRING_json_, &OCT6_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT6_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT7_raw_ = {56,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,7,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT7_xer_ = { {"OCT7>\n", "OCT7>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT7_oer_ext_arr_[0] = {}; -const int OCT7_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT7_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT7_oer_ext_arr_, 0, OCT7_oer_p_}; -const TTCN_Typedescriptor_t OCT7_descr_ = { "@General_Types.OCT7", &OCTETSTRING_ber_, &OCT7_raw_, &OCTETSTRING_text_, &OCT7_xer_, &OCTETSTRING_json_, &OCT7_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT7_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT8_raw_ = {64,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,8,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT8_xer_ = { {"OCT8>\n", "OCT8>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT8_oer_ext_arr_[0] = {}; -const int OCT8_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT8_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT8_oer_ext_arr_, 0, OCT8_oer_p_}; -const TTCN_Typedescriptor_t OCT8_descr_ = { "@General_Types.OCT8", &OCTETSTRING_ber_, &OCT8_raw_, &OCTETSTRING_text_, &OCT8_xer_, &OCTETSTRING_json_, &OCT8_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT8_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT9_raw_ = {72,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,9,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT9_xer_ = { {"OCT9>\n", "OCT9>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT9_oer_ext_arr_[0] = {}; -const int OCT9_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT9_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT9_oer_ext_arr_, 0, OCT9_oer_p_}; -const TTCN_Typedescriptor_t OCT9_descr_ = { "@General_Types.OCT9", &OCTETSTRING_ber_, &OCT9_raw_, &OCTETSTRING_text_, &OCT9_xer_, &OCTETSTRING_json_, &OCT9_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT9_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT10_raw_ = {80,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,10,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT10_xer_ = { {"OCT10>\n", "OCT10>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT10_oer_ext_arr_[0] = {}; -const int OCT10_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT10_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT10_oer_ext_arr_, 0, OCT10_oer_p_}; -const TTCN_Typedescriptor_t OCT10_descr_ = { "@General_Types.OCT10", &OCTETSTRING_ber_, &OCT10_raw_, &OCTETSTRING_text_, &OCT10_xer_, &OCTETSTRING_json_, &OCT10_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT10_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT11_raw_ = {88,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,11,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT11_xer_ = { {"OCT11>\n", "OCT11>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT11_oer_ext_arr_[0] = {}; -const int OCT11_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT11_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT11_oer_ext_arr_, 0, OCT11_oer_p_}; -const TTCN_Typedescriptor_t OCT11_descr_ = { "@General_Types.OCT11", &OCTETSTRING_ber_, &OCT11_raw_, &OCTETSTRING_text_, &OCT11_xer_, &OCTETSTRING_json_, &OCT11_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT11_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT12_raw_ = {96,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,12,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT12_xer_ = { {"OCT12>\n", "OCT12>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT12_oer_ext_arr_[0] = {}; -const int OCT12_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT12_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT12_oer_ext_arr_, 0, OCT12_oer_p_}; -const TTCN_Typedescriptor_t OCT12_descr_ = { "@General_Types.OCT12", &OCTETSTRING_ber_, &OCT12_raw_, &OCTETSTRING_text_, &OCT12_xer_, &OCTETSTRING_json_, &OCT12_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT12_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT13_raw_ = {104,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,13,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT13_xer_ = { {"OCT13>\n", "OCT13>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT13_oer_ext_arr_[0] = {}; -const int OCT13_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT13_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT13_oer_ext_arr_, 0, OCT13_oer_p_}; -const TTCN_Typedescriptor_t OCT13_descr_ = { "@General_Types.OCT13", &OCTETSTRING_ber_, &OCT13_raw_, &OCTETSTRING_text_, &OCT13_xer_, &OCTETSTRING_json_, &OCT13_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT13_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT14_raw_ = {112,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,14,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT14_xer_ = { {"OCT14>\n", "OCT14>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT14_oer_ext_arr_[0] = {}; -const int OCT14_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT14_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT14_oer_ext_arr_, 0, OCT14_oer_p_}; -const TTCN_Typedescriptor_t OCT14_descr_ = { "@General_Types.OCT14", &OCTETSTRING_ber_, &OCT14_raw_, &OCTETSTRING_text_, &OCT14_xer_, &OCTETSTRING_json_, &OCT14_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT14_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT15_raw_ = {120,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,15,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT15_xer_ = { {"OCT15>\n", "OCT15>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT15_oer_ext_arr_[0] = {}; -const int OCT15_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT15_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT15_oer_ext_arr_, 0, OCT15_oer_p_}; -const TTCN_Typedescriptor_t OCT15_descr_ = { "@General_Types.OCT15", &OCTETSTRING_ber_, &OCT15_raw_, &OCTETSTRING_text_, &OCT15_xer_, &OCTETSTRING_json_, &OCT15_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT15_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT16_raw_ = {128,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,16,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT16_xer_ = { {"OCT16>\n", "OCT16>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT16_oer_ext_arr_[0] = {}; -const int OCT16_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT16_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT16_oer_ext_arr_, 0, OCT16_oer_p_}; -const TTCN_Typedescriptor_t OCT16_descr_ = { "@General_Types.OCT16", &OCTETSTRING_ber_, &OCT16_raw_, &OCTETSTRING_text_, &OCT16_xer_, &OCTETSTRING_json_, &OCT16_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT16_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT17_raw_ = {136,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,17,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT17_xer_ = { {"OCT17>\n", "OCT17>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT17_oer_ext_arr_[0] = {}; -const int OCT17_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT17_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT17_oer_ext_arr_, 0, OCT17_oer_p_}; -const TTCN_Typedescriptor_t OCT17_descr_ = { "@General_Types.OCT17", &OCTETSTRING_ber_, &OCT17_raw_, &OCTETSTRING_text_, &OCT17_xer_, &OCTETSTRING_json_, &OCT17_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT17_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT18_raw_ = {144,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,18,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT18_xer_ = { {"OCT18>\n", "OCT18>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT18_oer_ext_arr_[0] = {}; -const int OCT18_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT18_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT18_oer_ext_arr_, 0, OCT18_oer_p_}; -const TTCN_Typedescriptor_t OCT18_descr_ = { "@General_Types.OCT18", &OCTETSTRING_ber_, &OCT18_raw_, &OCTETSTRING_text_, &OCT18_xer_, &OCTETSTRING_json_, &OCT18_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT18_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT19_raw_ = {152,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,19,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT19_xer_ = { {"OCT19>\n", "OCT19>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT19_oer_ext_arr_[0] = {}; -const int OCT19_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT19_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT19_oer_ext_arr_, 0, OCT19_oer_p_}; -const TTCN_Typedescriptor_t OCT19_descr_ = { "@General_Types.OCT19", &OCTETSTRING_ber_, &OCT19_raw_, &OCTETSTRING_text_, &OCT19_xer_, &OCTETSTRING_json_, &OCT19_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT19_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT20_raw_ = {160,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,20,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT20_xer_ = { {"OCT20>\n", "OCT20>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT20_oer_ext_arr_[0] = {}; -const int OCT20_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT20_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT20_oer_ext_arr_, 0, OCT20_oer_p_}; -const TTCN_Typedescriptor_t OCT20_descr_ = { "@General_Types.OCT20", &OCTETSTRING_ber_, &OCT20_raw_, &OCTETSTRING_text_, &OCT20_xer_, &OCTETSTRING_json_, &OCT20_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT20_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT22_raw_ = {176,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,22,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT22_xer_ = { {"OCT22>\n", "OCT22>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT22_oer_ext_arr_[0] = {}; -const int OCT22_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT22_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT22_oer_ext_arr_, 0, OCT22_oer_p_}; -const TTCN_Typedescriptor_t OCT22_descr_ = { "@General_Types.OCT22", &OCTETSTRING_ber_, &OCT22_raw_, &OCTETSTRING_text_, &OCT22_xer_, &OCTETSTRING_json_, &OCT22_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT22_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT32_raw_ = {256,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,32,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT32_xer_ = { {"OCT32>\n", "OCT32>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT32_oer_ext_arr_[0] = {}; -const int OCT32_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT32_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT32_oer_ext_arr_, 0, OCT32_oer_p_}; -const TTCN_Typedescriptor_t OCT32_descr_ = { "@General_Types.OCT32", &OCTETSTRING_ber_, &OCT32_raw_, &OCTETSTRING_text_, &OCT32_xer_, &OCTETSTRING_json_, &OCT32_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT32_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT34_raw_ = {272,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,34,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT34_xer_ = { {"OCT34>\n", "OCT34>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT34_oer_ext_arr_[0] = {}; -const int OCT34_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT34_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT34_oer_ext_arr_, 0, OCT34_oer_p_}; -const TTCN_Typedescriptor_t OCT34_descr_ = { "@General_Types.OCT34", &OCTETSTRING_ber_, &OCT34_raw_, &OCTETSTRING_text_, &OCT34_xer_, &OCTETSTRING_json_, &OCT34_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT34_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT46_raw_ = {368,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,46,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT46_xer_ = { {"OCT46>\n", "OCT46>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT46_oer_ext_arr_[0] = {}; -const int OCT46_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT46_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT46_oer_ext_arr_, 0, OCT46_oer_p_}; -const TTCN_Typedescriptor_t OCT46_descr_ = { "@General_Types.OCT46", &OCTETSTRING_ber_, &OCT46_raw_, &OCTETSTRING_text_, &OCT46_xer_, &OCTETSTRING_json_, &OCT46_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT46_default_coding("RAW"); -const XERdescriptor_t OCT1__260_xer_ = { {"OCT1_260>\n", "OCT1_260>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__260_oer_ext_arr_[0] = {}; -const int OCT1__260_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__260_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__260_oer_ext_arr_, 0, OCT1__260_oer_p_}; -const TTCN_Typedescriptor_t OCT1__260_descr_ = { "@General_Types.OCT1_260", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__260_xer_, &OCTETSTRING_json_, &OCT1__260_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__260_default_coding("RAW"); -const XERdescriptor_t OCT1__8_xer_ = { {"OCT1_8>\n", "OCT1_8>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__8_oer_ext_arr_[0] = {}; -const int OCT1__8_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__8_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__8_oer_ext_arr_, 0, OCT1__8_oer_p_}; -const TTCN_Typedescriptor_t OCT1__8_descr_ = { "@General_Types.OCT1_8", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__8_xer_, &OCTETSTRING_json_, &OCT1__8_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__8_default_coding("RAW"); -const XERdescriptor_t OCT1__12_xer_ = { {"OCT1_12>\n", "OCT1_12>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__12_oer_ext_arr_[0] = {}; -const int OCT1__12_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__12_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__12_oer_ext_arr_, 0, OCT1__12_oer_p_}; -const TTCN_Typedescriptor_t OCT1__12_descr_ = { "@General_Types.OCT1_12", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__12_xer_, &OCTETSTRING_json_, &OCT1__12_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__12_default_coding("RAW"); -const XERdescriptor_t OCT1__32_xer_ = { {"OCT1_32>\n", "OCT1_32>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__32_oer_ext_arr_[0] = {}; -const int OCT1__32_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__32_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__32_oer_ext_arr_, 0, OCT1__32_oer_p_}; -const TTCN_Typedescriptor_t OCT1__32_descr_ = { "@General_Types.OCT1_32", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__32_xer_, &OCTETSTRING_json_, &OCT1__32_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__32_default_coding("RAW"); -const XERdescriptor_t OCT1__50_xer_ = { {"OCT1_50>\n", "OCT1_50>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1__50_oer_ext_arr_[0] = {}; -const int OCT1__50_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1__50_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1__50_oer_ext_arr_, 0, OCT1__50_oer_p_}; -const TTCN_Typedescriptor_t OCT1__50_descr_ = { "@General_Types.OCT1_50", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT1__50_xer_, &OCTETSTRING_json_, &OCT1__50_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1__50_default_coding("RAW"); -const XERdescriptor_t OCT3__8_xer_ = { {"OCT3_8>\n", "OCT3_8>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT3__8_oer_ext_arr_[0] = {}; -const int OCT3__8_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT3__8_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT3__8_oer_ext_arr_, 0, OCT3__8_oer_p_}; -const TTCN_Typedescriptor_t OCT3__8_descr_ = { "@General_Types.OCT3_8", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCT3__8_xer_, &OCTETSTRING_json_, &OCT3__8_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT3__8_default_coding("RAW"); -const XERdescriptor_t OCTN_xer_ = { {"OCTN>\n", "OCTN>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCTN_oer_ext_arr_[0] = {}; -const int OCTN_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCTN_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCTN_oer_ext_arr_, 0, OCTN_oer_p_}; -const TTCN_Typedescriptor_t OCTN_descr_ = { "@General_Types.OCTN", &OCTETSTRING_ber_, &OCTETSTRING_raw_, &OCTETSTRING_text_, &OCTN_xer_, &OCTETSTRING_json_, &OCTN_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCTN_default_coding("RAW"); -const TTCN_RAWdescriptor_t HEX1_raw_ = {4,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t HEX1_xer_ = { {"HEX1>\n", "HEX1>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX1_descr_ = { "@General_Types.HEX1", NULL, &HEX1_raw_, NULL, &HEX1_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX1_default_coding("RAW"); -const XERdescriptor_t HEX0__16_xer_ = { {"HEX0_16>\n", "HEX0_16>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX0__16_descr_ = { "@General_Types.HEX0_16", NULL, &HEXSTRING_raw_, NULL, &HEX0__16_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX0__16_default_coding("RAW"); -const XERdescriptor_t HEX5__16_xer_ = { {"HEX5_16>\n", "HEX5_16>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX5__16_descr_ = { "@General_Types.HEX5_16", NULL, &HEXSTRING_raw_, NULL, &HEX5__16_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX5__16_default_coding("RAW"); -const XERdescriptor_t HEX1__32_xer_ = { {"HEX1_32>\n", "HEX1_32>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t HEX1__32_descr_ = { "@General_Types.HEX1_32", NULL, &HEXSTRING_raw_, NULL, &HEX1__32_xer_, &HEXSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING HEX1__32_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT1_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT1_xer_ = { {"INT1>\n", "INT1>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t INT1_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t INT1_descr_ = { "@General_Types.INT1", &INTEGER_ber_, &INT1_raw_, &INTEGER_text_, &INT1_xer_, &INTEGER_json_, &INT1_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT1_default_coding("RAW"); -const TTCN_RAWdescriptor_t LIN1_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t LIN1_xer_ = { {"LIN1>\n", "LIN1>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t LIN1_descr_ = { "@General_Types.LIN1", &INTEGER_ber_, &LIN1_raw_, &INTEGER_text_, &LIN1_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING LIN1_default_coding("RAW"); -const TTCN_RAWdescriptor_t LIN2_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t LIN2_xer_ = { {"LIN2>\n", "LIN2>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t LIN2_descr_ = { "@General_Types.LIN2", &INTEGER_ber_, &LIN2_raw_, &INTEGER_text_, &LIN2_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING LIN2_default_coding("RAW"); -const TTCN_RAWdescriptor_t LIN2__BO__LAST_raw_ = {16,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t LIN2__BO__LAST_xer_ = { {"LIN2_BO_LAST>\n", "LIN2_BO_LAST>\n"}, {14, 14}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t LIN2__BO__LAST_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t LIN2__BO__LAST_descr_ = { "@General_Types.LIN2_BO_LAST", &INTEGER_ber_, &LIN2__BO__LAST_raw_, &INTEGER_text_, &LIN2__BO__LAST_xer_, &INTEGER_json_, &LIN2__BO__LAST_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING LIN2__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t LIN3__BO__LAST_raw_ = {24,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t LIN3__BO__LAST_xer_ = { {"LIN3_BO_LAST>\n", "LIN3_BO_LAST>\n"}, {14, 14}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t LIN3__BO__LAST_descr_ = { "@General_Types.LIN3_BO_LAST", &INTEGER_ber_, &LIN3__BO__LAST_raw_, &INTEGER_text_, &LIN3__BO__LAST_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING LIN3__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t LIN4__BO__LAST_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t LIN4__BO__LAST_xer_ = { {"LIN4_BO_LAST>\n", "LIN4_BO_LAST>\n"}, {14, 14}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t LIN4__BO__LAST_descr_ = { "@General_Types.LIN4_BO_LAST", &INTEGER_ber_, &LIN4__BO__LAST_raw_, &INTEGER_text_, &LIN4__BO__LAST_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING LIN4__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT1b_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT1b_xer_ = { {"INT1b>\n", "INT1b>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT1b_descr_ = { "@General_Types.INT1b", &INTEGER_ber_, &INT1b_raw_, &INTEGER_text_, &INT1b_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT1b_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT2b_raw_ = {2,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT2b_xer_ = { {"INT2b>\n", "INT2b>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT2b_descr_ = { "@General_Types.INT2b", &INTEGER_ber_, &INT2b_raw_, &INTEGER_text_, &INT2b_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT2b_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT3b_raw_ = {3,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT3b_xer_ = { {"INT3b>\n", "INT3b>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT3b_descr_ = { "@General_Types.INT3b", &INTEGER_ber_, &INT3b_raw_, &INTEGER_text_, &INT3b_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT3b_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT4b_raw_ = {4,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT4b_xer_ = { {"INT4b>\n", "INT4b>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT4b_descr_ = { "@General_Types.INT4b", &INTEGER_ber_, &INT4b_raw_, &INTEGER_text_, &INT4b_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT4b_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT5b_raw_ = {5,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT5b_xer_ = { {"INT5b>\n", "INT5b>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT5b_descr_ = { "@General_Types.INT5b", &INTEGER_ber_, &INT5b_raw_, &INTEGER_text_, &INT5b_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT5b_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT6b_raw_ = {6,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT6b_xer_ = { {"INT6b>\n", "INT6b>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t INT6b_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t INT6b_descr_ = { "@General_Types.INT6b", &INTEGER_ber_, &INT6b_raw_, &INTEGER_text_, &INT6b_xer_, &INTEGER_json_, &INT6b_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT6b_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT7b_raw_ = {7,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT7b_xer_ = { {"INT7b>\n", "INT7b>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT7b_descr_ = { "@General_Types.INT7b", &INTEGER_ber_, &INT7b_raw_, &INTEGER_text_, &INT7b_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT7b_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT11b__BO__LAST_raw_ = {11,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT11b__BO__LAST_xer_ = { {"INT11b_BO_LAST>\n", "INT11b_BO_LAST>\n"}, {16, 16}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT11b__BO__LAST_descr_ = { "@General_Types.INT11b_BO_LAST", &INTEGER_ber_, &INT11b__BO__LAST_raw_, &INTEGER_text_, &INT11b__BO__LAST_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT11b__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT12b__BO__LAST_raw_ = {12,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT12b__BO__LAST_xer_ = { {"INT12b_BO_LAST>\n", "INT12b_BO_LAST>\n"}, {16, 16}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT12b__BO__LAST_descr_ = { "@General_Types.INT12b_BO_LAST", &INTEGER_ber_, &INT12b__BO__LAST_raw_, &INTEGER_text_, &INT12b__BO__LAST_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT12b__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT13b__BO__LAST_raw_ = {13,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT13b__BO__LAST_xer_ = { {"INT13b_BO_LAST>\n", "INT13b_BO_LAST>\n"}, {16, 16}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT13b__BO__LAST_descr_ = { "@General_Types.INT13b_BO_LAST", &INTEGER_ber_, &INT13b__BO__LAST_raw_, &INTEGER_text_, &INT13b__BO__LAST_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT13b__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT14b__BO__LAST_raw_ = {14,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT14b__BO__LAST_xer_ = { {"INT14b_BO_LAST>\n", "INT14b_BO_LAST>\n"}, {16, 16}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT14b__BO__LAST_descr_ = { "@General_Types.INT14b_BO_LAST", &INTEGER_ber_, &INT14b__BO__LAST_raw_, &INTEGER_text_, &INT14b__BO__LAST_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT14b__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT18b__BO__LAST_raw_ = {18,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT18b__BO__LAST_xer_ = { {"INT18b_BO_LAST>\n", "INT18b_BO_LAST>\n"}, {16, 16}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t INT18b__BO__LAST_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t INT18b__BO__LAST_descr_ = { "@General_Types.INT18b_BO_LAST", &INTEGER_ber_, &INT18b__BO__LAST_raw_, &INTEGER_text_, &INT18b__BO__LAST_xer_, &INTEGER_json_, &INT18b__BO__LAST_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT18b__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT20b__BO__LAST_raw_ = {20,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT20b__BO__LAST_xer_ = { {"INT20b_BO_LAST>\n", "INT20b_BO_LAST>\n"}, {16, 16}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT20b__BO__LAST_descr_ = { "@General_Types.INT20b_BO_LAST", &INTEGER_ber_, &INT20b__BO__LAST_raw_, &INTEGER_text_, &INT20b__BO__LAST_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT20b__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t INT31b__BO__LAST_raw_ = {31,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t INT31b__BO__LAST_xer_ = { {"INT31b_BO_LAST>\n", "INT31b_BO_LAST>\n"}, {16, 16}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t INT31b__BO__LAST_descr_ = { "@General_Types.INT31b_BO_LAST", &INTEGER_ber_, &INT31b__BO__LAST_raw_, &INTEGER_text_, &INT31b__BO__LAST_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING INT31b__BO__LAST_default_coding("RAW"); -const TTCN_RAWdescriptor_t Integers_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for Integers -const TTCN_Typedescriptor_t Integers_descr_ = { "@General_Types.Integers", NULL, &Integers_raw_, NULL, NULL, NULL, NULL, &INTEGER_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const XERdescriptor_t Integers_0_xer_ = { {"INTEGER>\n", "INTEGER>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t Integers_0_descr_ = { "@General_Types.Integers.INTEGER", &INTEGER_ber_, &INTEGER_raw_, &INTEGER_text_, &Integers_0_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING Integers_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING Integers_default_coding("RAW"); -const TTCN_RAWdescriptor_t Integer__array_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for Integer__array -const TTCN_Typedescriptor_t Integer__array_descr_ = { "@General_Types.Integer_array", NULL, &Integer__array_raw_, NULL, NULL, NULL, NULL, &Integers_descr_, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING Integer__array_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING Integer__array_default_coding("RAW"); -const TTCN_Typedescriptor_t& Dummy__comptype_descr_ = COMPONENT_descr_; -const TTCN_Typedescriptor_t& Dummy__CT_descr_ = COMPONENT_descr_; -const TTCN_RAWdescriptor_t Protocols_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for Protocols -const TTCN_Typedescriptor_t Protocols_descr_ = { "@General_Types.Protocols", NULL, &Protocols_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING Protocols_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT1List_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for OCT1List -const TTCN_Typedescriptor_t OCT1List_descr_ = { "@General_Types.OCT1List", NULL, &OCT1List_raw_, NULL, NULL, NULL, NULL, &OCT1_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const XERdescriptor_t OCT1List_0_xer_ = { {"OCT1>\n", "OCT1>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT1List_0_oer_ext_arr_[0] = {}; -const int OCT1List_0_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT1List_0_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT1List_0_oer_ext_arr_, 0, OCT1List_0_oer_p_}; -const TTCN_Typedescriptor_t OCT1List_0_descr_ = { "@General_Types.OCT1List.", &OCTETSTRING_ber_, &OCT1_raw_, &OCTETSTRING_text_, &OCT1List_0_xer_, &OCTETSTRING_json_, &OCT1List_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT1List_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING OCT1List_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT2List_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for OCT2List -const TTCN_Typedescriptor_t OCT2List_descr_ = { "@General_Types.OCT2List", NULL, &OCT2List_raw_, NULL, NULL, NULL, NULL, &OCT2_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const XERdescriptor_t OCT2List_0_xer_ = { {"OCT2>\n", "OCT2>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT2List_0_oer_ext_arr_[0] = {}; -const int OCT2List_0_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT2List_0_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT2List_0_oer_ext_arr_, 0, OCT2List_0_oer_p_}; -const TTCN_Typedescriptor_t OCT2List_0_descr_ = { "@General_Types.OCT2List.", &OCTETSTRING_ber_, &OCT2_raw_, &OCTETSTRING_text_, &OCT2List_0_xer_, &OCTETSTRING_json_, &OCT2List_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT2List_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING OCT2List_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT3List_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for OCT3List -const TTCN_Typedescriptor_t OCT3List_descr_ = { "@General_Types.OCT3List", NULL, &OCT3List_raw_, NULL, NULL, NULL, NULL, &OCT3_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const XERdescriptor_t OCT3List_0_xer_ = { {"OCT3>\n", "OCT3>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT3List_0_oer_ext_arr_[0] = {}; -const int OCT3List_0_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT3List_0_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT3List_0_oer_ext_arr_, 0, OCT3List_0_oer_p_}; -const TTCN_Typedescriptor_t OCT3List_0_descr_ = { "@General_Types.OCT3List.", &OCTETSTRING_ber_, &OCT3_raw_, &OCTETSTRING_text_, &OCT3List_0_xer_, &OCTETSTRING_json_, &OCT3List_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT3List_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING OCT3List_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT4List_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for OCT4List -const TTCN_Typedescriptor_t OCT4List_descr_ = { "@General_Types.OCT4List", NULL, &OCT4List_raw_, NULL, NULL, NULL, NULL, &OCT4_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const XERdescriptor_t OCT4List_0_xer_ = { {"OCT4>\n", "OCT4>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT4List_0_oer_ext_arr_[0] = {}; -const int OCT4List_0_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT4List_0_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT4List_0_oer_ext_arr_, 0, OCT4List_0_oer_p_}; -const TTCN_Typedescriptor_t OCT4List_0_descr_ = { "@General_Types.OCT4List.", &OCTETSTRING_ber_, &OCT4_raw_, &OCTETSTRING_text_, &OCT4List_0_xer_, &OCTETSTRING_json_, &OCT4List_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT4List_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING OCT4List_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT5List_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for OCT5List -const TTCN_Typedescriptor_t OCT5List_descr_ = { "@General_Types.OCT5List", NULL, &OCT5List_raw_, NULL, NULL, NULL, NULL, &OCT5_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const XERdescriptor_t OCT5List_0_xer_ = { {"OCT5>\n", "OCT5>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT5List_0_oer_ext_arr_[0] = {}; -const int OCT5List_0_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT5List_0_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT5List_0_oer_ext_arr_, 0, OCT5List_0_oer_p_}; -const TTCN_Typedescriptor_t OCT5List_0_descr_ = { "@General_Types.OCT5List.", &OCTETSTRING_ber_, &OCT5_raw_, &OCTETSTRING_text_, &OCT5List_0_xer_, &OCTETSTRING_json_, &OCT5List_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT5List_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING OCT5List_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT6List_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for OCT6List -const TTCN_Typedescriptor_t OCT6List_descr_ = { "@General_Types.OCT6List", NULL, &OCT6List_raw_, NULL, NULL, NULL, NULL, &OCT6_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const XERdescriptor_t OCT6List_0_xer_ = { {"OCT6>\n", "OCT6>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT6List_0_oer_ext_arr_[0] = {}; -const int OCT6List_0_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT6List_0_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT6List_0_oer_ext_arr_, 0, OCT6List_0_oer_p_}; -const TTCN_Typedescriptor_t OCT6List_0_descr_ = { "@General_Types.OCT6List.", &OCTETSTRING_ber_, &OCT6_raw_, &OCTETSTRING_text_, &OCT6List_0_xer_, &OCTETSTRING_json_, &OCT6List_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT6List_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING OCT6List_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT7List_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for OCT7List -const TTCN_Typedescriptor_t OCT7List_descr_ = { "@General_Types.OCT7List", NULL, &OCT7List_raw_, NULL, NULL, NULL, NULL, &OCT7_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const XERdescriptor_t OCT7List_0_xer_ = { {"OCT7>\n", "OCT7>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT7List_0_oer_ext_arr_[0] = {}; -const int OCT7List_0_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT7List_0_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT7List_0_oer_ext_arr_, 0, OCT7List_0_oer_p_}; -const TTCN_Typedescriptor_t OCT7List_0_descr_ = { "@General_Types.OCT7List.", &OCTETSTRING_ber_, &OCT7_raw_, &OCTETSTRING_text_, &OCT7List_0_xer_, &OCTETSTRING_json_, &OCT7List_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT7List_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING OCT7List_default_coding("RAW"); -// No XER for ListOfDummy__comptype -const TTCN_Typedescriptor_t ListOfDummy__comptype_descr_ = { "@General_Types.ListOfDummy_comptype", NULL, NULL, NULL, NULL, NULL, NULL, &COMPONENT_descr_, TTCN_Typedescriptor_t::DONTCARE }; -// No XER for ListOfDummy__CT -const TTCN_Typedescriptor_t ListOfDummy__CT_descr_ = { "@General_Types.ListOfDummy_CT", NULL, NULL, NULL, NULL, NULL, NULL, &COMPONENT_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t ProtocolList_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for ProtocolList -const TTCN_Typedescriptor_t ProtocolList_descr_ = { "@General_Types.ProtocolList", NULL, &ProtocolList_raw_, NULL, NULL, NULL, NULL, &Protocols_descr_, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING ProtocolList_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING ProtocolList_default_coding("RAW"); -TTCN_Module module_object("General_Types", __DATE__, __TIME__, module_checksum, NULL, NULL, 0U, 4294967295U, 4294967295U, 4294967295U, NULL, 0LU, 0, NULL, NULL, NULL, NULL, init_comp_type, NULL, NULL, NULL); - -static const RuntimeVersionChecker ver_checker( current_runtime_version.requires_major_version_6, - current_runtime_version.requires_minor_version_5, - current_runtime_version.requires_patch_level_0, current_runtime_version.requires_runtime_1); - -/* Member functions of C++ classes */ - - -const Integers Integer__array::UNBOUND_ELEM; -Integer__array::Integer__array() -{ -val_ptr = NULL; -} - -Integer__array::Integer__array(null_type) -{ -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} - -Integer__array::Integer__array(const Integer__array& other_value) -{ -if (!other_value.is_bound()) TTCN_error("Copying an unbound value of type @General_Types.Integer_array."); -val_ptr = other_value.val_ptr; -val_ptr->ref_count++; -} - -Integer__array::~Integer__array() -{ -clean_up(); -if (val_ptr != NULL) val_ptr = NULL; -} - -void Integer__array::clean_up() -{ -if (val_ptr != NULL) { -if (val_ptr->ref_count > 1) { -val_ptr->ref_count--; -val_ptr = NULL; -} -else if (val_ptr->ref_count == 1) { -for (int elem_count = 0; elem_count < val_ptr->n_elements; -elem_count++) -if (val_ptr->value_elements[elem_count] != NULL) -delete val_ptr->value_elements[elem_count]; -free_pointers((void**)val_ptr->value_elements); -delete val_ptr; -val_ptr = NULL; -} -else -TTCN_error("Internal error: Invalid reference counter in a record of/set of value."); -} -} - -Integer__array& Integer__array::operator=(null_type) -{ -clean_up(); -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -return *this; -} - -Integer__array& Integer__array::operator=(const Integer__array& other_value) -{ -if (other_value.val_ptr == NULL) TTCN_error("Assigning an unbound value of type @General_Types.Integer_array."); -if (this != &other_value) { -clean_up(); -val_ptr = other_value.val_ptr; -val_ptr->ref_count++; -} -return *this; -} - -boolean Integer__array::operator==(null_type) const -{ -if (val_ptr == NULL) -TTCN_error("The left operand of comparison is an unbound value of type @General_Types.Integer_array."); -return val_ptr->n_elements == 0 ; -} - -boolean Integer__array::operator==(const Integer__array& other_value) const -{ -if (val_ptr == NULL) TTCN_error("The left operand of comparison is an unbound value of type @General_Types.Integer_array."); -if (other_value.val_ptr == NULL) TTCN_error("The right operand of comparison is an unbound value of type @General_Types.Integer_array."); -if (val_ptr == other_value.val_ptr) return TRUE; -if (val_ptr->n_elements != (other_value.val_ptr)->n_elements) -return FALSE; -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++){ -if (val_ptr->value_elements[elem_count] != NULL){ -if ((other_value.val_ptr)->value_elements[elem_count] != NULL){ - if (*val_ptr->value_elements[elem_count] != *(other_value.val_ptr)->value_elements[elem_count]) return FALSE; -} else return FALSE; -} else { -if ((other_value.val_ptr)->value_elements[elem_count] != NULL) return FALSE; -} -} -return TRUE; -} - -Integers& Integer__array::operator[](int index_value) -{ -if (index_value < 0) TTCN_error("Accessing an element of type @General_Types.Integer_array using a negative index: %d.", index_value); -if (val_ptr == NULL) { -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} else if (val_ptr->ref_count > 1) { -struct recordof_setof_struct *new_val_ptr = new recordof_setof_struct; -new_val_ptr->ref_count = 1; -new_val_ptr->n_elements = (index_value >= val_ptr->n_elements) ? index_value + 1 : val_ptr->n_elements; -new_val_ptr->value_elements = (Integers**)allocate_pointers(new_val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++){ -if (val_ptr->value_elements[elem_count] != NULL){ -new_val_ptr->value_elements[elem_count] = new Integers(*(val_ptr->value_elements[elem_count])); -} -} -clean_up(); -val_ptr = new_val_ptr; -} -if (index_value >= val_ptr->n_elements) set_size(index_value + 1); -if (val_ptr->value_elements[index_value] == NULL) { -val_ptr->value_elements[index_value] = new Integers; -} -return *val_ptr->value_elements[index_value]; -} - -Integers& Integer__array::operator[](const INTEGER& index_value) -{ -index_value.must_bound("Using an unbound integer value for indexing a value of type @General_Types.Integer_array."); -return (*this)[(int)index_value]; -} - -const Integers& Integer__array::operator[](int index_value) const -{ -if (val_ptr == NULL) -TTCN_error("Accessing an element in an unbound value of type @General_Types.Integer_array."); -if (index_value < 0) TTCN_error("Accessing an element of type @General_Types.Integer_array using a negative index: %d.", index_value); -if (index_value >= val_ptr->n_elements) TTCN_error("Index overflow in a value of type @General_Types.Integer_array: The index is %d, but the value has only %d elements.", index_value, val_ptr->n_elements); -return (val_ptr->value_elements[index_value] == NULL) ? -UNBOUND_ELEM : *val_ptr->value_elements[index_value]; -} - -const Integers& Integer__array::operator[](const INTEGER& index_value) const -{ -index_value.must_bound("Using an unbound integer value for indexing a value of type @General_Types.Integer_array."); -return (*this)[(int)index_value]; -} - -Integer__array Integer__array::operator<<=(int rotate_count) const -{ -return *this >>= (-rotate_count); -} - -Integer__array Integer__array::operator<<=(const INTEGER& rotate_count) const -{ -rotate_count.must_bound("Unbound integer operand of rotate left operator."); -return *this >>= (int)(-rotate_count); -} - -Integer__array Integer__array::operator>>=(const INTEGER& rotate_count) const -{ -rotate_count.must_bound("Unbound integer operand of rotate right operator."); -return *this >>= (int)rotate_count; -} - -Integer__array Integer__array::operator>>=(int rotate_count) const -{ -if (val_ptr == NULL) TTCN_error("Performing rotation operation on an unbound value of type @General_Types.Integer_array."); -if (val_ptr->n_elements == 0) return *this; -int rc; -if (rotate_count>=0) rc = rotate_count % val_ptr->n_elements; -else rc = val_ptr->n_elements - ((-rotate_count) % val_ptr->n_elements); -if (rc == 0) return *this; -Integer__array ret_val; -ret_val.set_size(val_ptr->n_elements); -for (int i=0; in_elements; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[(i+rc)%val_ptr->n_elements] =new Integers(*val_ptr->value_elements[i]); -} -} -return ret_val; -} - -Integer__array Integer__array::operator+(const Integer__array& other_value) const -{ -if (val_ptr == NULL || other_value.val_ptr == NULL) TTCN_error("Unbound operand of @General_Types.Integer_array concatenation."); -if (val_ptr->n_elements == 0) return other_value; -if (other_value.val_ptr->n_elements == 0) return *this; -Integer__array ret_val; -ret_val.set_size(val_ptr->n_elements+other_value.val_ptr->n_elements); -for (int i=0; in_elements; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i] = new Integers(*val_ptr->value_elements[i]); -} -} -for (int i=0; in_elements; i++) { -if (other_value.val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i+val_ptr->n_elements] = new Integers(*other_value.val_ptr->value_elements[i]); -} -} -return ret_val; -} - -Integer__array Integer__array::substr(int index, int returncount) const -{ -if (val_ptr == NULL) TTCN_error("The first argument of substr() is an unbound value of type @General_Types.Integer_array."); -check_substr_arguments(val_ptr->n_elements, index, returncount, "@General_Types.Integer_array","element"); -Integer__array ret_val; -ret_val.set_size(returncount); -for (int i=0; ivalue_elements[i+index] != NULL) { -ret_val.val_ptr->value_elements[i] = new Integers(*val_ptr->value_elements[i+index]); -} -} -return ret_val; -} - -Integer__array Integer__array::replace(int index, int len, const Integer__array& repl) const -{ -if (val_ptr == NULL) TTCN_error("The first argument of replace() is an unbound value of type @General_Types.Integer_array."); -if (repl.val_ptr == NULL) TTCN_error("The fourth argument of replace() is an unbound value of type @General_Types.Integer_array."); -check_replace_arguments(val_ptr->n_elements, index, len, "@General_Types.Integer_array","element"); -Integer__array ret_val; -ret_val.set_size(val_ptr->n_elements + repl.val_ptr->n_elements - len); -for (int i = 0; i < index; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i] = new Integers(*val_ptr->value_elements[i]); -} -} -for (int i = 0; i < repl.val_ptr->n_elements; i++) { -if (repl.val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i+index] = new Integers(*repl.val_ptr->value_elements[i]); -} -} -for (int i = 0; i < val_ptr->n_elements - index - len; i++) { -if (val_ptr->value_elements[index+i+len] != NULL) { -ret_val.val_ptr->value_elements[index+i+repl.val_ptr->n_elements] = new Integers(*val_ptr->value_elements[index+i+len]); -} -} -return ret_val; -} - -Integer__array Integer__array::replace(int index, int len, const Integer__array_template& repl) const -{ -if (!repl.is_value()) TTCN_error("The fourth argument of function replace() is a template with non-specific value."); -return replace(index, len, repl.valueof()); -} - -void Integer__array::set_size(int new_size) -{ -if (new_size < 0) TTCN_error("Internal error: Setting a negative size for a value of type @General_Types.Integer_array."); -if (val_ptr == NULL) { -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} else if (val_ptr->ref_count > 1) { -struct recordof_setof_struct *new_val_ptr = new recordof_setof_struct; -new_val_ptr->ref_count = 1; -new_val_ptr->n_elements = (new_size < val_ptr->n_elements) ? new_size : val_ptr->n_elements; -new_val_ptr->value_elements = (Integers**)allocate_pointers(new_val_ptr->n_elements); -for (int elem_count = 0; elem_count < new_val_ptr->n_elements; elem_count++) { -if (val_ptr->value_elements[elem_count] != NULL){ -new_val_ptr->value_elements[elem_count] = new Integers(*(val_ptr->value_elements[elem_count])); -} -} -clean_up(); -val_ptr = new_val_ptr; -} -if (new_size > val_ptr->n_elements) { -val_ptr->value_elements = (Integers**)reallocate_pointers((void**)val_ptr->value_elements, val_ptr->n_elements, new_size); -#ifdef TITAN_MEMORY_DEBUG_SET_RECORD_OF -if((val_ptr->n_elements/1000)!=(new_size/1000)) TTCN_warning("New size of type @General_Types.Integer_array: %d",new_size); -#endif -val_ptr->n_elements = new_size; -} else if (new_size < val_ptr->n_elements) { -for (int elem_count = new_size; elem_count < val_ptr->n_elements; elem_count++) -if (val_ptr->value_elements[elem_count] != NULL)delete val_ptr->value_elements[elem_count]; -val_ptr->value_elements = (Integers**)reallocate_pointers((void**)val_ptr->value_elements, val_ptr->n_elements, new_size); -val_ptr->n_elements = new_size; -} -} - -boolean Integer__array::is_value() const -{ -if (val_ptr == NULL) return FALSE; -for(int i = 0; i < val_ptr->n_elements; ++i) { -if (val_ptr->value_elements[i] == NULL || !val_ptr->value_elements[i]->is_value()) return FALSE; -} -return TRUE; -} - -int Integer__array::size_of() const -{ -if (val_ptr == NULL) TTCN_error("Performing sizeof operation on an unbound value of type @General_Types.Integer_array."); -return val_ptr->n_elements; -} - -int Integer__array::lengthof() const -{ -if (val_ptr == NULL) TTCN_error("Performing lengthof operation on an unbound value of type @General_Types.Integer_array."); -for (int my_length=val_ptr->n_elements; my_length>0; my_length--) if (val_ptr->value_elements[my_length-1] != NULL) return my_length; -return 0; -} - -void Integer__array::log() const -{ -if (val_ptr == NULL) {; -TTCN_Logger::log_event_unbound(); -return; -} -switch (val_ptr->n_elements) { -case 0: -TTCN_Logger::log_event_str("{ }"); -break; -default: -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -(*this)[elem_count].log(); -} -TTCN_Logger::log_event_str(" }"); -} -} - -void Integer__array::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE|Module_Param::BC_LIST, "record of value"); - switch (param.get_operation_type()) { - case Module_Param::OT_ASSIGN: - if (param.get_type()==Module_Param::MP_Value_List && param.get_size()==0) { - *this = NULL_VALUE; - return; - } - switch (param.get_type()) { - case Module_Param::MP_Value_List: - set_size(param.get_size()); - for (size_t i=0; iget_type()!=Module_Param::MP_NotUsed) { - (*this)[i].set_param(*curr); - if (!(*this)[i].is_bound()) { - delete val_ptr->value_elements[i]; - val_ptr->value_elements[i] = NULL; - } - } - } - break; - case Module_Param::MP_Indexed_List: - for (size_t i=0; iget_id()->get_index()].set_param(*curr); - if (!(*this)[curr->get_id()->get_index()].is_bound()) { - delete val_ptr->value_elements[curr->get_id()->get_index()]; - val_ptr->value_elements[curr->get_id()->get_index()] = NULL; - } - } - break; - default: - param.type_error("record of value", "@General_Types.Integer_array"); - } - break; - case Module_Param::OT_CONCAT: - switch (param.get_type()) { - case Module_Param::MP_Value_List: { - if (!is_bound()) *this = NULL_VALUE; - int start_idx = lengthof(); - for (size_t i=0; iget_type()!=Module_Param::MP_NotUsed)) { - (*this)[start_idx+(int)i].set_param(*curr); - } - } - } break; - case Module_Param::MP_Indexed_List: - param.error("Cannot concatenate an indexed value list"); - break; - default: - param.type_error("record of value", "@General_Types.Integer_array"); - } - break; - default: - TTCN_error("Internal error: Unknown operation type."); - } -} - -void Integer__array::set_implicit_omit() -{ -if (val_ptr == NULL) return; -for (int i = 0; i < val_ptr->n_elements; i++) { -if (val_ptr->value_elements[i] != NULL) val_ptr->value_elements[i]->set_implicit_omit(); -} -} - -void Integer__array::encode_text(Text_Buf& text_buf) const -{ -if (val_ptr == NULL) TTCN_error("Text encoder: Encoding an unbound value of type @General_Types.Integer_array."); -text_buf.push_int(val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) -(*this)[elem_count].encode_text(text_buf); -} - -void Integer__array::decode_text(Text_Buf& text_buf) -{ -clean_up(); -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = text_buf.pull_int().get_val(); -if (val_ptr->n_elements < 0) TTCN_error("Text decoder: Negative size was received for a value of type @General_Types.Integer_array."); -val_ptr->value_elements = (Integers**)allocate_pointers(val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) { -val_ptr->value_elements[elem_count] = new Integers; -val_ptr->value_elements[elem_count]->decode_text(text_buf); -} -} - -void Integer__array::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void Integer__array::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int Integer__array::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean /*no_err*/, int sel_field, boolean first_call, const RAW_Force_Omit*){ - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - int decoded_length=0; - int decoded_field_length=0; - size_t start_of_field=0; - if(first_call) { - clean_up(); - val_ptr=new recordof_setof_struct; - val_ptr->ref_count=1; - val_ptr->n_elements=0; - val_ptr->value_elements=NULL; - } - int start_field=val_ptr->n_elements; - if(p_td.raw->fieldlength || sel_field!=-1){ - int a=0; - if(sel_field==-1) sel_field=p_td.raw->fieldlength; - for(a=0;an_elements=0; - } else { - if(limit==0){ - if(!first_call) return -1; - val_ptr->n_elements=0; - return decoded_length+p_buf.increase_pos_padd(p_td.raw->padding)+prepaddlength; - } - int a=start_field; - while(limit>0){ - start_of_field=p_buf.get_pos_bit(); - decoded_field_length=(*this)[a].RAW_decode(*p_td.oftype_descr,p_buf,limit,top_bit_ord,TRUE); - if(decoded_field_length < 0){ - delete &(*this)[a]; - val_ptr->n_elements--; - p_buf.set_pos_bit(start_of_field); - if(a>start_field){ - return decoded_length+p_buf.increase_pos_padd(p_td.raw->padding)+prepaddlength; - } else return -1; - } - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - a++; - } - } - return decoded_length+p_buf.increase_pos_padd(p_td.raw->padding)+prepaddlength; -} - -int Integer__array::RAW_encode(const TTCN_Typedescriptor_t& p_td,RAW_enc_tree& myleaf) const{ - int encoded_length=0; - int encoded_num_of_records=p_td.raw->fieldlength?smaller(val_ptr->n_elements, p_td.raw->fieldlength):val_ptr->n_elements; - myleaf.isleaf=FALSE; - myleaf.rec_of=TRUE; - myleaf.body.node.num_of_nodes=encoded_num_of_records; - myleaf.body.node.nodes=init_nodes_of_enc_tree(encoded_num_of_records); - for(int a=0;araw); - encoded_length+=(*this)[a].RAW_encode(*p_td.oftype_descr,*myleaf.body.node.nodes[a]); - } - return myleaf.length=encoded_length; -} - -void Integer__array_template::copy_value(const Integer__array& other_value) -{ -if (!other_value.is_bound()) TTCN_error("Initialization of a template of type @General_Types.Integer_array with an unbound value."); -single_value.n_elements = other_value.size_of(); -single_value.value_elements = (Integers_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (other_value[elem_count].is_bound()) { -single_value.value_elements[elem_count] = new Integers_template(other_value[elem_count]); -} else { -single_value.value_elements[elem_count] = new Integers_template; -} -} -set_selection(SPECIFIC_VALUE); -} - -void Integer__array_template::copy_template(const Integer__array_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value.n_elements = other_value.single_value.n_elements; -single_value.value_elements = (Integers_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (UNINITIALIZED_TEMPLATE != other_value.single_value.value_elements[elem_count]->get_selection()) { -single_value.value_elements[elem_count] = new Integers_template(*other_value.single_value.value_elements[elem_count]); -} else { -single_value.value_elements[elem_count] = new Integers_template; -} -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new Integer__array_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @General_Types.Integer_array."); -break; -} -set_selection(other_value); -} - -boolean Integer__array_template::match_function_specific(const Base_Type *value_ptr, int value_index, const Restricted_Length_Template *template_ptr, int template_index, boolean legacy) -{ -if (value_index >= 0) return ((const Integer__array_template*)template_ptr)->single_value.value_elements[template_index]->match((*(const Integer__array*)value_ptr)[value_index], legacy); -else return ((const Integer__array_template*)template_ptr)->single_value.value_elements[template_index]->is_any_or_omit(); -} - -Integer__array_template::Integer__array_template() -{ -} - -Integer__array_template::Integer__array_template(template_sel other_value) - : Record_Of_Template(other_value) -{ -check_single_selection(other_value); -} - -Integer__array_template::Integer__array_template(null_type) - : Record_Of_Template(SPECIFIC_VALUE) -{ -single_value.n_elements = 0; -single_value.value_elements = NULL; -} - -Integer__array_template::Integer__array_template(const Integer__array& other_value) -{ -copy_value(other_value); -} - -Integer__array_template::Integer__array_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const Integer__array&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @General_Types.Integer_array from an unbound optional field."); -} -} - -Integer__array_template::Integer__array_template(const Integer__array_template& other_value) - : Record_Of_Template() -{ -copy_template(other_value); -} - -Integer__array_template::~Integer__array_template() -{ -clean_up(); -} - -void Integer__array_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -delete single_value.value_elements[elem_count]; -free_pointers((void**)single_value.value_elements); -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -Integer__array_template& Integer__array_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -Integer__array_template& Integer__array_template::operator=(null_type) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value.n_elements = 0; -single_value.value_elements = NULL; -return *this; -} - -Integer__array_template& Integer__array_template::operator=(const Integer__array& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -Integer__array_template& Integer__array_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const Integer__array&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @General_Types.Integer_array."); -} -return *this; -} - -Integer__array_template& Integer__array_template::operator=(const Integer__array_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -Integers_template& Integer__array_template::operator[](int index_value) -{ -if (index_value < 0) TTCN_error("Accessing an element of a template for type @General_Types.Integer_array using a negative index: %d.", index_value); -switch (template_selection) -{ - case SPECIFIC_VALUE: - if(index_value < single_value.n_elements) break; - // no break - case OMIT_VALUE: - case ANY_VALUE: - case ANY_OR_OMIT: - case UNINITIALIZED_TEMPLATE: - set_size(index_value + 1); - break; - default: - TTCN_error("Accessing an element of a non-specific template for type @General_Types.Integer_array."); - break; -} -return *single_value.value_elements[index_value]; -} - -Integers_template& Integer__array_template::operator[](const INTEGER& index_value) -{ -index_value.must_bound("Using an unbound integer value for indexing a template of type @General_Types.Integer_array."); -return (*this)[(int)index_value]; -} - -const Integers_template& Integer__array_template::operator[](int index_value) const -{ -if (index_value < 0) TTCN_error("Accessing an element of a template for type @General_Types.Integer_array using a negative index: %d.", index_value); -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing an element of a non-specific template for type @General_Types.Integer_array."); -if (index_value >= single_value.n_elements) TTCN_error("Index overflow in a template of type @General_Types.Integer_array: The index is %d, but the template has only %d elements.", index_value, single_value.n_elements); -return *single_value.value_elements[index_value]; -} - -const Integers_template& Integer__array_template::operator[](const INTEGER& index_value) const -{ -index_value.must_bound("Using an unbound integer value for indexing a template of type @General_Types.Integer_array."); -return (*this)[(int)index_value]; -} - -void Integer__array_template::set_size(int new_size) -{ -if (new_size < 0) TTCN_error("Internal error: Setting a negative size for a template of type @General_Types.Integer_array."); -template_sel old_selection = template_selection; -if (old_selection != SPECIFIC_VALUE) { -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value.n_elements = 0; -single_value.value_elements = NULL; -} -if (new_size > single_value.n_elements) { -single_value.value_elements = (Integers_template**)reallocate_pointers((void**)single_value.value_elements, single_value.n_elements, new_size); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -for (int elem_count = single_value.n_elements; elem_count < new_size; elem_count++) -single_value.value_elements[elem_count] = new Integers_template(ANY_VALUE); -} else { -for (int elem_count = single_value.n_elements; elem_count < new_size; elem_count++) -single_value.value_elements[elem_count] = new Integers_template; -} -single_value.n_elements = new_size; -} else if (new_size < single_value.n_elements) { -for (int elem_count = new_size; elem_count < single_value.n_elements; elem_count++) -delete single_value.value_elements[elem_count]; -single_value.value_elements = (Integers_template**)reallocate_pointers((void**)single_value.value_elements, single_value.n_elements, new_size); -single_value.n_elements = new_size; -} -} - -int Integer__array_template::n_elem() const -{ - switch (template_selection) { - case SPECIFIC_VALUE: - return single_value.n_elements; - break; - case VALUE_LIST: - return value_list.n_values; - break; - default: - TTCN_error("Performing n_elem"); - } -} - -int Integer__array_template::size_of(boolean is_size) const -{ -const char* op_name = is_size ? "size" : "length"; -int min_size; -boolean has_any_or_none; -if (is_ifpresent) TTCN_error("Performing %sof() operation on a template of type @General_Types.Integer_array which has an ifpresent attribute.", op_name); -switch (template_selection) -{ -case SPECIFIC_VALUE: { - min_size = 0; - has_any_or_none = FALSE; - int elem_count = single_value.n_elements; - if (!is_size) { while (elem_count>0 && !single_value.value_elements[elem_count-1]->is_bound()) elem_count--; } - for (int i=0; iget_selection()) { - case OMIT_VALUE: - TTCN_error("Performing %sof() operation on a template of type @General_Types.Integer_array containing omit element.", op_name); - case ANY_OR_OMIT: - has_any_or_none = TRUE; - break; - default: - min_size++; - break; - } - } -} break; -case OMIT_VALUE: - TTCN_error("Performing %sof() operation on a template of type @General_Types.Integer_array containing omit value.", op_name); -case ANY_VALUE: -case ANY_OR_OMIT: - min_size = 0; - has_any_or_none = TRUE; - break; -case VALUE_LIST: -{ - if (value_list.n_values<1) - TTCN_error("Performing %sof() operation on a template of type @General_Types.Integer_array containing an empty list.", op_name); - int item_size = value_list.list_value[0].size_of(is_size); - for (unsigned int i = 1; i < value_list.n_values; i++) { - if (value_list.list_value[i].size_of(is_size)!=item_size) - TTCN_error("Performing %sof() operation on a template of type @General_Types.Integer_array containing a value list with different sizes.", op_name); - } - min_size = item_size; - has_any_or_none = FALSE; - break; -} -case COMPLEMENTED_LIST: - TTCN_error("Performing %sof() operation on a template of type @General_Types.Integer_array containing complemented list.", op_name); -default: - TTCN_error("Performing %sof() operation on an uninitialized/unsupported template of type @General_Types.Integer_array.", op_name); -} -return check_section_is_single(min_size, has_any_or_none, op_name, "a", "template of type @General_Types.Integer_array"); -} - -boolean Integer__array_template::match(const Integer__array& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -int value_length = other_value.size_of(); -if (!match_length(value_length)) return FALSE; -switch (template_selection) { -case SPECIFIC_VALUE: -return match_record_of(&other_value, value_length, this, single_value.n_elements, match_function_specific, legacy); -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching with an uninitialized/unsupported template of type @General_Types.Integer_array."); -} -return FALSE; -} - -boolean Integer__array_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -if (!single_value.value_elements[elem_count]->is_value()) return FALSE; -return TRUE; -} - -Integer__array Integer__array_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of type @General_Types.Integer_array."); -Integer__array ret_val; -ret_val.set_size(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -if (single_value.value_elements[elem_count]->is_bound()) { -ret_val[elem_count] = single_value.value_elements[elem_count]->valueof(); -} -return ret_val; -} - -Integer__array Integer__array_template::substr(int index, int returncount) const -{ -if (!is_value()) TTCN_error("The first argument of function substr() is a template with non-specific value."); -return valueof().substr(index, returncount); -} - -Integer__array Integer__array_template::replace(int index, int len, const Integer__array_template& repl) const -{ -if (!is_value()) TTCN_error("The first argument of function replace() is a template with non-specific value."); -if (!repl.is_value()) TTCN_error("The fourth argument of function replace() is a template with non-specific value."); -return valueof().replace(index, len, repl.valueof()); -} - -Integer__array Integer__array_template::replace(int index, int len, const Integer__array& repl) const -{ -if (!is_value()) TTCN_error("The first argument of function replace() is a template with non-specific value."); -return valueof().replace(index, len, repl); -} - -void Integer__array_template::set_type(template_sel template_type, unsigned int list_length) -{ -clean_up(); -switch (template_type) { -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = list_length; -value_list.list_value = new Integer__array_template[list_length]; -break; -default: -TTCN_error("Internal error: Setting an invalid type for a template of type @General_Types.Integer_array."); -} -set_selection(template_type); -} - -Integer__array_template& Integer__array_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Internal error: Accessing a list element of a non-list template of type @General_Types.Integer_array."); -if (list_index >= value_list.n_values) TTCN_error("Internal error: Index overflow in a value list template of type @General_Types.Integer_array."); -return value_list.list_value[list_index]; -} - -void Integer__array_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -if (single_value.n_elements > 0) { -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -if (permutation_starts_at(elem_count)) TTCN_Logger::log_event_str("permutation("); -single_value.value_elements[elem_count]->log(); -if (permutation_ends_at(elem_count)) TTCN_Logger::log_char(')'); -} -TTCN_Logger::log_event_str(" }"); -} else TTCN_Logger::log_event_str("{ }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_restricted(); -log_ifpresent(); -} - -void Integer__array_template::log_match(const Integer__array& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -}else{ -if (template_selection == SPECIFIC_VALUE && single_value.n_elements > 0 && get_number_of_permutations() == 0 && single_value.n_elements == match_value.size_of()) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if(!single_value.value_elements[elem_count]->match(match_value[elem_count], legacy)){ -TTCN_Logger::log_logmatch_info("[%d]", elem_count); -single_value.value_elements[elem_count]->log_match(match_value[elem_count], legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -log_match_length(single_value.n_elements); -} else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE && single_value.n_elements > 0 && get_number_of_permutations() == 0 && single_value.n_elements == match_value.size_of()) { -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -single_value.value_elements[elem_count]->log_match(match_value[elem_count], legacy); -} -TTCN_Logger::log_event_str(" }"); -log_match_length(single_value.n_elements); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void Integer__array_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_permutation(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -single_value.value_elements[elem_count]->encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @General_Types.Integer_array."); -} -} - -void Integer__array_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_permutation(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value.n_elements = text_buf.pull_int().get_val(); -if (single_value.n_elements < 0) TTCN_error("Text decoder: Negative size was received for a template of type @General_Types.Integer_array."); -single_value.value_elements = (Integers_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -single_value.value_elements[elem_count] = new Integers_template; -single_value.value_elements[elem_count]->decode_text(text_buf); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new Integer__array_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of type @General_Types.Integer_array."); -} -} - -boolean Integer__array_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean Integer__array_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_id()->get_index())].set_param(*param.get_elem(p_i)); - } - break; - case Module_Param::MP_Value_List: { - set_size(param.get_size()); - int curr_idx = 0; - for (size_t p_i=0; p_iget_type()) { - case Module_Param::MP_NotUsed: - curr_idx++; - break; - case Module_Param::MP_Permutation_Template: { - int perm_start_idx = curr_idx; - Module_Param* param_i = param.get_elem(p_i); - for (size_t perm_i=0; perm_iget_size(); perm_i++) { - (*this)[curr_idx].set_param(*(param_i->get_elem(perm_i))); - curr_idx++; - } - int perm_end_idx = curr_idx - 1; - add_permutation(perm_start_idx, perm_end_idx); - } break; - default: - (*this)[curr_idx].set_param(*param.get_elem(p_i)); - curr_idx++; - } - } - } break; - default: - param.type_error("record of template", "@General_Types.Integer_array"); - } - is_ifpresent = param.get_ifpresent(); - set_length_range(param); -} - -void Integer__array_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -for (int i=0; icheck_restriction(t_res, t_name ? t_name : "@General_Types.Integer_array"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@General_Types.Integer_array"); -} - -boolean Integer__array_template::get_istemplate_kind(const char* type) const { -if (!strcmp(type, "AnyElement")) { - if (template_selection != SPECIFIC_VALUE) { - return FALSE; - } - for (int i = 0; i < single_value.n_elements; i++) { - if (single_value.value_elements[i]->get_selection() == ANY_VALUE) { - return TRUE; - } - } - return FALSE; -} else if (!strcmp(type, "AnyElementsOrNone")) { - if (template_selection != SPECIFIC_VALUE) { - return FALSE; - } - for (int i = 0; i < single_value.n_elements; i++) { - if (single_value.value_elements[i]->get_selection() == ANY_OR_OMIT) { - return TRUE; - } - } - return FALSE; -} else if (!strcmp(type, "permutation")) { - return number_of_permutations; -} else if (!strcmp(type, "length")) { - return length_restriction_type != NO_LENGTH_RESTRICTION; -} else { - return Base_Template::get_istemplate_kind(type); -} -} -Protocols::Protocols() -{ -enum_value = UNBOUND_VALUE; -} - -Protocols::Protocols(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @General_Types.Protocols with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -Protocols::Protocols(enum_type other_value) -{ -enum_value = other_value; -} - -Protocols::Protocols(const Protocols& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @General_Types.Protocols."); -enum_value = other_value.enum_value; -} - -Protocols& Protocols::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @General_Types.Protocols.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -Protocols& Protocols::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -Protocols& Protocols::operator=(const Protocols& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @General_Types.Protocols."); -enum_value = other_value.enum_value; -return *this; -} - -boolean Protocols::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @General_Types.Protocols."); -return enum_value == other_value; -} - -boolean Protocols::operator==(const Protocols& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @General_Types.Protocols."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @General_Types.Protocols."); -return enum_value == other_value.enum_value; -} - -boolean Protocols::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @General_Types.Protocols."); -return enum_value < other_value; -} - -boolean Protocols::operator<(const Protocols& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @General_Types.Protocols."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @General_Types.Protocols."); -return enum_value < other_value.enum_value; -} - -boolean Protocols::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @General_Types.Protocols."); -return enum_value > other_value; -} - -boolean Protocols::operator>(const Protocols& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @General_Types.Protocols."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @General_Types.Protocols."); -return enum_value > other_value.enum_value; -} - -const char *Protocols::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case mtp3: return "mtp3"; -case sccp: return "sccp"; -case isup: return "isup"; -case bicc: return "bicc"; -case qaal2: return "qaal2"; -case gcp: return "gcp"; -case bssap: return "bssap"; -case bssmap: return "bssmap"; -case ranap: return "ranap"; -case dtap: return "dtap"; -default: return ""; -} -} - -Protocols::enum_type Protocols::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "mtp3")) return mtp3; -else if (!strcmp(str_par, "sccp")) return sccp; -else if (!strcmp(str_par, "isup")) return isup; -else if (!strcmp(str_par, "bicc")) return bicc; -else if (!strcmp(str_par, "qaal2")) return qaal2; -else if (!strcmp(str_par, "gcp")) return gcp; -else if (!strcmp(str_par, "bssap")) return bssap; -else if (!strcmp(str_par, "bssmap")) return bssmap; -else if (!strcmp(str_par, "ranap")) return ranap; -else if (!strcmp(str_par, "dtap")) return dtap; -else return UNKNOWN_VALUE; -} - -boolean Protocols::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -case 4: -case 5: -case 6: -case 7: -case 8: -case 9: -return TRUE; -default: -return FALSE; -} -} - -int Protocols::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @General_Types.Protocols.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int Protocols::enum2int(const Protocols& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @General_Types.Protocols.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void Protocols::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @General_Types.Protocols.", int_val); -enum_value = (enum_type)int_val; -} - -Protocols::operator Protocols::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @General_Types.Protocols."); -return enum_value; -} - -void Protocols::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void Protocols::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@General_Types.Protocols"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @General_Types.Protocols."); - } -} - -void Protocols::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @General_Types.Protocols."); -text_buf.push_int(enum_value); -} - -void Protocols::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @General_Types.Protocols.", enum_value); -} - -void Protocols::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void Protocols::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int Protocols::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 4, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int Protocols::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 4); -} - -void Protocols_template::copy_template(const Protocols_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new Protocols_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @General_Types.Protocols."); -} -} - -Protocols_template::Protocols_template() -{ -} - -Protocols_template::Protocols_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -Protocols_template::Protocols_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!Protocols::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @General_Types.Protocols with unknown numeric value %d.", other_value); -single_value = (Protocols::enum_type)other_value; -} - -Protocols_template::Protocols_template(Protocols::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -Protocols_template::Protocols_template(const Protocols& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == Protocols::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @General_Types.Protocols."); -single_value = other_value.enum_value; -} - -Protocols_template::Protocols_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (Protocols::enum_type)(const Protocols&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @General_Types.Protocols from an unbound optional field."); -} -} - -Protocols_template::Protocols_template(const Protocols_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -Protocols_template::~Protocols_template() -{ -clean_up(); -} - -boolean Protocols_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean Protocols_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != Protocols::UNBOUND_VALUE; -} - -void Protocols_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -Protocols_template& Protocols_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -Protocols_template& Protocols_template::operator=(int other_value) -{ -if (!Protocols::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @General_Types.Protocols.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (Protocols::enum_type)other_value; -return *this; -} - -Protocols_template& Protocols_template::operator=(Protocols::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -Protocols_template& Protocols_template::operator=(const Protocols& other_value) -{ -if (other_value.enum_value == Protocols::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @General_Types.Protocols to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -Protocols_template& Protocols_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (Protocols::enum_type)(const Protocols&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @General_Types.Protocols."); -} -return *this; -} - -Protocols_template& Protocols_template::operator=(const Protocols_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean Protocols_template::match(Protocols::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @General_Types.Protocols."); -} -return FALSE; -} - -boolean Protocols_template::match(const Protocols& other_value, boolean) const -{ -if (other_value.enum_value == Protocols::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @General_Types.Protocols with an unbound value."); -return match(other_value.enum_value); -} - -Protocols::enum_type Protocols_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @General_Types.Protocols."); -return single_value; -} - -void Protocols_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @General_Types.Protocols."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new Protocols_template[list_length]; -} - -Protocols_template& Protocols_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @General_Types.Protocols."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @General_Types.Protocols."); -return value_list.list_value[list_index]; -} - -void Protocols_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(Protocols::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void Protocols_template::log_match(const Protocols& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void Protocols_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @General_Types.Protocols."); -} -} - -void Protocols_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (Protocols::enum_type)text_buf.pull_int().get_val(); -if (!Protocols::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @General_Types.Protocols.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new Protocols_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @General_Types.Protocols."); -} -} - -boolean Protocols_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean Protocols_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - Protocols_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - Protocols::enum_type enum_val = Protocols::str_to_enum(m_p->get_enumerated()); - if (!Protocols::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @General_Types.Protocols."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@General_Types.Protocols"); - } - is_ifpresent = param.get_ifpresent(); -} - -void Protocols_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@General_Types.Protocols"); -} - - -const COMPONENT ListOfDummy__comptype::UNBOUND_ELEM; -ListOfDummy__comptype::ListOfDummy__comptype() -{ -val_ptr = NULL; -} - -ListOfDummy__comptype::ListOfDummy__comptype(null_type) -{ -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} - -ListOfDummy__comptype::ListOfDummy__comptype(const ListOfDummy__comptype& other_value) -{ -if (!other_value.is_bound()) TTCN_error("Copying an unbound value of type @General_Types.ListOfDummy_comptype."); -val_ptr = other_value.val_ptr; -val_ptr->ref_count++; -} - -ListOfDummy__comptype::~ListOfDummy__comptype() -{ -clean_up(); -if (val_ptr != NULL) val_ptr = NULL; -} - -void ListOfDummy__comptype::clean_up() -{ -if (val_ptr != NULL) { -if (val_ptr->ref_count > 1) { -val_ptr->ref_count--; -val_ptr = NULL; -} -else if (val_ptr->ref_count == 1) { -for (int elem_count = 0; elem_count < val_ptr->n_elements; -elem_count++) -if (val_ptr->value_elements[elem_count] != NULL) -delete val_ptr->value_elements[elem_count]; -free_pointers((void**)val_ptr->value_elements); -delete val_ptr; -val_ptr = NULL; -} -else -TTCN_error("Internal error: Invalid reference counter in a record of/set of value."); -} -} - -ListOfDummy__comptype& ListOfDummy__comptype::operator=(null_type) -{ -clean_up(); -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -return *this; -} - -ListOfDummy__comptype& ListOfDummy__comptype::operator=(const ListOfDummy__comptype& other_value) -{ -if (other_value.val_ptr == NULL) TTCN_error("Assigning an unbound value of type @General_Types.ListOfDummy_comptype."); -if (this != &other_value) { -clean_up(); -val_ptr = other_value.val_ptr; -val_ptr->ref_count++; -} -return *this; -} - -boolean ListOfDummy__comptype::operator==(null_type) const -{ -if (val_ptr == NULL) -TTCN_error("The left operand of comparison is an unbound value of type @General_Types.ListOfDummy_comptype."); -return val_ptr->n_elements == 0 ; -} - -boolean ListOfDummy__comptype::operator==(const ListOfDummy__comptype& other_value) const -{ -if (val_ptr == NULL) TTCN_error("The left operand of comparison is an unbound value of type @General_Types.ListOfDummy_comptype."); -if (other_value.val_ptr == NULL) TTCN_error("The right operand of comparison is an unbound value of type @General_Types.ListOfDummy_comptype."); -if (val_ptr == other_value.val_ptr) return TRUE; -if (val_ptr->n_elements != (other_value.val_ptr)->n_elements) -return FALSE; -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++){ -if (val_ptr->value_elements[elem_count] != NULL){ -if ((other_value.val_ptr)->value_elements[elem_count] != NULL){ - if (*val_ptr->value_elements[elem_count] != *(other_value.val_ptr)->value_elements[elem_count]) return FALSE; -} else return FALSE; -} else { -if ((other_value.val_ptr)->value_elements[elem_count] != NULL) return FALSE; -} -} -return TRUE; -} - -COMPONENT& ListOfDummy__comptype::operator[](int index_value) -{ -if (index_value < 0) TTCN_error("Accessing an element of type @General_Types.ListOfDummy_comptype using a negative index: %d.", index_value); -if (val_ptr == NULL) { -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} else if (val_ptr->ref_count > 1) { -struct recordof_setof_struct *new_val_ptr = new recordof_setof_struct; -new_val_ptr->ref_count = 1; -new_val_ptr->n_elements = (index_value >= val_ptr->n_elements) ? index_value + 1 : val_ptr->n_elements; -new_val_ptr->value_elements = (COMPONENT**)allocate_pointers(new_val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++){ -if (val_ptr->value_elements[elem_count] != NULL){ -new_val_ptr->value_elements[elem_count] = new COMPONENT(*(val_ptr->value_elements[elem_count])); -} -} -clean_up(); -val_ptr = new_val_ptr; -} -if (index_value >= val_ptr->n_elements) set_size(index_value + 1); -if (val_ptr->value_elements[index_value] == NULL) { -val_ptr->value_elements[index_value] = new COMPONENT; -} -return *val_ptr->value_elements[index_value]; -} - -COMPONENT& ListOfDummy__comptype::operator[](const INTEGER& index_value) -{ -index_value.must_bound("Using an unbound integer value for indexing a value of type @General_Types.ListOfDummy_comptype."); -return (*this)[(int)index_value]; -} - -const COMPONENT& ListOfDummy__comptype::operator[](int index_value) const -{ -if (val_ptr == NULL) -TTCN_error("Accessing an element in an unbound value of type @General_Types.ListOfDummy_comptype."); -if (index_value < 0) TTCN_error("Accessing an element of type @General_Types.ListOfDummy_comptype using a negative index: %d.", index_value); -if (index_value >= val_ptr->n_elements) TTCN_error("Index overflow in a value of type @General_Types.ListOfDummy_comptype: The index is %d, but the value has only %d elements.", index_value, val_ptr->n_elements); -return (val_ptr->value_elements[index_value] == NULL) ? -UNBOUND_ELEM : *val_ptr->value_elements[index_value]; -} - -const COMPONENT& ListOfDummy__comptype::operator[](const INTEGER& index_value) const -{ -index_value.must_bound("Using an unbound integer value for indexing a value of type @General_Types.ListOfDummy_comptype."); -return (*this)[(int)index_value]; -} - -ListOfDummy__comptype ListOfDummy__comptype::operator<<=(int rotate_count) const -{ -return *this >>= (-rotate_count); -} - -ListOfDummy__comptype ListOfDummy__comptype::operator<<=(const INTEGER& rotate_count) const -{ -rotate_count.must_bound("Unbound integer operand of rotate left operator."); -return *this >>= (int)(-rotate_count); -} - -ListOfDummy__comptype ListOfDummy__comptype::operator>>=(const INTEGER& rotate_count) const -{ -rotate_count.must_bound("Unbound integer operand of rotate right operator."); -return *this >>= (int)rotate_count; -} - -ListOfDummy__comptype ListOfDummy__comptype::operator>>=(int rotate_count) const -{ -if (val_ptr == NULL) TTCN_error("Performing rotation operation on an unbound value of type @General_Types.ListOfDummy_comptype."); -if (val_ptr->n_elements == 0) return *this; -int rc; -if (rotate_count>=0) rc = rotate_count % val_ptr->n_elements; -else rc = val_ptr->n_elements - ((-rotate_count) % val_ptr->n_elements); -if (rc == 0) return *this; -ListOfDummy__comptype ret_val; -ret_val.set_size(val_ptr->n_elements); -for (int i=0; in_elements; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[(i+rc)%val_ptr->n_elements] =new COMPONENT(*val_ptr->value_elements[i]); -} -} -return ret_val; -} - -ListOfDummy__comptype ListOfDummy__comptype::operator+(const ListOfDummy__comptype& other_value) const -{ -if (val_ptr == NULL || other_value.val_ptr == NULL) TTCN_error("Unbound operand of @General_Types.ListOfDummy_comptype concatenation."); -if (val_ptr->n_elements == 0) return other_value; -if (other_value.val_ptr->n_elements == 0) return *this; -ListOfDummy__comptype ret_val; -ret_val.set_size(val_ptr->n_elements+other_value.val_ptr->n_elements); -for (int i=0; in_elements; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i] = new COMPONENT(*val_ptr->value_elements[i]); -} -} -for (int i=0; in_elements; i++) { -if (other_value.val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i+val_ptr->n_elements] = new COMPONENT(*other_value.val_ptr->value_elements[i]); -} -} -return ret_val; -} - -ListOfDummy__comptype ListOfDummy__comptype::substr(int index, int returncount) const -{ -if (val_ptr == NULL) TTCN_error("The first argument of substr() is an unbound value of type @General_Types.ListOfDummy_comptype."); -check_substr_arguments(val_ptr->n_elements, index, returncount, "@General_Types.ListOfDummy_comptype","element"); -ListOfDummy__comptype ret_val; -ret_val.set_size(returncount); -for (int i=0; ivalue_elements[i+index] != NULL) { -ret_val.val_ptr->value_elements[i] = new COMPONENT(*val_ptr->value_elements[i+index]); -} -} -return ret_val; -} - -ListOfDummy__comptype ListOfDummy__comptype::replace(int index, int len, const ListOfDummy__comptype& repl) const -{ -if (val_ptr == NULL) TTCN_error("The first argument of replace() is an unbound value of type @General_Types.ListOfDummy_comptype."); -if (repl.val_ptr == NULL) TTCN_error("The fourth argument of replace() is an unbound value of type @General_Types.ListOfDummy_comptype."); -check_replace_arguments(val_ptr->n_elements, index, len, "@General_Types.ListOfDummy_comptype","element"); -ListOfDummy__comptype ret_val; -ret_val.set_size(val_ptr->n_elements + repl.val_ptr->n_elements - len); -for (int i = 0; i < index; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i] = new COMPONENT(*val_ptr->value_elements[i]); -} -} -for (int i = 0; i < repl.val_ptr->n_elements; i++) { -if (repl.val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i+index] = new COMPONENT(*repl.val_ptr->value_elements[i]); -} -} -for (int i = 0; i < val_ptr->n_elements - index - len; i++) { -if (val_ptr->value_elements[index+i+len] != NULL) { -ret_val.val_ptr->value_elements[index+i+repl.val_ptr->n_elements] = new COMPONENT(*val_ptr->value_elements[index+i+len]); -} -} -return ret_val; -} - -ListOfDummy__comptype ListOfDummy__comptype::replace(int index, int len, const ListOfDummy__comptype_template& repl) const -{ -if (!repl.is_value()) TTCN_error("The fourth argument of function replace() is a template with non-specific value."); -return replace(index, len, repl.valueof()); -} - -void ListOfDummy__comptype::set_size(int new_size) -{ -if (new_size < 0) TTCN_error("Internal error: Setting a negative size for a value of type @General_Types.ListOfDummy_comptype."); -if (val_ptr == NULL) { -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} else if (val_ptr->ref_count > 1) { -struct recordof_setof_struct *new_val_ptr = new recordof_setof_struct; -new_val_ptr->ref_count = 1; -new_val_ptr->n_elements = (new_size < val_ptr->n_elements) ? new_size : val_ptr->n_elements; -new_val_ptr->value_elements = (COMPONENT**)allocate_pointers(new_val_ptr->n_elements); -for (int elem_count = 0; elem_count < new_val_ptr->n_elements; elem_count++) { -if (val_ptr->value_elements[elem_count] != NULL){ -new_val_ptr->value_elements[elem_count] = new COMPONENT(*(val_ptr->value_elements[elem_count])); -} -} -clean_up(); -val_ptr = new_val_ptr; -} -if (new_size > val_ptr->n_elements) { -val_ptr->value_elements = (COMPONENT**)reallocate_pointers((void**)val_ptr->value_elements, val_ptr->n_elements, new_size); -#ifdef TITAN_MEMORY_DEBUG_SET_RECORD_OF -if((val_ptr->n_elements/1000)!=(new_size/1000)) TTCN_warning("New size of type @General_Types.ListOfDummy_comptype: %d",new_size); -#endif -val_ptr->n_elements = new_size; -} else if (new_size < val_ptr->n_elements) { -for (int elem_count = new_size; elem_count < val_ptr->n_elements; elem_count++) -if (val_ptr->value_elements[elem_count] != NULL)delete val_ptr->value_elements[elem_count]; -val_ptr->value_elements = (COMPONENT**)reallocate_pointers((void**)val_ptr->value_elements, val_ptr->n_elements, new_size); -val_ptr->n_elements = new_size; -} -} - -boolean ListOfDummy__comptype::is_value() const -{ -if (val_ptr == NULL) return FALSE; -for(int i = 0; i < val_ptr->n_elements; ++i) { -if (val_ptr->value_elements[i] == NULL || !val_ptr->value_elements[i]->is_value()) return FALSE; -} -return TRUE; -} - -int ListOfDummy__comptype::size_of() const -{ -if (val_ptr == NULL) TTCN_error("Performing sizeof operation on an unbound value of type @General_Types.ListOfDummy_comptype."); -return val_ptr->n_elements; -} - -int ListOfDummy__comptype::lengthof() const -{ -if (val_ptr == NULL) TTCN_error("Performing lengthof operation on an unbound value of type @General_Types.ListOfDummy_comptype."); -for (int my_length=val_ptr->n_elements; my_length>0; my_length--) if (val_ptr->value_elements[my_length-1] != NULL) return my_length; -return 0; -} - -void ListOfDummy__comptype::log() const -{ -if (val_ptr == NULL) {; -TTCN_Logger::log_event_unbound(); -return; -} -switch (val_ptr->n_elements) { -case 0: -TTCN_Logger::log_event_str("{ }"); -break; -default: -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -(*this)[elem_count].log(); -} -TTCN_Logger::log_event_str(" }"); -} -} - -void ListOfDummy__comptype::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE|Module_Param::BC_LIST, "record of value"); - switch (param.get_operation_type()) { - case Module_Param::OT_ASSIGN: - if (param.get_type()==Module_Param::MP_Value_List && param.get_size()==0) { - *this = NULL_VALUE; - return; - } - switch (param.get_type()) { - case Module_Param::MP_Value_List: - set_size(param.get_size()); - for (size_t i=0; iget_type()!=Module_Param::MP_NotUsed) { - (*this)[i].set_param(*curr); - if (!(*this)[i].is_bound()) { - delete val_ptr->value_elements[i]; - val_ptr->value_elements[i] = NULL; - } - } - } - break; - case Module_Param::MP_Indexed_List: - for (size_t i=0; iget_id()->get_index()].set_param(*curr); - if (!(*this)[curr->get_id()->get_index()].is_bound()) { - delete val_ptr->value_elements[curr->get_id()->get_index()]; - val_ptr->value_elements[curr->get_id()->get_index()] = NULL; - } - } - break; - default: - param.type_error("record of value", "@General_Types.ListOfDummy_comptype"); - } - break; - case Module_Param::OT_CONCAT: - switch (param.get_type()) { - case Module_Param::MP_Value_List: { - if (!is_bound()) *this = NULL_VALUE; - int start_idx = lengthof(); - for (size_t i=0; iget_type()!=Module_Param::MP_NotUsed)) { - (*this)[start_idx+(int)i].set_param(*curr); - } - } - } break; - case Module_Param::MP_Indexed_List: - param.error("Cannot concatenate an indexed value list"); - break; - default: - param.type_error("record of value", "@General_Types.ListOfDummy_comptype"); - } - break; - default: - TTCN_error("Internal error: Unknown operation type."); - } -} - -void ListOfDummy__comptype::set_implicit_omit() -{ -if (val_ptr == NULL) return; -for (int i = 0; i < val_ptr->n_elements; i++) { -if (val_ptr->value_elements[i] != NULL) val_ptr->value_elements[i]->set_implicit_omit(); -} -} - -void ListOfDummy__comptype::encode_text(Text_Buf& text_buf) const -{ -if (val_ptr == NULL) TTCN_error("Text encoder: Encoding an unbound value of type @General_Types.ListOfDummy_comptype."); -text_buf.push_int(val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) -(*this)[elem_count].encode_text(text_buf); -} - -void ListOfDummy__comptype::decode_text(Text_Buf& text_buf) -{ -clean_up(); -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = text_buf.pull_int().get_val(); -if (val_ptr->n_elements < 0) TTCN_error("Text decoder: Negative size was received for a value of type @General_Types.ListOfDummy_comptype."); -val_ptr->value_elements = (COMPONENT**)allocate_pointers(val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) { -val_ptr->value_elements[elem_count] = new COMPONENT; -val_ptr->value_elements[elem_count]->decode_text(text_buf); -} -} - -void ListOfDummy__comptype_template::copy_value(const ListOfDummy__comptype& other_value) -{ -if (!other_value.is_bound()) TTCN_error("Initialization of a template of type @General_Types.ListOfDummy_comptype with an unbound value."); -single_value.n_elements = other_value.size_of(); -single_value.value_elements = (COMPONENT_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (other_value[elem_count].is_bound()) { -single_value.value_elements[elem_count] = new COMPONENT_template(other_value[elem_count]); -} else { -single_value.value_elements[elem_count] = new COMPONENT_template; -} -} -set_selection(SPECIFIC_VALUE); -} - -void ListOfDummy__comptype_template::copy_template(const ListOfDummy__comptype_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value.n_elements = other_value.single_value.n_elements; -single_value.value_elements = (COMPONENT_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (UNINITIALIZED_TEMPLATE != other_value.single_value.value_elements[elem_count]->get_selection()) { -single_value.value_elements[elem_count] = new COMPONENT_template(*other_value.single_value.value_elements[elem_count]); -} else { -single_value.value_elements[elem_count] = new COMPONENT_template; -} -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new ListOfDummy__comptype_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @General_Types.ListOfDummy_comptype."); -break; -} -set_selection(other_value); -} - -boolean ListOfDummy__comptype_template::match_function_specific(const Base_Type *value_ptr, int value_index, const Restricted_Length_Template *template_ptr, int template_index, boolean legacy) -{ -if (value_index >= 0) return ((const ListOfDummy__comptype_template*)template_ptr)->single_value.value_elements[template_index]->match((*(const ListOfDummy__comptype*)value_ptr)[value_index], legacy); -else return ((const ListOfDummy__comptype_template*)template_ptr)->single_value.value_elements[template_index]->is_any_or_omit(); -} - -ListOfDummy__comptype_template::ListOfDummy__comptype_template() -{ -} - -ListOfDummy__comptype_template::ListOfDummy__comptype_template(template_sel other_value) - : Record_Of_Template(other_value) -{ -check_single_selection(other_value); -} - -ListOfDummy__comptype_template::ListOfDummy__comptype_template(null_type) - : Record_Of_Template(SPECIFIC_VALUE) -{ -single_value.n_elements = 0; -single_value.value_elements = NULL; -} - -ListOfDummy__comptype_template::ListOfDummy__comptype_template(const ListOfDummy__comptype& other_value) -{ -copy_value(other_value); -} - -ListOfDummy__comptype_template::ListOfDummy__comptype_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const ListOfDummy__comptype&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @General_Types.ListOfDummy_comptype from an unbound optional field."); -} -} - -ListOfDummy__comptype_template::ListOfDummy__comptype_template(const ListOfDummy__comptype_template& other_value) - : Record_Of_Template() -{ -copy_template(other_value); -} - -ListOfDummy__comptype_template::~ListOfDummy__comptype_template() -{ -clean_up(); -} - -void ListOfDummy__comptype_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -delete single_value.value_elements[elem_count]; -free_pointers((void**)single_value.value_elements); -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -ListOfDummy__comptype_template& ListOfDummy__comptype_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -ListOfDummy__comptype_template& ListOfDummy__comptype_template::operator=(null_type) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value.n_elements = 0; -single_value.value_elements = NULL; -return *this; -} - -ListOfDummy__comptype_template& ListOfDummy__comptype_template::operator=(const ListOfDummy__comptype& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -ListOfDummy__comptype_template& ListOfDummy__comptype_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const ListOfDummy__comptype&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @General_Types.ListOfDummy_comptype."); -} -return *this; -} - -ListOfDummy__comptype_template& ListOfDummy__comptype_template::operator=(const ListOfDummy__comptype_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -COMPONENT_template& ListOfDummy__comptype_template::operator[](int index_value) -{ -if (index_value < 0) TTCN_error("Accessing an element of a template for type @General_Types.ListOfDummy_comptype using a negative index: %d.", index_value); -switch (template_selection) -{ - case SPECIFIC_VALUE: - if(index_value < single_value.n_elements) break; - // no break - case OMIT_VALUE: - case ANY_VALUE: - case ANY_OR_OMIT: - case UNINITIALIZED_TEMPLATE: - set_size(index_value + 1); - break; - default: - TTCN_error("Accessing an element of a non-specific template for type @General_Types.ListOfDummy_comptype."); - break; -} -return *single_value.value_elements[index_value]; -} - -COMPONENT_template& ListOfDummy__comptype_template::operator[](const INTEGER& index_value) -{ -index_value.must_bound("Using an unbound integer value for indexing a template of type @General_Types.ListOfDummy_comptype."); -return (*this)[(int)index_value]; -} - -const COMPONENT_template& ListOfDummy__comptype_template::operator[](int index_value) const -{ -if (index_value < 0) TTCN_error("Accessing an element of a template for type @General_Types.ListOfDummy_comptype using a negative index: %d.", index_value); -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing an element of a non-specific template for type @General_Types.ListOfDummy_comptype."); -if (index_value >= single_value.n_elements) TTCN_error("Index overflow in a template of type @General_Types.ListOfDummy_comptype: The index is %d, but the template has only %d elements.", index_value, single_value.n_elements); -return *single_value.value_elements[index_value]; -} - -const COMPONENT_template& ListOfDummy__comptype_template::operator[](const INTEGER& index_value) const -{ -index_value.must_bound("Using an unbound integer value for indexing a template of type @General_Types.ListOfDummy_comptype."); -return (*this)[(int)index_value]; -} - -void ListOfDummy__comptype_template::set_size(int new_size) -{ -if (new_size < 0) TTCN_error("Internal error: Setting a negative size for a template of type @General_Types.ListOfDummy_comptype."); -template_sel old_selection = template_selection; -if (old_selection != SPECIFIC_VALUE) { -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value.n_elements = 0; -single_value.value_elements = NULL; -} -if (new_size > single_value.n_elements) { -single_value.value_elements = (COMPONENT_template**)reallocate_pointers((void**)single_value.value_elements, single_value.n_elements, new_size); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -for (int elem_count = single_value.n_elements; elem_count < new_size; elem_count++) -single_value.value_elements[elem_count] = new COMPONENT_template(ANY_VALUE); -} else { -for (int elem_count = single_value.n_elements; elem_count < new_size; elem_count++) -single_value.value_elements[elem_count] = new COMPONENT_template; -} -single_value.n_elements = new_size; -} else if (new_size < single_value.n_elements) { -for (int elem_count = new_size; elem_count < single_value.n_elements; elem_count++) -delete single_value.value_elements[elem_count]; -single_value.value_elements = (COMPONENT_template**)reallocate_pointers((void**)single_value.value_elements, single_value.n_elements, new_size); -single_value.n_elements = new_size; -} -} - -int ListOfDummy__comptype_template::n_elem() const -{ - switch (template_selection) { - case SPECIFIC_VALUE: - return single_value.n_elements; - break; - case VALUE_LIST: - return value_list.n_values; - break; - default: - TTCN_error("Performing n_elem"); - } -} - -int ListOfDummy__comptype_template::size_of(boolean is_size) const -{ -const char* op_name = is_size ? "size" : "length"; -int min_size; -boolean has_any_or_none; -if (is_ifpresent) TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_comptype which has an ifpresent attribute.", op_name); -switch (template_selection) -{ -case SPECIFIC_VALUE: { - min_size = 0; - has_any_or_none = FALSE; - int elem_count = single_value.n_elements; - if (!is_size) { while (elem_count>0 && !single_value.value_elements[elem_count-1]->is_bound()) elem_count--; } - for (int i=0; iget_selection()) { - case OMIT_VALUE: - TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_comptype containing omit element.", op_name); - case ANY_OR_OMIT: - has_any_or_none = TRUE; - break; - default: - min_size++; - break; - } - } -} break; -case OMIT_VALUE: - TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_comptype containing omit value.", op_name); -case ANY_VALUE: -case ANY_OR_OMIT: - min_size = 0; - has_any_or_none = TRUE; - break; -case VALUE_LIST: -{ - if (value_list.n_values<1) - TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_comptype containing an empty list.", op_name); - int item_size = value_list.list_value[0].size_of(is_size); - for (unsigned int i = 1; i < value_list.n_values; i++) { - if (value_list.list_value[i].size_of(is_size)!=item_size) - TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_comptype containing a value list with different sizes.", op_name); - } - min_size = item_size; - has_any_or_none = FALSE; - break; -} -case COMPLEMENTED_LIST: - TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_comptype containing complemented list.", op_name); -default: - TTCN_error("Performing %sof() operation on an uninitialized/unsupported template of type @General_Types.ListOfDummy_comptype.", op_name); -} -return check_section_is_single(min_size, has_any_or_none, op_name, "a", "template of type @General_Types.ListOfDummy_comptype"); -} - -boolean ListOfDummy__comptype_template::match(const ListOfDummy__comptype& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -int value_length = other_value.size_of(); -if (!match_length(value_length)) return FALSE; -switch (template_selection) { -case SPECIFIC_VALUE: -return match_record_of(&other_value, value_length, this, single_value.n_elements, match_function_specific, legacy); -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching with an uninitialized/unsupported template of type @General_Types.ListOfDummy_comptype."); -} -return FALSE; -} - -boolean ListOfDummy__comptype_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -if (!single_value.value_elements[elem_count]->is_value()) return FALSE; -return TRUE; -} - -ListOfDummy__comptype ListOfDummy__comptype_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of type @General_Types.ListOfDummy_comptype."); -ListOfDummy__comptype ret_val; -ret_val.set_size(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -if (single_value.value_elements[elem_count]->is_bound()) { -ret_val[elem_count] = single_value.value_elements[elem_count]->valueof(); -} -return ret_val; -} - -ListOfDummy__comptype ListOfDummy__comptype_template::substr(int index, int returncount) const -{ -if (!is_value()) TTCN_error("The first argument of function substr() is a template with non-specific value."); -return valueof().substr(index, returncount); -} - -ListOfDummy__comptype ListOfDummy__comptype_template::replace(int index, int len, const ListOfDummy__comptype_template& repl) const -{ -if (!is_value()) TTCN_error("The first argument of function replace() is a template with non-specific value."); -if (!repl.is_value()) TTCN_error("The fourth argument of function replace() is a template with non-specific value."); -return valueof().replace(index, len, repl.valueof()); -} - -ListOfDummy__comptype ListOfDummy__comptype_template::replace(int index, int len, const ListOfDummy__comptype& repl) const -{ -if (!is_value()) TTCN_error("The first argument of function replace() is a template with non-specific value."); -return valueof().replace(index, len, repl); -} - -void ListOfDummy__comptype_template::set_type(template_sel template_type, unsigned int list_length) -{ -clean_up(); -switch (template_type) { -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = list_length; -value_list.list_value = new ListOfDummy__comptype_template[list_length]; -break; -default: -TTCN_error("Internal error: Setting an invalid type for a template of type @General_Types.ListOfDummy_comptype."); -} -set_selection(template_type); -} - -ListOfDummy__comptype_template& ListOfDummy__comptype_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Internal error: Accessing a list element of a non-list template of type @General_Types.ListOfDummy_comptype."); -if (list_index >= value_list.n_values) TTCN_error("Internal error: Index overflow in a value list template of type @General_Types.ListOfDummy_comptype."); -return value_list.list_value[list_index]; -} - -void ListOfDummy__comptype_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -if (single_value.n_elements > 0) { -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -if (permutation_starts_at(elem_count)) TTCN_Logger::log_event_str("permutation("); -single_value.value_elements[elem_count]->log(); -if (permutation_ends_at(elem_count)) TTCN_Logger::log_char(')'); -} -TTCN_Logger::log_event_str(" }"); -} else TTCN_Logger::log_event_str("{ }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_restricted(); -log_ifpresent(); -} - -void ListOfDummy__comptype_template::log_match(const ListOfDummy__comptype& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -}else{ -if (template_selection == SPECIFIC_VALUE && single_value.n_elements > 0 && get_number_of_permutations() == 0 && single_value.n_elements == match_value.size_of()) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if(!single_value.value_elements[elem_count]->match(match_value[elem_count], legacy)){ -TTCN_Logger::log_logmatch_info("[%d]", elem_count); -single_value.value_elements[elem_count]->log_match(match_value[elem_count], legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -log_match_length(single_value.n_elements); -} else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE && single_value.n_elements > 0 && get_number_of_permutations() == 0 && single_value.n_elements == match_value.size_of()) { -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -single_value.value_elements[elem_count]->log_match(match_value[elem_count], legacy); -} -TTCN_Logger::log_event_str(" }"); -log_match_length(single_value.n_elements); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void ListOfDummy__comptype_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_permutation(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -single_value.value_elements[elem_count]->encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @General_Types.ListOfDummy_comptype."); -} -} - -void ListOfDummy__comptype_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_permutation(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value.n_elements = text_buf.pull_int().get_val(); -if (single_value.n_elements < 0) TTCN_error("Text decoder: Negative size was received for a template of type @General_Types.ListOfDummy_comptype."); -single_value.value_elements = (COMPONENT_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -single_value.value_elements[elem_count] = new COMPONENT_template; -single_value.value_elements[elem_count]->decode_text(text_buf); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new ListOfDummy__comptype_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of type @General_Types.ListOfDummy_comptype."); -} -} - -boolean ListOfDummy__comptype_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean ListOfDummy__comptype_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_id()->get_index())].set_param(*param.get_elem(p_i)); - } - break; - case Module_Param::MP_Value_List: { - set_size(param.get_size()); - int curr_idx = 0; - for (size_t p_i=0; p_iget_type()) { - case Module_Param::MP_NotUsed: - curr_idx++; - break; - case Module_Param::MP_Permutation_Template: { - int perm_start_idx = curr_idx; - Module_Param* param_i = param.get_elem(p_i); - for (size_t perm_i=0; perm_iget_size(); perm_i++) { - (*this)[curr_idx].set_param(*(param_i->get_elem(perm_i))); - curr_idx++; - } - int perm_end_idx = curr_idx - 1; - add_permutation(perm_start_idx, perm_end_idx); - } break; - default: - (*this)[curr_idx].set_param(*param.get_elem(p_i)); - curr_idx++; - } - } - } break; - default: - param.type_error("record of template", "@General_Types.ListOfDummy_comptype"); - } - is_ifpresent = param.get_ifpresent(); - set_length_range(param); -} - -void ListOfDummy__comptype_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -for (int i=0; icheck_restriction(t_res, t_name ? t_name : "@General_Types.ListOfDummy_comptype"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@General_Types.ListOfDummy_comptype"); -} - -boolean ListOfDummy__comptype_template::get_istemplate_kind(const char* type) const { -if (!strcmp(type, "AnyElement")) { - if (template_selection != SPECIFIC_VALUE) { - return FALSE; - } - for (int i = 0; i < single_value.n_elements; i++) { - if (single_value.value_elements[i]->get_selection() == ANY_VALUE) { - return TRUE; - } - } - return FALSE; -} else if (!strcmp(type, "AnyElementsOrNone")) { - if (template_selection != SPECIFIC_VALUE) { - return FALSE; - } - for (int i = 0; i < single_value.n_elements; i++) { - if (single_value.value_elements[i]->get_selection() == ANY_OR_OMIT) { - return TRUE; - } - } - return FALSE; -} else if (!strcmp(type, "permutation")) { - return number_of_permutations; -} else if (!strcmp(type, "length")) { - return length_restriction_type != NO_LENGTH_RESTRICTION; -} else { - return Base_Template::get_istemplate_kind(type); -} -} - -const COMPONENT ListOfDummy__CT::UNBOUND_ELEM; -ListOfDummy__CT::ListOfDummy__CT() -{ -val_ptr = NULL; -} - -ListOfDummy__CT::ListOfDummy__CT(null_type) -{ -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} - -ListOfDummy__CT::ListOfDummy__CT(const ListOfDummy__CT& other_value) -{ -if (!other_value.is_bound()) TTCN_error("Copying an unbound value of type @General_Types.ListOfDummy_CT."); -val_ptr = other_value.val_ptr; -val_ptr->ref_count++; -} - -ListOfDummy__CT::~ListOfDummy__CT() -{ -clean_up(); -if (val_ptr != NULL) val_ptr = NULL; -} - -void ListOfDummy__CT::clean_up() -{ -if (val_ptr != NULL) { -if (val_ptr->ref_count > 1) { -val_ptr->ref_count--; -val_ptr = NULL; -} -else if (val_ptr->ref_count == 1) { -for (int elem_count = 0; elem_count < val_ptr->n_elements; -elem_count++) -if (val_ptr->value_elements[elem_count] != NULL) -delete val_ptr->value_elements[elem_count]; -free_pointers((void**)val_ptr->value_elements); -delete val_ptr; -val_ptr = NULL; -} -else -TTCN_error("Internal error: Invalid reference counter in a record of/set of value."); -} -} - -ListOfDummy__CT& ListOfDummy__CT::operator=(null_type) -{ -clean_up(); -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -return *this; -} - -ListOfDummy__CT& ListOfDummy__CT::operator=(const ListOfDummy__CT& other_value) -{ -if (other_value.val_ptr == NULL) TTCN_error("Assigning an unbound value of type @General_Types.ListOfDummy_CT."); -if (this != &other_value) { -clean_up(); -val_ptr = other_value.val_ptr; -val_ptr->ref_count++; -} -return *this; -} - -boolean ListOfDummy__CT::operator==(null_type) const -{ -if (val_ptr == NULL) -TTCN_error("The left operand of comparison is an unbound value of type @General_Types.ListOfDummy_CT."); -return val_ptr->n_elements == 0 ; -} - -boolean ListOfDummy__CT::operator==(const ListOfDummy__CT& other_value) const -{ -if (val_ptr == NULL) TTCN_error("The left operand of comparison is an unbound value of type @General_Types.ListOfDummy_CT."); -if (other_value.val_ptr == NULL) TTCN_error("The right operand of comparison is an unbound value of type @General_Types.ListOfDummy_CT."); -if (val_ptr == other_value.val_ptr) return TRUE; -if (val_ptr->n_elements != (other_value.val_ptr)->n_elements) -return FALSE; -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++){ -if (val_ptr->value_elements[elem_count] != NULL){ -if ((other_value.val_ptr)->value_elements[elem_count] != NULL){ - if (*val_ptr->value_elements[elem_count] != *(other_value.val_ptr)->value_elements[elem_count]) return FALSE; -} else return FALSE; -} else { -if ((other_value.val_ptr)->value_elements[elem_count] != NULL) return FALSE; -} -} -return TRUE; -} - -COMPONENT& ListOfDummy__CT::operator[](int index_value) -{ -if (index_value < 0) TTCN_error("Accessing an element of type @General_Types.ListOfDummy_CT using a negative index: %d.", index_value); -if (val_ptr == NULL) { -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} else if (val_ptr->ref_count > 1) { -struct recordof_setof_struct *new_val_ptr = new recordof_setof_struct; -new_val_ptr->ref_count = 1; -new_val_ptr->n_elements = (index_value >= val_ptr->n_elements) ? index_value + 1 : val_ptr->n_elements; -new_val_ptr->value_elements = (COMPONENT**)allocate_pointers(new_val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++){ -if (val_ptr->value_elements[elem_count] != NULL){ -new_val_ptr->value_elements[elem_count] = new COMPONENT(*(val_ptr->value_elements[elem_count])); -} -} -clean_up(); -val_ptr = new_val_ptr; -} -if (index_value >= val_ptr->n_elements) set_size(index_value + 1); -if (val_ptr->value_elements[index_value] == NULL) { -val_ptr->value_elements[index_value] = new COMPONENT; -} -return *val_ptr->value_elements[index_value]; -} - -COMPONENT& ListOfDummy__CT::operator[](const INTEGER& index_value) -{ -index_value.must_bound("Using an unbound integer value for indexing a value of type @General_Types.ListOfDummy_CT."); -return (*this)[(int)index_value]; -} - -const COMPONENT& ListOfDummy__CT::operator[](int index_value) const -{ -if (val_ptr == NULL) -TTCN_error("Accessing an element in an unbound value of type @General_Types.ListOfDummy_CT."); -if (index_value < 0) TTCN_error("Accessing an element of type @General_Types.ListOfDummy_CT using a negative index: %d.", index_value); -if (index_value >= val_ptr->n_elements) TTCN_error("Index overflow in a value of type @General_Types.ListOfDummy_CT: The index is %d, but the value has only %d elements.", index_value, val_ptr->n_elements); -return (val_ptr->value_elements[index_value] == NULL) ? -UNBOUND_ELEM : *val_ptr->value_elements[index_value]; -} - -const COMPONENT& ListOfDummy__CT::operator[](const INTEGER& index_value) const -{ -index_value.must_bound("Using an unbound integer value for indexing a value of type @General_Types.ListOfDummy_CT."); -return (*this)[(int)index_value]; -} - -ListOfDummy__CT ListOfDummy__CT::operator<<=(int rotate_count) const -{ -return *this >>= (-rotate_count); -} - -ListOfDummy__CT ListOfDummy__CT::operator<<=(const INTEGER& rotate_count) const -{ -rotate_count.must_bound("Unbound integer operand of rotate left operator."); -return *this >>= (int)(-rotate_count); -} - -ListOfDummy__CT ListOfDummy__CT::operator>>=(const INTEGER& rotate_count) const -{ -rotate_count.must_bound("Unbound integer operand of rotate right operator."); -return *this >>= (int)rotate_count; -} - -ListOfDummy__CT ListOfDummy__CT::operator>>=(int rotate_count) const -{ -if (val_ptr == NULL) TTCN_error("Performing rotation operation on an unbound value of type @General_Types.ListOfDummy_CT."); -if (val_ptr->n_elements == 0) return *this; -int rc; -if (rotate_count>=0) rc = rotate_count % val_ptr->n_elements; -else rc = val_ptr->n_elements - ((-rotate_count) % val_ptr->n_elements); -if (rc == 0) return *this; -ListOfDummy__CT ret_val; -ret_val.set_size(val_ptr->n_elements); -for (int i=0; in_elements; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[(i+rc)%val_ptr->n_elements] =new COMPONENT(*val_ptr->value_elements[i]); -} -} -return ret_val; -} - -ListOfDummy__CT ListOfDummy__CT::operator+(const ListOfDummy__CT& other_value) const -{ -if (val_ptr == NULL || other_value.val_ptr == NULL) TTCN_error("Unbound operand of @General_Types.ListOfDummy_CT concatenation."); -if (val_ptr->n_elements == 0) return other_value; -if (other_value.val_ptr->n_elements == 0) return *this; -ListOfDummy__CT ret_val; -ret_val.set_size(val_ptr->n_elements+other_value.val_ptr->n_elements); -for (int i=0; in_elements; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i] = new COMPONENT(*val_ptr->value_elements[i]); -} -} -for (int i=0; in_elements; i++) { -if (other_value.val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i+val_ptr->n_elements] = new COMPONENT(*other_value.val_ptr->value_elements[i]); -} -} -return ret_val; -} - -ListOfDummy__CT ListOfDummy__CT::substr(int index, int returncount) const -{ -if (val_ptr == NULL) TTCN_error("The first argument of substr() is an unbound value of type @General_Types.ListOfDummy_CT."); -check_substr_arguments(val_ptr->n_elements, index, returncount, "@General_Types.ListOfDummy_CT","element"); -ListOfDummy__CT ret_val; -ret_val.set_size(returncount); -for (int i=0; ivalue_elements[i+index] != NULL) { -ret_val.val_ptr->value_elements[i] = new COMPONENT(*val_ptr->value_elements[i+index]); -} -} -return ret_val; -} - -ListOfDummy__CT ListOfDummy__CT::replace(int index, int len, const ListOfDummy__CT& repl) const -{ -if (val_ptr == NULL) TTCN_error("The first argument of replace() is an unbound value of type @General_Types.ListOfDummy_CT."); -if (repl.val_ptr == NULL) TTCN_error("The fourth argument of replace() is an unbound value of type @General_Types.ListOfDummy_CT."); -check_replace_arguments(val_ptr->n_elements, index, len, "@General_Types.ListOfDummy_CT","element"); -ListOfDummy__CT ret_val; -ret_val.set_size(val_ptr->n_elements + repl.val_ptr->n_elements - len); -for (int i = 0; i < index; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i] = new COMPONENT(*val_ptr->value_elements[i]); -} -} -for (int i = 0; i < repl.val_ptr->n_elements; i++) { -if (repl.val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i+index] = new COMPONENT(*repl.val_ptr->value_elements[i]); -} -} -for (int i = 0; i < val_ptr->n_elements - index - len; i++) { -if (val_ptr->value_elements[index+i+len] != NULL) { -ret_val.val_ptr->value_elements[index+i+repl.val_ptr->n_elements] = new COMPONENT(*val_ptr->value_elements[index+i+len]); -} -} -return ret_val; -} - -ListOfDummy__CT ListOfDummy__CT::replace(int index, int len, const ListOfDummy__CT_template& repl) const -{ -if (!repl.is_value()) TTCN_error("The fourth argument of function replace() is a template with non-specific value."); -return replace(index, len, repl.valueof()); -} - -void ListOfDummy__CT::set_size(int new_size) -{ -if (new_size < 0) TTCN_error("Internal error: Setting a negative size for a value of type @General_Types.ListOfDummy_CT."); -if (val_ptr == NULL) { -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} else if (val_ptr->ref_count > 1) { -struct recordof_setof_struct *new_val_ptr = new recordof_setof_struct; -new_val_ptr->ref_count = 1; -new_val_ptr->n_elements = (new_size < val_ptr->n_elements) ? new_size : val_ptr->n_elements; -new_val_ptr->value_elements = (COMPONENT**)allocate_pointers(new_val_ptr->n_elements); -for (int elem_count = 0; elem_count < new_val_ptr->n_elements; elem_count++) { -if (val_ptr->value_elements[elem_count] != NULL){ -new_val_ptr->value_elements[elem_count] = new COMPONENT(*(val_ptr->value_elements[elem_count])); -} -} -clean_up(); -val_ptr = new_val_ptr; -} -if (new_size > val_ptr->n_elements) { -val_ptr->value_elements = (COMPONENT**)reallocate_pointers((void**)val_ptr->value_elements, val_ptr->n_elements, new_size); -#ifdef TITAN_MEMORY_DEBUG_SET_RECORD_OF -if((val_ptr->n_elements/1000)!=(new_size/1000)) TTCN_warning("New size of type @General_Types.ListOfDummy_CT: %d",new_size); -#endif -val_ptr->n_elements = new_size; -} else if (new_size < val_ptr->n_elements) { -for (int elem_count = new_size; elem_count < val_ptr->n_elements; elem_count++) -if (val_ptr->value_elements[elem_count] != NULL)delete val_ptr->value_elements[elem_count]; -val_ptr->value_elements = (COMPONENT**)reallocate_pointers((void**)val_ptr->value_elements, val_ptr->n_elements, new_size); -val_ptr->n_elements = new_size; -} -} - -boolean ListOfDummy__CT::is_value() const -{ -if (val_ptr == NULL) return FALSE; -for(int i = 0; i < val_ptr->n_elements; ++i) { -if (val_ptr->value_elements[i] == NULL || !val_ptr->value_elements[i]->is_value()) return FALSE; -} -return TRUE; -} - -int ListOfDummy__CT::size_of() const -{ -if (val_ptr == NULL) TTCN_error("Performing sizeof operation on an unbound value of type @General_Types.ListOfDummy_CT."); -return val_ptr->n_elements; -} - -int ListOfDummy__CT::lengthof() const -{ -if (val_ptr == NULL) TTCN_error("Performing lengthof operation on an unbound value of type @General_Types.ListOfDummy_CT."); -for (int my_length=val_ptr->n_elements; my_length>0; my_length--) if (val_ptr->value_elements[my_length-1] != NULL) return my_length; -return 0; -} - -void ListOfDummy__CT::log() const -{ -if (val_ptr == NULL) {; -TTCN_Logger::log_event_unbound(); -return; -} -switch (val_ptr->n_elements) { -case 0: -TTCN_Logger::log_event_str("{ }"); -break; -default: -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -(*this)[elem_count].log(); -} -TTCN_Logger::log_event_str(" }"); -} -} - -void ListOfDummy__CT::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE|Module_Param::BC_LIST, "record of value"); - switch (param.get_operation_type()) { - case Module_Param::OT_ASSIGN: - if (param.get_type()==Module_Param::MP_Value_List && param.get_size()==0) { - *this = NULL_VALUE; - return; - } - switch (param.get_type()) { - case Module_Param::MP_Value_List: - set_size(param.get_size()); - for (size_t i=0; iget_type()!=Module_Param::MP_NotUsed) { - (*this)[i].set_param(*curr); - if (!(*this)[i].is_bound()) { - delete val_ptr->value_elements[i]; - val_ptr->value_elements[i] = NULL; - } - } - } - break; - case Module_Param::MP_Indexed_List: - for (size_t i=0; iget_id()->get_index()].set_param(*curr); - if (!(*this)[curr->get_id()->get_index()].is_bound()) { - delete val_ptr->value_elements[curr->get_id()->get_index()]; - val_ptr->value_elements[curr->get_id()->get_index()] = NULL; - } - } - break; - default: - param.type_error("record of value", "@General_Types.ListOfDummy_CT"); - } - break; - case Module_Param::OT_CONCAT: - switch (param.get_type()) { - case Module_Param::MP_Value_List: { - if (!is_bound()) *this = NULL_VALUE; - int start_idx = lengthof(); - for (size_t i=0; iget_type()!=Module_Param::MP_NotUsed)) { - (*this)[start_idx+(int)i].set_param(*curr); - } - } - } break; - case Module_Param::MP_Indexed_List: - param.error("Cannot concatenate an indexed value list"); - break; - default: - param.type_error("record of value", "@General_Types.ListOfDummy_CT"); - } - break; - default: - TTCN_error("Internal error: Unknown operation type."); - } -} - -void ListOfDummy__CT::set_implicit_omit() -{ -if (val_ptr == NULL) return; -for (int i = 0; i < val_ptr->n_elements; i++) { -if (val_ptr->value_elements[i] != NULL) val_ptr->value_elements[i]->set_implicit_omit(); -} -} - -void ListOfDummy__CT::encode_text(Text_Buf& text_buf) const -{ -if (val_ptr == NULL) TTCN_error("Text encoder: Encoding an unbound value of type @General_Types.ListOfDummy_CT."); -text_buf.push_int(val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) -(*this)[elem_count].encode_text(text_buf); -} - -void ListOfDummy__CT::decode_text(Text_Buf& text_buf) -{ -clean_up(); -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = text_buf.pull_int().get_val(); -if (val_ptr->n_elements < 0) TTCN_error("Text decoder: Negative size was received for a value of type @General_Types.ListOfDummy_CT."); -val_ptr->value_elements = (COMPONENT**)allocate_pointers(val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) { -val_ptr->value_elements[elem_count] = new COMPONENT; -val_ptr->value_elements[elem_count]->decode_text(text_buf); -} -} - -void ListOfDummy__CT_template::copy_value(const ListOfDummy__CT& other_value) -{ -if (!other_value.is_bound()) TTCN_error("Initialization of a template of type @General_Types.ListOfDummy_CT with an unbound value."); -single_value.n_elements = other_value.size_of(); -single_value.value_elements = (COMPONENT_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (other_value[elem_count].is_bound()) { -single_value.value_elements[elem_count] = new COMPONENT_template(other_value[elem_count]); -} else { -single_value.value_elements[elem_count] = new COMPONENT_template; -} -} -set_selection(SPECIFIC_VALUE); -} - -void ListOfDummy__CT_template::copy_template(const ListOfDummy__CT_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value.n_elements = other_value.single_value.n_elements; -single_value.value_elements = (COMPONENT_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (UNINITIALIZED_TEMPLATE != other_value.single_value.value_elements[elem_count]->get_selection()) { -single_value.value_elements[elem_count] = new COMPONENT_template(*other_value.single_value.value_elements[elem_count]); -} else { -single_value.value_elements[elem_count] = new COMPONENT_template; -} -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new ListOfDummy__CT_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @General_Types.ListOfDummy_CT."); -break; -} -set_selection(other_value); -} - -boolean ListOfDummy__CT_template::match_function_specific(const Base_Type *value_ptr, int value_index, const Restricted_Length_Template *template_ptr, int template_index, boolean legacy) -{ -if (value_index >= 0) return ((const ListOfDummy__CT_template*)template_ptr)->single_value.value_elements[template_index]->match((*(const ListOfDummy__CT*)value_ptr)[value_index], legacy); -else return ((const ListOfDummy__CT_template*)template_ptr)->single_value.value_elements[template_index]->is_any_or_omit(); -} - -ListOfDummy__CT_template::ListOfDummy__CT_template() -{ -} - -ListOfDummy__CT_template::ListOfDummy__CT_template(template_sel other_value) - : Record_Of_Template(other_value) -{ -check_single_selection(other_value); -} - -ListOfDummy__CT_template::ListOfDummy__CT_template(null_type) - : Record_Of_Template(SPECIFIC_VALUE) -{ -single_value.n_elements = 0; -single_value.value_elements = NULL; -} - -ListOfDummy__CT_template::ListOfDummy__CT_template(const ListOfDummy__CT& other_value) -{ -copy_value(other_value); -} - -ListOfDummy__CT_template::ListOfDummy__CT_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const ListOfDummy__CT&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @General_Types.ListOfDummy_CT from an unbound optional field."); -} -} - -ListOfDummy__CT_template::ListOfDummy__CT_template(const ListOfDummy__CT_template& other_value) - : Record_Of_Template() -{ -copy_template(other_value); -} - -ListOfDummy__CT_template::~ListOfDummy__CT_template() -{ -clean_up(); -} - -void ListOfDummy__CT_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -delete single_value.value_elements[elem_count]; -free_pointers((void**)single_value.value_elements); -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -ListOfDummy__CT_template& ListOfDummy__CT_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -ListOfDummy__CT_template& ListOfDummy__CT_template::operator=(null_type) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value.n_elements = 0; -single_value.value_elements = NULL; -return *this; -} - -ListOfDummy__CT_template& ListOfDummy__CT_template::operator=(const ListOfDummy__CT& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -ListOfDummy__CT_template& ListOfDummy__CT_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const ListOfDummy__CT&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @General_Types.ListOfDummy_CT."); -} -return *this; -} - -ListOfDummy__CT_template& ListOfDummy__CT_template::operator=(const ListOfDummy__CT_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -COMPONENT_template& ListOfDummy__CT_template::operator[](int index_value) -{ -if (index_value < 0) TTCN_error("Accessing an element of a template for type @General_Types.ListOfDummy_CT using a negative index: %d.", index_value); -switch (template_selection) -{ - case SPECIFIC_VALUE: - if(index_value < single_value.n_elements) break; - // no break - case OMIT_VALUE: - case ANY_VALUE: - case ANY_OR_OMIT: - case UNINITIALIZED_TEMPLATE: - set_size(index_value + 1); - break; - default: - TTCN_error("Accessing an element of a non-specific template for type @General_Types.ListOfDummy_CT."); - break; -} -return *single_value.value_elements[index_value]; -} - -COMPONENT_template& ListOfDummy__CT_template::operator[](const INTEGER& index_value) -{ -index_value.must_bound("Using an unbound integer value for indexing a template of type @General_Types.ListOfDummy_CT."); -return (*this)[(int)index_value]; -} - -const COMPONENT_template& ListOfDummy__CT_template::operator[](int index_value) const -{ -if (index_value < 0) TTCN_error("Accessing an element of a template for type @General_Types.ListOfDummy_CT using a negative index: %d.", index_value); -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing an element of a non-specific template for type @General_Types.ListOfDummy_CT."); -if (index_value >= single_value.n_elements) TTCN_error("Index overflow in a template of type @General_Types.ListOfDummy_CT: The index is %d, but the template has only %d elements.", index_value, single_value.n_elements); -return *single_value.value_elements[index_value]; -} - -const COMPONENT_template& ListOfDummy__CT_template::operator[](const INTEGER& index_value) const -{ -index_value.must_bound("Using an unbound integer value for indexing a template of type @General_Types.ListOfDummy_CT."); -return (*this)[(int)index_value]; -} - -void ListOfDummy__CT_template::set_size(int new_size) -{ -if (new_size < 0) TTCN_error("Internal error: Setting a negative size for a template of type @General_Types.ListOfDummy_CT."); -template_sel old_selection = template_selection; -if (old_selection != SPECIFIC_VALUE) { -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value.n_elements = 0; -single_value.value_elements = NULL; -} -if (new_size > single_value.n_elements) { -single_value.value_elements = (COMPONENT_template**)reallocate_pointers((void**)single_value.value_elements, single_value.n_elements, new_size); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -for (int elem_count = single_value.n_elements; elem_count < new_size; elem_count++) -single_value.value_elements[elem_count] = new COMPONENT_template(ANY_VALUE); -} else { -for (int elem_count = single_value.n_elements; elem_count < new_size; elem_count++) -single_value.value_elements[elem_count] = new COMPONENT_template; -} -single_value.n_elements = new_size; -} else if (new_size < single_value.n_elements) { -for (int elem_count = new_size; elem_count < single_value.n_elements; elem_count++) -delete single_value.value_elements[elem_count]; -single_value.value_elements = (COMPONENT_template**)reallocate_pointers((void**)single_value.value_elements, single_value.n_elements, new_size); -single_value.n_elements = new_size; -} -} - -int ListOfDummy__CT_template::n_elem() const -{ - switch (template_selection) { - case SPECIFIC_VALUE: - return single_value.n_elements; - break; - case VALUE_LIST: - return value_list.n_values; - break; - default: - TTCN_error("Performing n_elem"); - } -} - -int ListOfDummy__CT_template::size_of(boolean is_size) const -{ -const char* op_name = is_size ? "size" : "length"; -int min_size; -boolean has_any_or_none; -if (is_ifpresent) TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_CT which has an ifpresent attribute.", op_name); -switch (template_selection) -{ -case SPECIFIC_VALUE: { - min_size = 0; - has_any_or_none = FALSE; - int elem_count = single_value.n_elements; - if (!is_size) { while (elem_count>0 && !single_value.value_elements[elem_count-1]->is_bound()) elem_count--; } - for (int i=0; iget_selection()) { - case OMIT_VALUE: - TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_CT containing omit element.", op_name); - case ANY_OR_OMIT: - has_any_or_none = TRUE; - break; - default: - min_size++; - break; - } - } -} break; -case OMIT_VALUE: - TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_CT containing omit value.", op_name); -case ANY_VALUE: -case ANY_OR_OMIT: - min_size = 0; - has_any_or_none = TRUE; - break; -case VALUE_LIST: -{ - if (value_list.n_values<1) - TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_CT containing an empty list.", op_name); - int item_size = value_list.list_value[0].size_of(is_size); - for (unsigned int i = 1; i < value_list.n_values; i++) { - if (value_list.list_value[i].size_of(is_size)!=item_size) - TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_CT containing a value list with different sizes.", op_name); - } - min_size = item_size; - has_any_or_none = FALSE; - break; -} -case COMPLEMENTED_LIST: - TTCN_error("Performing %sof() operation on a template of type @General_Types.ListOfDummy_CT containing complemented list.", op_name); -default: - TTCN_error("Performing %sof() operation on an uninitialized/unsupported template of type @General_Types.ListOfDummy_CT.", op_name); -} -return check_section_is_single(min_size, has_any_or_none, op_name, "a", "template of type @General_Types.ListOfDummy_CT"); -} - -boolean ListOfDummy__CT_template::match(const ListOfDummy__CT& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -int value_length = other_value.size_of(); -if (!match_length(value_length)) return FALSE; -switch (template_selection) { -case SPECIFIC_VALUE: -return match_record_of(&other_value, value_length, this, single_value.n_elements, match_function_specific, legacy); -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching with an uninitialized/unsupported template of type @General_Types.ListOfDummy_CT."); -} -return FALSE; -} - -boolean ListOfDummy__CT_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -if (!single_value.value_elements[elem_count]->is_value()) return FALSE; -return TRUE; -} - -ListOfDummy__CT ListOfDummy__CT_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of type @General_Types.ListOfDummy_CT."); -ListOfDummy__CT ret_val; -ret_val.set_size(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -if (single_value.value_elements[elem_count]->is_bound()) { -ret_val[elem_count] = single_value.value_elements[elem_count]->valueof(); -} -return ret_val; -} - -ListOfDummy__CT ListOfDummy__CT_template::substr(int index, int returncount) const -{ -if (!is_value()) TTCN_error("The first argument of function substr() is a template with non-specific value."); -return valueof().substr(index, returncount); -} - -ListOfDummy__CT ListOfDummy__CT_template::replace(int index, int len, const ListOfDummy__CT_template& repl) const -{ -if (!is_value()) TTCN_error("The first argument of function replace() is a template with non-specific value."); -if (!repl.is_value()) TTCN_error("The fourth argument of function replace() is a template with non-specific value."); -return valueof().replace(index, len, repl.valueof()); -} - -ListOfDummy__CT ListOfDummy__CT_template::replace(int index, int len, const ListOfDummy__CT& repl) const -{ -if (!is_value()) TTCN_error("The first argument of function replace() is a template with non-specific value."); -return valueof().replace(index, len, repl); -} - -void ListOfDummy__CT_template::set_type(template_sel template_type, unsigned int list_length) -{ -clean_up(); -switch (template_type) { -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = list_length; -value_list.list_value = new ListOfDummy__CT_template[list_length]; -break; -default: -TTCN_error("Internal error: Setting an invalid type for a template of type @General_Types.ListOfDummy_CT."); -} -set_selection(template_type); -} - -ListOfDummy__CT_template& ListOfDummy__CT_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Internal error: Accessing a list element of a non-list template of type @General_Types.ListOfDummy_CT."); -if (list_index >= value_list.n_values) TTCN_error("Internal error: Index overflow in a value list template of type @General_Types.ListOfDummy_CT."); -return value_list.list_value[list_index]; -} - -void ListOfDummy__CT_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -if (single_value.n_elements > 0) { -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -if (permutation_starts_at(elem_count)) TTCN_Logger::log_event_str("permutation("); -single_value.value_elements[elem_count]->log(); -if (permutation_ends_at(elem_count)) TTCN_Logger::log_char(')'); -} -TTCN_Logger::log_event_str(" }"); -} else TTCN_Logger::log_event_str("{ }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_restricted(); -log_ifpresent(); -} - -void ListOfDummy__CT_template::log_match(const ListOfDummy__CT& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -}else{ -if (template_selection == SPECIFIC_VALUE && single_value.n_elements > 0 && get_number_of_permutations() == 0 && single_value.n_elements == match_value.size_of()) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if(!single_value.value_elements[elem_count]->match(match_value[elem_count], legacy)){ -TTCN_Logger::log_logmatch_info("[%d]", elem_count); -single_value.value_elements[elem_count]->log_match(match_value[elem_count], legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -log_match_length(single_value.n_elements); -} else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE && single_value.n_elements > 0 && get_number_of_permutations() == 0 && single_value.n_elements == match_value.size_of()) { -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -single_value.value_elements[elem_count]->log_match(match_value[elem_count], legacy); -} -TTCN_Logger::log_event_str(" }"); -log_match_length(single_value.n_elements); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void ListOfDummy__CT_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_permutation(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -single_value.value_elements[elem_count]->encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @General_Types.ListOfDummy_CT."); -} -} - -void ListOfDummy__CT_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_permutation(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value.n_elements = text_buf.pull_int().get_val(); -if (single_value.n_elements < 0) TTCN_error("Text decoder: Negative size was received for a template of type @General_Types.ListOfDummy_CT."); -single_value.value_elements = (COMPONENT_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -single_value.value_elements[elem_count] = new COMPONENT_template; -single_value.value_elements[elem_count]->decode_text(text_buf); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new ListOfDummy__CT_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of type @General_Types.ListOfDummy_CT."); -} -} - -boolean ListOfDummy__CT_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean ListOfDummy__CT_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_id()->get_index())].set_param(*param.get_elem(p_i)); - } - break; - case Module_Param::MP_Value_List: { - set_size(param.get_size()); - int curr_idx = 0; - for (size_t p_i=0; p_iget_type()) { - case Module_Param::MP_NotUsed: - curr_idx++; - break; - case Module_Param::MP_Permutation_Template: { - int perm_start_idx = curr_idx; - Module_Param* param_i = param.get_elem(p_i); - for (size_t perm_i=0; perm_iget_size(); perm_i++) { - (*this)[curr_idx].set_param(*(param_i->get_elem(perm_i))); - curr_idx++; - } - int perm_end_idx = curr_idx - 1; - add_permutation(perm_start_idx, perm_end_idx); - } break; - default: - (*this)[curr_idx].set_param(*param.get_elem(p_i)); - curr_idx++; - } - } - } break; - default: - param.type_error("record of template", "@General_Types.ListOfDummy_CT"); - } - is_ifpresent = param.get_ifpresent(); - set_length_range(param); -} - -void ListOfDummy__CT_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -for (int i=0; icheck_restriction(t_res, t_name ? t_name : "@General_Types.ListOfDummy_CT"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@General_Types.ListOfDummy_CT"); -} - -boolean ListOfDummy__CT_template::get_istemplate_kind(const char* type) const { -if (!strcmp(type, "AnyElement")) { - if (template_selection != SPECIFIC_VALUE) { - return FALSE; - } - for (int i = 0; i < single_value.n_elements; i++) { - if (single_value.value_elements[i]->get_selection() == ANY_VALUE) { - return TRUE; - } - } - return FALSE; -} else if (!strcmp(type, "AnyElementsOrNone")) { - if (template_selection != SPECIFIC_VALUE) { - return FALSE; - } - for (int i = 0; i < single_value.n_elements; i++) { - if (single_value.value_elements[i]->get_selection() == ANY_OR_OMIT) { - return TRUE; - } - } - return FALSE; -} else if (!strcmp(type, "permutation")) { - return number_of_permutations; -} else if (!strcmp(type, "length")) { - return length_restriction_type != NO_LENGTH_RESTRICTION; -} else { - return Base_Template::get_istemplate_kind(type); -} -} - -const Protocols ProtocolList::UNBOUND_ELEM; -ProtocolList::ProtocolList() -{ -val_ptr = NULL; -} - -ProtocolList::ProtocolList(null_type) -{ -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} - -ProtocolList::ProtocolList(const ProtocolList& other_value) -{ -if (!other_value.is_bound()) TTCN_error("Copying an unbound value of type @General_Types.ProtocolList."); -val_ptr = other_value.val_ptr; -val_ptr->ref_count++; -} - -ProtocolList::~ProtocolList() -{ -clean_up(); -if (val_ptr != NULL) val_ptr = NULL; -} - -void ProtocolList::clean_up() -{ -if (val_ptr != NULL) { -if (val_ptr->ref_count > 1) { -val_ptr->ref_count--; -val_ptr = NULL; -} -else if (val_ptr->ref_count == 1) { -for (int elem_count = 0; elem_count < val_ptr->n_elements; -elem_count++) -if (val_ptr->value_elements[elem_count] != NULL) -delete val_ptr->value_elements[elem_count]; -free_pointers((void**)val_ptr->value_elements); -delete val_ptr; -val_ptr = NULL; -} -else -TTCN_error("Internal error: Invalid reference counter in a record of/set of value."); -} -} - -ProtocolList& ProtocolList::operator=(null_type) -{ -clean_up(); -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -return *this; -} - -ProtocolList& ProtocolList::operator=(const ProtocolList& other_value) -{ -if (other_value.val_ptr == NULL) TTCN_error("Assigning an unbound value of type @General_Types.ProtocolList."); -if (this != &other_value) { -clean_up(); -val_ptr = other_value.val_ptr; -val_ptr->ref_count++; -} -return *this; -} - -boolean ProtocolList::operator==(null_type) const -{ -if (val_ptr == NULL) -TTCN_error("The left operand of comparison is an unbound value of type @General_Types.ProtocolList."); -return val_ptr->n_elements == 0 ; -} - -boolean ProtocolList::operator==(const ProtocolList& other_value) const -{ -if (val_ptr == NULL) TTCN_error("The left operand of comparison is an unbound value of type @General_Types.ProtocolList."); -if (other_value.val_ptr == NULL) TTCN_error("The right operand of comparison is an unbound value of type @General_Types.ProtocolList."); -if (val_ptr == other_value.val_ptr) return TRUE; -if (val_ptr->n_elements != (other_value.val_ptr)->n_elements) -return FALSE; -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++){ -if (val_ptr->value_elements[elem_count] != NULL){ -if ((other_value.val_ptr)->value_elements[elem_count] != NULL){ - if (*val_ptr->value_elements[elem_count] != *(other_value.val_ptr)->value_elements[elem_count]) return FALSE; -} else return FALSE; -} else { -if ((other_value.val_ptr)->value_elements[elem_count] != NULL) return FALSE; -} -} -return TRUE; -} - -Protocols& ProtocolList::operator[](int index_value) -{ -if (index_value < 0) TTCN_error("Accessing an element of type @General_Types.ProtocolList using a negative index: %d.", index_value); -if (val_ptr == NULL) { -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} else if (val_ptr->ref_count > 1) { -struct recordof_setof_struct *new_val_ptr = new recordof_setof_struct; -new_val_ptr->ref_count = 1; -new_val_ptr->n_elements = (index_value >= val_ptr->n_elements) ? index_value + 1 : val_ptr->n_elements; -new_val_ptr->value_elements = (Protocols**)allocate_pointers(new_val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++){ -if (val_ptr->value_elements[elem_count] != NULL){ -new_val_ptr->value_elements[elem_count] = new Protocols(*(val_ptr->value_elements[elem_count])); -} -} -clean_up(); -val_ptr = new_val_ptr; -} -if (index_value >= val_ptr->n_elements) set_size(index_value + 1); -if (val_ptr->value_elements[index_value] == NULL) { -val_ptr->value_elements[index_value] = new Protocols; -} -return *val_ptr->value_elements[index_value]; -} - -Protocols& ProtocolList::operator[](const INTEGER& index_value) -{ -index_value.must_bound("Using an unbound integer value for indexing a value of type @General_Types.ProtocolList."); -return (*this)[(int)index_value]; -} - -const Protocols& ProtocolList::operator[](int index_value) const -{ -if (val_ptr == NULL) -TTCN_error("Accessing an element in an unbound value of type @General_Types.ProtocolList."); -if (index_value < 0) TTCN_error("Accessing an element of type @General_Types.ProtocolList using a negative index: %d.", index_value); -if (index_value >= val_ptr->n_elements) TTCN_error("Index overflow in a value of type @General_Types.ProtocolList: The index is %d, but the value has only %d elements.", index_value, val_ptr->n_elements); -return (val_ptr->value_elements[index_value] == NULL) ? -UNBOUND_ELEM : *val_ptr->value_elements[index_value]; -} - -const Protocols& ProtocolList::operator[](const INTEGER& index_value) const -{ -index_value.must_bound("Using an unbound integer value for indexing a value of type @General_Types.ProtocolList."); -return (*this)[(int)index_value]; -} - -ProtocolList ProtocolList::operator<<=(int rotate_count) const -{ -return *this >>= (-rotate_count); -} - -ProtocolList ProtocolList::operator<<=(const INTEGER& rotate_count) const -{ -rotate_count.must_bound("Unbound integer operand of rotate left operator."); -return *this >>= (int)(-rotate_count); -} - -ProtocolList ProtocolList::operator>>=(const INTEGER& rotate_count) const -{ -rotate_count.must_bound("Unbound integer operand of rotate right operator."); -return *this >>= (int)rotate_count; -} - -ProtocolList ProtocolList::operator>>=(int rotate_count) const -{ -if (val_ptr == NULL) TTCN_error("Performing rotation operation on an unbound value of type @General_Types.ProtocolList."); -if (val_ptr->n_elements == 0) return *this; -int rc; -if (rotate_count>=0) rc = rotate_count % val_ptr->n_elements; -else rc = val_ptr->n_elements - ((-rotate_count) % val_ptr->n_elements); -if (rc == 0) return *this; -ProtocolList ret_val; -ret_val.set_size(val_ptr->n_elements); -for (int i=0; in_elements; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[(i+rc)%val_ptr->n_elements] =new Protocols(*val_ptr->value_elements[i]); -} -} -return ret_val; -} - -ProtocolList ProtocolList::operator+(const ProtocolList& other_value) const -{ -if (val_ptr == NULL || other_value.val_ptr == NULL) TTCN_error("Unbound operand of @General_Types.ProtocolList concatenation."); -if (val_ptr->n_elements == 0) return other_value; -if (other_value.val_ptr->n_elements == 0) return *this; -ProtocolList ret_val; -ret_val.set_size(val_ptr->n_elements+other_value.val_ptr->n_elements); -for (int i=0; in_elements; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i] = new Protocols(*val_ptr->value_elements[i]); -} -} -for (int i=0; in_elements; i++) { -if (other_value.val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i+val_ptr->n_elements] = new Protocols(*other_value.val_ptr->value_elements[i]); -} -} -return ret_val; -} - -ProtocolList ProtocolList::substr(int index, int returncount) const -{ -if (val_ptr == NULL) TTCN_error("The first argument of substr() is an unbound value of type @General_Types.ProtocolList."); -check_substr_arguments(val_ptr->n_elements, index, returncount, "@General_Types.ProtocolList","element"); -ProtocolList ret_val; -ret_val.set_size(returncount); -for (int i=0; ivalue_elements[i+index] != NULL) { -ret_val.val_ptr->value_elements[i] = new Protocols(*val_ptr->value_elements[i+index]); -} -} -return ret_val; -} - -ProtocolList ProtocolList::replace(int index, int len, const ProtocolList& repl) const -{ -if (val_ptr == NULL) TTCN_error("The first argument of replace() is an unbound value of type @General_Types.ProtocolList."); -if (repl.val_ptr == NULL) TTCN_error("The fourth argument of replace() is an unbound value of type @General_Types.ProtocolList."); -check_replace_arguments(val_ptr->n_elements, index, len, "@General_Types.ProtocolList","element"); -ProtocolList ret_val; -ret_val.set_size(val_ptr->n_elements + repl.val_ptr->n_elements - len); -for (int i = 0; i < index; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i] = new Protocols(*val_ptr->value_elements[i]); -} -} -for (int i = 0; i < repl.val_ptr->n_elements; i++) { -if (repl.val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i+index] = new Protocols(*repl.val_ptr->value_elements[i]); -} -} -for (int i = 0; i < val_ptr->n_elements - index - len; i++) { -if (val_ptr->value_elements[index+i+len] != NULL) { -ret_val.val_ptr->value_elements[index+i+repl.val_ptr->n_elements] = new Protocols(*val_ptr->value_elements[index+i+len]); -} -} -return ret_val; -} - -ProtocolList ProtocolList::replace(int index, int len, const ProtocolList_template& repl) const -{ -if (!repl.is_value()) TTCN_error("The fourth argument of function replace() is a template with non-specific value."); -return replace(index, len, repl.valueof()); -} - -void ProtocolList::set_size(int new_size) -{ -if (new_size < 0) TTCN_error("Internal error: Setting a negative size for a value of type @General_Types.ProtocolList."); -if (val_ptr == NULL) { -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} else if (val_ptr->ref_count > 1) { -struct recordof_setof_struct *new_val_ptr = new recordof_setof_struct; -new_val_ptr->ref_count = 1; -new_val_ptr->n_elements = (new_size < val_ptr->n_elements) ? new_size : val_ptr->n_elements; -new_val_ptr->value_elements = (Protocols**)allocate_pointers(new_val_ptr->n_elements); -for (int elem_count = 0; elem_count < new_val_ptr->n_elements; elem_count++) { -if (val_ptr->value_elements[elem_count] != NULL){ -new_val_ptr->value_elements[elem_count] = new Protocols(*(val_ptr->value_elements[elem_count])); -} -} -clean_up(); -val_ptr = new_val_ptr; -} -if (new_size > val_ptr->n_elements) { -val_ptr->value_elements = (Protocols**)reallocate_pointers((void**)val_ptr->value_elements, val_ptr->n_elements, new_size); -#ifdef TITAN_MEMORY_DEBUG_SET_RECORD_OF -if((val_ptr->n_elements/1000)!=(new_size/1000)) TTCN_warning("New size of type @General_Types.ProtocolList: %d",new_size); -#endif -val_ptr->n_elements = new_size; -} else if (new_size < val_ptr->n_elements) { -for (int elem_count = new_size; elem_count < val_ptr->n_elements; elem_count++) -if (val_ptr->value_elements[elem_count] != NULL)delete val_ptr->value_elements[elem_count]; -val_ptr->value_elements = (Protocols**)reallocate_pointers((void**)val_ptr->value_elements, val_ptr->n_elements, new_size); -val_ptr->n_elements = new_size; -} -} - -boolean ProtocolList::is_value() const -{ -if (val_ptr == NULL) return FALSE; -for(int i = 0; i < val_ptr->n_elements; ++i) { -if (val_ptr->value_elements[i] == NULL || !val_ptr->value_elements[i]->is_value()) return FALSE; -} -return TRUE; -} - -int ProtocolList::size_of() const -{ -if (val_ptr == NULL) TTCN_error("Performing sizeof operation on an unbound value of type @General_Types.ProtocolList."); -return val_ptr->n_elements; -} - -int ProtocolList::lengthof() const -{ -if (val_ptr == NULL) TTCN_error("Performing lengthof operation on an unbound value of type @General_Types.ProtocolList."); -for (int my_length=val_ptr->n_elements; my_length>0; my_length--) if (val_ptr->value_elements[my_length-1] != NULL) return my_length; -return 0; -} - -void ProtocolList::log() const -{ -if (val_ptr == NULL) {; -TTCN_Logger::log_event_unbound(); -return; -} -switch (val_ptr->n_elements) { -case 0: -TTCN_Logger::log_event_str("{ }"); -break; -default: -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -(*this)[elem_count].log(); -} -TTCN_Logger::log_event_str(" }"); -} -} - -void ProtocolList::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE|Module_Param::BC_LIST, "record of value"); - switch (param.get_operation_type()) { - case Module_Param::OT_ASSIGN: - if (param.get_type()==Module_Param::MP_Value_List && param.get_size()==0) { - *this = NULL_VALUE; - return; - } - switch (param.get_type()) { - case Module_Param::MP_Value_List: - set_size(param.get_size()); - for (size_t i=0; iget_type()!=Module_Param::MP_NotUsed) { - (*this)[i].set_param(*curr); - if (!(*this)[i].is_bound()) { - delete val_ptr->value_elements[i]; - val_ptr->value_elements[i] = NULL; - } - } - } - break; - case Module_Param::MP_Indexed_List: - for (size_t i=0; iget_id()->get_index()].set_param(*curr); - if (!(*this)[curr->get_id()->get_index()].is_bound()) { - delete val_ptr->value_elements[curr->get_id()->get_index()]; - val_ptr->value_elements[curr->get_id()->get_index()] = NULL; - } - } - break; - default: - param.type_error("record of value", "@General_Types.ProtocolList"); - } - break; - case Module_Param::OT_CONCAT: - switch (param.get_type()) { - case Module_Param::MP_Value_List: { - if (!is_bound()) *this = NULL_VALUE; - int start_idx = lengthof(); - for (size_t i=0; iget_type()!=Module_Param::MP_NotUsed)) { - (*this)[start_idx+(int)i].set_param(*curr); - } - } - } break; - case Module_Param::MP_Indexed_List: - param.error("Cannot concatenate an indexed value list"); - break; - default: - param.type_error("record of value", "@General_Types.ProtocolList"); - } - break; - default: - TTCN_error("Internal error: Unknown operation type."); - } -} - -void ProtocolList::set_implicit_omit() -{ -if (val_ptr == NULL) return; -for (int i = 0; i < val_ptr->n_elements; i++) { -if (val_ptr->value_elements[i] != NULL) val_ptr->value_elements[i]->set_implicit_omit(); -} -} - -void ProtocolList::encode_text(Text_Buf& text_buf) const -{ -if (val_ptr == NULL) TTCN_error("Text encoder: Encoding an unbound value of type @General_Types.ProtocolList."); -text_buf.push_int(val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) -(*this)[elem_count].encode_text(text_buf); -} - -void ProtocolList::decode_text(Text_Buf& text_buf) -{ -clean_up(); -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = text_buf.pull_int().get_val(); -if (val_ptr->n_elements < 0) TTCN_error("Text decoder: Negative size was received for a value of type @General_Types.ProtocolList."); -val_ptr->value_elements = (Protocols**)allocate_pointers(val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) { -val_ptr->value_elements[elem_count] = new Protocols; -val_ptr->value_elements[elem_count]->decode_text(text_buf); -} -} - -void ProtocolList::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void ProtocolList::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int ProtocolList::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean /*no_err*/, int sel_field, boolean first_call, const RAW_Force_Omit*){ - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - int decoded_length=0; - int decoded_field_length=0; - size_t start_of_field=0; - if(first_call) { - clean_up(); - val_ptr=new recordof_setof_struct; - val_ptr->ref_count=1; - val_ptr->n_elements=0; - val_ptr->value_elements=NULL; - } - int start_field=val_ptr->n_elements; - if(p_td.raw->fieldlength || sel_field!=-1){ - int a=0; - if(sel_field==-1) sel_field=p_td.raw->fieldlength; - for(a=0;an_elements=0; - } else { - if(limit==0){ - if(!first_call) return -1; - val_ptr->n_elements=0; - return decoded_length+p_buf.increase_pos_padd(p_td.raw->padding)+prepaddlength; - } - int a=start_field; - while(limit>0){ - start_of_field=p_buf.get_pos_bit(); - decoded_field_length=(*this)[a].RAW_decode(*p_td.oftype_descr,p_buf,limit,top_bit_ord,TRUE); - if(decoded_field_length < 0){ - delete &(*this)[a]; - val_ptr->n_elements--; - p_buf.set_pos_bit(start_of_field); - if(a>start_field){ - return decoded_length+p_buf.increase_pos_padd(p_td.raw->padding)+prepaddlength; - } else return -1; - } - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - a++; - } - } - return decoded_length+p_buf.increase_pos_padd(p_td.raw->padding)+prepaddlength; -} - -int ProtocolList::RAW_encode(const TTCN_Typedescriptor_t& p_td,RAW_enc_tree& myleaf) const{ - int encoded_length=0; - int encoded_num_of_records=p_td.raw->fieldlength?smaller(val_ptr->n_elements, p_td.raw->fieldlength):val_ptr->n_elements; - myleaf.isleaf=FALSE; - myleaf.rec_of=TRUE; - myleaf.body.node.num_of_nodes=encoded_num_of_records; - myleaf.body.node.nodes=init_nodes_of_enc_tree(encoded_num_of_records); - for(int a=0;araw); - encoded_length+=(*this)[a].RAW_encode(*p_td.oftype_descr,*myleaf.body.node.nodes[a]); - } - return myleaf.length=encoded_length; -} - -void ProtocolList_template::copy_value(const ProtocolList& other_value) -{ -if (!other_value.is_bound()) TTCN_error("Initialization of a template of type @General_Types.ProtocolList with an unbound value."); -single_value.n_elements = other_value.size_of(); -single_value.value_elements = (Protocols_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (other_value[elem_count].is_bound()) { -single_value.value_elements[elem_count] = new Protocols_template(other_value[elem_count]); -} else { -single_value.value_elements[elem_count] = new Protocols_template; -} -} -set_selection(SPECIFIC_VALUE); -} - -void ProtocolList_template::copy_template(const ProtocolList_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value.n_elements = other_value.single_value.n_elements; -single_value.value_elements = (Protocols_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (UNINITIALIZED_TEMPLATE != other_value.single_value.value_elements[elem_count]->get_selection()) { -single_value.value_elements[elem_count] = new Protocols_template(*other_value.single_value.value_elements[elem_count]); -} else { -single_value.value_elements[elem_count] = new Protocols_template; -} -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new ProtocolList_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @General_Types.ProtocolList."); -break; -} -set_selection(other_value); -} - -boolean ProtocolList_template::match_function_specific(const Base_Type *value_ptr, int value_index, const Restricted_Length_Template *template_ptr, int template_index, boolean legacy) -{ -if (value_index >= 0) return ((const ProtocolList_template*)template_ptr)->single_value.value_elements[template_index]->match((*(const ProtocolList*)value_ptr)[value_index], legacy); -else return ((const ProtocolList_template*)template_ptr)->single_value.value_elements[template_index]->is_any_or_omit(); -} - -ProtocolList_template::ProtocolList_template() -{ -} - -ProtocolList_template::ProtocolList_template(template_sel other_value) - : Record_Of_Template(other_value) -{ -check_single_selection(other_value); -} - -ProtocolList_template::ProtocolList_template(null_type) - : Record_Of_Template(SPECIFIC_VALUE) -{ -single_value.n_elements = 0; -single_value.value_elements = NULL; -} - -ProtocolList_template::ProtocolList_template(const ProtocolList& other_value) -{ -copy_value(other_value); -} - -ProtocolList_template::ProtocolList_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const ProtocolList&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @General_Types.ProtocolList from an unbound optional field."); -} -} - -ProtocolList_template::ProtocolList_template(const ProtocolList_template& other_value) - : Record_Of_Template() -{ -copy_template(other_value); -} - -ProtocolList_template::~ProtocolList_template() -{ -clean_up(); -} - -void ProtocolList_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -delete single_value.value_elements[elem_count]; -free_pointers((void**)single_value.value_elements); -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -ProtocolList_template& ProtocolList_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -ProtocolList_template& ProtocolList_template::operator=(null_type) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value.n_elements = 0; -single_value.value_elements = NULL; -return *this; -} - -ProtocolList_template& ProtocolList_template::operator=(const ProtocolList& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -ProtocolList_template& ProtocolList_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const ProtocolList&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @General_Types.ProtocolList."); -} -return *this; -} - -ProtocolList_template& ProtocolList_template::operator=(const ProtocolList_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -Protocols_template& ProtocolList_template::operator[](int index_value) -{ -if (index_value < 0) TTCN_error("Accessing an element of a template for type @General_Types.ProtocolList using a negative index: %d.", index_value); -switch (template_selection) -{ - case SPECIFIC_VALUE: - if(index_value < single_value.n_elements) break; - // no break - case OMIT_VALUE: - case ANY_VALUE: - case ANY_OR_OMIT: - case UNINITIALIZED_TEMPLATE: - set_size(index_value + 1); - break; - default: - TTCN_error("Accessing an element of a non-specific template for type @General_Types.ProtocolList."); - break; -} -return *single_value.value_elements[index_value]; -} - -Protocols_template& ProtocolList_template::operator[](const INTEGER& index_value) -{ -index_value.must_bound("Using an unbound integer value for indexing a template of type @General_Types.ProtocolList."); -return (*this)[(int)index_value]; -} - -const Protocols_template& ProtocolList_template::operator[](int index_value) const -{ -if (index_value < 0) TTCN_error("Accessing an element of a template for type @General_Types.ProtocolList using a negative index: %d.", index_value); -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing an element of a non-specific template for type @General_Types.ProtocolList."); -if (index_value >= single_value.n_elements) TTCN_error("Index overflow in a template of type @General_Types.ProtocolList: The index is %d, but the template has only %d elements.", index_value, single_value.n_elements); -return *single_value.value_elements[index_value]; -} - -const Protocols_template& ProtocolList_template::operator[](const INTEGER& index_value) const -{ -index_value.must_bound("Using an unbound integer value for indexing a template of type @General_Types.ProtocolList."); -return (*this)[(int)index_value]; -} - -void ProtocolList_template::set_size(int new_size) -{ -if (new_size < 0) TTCN_error("Internal error: Setting a negative size for a template of type @General_Types.ProtocolList."); -template_sel old_selection = template_selection; -if (old_selection != SPECIFIC_VALUE) { -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value.n_elements = 0; -single_value.value_elements = NULL; -} -if (new_size > single_value.n_elements) { -single_value.value_elements = (Protocols_template**)reallocate_pointers((void**)single_value.value_elements, single_value.n_elements, new_size); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -for (int elem_count = single_value.n_elements; elem_count < new_size; elem_count++) -single_value.value_elements[elem_count] = new Protocols_template(ANY_VALUE); -} else { -for (int elem_count = single_value.n_elements; elem_count < new_size; elem_count++) -single_value.value_elements[elem_count] = new Protocols_template; -} -single_value.n_elements = new_size; -} else if (new_size < single_value.n_elements) { -for (int elem_count = new_size; elem_count < single_value.n_elements; elem_count++) -delete single_value.value_elements[elem_count]; -single_value.value_elements = (Protocols_template**)reallocate_pointers((void**)single_value.value_elements, single_value.n_elements, new_size); -single_value.n_elements = new_size; -} -} - -int ProtocolList_template::n_elem() const -{ - switch (template_selection) { - case SPECIFIC_VALUE: - return single_value.n_elements; - break; - case VALUE_LIST: - return value_list.n_values; - break; - default: - TTCN_error("Performing n_elem"); - } -} - -int ProtocolList_template::size_of(boolean is_size) const -{ -const char* op_name = is_size ? "size" : "length"; -int min_size; -boolean has_any_or_none; -if (is_ifpresent) TTCN_error("Performing %sof() operation on a template of type @General_Types.ProtocolList which has an ifpresent attribute.", op_name); -switch (template_selection) -{ -case SPECIFIC_VALUE: { - min_size = 0; - has_any_or_none = FALSE; - int elem_count = single_value.n_elements; - if (!is_size) { while (elem_count>0 && !single_value.value_elements[elem_count-1]->is_bound()) elem_count--; } - for (int i=0; iget_selection()) { - case OMIT_VALUE: - TTCN_error("Performing %sof() operation on a template of type @General_Types.ProtocolList containing omit element.", op_name); - case ANY_OR_OMIT: - has_any_or_none = TRUE; - break; - default: - min_size++; - break; - } - } -} break; -case OMIT_VALUE: - TTCN_error("Performing %sof() operation on a template of type @General_Types.ProtocolList containing omit value.", op_name); -case ANY_VALUE: -case ANY_OR_OMIT: - min_size = 0; - has_any_or_none = TRUE; - break; -case VALUE_LIST: -{ - if (value_list.n_values<1) - TTCN_error("Performing %sof() operation on a template of type @General_Types.ProtocolList containing an empty list.", op_name); - int item_size = value_list.list_value[0].size_of(is_size); - for (unsigned int i = 1; i < value_list.n_values; i++) { - if (value_list.list_value[i].size_of(is_size)!=item_size) - TTCN_error("Performing %sof() operation on a template of type @General_Types.ProtocolList containing a value list with different sizes.", op_name); - } - min_size = item_size; - has_any_or_none = FALSE; - break; -} -case COMPLEMENTED_LIST: - TTCN_error("Performing %sof() operation on a template of type @General_Types.ProtocolList containing complemented list.", op_name); -default: - TTCN_error("Performing %sof() operation on an uninitialized/unsupported template of type @General_Types.ProtocolList.", op_name); -} -return check_section_is_single(min_size, has_any_or_none, op_name, "a", "template of type @General_Types.ProtocolList"); -} - -boolean ProtocolList_template::match(const ProtocolList& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -int value_length = other_value.size_of(); -if (!match_length(value_length)) return FALSE; -switch (template_selection) { -case SPECIFIC_VALUE: -return match_record_of(&other_value, value_length, this, single_value.n_elements, match_function_specific, legacy); -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching with an uninitialized/unsupported template of type @General_Types.ProtocolList."); -} -return FALSE; -} - -boolean ProtocolList_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -if (!single_value.value_elements[elem_count]->is_value()) return FALSE; -return TRUE; -} - -ProtocolList ProtocolList_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of type @General_Types.ProtocolList."); -ProtocolList ret_val; -ret_val.set_size(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -if (single_value.value_elements[elem_count]->is_bound()) { -ret_val[elem_count] = single_value.value_elements[elem_count]->valueof(); -} -return ret_val; -} - -ProtocolList ProtocolList_template::substr(int index, int returncount) const -{ -if (!is_value()) TTCN_error("The first argument of function substr() is a template with non-specific value."); -return valueof().substr(index, returncount); -} - -ProtocolList ProtocolList_template::replace(int index, int len, const ProtocolList_template& repl) const -{ -if (!is_value()) TTCN_error("The first argument of function replace() is a template with non-specific value."); -if (!repl.is_value()) TTCN_error("The fourth argument of function replace() is a template with non-specific value."); -return valueof().replace(index, len, repl.valueof()); -} - -ProtocolList ProtocolList_template::replace(int index, int len, const ProtocolList& repl) const -{ -if (!is_value()) TTCN_error("The first argument of function replace() is a template with non-specific value."); -return valueof().replace(index, len, repl); -} - -void ProtocolList_template::set_type(template_sel template_type, unsigned int list_length) -{ -clean_up(); -switch (template_type) { -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = list_length; -value_list.list_value = new ProtocolList_template[list_length]; -break; -default: -TTCN_error("Internal error: Setting an invalid type for a template of type @General_Types.ProtocolList."); -} -set_selection(template_type); -} - -ProtocolList_template& ProtocolList_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Internal error: Accessing a list element of a non-list template of type @General_Types.ProtocolList."); -if (list_index >= value_list.n_values) TTCN_error("Internal error: Index overflow in a value list template of type @General_Types.ProtocolList."); -return value_list.list_value[list_index]; -} - -void ProtocolList_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -if (single_value.n_elements > 0) { -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -if (permutation_starts_at(elem_count)) TTCN_Logger::log_event_str("permutation("); -single_value.value_elements[elem_count]->log(); -if (permutation_ends_at(elem_count)) TTCN_Logger::log_char(')'); -} -TTCN_Logger::log_event_str(" }"); -} else TTCN_Logger::log_event_str("{ }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_restricted(); -log_ifpresent(); -} - -void ProtocolList_template::log_match(const ProtocolList& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -}else{ -if (template_selection == SPECIFIC_VALUE && single_value.n_elements > 0 && get_number_of_permutations() == 0 && single_value.n_elements == match_value.size_of()) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if(!single_value.value_elements[elem_count]->match(match_value[elem_count], legacy)){ -TTCN_Logger::log_logmatch_info("[%d]", elem_count); -single_value.value_elements[elem_count]->log_match(match_value[elem_count], legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -log_match_length(single_value.n_elements); -} else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE && single_value.n_elements > 0 && get_number_of_permutations() == 0 && single_value.n_elements == match_value.size_of()) { -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -single_value.value_elements[elem_count]->log_match(match_value[elem_count], legacy); -} -TTCN_Logger::log_event_str(" }"); -log_match_length(single_value.n_elements); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void ProtocolList_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_permutation(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -single_value.value_elements[elem_count]->encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @General_Types.ProtocolList."); -} -} - -void ProtocolList_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_permutation(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value.n_elements = text_buf.pull_int().get_val(); -if (single_value.n_elements < 0) TTCN_error("Text decoder: Negative size was received for a template of type @General_Types.ProtocolList."); -single_value.value_elements = (Protocols_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -single_value.value_elements[elem_count] = new Protocols_template; -single_value.value_elements[elem_count]->decode_text(text_buf); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new ProtocolList_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of type @General_Types.ProtocolList."); -} -} - -boolean ProtocolList_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean ProtocolList_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_id()->get_index())].set_param(*param.get_elem(p_i)); - } - break; - case Module_Param::MP_Value_List: { - set_size(param.get_size()); - int curr_idx = 0; - for (size_t p_i=0; p_iget_type()) { - case Module_Param::MP_NotUsed: - curr_idx++; - break; - case Module_Param::MP_Permutation_Template: { - int perm_start_idx = curr_idx; - Module_Param* param_i = param.get_elem(p_i); - for (size_t perm_i=0; perm_iget_size(); perm_i++) { - (*this)[curr_idx].set_param(*(param_i->get_elem(perm_i))); - curr_idx++; - } - int perm_end_idx = curr_idx - 1; - add_permutation(perm_start_idx, perm_end_idx); - } break; - default: - (*this)[curr_idx].set_param(*param.get_elem(p_i)); - curr_idx++; - } - } - } break; - default: - param.type_error("record of template", "@General_Types.ProtocolList"); - } - is_ifpresent = param.get_ifpresent(); - set_length_range(param); -} - -void ProtocolList_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -for (int i=0; icheck_restriction(t_res, t_name ? t_name : "@General_Types.ProtocolList"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@General_Types.ProtocolList"); -} - -boolean ProtocolList_template::get_istemplate_kind(const char* type) const { -if (!strcmp(type, "AnyElement")) { - if (template_selection != SPECIFIC_VALUE) { - return FALSE; - } - for (int i = 0; i < single_value.n_elements; i++) { - if (single_value.value_elements[i]->get_selection() == ANY_VALUE) { - return TRUE; - } - } - return FALSE; -} else if (!strcmp(type, "AnyElementsOrNone")) { - if (template_selection != SPECIFIC_VALUE) { - return FALSE; - } - for (int i = 0; i < single_value.n_elements; i++) { - if (single_value.value_elements[i]->get_selection() == ANY_OR_OMIT) { - return TRUE; - } - } - return FALSE; -} else if (!strcmp(type, "permutation")) { - return number_of_permutations; -} else if (!strcmp(type, "length")) { - return length_restriction_type != NO_LENGTH_RESTRICTION; -} else { - return Base_Template::get_istemplate_kind(type); -} -} - -/* Bodies of functions, altsteps and testcases */ - -void BIT1n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT1n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT1n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT1n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT2n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT2n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT2n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT2n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT3n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT3n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT3n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT3n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT4n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT4n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT4n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT4n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT5n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT5n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT5n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT5n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT6n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT6n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT6n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT6n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT7n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT7n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT7n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT7n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT8n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT8n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT8n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT8n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT9n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT9n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT9n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT9n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT12n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT12n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT12n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT12n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT14n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT14n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT14n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT14n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT15n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT15n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT15n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT15n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT16n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT16n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT16n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT16n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT56n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT56n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT56n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT56n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT14__24n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BITSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT14__24n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BITSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT1np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT1np_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT1np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT1np_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT2np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT2np_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT2np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT2np_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT3np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT3np_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT3np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT3np_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT4np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT4np_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT4np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT4np_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT5np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT5np_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT5np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT5np_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT6np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT6np_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT6np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT6np_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT7np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT7np_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT7np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT7np_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT15np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT15np_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT15np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT15np_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT1_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT1_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT1_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT1_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT2_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT2_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT2_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT2_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT3_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT3_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT3_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT3_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT4_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT4_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT4_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT4_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT5_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT5_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT5_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT5_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT6_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT6_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT6_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT6_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT7_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT7_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT7_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT7_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT8_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT8_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT8_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT8_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT9_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT9_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT9_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT9_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT10_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT10_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT10_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT10_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT11_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT11_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT11_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT11_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT12_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT12_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT12_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT12_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT13_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT13_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT13_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT13_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT14_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT14_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT14_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT14_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT15_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT15_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT15_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT15_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT16_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT16_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT16_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT16_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT24_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT24_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT24_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT24_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT28_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT28_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT28_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT28_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT29_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT29_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT29_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT29_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT30_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT30_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT30_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT30_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT31_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT31_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT31_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT31_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT32_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT32_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT32_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT32_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT56_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT56_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT56_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT56_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT0n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT0n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT0n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT0n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT1n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT1n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT2n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT2n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT2n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT2n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT3n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT3n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT3n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT3n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT4n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT4n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT4n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT4n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT5n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT5n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT5n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT5n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT6n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT6n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT6n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT6n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT7n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT7n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT7n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT7n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT8n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT8n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT8n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT8n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT9n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT9n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT9n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT9n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT10n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT10n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT10n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT10n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT11n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT11n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT11n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT11n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT12n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT12n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT12n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT12n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT13n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT13n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT13n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT13n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT14n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT14n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT14n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT14n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT15n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT15n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT15n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT15n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT16n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT16n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT16n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT16n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT17n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT17n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT17n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT17n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT18n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT18n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT18n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT18n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT19n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT19n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT19n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT19n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT20n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT20n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT20n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT20n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT28n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT28n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT28n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT28n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT32n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT32n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT32n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT32n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT34n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT34n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT34n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT34n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT46n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT46n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT46n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT46n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT50n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT50n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT50n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT50n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT69n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT69n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT69n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT69n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT100n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT100n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT100n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT100n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT128n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT128n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT128n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT128n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT500n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT500n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT500n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT500n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCTNn_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCTNn_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__3n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__3n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__4n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__4n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__5n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__5n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__6n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__6n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__7n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__7n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__8n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__8n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__12n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__12n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__15n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__15n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__16n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__16n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__18n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__18n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__20n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__20n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__24n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__24n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__32n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__32n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__34n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__34n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__46n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__46n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__50n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__50n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__112n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__112n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__127n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__127n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__128n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__128n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__172n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__172n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT3__5n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT3__5n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT3__7n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT3__7n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT3__8n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT3__8n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT3__14n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT3__14n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT3__17n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT3__17n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT4__8n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT4__8n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void CHAR4_encoder(const CHARSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `charstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(CHAR4_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER CHAR4_decoder(OCTETSTRING& input_stream, CHARSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `charstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(CHAR4_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX4n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEX4n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX4n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEX4n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX6n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEX6n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX6n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEX6n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX8n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEX8n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX8n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEX8n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX15n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEX15n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX15n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEX15n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX16n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEX16n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX16n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEX16n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX24n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEX24n_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX24n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEX24n_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX0__3n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX0__3n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX0__18n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX0__18n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX1__20n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX1__20n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX1__34n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX1__34n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT3nb_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT3nb_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT4nb_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT4nb_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT5nb_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT5nb_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT8nb_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT8nb_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT2nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT2nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT1nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT1nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT3nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT3nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT5nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT5nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT9nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT9nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT13nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT13nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT15nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT15nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT6__BO__LAST_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT6__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT6__BO__LAST_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT6__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT16__BO__LAST_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT16__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT16__BO__LAST_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT16__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void BIT32__BO__LAST_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(BIT32__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER BIT32__BO__LAST_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `bitstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(BIT32__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void Dummy_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(Dummy_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER Dummy_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(Dummy_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT0_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT0_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT0_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT0_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT1_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT1_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT2_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT2_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT2_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT2_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT3_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT3_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT3_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT3_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT4_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT4_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT4_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT4_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT5_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT5_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT5_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT5_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT6_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT6_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT6_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT6_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT7_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT7_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT7_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT7_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT8_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT8_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT8_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT8_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT9_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT9_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT9_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT9_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT10_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT10_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT10_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT10_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT11_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT11_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT11_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT11_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT12_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT12_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT12_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT12_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT13_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT13_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT13_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT13_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT14_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT14_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT14_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT14_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT15_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT15_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT15_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT15_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT16_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT16_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT16_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT16_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT17_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT17_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT17_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT17_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT18_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT18_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT18_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT18_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT19_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT19_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT19_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT19_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT20_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT20_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT20_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT20_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT22_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT22_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT22_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT22_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT32_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT32_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT32_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT32_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT34_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT34_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT34_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT34_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT46_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT46_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT46_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT46_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__260_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__260_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__8_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__8_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__12_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__12_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__32_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__32_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1__50_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1__50_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT3__8_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT3__8_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCTN_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCTN_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCTETSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX1_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEX1_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX1_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEX1_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX0__16_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX0__16_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX5__16_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX5__16_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void HEX1__32_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER HEX1__32_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `hexstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(HEXSTRING_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT1_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT1_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT1_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT1_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void LIN1_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(LIN1_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER LIN1_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(LIN1_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void LIN2_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(LIN2_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER LIN2_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(LIN2_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void LIN2__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(LIN2__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER LIN2__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(LIN2__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void LIN3__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(LIN3__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER LIN3__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(LIN3__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void LIN4__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(LIN4__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER LIN4__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(LIN4__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT1b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT1b_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT1b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT1b_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT2b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT2b_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT2b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT2b_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT3b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT3b_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT3b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT3b_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT4b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT4b_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT4b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT4b_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT5b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT5b_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT5b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT5b_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT6b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT6b_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT6b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT6b_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT7b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT7b_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT7b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT7b_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT11b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT11b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT11b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT11b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT12b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT12b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT12b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT12b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT13b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT13b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT13b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT13b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT14b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT14b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT14b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT14b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT18b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT18b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT18b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT18b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT20b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT20b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT20b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT20b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void INT31b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INT31b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER INT31b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INT31b__BO__LAST_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void Integers_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER Integers_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(INTEGER_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void Integers_encoder(const Integers& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.Integers' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(Integers_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER Integers_decoder(OCTETSTRING& input_stream, Integers& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.Integers' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(Integers_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -boolean operator==(null_type, const Integer__array& other_value) -{ -if (other_value.val_ptr == NULL) -TTCN_error("The right operand of comparison is an unbound value of type @General_Types.Integer_array."); -return other_value.val_ptr->n_elements == 0; -} - -void Integer__array_encoder(const Integer__array& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.Integer_array' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(Integer__array_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER Integer__array_decoder(OCTETSTRING& input_stream, Integer__array& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.Integer_array' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(Integer__array_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void Protocols_encoder(const Protocols& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.Protocols' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(Protocols_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER Protocols_decoder(OCTETSTRING& input_stream, Protocols& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.Protocols' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(Protocols_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT1List_encoder(const OCT1List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT1List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT1List_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT1List_decoder(OCTETSTRING& input_stream, OCT1List& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT1List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT1List_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT2List_encoder(const OCT2List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT2List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT2List_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT2List_decoder(OCTETSTRING& input_stream, OCT2List& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT2List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT2List_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT3List_encoder(const OCT3List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT3List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT3List_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT3List_decoder(OCTETSTRING& input_stream, OCT3List& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT3List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT3List_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT4List_encoder(const OCT4List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT4List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT4List_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT4List_decoder(OCTETSTRING& input_stream, OCT4List& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT4List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT4List_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT5List_encoder(const OCT5List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT5List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT5List_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT5List_decoder(OCTETSTRING& input_stream, OCT5List& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT5List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT5List_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT6List_encoder(const OCT6List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT6List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT6List_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT6List_decoder(OCTETSTRING& input_stream, OCT6List& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT6List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT6List_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void OCT7List_encoder(const OCT7List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT7List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(OCT7List_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER OCT7List_decoder(OCTETSTRING& input_stream, OCT7List& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.OCT7List' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(OCT7List_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -boolean operator==(null_type, const ListOfDummy__comptype& other_value) -{ -if (other_value.val_ptr == NULL) -TTCN_error("The right operand of comparison is an unbound value of type @General_Types.ListOfDummy_comptype."); -return other_value.val_ptr->n_elements == 0; -} - -boolean operator==(null_type, const ListOfDummy__CT& other_value) -{ -if (other_value.val_ptr == NULL) -TTCN_error("The right operand of comparison is an unbound value of type @General_Types.ListOfDummy_CT."); -return other_value.val_ptr->n_elements == 0; -} - -boolean operator==(null_type, const ProtocolList& other_value) -{ -if (other_value.val_ptr == NULL) -TTCN_error("The right operand of comparison is an unbound value of type @General_Types.ProtocolList."); -return other_value.val_ptr->n_elements == 0; -} - -void ProtocolList_encoder(const ProtocolList& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.ProtocolList' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(ProtocolList_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER ProtocolList_decoder(OCTETSTRING& input_stream, ProtocolList& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@General_Types.ProtocolList' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(ProtocolList_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - - -/* Bodies of static functions */ - -static boolean init_comp_type(const char *component_type, boolean init_base_comps) -{ -(void)init_base_comps; -if (!strcmp(component_type, "Dummy_comptype")) { -return TRUE; -} else if (!strcmp(component_type, "Dummy_CT")) { -return TRUE; -} else return FALSE; -} - - -} /* end of namespace */ diff --git a/titan/General_Types.hh b/titan/General_Types.hh deleted file mode 100644 index dab582a..0000000 --- a/titan/General_Types.hh +++ /dev/null @@ -1,2327 +0,0 @@ -// This C++ header file was generated by the TTCN-3 compiler -// of the TTCN-3 Test Executor version CRL 113 200/6 R5A -// The generation of user and time information were disabled by the -D flag. - -// Copyright (c) 2000-2018 Ericsson Telecom AB - -// Do not edit this file unless you know what you are doing. - -#ifndef General__Types_HH -#define General__Types_HH - -#ifdef TITAN_RUNTIME_2 -#error Generated code does not match with used runtime.\ - Code was generated without -R option but -DTITAN_RUNTIME_2 was used. -#endif - -/* Header file includes */ - -#include - -#if TTCN3_VERSION != 60500 -#error Version mismatch detected.\ - Please check the version of the TTCN-3 compiler and the base library.\ - Run make clean and rebuild the project if the version of the compiler changed recently. -#endif - -#ifndef LINUX -#error This file should be compiled on LINUX -#endif - -#undef General__Types_HH -#endif - -namespace General__Types { - -/* Forward declarations of classes */ - -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER Integers; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER_template Integers_template; -class Integer__array; -class Integer__array_template; -class Protocols; -class Protocols_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING OCT1List; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING_template OCT1List_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING OCT2List; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING_template OCT2List_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING OCT3List; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING_template OCT3List_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING OCT4List; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING_template OCT4List_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING OCT5List; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING_template OCT5List_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING OCT6List; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING_template OCT6List_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING OCT7List; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING_template OCT7List_template; -class ListOfDummy__comptype; -class ListOfDummy__comptype_template; -class ListOfDummy__CT; -class ListOfDummy__CT_template; -class ProtocolList; -class ProtocolList_template; - -} /* end of namespace */ - -#ifndef General__Types_HH -#define General__Types_HH - -namespace General__Types { - -/* Type definitions */ - -typedef BITSTRING BIT1n; -typedef BITSTRING_template BIT1n_template; -typedef BITSTRING BIT2n; -typedef BITSTRING_template BIT2n_template; -typedef BITSTRING BIT3n; -typedef BITSTRING_template BIT3n_template; -typedef BITSTRING BIT4n; -typedef BITSTRING_template BIT4n_template; -typedef BITSTRING BIT5n; -typedef BITSTRING_template BIT5n_template; -typedef BITSTRING BIT6n; -typedef BITSTRING_template BIT6n_template; -typedef BITSTRING BIT7n; -typedef BITSTRING_template BIT7n_template; -typedef BITSTRING BIT8n; -typedef BITSTRING_template BIT8n_template; -typedef BITSTRING BIT9n; -typedef BITSTRING_template BIT9n_template; -typedef BITSTRING BIT12n; -typedef BITSTRING_template BIT12n_template; -typedef BITSTRING BIT14n; -typedef BITSTRING_template BIT14n_template; -typedef BITSTRING BIT15n; -typedef BITSTRING_template BIT15n_template; -typedef BITSTRING BIT16n; -typedef BITSTRING_template BIT16n_template; -typedef BITSTRING BIT56n; -typedef BITSTRING_template BIT56n_template; -typedef BITSTRING BIT14__24n; -typedef BITSTRING_template BIT14__24n_template; -typedef BITSTRING BIT1np; -typedef BITSTRING_template BIT1np_template; -typedef BITSTRING BIT2np; -typedef BITSTRING_template BIT2np_template; -typedef BITSTRING BIT3np; -typedef BITSTRING_template BIT3np_template; -typedef BITSTRING BIT4np; -typedef BITSTRING_template BIT4np_template; -typedef BITSTRING BIT5np; -typedef BITSTRING_template BIT5np_template; -typedef BITSTRING BIT6np; -typedef BITSTRING_template BIT6np_template; -typedef BITSTRING BIT7np; -typedef BITSTRING_template BIT7np_template; -typedef BITSTRING BIT15np; -typedef BITSTRING_template BIT15np_template; -typedef BITSTRING BIT1; -typedef BITSTRING_template BIT1_template; -typedef BITSTRING BIT2; -typedef BITSTRING_template BIT2_template; -typedef BITSTRING BIT3; -typedef BITSTRING_template BIT3_template; -typedef BITSTRING BIT4; -typedef BITSTRING_template BIT4_template; -typedef BITSTRING BIT5; -typedef BITSTRING_template BIT5_template; -typedef BITSTRING BIT6; -typedef BITSTRING_template BIT6_template; -typedef BITSTRING BIT7; -typedef BITSTRING_template BIT7_template; -typedef BITSTRING BIT8; -typedef BITSTRING_template BIT8_template; -typedef BITSTRING BIT9; -typedef BITSTRING_template BIT9_template; -typedef BITSTRING BIT10; -typedef BITSTRING_template BIT10_template; -typedef BITSTRING BIT11; -typedef BITSTRING_template BIT11_template; -typedef BITSTRING BIT12; -typedef BITSTRING_template BIT12_template; -typedef BITSTRING BIT13; -typedef BITSTRING_template BIT13_template; -typedef BITSTRING BIT14; -typedef BITSTRING_template BIT14_template; -typedef BITSTRING BIT15; -typedef BITSTRING_template BIT15_template; -typedef BITSTRING BIT16; -typedef BITSTRING_template BIT16_template; -typedef BITSTRING BIT24; -typedef BITSTRING_template BIT24_template; -typedef BITSTRING BIT28; -typedef BITSTRING_template BIT28_template; -typedef BITSTRING BIT29; -typedef BITSTRING_template BIT29_template; -typedef BITSTRING BIT30; -typedef BITSTRING_template BIT30_template; -typedef BITSTRING BIT31; -typedef BITSTRING_template BIT31_template; -typedef BITSTRING BIT32; -typedef BITSTRING_template BIT32_template; -typedef BITSTRING BIT56; -typedef BITSTRING_template BIT56_template; -typedef OCTETSTRING OCT0n; -typedef OCTETSTRING_template OCT0n_template; -typedef OCTETSTRING OCT1n; -typedef OCTETSTRING_template OCT1n_template; -typedef OCTETSTRING OCT2n; -typedef OCTETSTRING_template OCT2n_template; -typedef OCTETSTRING OCT3n; -typedef OCTETSTRING_template OCT3n_template; -typedef OCTETSTRING OCT4n; -typedef OCTETSTRING_template OCT4n_template; -typedef OCTETSTRING OCT5n; -typedef OCTETSTRING_template OCT5n_template; -typedef OCTETSTRING OCT6n; -typedef OCTETSTRING_template OCT6n_template; -typedef OCTETSTRING OCT7n; -typedef OCTETSTRING_template OCT7n_template; -typedef OCTETSTRING OCT8n; -typedef OCTETSTRING_template OCT8n_template; -typedef OCTETSTRING OCT9n; -typedef OCTETSTRING_template OCT9n_template; -typedef OCTETSTRING OCT10n; -typedef OCTETSTRING_template OCT10n_template; -typedef OCTETSTRING OCT11n; -typedef OCTETSTRING_template OCT11n_template; -typedef OCTETSTRING OCT12n; -typedef OCTETSTRING_template OCT12n_template; -typedef OCTETSTRING OCT13n; -typedef OCTETSTRING_template OCT13n_template; -typedef OCTETSTRING OCT14n; -typedef OCTETSTRING_template OCT14n_template; -typedef OCTETSTRING OCT15n; -typedef OCTETSTRING_template OCT15n_template; -typedef OCTETSTRING OCT16n; -typedef OCTETSTRING_template OCT16n_template; -typedef OCTETSTRING OCT17n; -typedef OCTETSTRING_template OCT17n_template; -typedef OCTETSTRING OCT18n; -typedef OCTETSTRING_template OCT18n_template; -typedef OCTETSTRING OCT19n; -typedef OCTETSTRING_template OCT19n_template; -typedef OCTETSTRING OCT20n; -typedef OCTETSTRING_template OCT20n_template; -typedef OCTETSTRING OCT28n; -typedef OCTETSTRING_template OCT28n_template; -typedef OCTETSTRING OCT32n; -typedef OCTETSTRING_template OCT32n_template; -typedef OCTETSTRING OCT34n; -typedef OCTETSTRING_template OCT34n_template; -typedef OCTETSTRING OCT46n; -typedef OCTETSTRING_template OCT46n_template; -typedef OCTETSTRING OCT50n; -typedef OCTETSTRING_template OCT50n_template; -typedef OCTETSTRING OCT69n; -typedef OCTETSTRING_template OCT69n_template; -typedef OCTETSTRING OCT100n; -typedef OCTETSTRING_template OCT100n_template; -typedef OCTETSTRING OCT128n; -typedef OCTETSTRING_template OCT128n_template; -typedef OCTETSTRING OCT500n; -typedef OCTETSTRING_template OCT500n_template; -typedef OCTETSTRING OCTNn; -typedef OCTETSTRING_template OCTNn_template; -typedef OCTETSTRING OCT1__3n; -typedef OCTETSTRING_template OCT1__3n_template; -typedef OCTETSTRING OCT1__4n; -typedef OCTETSTRING_template OCT1__4n_template; -typedef OCTETSTRING OCT1__5n; -typedef OCTETSTRING_template OCT1__5n_template; -typedef OCTETSTRING OCT1__6n; -typedef OCTETSTRING_template OCT1__6n_template; -typedef OCTETSTRING OCT1__7n; -typedef OCTETSTRING_template OCT1__7n_template; -typedef OCTETSTRING OCT1__8n; -typedef OCTETSTRING_template OCT1__8n_template; -typedef OCTETSTRING OCT1__12n; -typedef OCTETSTRING_template OCT1__12n_template; -typedef OCTETSTRING OCT1__15n; -typedef OCTETSTRING_template OCT1__15n_template; -typedef OCTETSTRING OCT1__16n; -typedef OCTETSTRING_template OCT1__16n_template; -typedef OCTETSTRING OCT1__18n; -typedef OCTETSTRING_template OCT1__18n_template; -typedef OCTETSTRING OCT1__20n; -typedef OCTETSTRING_template OCT1__20n_template; -typedef OCTETSTRING OCT1__24n; -typedef OCTETSTRING_template OCT1__24n_template; -typedef OCTETSTRING OCT1__32n; -typedef OCTETSTRING_template OCT1__32n_template; -typedef OCTETSTRING OCT1__34n; -typedef OCTETSTRING_template OCT1__34n_template; -typedef OCTETSTRING OCT1__46n; -typedef OCTETSTRING_template OCT1__46n_template; -typedef OCTETSTRING OCT1__50n; -typedef OCTETSTRING_template OCT1__50n_template; -typedef OCTETSTRING OCT1__112n; -typedef OCTETSTRING_template OCT1__112n_template; -typedef OCTETSTRING OCT1__127n; -typedef OCTETSTRING_template OCT1__127n_template; -typedef OCTETSTRING OCT1__128n; -typedef OCTETSTRING_template OCT1__128n_template; -typedef OCTETSTRING OCT1__172n; -typedef OCTETSTRING_template OCT1__172n_template; -typedef OCTETSTRING OCT3__5n; -typedef OCTETSTRING_template OCT3__5n_template; -typedef OCTETSTRING OCT3__7n; -typedef OCTETSTRING_template OCT3__7n_template; -typedef OCTETSTRING OCT3__8n; -typedef OCTETSTRING_template OCT3__8n_template; -typedef OCTETSTRING OCT3__14n; -typedef OCTETSTRING_template OCT3__14n_template; -typedef OCTETSTRING OCT3__17n; -typedef OCTETSTRING_template OCT3__17n_template; -typedef OCTETSTRING OCT4__8n; -typedef OCTETSTRING_template OCT4__8n_template; -typedef CHARSTRING CHAR4; -typedef CHARSTRING_template CHAR4_template; -typedef HEXSTRING HEX4n; -typedef HEXSTRING_template HEX4n_template; -typedef HEXSTRING HEX6n; -typedef HEXSTRING_template HEX6n_template; -typedef HEXSTRING HEX8n; -typedef HEXSTRING_template HEX8n_template; -typedef HEXSTRING HEX15n; -typedef HEXSTRING_template HEX15n_template; -typedef HEXSTRING HEX16n; -typedef HEXSTRING_template HEX16n_template; -typedef HEXSTRING HEX24n; -typedef HEXSTRING_template HEX24n_template; -typedef HEXSTRING HEX0__3n; -typedef HEXSTRING_template HEX0__3n_template; -typedef HEXSTRING HEX0__18n; -typedef HEXSTRING_template HEX0__18n_template; -typedef HEXSTRING HEX1__20n; -typedef HEXSTRING_template HEX1__20n_template; -typedef HEXSTRING HEX1__34n; -typedef HEXSTRING_template HEX1__34n_template; -typedef INTEGER INT3nb; -typedef INTEGER_template INT3nb_template; -typedef INTEGER INT4nb; -typedef INTEGER_template INT4nb_template; -typedef INTEGER INT5nb; -typedef INTEGER_template INT5nb_template; -typedef INTEGER INT8nb; -typedef INTEGER_template INT8nb_template; -typedef INTEGER INT2nbp; -typedef INTEGER_template INT2nbp_template; -typedef INTEGER INT1nbp; -typedef INTEGER_template INT1nbp_template; -typedef INTEGER INT3nbp; -typedef INTEGER_template INT3nbp_template; -typedef INTEGER INT5nbp; -typedef INTEGER_template INT5nbp_template; -typedef INTEGER INT9nbp; -typedef INTEGER_template INT9nbp_template; -typedef INTEGER INT13nbp; -typedef INTEGER_template INT13nbp_template; -typedef INTEGER INT15nbp; -typedef INTEGER_template INT15nbp_template; -typedef BITSTRING BIT6__BO__LAST; -typedef BITSTRING_template BIT6__BO__LAST_template; -typedef BITSTRING BIT16__BO__LAST; -typedef BITSTRING_template BIT16__BO__LAST_template; -typedef BITSTRING BIT32__BO__LAST; -typedef BITSTRING_template BIT32__BO__LAST_template; -typedef OCTETSTRING Dummy; -typedef OCTETSTRING_template Dummy_template; -typedef OCTETSTRING OCT0; -typedef OCTETSTRING_template OCT0_template; -typedef OCTETSTRING OCT1; -typedef OCTETSTRING_template OCT1_template; -typedef OCTETSTRING OCT2; -typedef OCTETSTRING_template OCT2_template; -typedef OCTETSTRING OCT3; -typedef OCTETSTRING_template OCT3_template; -typedef OCTETSTRING OCT4; -typedef OCTETSTRING_template OCT4_template; -typedef OCTETSTRING OCT5; -typedef OCTETSTRING_template OCT5_template; -typedef OCTETSTRING OCT6; -typedef OCTETSTRING_template OCT6_template; -typedef OCTETSTRING OCT7; -typedef OCTETSTRING_template OCT7_template; -typedef OCTETSTRING OCT8; -typedef OCTETSTRING_template OCT8_template; -typedef OCTETSTRING OCT9; -typedef OCTETSTRING_template OCT9_template; -typedef OCTETSTRING OCT10; -typedef OCTETSTRING_template OCT10_template; -typedef OCTETSTRING OCT11; -typedef OCTETSTRING_template OCT11_template; -typedef OCTETSTRING OCT12; -typedef OCTETSTRING_template OCT12_template; -typedef OCTETSTRING OCT13; -typedef OCTETSTRING_template OCT13_template; -typedef OCTETSTRING OCT14; -typedef OCTETSTRING_template OCT14_template; -typedef OCTETSTRING OCT15; -typedef OCTETSTRING_template OCT15_template; -typedef OCTETSTRING OCT16; -typedef OCTETSTRING_template OCT16_template; -typedef OCTETSTRING OCT17; -typedef OCTETSTRING_template OCT17_template; -typedef OCTETSTRING OCT18; -typedef OCTETSTRING_template OCT18_template; -typedef OCTETSTRING OCT19; -typedef OCTETSTRING_template OCT19_template; -typedef OCTETSTRING OCT20; -typedef OCTETSTRING_template OCT20_template; -typedef OCTETSTRING OCT22; -typedef OCTETSTRING_template OCT22_template; -typedef OCTETSTRING OCT32; -typedef OCTETSTRING_template OCT32_template; -typedef OCTETSTRING OCT34; -typedef OCTETSTRING_template OCT34_template; -typedef OCTETSTRING OCT46; -typedef OCTETSTRING_template OCT46_template; -typedef OCTETSTRING OCT1__260; -typedef OCTETSTRING_template OCT1__260_template; -typedef OCTETSTRING OCT1__8; -typedef OCTETSTRING_template OCT1__8_template; -typedef OCTETSTRING OCT1__12; -typedef OCTETSTRING_template OCT1__12_template; -typedef OCTETSTRING OCT1__32; -typedef OCTETSTRING_template OCT1__32_template; -typedef OCTETSTRING OCT1__50; -typedef OCTETSTRING_template OCT1__50_template; -typedef OCTETSTRING OCT3__8; -typedef OCTETSTRING_template OCT3__8_template; -typedef OCTETSTRING OCTN; -typedef OCTETSTRING_template OCTN_template; -typedef HEXSTRING HEX1; -typedef HEXSTRING_template HEX1_template; -typedef HEXSTRING HEX0__16; -typedef HEXSTRING_template HEX0__16_template; -typedef HEXSTRING HEX5__16; -typedef HEXSTRING_template HEX5__16_template; -typedef HEXSTRING HEX1__32; -typedef HEXSTRING_template HEX1__32_template; -typedef INTEGER INT1; -typedef INTEGER_template INT1_template; -typedef INTEGER LIN1; -typedef INTEGER_template LIN1_template; -typedef INTEGER LIN2; -typedef INTEGER_template LIN2_template; -typedef INTEGER LIN2__BO__LAST; -typedef INTEGER_template LIN2__BO__LAST_template; -typedef INTEGER LIN3__BO__LAST; -typedef INTEGER_template LIN3__BO__LAST_template; -typedef INTEGER LIN4__BO__LAST; -typedef INTEGER_template LIN4__BO__LAST_template; -typedef INTEGER INT1b; -typedef INTEGER_template INT1b_template; -typedef INTEGER INT2b; -typedef INTEGER_template INT2b_template; -typedef INTEGER INT3b; -typedef INTEGER_template INT3b_template; -typedef INTEGER INT4b; -typedef INTEGER_template INT4b_template; -typedef INTEGER INT5b; -typedef INTEGER_template INT5b_template; -typedef INTEGER INT6b; -typedef INTEGER_template INT6b_template; -typedef INTEGER INT7b; -typedef INTEGER_template INT7b_template; -typedef INTEGER INT11b__BO__LAST; -typedef INTEGER_template INT11b__BO__LAST_template; -typedef INTEGER INT12b__BO__LAST; -typedef INTEGER_template INT12b__BO__LAST_template; -typedef INTEGER INT13b__BO__LAST; -typedef INTEGER_template INT13b__BO__LAST_template; -typedef INTEGER INT14b__BO__LAST; -typedef INTEGER_template INT14b__BO__LAST_template; -typedef INTEGER INT18b__BO__LAST; -typedef INTEGER_template INT18b__BO__LAST_template; -typedef INTEGER INT20b__BO__LAST; -typedef INTEGER_template INT20b__BO__LAST_template; -typedef INTEGER INT31b__BO__LAST; -typedef INTEGER_template INT31b__BO__LAST_template; -typedef COMPONENT Dummy__comptype; -typedef COMPONENT_template Dummy__comptype_template; -typedef COMPONENT Dummy__CT; -typedef COMPONENT_template Dummy__CT_template; - -/* Class definitions */ - -class Integer__array : public Base_Type { -struct recordof_setof_struct { -int ref_count; -int n_elements; -Integers **value_elements; -} *val_ptr; - -static const Integers UNBOUND_ELEM; -private: -friend boolean operator==(null_type null_value, const Integer__array& other_value); - -public: - typedef Integers of_type; -Integer__array(); -Integer__array(null_type other_value); -Integer__array(const Integer__array& other_value); -~Integer__array(); - -void clean_up(); -Integer__array& operator=(null_type other_value); -Integer__array& operator=(const Integer__array& other_value); - -boolean operator==(null_type other_value) const; -boolean operator==(const Integer__array& other_value) const; -inline boolean operator!=(null_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const Integer__array& other_value) const { return !(*this == other_value); } - -Integers& operator[](int index_value); -Integers& operator[](const INTEGER& index_value); -const Integers& operator[](int index_value) const; -const Integers& operator[](const INTEGER& index_value) const; - -Integer__array operator<<=(int rotate_count) const; -Integer__array operator<<=(const INTEGER& rotate_count) const; -Integer__array operator>>=(int rotate_count) const; -Integer__array operator>>=(const INTEGER& rotate_count) const; - -Integer__array operator+(const Integer__array& other_value) const; - -Integer__array substr(int index, int returncount) const; - -Integer__array replace(int index, int len, const Integer__array& repl) const; - -Integer__array replace(int index, int len, const Integer__array_template& repl) const; - -void set_size(int new_size); -inline boolean is_bound() const {return val_ptr != NULL; } -inline boolean is_present() const { return is_bound(); } -boolean is_value() const; -int size_of() const; -int n_elem() const { return size_of(); } -int lengthof() const; -void log() const; -void set_param(Module_Param& param); - void set_implicit_omit(); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class Integer__array_template : public Record_Of_Template { -union { -struct { -int n_elements; -Integers_template **value_elements; -} single_value; -struct { -unsigned int n_values; -Integer__array_template *list_value; -} value_list; -}; -void copy_value(const Integer__array& other_value); -void copy_template(const Integer__array_template& other_value); -static boolean match_function_specific(const Base_Type *value_ptr, int value_index, const Restricted_Length_Template *template_ptr, int template_index, boolean legacy); - -public: -Integer__array_template(); -Integer__array_template(template_sel other_value); -Integer__array_template(null_type other_value); -Integer__array_template(const Integer__array& other_value); -Integer__array_template(const OPTIONAL& other_value); -Integer__array_template(const Integer__array_template& other_value); -~Integer__array_template(); - -void clean_up(); -Integer__array_template& operator=(template_sel other_value); -Integer__array_template& operator=(null_type other_value); -Integer__array_template& operator=(const Integer__array& other_value); -Integer__array_template& operator=(const OPTIONAL& other_value); -Integer__array_template& operator=(const Integer__array_template& other_value); - -Integers_template& operator[](int index_value); -Integers_template& operator[](const INTEGER& index_value); -const Integers_template& operator[](int index_value) const; -const Integers_template& operator[](const INTEGER& index_value) const; - -void set_size(int new_size); -int n_elem() const; -int size_of(boolean is_size) const; -inline int size_of() const { return size_of(TRUE); } -inline int lengthof() const { return size_of(FALSE); } -boolean match(const Integer__array& other_value, boolean legacy = FALSE) const; -inline boolean is_bound() const - {return template_selection != UNINITIALIZED_TEMPLATE; } -boolean is_value() const; -Integer__array valueof() const; -Integer__array substr(int index, int returncount) const; - -Integer__array replace(int index, int len, const Integer__array_template& repl) const; - -Integer__array replace(int index, int len, const Integer__array& repl) const; - -void set_type(template_sel template_type, unsigned int list_length); -Integer__array_template& list_item(unsigned int list_index); -void log() const; -void log_match(const Integer__array& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean get_istemplate_kind(const char* type) const; -}; - -class Protocols : public Base_Type { // enum -friend class Protocols_template; -public: -enum enum_type { mtp3 = 0, sccp = 1, isup = 2, bicc = 3, qaal2 = 4, gcp = 5, bssap = 6, bssmap = 7, ranap = 8, dtap = 9, UNKNOWN_VALUE = 10, UNBOUND_VALUE = 11 }; -private: -enum_type enum_value; - -public: -Protocols(); -Protocols(int other_value); -Protocols(enum_type other_value); -Protocols(const Protocols& other_value); - -Protocols& operator=(int other_value); -Protocols& operator=(enum_type other_value); -Protocols& operator=(const Protocols& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const Protocols& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const Protocols& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const Protocols& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const Protocols& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const Protocols& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const Protocols& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const Protocols& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class Protocols_template : public Base_Template { -union { -Protocols::enum_type single_value; -struct { -unsigned int n_values; -Protocols_template *list_value; -} value_list; -}; - -void copy_template(const Protocols_template& other_value); - -public: -Protocols_template(); -Protocols_template(template_sel other_value); -Protocols_template(int other_value); -Protocols_template(Protocols::enum_type other_value); -Protocols_template(const Protocols& other_value); -Protocols_template(const OPTIONAL& other_value); -Protocols_template(const Protocols_template& other_value); -~Protocols_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -Protocols_template& operator=(template_sel other_value); -Protocols_template& operator=(int other_value); -Protocols_template& operator=(Protocols::enum_type other_value); -Protocols_template& operator=(const Protocols& other_value); -Protocols_template& operator=(const OPTIONAL& other_value); -Protocols_template& operator=(const Protocols_template& other_value); - -boolean match(Protocols::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const Protocols& other_value, boolean legacy = FALSE) const; -Protocols::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -Protocols_template& list_item(unsigned int list_index); -void log() const; -void log_match(const Protocols& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class ListOfDummy__comptype : public Base_Type { -struct recordof_setof_struct { -int ref_count; -int n_elements; -COMPONENT **value_elements; -} *val_ptr; - -static const COMPONENT UNBOUND_ELEM; -private: -friend boolean operator==(null_type null_value, const ListOfDummy__comptype& other_value); - -public: - typedef COMPONENT of_type; -ListOfDummy__comptype(); -ListOfDummy__comptype(null_type other_value); -ListOfDummy__comptype(const ListOfDummy__comptype& other_value); -~ListOfDummy__comptype(); - -void clean_up(); -ListOfDummy__comptype& operator=(null_type other_value); -ListOfDummy__comptype& operator=(const ListOfDummy__comptype& other_value); - -boolean operator==(null_type other_value) const; -boolean operator==(const ListOfDummy__comptype& other_value) const; -inline boolean operator!=(null_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const ListOfDummy__comptype& other_value) const { return !(*this == other_value); } - -COMPONENT& operator[](int index_value); -COMPONENT& operator[](const INTEGER& index_value); -const COMPONENT& operator[](int index_value) const; -const COMPONENT& operator[](const INTEGER& index_value) const; - -ListOfDummy__comptype operator<<=(int rotate_count) const; -ListOfDummy__comptype operator<<=(const INTEGER& rotate_count) const; -ListOfDummy__comptype operator>>=(int rotate_count) const; -ListOfDummy__comptype operator>>=(const INTEGER& rotate_count) const; - -ListOfDummy__comptype operator+(const ListOfDummy__comptype& other_value) const; - -ListOfDummy__comptype substr(int index, int returncount) const; - -ListOfDummy__comptype replace(int index, int len, const ListOfDummy__comptype& repl) const; - -ListOfDummy__comptype replace(int index, int len, const ListOfDummy__comptype_template& repl) const; - -void set_size(int new_size); -inline boolean is_bound() const {return val_ptr != NULL; } -inline boolean is_present() const { return is_bound(); } -boolean is_value() const; -int size_of() const; -int n_elem() const { return size_of(); } -int lengthof() const; -void log() const; -void set_param(Module_Param& param); - void set_implicit_omit(); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -}; - -class ListOfDummy__comptype_template : public Record_Of_Template { -union { -struct { -int n_elements; -COMPONENT_template **value_elements; -} single_value; -struct { -unsigned int n_values; -ListOfDummy__comptype_template *list_value; -} value_list; -}; -void copy_value(const ListOfDummy__comptype& other_value); -void copy_template(const ListOfDummy__comptype_template& other_value); -static boolean match_function_specific(const Base_Type *value_ptr, int value_index, const Restricted_Length_Template *template_ptr, int template_index, boolean legacy); - -public: -ListOfDummy__comptype_template(); -ListOfDummy__comptype_template(template_sel other_value); -ListOfDummy__comptype_template(null_type other_value); -ListOfDummy__comptype_template(const ListOfDummy__comptype& other_value); -ListOfDummy__comptype_template(const OPTIONAL& other_value); -ListOfDummy__comptype_template(const ListOfDummy__comptype_template& other_value); -~ListOfDummy__comptype_template(); - -void clean_up(); -ListOfDummy__comptype_template& operator=(template_sel other_value); -ListOfDummy__comptype_template& operator=(null_type other_value); -ListOfDummy__comptype_template& operator=(const ListOfDummy__comptype& other_value); -ListOfDummy__comptype_template& operator=(const OPTIONAL& other_value); -ListOfDummy__comptype_template& operator=(const ListOfDummy__comptype_template& other_value); - -COMPONENT_template& operator[](int index_value); -COMPONENT_template& operator[](const INTEGER& index_value); -const COMPONENT_template& operator[](int index_value) const; -const COMPONENT_template& operator[](const INTEGER& index_value) const; - -void set_size(int new_size); -int n_elem() const; -int size_of(boolean is_size) const; -inline int size_of() const { return size_of(TRUE); } -inline int lengthof() const { return size_of(FALSE); } -boolean match(const ListOfDummy__comptype& other_value, boolean legacy = FALSE) const; -inline boolean is_bound() const - {return template_selection != UNINITIALIZED_TEMPLATE; } -boolean is_value() const; -ListOfDummy__comptype valueof() const; -ListOfDummy__comptype substr(int index, int returncount) const; - -ListOfDummy__comptype replace(int index, int len, const ListOfDummy__comptype_template& repl) const; - -ListOfDummy__comptype replace(int index, int len, const ListOfDummy__comptype& repl) const; - -void set_type(template_sel template_type, unsigned int list_length); -ListOfDummy__comptype_template& list_item(unsigned int list_index); -void log() const; -void log_match(const ListOfDummy__comptype& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean get_istemplate_kind(const char* type) const; -}; - -class ListOfDummy__CT : public Base_Type { -struct recordof_setof_struct { -int ref_count; -int n_elements; -COMPONENT **value_elements; -} *val_ptr; - -static const COMPONENT UNBOUND_ELEM; -private: -friend boolean operator==(null_type null_value, const ListOfDummy__CT& other_value); - -public: - typedef COMPONENT of_type; -ListOfDummy__CT(); -ListOfDummy__CT(null_type other_value); -ListOfDummy__CT(const ListOfDummy__CT& other_value); -~ListOfDummy__CT(); - -void clean_up(); -ListOfDummy__CT& operator=(null_type other_value); -ListOfDummy__CT& operator=(const ListOfDummy__CT& other_value); - -boolean operator==(null_type other_value) const; -boolean operator==(const ListOfDummy__CT& other_value) const; -inline boolean operator!=(null_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const ListOfDummy__CT& other_value) const { return !(*this == other_value); } - -COMPONENT& operator[](int index_value); -COMPONENT& operator[](const INTEGER& index_value); -const COMPONENT& operator[](int index_value) const; -const COMPONENT& operator[](const INTEGER& index_value) const; - -ListOfDummy__CT operator<<=(int rotate_count) const; -ListOfDummy__CT operator<<=(const INTEGER& rotate_count) const; -ListOfDummy__CT operator>>=(int rotate_count) const; -ListOfDummy__CT operator>>=(const INTEGER& rotate_count) const; - -ListOfDummy__CT operator+(const ListOfDummy__CT& other_value) const; - -ListOfDummy__CT substr(int index, int returncount) const; - -ListOfDummy__CT replace(int index, int len, const ListOfDummy__CT& repl) const; - -ListOfDummy__CT replace(int index, int len, const ListOfDummy__CT_template& repl) const; - -void set_size(int new_size); -inline boolean is_bound() const {return val_ptr != NULL; } -inline boolean is_present() const { return is_bound(); } -boolean is_value() const; -int size_of() const; -int n_elem() const { return size_of(); } -int lengthof() const; -void log() const; -void set_param(Module_Param& param); - void set_implicit_omit(); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -}; - -class ListOfDummy__CT_template : public Record_Of_Template { -union { -struct { -int n_elements; -COMPONENT_template **value_elements; -} single_value; -struct { -unsigned int n_values; -ListOfDummy__CT_template *list_value; -} value_list; -}; -void copy_value(const ListOfDummy__CT& other_value); -void copy_template(const ListOfDummy__CT_template& other_value); -static boolean match_function_specific(const Base_Type *value_ptr, int value_index, const Restricted_Length_Template *template_ptr, int template_index, boolean legacy); - -public: -ListOfDummy__CT_template(); -ListOfDummy__CT_template(template_sel other_value); -ListOfDummy__CT_template(null_type other_value); -ListOfDummy__CT_template(const ListOfDummy__CT& other_value); -ListOfDummy__CT_template(const OPTIONAL& other_value); -ListOfDummy__CT_template(const ListOfDummy__CT_template& other_value); -~ListOfDummy__CT_template(); - -void clean_up(); -ListOfDummy__CT_template& operator=(template_sel other_value); -ListOfDummy__CT_template& operator=(null_type other_value); -ListOfDummy__CT_template& operator=(const ListOfDummy__CT& other_value); -ListOfDummy__CT_template& operator=(const OPTIONAL& other_value); -ListOfDummy__CT_template& operator=(const ListOfDummy__CT_template& other_value); - -COMPONENT_template& operator[](int index_value); -COMPONENT_template& operator[](const INTEGER& index_value); -const COMPONENT_template& operator[](int index_value) const; -const COMPONENT_template& operator[](const INTEGER& index_value) const; - -void set_size(int new_size); -int n_elem() const; -int size_of(boolean is_size) const; -inline int size_of() const { return size_of(TRUE); } -inline int lengthof() const { return size_of(FALSE); } -boolean match(const ListOfDummy__CT& other_value, boolean legacy = FALSE) const; -inline boolean is_bound() const - {return template_selection != UNINITIALIZED_TEMPLATE; } -boolean is_value() const; -ListOfDummy__CT valueof() const; -ListOfDummy__CT substr(int index, int returncount) const; - -ListOfDummy__CT replace(int index, int len, const ListOfDummy__CT_template& repl) const; - -ListOfDummy__CT replace(int index, int len, const ListOfDummy__CT& repl) const; - -void set_type(template_sel template_type, unsigned int list_length); -ListOfDummy__CT_template& list_item(unsigned int list_index); -void log() const; -void log_match(const ListOfDummy__CT& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean get_istemplate_kind(const char* type) const; -}; - -class ProtocolList : public Base_Type { -struct recordof_setof_struct { -int ref_count; -int n_elements; -Protocols **value_elements; -} *val_ptr; - -static const Protocols UNBOUND_ELEM; -private: -friend boolean operator==(null_type null_value, const ProtocolList& other_value); - -public: - typedef Protocols of_type; -ProtocolList(); -ProtocolList(null_type other_value); -ProtocolList(const ProtocolList& other_value); -~ProtocolList(); - -void clean_up(); -ProtocolList& operator=(null_type other_value); -ProtocolList& operator=(const ProtocolList& other_value); - -boolean operator==(null_type other_value) const; -boolean operator==(const ProtocolList& other_value) const; -inline boolean operator!=(null_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const ProtocolList& other_value) const { return !(*this == other_value); } - -Protocols& operator[](int index_value); -Protocols& operator[](const INTEGER& index_value); -const Protocols& operator[](int index_value) const; -const Protocols& operator[](const INTEGER& index_value) const; - -ProtocolList operator<<=(int rotate_count) const; -ProtocolList operator<<=(const INTEGER& rotate_count) const; -ProtocolList operator>>=(int rotate_count) const; -ProtocolList operator>>=(const INTEGER& rotate_count) const; - -ProtocolList operator+(const ProtocolList& other_value) const; - -ProtocolList substr(int index, int returncount) const; - -ProtocolList replace(int index, int len, const ProtocolList& repl) const; - -ProtocolList replace(int index, int len, const ProtocolList_template& repl) const; - -void set_size(int new_size); -inline boolean is_bound() const {return val_ptr != NULL; } -inline boolean is_present() const { return is_bound(); } -boolean is_value() const; -int size_of() const; -int n_elem() const { return size_of(); } -int lengthof() const; -void log() const; -void set_param(Module_Param& param); - void set_implicit_omit(); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class ProtocolList_template : public Record_Of_Template { -union { -struct { -int n_elements; -Protocols_template **value_elements; -} single_value; -struct { -unsigned int n_values; -ProtocolList_template *list_value; -} value_list; -}; -void copy_value(const ProtocolList& other_value); -void copy_template(const ProtocolList_template& other_value); -static boolean match_function_specific(const Base_Type *value_ptr, int value_index, const Restricted_Length_Template *template_ptr, int template_index, boolean legacy); - -public: -ProtocolList_template(); -ProtocolList_template(template_sel other_value); -ProtocolList_template(null_type other_value); -ProtocolList_template(const ProtocolList& other_value); -ProtocolList_template(const OPTIONAL& other_value); -ProtocolList_template(const ProtocolList_template& other_value); -~ProtocolList_template(); - -void clean_up(); -ProtocolList_template& operator=(template_sel other_value); -ProtocolList_template& operator=(null_type other_value); -ProtocolList_template& operator=(const ProtocolList& other_value); -ProtocolList_template& operator=(const OPTIONAL& other_value); -ProtocolList_template& operator=(const ProtocolList_template& other_value); - -Protocols_template& operator[](int index_value); -Protocols_template& operator[](const INTEGER& index_value); -const Protocols_template& operator[](int index_value) const; -const Protocols_template& operator[](const INTEGER& index_value) const; - -void set_size(int new_size); -int n_elem() const; -int size_of(boolean is_size) const; -inline int size_of() const { return size_of(TRUE); } -inline int lengthof() const { return size_of(FALSE); } -boolean match(const ProtocolList& other_value, boolean legacy = FALSE) const; -inline boolean is_bound() const - {return template_selection != UNINITIALIZED_TEMPLATE; } -boolean is_value() const; -ProtocolList valueof() const; -ProtocolList substr(int index, int returncount) const; - -ProtocolList replace(int index, int len, const ProtocolList_template& repl) const; - -ProtocolList replace(int index, int len, const ProtocolList& repl) const; - -void set_type(template_sel template_type, unsigned int list_length); -ProtocolList_template& list_item(unsigned int list_index); -void log() const; -void log_match(const ProtocolList& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean get_istemplate_kind(const char* type) const; -}; - - -/* Function prototypes */ - -extern void BIT1n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT1n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT2n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT2n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT3n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT3n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT4n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT4n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT5n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT5n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT6n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT6n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT7n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT7n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT8n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT8n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT9n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT9n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT12n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT12n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT14n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT14n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT15n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT15n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT16n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT16n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT56n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT56n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT14__24n_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT14__24n_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT1np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT1np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT2np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT2np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT3np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT3np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT4np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT4np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT5np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT5np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT6np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT6np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT7np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT7np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT15np_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT15np_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT1_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT1_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT2_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT2_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT3_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT3_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT4_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT4_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT5_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT5_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT6_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT6_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT7_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT7_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT8_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT8_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT9_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT9_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT10_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT10_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT11_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT11_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT12_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT12_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT13_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT13_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT14_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT14_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT15_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT15_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT16_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT16_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT24_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT24_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT28_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT28_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT29_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT29_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT30_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT30_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT31_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT31_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT32_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT32_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT56_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT56_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT0n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT0n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT2n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT2n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT3n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT3n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT4n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT4n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT5n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT5n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT6n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT6n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT7n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT7n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT8n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT8n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT9n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT9n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT10n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT10n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT11n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT11n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT12n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT12n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT13n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT13n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT14n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT14n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT15n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT15n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT16n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT16n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT17n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT17n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT18n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT18n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT19n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT19n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT20n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT20n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT28n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT28n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT32n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT32n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT34n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT34n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT46n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT46n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT50n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT50n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT69n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT69n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT100n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT100n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT128n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT128n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT500n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT500n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCTNn_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCTNn_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__3n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__3n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__4n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__4n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__5n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__5n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__6n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__6n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__7n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__7n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__8n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__8n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__12n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__12n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__15n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__15n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__16n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__16n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__18n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__18n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__20n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__20n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__24n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__24n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__32n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__32n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__34n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__34n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__46n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__46n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__50n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__50n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__112n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__112n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__127n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__127n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__128n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__128n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__172n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__172n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT3__5n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT3__5n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT3__7n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT3__7n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT3__8n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT3__8n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT3__14n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT3__14n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT3__17n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT3__17n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT4__8n_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT4__8n_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void CHAR4_encoder(const CHARSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER CHAR4_decoder(OCTETSTRING& input_stream, CHARSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX4n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX4n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX6n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX6n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX8n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX8n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX15n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX15n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX16n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX16n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX24n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX24n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX0__3n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX0__3n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX0__18n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX0__18n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX1__20n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX1__20n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX1__34n_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX1__34n_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT3nb_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT3nb_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT4nb_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT4nb_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT5nb_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT5nb_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT8nb_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT8nb_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT2nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT2nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT1nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT1nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT3nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT3nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT5nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT5nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT9nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT9nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT13nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT13nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT15nbp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT15nbp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT6__BO__LAST_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT6__BO__LAST_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT16__BO__LAST_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT16__BO__LAST_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void BIT32__BO__LAST_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER BIT32__BO__LAST_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void Dummy_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER Dummy_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT0_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT0_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT2_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT2_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT3_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT3_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT4_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT4_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT5_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT5_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT6_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT6_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT7_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT7_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT8_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT8_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT9_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT9_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT10_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT10_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT11_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT11_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT12_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT12_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT13_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT13_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT14_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT14_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT15_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT15_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT16_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT16_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT17_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT17_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT18_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT18_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT19_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT19_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT20_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT20_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT22_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT22_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT32_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT32_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT34_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT34_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT46_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT46_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__260_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__260_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__8_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__8_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__12_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__12_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__32_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__32_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1__50_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1__50_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT3__8_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT3__8_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCTN_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCTN_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX1_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX1_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX0__16_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX0__16_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX5__16_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX5__16_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void HEX1__32_encoder(const HEXSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER HEX1__32_decoder(OCTETSTRING& input_stream, HEXSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT1_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT1_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void LIN1_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER LIN1_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void LIN2_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER LIN2_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void LIN2__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER LIN2__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void LIN3__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER LIN3__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void LIN4__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER LIN4__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT1b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT1b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT2b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT2b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT3b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT3b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT4b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT4b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT5b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT5b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT6b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT6b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT7b_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT7b_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT11b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT11b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT12b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT12b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT13b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT13b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT14b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT14b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT18b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT18b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT20b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT20b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void INT31b__BO__LAST_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER INT31b__BO__LAST_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void Integers_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER Integers_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void Integers_encoder(const Integers& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER Integers_decoder(OCTETSTRING& input_stream, Integers& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern boolean operator==(null_type null_value, const Integer__array& other_value); -inline boolean operator!=(null_type null_value, const Integer__array& other_value) { return !(null_value == other_value); } -extern void Integer__array_encoder(const Integer__array& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER Integer__array_decoder(OCTETSTRING& input_stream, Integer__array& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void Protocols_encoder(const Protocols& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER Protocols_decoder(OCTETSTRING& input_stream, Protocols& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT1List_encoder(const OCT1List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT1List_decoder(OCTETSTRING& input_stream, OCT1List& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT2List_encoder(const OCT2List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT2List_decoder(OCTETSTRING& input_stream, OCT2List& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT3List_encoder(const OCT3List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT3List_decoder(OCTETSTRING& input_stream, OCT3List& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT4List_encoder(const OCT4List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT4List_decoder(OCTETSTRING& input_stream, OCT4List& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT5List_encoder(const OCT5List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT5List_decoder(OCTETSTRING& input_stream, OCT5List& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT6List_encoder(const OCT6List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT6List_decoder(OCTETSTRING& input_stream, OCT6List& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT7List_encoder(const OCT7List& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT7List_decoder(OCTETSTRING& input_stream, OCT7List& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern boolean operator==(null_type null_value, const ListOfDummy__comptype& other_value); -inline boolean operator!=(null_type null_value, const ListOfDummy__comptype& other_value) { return !(null_value == other_value); } -extern boolean operator==(null_type null_value, const ListOfDummy__CT& other_value); -inline boolean operator!=(null_type null_value, const ListOfDummy__CT& other_value) { return !(null_value == other_value); } -extern boolean operator==(null_type null_value, const ProtocolList& other_value); -inline boolean operator!=(null_type null_value, const ProtocolList& other_value) { return !(null_value == other_value); } -extern void ProtocolList_encoder(const ProtocolList& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER ProtocolList_decoder(OCTETSTRING& input_stream, ProtocolList& output_value, const UNIVERSAL_CHARSTRING& coding_name); - -/* Global variable declarations */ - -extern const TTCN_RAWdescriptor_t BIT1n_raw_; -extern const XERdescriptor_t BIT1n_xer_; -extern const TTCN_Typedescriptor_t BIT1n_descr_; -extern UNIVERSAL_CHARSTRING BIT1n_default_coding; -extern const TTCN_RAWdescriptor_t BIT2n_raw_; -extern const XERdescriptor_t BIT2n_xer_; -extern const TTCN_Typedescriptor_t BIT2n_descr_; -extern UNIVERSAL_CHARSTRING BIT2n_default_coding; -extern const TTCN_RAWdescriptor_t BIT3n_raw_; -extern const XERdescriptor_t BIT3n_xer_; -extern const TTCN_Typedescriptor_t BIT3n_descr_; -extern UNIVERSAL_CHARSTRING BIT3n_default_coding; -extern const TTCN_RAWdescriptor_t BIT4n_raw_; -extern const XERdescriptor_t BIT4n_xer_; -extern const TTCN_Typedescriptor_t BIT4n_descr_; -extern UNIVERSAL_CHARSTRING BIT4n_default_coding; -extern const TTCN_RAWdescriptor_t BIT5n_raw_; -extern const XERdescriptor_t BIT5n_xer_; -extern const TTCN_Typedescriptor_t BIT5n_descr_; -extern UNIVERSAL_CHARSTRING BIT5n_default_coding; -extern const TTCN_RAWdescriptor_t BIT6n_raw_; -extern const XERdescriptor_t BIT6n_xer_; -extern const TTCN_Typedescriptor_t BIT6n_descr_; -extern UNIVERSAL_CHARSTRING BIT6n_default_coding; -extern const TTCN_RAWdescriptor_t BIT7n_raw_; -extern const XERdescriptor_t BIT7n_xer_; -extern const TTCN_Typedescriptor_t BIT7n_descr_; -extern UNIVERSAL_CHARSTRING BIT7n_default_coding; -extern const TTCN_RAWdescriptor_t BIT8n_raw_; -extern const XERdescriptor_t BIT8n_xer_; -extern const TTCN_Typedescriptor_t BIT8n_descr_; -extern UNIVERSAL_CHARSTRING BIT8n_default_coding; -extern const TTCN_RAWdescriptor_t BIT9n_raw_; -extern const XERdescriptor_t BIT9n_xer_; -extern const TTCN_Typedescriptor_t BIT9n_descr_; -extern UNIVERSAL_CHARSTRING BIT9n_default_coding; -extern const TTCN_RAWdescriptor_t BIT12n_raw_; -extern const XERdescriptor_t BIT12n_xer_; -extern const TTCN_Typedescriptor_t BIT12n_descr_; -extern UNIVERSAL_CHARSTRING BIT12n_default_coding; -extern const TTCN_RAWdescriptor_t BIT14n_raw_; -extern const XERdescriptor_t BIT14n_xer_; -extern const TTCN_Typedescriptor_t BIT14n_descr_; -extern UNIVERSAL_CHARSTRING BIT14n_default_coding; -extern const TTCN_RAWdescriptor_t BIT15n_raw_; -extern const XERdescriptor_t BIT15n_xer_; -extern const TTCN_Typedescriptor_t BIT15n_descr_; -extern UNIVERSAL_CHARSTRING BIT15n_default_coding; -extern const TTCN_RAWdescriptor_t BIT16n_raw_; -extern const XERdescriptor_t BIT16n_xer_; -extern const TTCN_Typedescriptor_t BIT16n_descr_; -extern UNIVERSAL_CHARSTRING BIT16n_default_coding; -extern const TTCN_RAWdescriptor_t BIT56n_raw_; -extern const XERdescriptor_t BIT56n_xer_; -extern const TTCN_Typedescriptor_t BIT56n_descr_; -extern UNIVERSAL_CHARSTRING BIT56n_default_coding; -extern const XERdescriptor_t BIT14__24n_xer_; -extern const TTCN_Typedescriptor_t BIT14__24n_descr_; -extern UNIVERSAL_CHARSTRING BIT14__24n_default_coding; -extern const TTCN_RAWdescriptor_t BIT1np_raw_; -extern const XERdescriptor_t BIT1np_xer_; -extern const TTCN_Typedescriptor_t BIT1np_descr_; -extern UNIVERSAL_CHARSTRING BIT1np_default_coding; -extern const TTCN_RAWdescriptor_t BIT2np_raw_; -extern const XERdescriptor_t BIT2np_xer_; -extern const TTCN_Typedescriptor_t BIT2np_descr_; -extern UNIVERSAL_CHARSTRING BIT2np_default_coding; -extern const TTCN_RAWdescriptor_t BIT3np_raw_; -extern const XERdescriptor_t BIT3np_xer_; -extern const TTCN_Typedescriptor_t BIT3np_descr_; -extern UNIVERSAL_CHARSTRING BIT3np_default_coding; -extern const TTCN_RAWdescriptor_t BIT4np_raw_; -extern const XERdescriptor_t BIT4np_xer_; -extern const TTCN_Typedescriptor_t BIT4np_descr_; -extern UNIVERSAL_CHARSTRING BIT4np_default_coding; -extern const TTCN_RAWdescriptor_t BIT5np_raw_; -extern const XERdescriptor_t BIT5np_xer_; -extern const TTCN_Typedescriptor_t BIT5np_descr_; -extern UNIVERSAL_CHARSTRING BIT5np_default_coding; -extern const TTCN_RAWdescriptor_t BIT6np_raw_; -extern const XERdescriptor_t BIT6np_xer_; -extern const TTCN_Typedescriptor_t BIT6np_descr_; -extern UNIVERSAL_CHARSTRING BIT6np_default_coding; -extern const TTCN_RAWdescriptor_t BIT7np_raw_; -extern const XERdescriptor_t BIT7np_xer_; -extern const TTCN_Typedescriptor_t BIT7np_descr_; -extern UNIVERSAL_CHARSTRING BIT7np_default_coding; -extern const TTCN_RAWdescriptor_t BIT15np_raw_; -extern const XERdescriptor_t BIT15np_xer_; -extern const TTCN_Typedescriptor_t BIT15np_descr_; -extern UNIVERSAL_CHARSTRING BIT15np_default_coding; -extern const TTCN_RAWdescriptor_t BIT1_raw_; -extern const XERdescriptor_t BIT1_xer_; -extern const TTCN_OERdescriptor_t BIT1_oer_; -extern const TTCN_Typedescriptor_t BIT1_descr_; -extern UNIVERSAL_CHARSTRING BIT1_default_coding; -extern const TTCN_RAWdescriptor_t BIT2_raw_; -extern const XERdescriptor_t BIT2_xer_; -extern const TTCN_OERdescriptor_t BIT2_oer_; -extern const TTCN_Typedescriptor_t BIT2_descr_; -extern UNIVERSAL_CHARSTRING BIT2_default_coding; -extern const TTCN_RAWdescriptor_t BIT3_raw_; -extern const XERdescriptor_t BIT3_xer_; -extern const TTCN_OERdescriptor_t BIT3_oer_; -extern const TTCN_Typedescriptor_t BIT3_descr_; -extern UNIVERSAL_CHARSTRING BIT3_default_coding; -extern const TTCN_RAWdescriptor_t BIT4_raw_; -extern const XERdescriptor_t BIT4_xer_; -extern const TTCN_OERdescriptor_t BIT4_oer_; -extern const TTCN_Typedescriptor_t BIT4_descr_; -extern UNIVERSAL_CHARSTRING BIT4_default_coding; -extern const TTCN_RAWdescriptor_t BIT5_raw_; -extern const XERdescriptor_t BIT5_xer_; -extern const TTCN_OERdescriptor_t BIT5_oer_; -extern const TTCN_Typedescriptor_t BIT5_descr_; -extern UNIVERSAL_CHARSTRING BIT5_default_coding; -extern const TTCN_RAWdescriptor_t BIT6_raw_; -extern const XERdescriptor_t BIT6_xer_; -extern const TTCN_OERdescriptor_t BIT6_oer_; -extern const TTCN_Typedescriptor_t BIT6_descr_; -extern UNIVERSAL_CHARSTRING BIT6_default_coding; -extern const TTCN_RAWdescriptor_t BIT7_raw_; -extern const XERdescriptor_t BIT7_xer_; -extern const TTCN_OERdescriptor_t BIT7_oer_; -extern const TTCN_Typedescriptor_t BIT7_descr_; -extern UNIVERSAL_CHARSTRING BIT7_default_coding; -extern const TTCN_RAWdescriptor_t BIT8_raw_; -extern const XERdescriptor_t BIT8_xer_; -extern const TTCN_OERdescriptor_t BIT8_oer_; -extern const TTCN_Typedescriptor_t BIT8_descr_; -extern UNIVERSAL_CHARSTRING BIT8_default_coding; -extern const TTCN_RAWdescriptor_t BIT9_raw_; -extern const XERdescriptor_t BIT9_xer_; -extern const TTCN_Typedescriptor_t BIT9_descr_; -extern UNIVERSAL_CHARSTRING BIT9_default_coding; -extern const TTCN_RAWdescriptor_t BIT10_raw_; -extern const XERdescriptor_t BIT10_xer_; -extern const TTCN_OERdescriptor_t BIT10_oer_; -extern const TTCN_Typedescriptor_t BIT10_descr_; -extern UNIVERSAL_CHARSTRING BIT10_default_coding; -extern const TTCN_RAWdescriptor_t BIT11_raw_; -extern const XERdescriptor_t BIT11_xer_; -extern const TTCN_Typedescriptor_t BIT11_descr_; -extern UNIVERSAL_CHARSTRING BIT11_default_coding; -extern const TTCN_RAWdescriptor_t BIT12_raw_; -extern const XERdescriptor_t BIT12_xer_; -extern const TTCN_Typedescriptor_t BIT12_descr_; -extern UNIVERSAL_CHARSTRING BIT12_default_coding; -extern const TTCN_RAWdescriptor_t BIT13_raw_; -extern const XERdescriptor_t BIT13_xer_; -extern const TTCN_Typedescriptor_t BIT13_descr_; -extern UNIVERSAL_CHARSTRING BIT13_default_coding; -extern const TTCN_RAWdescriptor_t BIT14_raw_; -extern const XERdescriptor_t BIT14_xer_; -extern const TTCN_Typedescriptor_t BIT14_descr_; -extern UNIVERSAL_CHARSTRING BIT14_default_coding; -extern const TTCN_RAWdescriptor_t BIT15_raw_; -extern const XERdescriptor_t BIT15_xer_; -extern const TTCN_Typedescriptor_t BIT15_descr_; -extern UNIVERSAL_CHARSTRING BIT15_default_coding; -extern const TTCN_RAWdescriptor_t BIT16_raw_; -extern const XERdescriptor_t BIT16_xer_; -extern const TTCN_Typedescriptor_t BIT16_descr_; -extern UNIVERSAL_CHARSTRING BIT16_default_coding; -extern const TTCN_RAWdescriptor_t BIT24_raw_; -extern const XERdescriptor_t BIT24_xer_; -extern const TTCN_Typedescriptor_t BIT24_descr_; -extern UNIVERSAL_CHARSTRING BIT24_default_coding; -extern const TTCN_RAWdescriptor_t BIT28_raw_; -extern const XERdescriptor_t BIT28_xer_; -extern const TTCN_Typedescriptor_t BIT28_descr_; -extern UNIVERSAL_CHARSTRING BIT28_default_coding; -extern const TTCN_RAWdescriptor_t BIT29_raw_; -extern const XERdescriptor_t BIT29_xer_; -extern const TTCN_Typedescriptor_t BIT29_descr_; -extern UNIVERSAL_CHARSTRING BIT29_default_coding; -extern const TTCN_RAWdescriptor_t BIT30_raw_; -extern const XERdescriptor_t BIT30_xer_; -extern const TTCN_Typedescriptor_t BIT30_descr_; -extern UNIVERSAL_CHARSTRING BIT30_default_coding; -extern const TTCN_RAWdescriptor_t BIT31_raw_; -extern const XERdescriptor_t BIT31_xer_; -extern const TTCN_Typedescriptor_t BIT31_descr_; -extern UNIVERSAL_CHARSTRING BIT31_default_coding; -extern const TTCN_RAWdescriptor_t BIT32_raw_; -extern const XERdescriptor_t BIT32_xer_; -extern const TTCN_Typedescriptor_t BIT32_descr_; -extern UNIVERSAL_CHARSTRING BIT32_default_coding; -extern const TTCN_RAWdescriptor_t BIT56_raw_; -extern const XERdescriptor_t BIT56_xer_; -extern const TTCN_Typedescriptor_t BIT56_descr_; -extern UNIVERSAL_CHARSTRING BIT56_default_coding; -extern const TTCN_RAWdescriptor_t OCT0n_raw_; -extern const XERdescriptor_t OCT0n_xer_; -extern const TTCN_OERdescriptor_t OCT0n_oer_; -extern const TTCN_Typedescriptor_t OCT0n_descr_; -extern UNIVERSAL_CHARSTRING OCT0n_default_coding; -extern const TTCN_RAWdescriptor_t OCT1n_raw_; -extern const XERdescriptor_t OCT1n_xer_; -extern const TTCN_OERdescriptor_t OCT1n_oer_; -extern const TTCN_Typedescriptor_t OCT1n_descr_; -extern UNIVERSAL_CHARSTRING OCT1n_default_coding; -extern const TTCN_RAWdescriptor_t OCT2n_raw_; -extern const XERdescriptor_t OCT2n_xer_; -extern const TTCN_OERdescriptor_t OCT2n_oer_; -extern const TTCN_Typedescriptor_t OCT2n_descr_; -extern UNIVERSAL_CHARSTRING OCT2n_default_coding; -extern const TTCN_RAWdescriptor_t OCT3n_raw_; -extern const XERdescriptor_t OCT3n_xer_; -extern const TTCN_OERdescriptor_t OCT3n_oer_; -extern const TTCN_Typedescriptor_t OCT3n_descr_; -extern UNIVERSAL_CHARSTRING OCT3n_default_coding; -extern const TTCN_RAWdescriptor_t OCT4n_raw_; -extern const XERdescriptor_t OCT4n_xer_; -extern const TTCN_OERdescriptor_t OCT4n_oer_; -extern const TTCN_Typedescriptor_t OCT4n_descr_; -extern UNIVERSAL_CHARSTRING OCT4n_default_coding; -extern const TTCN_RAWdescriptor_t OCT5n_raw_; -extern const XERdescriptor_t OCT5n_xer_; -extern const TTCN_OERdescriptor_t OCT5n_oer_; -extern const TTCN_Typedescriptor_t OCT5n_descr_; -extern UNIVERSAL_CHARSTRING OCT5n_default_coding; -extern const TTCN_RAWdescriptor_t OCT6n_raw_; -extern const XERdescriptor_t OCT6n_xer_; -extern const TTCN_OERdescriptor_t OCT6n_oer_; -extern const TTCN_Typedescriptor_t OCT6n_descr_; -extern UNIVERSAL_CHARSTRING OCT6n_default_coding; -extern const TTCN_RAWdescriptor_t OCT7n_raw_; -extern const XERdescriptor_t OCT7n_xer_; -extern const TTCN_OERdescriptor_t OCT7n_oer_; -extern const TTCN_Typedescriptor_t OCT7n_descr_; -extern UNIVERSAL_CHARSTRING OCT7n_default_coding; -extern const TTCN_RAWdescriptor_t OCT8n_raw_; -extern const XERdescriptor_t OCT8n_xer_; -extern const TTCN_OERdescriptor_t OCT8n_oer_; -extern const TTCN_Typedescriptor_t OCT8n_descr_; -extern UNIVERSAL_CHARSTRING OCT8n_default_coding; -extern const TTCN_RAWdescriptor_t OCT9n_raw_; -extern const XERdescriptor_t OCT9n_xer_; -extern const TTCN_OERdescriptor_t OCT9n_oer_; -extern const TTCN_Typedescriptor_t OCT9n_descr_; -extern UNIVERSAL_CHARSTRING OCT9n_default_coding; -extern const TTCN_RAWdescriptor_t OCT10n_raw_; -extern const XERdescriptor_t OCT10n_xer_; -extern const TTCN_OERdescriptor_t OCT10n_oer_; -extern const TTCN_Typedescriptor_t OCT10n_descr_; -extern UNIVERSAL_CHARSTRING OCT10n_default_coding; -extern const TTCN_RAWdescriptor_t OCT11n_raw_; -extern const XERdescriptor_t OCT11n_xer_; -extern const TTCN_OERdescriptor_t OCT11n_oer_; -extern const TTCN_Typedescriptor_t OCT11n_descr_; -extern UNIVERSAL_CHARSTRING OCT11n_default_coding; -extern const TTCN_RAWdescriptor_t OCT12n_raw_; -extern const XERdescriptor_t OCT12n_xer_; -extern const TTCN_OERdescriptor_t OCT12n_oer_; -extern const TTCN_Typedescriptor_t OCT12n_descr_; -extern UNIVERSAL_CHARSTRING OCT12n_default_coding; -extern const TTCN_RAWdescriptor_t OCT13n_raw_; -extern const XERdescriptor_t OCT13n_xer_; -extern const TTCN_OERdescriptor_t OCT13n_oer_; -extern const TTCN_Typedescriptor_t OCT13n_descr_; -extern UNIVERSAL_CHARSTRING OCT13n_default_coding; -extern const TTCN_RAWdescriptor_t OCT14n_raw_; -extern const XERdescriptor_t OCT14n_xer_; -extern const TTCN_OERdescriptor_t OCT14n_oer_; -extern const TTCN_Typedescriptor_t OCT14n_descr_; -extern UNIVERSAL_CHARSTRING OCT14n_default_coding; -extern const TTCN_RAWdescriptor_t OCT15n_raw_; -extern const XERdescriptor_t OCT15n_xer_; -extern const TTCN_OERdescriptor_t OCT15n_oer_; -extern const TTCN_Typedescriptor_t OCT15n_descr_; -extern UNIVERSAL_CHARSTRING OCT15n_default_coding; -extern const TTCN_RAWdescriptor_t OCT16n_raw_; -extern const XERdescriptor_t OCT16n_xer_; -extern const TTCN_OERdescriptor_t OCT16n_oer_; -extern const TTCN_Typedescriptor_t OCT16n_descr_; -extern UNIVERSAL_CHARSTRING OCT16n_default_coding; -extern const TTCN_RAWdescriptor_t OCT17n_raw_; -extern const XERdescriptor_t OCT17n_xer_; -extern const TTCN_OERdescriptor_t OCT17n_oer_; -extern const TTCN_Typedescriptor_t OCT17n_descr_; -extern UNIVERSAL_CHARSTRING OCT17n_default_coding; -extern const TTCN_RAWdescriptor_t OCT18n_raw_; -extern const XERdescriptor_t OCT18n_xer_; -extern const TTCN_OERdescriptor_t OCT18n_oer_; -extern const TTCN_Typedescriptor_t OCT18n_descr_; -extern UNIVERSAL_CHARSTRING OCT18n_default_coding; -extern const TTCN_RAWdescriptor_t OCT19n_raw_; -extern const XERdescriptor_t OCT19n_xer_; -extern const TTCN_OERdescriptor_t OCT19n_oer_; -extern const TTCN_Typedescriptor_t OCT19n_descr_; -extern UNIVERSAL_CHARSTRING OCT19n_default_coding; -extern const TTCN_RAWdescriptor_t OCT20n_raw_; -extern const XERdescriptor_t OCT20n_xer_; -extern const TTCN_OERdescriptor_t OCT20n_oer_; -extern const TTCN_Typedescriptor_t OCT20n_descr_; -extern UNIVERSAL_CHARSTRING OCT20n_default_coding; -extern const TTCN_RAWdescriptor_t OCT28n_raw_; -extern const XERdescriptor_t OCT28n_xer_; -extern const TTCN_OERdescriptor_t OCT28n_oer_; -extern const TTCN_Typedescriptor_t OCT28n_descr_; -extern UNIVERSAL_CHARSTRING OCT28n_default_coding; -extern const TTCN_RAWdescriptor_t OCT32n_raw_; -extern const XERdescriptor_t OCT32n_xer_; -extern const TTCN_OERdescriptor_t OCT32n_oer_; -extern const TTCN_Typedescriptor_t OCT32n_descr_; -extern UNIVERSAL_CHARSTRING OCT32n_default_coding; -extern const TTCN_RAWdescriptor_t OCT34n_raw_; -extern const XERdescriptor_t OCT34n_xer_; -extern const TTCN_OERdescriptor_t OCT34n_oer_; -extern const TTCN_Typedescriptor_t OCT34n_descr_; -extern UNIVERSAL_CHARSTRING OCT34n_default_coding; -extern const TTCN_RAWdescriptor_t OCT46n_raw_; -extern const XERdescriptor_t OCT46n_xer_; -extern const TTCN_OERdescriptor_t OCT46n_oer_; -extern const TTCN_Typedescriptor_t OCT46n_descr_; -extern UNIVERSAL_CHARSTRING OCT46n_default_coding; -extern const TTCN_RAWdescriptor_t OCT50n_raw_; -extern const XERdescriptor_t OCT50n_xer_; -extern const TTCN_OERdescriptor_t OCT50n_oer_; -extern const TTCN_Typedescriptor_t OCT50n_descr_; -extern UNIVERSAL_CHARSTRING OCT50n_default_coding; -extern const TTCN_RAWdescriptor_t OCT69n_raw_; -extern const XERdescriptor_t OCT69n_xer_; -extern const TTCN_OERdescriptor_t OCT69n_oer_; -extern const TTCN_Typedescriptor_t OCT69n_descr_; -extern UNIVERSAL_CHARSTRING OCT69n_default_coding; -extern const TTCN_RAWdescriptor_t OCT100n_raw_; -extern const XERdescriptor_t OCT100n_xer_; -extern const TTCN_OERdescriptor_t OCT100n_oer_; -extern const TTCN_Typedescriptor_t OCT100n_descr_; -extern UNIVERSAL_CHARSTRING OCT100n_default_coding; -extern const TTCN_RAWdescriptor_t OCT128n_raw_; -extern const XERdescriptor_t OCT128n_xer_; -extern const TTCN_OERdescriptor_t OCT128n_oer_; -extern const TTCN_Typedescriptor_t OCT128n_descr_; -extern UNIVERSAL_CHARSTRING OCT128n_default_coding; -extern const TTCN_RAWdescriptor_t OCT500n_raw_; -extern const XERdescriptor_t OCT500n_xer_; -extern const TTCN_OERdescriptor_t OCT500n_oer_; -extern const TTCN_Typedescriptor_t OCT500n_descr_; -extern UNIVERSAL_CHARSTRING OCT500n_default_coding; -extern const XERdescriptor_t OCTNn_xer_; -extern const TTCN_OERdescriptor_t OCTNn_oer_; -extern const TTCN_Typedescriptor_t OCTNn_descr_; -extern UNIVERSAL_CHARSTRING OCTNn_default_coding; -extern const XERdescriptor_t OCT1__3n_xer_; -extern const TTCN_OERdescriptor_t OCT1__3n_oer_; -extern const TTCN_Typedescriptor_t OCT1__3n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__3n_default_coding; -extern const XERdescriptor_t OCT1__4n_xer_; -extern const TTCN_OERdescriptor_t OCT1__4n_oer_; -extern const TTCN_Typedescriptor_t OCT1__4n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__4n_default_coding; -extern const XERdescriptor_t OCT1__5n_xer_; -extern const TTCN_OERdescriptor_t OCT1__5n_oer_; -extern const TTCN_Typedescriptor_t OCT1__5n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__5n_default_coding; -extern const XERdescriptor_t OCT1__6n_xer_; -extern const TTCN_OERdescriptor_t OCT1__6n_oer_; -extern const TTCN_Typedescriptor_t OCT1__6n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__6n_default_coding; -extern const XERdescriptor_t OCT1__7n_xer_; -extern const TTCN_OERdescriptor_t OCT1__7n_oer_; -extern const TTCN_Typedescriptor_t OCT1__7n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__7n_default_coding; -extern const XERdescriptor_t OCT1__8n_xer_; -extern const TTCN_OERdescriptor_t OCT1__8n_oer_; -extern const TTCN_Typedescriptor_t OCT1__8n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__8n_default_coding; -extern const XERdescriptor_t OCT1__12n_xer_; -extern const TTCN_OERdescriptor_t OCT1__12n_oer_; -extern const TTCN_Typedescriptor_t OCT1__12n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__12n_default_coding; -extern const XERdescriptor_t OCT1__15n_xer_; -extern const TTCN_OERdescriptor_t OCT1__15n_oer_; -extern const TTCN_Typedescriptor_t OCT1__15n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__15n_default_coding; -extern const XERdescriptor_t OCT1__16n_xer_; -extern const TTCN_OERdescriptor_t OCT1__16n_oer_; -extern const TTCN_Typedescriptor_t OCT1__16n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__16n_default_coding; -extern const XERdescriptor_t OCT1__18n_xer_; -extern const TTCN_OERdescriptor_t OCT1__18n_oer_; -extern const TTCN_Typedescriptor_t OCT1__18n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__18n_default_coding; -extern const XERdescriptor_t OCT1__20n_xer_; -extern const TTCN_OERdescriptor_t OCT1__20n_oer_; -extern const TTCN_Typedescriptor_t OCT1__20n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__20n_default_coding; -extern const XERdescriptor_t OCT1__24n_xer_; -extern const TTCN_OERdescriptor_t OCT1__24n_oer_; -extern const TTCN_Typedescriptor_t OCT1__24n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__24n_default_coding; -extern const XERdescriptor_t OCT1__32n_xer_; -extern const TTCN_OERdescriptor_t OCT1__32n_oer_; -extern const TTCN_Typedescriptor_t OCT1__32n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__32n_default_coding; -extern const XERdescriptor_t OCT1__34n_xer_; -extern const TTCN_OERdescriptor_t OCT1__34n_oer_; -extern const TTCN_Typedescriptor_t OCT1__34n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__34n_default_coding; -extern const XERdescriptor_t OCT1__46n_xer_; -extern const TTCN_OERdescriptor_t OCT1__46n_oer_; -extern const TTCN_Typedescriptor_t OCT1__46n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__46n_default_coding; -extern const XERdescriptor_t OCT1__50n_xer_; -extern const TTCN_OERdescriptor_t OCT1__50n_oer_; -extern const TTCN_Typedescriptor_t OCT1__50n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__50n_default_coding; -extern const XERdescriptor_t OCT1__112n_xer_; -extern const TTCN_OERdescriptor_t OCT1__112n_oer_; -extern const TTCN_Typedescriptor_t OCT1__112n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__112n_default_coding; -extern const XERdescriptor_t OCT1__127n_xer_; -extern const TTCN_OERdescriptor_t OCT1__127n_oer_; -extern const TTCN_Typedescriptor_t OCT1__127n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__127n_default_coding; -extern const XERdescriptor_t OCT1__128n_xer_; -extern const TTCN_OERdescriptor_t OCT1__128n_oer_; -extern const TTCN_Typedescriptor_t OCT1__128n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__128n_default_coding; -extern const XERdescriptor_t OCT1__172n_xer_; -extern const TTCN_OERdescriptor_t OCT1__172n_oer_; -extern const TTCN_Typedescriptor_t OCT1__172n_descr_; -extern UNIVERSAL_CHARSTRING OCT1__172n_default_coding; -extern const XERdescriptor_t OCT3__5n_xer_; -extern const TTCN_OERdescriptor_t OCT3__5n_oer_; -extern const TTCN_Typedescriptor_t OCT3__5n_descr_; -extern UNIVERSAL_CHARSTRING OCT3__5n_default_coding; -extern const XERdescriptor_t OCT3__7n_xer_; -extern const TTCN_OERdescriptor_t OCT3__7n_oer_; -extern const TTCN_Typedescriptor_t OCT3__7n_descr_; -extern UNIVERSAL_CHARSTRING OCT3__7n_default_coding; -extern const XERdescriptor_t OCT3__8n_xer_; -extern const TTCN_OERdescriptor_t OCT3__8n_oer_; -extern const TTCN_Typedescriptor_t OCT3__8n_descr_; -extern UNIVERSAL_CHARSTRING OCT3__8n_default_coding; -extern const XERdescriptor_t OCT3__14n_xer_; -extern const TTCN_OERdescriptor_t OCT3__14n_oer_; -extern const TTCN_Typedescriptor_t OCT3__14n_descr_; -extern UNIVERSAL_CHARSTRING OCT3__14n_default_coding; -extern const XERdescriptor_t OCT3__17n_xer_; -extern const TTCN_OERdescriptor_t OCT3__17n_oer_; -extern const TTCN_Typedescriptor_t OCT3__17n_descr_; -extern UNIVERSAL_CHARSTRING OCT3__17n_default_coding; -extern const XERdescriptor_t OCT4__8n_xer_; -extern const TTCN_OERdescriptor_t OCT4__8n_oer_; -extern const TTCN_Typedescriptor_t OCT4__8n_descr_; -extern UNIVERSAL_CHARSTRING OCT4__8n_default_coding; -extern const TTCN_RAWdescriptor_t CHAR4_raw_; -extern const XERdescriptor_t CHAR4_xer_; -extern const TTCN_Typedescriptor_t CHAR4_descr_; -extern UNIVERSAL_CHARSTRING CHAR4_default_coding; -extern const TTCN_RAWdescriptor_t HEX4n_raw_; -extern const XERdescriptor_t HEX4n_xer_; -extern const TTCN_Typedescriptor_t HEX4n_descr_; -extern UNIVERSAL_CHARSTRING HEX4n_default_coding; -extern const TTCN_RAWdescriptor_t HEX6n_raw_; -extern const XERdescriptor_t HEX6n_xer_; -extern const TTCN_Typedescriptor_t HEX6n_descr_; -extern UNIVERSAL_CHARSTRING HEX6n_default_coding; -extern const TTCN_RAWdescriptor_t HEX8n_raw_; -extern const XERdescriptor_t HEX8n_xer_; -extern const TTCN_Typedescriptor_t HEX8n_descr_; -extern UNIVERSAL_CHARSTRING HEX8n_default_coding; -extern const TTCN_RAWdescriptor_t HEX15n_raw_; -extern const XERdescriptor_t HEX15n_xer_; -extern const TTCN_Typedescriptor_t HEX15n_descr_; -extern UNIVERSAL_CHARSTRING HEX15n_default_coding; -extern const TTCN_RAWdescriptor_t HEX16n_raw_; -extern const XERdescriptor_t HEX16n_xer_; -extern const TTCN_Typedescriptor_t HEX16n_descr_; -extern UNIVERSAL_CHARSTRING HEX16n_default_coding; -extern const TTCN_RAWdescriptor_t HEX24n_raw_; -extern const XERdescriptor_t HEX24n_xer_; -extern const TTCN_Typedescriptor_t HEX24n_descr_; -extern UNIVERSAL_CHARSTRING HEX24n_default_coding; -extern const XERdescriptor_t HEX0__3n_xer_; -extern const TTCN_Typedescriptor_t HEX0__3n_descr_; -extern UNIVERSAL_CHARSTRING HEX0__3n_default_coding; -extern const XERdescriptor_t HEX0__18n_xer_; -extern const TTCN_Typedescriptor_t HEX0__18n_descr_; -extern UNIVERSAL_CHARSTRING HEX0__18n_default_coding; -extern const XERdescriptor_t HEX1__20n_xer_; -extern const TTCN_Typedescriptor_t HEX1__20n_descr_; -extern UNIVERSAL_CHARSTRING HEX1__20n_default_coding; -extern const XERdescriptor_t HEX1__34n_xer_; -extern const TTCN_Typedescriptor_t HEX1__34n_descr_; -extern UNIVERSAL_CHARSTRING HEX1__34n_default_coding; -extern const XERdescriptor_t INT3nb_xer_; -extern const TTCN_Typedescriptor_t INT3nb_descr_; -extern UNIVERSAL_CHARSTRING INT3nb_default_coding; -extern const XERdescriptor_t INT4nb_xer_; -extern const TTCN_Typedescriptor_t INT4nb_descr_; -extern UNIVERSAL_CHARSTRING INT4nb_default_coding; -extern const XERdescriptor_t INT5nb_xer_; -extern const TTCN_Typedescriptor_t INT5nb_descr_; -extern UNIVERSAL_CHARSTRING INT5nb_default_coding; -extern const XERdescriptor_t INT8nb_xer_; -extern const TTCN_Typedescriptor_t INT8nb_descr_; -extern UNIVERSAL_CHARSTRING INT8nb_default_coding; -extern const XERdescriptor_t INT2nbp_xer_; -extern const TTCN_Typedescriptor_t INT2nbp_descr_; -extern UNIVERSAL_CHARSTRING INT2nbp_default_coding; -extern const XERdescriptor_t INT1nbp_xer_; -extern const TTCN_Typedescriptor_t INT1nbp_descr_; -extern UNIVERSAL_CHARSTRING INT1nbp_default_coding; -extern const XERdescriptor_t INT3nbp_xer_; -extern const TTCN_Typedescriptor_t INT3nbp_descr_; -extern UNIVERSAL_CHARSTRING INT3nbp_default_coding; -extern const XERdescriptor_t INT5nbp_xer_; -extern const TTCN_Typedescriptor_t INT5nbp_descr_; -extern UNIVERSAL_CHARSTRING INT5nbp_default_coding; -extern const XERdescriptor_t INT9nbp_xer_; -extern const TTCN_Typedescriptor_t INT9nbp_descr_; -extern UNIVERSAL_CHARSTRING INT9nbp_default_coding; -extern const XERdescriptor_t INT13nbp_xer_; -extern const TTCN_Typedescriptor_t INT13nbp_descr_; -extern UNIVERSAL_CHARSTRING INT13nbp_default_coding; -extern const XERdescriptor_t INT15nbp_xer_; -extern const TTCN_Typedescriptor_t INT15nbp_descr_; -extern UNIVERSAL_CHARSTRING INT15nbp_default_coding; -extern const TTCN_RAWdescriptor_t BIT6__BO__LAST_raw_; -extern const XERdescriptor_t BIT6__BO__LAST_xer_; -extern const TTCN_Typedescriptor_t BIT6__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING BIT6__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t BIT16__BO__LAST_raw_; -extern const XERdescriptor_t BIT16__BO__LAST_xer_; -extern const TTCN_Typedescriptor_t BIT16__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING BIT16__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t BIT32__BO__LAST_raw_; -extern const XERdescriptor_t BIT32__BO__LAST_xer_; -extern const TTCN_Typedescriptor_t BIT32__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING BIT32__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t Dummy_raw_; -extern const XERdescriptor_t Dummy_xer_; -extern const TTCN_OERdescriptor_t Dummy_oer_; -extern const TTCN_Typedescriptor_t Dummy_descr_; -extern UNIVERSAL_CHARSTRING Dummy_default_coding; -extern const TTCN_RAWdescriptor_t OCT0_raw_; -extern const XERdescriptor_t OCT0_xer_; -extern const TTCN_OERdescriptor_t OCT0_oer_; -extern const TTCN_Typedescriptor_t OCT0_descr_; -extern UNIVERSAL_CHARSTRING OCT0_default_coding; -extern const TTCN_RAWdescriptor_t OCT1_raw_; -extern const XERdescriptor_t OCT1_xer_; -extern const TTCN_OERdescriptor_t OCT1_oer_; -extern const TTCN_Typedescriptor_t OCT1_descr_; -extern UNIVERSAL_CHARSTRING OCT1_default_coding; -extern const TTCN_RAWdescriptor_t OCT2_raw_; -extern const XERdescriptor_t OCT2_xer_; -extern const TTCN_OERdescriptor_t OCT2_oer_; -extern const TTCN_Typedescriptor_t OCT2_descr_; -extern UNIVERSAL_CHARSTRING OCT2_default_coding; -extern const TTCN_RAWdescriptor_t OCT3_raw_; -extern const XERdescriptor_t OCT3_xer_; -extern const TTCN_OERdescriptor_t OCT3_oer_; -extern const TTCN_Typedescriptor_t OCT3_descr_; -extern UNIVERSAL_CHARSTRING OCT3_default_coding; -extern const TTCN_RAWdescriptor_t OCT4_raw_; -extern const XERdescriptor_t OCT4_xer_; -extern const TTCN_OERdescriptor_t OCT4_oer_; -extern const TTCN_Typedescriptor_t OCT4_descr_; -extern UNIVERSAL_CHARSTRING OCT4_default_coding; -extern const TTCN_RAWdescriptor_t OCT5_raw_; -extern const XERdescriptor_t OCT5_xer_; -extern const TTCN_OERdescriptor_t OCT5_oer_; -extern const TTCN_Typedescriptor_t OCT5_descr_; -extern UNIVERSAL_CHARSTRING OCT5_default_coding; -extern const TTCN_RAWdescriptor_t OCT6_raw_; -extern const XERdescriptor_t OCT6_xer_; -extern const TTCN_OERdescriptor_t OCT6_oer_; -extern const TTCN_Typedescriptor_t OCT6_descr_; -extern UNIVERSAL_CHARSTRING OCT6_default_coding; -extern const TTCN_RAWdescriptor_t OCT7_raw_; -extern const XERdescriptor_t OCT7_xer_; -extern const TTCN_OERdescriptor_t OCT7_oer_; -extern const TTCN_Typedescriptor_t OCT7_descr_; -extern UNIVERSAL_CHARSTRING OCT7_default_coding; -extern const TTCN_RAWdescriptor_t OCT8_raw_; -extern const XERdescriptor_t OCT8_xer_; -extern const TTCN_OERdescriptor_t OCT8_oer_; -extern const TTCN_Typedescriptor_t OCT8_descr_; -extern UNIVERSAL_CHARSTRING OCT8_default_coding; -extern const TTCN_RAWdescriptor_t OCT9_raw_; -extern const XERdescriptor_t OCT9_xer_; -extern const TTCN_OERdescriptor_t OCT9_oer_; -extern const TTCN_Typedescriptor_t OCT9_descr_; -extern UNIVERSAL_CHARSTRING OCT9_default_coding; -extern const TTCN_RAWdescriptor_t OCT10_raw_; -extern const XERdescriptor_t OCT10_xer_; -extern const TTCN_OERdescriptor_t OCT10_oer_; -extern const TTCN_Typedescriptor_t OCT10_descr_; -extern UNIVERSAL_CHARSTRING OCT10_default_coding; -extern const TTCN_RAWdescriptor_t OCT11_raw_; -extern const XERdescriptor_t OCT11_xer_; -extern const TTCN_OERdescriptor_t OCT11_oer_; -extern const TTCN_Typedescriptor_t OCT11_descr_; -extern UNIVERSAL_CHARSTRING OCT11_default_coding; -extern const TTCN_RAWdescriptor_t OCT12_raw_; -extern const XERdescriptor_t OCT12_xer_; -extern const TTCN_OERdescriptor_t OCT12_oer_; -extern const TTCN_Typedescriptor_t OCT12_descr_; -extern UNIVERSAL_CHARSTRING OCT12_default_coding; -extern const TTCN_RAWdescriptor_t OCT13_raw_; -extern const XERdescriptor_t OCT13_xer_; -extern const TTCN_OERdescriptor_t OCT13_oer_; -extern const TTCN_Typedescriptor_t OCT13_descr_; -extern UNIVERSAL_CHARSTRING OCT13_default_coding; -extern const TTCN_RAWdescriptor_t OCT14_raw_; -extern const XERdescriptor_t OCT14_xer_; -extern const TTCN_OERdescriptor_t OCT14_oer_; -extern const TTCN_Typedescriptor_t OCT14_descr_; -extern UNIVERSAL_CHARSTRING OCT14_default_coding; -extern const TTCN_RAWdescriptor_t OCT15_raw_; -extern const XERdescriptor_t OCT15_xer_; -extern const TTCN_OERdescriptor_t OCT15_oer_; -extern const TTCN_Typedescriptor_t OCT15_descr_; -extern UNIVERSAL_CHARSTRING OCT15_default_coding; -extern const TTCN_RAWdescriptor_t OCT16_raw_; -extern const XERdescriptor_t OCT16_xer_; -extern const TTCN_OERdescriptor_t OCT16_oer_; -extern const TTCN_Typedescriptor_t OCT16_descr_; -extern UNIVERSAL_CHARSTRING OCT16_default_coding; -extern const TTCN_RAWdescriptor_t OCT17_raw_; -extern const XERdescriptor_t OCT17_xer_; -extern const TTCN_OERdescriptor_t OCT17_oer_; -extern const TTCN_Typedescriptor_t OCT17_descr_; -extern UNIVERSAL_CHARSTRING OCT17_default_coding; -extern const TTCN_RAWdescriptor_t OCT18_raw_; -extern const XERdescriptor_t OCT18_xer_; -extern const TTCN_OERdescriptor_t OCT18_oer_; -extern const TTCN_Typedescriptor_t OCT18_descr_; -extern UNIVERSAL_CHARSTRING OCT18_default_coding; -extern const TTCN_RAWdescriptor_t OCT19_raw_; -extern const XERdescriptor_t OCT19_xer_; -extern const TTCN_OERdescriptor_t OCT19_oer_; -extern const TTCN_Typedescriptor_t OCT19_descr_; -extern UNIVERSAL_CHARSTRING OCT19_default_coding; -extern const TTCN_RAWdescriptor_t OCT20_raw_; -extern const XERdescriptor_t OCT20_xer_; -extern const TTCN_OERdescriptor_t OCT20_oer_; -extern const TTCN_Typedescriptor_t OCT20_descr_; -extern UNIVERSAL_CHARSTRING OCT20_default_coding; -extern const TTCN_RAWdescriptor_t OCT22_raw_; -extern const XERdescriptor_t OCT22_xer_; -extern const TTCN_OERdescriptor_t OCT22_oer_; -extern const TTCN_Typedescriptor_t OCT22_descr_; -extern UNIVERSAL_CHARSTRING OCT22_default_coding; -extern const TTCN_RAWdescriptor_t OCT32_raw_; -extern const XERdescriptor_t OCT32_xer_; -extern const TTCN_OERdescriptor_t OCT32_oer_; -extern const TTCN_Typedescriptor_t OCT32_descr_; -extern UNIVERSAL_CHARSTRING OCT32_default_coding; -extern const TTCN_RAWdescriptor_t OCT34_raw_; -extern const XERdescriptor_t OCT34_xer_; -extern const TTCN_OERdescriptor_t OCT34_oer_; -extern const TTCN_Typedescriptor_t OCT34_descr_; -extern UNIVERSAL_CHARSTRING OCT34_default_coding; -extern const TTCN_RAWdescriptor_t OCT46_raw_; -extern const XERdescriptor_t OCT46_xer_; -extern const TTCN_OERdescriptor_t OCT46_oer_; -extern const TTCN_Typedescriptor_t OCT46_descr_; -extern UNIVERSAL_CHARSTRING OCT46_default_coding; -extern const XERdescriptor_t OCT1__260_xer_; -extern const TTCN_OERdescriptor_t OCT1__260_oer_; -extern const TTCN_Typedescriptor_t OCT1__260_descr_; -extern UNIVERSAL_CHARSTRING OCT1__260_default_coding; -extern const XERdescriptor_t OCT1__8_xer_; -extern const TTCN_OERdescriptor_t OCT1__8_oer_; -extern const TTCN_Typedescriptor_t OCT1__8_descr_; -extern UNIVERSAL_CHARSTRING OCT1__8_default_coding; -extern const XERdescriptor_t OCT1__12_xer_; -extern const TTCN_OERdescriptor_t OCT1__12_oer_; -extern const TTCN_Typedescriptor_t OCT1__12_descr_; -extern UNIVERSAL_CHARSTRING OCT1__12_default_coding; -extern const XERdescriptor_t OCT1__32_xer_; -extern const TTCN_OERdescriptor_t OCT1__32_oer_; -extern const TTCN_Typedescriptor_t OCT1__32_descr_; -extern UNIVERSAL_CHARSTRING OCT1__32_default_coding; -extern const XERdescriptor_t OCT1__50_xer_; -extern const TTCN_OERdescriptor_t OCT1__50_oer_; -extern const TTCN_Typedescriptor_t OCT1__50_descr_; -extern UNIVERSAL_CHARSTRING OCT1__50_default_coding; -extern const XERdescriptor_t OCT3__8_xer_; -extern const TTCN_OERdescriptor_t OCT3__8_oer_; -extern const TTCN_Typedescriptor_t OCT3__8_descr_; -extern UNIVERSAL_CHARSTRING OCT3__8_default_coding; -extern const XERdescriptor_t OCTN_xer_; -extern const TTCN_OERdescriptor_t OCTN_oer_; -extern const TTCN_Typedescriptor_t OCTN_descr_; -extern UNIVERSAL_CHARSTRING OCTN_default_coding; -extern const TTCN_RAWdescriptor_t HEX1_raw_; -extern const XERdescriptor_t HEX1_xer_; -extern const TTCN_Typedescriptor_t HEX1_descr_; -extern UNIVERSAL_CHARSTRING HEX1_default_coding; -extern const XERdescriptor_t HEX0__16_xer_; -extern const TTCN_Typedescriptor_t HEX0__16_descr_; -extern UNIVERSAL_CHARSTRING HEX0__16_default_coding; -extern const XERdescriptor_t HEX5__16_xer_; -extern const TTCN_Typedescriptor_t HEX5__16_descr_; -extern UNIVERSAL_CHARSTRING HEX5__16_default_coding; -extern const XERdescriptor_t HEX1__32_xer_; -extern const TTCN_Typedescriptor_t HEX1__32_descr_; -extern UNIVERSAL_CHARSTRING HEX1__32_default_coding; -extern const TTCN_RAWdescriptor_t INT1_raw_; -extern const XERdescriptor_t INT1_xer_; -extern const TTCN_OERdescriptor_t INT1_oer_; -extern const TTCN_Typedescriptor_t INT1_descr_; -extern UNIVERSAL_CHARSTRING INT1_default_coding; -extern const TTCN_RAWdescriptor_t LIN1_raw_; -extern const XERdescriptor_t LIN1_xer_; -extern const TTCN_Typedescriptor_t LIN1_descr_; -extern UNIVERSAL_CHARSTRING LIN1_default_coding; -extern const TTCN_RAWdescriptor_t LIN2_raw_; -extern const XERdescriptor_t LIN2_xer_; -extern const TTCN_Typedescriptor_t LIN2_descr_; -extern UNIVERSAL_CHARSTRING LIN2_default_coding; -extern const TTCN_RAWdescriptor_t LIN2__BO__LAST_raw_; -extern const XERdescriptor_t LIN2__BO__LAST_xer_; -extern const TTCN_OERdescriptor_t LIN2__BO__LAST_oer_; -extern const TTCN_Typedescriptor_t LIN2__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING LIN2__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t LIN3__BO__LAST_raw_; -extern const XERdescriptor_t LIN3__BO__LAST_xer_; -extern const TTCN_Typedescriptor_t LIN3__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING LIN3__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t LIN4__BO__LAST_raw_; -extern const XERdescriptor_t LIN4__BO__LAST_xer_; -extern const TTCN_Typedescriptor_t LIN4__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING LIN4__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t INT1b_raw_; -extern const XERdescriptor_t INT1b_xer_; -extern const TTCN_Typedescriptor_t INT1b_descr_; -extern UNIVERSAL_CHARSTRING INT1b_default_coding; -extern const TTCN_RAWdescriptor_t INT2b_raw_; -extern const XERdescriptor_t INT2b_xer_; -extern const TTCN_Typedescriptor_t INT2b_descr_; -extern UNIVERSAL_CHARSTRING INT2b_default_coding; -extern const TTCN_RAWdescriptor_t INT3b_raw_; -extern const XERdescriptor_t INT3b_xer_; -extern const TTCN_Typedescriptor_t INT3b_descr_; -extern UNIVERSAL_CHARSTRING INT3b_default_coding; -extern const TTCN_RAWdescriptor_t INT4b_raw_; -extern const XERdescriptor_t INT4b_xer_; -extern const TTCN_Typedescriptor_t INT4b_descr_; -extern UNIVERSAL_CHARSTRING INT4b_default_coding; -extern const TTCN_RAWdescriptor_t INT5b_raw_; -extern const XERdescriptor_t INT5b_xer_; -extern const TTCN_Typedescriptor_t INT5b_descr_; -extern UNIVERSAL_CHARSTRING INT5b_default_coding; -extern const TTCN_RAWdescriptor_t INT6b_raw_; -extern const XERdescriptor_t INT6b_xer_; -extern const TTCN_OERdescriptor_t INT6b_oer_; -extern const TTCN_Typedescriptor_t INT6b_descr_; -extern UNIVERSAL_CHARSTRING INT6b_default_coding; -extern const TTCN_RAWdescriptor_t INT7b_raw_; -extern const XERdescriptor_t INT7b_xer_; -extern const TTCN_Typedescriptor_t INT7b_descr_; -extern UNIVERSAL_CHARSTRING INT7b_default_coding; -extern const TTCN_RAWdescriptor_t INT11b__BO__LAST_raw_; -extern const XERdescriptor_t INT11b__BO__LAST_xer_; -extern const TTCN_Typedescriptor_t INT11b__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING INT11b__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t INT12b__BO__LAST_raw_; -extern const XERdescriptor_t INT12b__BO__LAST_xer_; -extern const TTCN_Typedescriptor_t INT12b__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING INT12b__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t INT13b__BO__LAST_raw_; -extern const XERdescriptor_t INT13b__BO__LAST_xer_; -extern const TTCN_Typedescriptor_t INT13b__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING INT13b__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t INT14b__BO__LAST_raw_; -extern const XERdescriptor_t INT14b__BO__LAST_xer_; -extern const TTCN_Typedescriptor_t INT14b__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING INT14b__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t INT18b__BO__LAST_raw_; -extern const XERdescriptor_t INT18b__BO__LAST_xer_; -extern const TTCN_OERdescriptor_t INT18b__BO__LAST_oer_; -extern const TTCN_Typedescriptor_t INT18b__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING INT18b__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t INT20b__BO__LAST_raw_; -extern const XERdescriptor_t INT20b__BO__LAST_xer_; -extern const TTCN_Typedescriptor_t INT20b__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING INT20b__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t INT31b__BO__LAST_raw_; -extern const XERdescriptor_t INT31b__BO__LAST_xer_; -extern const TTCN_Typedescriptor_t INT31b__BO__LAST_descr_; -extern UNIVERSAL_CHARSTRING INT31b__BO__LAST_default_coding; -extern const TTCN_RAWdescriptor_t Integers_raw_; -extern const TTCN_Typedescriptor_t Integers_descr_; -extern const XERdescriptor_t Integers_0_xer_; -extern const TTCN_Typedescriptor_t Integers_0_descr_; -extern UNIVERSAL_CHARSTRING Integers_0_default_coding; -extern UNIVERSAL_CHARSTRING Integers_default_coding; -extern const TTCN_RAWdescriptor_t Integer__array_raw_; -extern const TTCN_Typedescriptor_t Integer__array_descr_; -extern UNIVERSAL_CHARSTRING Integer__array_0_default_coding; -extern UNIVERSAL_CHARSTRING Integer__array_default_coding; -extern const TTCN_Typedescriptor_t& Dummy__comptype_descr_; -extern const TTCN_Typedescriptor_t& Dummy__CT_descr_; -extern const TTCN_RAWdescriptor_t Protocols_raw_; -extern const TTCN_Typedescriptor_t Protocols_descr_; -extern UNIVERSAL_CHARSTRING Protocols_default_coding; -extern const TTCN_RAWdescriptor_t OCT1List_raw_; -extern const TTCN_Typedescriptor_t OCT1List_descr_; -extern const XERdescriptor_t OCT1List_0_xer_; -extern const TTCN_OERdescriptor_t OCT1List_0_oer_; -extern const TTCN_Typedescriptor_t OCT1List_0_descr_; -extern UNIVERSAL_CHARSTRING OCT1List_0_default_coding; -extern UNIVERSAL_CHARSTRING OCT1List_default_coding; -extern const TTCN_RAWdescriptor_t OCT2List_raw_; -extern const TTCN_Typedescriptor_t OCT2List_descr_; -extern const XERdescriptor_t OCT2List_0_xer_; -extern const TTCN_OERdescriptor_t OCT2List_0_oer_; -extern const TTCN_Typedescriptor_t OCT2List_0_descr_; -extern UNIVERSAL_CHARSTRING OCT2List_0_default_coding; -extern UNIVERSAL_CHARSTRING OCT2List_default_coding; -extern const TTCN_RAWdescriptor_t OCT3List_raw_; -extern const TTCN_Typedescriptor_t OCT3List_descr_; -extern const XERdescriptor_t OCT3List_0_xer_; -extern const TTCN_OERdescriptor_t OCT3List_0_oer_; -extern const TTCN_Typedescriptor_t OCT3List_0_descr_; -extern UNIVERSAL_CHARSTRING OCT3List_0_default_coding; -extern UNIVERSAL_CHARSTRING OCT3List_default_coding; -extern const TTCN_RAWdescriptor_t OCT4List_raw_; -extern const TTCN_Typedescriptor_t OCT4List_descr_; -extern const XERdescriptor_t OCT4List_0_xer_; -extern const TTCN_OERdescriptor_t OCT4List_0_oer_; -extern const TTCN_Typedescriptor_t OCT4List_0_descr_; -extern UNIVERSAL_CHARSTRING OCT4List_0_default_coding; -extern UNIVERSAL_CHARSTRING OCT4List_default_coding; -extern const TTCN_RAWdescriptor_t OCT5List_raw_; -extern const TTCN_Typedescriptor_t OCT5List_descr_; -extern const XERdescriptor_t OCT5List_0_xer_; -extern const TTCN_OERdescriptor_t OCT5List_0_oer_; -extern const TTCN_Typedescriptor_t OCT5List_0_descr_; -extern UNIVERSAL_CHARSTRING OCT5List_0_default_coding; -extern UNIVERSAL_CHARSTRING OCT5List_default_coding; -extern const TTCN_RAWdescriptor_t OCT6List_raw_; -extern const TTCN_Typedescriptor_t OCT6List_descr_; -extern const XERdescriptor_t OCT6List_0_xer_; -extern const TTCN_OERdescriptor_t OCT6List_0_oer_; -extern const TTCN_Typedescriptor_t OCT6List_0_descr_; -extern UNIVERSAL_CHARSTRING OCT6List_0_default_coding; -extern UNIVERSAL_CHARSTRING OCT6List_default_coding; -extern const TTCN_RAWdescriptor_t OCT7List_raw_; -extern const TTCN_Typedescriptor_t OCT7List_descr_; -extern const XERdescriptor_t OCT7List_0_xer_; -extern const TTCN_OERdescriptor_t OCT7List_0_oer_; -extern const TTCN_Typedescriptor_t OCT7List_0_descr_; -extern UNIVERSAL_CHARSTRING OCT7List_0_default_coding; -extern UNIVERSAL_CHARSTRING OCT7List_default_coding; -extern const TTCN_Typedescriptor_t ListOfDummy__comptype_descr_; -extern const TTCN_Typedescriptor_t ListOfDummy__CT_descr_; -extern const TTCN_RAWdescriptor_t ProtocolList_raw_; -extern const TTCN_Typedescriptor_t ProtocolList_descr_; -extern UNIVERSAL_CHARSTRING ProtocolList_0_default_coding; -extern UNIVERSAL_CHARSTRING ProtocolList_default_coding; -extern TTCN_Module module_object; - -} /* end of namespace */ - -#endif diff --git a/titan/General_Types.ttcn b/titan/General_Types.ttcn new file mode 100644 index 0000000..924f28b --- /dev/null +++ b/titan/General_Types.ttcn @@ -0,0 +1,329 @@ +/****************************************************************************** + * Copyright (c) 2000-2017 Ericsson Telecom AB + * All rights reserved. This program and the accompanying materials + * are made available under the terms of the Eclipse Public License v1.0 + * which accompanies this distribution, and is available at + * http://www.eclipse.org/legal/epl-v10.html + * + * Contributors: + * Balasko, Jeno + * Baranyi, Botond + * + ******************************************************************************/ +// +// File: General_Types.ttcn +// Rev: +// Prodnr: CNL 113 368 +// Updated: 2012-11-06 +// Contact: http://ttcn.ericsson.se +// Reference: + + +module General_Types +{ + +group SimpleNativeTypes { + + //**************************************************** + // Bitstrings + //**************************************************** + + //bitstring with fixed length + type bitstring BIT1n length(1) with { variant "" }; + type bitstring BIT2n length(2) with { variant "" }; + type bitstring BIT3n length(3) with { variant "" }; + type bitstring BIT4n length(4) with { variant "" }; + type bitstring BIT5n length(5) with { variant "" }; + type bitstring BIT6n length(6) with { variant "" }; + type bitstring BIT7n length(7) with { variant "" }; + type bitstring BIT8n length(8) with { variant "" }; + type bitstring BIT9n length(9) with { variant "" }; + type bitstring BIT12n length(12) with { variant "" }; + type bitstring BIT14n length(14) with { variant "" }; + type bitstring BIT15n length(15) with { variant "" }; + type bitstring BIT16n length(16) with { variant "" }; + type bitstring BIT56n length(56) with { variant "" }; + + //bitstring with length interval + type bitstring BIT14_24n length(14..24) with { variant "" }; + + //bitstring to be padded with fixed length + type bitstring BIT1np length(1) with { variant "" }; + type bitstring BIT2np length(2) with { variant "" }; + type bitstring BIT3np length(3) with { variant "" }; + type bitstring BIT4np length(4) with { variant "" }; + type bitstring BIT5np length(5) with { variant "" }; + type bitstring BIT6np length(6) with { variant "" }; + type bitstring BIT7np length(7) with { variant "" }; + type bitstring BIT15np length(15) with { variant "" }; + + //bitstring with fixed length + type bitstring BIT1 length(1) with { variant "FIELDLENGTH(1)" }; + type bitstring BIT2 length(2) with { variant "FIELDLENGTH(2)" }; + type bitstring BIT3 length(3) with { variant "FIELDLENGTH(3)" }; + type bitstring BIT4 length(4) with { variant "FIELDLENGTH(4)" }; + type bitstring BIT5 length(5) with { variant "FIELDLENGTH(5)" }; + type bitstring BIT6 length(6) with { variant "FIELDLENGTH(6)" }; + type bitstring BIT7 length(7) with { variant "FIELDLENGTH(7)" }; + type bitstring BIT8 length(8) with { variant "FIELDLENGTH(8)" }; + type bitstring BIT9 length(9) with { variant "FIELDLENGTH(9)" }; + type bitstring BIT10 length(10) with { variant "FIELDLENGTH(10)" }; + type bitstring BIT11 length(11) with { variant "FIELDLENGTH(11)" }; + type bitstring BIT12 length(12) with { variant "FIELDLENGTH(12)" }; + type bitstring BIT13 length(13) with { variant "FIELDLENGTH(13)" }; + type bitstring BIT14 length(14) with { variant "FIELDLENGTH(14)" }; + type bitstring BIT15 length(15) with { variant "FIELDLENGTH(15)" }; + type bitstring BIT16 length(16) with { variant "FIELDLENGTH(16)" }; + type bitstring BIT24 length(24) with { variant "FIELDLENGTH(24)" }; + type bitstring BIT28 length(28) with { variant "FIELDLENGTH(28)" }; + type bitstring BIT29 length(29) with { variant "FIELDLENGTH(29)" }; + type bitstring BIT30 length(30) with { variant "FIELDLENGTH(30)" }; + type bitstring BIT31 length(31) with { variant "FIELDLENGTH(31)" }; + type bitstring BIT32 length(32) with { variant "FIELDLENGTH(32)" }; + type bitstring BIT56 length(56) with { variant "FIELDLENGTH(56)" }; + + //**************************************************** + // Octetstrings + //**************************************************** + + //octetstring with fixed length + type octetstring OCT0n length(0) with { variant "" }; + type octetstring OCT1n length(1) with { variant "" }; + type octetstring OCT2n length(2) with { variant "" }; + type octetstring OCT3n length(3) with { variant "" }; + type octetstring OCT4n length(4) with { variant "" }; + type octetstring OCT5n length(5) with { variant "" }; + type octetstring OCT6n length(6) with { variant "" }; + type octetstring OCT7n length(7) with { variant "" }; + type octetstring OCT8n length(8) with { variant "" }; + type octetstring OCT9n length(9) with { variant "" }; + type octetstring OCT10n length(10) with { variant "" }; + type octetstring OCT11n length(11) with { variant "" }; + type octetstring OCT12n length(12) with { variant "" }; + type octetstring OCT13n length(13) with { variant "" }; + type octetstring OCT14n length(14) with { variant "" }; + type octetstring OCT15n length(15) with { variant "" }; + type octetstring OCT16n length(16) with { variant "" }; + type octetstring OCT17n length(17) with { variant "" }; + type octetstring OCT18n length(18) with { variant "" }; + type octetstring OCT19n length(19) with { variant "" }; + type octetstring OCT20n length(20) with { variant "" }; + type octetstring OCT28n length(28) with { variant "" }; + type octetstring OCT32n length(32) with { variant "" }; + type octetstring OCT34n length(34) with { variant "" }; + type octetstring OCT46n length(46) with { variant "" }; + type octetstring OCT50n length(50) with { variant "" }; + type octetstring OCT69n length(69) with { variant "" }; + type octetstring OCT100n length(100) with { variant "" }; + type octetstring OCT128n length(128) with { variant "" }; + type octetstring OCT500n length(500) with { variant "" }; + type octetstring OCTNn with { variant "" }; + + //octetstring with length interval + type octetstring OCT1_3n length(1..3) with { variant "" }; + type octetstring OCT1_4n length(1..4) with { variant "" }; + type octetstring OCT1_5n length(1..5) with { variant "" }; + type octetstring OCT1_6n length(1..6) with { variant "" }; + type octetstring OCT1_7n length(1..7) with { variant "" }; + type octetstring OCT1_8n length(1..8) with { variant "" }; + type octetstring OCT1_12n length(1..12) with { variant "" }; + type octetstring OCT1_15n length(1..15) with { variant "" }; + type octetstring OCT1_16n length(1..16) with { variant "" }; + type octetstring OCT1_18n length(1..18) with { variant "" }; + type octetstring OCT1_20n length(1..20) with { variant "" }; + type octetstring OCT1_24n length(1..24) with { variant "" }; + type octetstring OCT1_32n length(1..32) with { variant "" }; + type octetstring OCT1_34n length(1..34) with { variant "" }; + type octetstring OCT1_46n length(1..46) with { variant "" }; + type octetstring OCT1_50n length(1..50) with { variant "" }; + type octetstring OCT1_112n length(1..112) with { variant "" }; + type octetstring OCT1_127n length(1..127) with { variant "" }; + type octetstring OCT1_128n length(1..128) with { variant "" }; + type octetstring OCT1_172n length(1..172) with { variant "" }; + type octetstring OCT3_5n length(3..5) with { variant "" }; + type octetstring OCT3_7n length(3..7) with { variant "" }; + type octetstring OCT3_8n length(3..8) with { variant "" }; + type octetstring OCT3_14n length(3..14) with { variant "" }; + type octetstring OCT3_17n length(3..17) with { variant "" }; + type octetstring OCT4_8n length(4..8) with { variant "" }; + + + //**************************************************** + // Charstrings + //**************************************************** + + //charstring with fixed length + type charstring CHAR4 length (4); + + //**************************************************** + // Hexstrings + //**************************************************** + + //hexstring with fixed length + type hexstring HEX4n length(4) with { variant "" }; + type hexstring HEX6n length(6) with { variant "" }; + type hexstring HEX8n length(8) with { variant "" }; + type hexstring HEX15n length(15) with { variant "" }; + type hexstring HEX16n length(16) with { variant "" }; + type hexstring HEX24n length(24) with { variant "" }; + + //hexstring with length interval + type hexstring HEX0_3n length(0..3) with { variant "" }; + type hexstring HEX0_18n length(0..18) with { variant "" }; + type hexstring HEX1_20n length(1..20) with { variant "" }; + type hexstring HEX1_34n length(1..34) with { variant "" }; + + //**************************************************** + // Integers + //**************************************************** + + //integer with fixed bit number + type integer INT3nb (0..7) with { variant "" }; + type integer INT4nb (0..15) with { variant "" }; + type integer INT5nb (0..31) with { variant "" }; + type integer INT8nb (0..255) with { variant "" }; + + //integer with fixed bit number and with padding + type integer INT2nbp (0..3) with { variant "" }; + type integer INT1nbp (0..1) with { variant "" }; + type integer INT3nbp (0..7) with { variant "" }; + type integer INT5nbp (0..31) with { variant "" }; + type integer INT9nbp (0..511) with { variant "" }; + type integer INT13nbp (0..8191) with { variant "" }; + type integer INT15nbp (0..32767) with { variant "" }; + +} // end group NativeTypes + +//**************************************************** +//**************************************************** +// RAW Encoded Types +//**************************************************** +//**************************************************** + +group SimpleRAWEncodedTypes { + + //**************************************************** + // Bitstrings + //**************************************************** + + //bitstring with fixed length + type bitstring BIT6_BO_LAST length (6) with {variant "BYTEORDER(last)"}; + type bitstring BIT16_BO_LAST length (16) with {variant "BYTEORDER(last)"}; + type bitstring BIT32_BO_LAST length (32) with {variant "BYTEORDER(last)"}; + + //**************************************************** + // Octetstrings + //**************************************************** + //octetstring with fixed length + type octetstring Dummy length(0) with { variant "FIELDLENGTH(0)" }; + type octetstring OCT0 length(0) with { variant "FIELDLENGTH(0)" }; + type octetstring OCT1 length(1) with { variant "FIELDLENGTH(1)" }; + type octetstring OCT2 length(2) with { variant "FIELDLENGTH(2)" }; + type octetstring OCT3 length(3) with { variant "FIELDLENGTH(3)" }; + type octetstring OCT4 length(4) with { variant "FIELDLENGTH(4)" }; + type octetstring OCT5 length(5) with { variant "FIELDLENGTH(5)" }; + type octetstring OCT6 length(6) with { variant "FIELDLENGTH(6)" }; + type octetstring OCT7 length(7) with { variant "FIELDLENGTH(7)" }; + type octetstring OCT8 length(8) with { variant "FIELDLENGTH(8)" }; + type octetstring OCT9 length(9) with { variant "FIELDLENGTH(9)" }; + type octetstring OCT10 length(10) with { variant "FIELDLENGTH(10)" }; + type octetstring OCT11 length(11) with { variant "FIELDLENGTH(11)" }; + type octetstring OCT12 length(12) with { variant "FIELDLENGTH(12)" }; + type octetstring OCT13 length(13) with { variant "FIELDLENGTH(13)" }; + type octetstring OCT14 length(14) with { variant "FIELDLENGTH(14)" }; + type octetstring OCT15 length(15) with { variant "FIELDLENGTH(15)" }; + type octetstring OCT16 length(16) with { variant "FIELDLENGTH(16)" }; + type octetstring OCT17 length(17) with { variant "FIELDLENGTH(17)" }; + type octetstring OCT18 length(18) with { variant "FIELDLENGTH(18)" }; + type octetstring OCT19 length(19) with { variant "FIELDLENGTH(19)" }; + type octetstring OCT20 length(20) with { variant "FIELDLENGTH(20)" }; + type octetstring OCT22 length(22) with { variant "FIELDLENGTH(22)" }; + type octetstring OCT32 length(32) with { variant "FIELDLENGTH(32)" }; + type octetstring OCT34 length(34) with { variant "FIELDLENGTH(34)" }; + type octetstring OCT46 length(46) with { variant "FIELDLENGTH(46)" }; + + //octetstring with length interval + type octetstring OCT1_260 length(1..260) with { variant "" }; + type octetstring OCT1_8 length(1..8) with { variant "" }; + type octetstring OCT1_12 length(1..12) with { variant "" }; + type octetstring OCT1_32 length(1..32) with { variant "" }; + type octetstring OCT1_50 length(1..50) with { variant "" }; + type octetstring OCT3_8 length(3..8) with { variant "" }; + + type octetstring OCTN with { variant "" }; + + //**************************************************** + // Hexstrings + //**************************************************** + + //hexstring with fixed length + type hexstring HEX1 length(1) with {variant "FIELDLENGTH(1)"}; + + //hexstring with length interval + type hexstring HEX0_16 length(0..16) with { variant "" }; + type hexstring HEX5_16 length(5..16) with { variant "" }; + type hexstring HEX1_32 length(1..32) with { variant "" }; + + + //**************************************************** + // Integers + //**************************************************** + + //integer with fixed octet number + type integer INT1 (0..255) with { variant "FIELDLENGTH(8)" }; + type integer LIN1 (0..255) with { variant "FIELDLENGTH(8)" }; + type integer LIN2 (0..65535) with { variant "FIELDLENGTH(16)" }; + type integer LIN2_BO_LAST (0..65535) with { variant "FIELDLENGTH(16), COMP(nosign), BYTEORDER(last)" }; + type integer LIN3_BO_LAST (0..16777215) with { variant "FIELDLENGTH(24), COMP(nosign), BYTEORDER(last)" }; + type integer LIN4_BO_LAST (0..4294967295) with { variant "FIELDLENGTH(32), COMP(nosign), BYTEORDER(last)" }; + + //integer with fixed bit number + type integer INT1b (0..1) with { variant "FIELDLENGTH(1)" }; + type integer INT2b (0..3) with { variant "FIELDLENGTH(2)" }; + type integer INT3b (0..7) with { variant "FIELDLENGTH(3)" }; + type integer INT4b (0..15) with { variant "FIELDLENGTH(4)" }; + type integer INT5b (0..31) with { variant "FIELDLENGTH(5)" }; + type integer INT6b (0..63) with { variant "FIELDLENGTH(6)" }; + type integer INT7b (0..127) with { variant "FIELDLENGTH(7)" }; + type integer INT11b_BO_LAST ( 0 .. 2047 ) with { variant "FIELDLENGTH(11), COMP(nosign), BYTEORDER(last)" }; + type integer INT12b_BO_LAST ( 0 .. 4095 ) with { variant "FIELDLENGTH(12), COMP(nosign), BYTEORDER(last)" }; + type integer INT13b_BO_LAST ( 0 .. 8191 ) with { variant "FIELDLENGTH(13), COMP(nosign), BYTEORDER(last)" }; + type integer INT14b_BO_LAST ( 0 .. 16383 ) with { variant "FIELDLENGTH(14), COMP(nosign), BYTEORDER(last)" }; + type integer INT18b_BO_LAST ( 0 .. 262143 ) with { variant "FIELDLENGTH(18), COMP(nosign), BYTEORDER(last)" }; + type integer INT20b_BO_LAST ( 0 .. 1048575 ) with { variant "FIELDLENGTH(20), COMP(nosign), BYTEORDER(last)" }; + type integer INT31b_BO_LAST ( 0 .. 2147483647 ) with { variant "FIELDLENGTH(31), COMP(nosign), BYTEORDER(last)" }; + + //**************************************************** + // Structures + //**************************************************** + + //integer record + type record of integer Integers with { variant "" }; + type record of Integers Integer_array with { variant "" }; + +} // end group SimpleRAWEncodedTypes + +group ComponentTypes { + type component Dummy_comptype {} + type component Dummy_CT {} +} // end group ComponentTypes + +group CompositeTypes { + type enumerated Protocols + { mtp3, sccp, isup, bicc, qaal2, gcp, bssap, bssmap, ranap, dtap } + + type record of OCT1 OCT1List with { variant "" }; + type record of OCT2 OCT2List with { variant "" }; + type record of OCT3 OCT3List with { variant "" }; + type record of OCT4 OCT4List with { variant "" }; + type record of OCT5 OCT5List with { variant "" }; + type record of OCT6 OCT6List with { variant "" }; + type record of OCT7 OCT7List with { variant "" }; + + type record of Dummy_comptype ListOfDummy_comptype; + type record of Dummy_CT ListOfDummy_CT; + type record of Protocols ProtocolList with { variant "" }; +} // end group CompositeTypes + +} with { encode "RAW" } /* End of module General_Types */ + diff --git a/titan/MNCC_Types.cc b/titan/MNCC_Types.cc deleted file mode 100644 index 5433df5..0000000 --- a/titan/MNCC_Types.cc +++ /dev/null @@ -1,34155 +0,0 @@ -// This C++ source file was generated by the TTCN-3 compiler -// of the TTCN-3 Test Executor version CRL 113 200/6 R5A -// The generation of user and time information were disabled by the -D flag. - -// Copyright (c) 2000-2018 Ericsson Telecom AB - -// Do not edit this file unless you know what you are doing. - -/* Including header files */ - -#include "MNCC_Types.hh" - -namespace MNCC__Types { - -/* Prototypes of static functions */ - -static void pre_init_module(); -static void post_init_module(); - -/* Literal string constants */ - -static const OCTETSTRING os_0(0, NULL); -static const CHARSTRING cs_0(0, NULL); -static const unsigned char module_checksum[] = { 0x60, 0x7c, 0x6c, 0x42, 0xf2, 0x2c, 0x6e, 0x33, 0x86, 0x38, 0xfe, 0x94, 0x73, 0xe3, 0x52, 0x85 }; - -/* Global variable definitions */ - -const TTCN_RAWdescriptor_t int__raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t int__xer_ = { {"int>\n", "int>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t int__descr_ = { "@MNCC_Types.int", &INTEGER_ber_, &int__raw_, &INTEGER_text_, &int__xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING int__default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__bcap__ra_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__bcap__ra -const TTCN_Typedescriptor_t GSM48__bcap__ra_descr_ = { "@MNCC_Types.GSM48_bcap_ra", NULL, &GSM48__bcap__ra_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__bcap__ra_default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__bcap__sig__access_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__bcap__sig__access -const TTCN_Typedescriptor_t GSM48__bcap__sig__access_descr_ = { "@MNCC_Types.GSM48_bcap_sig_access", NULL, &GSM48__bcap__sig__access_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__bcap__sig__access_default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__bcap__user__rate_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__bcap__user__rate -const TTCN_Typedescriptor_t GSM48__bcap__user__rate_descr_ = { "@MNCC_Types.GSM48_bcap_user_rate", NULL, &GSM48__bcap__user__rate_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__bcap__user__rate_default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__bcap__parity_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__bcap__parity -const TTCN_Typedescriptor_t GSM48__bcap__parity_descr_ = { "@MNCC_Types.GSM48_bcap_parity", NULL, &GSM48__bcap__parity_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__bcap__parity_default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__bcap__interm__rate_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__bcap__interm__rate -const TTCN_Typedescriptor_t GSM48__bcap__interm__rate_descr_ = { "@MNCC_Types.GSM48_bcap_interm_rate", NULL, &GSM48__bcap__interm__rate_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__bcap__interm__rate_default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__bcap__transp_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__bcap__transp -const TTCN_Typedescriptor_t GSM48__bcap__transp_descr_ = { "@MNCC_Types.GSM48_bcap_transp", NULL, &GSM48__bcap__transp_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__bcap__transp_default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__bcap__modem__type_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__bcap__modem__type -const TTCN_Typedescriptor_t GSM48__bcap__modem__type_descr_ = { "@MNCC_Types.GSM48_bcap_modem_type", NULL, &GSM48__bcap__modem__type_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__bcap__modem__type_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__MsgType_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__MsgType -const TTCN_Typedescriptor_t MNCC__MsgType_descr_ = { "@MNCC_Types.MNCC_MsgType", NULL, &MNCC__MsgType_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__MsgType_default_coding("RAW"); -static INTEGER const_GSM__MAX__FACILITY; -const INTEGER& GSM__MAX__FACILITY = const_GSM__MAX__FACILITY; -static INTEGER const_GSM__MAX__SSVERSION; -const INTEGER& GSM__MAX__SSVERSION = const_GSM__MAX__SSVERSION; -static INTEGER const_GSM__MAX__USERUSER; -const INTEGER& GSM__MAX__USERUSER = const_GSM__MAX__USERUSER; -const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_rate__adaptation_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bearer__cap__data_rate__adaptation -const TTCN_Typedescriptor_t MNCC__bearer__cap__data_rate__adaptation_descr_ = { "@MNCC_Types.MNCC_bearer_cap_data.rate_adaptation", NULL, &MNCC__bearer__cap__data_rate__adaptation_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_rate__adaptation_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_sig__access_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bearer__cap__data_sig__access -const TTCN_Typedescriptor_t MNCC__bearer__cap__data_sig__access_descr_ = { "@MNCC_Types.MNCC_bearer_cap_data.sig_access", NULL, &MNCC__bearer__cap__data_sig__access_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_sig__access_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_async_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__bearer__cap__data_async_xer_ = { {"async>\n", "async>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__bearer__cap__data_async_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__bearer__cap__data_async_descr_ = { "@MNCC_Types.MNCC_bearer_cap_data.async", &INTEGER_ber_, &MNCC__bearer__cap__data_async_raw_, &INTEGER_text_, &MNCC__bearer__cap__data_async_xer_, &INTEGER_json_, &MNCC__bearer__cap__data_async_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_async_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_nr__stop__bits_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__bearer__cap__data_nr__stop__bits_xer_ = { {"nr_stop_bits>\n", "nr_stop_bits>\n"}, {14, 14}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__bearer__cap__data_nr__stop__bits_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__bearer__cap__data_nr__stop__bits_descr_ = { "@MNCC_Types.MNCC_bearer_cap_data.nr_stop_bits", &INTEGER_ber_, &MNCC__bearer__cap__data_nr__stop__bits_raw_, &INTEGER_text_, &MNCC__bearer__cap__data_nr__stop__bits_xer_, &INTEGER_json_, &MNCC__bearer__cap__data_nr__stop__bits_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_nr__stop__bits_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_nr__data__bits_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__bearer__cap__data_nr__data__bits_xer_ = { {"nr_data_bits>\n", "nr_data_bits>\n"}, {14, 14}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__bearer__cap__data_nr__data__bits_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__bearer__cap__data_nr__data__bits_descr_ = { "@MNCC_Types.MNCC_bearer_cap_data.nr_data_bits", &INTEGER_ber_, &MNCC__bearer__cap__data_nr__data__bits_raw_, &INTEGER_text_, &MNCC__bearer__cap__data_nr__data__bits_xer_, &INTEGER_json_, &MNCC__bearer__cap__data_nr__data__bits_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_nr__data__bits_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_user__rate_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bearer__cap__data_user__rate -const TTCN_Typedescriptor_t MNCC__bearer__cap__data_user__rate_descr_ = { "@MNCC_Types.MNCC_bearer_cap_data.user_rate", NULL, &MNCC__bearer__cap__data_user__rate_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_user__rate_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_parity_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bearer__cap__data_parity -const TTCN_Typedescriptor_t MNCC__bearer__cap__data_parity_descr_ = { "@MNCC_Types.MNCC_bearer_cap_data.parity", NULL, &MNCC__bearer__cap__data_parity_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_parity_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_interm__rate_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bearer__cap__data_interm__rate -const TTCN_Typedescriptor_t MNCC__bearer__cap__data_interm__rate_descr_ = { "@MNCC_Types.MNCC_bearer_cap_data.interm_rate", NULL, &MNCC__bearer__cap__data_interm__rate_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_interm__rate_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_transp_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bearer__cap__data_transp -const TTCN_Typedescriptor_t MNCC__bearer__cap__data_transp_descr_ = { "@MNCC_Types.MNCC_bearer_cap_data.transp", NULL, &MNCC__bearer__cap__data_transp_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_transp_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_modem__type_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bearer__cap__data_modem__type -const TTCN_Typedescriptor_t MNCC__bearer__cap__data_modem__type_descr_ = { "@MNCC_Types.MNCC_bearer_cap_data.modem_type", NULL, &MNCC__bearer__cap__data_modem__type_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_modem__type_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bearer__cap__data -const TTCN_Typedescriptor_t MNCC__bearer__cap__data_descr_ = { "@MNCC_Types.MNCC_bearer_cap_data", NULL, &MNCC__bearer__cap__data_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__speech__vers_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__speech__vers -const TTCN_Typedescriptor_t MNCC__speech__vers_descr_ = { "@MNCC_Types.MNCC_speech_vers", NULL, &MNCC__speech__vers_raw_, NULL, NULL, NULL, NULL, &MNCC__speech__vers_0_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t MNCC__speech__vers_0_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__speech__vers_0_xer_ = { {"int>\n", "int>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__speech__vers_0_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__speech__vers_0_descr_ = { "@MNCC_Types.MNCC_speech_vers.", &INTEGER_ber_, &MNCC__speech__vers_0_raw_, &INTEGER_text_, &MNCC__speech__vers_0_xer_, &INTEGER_json_, &MNCC__speech__vers_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__speech__vers_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING MNCC__speech__vers_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap_transfer_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__bearer__cap_transfer_xer_ = { {"transfer>\n", "transfer>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__bearer__cap_transfer_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__bearer__cap_transfer_descr_ = { "@MNCC_Types.MNCC_bearer_cap.transfer", &INTEGER_ber_, &MNCC__bearer__cap_transfer_raw_, &INTEGER_text_, &MNCC__bearer__cap_transfer_xer_, &INTEGER_json_, &MNCC__bearer__cap_transfer_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap_transfer_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap_mode_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__bearer__cap_mode_xer_ = { {"mode>\n", "mode>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__bearer__cap_mode_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__bearer__cap_mode_descr_ = { "@MNCC_Types.MNCC_bearer_cap.mode", &INTEGER_ber_, &MNCC__bearer__cap_mode_raw_, &INTEGER_text_, &MNCC__bearer__cap_mode_xer_, &INTEGER_json_, &MNCC__bearer__cap_mode_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap_mode_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap_coding_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__bearer__cap_coding_xer_ = { {"coding>\n", "coding>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__bearer__cap_coding_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__bearer__cap_coding_descr_ = { "@MNCC_Types.MNCC_bearer_cap.coding", &INTEGER_ber_, &MNCC__bearer__cap_coding_raw_, &INTEGER_text_, &MNCC__bearer__cap_coding_xer_, &INTEGER_json_, &MNCC__bearer__cap_coding_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap_coding_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap_radio_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__bearer__cap_radio_xer_ = { {"radio>\n", "radio>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__bearer__cap_radio_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__bearer__cap_radio_descr_ = { "@MNCC_Types.MNCC_bearer_cap.radio", &INTEGER_ber_, &MNCC__bearer__cap_radio_raw_, &INTEGER_text_, &MNCC__bearer__cap_radio_xer_, &INTEGER_json_, &MNCC__bearer__cap_radio_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap_radio_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap_speech__ctm_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__bearer__cap_speech__ctm_xer_ = { {"speech_ctm>\n", "speech_ctm>\n"}, {12, 12}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__bearer__cap_speech__ctm_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__bearer__cap_speech__ctm_descr_ = { "@MNCC_Types.MNCC_bearer_cap.speech_ctm", &INTEGER_ber_, &MNCC__bearer__cap_speech__ctm_raw_, &INTEGER_text_, &MNCC__bearer__cap_speech__ctm_xer_, &INTEGER_json_, &MNCC__bearer__cap_speech__ctm_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap_speech__ctm_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap_speech__ver_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bearer__cap_speech__ver -const TTCN_Typedescriptor_t MNCC__bearer__cap_speech__ver_descr_ = { "@MNCC_Types.MNCC_bearer_cap.speech_ver", NULL, &MNCC__bearer__cap_speech__ver_raw_, NULL, NULL, NULL, NULL, &MNCC__speech__vers_0_descr_, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap_speech__ver_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bearer__cap_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bearer__cap -const TTCN_Typedescriptor_t MNCC__bearer__cap_descr_ = { "@MNCC_Types.MNCC_bearer_cap", NULL, &MNCC__bearer__cap_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t MNCC__bearer__cap_data_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bearer__cap_data -const TTCN_Typedescriptor_t MNCC__bearer__cap_data_descr_ = { "@MNCC_Types.MNCC_bearer_cap.data", NULL, &MNCC__bearer__cap_data_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bearer__cap_data_default_coding("RAW"); -UNIVERSAL_CHARSTRING MNCC__bearer__cap_default_coding("RAW"); -static MNCC__bearer__cap_template template_ts__MNCC__bcap__voice; -const MNCC__bearer__cap_template& ts__MNCC__bcap__voice = template_ts__MNCC__bcap__voice; -const TTCN_RAWdescriptor_t GSM48__type__of__number_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__type__of__number -const TTCN_Typedescriptor_t GSM48__type__of__number_descr_ = { "@MNCC_Types.GSM48_type_of_number", NULL, &GSM48__type__of__number_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__type__of__number_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__number_number__type_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__number_number__type -const TTCN_Typedescriptor_t MNCC__number_number__type_descr_ = { "@MNCC_Types.MNCC_number.number_type", NULL, &MNCC__number_number__type_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__number_number__type_default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__num__plan__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__num__plan__ind -const TTCN_Typedescriptor_t GSM48__num__plan__ind_descr_ = { "@MNCC_Types.GSM48_num_plan_ind", NULL, &GSM48__num__plan__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__num__plan__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__number_plan_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__number_plan -const TTCN_Typedescriptor_t MNCC__number_plan_descr_ = { "@MNCC_Types.MNCC_number.plan", NULL, &MNCC__number_plan_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__number_plan_default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__present__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__present__ind -const TTCN_Typedescriptor_t GSM48__present__ind_descr_ = { "@MNCC_Types.GSM48_present_ind", NULL, &GSM48__present__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__present__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__number_presence_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__number_presence -const TTCN_Typedescriptor_t MNCC__number_presence_descr_ = { "@MNCC_Types.MNCC_number.presence", NULL, &MNCC__number_presence_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__number_presence_default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__screening__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__screening__ind -const TTCN_Typedescriptor_t GSM48__screening__ind_descr_ = { "@MNCC_Types.GSM48_screening_ind", NULL, &GSM48__screening__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__screening__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__number_screen_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__number_screen -const TTCN_Typedescriptor_t MNCC__number_screen_descr_ = { "@MNCC_Types.MNCC_number.screen", NULL, &MNCC__number_screen_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__number_screen_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__number_number_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__number_number_xer_ = { {"number>\n", "number>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t MNCC__number_number_descr_ = { "@MNCC_Types.MNCC_number.number", NULL, &MNCC__number_number_raw_, &CHARSTRING_text_, &MNCC__number_number_xer_, &CHARSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__number_number_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__number_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__number -const TTCN_Typedescriptor_t MNCC__number_descr_ = { "@MNCC_Types.MNCC_number", NULL, &MNCC__number_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__number_default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__cause__coding_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__cause__coding -const TTCN_Typedescriptor_t GSM48__cause__coding_descr_ = { "@MNCC_Types.GSM48_cause_coding", NULL, &GSM48__cause__coding_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__cause__coding_default_coding("RAW"); -const TTCN_RAWdescriptor_t GSM48__cause__loc_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for GSM48__cause__loc -const TTCN_Typedescriptor_t GSM48__cause__loc_descr_ = { "@MNCC_Types.GSM48_cause_loc", NULL, &GSM48__cause__loc_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING GSM48__cause__loc_default_coding("RAW"); -static GSM48__type__of__number const_ts__MNCC__number_ton_defval; -const GSM48__type__of__number& ts__MNCC__number_ton_defval = const_ts__MNCC__number_ton_defval; -static GSM48__num__plan__ind const_ts__MNCC__number_npi_defval; -const GSM48__num__plan__ind& ts__MNCC__number_npi_defval = const_ts__MNCC__number_npi_defval; -static GSM48__present__ind const_ts__MNCC__number_pres_defval; -const GSM48__present__ind& ts__MNCC__number_pres_defval = const_ts__MNCC__number_pres_defval; -static GSM48__screening__ind const_ts__MNCC__number_screen_defval; -const GSM48__screening__ind& ts__MNCC__number_screen_defval = const_ts__MNCC__number_screen_defval; -static GSM48__type__of__number_template template_tr__MNCC__number_ton_defval; -const GSM48__type__of__number_template& tr__MNCC__number_ton_defval = template_tr__MNCC__number_ton_defval; -static GSM48__num__plan__ind_template template_tr__MNCC__number_npi_defval; -const GSM48__num__plan__ind_template& tr__MNCC__number_npi_defval = template_tr__MNCC__number_npi_defval; -static GSM48__present__ind_template template_tr__MNCC__number_pres_defval; -const GSM48__present__ind_template& tr__MNCC__number_pres_defval = template_tr__MNCC__number_pres_defval; -static GSM48__screening__ind_template template_tr__MNCC__number_screen_defval; -const GSM48__screening__ind_template& tr__MNCC__number_screen_defval = template_tr__MNCC__number_screen_defval; -const TTCN_RAWdescriptor_t MNCC__cause_location_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__cause_location -const TTCN_Typedescriptor_t MNCC__cause_location_descr_ = { "@MNCC_Types.MNCC_cause.location", NULL, &MNCC__cause_location_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__cause_location_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__cause_coding_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__cause_coding -const TTCN_Typedescriptor_t MNCC__cause_coding_descr_ = { "@MNCC_Types.MNCC_cause.coding", NULL, &MNCC__cause_coding_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__cause_coding_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__cause_rec_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__cause_rec_xer_ = { {"rec>\n", "rec>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__cause_rec_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__cause_rec_descr_ = { "@MNCC_Types.MNCC_cause.rec", &INTEGER_ber_, &MNCC__cause_rec_raw_, &INTEGER_text_, &MNCC__cause_rec_xer_, &INTEGER_json_, &MNCC__cause_rec_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__cause_rec_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__cause_rec__val_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__cause_rec__val_xer_ = { {"rec_val>\n", "rec_val>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__cause_rec__val_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__cause_rec__val_descr_ = { "@MNCC_Types.MNCC_cause.rec_val", &INTEGER_ber_, &MNCC__cause_rec__val_raw_, &INTEGER_text_, &MNCC__cause_rec__val_xer_, &INTEGER_json_, &MNCC__cause_rec__val_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__cause_rec__val_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__cause_val_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__cause_val_xer_ = { {"val>\n", "val>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__cause_val_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__cause_val_descr_ = { "@MNCC_Types.MNCC_cause.val", &INTEGER_ber_, &MNCC__cause_val_raw_, &INTEGER_text_, &MNCC__cause_val_xer_, &INTEGER_json_, &MNCC__cause_val_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__cause_val_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__cause_diag_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__cause_diag_xer_ = { {"diag>\n", "diag>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int MNCC__cause_diag_oer_ext_arr_[0] = {}; -const int MNCC__cause_diag_oer_p_[0] = {}; -const TTCN_OERdescriptor_t MNCC__cause_diag_oer_ = { -1, TRUE, -1, FALSE, 0, 0, MNCC__cause_diag_oer_ext_arr_, 0, MNCC__cause_diag_oer_p_}; -const TTCN_Typedescriptor_t MNCC__cause_diag_descr_ = { "@MNCC_Types.MNCC_cause.diag", &OCTETSTRING_ber_, &MNCC__cause_diag_raw_, &OCTETSTRING_text_, &MNCC__cause_diag_xer_, &OCTETSTRING_json_, &MNCC__cause_diag_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__cause_diag_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__cause_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__cause -const TTCN_Typedescriptor_t MNCC__cause_descr_ = { "@MNCC_Types.MNCC_cause", NULL, &MNCC__cause_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__cause_default_coding("RAW"); -static GSM48__cause__loc const_ts__MNCC__cause_loc_defval; -const GSM48__cause__loc& ts__MNCC__cause_loc_defval = const_ts__MNCC__cause_loc_defval; -static GSM48__cause__coding const_ts__MNCC__cause_coding_defval; -const GSM48__cause__coding& ts__MNCC__cause_coding_defval = const_ts__MNCC__cause_coding_defval; -static OCTETSTRING const_ts__MNCC__cause_diag_defval; -const OCTETSTRING& ts__MNCC__cause_diag_defval = const_ts__MNCC__cause_diag_defval; -const TTCN_RAWdescriptor_t MNCC__useruser_proto_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__useruser_proto_xer_ = { {"proto>\n", "proto>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__useruser_proto_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__useruser_proto_descr_ = { "@MNCC_Types.MNCC_useruser.proto", &INTEGER_ber_, &MNCC__useruser_proto_raw_, &INTEGER_text_, &MNCC__useruser_proto_xer_, &INTEGER_json_, &MNCC__useruser_proto_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__useruser_proto_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__useruser_info_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__useruser_info_xer_ = { {"info>\n", "info>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t MNCC__useruser_info_descr_ = { "@MNCC_Types.MNCC_useruser.info", NULL, &MNCC__useruser_info_raw_, &CHARSTRING_text_, &MNCC__useruser_info_xer_, &CHARSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__useruser_info_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__useruser_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__useruser -const TTCN_Typedescriptor_t MNCC__useruser_descr_ = { "@MNCC_Types.MNCC_useruser", NULL, &MNCC__useruser_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__useruser_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__progress_coding_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__progress_coding_xer_ = { {"coding>\n", "coding>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__progress_coding_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__progress_coding_descr_ = { "@MNCC_Types.MNCC_progress.coding", &INTEGER_ber_, &MNCC__progress_coding_raw_, &INTEGER_text_, &MNCC__progress_coding_xer_, &INTEGER_json_, &MNCC__progress_coding_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__progress_coding_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__progress_location_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__progress_location_xer_ = { {"location>\n", "location>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__progress_location_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__progress_location_descr_ = { "@MNCC_Types.MNCC_progress.location", &INTEGER_ber_, &MNCC__progress_location_raw_, &INTEGER_text_, &MNCC__progress_location_xer_, &INTEGER_json_, &MNCC__progress_location_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__progress_location_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__progress_descr_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__progress_descr_xer_ = { {"descr>\n", "descr>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__progress_descr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__progress_descr_descr_ = { "@MNCC_Types.MNCC_progress.descr", &INTEGER_ber_, &MNCC__progress_descr_raw_, &INTEGER_text_, &MNCC__progress_descr_xer_, &INTEGER_json_, &MNCC__progress_descr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__progress_descr_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__progress_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__progress -const TTCN_Typedescriptor_t MNCC__progress_descr_ = { "@MNCC_Types.MNCC_progress", NULL, &MNCC__progress_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__progress_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__cccap_dtmf_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__cccap_dtmf_xer_ = { {"dtmf>\n", "dtmf>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__cccap_dtmf_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__cccap_dtmf_descr_ = { "@MNCC_Types.MNCC_cccap.dtmf", &INTEGER_ber_, &MNCC__cccap_dtmf_raw_, &INTEGER_text_, &MNCC__cccap_dtmf_xer_, &INTEGER_json_, &MNCC__cccap_dtmf_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__cccap_dtmf_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__cccap_pcp_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__cccap_pcp_xer_ = { {"pcp>\n", "pcp>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__cccap_pcp_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__cccap_pcp_descr_ = { "@MNCC_Types.MNCC_cccap.pcp", &INTEGER_ber_, &MNCC__cccap_pcp_raw_, &INTEGER_text_, &MNCC__cccap_pcp_xer_, &INTEGER_json_, &MNCC__cccap_pcp_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__cccap_pcp_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__cccap_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__cccap -const TTCN_Typedescriptor_t MNCC__cccap_descr_ = { "@MNCC_Types.MNCC_cccap", NULL, &MNCC__cccap_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__cccap_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__notify_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__notify_xer_ = { {"MNCC_notify>\n", "MNCC_notify>\n"}, {13, 13}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__notify_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__notify_descr_ = { "@MNCC_Types.MNCC_notify", &INTEGER_ber_, &MNCC__notify_raw_, &INTEGER_text_, &MNCC__notify_xer_, &INTEGER_json_, &MNCC__notify_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__notify_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__keypad_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__keypad_xer_ = { {"MNCC_keypad>\n", "MNCC_keypad>\n"}, {13, 13}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t MNCC__keypad_descr_ = { "@MNCC_Types.MNCC_keypad", NULL, &MNCC__keypad_raw_, &CHARSTRING_text_, &MNCC__keypad_xer_, &CHARSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__keypad_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__bcap_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__bcap -const TTCN_Typedescriptor_t MNCC__bcap_descr_ = { "@MNCC_Types.MNCC_bcap", NULL, &MNCC__bcap_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__bcap_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_callref_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_callref_xer_ = { {"callref>\n", "callref>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Signal_callref_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_callref_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.callref", &INTEGER_ber_, &MNCC__PDU__Signal_callref_raw_, &INTEGER_text_, &MNCC__PDU__Signal_callref_xer_, &INTEGER_json_, &MNCC__PDU__Signal_callref_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_callref_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_clir__sup_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_clir__sup_xer_ = { {"clir_sup>\n", "clir_sup>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Signal_clir__sup_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_clir__sup_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.clir_sup", &INTEGER_ber_, &MNCC__PDU__Signal_clir__sup_raw_, &INTEGER_text_, &MNCC__PDU__Signal_clir__sup_xer_, &INTEGER_json_, &MNCC__PDU__Signal_clir__sup_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_clir__sup_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_clir__inv_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_clir__inv_xer_ = { {"clir_inv>\n", "clir_inv>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Signal_clir__inv_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_clir__inv_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.clir_inv", &INTEGER_ber_, &MNCC__PDU__Signal_clir__inv_raw_, &INTEGER_text_, &MNCC__PDU__Signal_clir__inv_xer_, &INTEGER_json_, &MNCC__PDU__Signal_clir__inv_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_clir__inv_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_more_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_more_xer_ = { {"more>\n", "more>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Signal_more_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_more_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.more", &INTEGER_ber_, &MNCC__PDU__Signal_more_raw_, &INTEGER_text_, &MNCC__PDU__Signal_more_xer_, &INTEGER_json_, &MNCC__PDU__Signal_more_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_more_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_notify_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_notify_xer_ = { {"notify>\n", "notify>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Signal_notify_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_notify_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.notify", &INTEGER_ber_, &MNCC__PDU__Signal_notify_raw_, &INTEGER_text_, &MNCC__PDU__Signal_notify_xer_, &INTEGER_json_, &MNCC__PDU__Signal_notify_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_notify_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_imsi_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_imsi_xer_ = { {"imsi>\n", "imsi>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_imsi_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.imsi", NULL, &MNCC__PDU__Signal_imsi_raw_, &CHARSTRING_text_, &MNCC__PDU__Signal_imsi_xer_, &CHARSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_imsi_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_lchan__type_raw_ = {8,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_lchan__type_xer_ = { {"lchan_type>\n", "lchan_type>\n"}, {12, 12}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Signal_lchan__type_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_lchan__type_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.lchan_type", &INTEGER_ber_, &MNCC__PDU__Signal_lchan__type_raw_, &INTEGER_text_, &MNCC__PDU__Signal_lchan__type_xer_, &INTEGER_json_, &MNCC__PDU__Signal_lchan__type_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_lchan__type_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_lchan__mode_raw_ = {8,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_lchan__mode_xer_ = { {"lchan_mode>\n", "lchan_mode>\n"}, {12, 12}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Signal_lchan__mode_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_lchan__mode_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.lchan_mode", &INTEGER_ber_, &MNCC__PDU__Signal_lchan__mode_raw_, &INTEGER_text_, &MNCC__PDU__Signal_lchan__mode_xer_, &INTEGER_json_, &MNCC__PDU__Signal_lchan__mode_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_lchan__mode_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Signal -const TTCN_Typedescriptor_t MNCC__PDU__Signal_descr_ = { "@MNCC_Types.MNCC_PDU_Signal", NULL, &MNCC__PDU__Signal_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_bearer__cap_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Signal_bearer__cap -const TTCN_Typedescriptor_t MNCC__PDU__Signal_bearer__cap_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.bearer_cap", NULL, &MNCC__PDU__Signal_bearer__cap_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_bearer__cap_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_called_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Signal_called -const TTCN_Typedescriptor_t MNCC__PDU__Signal_called_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.called", NULL, &MNCC__PDU__Signal_called_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_called_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_calling_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Signal_calling -const TTCN_Typedescriptor_t MNCC__PDU__Signal_calling_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.calling", NULL, &MNCC__PDU__Signal_calling_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_calling_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_redirecting_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Signal_redirecting -const TTCN_Typedescriptor_t MNCC__PDU__Signal_redirecting_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.redirecting", NULL, &MNCC__PDU__Signal_redirecting_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_redirecting_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_connected_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Signal_connected -const TTCN_Typedescriptor_t MNCC__PDU__Signal_connected_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.connected", NULL, &MNCC__PDU__Signal_connected_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_connected_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_cause_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Signal_cause -const TTCN_Typedescriptor_t MNCC__PDU__Signal_cause_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.cause", NULL, &MNCC__PDU__Signal_cause_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_cause_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_progress_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Signal_progress -const TTCN_Typedescriptor_t MNCC__PDU__Signal_progress_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.progress", NULL, &MNCC__PDU__Signal_progress_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_progress_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_useruser_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Signal_useruser -const TTCN_Typedescriptor_t MNCC__PDU__Signal_useruser_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.useruser", NULL, &MNCC__PDU__Signal_useruser_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_useruser_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_facility_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_facility_xer_ = { {"facility>\n", "facility>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED |XER_OPTIONAL, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_facility_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.facility", NULL, &MNCC__PDU__Signal_facility_raw_, &CHARSTRING_text_, &MNCC__PDU__Signal_facility_xer_, &CHARSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_facility_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_cccap_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Signal_cccap -const TTCN_Typedescriptor_t MNCC__PDU__Signal_cccap_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.cccap", NULL, &MNCC__PDU__Signal_cccap_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_cccap_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_ssversion_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_ssversion_xer_ = { {"ssversion>\n", "ssversion>\n"}, {11, 11}, 0 |FORM_UNQUALIFIED |XER_OPTIONAL, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_ssversion_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.ssversion", NULL, &MNCC__PDU__Signal_ssversion_raw_, &CHARSTRING_text_, &MNCC__PDU__Signal_ssversion_xer_, &CHARSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_ssversion_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_signal_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_signal_xer_ = { {"signal>\n", "signal>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED |XER_OPTIONAL, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Signal_signal_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_signal_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.signal", &INTEGER_ber_, &MNCC__PDU__Signal_signal_raw_, &INTEGER_text_, &MNCC__PDU__Signal_signal_xer_, &INTEGER_json_, &MNCC__PDU__Signal_signal_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_signal_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_keypad_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_keypad_xer_ = { {"keypad>\n", "keypad>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED |XER_OPTIONAL, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_keypad_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.keypad", NULL, &MNCC__PDU__Signal_keypad_raw_, &CHARSTRING_text_, &MNCC__PDU__Signal_keypad_xer_, &CHARSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_keypad_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Signal_emergency_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Signal_emergency_xer_ = { {"emergency>\n", "emergency>\n"}, {11, 11}, 0 |FORM_UNQUALIFIED |XER_OPTIONAL, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Signal_emergency_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Signal_emergency_descr_ = { "@MNCC_Types.MNCC_PDU_Signal.emergency", &INTEGER_ber_, &MNCC__PDU__Signal_emergency_raw_, &INTEGER_text_, &MNCC__PDU__Signal_emergency_xer_, &INTEGER_json_, &MNCC__PDU__Signal_emergency_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_emergency_default_coding("RAW"); -UNIVERSAL_CHARSTRING MNCC__PDU__Signal_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Data_callref_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Data_callref_xer_ = { {"callref>\n", "callref>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Data_callref_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Data_callref_descr_ = { "@MNCC_Types.MNCC_PDU_Data.callref", &INTEGER_ber_, &MNCC__PDU__Data_callref_raw_, &INTEGER_text_, &MNCC__PDU__Data_callref_xer_, &INTEGER_json_, &MNCC__PDU__Data_callref_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Data_callref_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Data_data_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Data_data_xer_ = { {"data>\n", "data>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int MNCC__PDU__Data_data_oer_ext_arr_[0] = {}; -const int MNCC__PDU__Data_data_oer_p_[0] = {}; -const TTCN_OERdescriptor_t MNCC__PDU__Data_data_oer_ = { -1, TRUE, -1, FALSE, 0, 0, MNCC__PDU__Data_data_oer_ext_arr_, 0, MNCC__PDU__Data_data_oer_p_}; -const TTCN_Typedescriptor_t MNCC__PDU__Data_data_descr_ = { "@MNCC_Types.MNCC_PDU_Data.data", &OCTETSTRING_ber_, &MNCC__PDU__Data_data_raw_, &OCTETSTRING_text_, &MNCC__PDU__Data_data_xer_, &OCTETSTRING_json_, &MNCC__PDU__Data_data_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Data_data_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Data_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Data -const TTCN_Typedescriptor_t MNCC__PDU__Data_descr_ = { "@MNCC_Types.MNCC_PDU_Data", NULL, &MNCC__PDU__Data_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Data_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_callref_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Rtp_callref_xer_ = { {"callref>\n", "callref>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Rtp_callref_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Rtp_callref_descr_ = { "@MNCC_Types.MNCC_PDU_Rtp.callref", &INTEGER_ber_, &MNCC__PDU__Rtp_callref_raw_, &INTEGER_text_, &MNCC__PDU__Rtp_callref_xer_, &INTEGER_json_, &MNCC__PDU__Rtp_callref_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_callref_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_ip_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Rtp_ip_xer_ = { {"ip>\n", "ip>\n"}, {4, 4}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Rtp_ip_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Rtp_ip_descr_ = { "@MNCC_Types.MNCC_PDU_Rtp.ip", &INTEGER_ber_, &MNCC__PDU__Rtp_ip_raw_, &INTEGER_text_, &MNCC__PDU__Rtp_ip_xer_, &INTEGER_json_, &MNCC__PDU__Rtp_ip_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_ip_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_rtp__port_raw_ = {16,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Rtp_rtp__port_xer_ = { {"rtp_port>\n", "rtp_port>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Rtp_rtp__port_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Rtp_rtp__port_descr_ = { "@MNCC_Types.MNCC_PDU_Rtp.rtp_port", &INTEGER_ber_, &MNCC__PDU__Rtp_rtp__port_raw_, &INTEGER_text_, &MNCC__PDU__Rtp_rtp__port_xer_, &INTEGER_json_, &MNCC__PDU__Rtp_rtp__port_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_rtp__port_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_payload__type_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Rtp_payload__type_xer_ = { {"payload_type>\n", "payload_type>\n"}, {14, 14}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Rtp_payload__type_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Rtp_payload__type_descr_ = { "@MNCC_Types.MNCC_PDU_Rtp.payload_type", &INTEGER_ber_, &MNCC__PDU__Rtp_payload__type_raw_, &INTEGER_text_, &MNCC__PDU__Rtp_payload__type_xer_, &INTEGER_json_, &MNCC__PDU__Rtp_payload__type_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_payload__type_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_payload__msg__type_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Rtp_payload__msg__type_xer_ = { {"payload_msg_type>\n", "payload_msg_type>\n"}, {18, 18}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Rtp_payload__msg__type_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Rtp_payload__msg__type_descr_ = { "@MNCC_Types.MNCC_PDU_Rtp.payload_msg_type", &INTEGER_ber_, &MNCC__PDU__Rtp_payload__msg__type_raw_, &INTEGER_text_, &MNCC__PDU__Rtp_payload__msg__type_xer_, &INTEGER_json_, &MNCC__PDU__Rtp_payload__msg__type_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_payload__msg__type_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Rtp -const TTCN_Typedescriptor_t MNCC__PDU__Rtp_descr_ = { "@MNCC_Types.MNCC_PDU_Rtp", NULL, &MNCC__PDU__Rtp_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Hello_version_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Hello_version_xer_ = { {"version>\n", "version>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Hello_version_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Hello_version_descr_ = { "@MNCC_Types.MNCC_PDU_Hello.version", &INTEGER_ber_, &MNCC__PDU__Hello_version_raw_, &INTEGER_text_, &MNCC__PDU__Hello_version_xer_, &INTEGER_json_, &MNCC__PDU__Hello_version_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Hello_version_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Hello_mncc__size_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Hello_mncc__size_xer_ = { {"mncc_size>\n", "mncc_size>\n"}, {11, 11}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Hello_mncc__size_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Hello_mncc__size_descr_ = { "@MNCC_Types.MNCC_PDU_Hello.mncc_size", &INTEGER_ber_, &MNCC__PDU__Hello_mncc__size_raw_, &INTEGER_text_, &MNCC__PDU__Hello_mncc__size_xer_, &INTEGER_json_, &MNCC__PDU__Hello_mncc__size_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Hello_mncc__size_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Hello_data__frame__size_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Hello_data__frame__size_xer_ = { {"data_frame_size>\n", "data_frame_size>\n"}, {17, 17}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Hello_data__frame__size_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Hello_data__frame__size_descr_ = { "@MNCC_Types.MNCC_PDU_Hello.data_frame_size", &INTEGER_ber_, &MNCC__PDU__Hello_data__frame__size_raw_, &INTEGER_text_, &MNCC__PDU__Hello_data__frame__size_xer_, &INTEGER_json_, &MNCC__PDU__Hello_data__frame__size_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Hello_data__frame__size_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Hello_called__offset_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Hello_called__offset_xer_ = { {"called_offset>\n", "called_offset>\n"}, {15, 15}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Hello_called__offset_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Hello_called__offset_descr_ = { "@MNCC_Types.MNCC_PDU_Hello.called_offset", &INTEGER_ber_, &MNCC__PDU__Hello_called__offset_raw_, &INTEGER_text_, &MNCC__PDU__Hello_called__offset_xer_, &INTEGER_json_, &MNCC__PDU__Hello_called__offset_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Hello_called__offset_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Hello_signal__offset_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Hello_signal__offset_xer_ = { {"signal_offset>\n", "signal_offset>\n"}, {15, 15}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Hello_signal__offset_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Hello_signal__offset_descr_ = { "@MNCC_Types.MNCC_PDU_Hello.signal_offset", &INTEGER_ber_, &MNCC__PDU__Hello_signal__offset_raw_, &INTEGER_text_, &MNCC__PDU__Hello_signal__offset_xer_, &INTEGER_json_, &MNCC__PDU__Hello_signal__offset_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Hello_signal__offset_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Hello_emergency__offset_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Hello_emergency__offset_xer_ = { {"emergency_offset>\n", "emergency_offset>\n"}, {18, 18}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Hello_emergency__offset_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Hello_emergency__offset_descr_ = { "@MNCC_Types.MNCC_PDU_Hello.emergency_offset", &INTEGER_ber_, &MNCC__PDU__Hello_emergency__offset_raw_, &INTEGER_text_, &MNCC__PDU__Hello_emergency__offset_xer_, &INTEGER_json_, &MNCC__PDU__Hello_emergency__offset_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Hello_emergency__offset_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Hello_lchan__type__offset_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t MNCC__PDU__Hello_lchan__type__offset_xer_ = { {"lchan_type_offset>\n", "lchan_type_offset>\n"}, {19, 19}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t MNCC__PDU__Hello_lchan__type__offset_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t MNCC__PDU__Hello_lchan__type__offset_descr_ = { "@MNCC_Types.MNCC_PDU_Hello.lchan_type_offset", &INTEGER_ber_, &MNCC__PDU__Hello_lchan__type__offset_raw_, &INTEGER_text_, &MNCC__PDU__Hello_lchan__type__offset_xer_, &INTEGER_json_, &MNCC__PDU__Hello_lchan__type__offset_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Hello_lchan__type__offset_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU__Hello_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU__Hello -const TTCN_Typedescriptor_t MNCC__PDU__Hello_descr_ = { "@MNCC_Types.MNCC_PDU_Hello", NULL, &MNCC__PDU__Hello_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU__Hello_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__MsgUnion_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__MsgUnion -const TTCN_Typedescriptor_t MNCC__MsgUnion_descr_ = { "@MNCC_Types.MNCC_MsgUnion", NULL, &MNCC__MsgUnion_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t MNCC__MsgUnion_signal_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__MsgUnion_signal -const TTCN_Typedescriptor_t MNCC__MsgUnion_signal_descr_ = { "@MNCC_Types.MNCC_MsgUnion.signal", NULL, &MNCC__MsgUnion_signal_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__MsgUnion_signal_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__MsgUnion_data_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__MsgUnion_data -const TTCN_Typedescriptor_t MNCC__MsgUnion_data_descr_ = { "@MNCC_Types.MNCC_MsgUnion.data", NULL, &MNCC__MsgUnion_data_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__MsgUnion_data_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__MsgUnion_rtp_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__MsgUnion_rtp -const TTCN_Typedescriptor_t MNCC__MsgUnion_rtp_descr_ = { "@MNCC_Types.MNCC_MsgUnion.rtp", NULL, &MNCC__MsgUnion_rtp_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__MsgUnion_rtp_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__MsgUnion_hello_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__MsgUnion_hello -const TTCN_Typedescriptor_t MNCC__MsgUnion_hello_descr_ = { "@MNCC_Types.MNCC_MsgUnion.hello", NULL, &MNCC__MsgUnion_hello_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__MsgUnion_hello_default_coding("RAW"); -UNIVERSAL_CHARSTRING MNCC__MsgUnion_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU_msg__type_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU_msg__type -const TTCN_Typedescriptor_t MNCC__PDU_msg__type_descr_ = { "@MNCC_Types.MNCC_PDU.msg_type", NULL, &MNCC__PDU_msg__type_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU_msg__type_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU_u_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU_u -const TTCN_Typedescriptor_t MNCC__PDU_u_descr_ = { "@MNCC_Types.MNCC_PDU.u", NULL, &MNCC__PDU_u_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU_u_default_coding("RAW"); -const TTCN_RAWdescriptor_t MNCC__PDU_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for MNCC__PDU -const TTCN_Typedescriptor_t MNCC__PDU_descr_ = { "@MNCC_Types.MNCC_PDU", NULL, &MNCC__PDU_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING MNCC__PDU_default_coding("RAW"); -static INTEGER const_ts__MNCC__HELLO_version_defval; -const INTEGER& ts__MNCC__HELLO_version_defval = const_ts__MNCC__HELLO_version_defval; -static CHARSTRING const_ts__MNCC__SETUP__req_imsi_defval; -const CHARSTRING& ts__MNCC__SETUP__req_imsi_defval = const_ts__MNCC__SETUP__req_imsi_defval; -static INTEGER_template template_tr__MNCC__SETUP__req_call__id_defval; -const INTEGER_template& tr__MNCC__SETUP__req_call__id_defval = template_tr__MNCC__SETUP__req_call__id_defval; -static CHARSTRING_template template_tr__MNCC__SETUP__req_called_defval; -const CHARSTRING_template& tr__MNCC__SETUP__req_called_defval = template_tr__MNCC__SETUP__req_called_defval; -static CHARSTRING_template template_tr__MNCC__SETUP__req_calling_defval; -const CHARSTRING_template& tr__MNCC__SETUP__req_calling_defval = template_tr__MNCC__SETUP__req_calling_defval; -static CHARSTRING_template template_tr__MNCC__SETUP__req_imsi_defval; -const CHARSTRING_template& tr__MNCC__SETUP__req_imsi_defval = template_tr__MNCC__SETUP__req_imsi_defval; -static CHARSTRING const_ts__MNCC__SETUP__rsp_imsi_defval; -const CHARSTRING& ts__MNCC__SETUP__rsp_imsi_defval = const_ts__MNCC__SETUP__rsp_imsi_defval; -static MNCC__number_template template_ts__MNCC__SETUP__rsp_connected_defval; -const MNCC__number_template& ts__MNCC__SETUP__rsp_connected_defval = template_ts__MNCC__SETUP__rsp_connected_defval; -static CHARSTRING_template template_tr__MNCC__SETUP__rsp_imsi_defval; -const CHARSTRING_template& tr__MNCC__SETUP__rsp_imsi_defval = template_tr__MNCC__SETUP__rsp_imsi_defval; -static MNCC__number_template template_tr__MNCC__SETUP__rsp_connected_defval; -const MNCC__number_template& tr__MNCC__SETUP__rsp_connected_defval = template_tr__MNCC__SETUP__rsp_connected_defval; -static INTEGER_template template_tr__MNCC__SETUP__ind_call__id_defval; -const INTEGER_template& tr__MNCC__SETUP__ind_call__id_defval = template_tr__MNCC__SETUP__ind_call__id_defval; -static MNCC__number_template template_tr__MNCC__SETUP__ind_called_defval; -const MNCC__number_template& tr__MNCC__SETUP__ind_called_defval = template_tr__MNCC__SETUP__ind_called_defval; -static MNCC__number_template template_tr__MNCC__SETUP__ind_calling_defval; -const MNCC__number_template& tr__MNCC__SETUP__ind_calling_defval = template_tr__MNCC__SETUP__ind_calling_defval; -static CHARSTRING_template template_tr__MNCC__SETUP__ind_imsi_defval; -const CHARSTRING_template& tr__MNCC__SETUP__ind_imsi_defval = template_tr__MNCC__SETUP__ind_imsi_defval; -static MNCC__number_template template_ts__MNCC__SETUP__ind_calling_defval; -const MNCC__number_template& ts__MNCC__SETUP__ind_calling_defval = template_ts__MNCC__SETUP__ind_calling_defval; -static CHARSTRING_template template_ts__MNCC__SETUP__ind_imsi_defval; -const CHARSTRING_template& ts__MNCC__SETUP__ind_imsi_defval = template_ts__MNCC__SETUP__ind_imsi_defval; -static MNCC__bearer__cap_template template_ts__MNCC__SETUP__ind_bcap_defval; -const MNCC__bearer__cap_template& ts__MNCC__SETUP__ind_bcap_defval = template_ts__MNCC__SETUP__ind_bcap_defval; -static MNCC__number_template template_ts__MNCC__SETUP__CNF_connected_defval; -const MNCC__number_template& ts__MNCC__SETUP__CNF_connected_defval = template_ts__MNCC__SETUP__CNF_connected_defval; -static MNCC__number_template template_tr__MNCC__SETUP__cnf_connected_defval; -const MNCC__number_template& tr__MNCC__SETUP__cnf_connected_defval = template_tr__MNCC__SETUP__cnf_connected_defval; -static INTEGER_template template_tr__MNCC__SETUP__COMPL__ind_call__id_defval; -const INTEGER_template& tr__MNCC__SETUP__COMPL__ind_call__id_defval = template_tr__MNCC__SETUP__COMPL__ind_call__id_defval; -static MNCC__cause_template template_tr__MNCC__REJ__req_cause_defval; -const MNCC__cause_template& tr__MNCC__REJ__req_cause_defval = template_tr__MNCC__REJ__req_cause_defval; -static MNCC__cause_template template_ts__MNCC__REJ__ind_cause_defval; -const MNCC__cause_template& ts__MNCC__REJ__ind_cause_defval = template_ts__MNCC__REJ__ind_cause_defval; -static MNCC__bearer__cap_template template_tr__MNCC__CALL__CONF__ind_bcap_defval; -const MNCC__bearer__cap_template& tr__MNCC__CALL__CONF__ind_bcap_defval = template_tr__MNCC__CALL__CONF__ind_bcap_defval; -static MNCC__cause_template template_tr__MNCC__CALL__CONF__ind_cause_defval; -const MNCC__cause_template& tr__MNCC__CALL__CONF__ind_cause_defval = template_tr__MNCC__CALL__CONF__ind_cause_defval; -static MNCC__cccap_template template_tr__MNCC__CALL__CONF__ind_cccap_defval; -const MNCC__cccap_template& tr__MNCC__CALL__CONF__ind_cccap_defval = template_tr__MNCC__CALL__CONF__ind_cccap_defval; -static MNCC__bearer__cap_template template_ts__MNCC__CALL__CONF__ind_bcap_defval; -const MNCC__bearer__cap_template& ts__MNCC__CALL__CONF__ind_bcap_defval = template_ts__MNCC__CALL__CONF__ind_bcap_defval; -static MNCC__cause_template template_ts__MNCC__CALL__CONF__ind_cause_defval; -const MNCC__cause_template& ts__MNCC__CALL__CONF__ind_cause_defval = template_ts__MNCC__CALL__CONF__ind_cause_defval; -static MNCC__cccap_template template_ts__MNCC__CALL__CONF__ind_cccap_defval; -const MNCC__cccap_template& ts__MNCC__CALL__CONF__ind_cccap_defval = template_ts__MNCC__CALL__CONF__ind_cccap_defval; -static MNCC__bearer__cap_template template_ts__MNCC__CALL__PROC__req_bcap_defval; -const MNCC__bearer__cap_template& ts__MNCC__CALL__PROC__req_bcap_defval = template_ts__MNCC__CALL__PROC__req_bcap_defval; -static MNCC__progress_template template_ts__MNCC__CALL__PROC__req_prog_defval; -const MNCC__progress_template& ts__MNCC__CALL__PROC__req_prog_defval = template_ts__MNCC__CALL__PROC__req_prog_defval; -static CHARSTRING_template template_ts__MNCC__CALL__PROC__req_fac_defval; -const CHARSTRING_template& ts__MNCC__CALL__PROC__req_fac_defval = template_ts__MNCC__CALL__PROC__req_fac_defval; -static MNCC__cccap_template template_ts__MNCC__CALL__PROC__req_cccap_defval; -const MNCC__cccap_template& ts__MNCC__CALL__PROC__req_cccap_defval = template_ts__MNCC__CALL__PROC__req_cccap_defval; -static MNCC__bearer__cap_template template_tr__MNCC__CALL__PROC__req_bcap_defval; -const MNCC__bearer__cap_template& tr__MNCC__CALL__PROC__req_bcap_defval = template_tr__MNCC__CALL__PROC__req_bcap_defval; -static MNCC__progress_template template_tr__MNCC__CALL__PROC__req_prog_defval; -const MNCC__progress_template& tr__MNCC__CALL__PROC__req_prog_defval = template_tr__MNCC__CALL__PROC__req_prog_defval; -static CHARSTRING_template template_tr__MNCC__CALL__PROC__req_fac_defval; -const CHARSTRING_template& tr__MNCC__CALL__PROC__req_fac_defval = template_tr__MNCC__CALL__PROC__req_fac_defval; -static MNCC__cccap_template template_tr__MNCC__CALL__PROC__req_cccap_defval; -const MNCC__cccap_template& tr__MNCC__CALL__PROC__req_cccap_defval = template_tr__MNCC__CALL__PROC__req_cccap_defval; -static MNCC__useruser_template template_ts__MNCC__PROGRESS__req_uu_defval; -const MNCC__useruser_template& ts__MNCC__PROGRESS__req_uu_defval = template_ts__MNCC__PROGRESS__req_uu_defval; -static MNCC__progress_template template_ts__MNCC__ALERT__req_prog_defval; -const MNCC__progress_template& ts__MNCC__ALERT__req_prog_defval = template_ts__MNCC__ALERT__req_prog_defval; -static CHARSTRING_template template_ts__MNCC__ALERT__req_fac_defval; -const CHARSTRING_template& ts__MNCC__ALERT__req_fac_defval = template_ts__MNCC__ALERT__req_fac_defval; -static MNCC__useruser_template template_ts__MNCC__ALERT__req_uu_defval; -const MNCC__useruser_template& ts__MNCC__ALERT__req_uu_defval = template_ts__MNCC__ALERT__req_uu_defval; -static MNCC__progress_template template_tr__MNCC__ALERT__req_prog_defval; -const MNCC__progress_template& tr__MNCC__ALERT__req_prog_defval = template_tr__MNCC__ALERT__req_prog_defval; -static CHARSTRING_template template_tr__MNCC__ALERT__req_fac_defval; -const CHARSTRING_template& tr__MNCC__ALERT__req_fac_defval = template_tr__MNCC__ALERT__req_fac_defval; -static MNCC__useruser_template template_tr__MNCC__ALERT__req_uu_defval; -const MNCC__useruser_template& tr__MNCC__ALERT__req_uu_defval = template_tr__MNCC__ALERT__req_uu_defval; -static MNCC__progress_template template_tr__MNCC__ALERT__ind_prog_defval; -const MNCC__progress_template& tr__MNCC__ALERT__ind_prog_defval = template_tr__MNCC__ALERT__ind_prog_defval; -static CHARSTRING_template template_tr__MNCC__ALERT__ind_fac_defval; -const CHARSTRING_template& tr__MNCC__ALERT__ind_fac_defval = template_tr__MNCC__ALERT__ind_fac_defval; -static MNCC__useruser_template template_tr__MNCC__ALERT__ind_uu_defval; -const MNCC__useruser_template& tr__MNCC__ALERT__ind_uu_defval = template_tr__MNCC__ALERT__ind_uu_defval; -static MNCC__progress_template template_ts__MNCC__ALERT__ind_prog_defval; -const MNCC__progress_template& ts__MNCC__ALERT__ind_prog_defval = template_ts__MNCC__ALERT__ind_prog_defval; -static CHARSTRING_template template_ts__MNCC__ALERT__ind_fac_defval; -const CHARSTRING_template& ts__MNCC__ALERT__ind_fac_defval = template_ts__MNCC__ALERT__ind_fac_defval; -static MNCC__useruser_template template_ts__MNCC__ALERT__ind_uu_defval; -const MNCC__useruser_template& ts__MNCC__ALERT__ind_uu_defval = template_ts__MNCC__ALERT__ind_uu_defval; -static INTEGER_template template_tr__MNCC__DISC__ind_call__id_defval; -const INTEGER_template& tr__MNCC__DISC__ind_call__id_defval = template_tr__MNCC__DISC__ind_call__id_defval; -static MNCC__cause_template template_tr__MNCC__DISC__ind_cause_defval; -const MNCC__cause_template& tr__MNCC__DISC__ind_cause_defval = template_tr__MNCC__DISC__ind_cause_defval; -static MNCC__progress_template template_tr__MNCC__DISC__ind_prog_defval; -const MNCC__progress_template& tr__MNCC__DISC__ind_prog_defval = template_tr__MNCC__DISC__ind_prog_defval; -static CHARSTRING_template template_tr__MNCC__DISC__ind_fac_defval; -const CHARSTRING_template& tr__MNCC__DISC__ind_fac_defval = template_tr__MNCC__DISC__ind_fac_defval; -static MNCC__useruser_template template_tr__MNCC__DISC__ind_uu_defval; -const MNCC__useruser_template& tr__MNCC__DISC__ind_uu_defval = template_tr__MNCC__DISC__ind_uu_defval; -static MNCC__progress_template template_ts__MNCC__DISC__ind_prog_defval; -const MNCC__progress_template& ts__MNCC__DISC__ind_prog_defval = template_ts__MNCC__DISC__ind_prog_defval; -static CHARSTRING_template template_ts__MNCC__DISC__ind_fac_defval; -const CHARSTRING_template& ts__MNCC__DISC__ind_fac_defval = template_ts__MNCC__DISC__ind_fac_defval; -static MNCC__useruser_template template_ts__MNCC__DISC__ind_uu_defval; -const MNCC__useruser_template& ts__MNCC__DISC__ind_uu_defval = template_ts__MNCC__DISC__ind_uu_defval; -static MNCC__progress_template template_ts__MNCC__DISC__req_prog_defval; -const MNCC__progress_template& ts__MNCC__DISC__req_prog_defval = template_ts__MNCC__DISC__req_prog_defval; -static CHARSTRING_template template_ts__MNCC__DISC__req_fac_defval; -const CHARSTRING_template& ts__MNCC__DISC__req_fac_defval = template_ts__MNCC__DISC__req_fac_defval; -static MNCC__useruser_template template_ts__MNCC__DISC__req_uu_defval; -const MNCC__useruser_template& ts__MNCC__DISC__req_uu_defval = template_ts__MNCC__DISC__req_uu_defval; -static MNCC__cause_template template_tr__MNCC__DISC__req_cause_defval; -const MNCC__cause_template& tr__MNCC__DISC__req_cause_defval = template_tr__MNCC__DISC__req_cause_defval; -static MNCC__progress_template template_tr__MNCC__DISC__req_prog_defval; -const MNCC__progress_template& tr__MNCC__DISC__req_prog_defval = template_tr__MNCC__DISC__req_prog_defval; -static CHARSTRING_template template_tr__MNCC__DISC__req_fac_defval; -const CHARSTRING_template& tr__MNCC__DISC__req_fac_defval = template_tr__MNCC__DISC__req_fac_defval; -static MNCC__useruser_template template_tr__MNCC__DISC__req_uu_defval; -const MNCC__useruser_template& tr__MNCC__DISC__req_uu_defval = template_tr__MNCC__DISC__req_uu_defval; -static INTEGER_template template_tr__MNCC__REL__ind_call__id_defval; -const INTEGER_template& tr__MNCC__REL__ind_call__id_defval = template_tr__MNCC__REL__ind_call__id_defval; -static MNCC__cause_template template_tr__MNCC__REL__ind_cause_defval; -const MNCC__cause_template& tr__MNCC__REL__ind_cause_defval = template_tr__MNCC__REL__ind_cause_defval; -static CHARSTRING_template template_tr__MNCC__REL__ind_fac_defval; -const CHARSTRING_template& tr__MNCC__REL__ind_fac_defval = template_tr__MNCC__REL__ind_fac_defval; -static MNCC__useruser_template template_tr__MNCC__REL__ind_uu_defval; -const MNCC__useruser_template& tr__MNCC__REL__ind_uu_defval = template_tr__MNCC__REL__ind_uu_defval; -static CHARSTRING_template template_ts__MNCC__REL__ind_fac_defval; -const CHARSTRING_template& ts__MNCC__REL__ind_fac_defval = template_ts__MNCC__REL__ind_fac_defval; -static MNCC__useruser_template template_ts__MNCC__REL__ind_uu_defval; -const MNCC__useruser_template& ts__MNCC__REL__ind_uu_defval = template_ts__MNCC__REL__ind_uu_defval; -static CHARSTRING_template template_ts__MNCC__REL__req_fac_defval; -const CHARSTRING_template& ts__MNCC__REL__req_fac_defval = template_ts__MNCC__REL__req_fac_defval; -static MNCC__useruser_template template_ts__MNCC__REL__req_uu_defval; -const MNCC__useruser_template& ts__MNCC__REL__req_uu_defval = template_ts__MNCC__REL__req_uu_defval; -static MNCC__cause_template template_tr__MNCC__REL__req_cause_defval; -const MNCC__cause_template& tr__MNCC__REL__req_cause_defval = template_tr__MNCC__REL__req_cause_defval; -static CHARSTRING_template template_tr__MNCC__REL__req_fac_defval; -const CHARSTRING_template& tr__MNCC__REL__req_fac_defval = template_tr__MNCC__REL__req_fac_defval; -static MNCC__useruser_template template_tr__MNCC__REL__req_uu_defval; -const MNCC__useruser_template& tr__MNCC__REL__req_uu_defval = template_tr__MNCC__REL__req_uu_defval; -static INTEGER_template template_tr__MNCC__REL__cnf_call__id_defval; -const INTEGER_template& tr__MNCC__REL__cnf_call__id_defval = template_tr__MNCC__REL__cnf_call__id_defval; -static MNCC__cause_template template_tr__MNCC__REL__cnf_cause_defval; -const MNCC__cause_template& tr__MNCC__REL__cnf_cause_defval = template_tr__MNCC__REL__cnf_cause_defval; -static CHARSTRING_template template_tr__MNCC__REL__cnf_fac_defval; -const CHARSTRING_template& tr__MNCC__REL__cnf_fac_defval = template_tr__MNCC__REL__cnf_fac_defval; -static MNCC__useruser_template template_tr__MNCC__REL__cnf_uu_defval; -const MNCC__useruser_template& tr__MNCC__REL__cnf_uu_defval = template_tr__MNCC__REL__cnf_uu_defval; -static CHARSTRING_template template_ts__MNCC__REL__cnf_fac_defval; -const CHARSTRING_template& ts__MNCC__REL__cnf_fac_defval = template_ts__MNCC__REL__cnf_fac_defval; -static MNCC__useruser_template template_ts__MNCC__REL__cnf_uu_defval; -const MNCC__useruser_template& ts__MNCC__REL__cnf_uu_defval = template_ts__MNCC__REL__cnf_uu_defval; -static INTEGER_template template_tr__MNCC__FACILITY__ind_call__id_defval; -const INTEGER_template& tr__MNCC__FACILITY__ind_call__id_defval = template_tr__MNCC__FACILITY__ind_call__id_defval; -static CHARSTRING_template template_tr__MNCC__FACILITY__ind_fac_defval; -const CHARSTRING_template& tr__MNCC__FACILITY__ind_fac_defval = template_tr__MNCC__FACILITY__ind_fac_defval; -static INTEGER_template template_tr__MNCC__START__DTMF__ind_call__id_defval; -const INTEGER_template& tr__MNCC__START__DTMF__ind_call__id_defval = template_tr__MNCC__START__DTMF__ind_call__id_defval; -static CHARSTRING_template template_tr__MNCC__START__DTMF__ind_keypad_defval; -const CHARSTRING_template& tr__MNCC__START__DTMF__ind_keypad_defval = template_tr__MNCC__START__DTMF__ind_keypad_defval; -static INTEGER_template template_tr__MNCC__STOP__DTMF__ind_call__id_defval; -const INTEGER_template& tr__MNCC__STOP__DTMF__ind_call__id_defval = template_tr__MNCC__STOP__DTMF__ind_call__id_defval; -static INTEGER_template template_tr__MNCC__MODIFY__ind_call__id_defval; -const INTEGER_template& tr__MNCC__MODIFY__ind_call__id_defval = template_tr__MNCC__MODIFY__ind_call__id_defval; -static MNCC__bearer__cap_template template_tr__MNCC__MODIFY__ind_bcap_defval; -const MNCC__bearer__cap_template& tr__MNCC__MODIFY__ind_bcap_defval = template_tr__MNCC__MODIFY__ind_bcap_defval; -static INTEGER_template template_tr__MNCC__MODIFY__cnf_call__id_defval; -const INTEGER_template& tr__MNCC__MODIFY__cnf_call__id_defval = template_tr__MNCC__MODIFY__cnf_call__id_defval; -static MNCC__bearer__cap_template template_tr__MNCC__MODIFY__cnf_bcap_defval; -const MNCC__bearer__cap_template& tr__MNCC__MODIFY__cnf_bcap_defval = template_tr__MNCC__MODIFY__cnf_bcap_defval; -static INTEGER_template template_tr__MNCC__USERINFO__ind_call__id_defval; -const INTEGER_template& tr__MNCC__USERINFO__ind_call__id_defval = template_tr__MNCC__USERINFO__ind_call__id_defval; -static MNCC__useruser_template template_tr__MNCC__USERINFO__ind_uu_defval; -const MNCC__useruser_template& tr__MNCC__USERINFO__ind_uu_defval = template_tr__MNCC__USERINFO__ind_uu_defval; -static INTEGER_template template_tr__MNCC__HOLD__ind_call__id_defval; -const INTEGER_template& tr__MNCC__HOLD__ind_call__id_defval = template_tr__MNCC__HOLD__ind_call__id_defval; -static INTEGER_template template_tr__MNCC__RETRIEVE__ind_call__id_defval; -const INTEGER_template& tr__MNCC__RETRIEVE__ind_call__id_defval = template_tr__MNCC__RETRIEVE__ind_call__id_defval; -static INTEGER_template template_tr__MNCC__RTP__CREATE_call__id_defval; -const INTEGER_template& tr__MNCC__RTP__CREATE_call__id_defval = template_tr__MNCC__RTP__CREATE_call__id_defval; -static INTEGER_template template_tr__MNCC__RTP__CONNECT_ip_defval; -const INTEGER_template& tr__MNCC__RTP__CONNECT_ip_defval = template_tr__MNCC__RTP__CONNECT_ip_defval; -static INTEGER_template template_tr__MNCC__RTP__CONNECT_rtp__port_defval; -const INTEGER_template& tr__MNCC__RTP__CONNECT_rtp__port_defval = template_tr__MNCC__RTP__CONNECT_rtp__port_defval; -static INTEGER_template template_tr__MNCC__RTP__CONNECT_pt_defval; -const INTEGER_template& tr__MNCC__RTP__CONNECT_pt_defval = template_tr__MNCC__RTP__CONNECT_pt_defval; -TTCN_Module module_object("MNCC_Types", __DATE__, __TIME__, module_checksum, pre_init_module, NULL, 0U, 4294967295U, 4294967295U, 4294967295U, NULL, 0LU, 0, post_init_module, NULL, NULL, NULL, NULL, NULL, NULL, NULL); - -static const RuntimeVersionChecker ver_checker( current_runtime_version.requires_major_version_6, - current_runtime_version.requires_minor_version_5, - current_runtime_version.requires_patch_level_0, current_runtime_version.requires_runtime_1); - -/* Member functions of C++ classes */ - -GSM48__bcap__ra::GSM48__bcap__ra() -{ -enum_value = UNBOUND_VALUE; -} - -GSM48__bcap__ra::GSM48__bcap__ra(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_bcap_ra with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -GSM48__bcap__ra::GSM48__bcap__ra(enum_type other_value) -{ -enum_value = other_value; -} - -GSM48__bcap__ra::GSM48__bcap__ra(const GSM48__bcap__ra& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -enum_value = other_value.enum_value; -} - -GSM48__bcap__ra& GSM48__bcap__ra::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_ra.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -GSM48__bcap__ra& GSM48__bcap__ra::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -GSM48__bcap__ra& GSM48__bcap__ra::operator=(const GSM48__bcap__ra& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -enum_value = other_value.enum_value; -return *this; -} - -boolean GSM48__bcap__ra::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -return enum_value == other_value; -} - -boolean GSM48__bcap__ra::operator==(const GSM48__bcap__ra& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -return enum_value == other_value.enum_value; -} - -boolean GSM48__bcap__ra::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -return enum_value < other_value; -} - -boolean GSM48__bcap__ra::operator<(const GSM48__bcap__ra& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -return enum_value < other_value.enum_value; -} - -boolean GSM48__bcap__ra::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -return enum_value > other_value; -} - -boolean GSM48__bcap__ra::operator>(const GSM48__bcap__ra& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__bcap__ra::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__BCAP__RA__NONE: return "GSM48_BCAP_RA_NONE"; -case GSM48__BCAP__RA__V110__X30: return "GSM48_BCAP_RA_V110_X30"; -case GSM48__BCAP__RA__X31: return "GSM48_BCAP_RA_X31"; -case GSM48__BCAP__RA__OTHER: return "GSM48_BCAP_RA_OTHER"; -default: return ""; -} -} - -GSM48__bcap__ra::enum_type GSM48__bcap__ra::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_BCAP_RA_NONE")) return GSM48__BCAP__RA__NONE; -else if (!strcmp(str_par, "GSM48_BCAP_RA_V110_X30")) return GSM48__BCAP__RA__V110__X30; -else if (!strcmp(str_par, "GSM48_BCAP_RA_X31")) return GSM48__BCAP__RA__X31; -else if (!strcmp(str_par, "GSM48_BCAP_RA_OTHER")) return GSM48__BCAP__RA__OTHER; -else return UNKNOWN_VALUE; -} - -boolean GSM48__bcap__ra::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__bcap__ra::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_ra.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__bcap__ra::enum2int(const GSM48__bcap__ra& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_ra.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__bcap__ra::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_ra.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__bcap__ra::operator GSM48__bcap__ra::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_bcap_ra."); -return enum_value; -} - -void GSM48__bcap__ra::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__bcap__ra::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_bcap_ra"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_ra."); - } -} - -void GSM48__bcap__ra::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -text_buf.push_int(enum_value); -} - -void GSM48__bcap__ra::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_bcap_ra.", enum_value); -} - -void GSM48__bcap__ra::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__bcap__ra::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__bcap__ra::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 3, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__bcap__ra::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 3); -} - -void GSM48__bcap__ra_template::copy_template(const GSM48__bcap__ra_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__bcap__ra_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_ra."); -} -} - -GSM48__bcap__ra_template::GSM48__bcap__ra_template() -{ -} - -GSM48__bcap__ra_template::GSM48__bcap__ra_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__bcap__ra_template::GSM48__bcap__ra_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__bcap__ra::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_bcap_ra with unknown numeric value %d.", other_value); -single_value = (GSM48__bcap__ra::enum_type)other_value; -} - -GSM48__bcap__ra_template::GSM48__bcap__ra_template(GSM48__bcap__ra::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__bcap__ra_template::GSM48__bcap__ra_template(const GSM48__bcap__ra& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__bcap__ra::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra."); -single_value = other_value.enum_value; -} - -GSM48__bcap__ra_template::GSM48__bcap__ra_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__ra::enum_type)(const GSM48__bcap__ra&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_bcap_ra from an unbound optional field."); -} -} - -GSM48__bcap__ra_template::GSM48__bcap__ra_template(const GSM48__bcap__ra_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__bcap__ra_template::~GSM48__bcap__ra_template() -{ -clean_up(); -} - -boolean GSM48__bcap__ra_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__bcap__ra_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__bcap__ra::UNBOUND_VALUE; -} - -void GSM48__bcap__ra_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__bcap__ra_template& GSM48__bcap__ra_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__bcap__ra_template& GSM48__bcap__ra_template::operator=(int other_value) -{ -if (!GSM48__bcap__ra::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_bcap_ra.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__ra::enum_type)other_value; -return *this; -} - -GSM48__bcap__ra_template& GSM48__bcap__ra_template::operator=(GSM48__bcap__ra::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__bcap__ra_template& GSM48__bcap__ra_template::operator=(const GSM48__bcap__ra& other_value) -{ -if (other_value.enum_value == GSM48__bcap__ra::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_ra to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__bcap__ra_template& GSM48__bcap__ra_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__ra::enum_type)(const GSM48__bcap__ra&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_bcap_ra."); -} -return *this; -} - -GSM48__bcap__ra_template& GSM48__bcap__ra_template::operator=(const GSM48__bcap__ra_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__bcap__ra_template::match(GSM48__bcap__ra::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_ra."); -} -return FALSE; -} - -boolean GSM48__bcap__ra_template::match(const GSM48__bcap__ra& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__bcap__ra::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_bcap_ra with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__bcap__ra::enum_type GSM48__bcap__ra_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_bcap_ra."); -return single_value; -} - -void GSM48__bcap__ra_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_bcap_ra."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__bcap__ra_template[list_length]; -} - -GSM48__bcap__ra_template& GSM48__bcap__ra_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_bcap_ra."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_bcap_ra."); -return value_list.list_value[list_index]; -} - -void GSM48__bcap__ra_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__bcap__ra::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__bcap__ra_template::log_match(const GSM48__bcap__ra& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__bcap__ra_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_ra."); -} -} - -void GSM48__bcap__ra_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__bcap__ra::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__bcap__ra::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_bcap_ra.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__bcap__ra_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_bcap_ra."); -} -} - -boolean GSM48__bcap__ra_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__bcap__ra_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__bcap__ra_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__bcap__ra::enum_type enum_val = GSM48__bcap__ra::str_to_enum(m_p->get_enumerated()); - if (!GSM48__bcap__ra::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_ra."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_bcap_ra"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__bcap__ra_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_bcap_ra"); -} - -GSM48__bcap__sig__access::GSM48__bcap__sig__access() -{ -enum_value = UNBOUND_VALUE; -} - -GSM48__bcap__sig__access::GSM48__bcap__sig__access(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_bcap_sig_access with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -GSM48__bcap__sig__access::GSM48__bcap__sig__access(enum_type other_value) -{ -enum_value = other_value; -} - -GSM48__bcap__sig__access::GSM48__bcap__sig__access(const GSM48__bcap__sig__access& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -enum_value = other_value.enum_value; -} - -GSM48__bcap__sig__access& GSM48__bcap__sig__access::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_sig_access.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -GSM48__bcap__sig__access& GSM48__bcap__sig__access::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -GSM48__bcap__sig__access& GSM48__bcap__sig__access::operator=(const GSM48__bcap__sig__access& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -enum_value = other_value.enum_value; -return *this; -} - -boolean GSM48__bcap__sig__access::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -return enum_value == other_value; -} - -boolean GSM48__bcap__sig__access::operator==(const GSM48__bcap__sig__access& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -return enum_value == other_value.enum_value; -} - -boolean GSM48__bcap__sig__access::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -return enum_value < other_value; -} - -boolean GSM48__bcap__sig__access::operator<(const GSM48__bcap__sig__access& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -return enum_value < other_value.enum_value; -} - -boolean GSM48__bcap__sig__access::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -return enum_value > other_value; -} - -boolean GSM48__bcap__sig__access::operator>(const GSM48__bcap__sig__access& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__bcap__sig__access::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__BCAP__SA__NONE: return "GSM48_BCAP_SA_NONE"; -case GSM48__BCAP__SA__I440__I450: return "GSM48_BCAP_SA_I440_I450"; -case GSM48__BCAP__SA__X21: return "GSM48_BCAP_SA_X21"; -case GSM48__BCAP__SA__X28__DP__IN: return "GSM48_BCAP_SA_X28_DP_IN"; -case GSM48__BCAP__SA__X28__DP__UN: return "GSM48_BCAP_SA_X28_DP_UN"; -case GSM48__BCAP__SA__X28__NDP: return "GSM48_BCAP_SA_X28_NDP"; -case GSM48__BCAP__SA__X32: return "GSM48_BCAP_SA_X32"; -default: return ""; -} -} - -GSM48__bcap__sig__access::enum_type GSM48__bcap__sig__access::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_BCAP_SA_NONE")) return GSM48__BCAP__SA__NONE; -else if (!strcmp(str_par, "GSM48_BCAP_SA_I440_I450")) return GSM48__BCAP__SA__I440__I450; -else if (!strcmp(str_par, "GSM48_BCAP_SA_X21")) return GSM48__BCAP__SA__X21; -else if (!strcmp(str_par, "GSM48_BCAP_SA_X28_DP_IN")) return GSM48__BCAP__SA__X28__DP__IN; -else if (!strcmp(str_par, "GSM48_BCAP_SA_X28_DP_UN")) return GSM48__BCAP__SA__X28__DP__UN; -else if (!strcmp(str_par, "GSM48_BCAP_SA_X28_NDP")) return GSM48__BCAP__SA__X28__NDP; -else if (!strcmp(str_par, "GSM48_BCAP_SA_X32")) return GSM48__BCAP__SA__X32; -else return UNKNOWN_VALUE; -} - -boolean GSM48__bcap__sig__access::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -case 4: -case 5: -case 6: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__bcap__sig__access::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_sig_access.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__bcap__sig__access::enum2int(const GSM48__bcap__sig__access& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_sig_access.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__bcap__sig__access::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_sig_access.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__bcap__sig__access::operator GSM48__bcap__sig__access::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -return enum_value; -} - -void GSM48__bcap__sig__access::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__bcap__sig__access::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_bcap_sig_access"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_sig_access."); - } -} - -void GSM48__bcap__sig__access::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -text_buf.push_int(enum_value); -} - -void GSM48__bcap__sig__access::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_bcap_sig_access.", enum_value); -} - -void GSM48__bcap__sig__access::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__bcap__sig__access::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__bcap__sig__access::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 3, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__bcap__sig__access::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 3); -} - -void GSM48__bcap__sig__access_template::copy_template(const GSM48__bcap__sig__access_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__bcap__sig__access_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -} -} - -GSM48__bcap__sig__access_template::GSM48__bcap__sig__access_template() -{ -} - -GSM48__bcap__sig__access_template::GSM48__bcap__sig__access_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__bcap__sig__access_template::GSM48__bcap__sig__access_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__bcap__sig__access::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_bcap_sig_access with unknown numeric value %d.", other_value); -single_value = (GSM48__bcap__sig__access::enum_type)other_value; -} - -GSM48__bcap__sig__access_template::GSM48__bcap__sig__access_template(GSM48__bcap__sig__access::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__bcap__sig__access_template::GSM48__bcap__sig__access_template(const GSM48__bcap__sig__access& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__bcap__sig__access::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -single_value = other_value.enum_value; -} - -GSM48__bcap__sig__access_template::GSM48__bcap__sig__access_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__sig__access::enum_type)(const GSM48__bcap__sig__access&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_bcap_sig_access from an unbound optional field."); -} -} - -GSM48__bcap__sig__access_template::GSM48__bcap__sig__access_template(const GSM48__bcap__sig__access_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__bcap__sig__access_template::~GSM48__bcap__sig__access_template() -{ -clean_up(); -} - -boolean GSM48__bcap__sig__access_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__bcap__sig__access_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__bcap__sig__access::UNBOUND_VALUE; -} - -void GSM48__bcap__sig__access_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__bcap__sig__access_template& GSM48__bcap__sig__access_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__bcap__sig__access_template& GSM48__bcap__sig__access_template::operator=(int other_value) -{ -if (!GSM48__bcap__sig__access::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_bcap_sig_access.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__sig__access::enum_type)other_value; -return *this; -} - -GSM48__bcap__sig__access_template& GSM48__bcap__sig__access_template::operator=(GSM48__bcap__sig__access::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__bcap__sig__access_template& GSM48__bcap__sig__access_template::operator=(const GSM48__bcap__sig__access& other_value) -{ -if (other_value.enum_value == GSM48__bcap__sig__access::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_sig_access to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__bcap__sig__access_template& GSM48__bcap__sig__access_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__sig__access::enum_type)(const GSM48__bcap__sig__access&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -} -return *this; -} - -GSM48__bcap__sig__access_template& GSM48__bcap__sig__access_template::operator=(const GSM48__bcap__sig__access_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__bcap__sig__access_template::match(GSM48__bcap__sig__access::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -} -return FALSE; -} - -boolean GSM48__bcap__sig__access_template::match(const GSM48__bcap__sig__access& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__bcap__sig__access::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_bcap_sig_access with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__bcap__sig__access::enum_type GSM48__bcap__sig__access_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -return single_value; -} - -void GSM48__bcap__sig__access_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__bcap__sig__access_template[list_length]; -} - -GSM48__bcap__sig__access_template& GSM48__bcap__sig__access_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -return value_list.list_value[list_index]; -} - -void GSM48__bcap__sig__access_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__bcap__sig__access::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__bcap__sig__access_template::log_match(const GSM48__bcap__sig__access& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__bcap__sig__access_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -} -} - -void GSM48__bcap__sig__access_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__bcap__sig__access::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__bcap__sig__access::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_bcap_sig_access.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__bcap__sig__access_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_bcap_sig_access."); -} -} - -boolean GSM48__bcap__sig__access_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__bcap__sig__access_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__bcap__sig__access_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__bcap__sig__access::enum_type enum_val = GSM48__bcap__sig__access::str_to_enum(m_p->get_enumerated()); - if (!GSM48__bcap__sig__access::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_sig_access."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_bcap_sig_access"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__bcap__sig__access_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_bcap_sig_access"); -} - -GSM48__bcap__user__rate::GSM48__bcap__user__rate() -{ -enum_value = UNBOUND_VALUE; -} - -GSM48__bcap__user__rate::GSM48__bcap__user__rate(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_bcap_user_rate with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -GSM48__bcap__user__rate::GSM48__bcap__user__rate(enum_type other_value) -{ -enum_value = other_value; -} - -GSM48__bcap__user__rate::GSM48__bcap__user__rate(const GSM48__bcap__user__rate& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -enum_value = other_value.enum_value; -} - -GSM48__bcap__user__rate& GSM48__bcap__user__rate::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_user_rate.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -GSM48__bcap__user__rate& GSM48__bcap__user__rate::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -GSM48__bcap__user__rate& GSM48__bcap__user__rate::operator=(const GSM48__bcap__user__rate& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -enum_value = other_value.enum_value; -return *this; -} - -boolean GSM48__bcap__user__rate::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -return enum_value == other_value; -} - -boolean GSM48__bcap__user__rate::operator==(const GSM48__bcap__user__rate& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -return enum_value == other_value.enum_value; -} - -boolean GSM48__bcap__user__rate::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -return enum_value < other_value; -} - -boolean GSM48__bcap__user__rate::operator<(const GSM48__bcap__user__rate& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -return enum_value < other_value.enum_value; -} - -boolean GSM48__bcap__user__rate::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -return enum_value > other_value; -} - -boolean GSM48__bcap__user__rate::operator>(const GSM48__bcap__user__rate& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__bcap__user__rate::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__BCAP__UR__NONE: return "GSM48_BCAP_UR_NONE"; -case GSM48__BCAP__UR__300: return "GSM48_BCAP_UR_300"; -case GSM48__BCAP__UR__1200: return "GSM48_BCAP_UR_1200"; -case GSM48__BCAP__UR__2400: return "GSM48_BCAP_UR_2400"; -case GSM48__BCAP__UR__4800: return "GSM48_BCAP_UR_4800"; -case GSM48__BCAP__UR__9600: return "GSM48_BCAP_UR_9600"; -case GSM48__BCAP__UR__12000: return "GSM48_BCAP_UR_12000"; -case GSM48__BCAP__UR__1200__75: return "GSM48_BCAP_UR_1200_75"; -default: return ""; -} -} - -GSM48__bcap__user__rate::enum_type GSM48__bcap__user__rate::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_BCAP_UR_NONE")) return GSM48__BCAP__UR__NONE; -else if (!strcmp(str_par, "GSM48_BCAP_UR_300")) return GSM48__BCAP__UR__300; -else if (!strcmp(str_par, "GSM48_BCAP_UR_1200")) return GSM48__BCAP__UR__1200; -else if (!strcmp(str_par, "GSM48_BCAP_UR_2400")) return GSM48__BCAP__UR__2400; -else if (!strcmp(str_par, "GSM48_BCAP_UR_4800")) return GSM48__BCAP__UR__4800; -else if (!strcmp(str_par, "GSM48_BCAP_UR_9600")) return GSM48__BCAP__UR__9600; -else if (!strcmp(str_par, "GSM48_BCAP_UR_12000")) return GSM48__BCAP__UR__12000; -else if (!strcmp(str_par, "GSM48_BCAP_UR_1200_75")) return GSM48__BCAP__UR__1200__75; -else return UNKNOWN_VALUE; -} - -boolean GSM48__bcap__user__rate::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -case 4: -case 5: -case 6: -case 7: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__bcap__user__rate::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_user_rate.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__bcap__user__rate::enum2int(const GSM48__bcap__user__rate& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_user_rate.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__bcap__user__rate::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_user_rate.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__bcap__user__rate::operator GSM48__bcap__user__rate::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -return enum_value; -} - -void GSM48__bcap__user__rate::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__bcap__user__rate::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_bcap_user_rate"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_user_rate."); - } -} - -void GSM48__bcap__user__rate::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -text_buf.push_int(enum_value); -} - -void GSM48__bcap__user__rate::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_bcap_user_rate.", enum_value); -} - -void GSM48__bcap__user__rate::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__bcap__user__rate::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__bcap__user__rate::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 4, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__bcap__user__rate::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 4); -} - -void GSM48__bcap__user__rate_template::copy_template(const GSM48__bcap__user__rate_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__bcap__user__rate_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -} -} - -GSM48__bcap__user__rate_template::GSM48__bcap__user__rate_template() -{ -} - -GSM48__bcap__user__rate_template::GSM48__bcap__user__rate_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__bcap__user__rate_template::GSM48__bcap__user__rate_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__bcap__user__rate::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_bcap_user_rate with unknown numeric value %d.", other_value); -single_value = (GSM48__bcap__user__rate::enum_type)other_value; -} - -GSM48__bcap__user__rate_template::GSM48__bcap__user__rate_template(GSM48__bcap__user__rate::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__bcap__user__rate_template::GSM48__bcap__user__rate_template(const GSM48__bcap__user__rate& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__bcap__user__rate::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -single_value = other_value.enum_value; -} - -GSM48__bcap__user__rate_template::GSM48__bcap__user__rate_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__user__rate::enum_type)(const GSM48__bcap__user__rate&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_bcap_user_rate from an unbound optional field."); -} -} - -GSM48__bcap__user__rate_template::GSM48__bcap__user__rate_template(const GSM48__bcap__user__rate_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__bcap__user__rate_template::~GSM48__bcap__user__rate_template() -{ -clean_up(); -} - -boolean GSM48__bcap__user__rate_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__bcap__user__rate_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__bcap__user__rate::UNBOUND_VALUE; -} - -void GSM48__bcap__user__rate_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__bcap__user__rate_template& GSM48__bcap__user__rate_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__bcap__user__rate_template& GSM48__bcap__user__rate_template::operator=(int other_value) -{ -if (!GSM48__bcap__user__rate::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_bcap_user_rate.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__user__rate::enum_type)other_value; -return *this; -} - -GSM48__bcap__user__rate_template& GSM48__bcap__user__rate_template::operator=(GSM48__bcap__user__rate::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__bcap__user__rate_template& GSM48__bcap__user__rate_template::operator=(const GSM48__bcap__user__rate& other_value) -{ -if (other_value.enum_value == GSM48__bcap__user__rate::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_user_rate to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__bcap__user__rate_template& GSM48__bcap__user__rate_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__user__rate::enum_type)(const GSM48__bcap__user__rate&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -} -return *this; -} - -GSM48__bcap__user__rate_template& GSM48__bcap__user__rate_template::operator=(const GSM48__bcap__user__rate_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__bcap__user__rate_template::match(GSM48__bcap__user__rate::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -} -return FALSE; -} - -boolean GSM48__bcap__user__rate_template::match(const GSM48__bcap__user__rate& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__bcap__user__rate::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_bcap_user_rate with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__bcap__user__rate::enum_type GSM48__bcap__user__rate_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -return single_value; -} - -void GSM48__bcap__user__rate_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__bcap__user__rate_template[list_length]; -} - -GSM48__bcap__user__rate_template& GSM48__bcap__user__rate_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -return value_list.list_value[list_index]; -} - -void GSM48__bcap__user__rate_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__bcap__user__rate::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__bcap__user__rate_template::log_match(const GSM48__bcap__user__rate& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__bcap__user__rate_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -} -} - -void GSM48__bcap__user__rate_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__bcap__user__rate::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__bcap__user__rate::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_bcap_user_rate.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__bcap__user__rate_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_bcap_user_rate."); -} -} - -boolean GSM48__bcap__user__rate_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__bcap__user__rate_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__bcap__user__rate_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__bcap__user__rate::enum_type enum_val = GSM48__bcap__user__rate::str_to_enum(m_p->get_enumerated()); - if (!GSM48__bcap__user__rate::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_user_rate."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_bcap_user_rate"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__bcap__user__rate_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_bcap_user_rate"); -} - -GSM48__bcap__parity::GSM48__bcap__parity() -{ -enum_value = UNBOUND_VALUE; -} - -GSM48__bcap__parity::GSM48__bcap__parity(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_bcap_parity with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -GSM48__bcap__parity::GSM48__bcap__parity(enum_type other_value) -{ -enum_value = other_value; -} - -GSM48__bcap__parity::GSM48__bcap__parity(const GSM48__bcap__parity& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -enum_value = other_value.enum_value; -} - -GSM48__bcap__parity& GSM48__bcap__parity::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_parity.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -GSM48__bcap__parity& GSM48__bcap__parity::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -GSM48__bcap__parity& GSM48__bcap__parity::operator=(const GSM48__bcap__parity& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -enum_value = other_value.enum_value; -return *this; -} - -boolean GSM48__bcap__parity::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -return enum_value == other_value; -} - -boolean GSM48__bcap__parity::operator==(const GSM48__bcap__parity& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -return enum_value == other_value.enum_value; -} - -boolean GSM48__bcap__parity::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -return enum_value < other_value; -} - -boolean GSM48__bcap__parity::operator<(const GSM48__bcap__parity& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -return enum_value < other_value.enum_value; -} - -boolean GSM48__bcap__parity::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -return enum_value > other_value; -} - -boolean GSM48__bcap__parity::operator>(const GSM48__bcap__parity& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__bcap__parity::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__BCAP__PAR__ODD: return "GSM48_BCAP_PAR_ODD"; -case GSM48__BCAP__PAR__EVEN: return "GSM48_BCAP_PAR_EVEN"; -case GSM48__BCAP__PAR__NONE: return "GSM48_BCAP_PAR_NONE"; -case GSM48__BCAP__PAR__ZERO: return "GSM48_BCAP_PAR_ZERO"; -case GSM48__BCAP__PAR__ONE: return "GSM48_BCAP_PAR_ONE"; -default: return ""; -} -} - -GSM48__bcap__parity::enum_type GSM48__bcap__parity::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_BCAP_PAR_ODD")) return GSM48__BCAP__PAR__ODD; -else if (!strcmp(str_par, "GSM48_BCAP_PAR_EVEN")) return GSM48__BCAP__PAR__EVEN; -else if (!strcmp(str_par, "GSM48_BCAP_PAR_NONE")) return GSM48__BCAP__PAR__NONE; -else if (!strcmp(str_par, "GSM48_BCAP_PAR_ZERO")) return GSM48__BCAP__PAR__ZERO; -else if (!strcmp(str_par, "GSM48_BCAP_PAR_ONE")) return GSM48__BCAP__PAR__ONE; -else return UNKNOWN_VALUE; -} - -boolean GSM48__bcap__parity::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 2: -case 3: -case 4: -case 5: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__bcap__parity::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_parity.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__bcap__parity::enum2int(const GSM48__bcap__parity& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_parity.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__bcap__parity::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_parity.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__bcap__parity::operator GSM48__bcap__parity::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_bcap_parity."); -return enum_value; -} - -void GSM48__bcap__parity::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__bcap__parity::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_bcap_parity"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_parity."); - } -} - -void GSM48__bcap__parity::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -text_buf.push_int(enum_value); -} - -void GSM48__bcap__parity::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_bcap_parity.", enum_value); -} - -void GSM48__bcap__parity::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__bcap__parity::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__bcap__parity::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 3, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__bcap__parity::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 3); -} - -void GSM48__bcap__parity_template::copy_template(const GSM48__bcap__parity_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__bcap__parity_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_parity."); -} -} - -GSM48__bcap__parity_template::GSM48__bcap__parity_template() -{ -} - -GSM48__bcap__parity_template::GSM48__bcap__parity_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__bcap__parity_template::GSM48__bcap__parity_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__bcap__parity::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_bcap_parity with unknown numeric value %d.", other_value); -single_value = (GSM48__bcap__parity::enum_type)other_value; -} - -GSM48__bcap__parity_template::GSM48__bcap__parity_template(GSM48__bcap__parity::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__bcap__parity_template::GSM48__bcap__parity_template(const GSM48__bcap__parity& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__bcap__parity::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity."); -single_value = other_value.enum_value; -} - -GSM48__bcap__parity_template::GSM48__bcap__parity_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__parity::enum_type)(const GSM48__bcap__parity&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_bcap_parity from an unbound optional field."); -} -} - -GSM48__bcap__parity_template::GSM48__bcap__parity_template(const GSM48__bcap__parity_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__bcap__parity_template::~GSM48__bcap__parity_template() -{ -clean_up(); -} - -boolean GSM48__bcap__parity_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__bcap__parity_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__bcap__parity::UNBOUND_VALUE; -} - -void GSM48__bcap__parity_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__bcap__parity_template& GSM48__bcap__parity_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__bcap__parity_template& GSM48__bcap__parity_template::operator=(int other_value) -{ -if (!GSM48__bcap__parity::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_bcap_parity.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__parity::enum_type)other_value; -return *this; -} - -GSM48__bcap__parity_template& GSM48__bcap__parity_template::operator=(GSM48__bcap__parity::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__bcap__parity_template& GSM48__bcap__parity_template::operator=(const GSM48__bcap__parity& other_value) -{ -if (other_value.enum_value == GSM48__bcap__parity::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_parity to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__bcap__parity_template& GSM48__bcap__parity_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__parity::enum_type)(const GSM48__bcap__parity&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_bcap_parity."); -} -return *this; -} - -GSM48__bcap__parity_template& GSM48__bcap__parity_template::operator=(const GSM48__bcap__parity_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__bcap__parity_template::match(GSM48__bcap__parity::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_parity."); -} -return FALSE; -} - -boolean GSM48__bcap__parity_template::match(const GSM48__bcap__parity& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__bcap__parity::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_bcap_parity with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__bcap__parity::enum_type GSM48__bcap__parity_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_bcap_parity."); -return single_value; -} - -void GSM48__bcap__parity_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_bcap_parity."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__bcap__parity_template[list_length]; -} - -GSM48__bcap__parity_template& GSM48__bcap__parity_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_bcap_parity."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_bcap_parity."); -return value_list.list_value[list_index]; -} - -void GSM48__bcap__parity_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__bcap__parity::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__bcap__parity_template::log_match(const GSM48__bcap__parity& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__bcap__parity_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_parity."); -} -} - -void GSM48__bcap__parity_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__bcap__parity::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__bcap__parity::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_bcap_parity.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__bcap__parity_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_bcap_parity."); -} -} - -boolean GSM48__bcap__parity_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__bcap__parity_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__bcap__parity_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__bcap__parity::enum_type enum_val = GSM48__bcap__parity::str_to_enum(m_p->get_enumerated()); - if (!GSM48__bcap__parity::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_parity."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_bcap_parity"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__bcap__parity_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_bcap_parity"); -} - -GSM48__bcap__interm__rate::GSM48__bcap__interm__rate() -{ -enum_value = UNBOUND_VALUE; -} - -GSM48__bcap__interm__rate::GSM48__bcap__interm__rate(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_bcap_interm_rate with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -GSM48__bcap__interm__rate::GSM48__bcap__interm__rate(enum_type other_value) -{ -enum_value = other_value; -} - -GSM48__bcap__interm__rate::GSM48__bcap__interm__rate(const GSM48__bcap__interm__rate& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -enum_value = other_value.enum_value; -} - -GSM48__bcap__interm__rate& GSM48__bcap__interm__rate::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_interm_rate.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -GSM48__bcap__interm__rate& GSM48__bcap__interm__rate::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -GSM48__bcap__interm__rate& GSM48__bcap__interm__rate::operator=(const GSM48__bcap__interm__rate& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -enum_value = other_value.enum_value; -return *this; -} - -boolean GSM48__bcap__interm__rate::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -return enum_value == other_value; -} - -boolean GSM48__bcap__interm__rate::operator==(const GSM48__bcap__interm__rate& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -return enum_value == other_value.enum_value; -} - -boolean GSM48__bcap__interm__rate::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -return enum_value < other_value; -} - -boolean GSM48__bcap__interm__rate::operator<(const GSM48__bcap__interm__rate& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -return enum_value < other_value.enum_value; -} - -boolean GSM48__bcap__interm__rate::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -return enum_value > other_value; -} - -boolean GSM48__bcap__interm__rate::operator>(const GSM48__bcap__interm__rate& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__bcap__interm__rate::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__BCAP__IR__NONE: return "GSM48_BCAP_IR_NONE"; -case GSM48__BCAP__IR__8k: return "GSM48_BCAP_IR_8k"; -case GSM48__BCAP__IR__16k: return "GSM48_BCAP_IR_16k"; -default: return ""; -} -} - -GSM48__bcap__interm__rate::enum_type GSM48__bcap__interm__rate::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_BCAP_IR_NONE")) return GSM48__BCAP__IR__NONE; -else if (!strcmp(str_par, "GSM48_BCAP_IR_8k")) return GSM48__BCAP__IR__8k; -else if (!strcmp(str_par, "GSM48_BCAP_IR_16k")) return GSM48__BCAP__IR__16k; -else return UNKNOWN_VALUE; -} - -boolean GSM48__bcap__interm__rate::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 2: -case 3: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__bcap__interm__rate::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__bcap__interm__rate::enum2int(const GSM48__bcap__interm__rate& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__bcap__interm__rate::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_interm_rate.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__bcap__interm__rate::operator GSM48__bcap__interm__rate::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -return enum_value; -} - -void GSM48__bcap__interm__rate::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__bcap__interm__rate::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_bcap_interm_rate"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_interm_rate."); - } -} - -void GSM48__bcap__interm__rate::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -text_buf.push_int(enum_value); -} - -void GSM48__bcap__interm__rate::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_bcap_interm_rate.", enum_value); -} - -void GSM48__bcap__interm__rate::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__bcap__interm__rate::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__bcap__interm__rate::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 2, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__bcap__interm__rate::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 2); -} - -void GSM48__bcap__interm__rate_template::copy_template(const GSM48__bcap__interm__rate_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__bcap__interm__rate_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -} -} - -GSM48__bcap__interm__rate_template::GSM48__bcap__interm__rate_template() -{ -} - -GSM48__bcap__interm__rate_template::GSM48__bcap__interm__rate_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__bcap__interm__rate_template::GSM48__bcap__interm__rate_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__bcap__interm__rate::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate with unknown numeric value %d.", other_value); -single_value = (GSM48__bcap__interm__rate::enum_type)other_value; -} - -GSM48__bcap__interm__rate_template::GSM48__bcap__interm__rate_template(GSM48__bcap__interm__rate::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__bcap__interm__rate_template::GSM48__bcap__interm__rate_template(const GSM48__bcap__interm__rate& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__bcap__interm__rate::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -single_value = other_value.enum_value; -} - -GSM48__bcap__interm__rate_template::GSM48__bcap__interm__rate_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__interm__rate::enum_type)(const GSM48__bcap__interm__rate&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate from an unbound optional field."); -} -} - -GSM48__bcap__interm__rate_template::GSM48__bcap__interm__rate_template(const GSM48__bcap__interm__rate_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__bcap__interm__rate_template::~GSM48__bcap__interm__rate_template() -{ -clean_up(); -} - -boolean GSM48__bcap__interm__rate_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__bcap__interm__rate_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__bcap__interm__rate::UNBOUND_VALUE; -} - -void GSM48__bcap__interm__rate_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__bcap__interm__rate_template& GSM48__bcap__interm__rate_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__bcap__interm__rate_template& GSM48__bcap__interm__rate_template::operator=(int other_value) -{ -if (!GSM48__bcap__interm__rate::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__interm__rate::enum_type)other_value; -return *this; -} - -GSM48__bcap__interm__rate_template& GSM48__bcap__interm__rate_template::operator=(GSM48__bcap__interm__rate::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__bcap__interm__rate_template& GSM48__bcap__interm__rate_template::operator=(const GSM48__bcap__interm__rate& other_value) -{ -if (other_value.enum_value == GSM48__bcap__interm__rate::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_interm_rate to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__bcap__interm__rate_template& GSM48__bcap__interm__rate_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__interm__rate::enum_type)(const GSM48__bcap__interm__rate&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -} -return *this; -} - -GSM48__bcap__interm__rate_template& GSM48__bcap__interm__rate_template::operator=(const GSM48__bcap__interm__rate_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__bcap__interm__rate_template::match(GSM48__bcap__interm__rate::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -} -return FALSE; -} - -boolean GSM48__bcap__interm__rate_template::match(const GSM48__bcap__interm__rate& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__bcap__interm__rate::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__bcap__interm__rate::enum_type GSM48__bcap__interm__rate_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -return single_value; -} - -void GSM48__bcap__interm__rate_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__bcap__interm__rate_template[list_length]; -} - -GSM48__bcap__interm__rate_template& GSM48__bcap__interm__rate_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -return value_list.list_value[list_index]; -} - -void GSM48__bcap__interm__rate_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__bcap__interm__rate::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__bcap__interm__rate_template::log_match(const GSM48__bcap__interm__rate& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__bcap__interm__rate_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -} -} - -void GSM48__bcap__interm__rate_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__bcap__interm__rate::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__bcap__interm__rate::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__bcap__interm__rate_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_bcap_interm_rate."); -} -} - -boolean GSM48__bcap__interm__rate_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__bcap__interm__rate_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__bcap__interm__rate_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__bcap__interm__rate::enum_type enum_val = GSM48__bcap__interm__rate::str_to_enum(m_p->get_enumerated()); - if (!GSM48__bcap__interm__rate::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_interm_rate."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_bcap_interm_rate"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__bcap__interm__rate_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_bcap_interm_rate"); -} - -GSM48__bcap__transp::GSM48__bcap__transp() -{ -enum_value = UNBOUND_VALUE; -} - -GSM48__bcap__transp::GSM48__bcap__transp(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_bcap_transp with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -GSM48__bcap__transp::GSM48__bcap__transp(enum_type other_value) -{ -enum_value = other_value; -} - -GSM48__bcap__transp::GSM48__bcap__transp(const GSM48__bcap__transp& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -enum_value = other_value.enum_value; -} - -GSM48__bcap__transp& GSM48__bcap__transp::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_transp.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -GSM48__bcap__transp& GSM48__bcap__transp::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -GSM48__bcap__transp& GSM48__bcap__transp::operator=(const GSM48__bcap__transp& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -enum_value = other_value.enum_value; -return *this; -} - -boolean GSM48__bcap__transp::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -return enum_value == other_value; -} - -boolean GSM48__bcap__transp::operator==(const GSM48__bcap__transp& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -return enum_value == other_value.enum_value; -} - -boolean GSM48__bcap__transp::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -return enum_value < other_value; -} - -boolean GSM48__bcap__transp::operator<(const GSM48__bcap__transp& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -return enum_value < other_value.enum_value; -} - -boolean GSM48__bcap__transp::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -return enum_value > other_value; -} - -boolean GSM48__bcap__transp::operator>(const GSM48__bcap__transp& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__bcap__transp::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__BCAP__TR__TRANSP: return "GSM48_BCAP_TR_TRANSP"; -case GSM48__BCAP__TR__RLP: return "GSM48_BCAP_TR_RLP"; -case GSM48__BCAP__TR__TR__PREF: return "GSM48_BCAP_TR_TR_PREF"; -case GSM48__BCAP__TR__RLP__PREF: return "GSM48_BCAP_TR_RLP_PREF"; -default: return ""; -} -} - -GSM48__bcap__transp::enum_type GSM48__bcap__transp::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_BCAP_TR_TRANSP")) return GSM48__BCAP__TR__TRANSP; -else if (!strcmp(str_par, "GSM48_BCAP_TR_RLP")) return GSM48__BCAP__TR__RLP; -else if (!strcmp(str_par, "GSM48_BCAP_TR_TR_PREF")) return GSM48__BCAP__TR__TR__PREF; -else if (!strcmp(str_par, "GSM48_BCAP_TR_RLP_PREF")) return GSM48__BCAP__TR__RLP__PREF; -else return UNKNOWN_VALUE; -} - -boolean GSM48__bcap__transp::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__bcap__transp::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_transp.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__bcap__transp::enum2int(const GSM48__bcap__transp& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_transp.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__bcap__transp::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_transp.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__bcap__transp::operator GSM48__bcap__transp::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_bcap_transp."); -return enum_value; -} - -void GSM48__bcap__transp::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__bcap__transp::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_bcap_transp"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_transp."); - } -} - -void GSM48__bcap__transp::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -text_buf.push_int(enum_value); -} - -void GSM48__bcap__transp::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_bcap_transp.", enum_value); -} - -void GSM48__bcap__transp::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__bcap__transp::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__bcap__transp::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 3, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__bcap__transp::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 3); -} - -void GSM48__bcap__transp_template::copy_template(const GSM48__bcap__transp_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__bcap__transp_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_transp."); -} -} - -GSM48__bcap__transp_template::GSM48__bcap__transp_template() -{ -} - -GSM48__bcap__transp_template::GSM48__bcap__transp_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__bcap__transp_template::GSM48__bcap__transp_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__bcap__transp::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_bcap_transp with unknown numeric value %d.", other_value); -single_value = (GSM48__bcap__transp::enum_type)other_value; -} - -GSM48__bcap__transp_template::GSM48__bcap__transp_template(GSM48__bcap__transp::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__bcap__transp_template::GSM48__bcap__transp_template(const GSM48__bcap__transp& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__bcap__transp::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp."); -single_value = other_value.enum_value; -} - -GSM48__bcap__transp_template::GSM48__bcap__transp_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__transp::enum_type)(const GSM48__bcap__transp&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_bcap_transp from an unbound optional field."); -} -} - -GSM48__bcap__transp_template::GSM48__bcap__transp_template(const GSM48__bcap__transp_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__bcap__transp_template::~GSM48__bcap__transp_template() -{ -clean_up(); -} - -boolean GSM48__bcap__transp_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__bcap__transp_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__bcap__transp::UNBOUND_VALUE; -} - -void GSM48__bcap__transp_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__bcap__transp_template& GSM48__bcap__transp_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__bcap__transp_template& GSM48__bcap__transp_template::operator=(int other_value) -{ -if (!GSM48__bcap__transp::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_bcap_transp.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__transp::enum_type)other_value; -return *this; -} - -GSM48__bcap__transp_template& GSM48__bcap__transp_template::operator=(GSM48__bcap__transp::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__bcap__transp_template& GSM48__bcap__transp_template::operator=(const GSM48__bcap__transp& other_value) -{ -if (other_value.enum_value == GSM48__bcap__transp::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_transp to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__bcap__transp_template& GSM48__bcap__transp_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__transp::enum_type)(const GSM48__bcap__transp&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_bcap_transp."); -} -return *this; -} - -GSM48__bcap__transp_template& GSM48__bcap__transp_template::operator=(const GSM48__bcap__transp_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__bcap__transp_template::match(GSM48__bcap__transp::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_transp."); -} -return FALSE; -} - -boolean GSM48__bcap__transp_template::match(const GSM48__bcap__transp& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__bcap__transp::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_bcap_transp with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__bcap__transp::enum_type GSM48__bcap__transp_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_bcap_transp."); -return single_value; -} - -void GSM48__bcap__transp_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_bcap_transp."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__bcap__transp_template[list_length]; -} - -GSM48__bcap__transp_template& GSM48__bcap__transp_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_bcap_transp."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_bcap_transp."); -return value_list.list_value[list_index]; -} - -void GSM48__bcap__transp_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__bcap__transp::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__bcap__transp_template::log_match(const GSM48__bcap__transp& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__bcap__transp_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_transp."); -} -} - -void GSM48__bcap__transp_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__bcap__transp::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__bcap__transp::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_bcap_transp.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__bcap__transp_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_bcap_transp."); -} -} - -boolean GSM48__bcap__transp_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__bcap__transp_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__bcap__transp_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__bcap__transp::enum_type enum_val = GSM48__bcap__transp::str_to_enum(m_p->get_enumerated()); - if (!GSM48__bcap__transp::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_transp."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_bcap_transp"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__bcap__transp_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_bcap_transp"); -} - -GSM48__bcap__modem__type::GSM48__bcap__modem__type() -{ -enum_value = UNBOUND_VALUE; -} - -GSM48__bcap__modem__type::GSM48__bcap__modem__type(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_bcap_modem_type with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -GSM48__bcap__modem__type::GSM48__bcap__modem__type(enum_type other_value) -{ -enum_value = other_value; -} - -GSM48__bcap__modem__type::GSM48__bcap__modem__type(const GSM48__bcap__modem__type& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -enum_value = other_value.enum_value; -} - -GSM48__bcap__modem__type& GSM48__bcap__modem__type::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_modem_type.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -GSM48__bcap__modem__type& GSM48__bcap__modem__type::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -GSM48__bcap__modem__type& GSM48__bcap__modem__type::operator=(const GSM48__bcap__modem__type& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -enum_value = other_value.enum_value; -return *this; -} - -boolean GSM48__bcap__modem__type::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -return enum_value == other_value; -} - -boolean GSM48__bcap__modem__type::operator==(const GSM48__bcap__modem__type& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -return enum_value == other_value.enum_value; -} - -boolean GSM48__bcap__modem__type::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -return enum_value < other_value; -} - -boolean GSM48__bcap__modem__type::operator<(const GSM48__bcap__modem__type& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -return enum_value < other_value.enum_value; -} - -boolean GSM48__bcap__modem__type::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -return enum_value > other_value; -} - -boolean GSM48__bcap__modem__type::operator>(const GSM48__bcap__modem__type& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__bcap__modem__type::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__BCAP__MT__NONE: return "GSM48_BCAP_MT_NONE"; -case GSM48__BCAP__MT__V21: return "GSM48_BCAP_MT_V21"; -case GSM48__BCAP__MT__V22: return "GSM48_BCAP_MT_V22"; -case GSM48__BCAP__MT__V22bis: return "GSM48_BCAP_MT_V22bis"; -case GSM48__BCAP__MT__V23: return "GSM48_BCAP_MT_V23"; -case GSM48__BCAP__MT__V26ter: return "GSM48_BCAP_MT_V26ter"; -case GSM48__BCAP__MT__V32: return "GSM48_BCAP_MT_V32"; -case GSM48__BCAP__MT__UNDEF: return "GSM48_BCAP_MT_UNDEF"; -case GSM48__BCAP__MT__AUTO__1: return "GSM48_BCAP_MT_AUTO_1"; -default: return ""; -} -} - -GSM48__bcap__modem__type::enum_type GSM48__bcap__modem__type::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_BCAP_MT_NONE")) return GSM48__BCAP__MT__NONE; -else if (!strcmp(str_par, "GSM48_BCAP_MT_V21")) return GSM48__BCAP__MT__V21; -else if (!strcmp(str_par, "GSM48_BCAP_MT_V22")) return GSM48__BCAP__MT__V22; -else if (!strcmp(str_par, "GSM48_BCAP_MT_V22bis")) return GSM48__BCAP__MT__V22bis; -else if (!strcmp(str_par, "GSM48_BCAP_MT_V23")) return GSM48__BCAP__MT__V23; -else if (!strcmp(str_par, "GSM48_BCAP_MT_V26ter")) return GSM48__BCAP__MT__V26ter; -else if (!strcmp(str_par, "GSM48_BCAP_MT_V32")) return GSM48__BCAP__MT__V32; -else if (!strcmp(str_par, "GSM48_BCAP_MT_UNDEF")) return GSM48__BCAP__MT__UNDEF; -else if (!strcmp(str_par, "GSM48_BCAP_MT_AUTO_1")) return GSM48__BCAP__MT__AUTO__1; -else return UNKNOWN_VALUE; -} - -boolean GSM48__bcap__modem__type::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -case 4: -case 5: -case 6: -case 7: -case 8: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__bcap__modem__type::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_modem_type.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__bcap__modem__type::enum2int(const GSM48__bcap__modem__type& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_bcap_modem_type.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__bcap__modem__type::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_bcap_modem_type.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__bcap__modem__type::operator GSM48__bcap__modem__type::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -return enum_value; -} - -void GSM48__bcap__modem__type::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__bcap__modem__type::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_bcap_modem_type"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_modem_type."); - } -} - -void GSM48__bcap__modem__type::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -text_buf.push_int(enum_value); -} - -void GSM48__bcap__modem__type::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_bcap_modem_type.", enum_value); -} - -void GSM48__bcap__modem__type::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__bcap__modem__type::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__bcap__modem__type::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 4, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__bcap__modem__type::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 4); -} - -void GSM48__bcap__modem__type_template::copy_template(const GSM48__bcap__modem__type_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__bcap__modem__type_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -} -} - -GSM48__bcap__modem__type_template::GSM48__bcap__modem__type_template() -{ -} - -GSM48__bcap__modem__type_template::GSM48__bcap__modem__type_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__bcap__modem__type_template::GSM48__bcap__modem__type_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__bcap__modem__type::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_bcap_modem_type with unknown numeric value %d.", other_value); -single_value = (GSM48__bcap__modem__type::enum_type)other_value; -} - -GSM48__bcap__modem__type_template::GSM48__bcap__modem__type_template(GSM48__bcap__modem__type::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__bcap__modem__type_template::GSM48__bcap__modem__type_template(const GSM48__bcap__modem__type& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__bcap__modem__type::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -single_value = other_value.enum_value; -} - -GSM48__bcap__modem__type_template::GSM48__bcap__modem__type_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__modem__type::enum_type)(const GSM48__bcap__modem__type&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_bcap_modem_type from an unbound optional field."); -} -} - -GSM48__bcap__modem__type_template::GSM48__bcap__modem__type_template(const GSM48__bcap__modem__type_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__bcap__modem__type_template::~GSM48__bcap__modem__type_template() -{ -clean_up(); -} - -boolean GSM48__bcap__modem__type_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__bcap__modem__type_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__bcap__modem__type::UNBOUND_VALUE; -} - -void GSM48__bcap__modem__type_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__bcap__modem__type_template& GSM48__bcap__modem__type_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__bcap__modem__type_template& GSM48__bcap__modem__type_template::operator=(int other_value) -{ -if (!GSM48__bcap__modem__type::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_bcap_modem_type.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__modem__type::enum_type)other_value; -return *this; -} - -GSM48__bcap__modem__type_template& GSM48__bcap__modem__type_template::operator=(GSM48__bcap__modem__type::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__bcap__modem__type_template& GSM48__bcap__modem__type_template::operator=(const GSM48__bcap__modem__type& other_value) -{ -if (other_value.enum_value == GSM48__bcap__modem__type::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_bcap_modem_type to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__bcap__modem__type_template& GSM48__bcap__modem__type_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__bcap__modem__type::enum_type)(const GSM48__bcap__modem__type&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -} -return *this; -} - -GSM48__bcap__modem__type_template& GSM48__bcap__modem__type_template::operator=(const GSM48__bcap__modem__type_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__bcap__modem__type_template::match(GSM48__bcap__modem__type::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -} -return FALSE; -} - -boolean GSM48__bcap__modem__type_template::match(const GSM48__bcap__modem__type& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__bcap__modem__type::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_bcap_modem_type with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__bcap__modem__type::enum_type GSM48__bcap__modem__type_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -return single_value; -} - -void GSM48__bcap__modem__type_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__bcap__modem__type_template[list_length]; -} - -GSM48__bcap__modem__type_template& GSM48__bcap__modem__type_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -return value_list.list_value[list_index]; -} - -void GSM48__bcap__modem__type_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__bcap__modem__type::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__bcap__modem__type_template::log_match(const GSM48__bcap__modem__type& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__bcap__modem__type_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -} -} - -void GSM48__bcap__modem__type_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__bcap__modem__type::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__bcap__modem__type::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_bcap_modem_type.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__bcap__modem__type_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_bcap_modem_type."); -} -} - -boolean GSM48__bcap__modem__type_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__bcap__modem__type_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__bcap__modem__type_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__bcap__modem__type::enum_type enum_val = GSM48__bcap__modem__type::str_to_enum(m_p->get_enumerated()); - if (!GSM48__bcap__modem__type::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_bcap_modem_type."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_bcap_modem_type"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__bcap__modem__type_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_bcap_modem_type"); -} - -MNCC__MsgType::MNCC__MsgType() -{ -enum_value = UNBOUND_VALUE; -} - -MNCC__MsgType::MNCC__MsgType(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.MNCC_MsgType with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -MNCC__MsgType::MNCC__MsgType(enum_type other_value) -{ -enum_value = other_value; -} - -MNCC__MsgType::MNCC__MsgType(const MNCC__MsgType& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -enum_value = other_value.enum_value; -} - -MNCC__MsgType& MNCC__MsgType::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.MNCC_MsgType.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -MNCC__MsgType& MNCC__MsgType::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -MNCC__MsgType& MNCC__MsgType::operator=(const MNCC__MsgType& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -enum_value = other_value.enum_value; -return *this; -} - -boolean MNCC__MsgType::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -return enum_value == other_value; -} - -boolean MNCC__MsgType::operator==(const MNCC__MsgType& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -return enum_value == other_value.enum_value; -} - -boolean MNCC__MsgType::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -return enum_value < other_value; -} - -boolean MNCC__MsgType::operator<(const MNCC__MsgType& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -return enum_value < other_value.enum_value; -} - -boolean MNCC__MsgType::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -return enum_value > other_value; -} - -boolean MNCC__MsgType::operator>(const MNCC__MsgType& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -return enum_value > other_value.enum_value; -} - -const char *MNCC__MsgType::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case MNCC__SETUP__REQ: return "MNCC_SETUP_REQ"; -case MNCC__SETUP__IND: return "MNCC_SETUP_IND"; -case MNCC__SETUP__RSP: return "MNCC_SETUP_RSP"; -case MNCC__SETUP__CNF: return "MNCC_SETUP_CNF"; -case MNCC__SETUP__COMPL__REQ: return "MNCC_SETUP_COMPL_REQ"; -case MNCC__SETUP__COMPL__IND: return "MNCC_SETUP_COMPL_IND"; -case MNCC__CALL__CONF__IND: return "MNCC_CALL_CONF_IND"; -case MNCC__CALL__PROC__REQ: return "MNCC_CALL_PROC_REQ"; -case MNCC__PROGRESS__REQ: return "MNCC_PROGRESS_REQ"; -case MNCC__ALERT__REQ: return "MNCC_ALERT_REQ"; -case MNCC__ALERT__IND: return "MNCC_ALERT_IND"; -case MNCC__NOTIFY__REQ: return "MNCC_NOTIFY_REQ"; -case MNCC__NOTIFY__IND: return "MNCC_NOTIFY_IND"; -case MNCC__DISC__REQ: return "MNCC_DISC_REQ"; -case MNCC__DISC__IND: return "MNCC_DISC_IND"; -case MNCC__REL__REQ: return "MNCC_REL_REQ"; -case MNCC__REL__IND: return "MNCC_REL_IND"; -case MNCC__REL__CNF: return "MNCC_REL_CNF"; -case MNCC__FACILITY__REQ: return "MNCC_FACILITY_REQ"; -case MNCC__FACILITY__IND: return "MNCC_FACILITY_IND"; -case MNCC__START__DTMF__IND: return "MNCC_START_DTMF_IND"; -case MNCC__START__DTMF__RSP: return "MNCC_START_DTMF_RSP"; -case MNCC__START__DTMF__REJ: return "MNCC_START_DTMF_REJ"; -case MNCC__STOP__DTMF__IND: return "MNCC_STOP_DTMF_IND"; -case MNCC__STOP__DTMF__RSP: return "MNCC_STOP_DTMF_RSP"; -case MNCC__MODIFY__REQ: return "MNCC_MODIFY_REQ"; -case MNCC__MODIFY__IND: return "MNCC_MODIFY_IND"; -case MNCC__MODIFY__RSP: return "MNCC_MODIFY_RSP"; -case MNCC__MODIFY__CNF: return "MNCC_MODIFY_CNF"; -case MNCC__MODIFY__REJ: return "MNCC_MODIFY_REJ"; -case MNCC__HOLD__IND: return "MNCC_HOLD_IND"; -case MNCC__HOLD__CNF: return "MNCC_HOLD_CNF"; -case MNCC__HOLD__REJ: return "MNCC_HOLD_REJ"; -case MNCC__RETRIEVE__IND: return "MNCC_RETRIEVE_IND"; -case MNCC__RETRIEVE__CNF: return "MNCC_RETRIEVE_CNF"; -case MNCC__RETRIEVE__REJ: return "MNCC_RETRIEVE_REJ"; -case MNCC__USERINFO__REQ: return "MNCC_USERINFO_REQ"; -case MNCC__USERINFO__IND: return "MNCC_USERINFO_IND"; -case MNCC__REJ__REQ: return "MNCC_REJ_REQ"; -case MNCC__REJ__IND: return "MNCC_REJ_IND"; -case MNCC__PROGRESS__IND: return "MNCC_PROGRESS_IND"; -case MNCC__CALL__PROC__IND: return "MNCC_CALL_PROC_IND"; -case MNCC__CALL__CONF__REQ: return "MNCC_CALL_CONF_REQ"; -case MNCC__START__DTMF__REQ: return "MNCC_START_DTMF_REQ"; -case MNCC__STOP__DTMF__REQ: return "MNCC_STOP_DTMF_REQ"; -case MNCC__HOLD__REQ: return "MNCC_HOLD_REQ"; -case MNCC__RETRIEVE__REQ: return "MNCC_RETRIEVE_REQ"; -case MNCC__BRIDGE: return "MNCC_BRIDGE"; -case MNCC__FRAME__RECV: return "MNCC_FRAME_RECV"; -case MNCC__FRAME__DROP: return "MNCC_FRAME_DROP"; -case MNCC__LCHAN__MODIFY: return "MNCC_LCHAN_MODIFY"; -case MNCC__RTP__CREATE: return "MNCC_RTP_CREATE"; -case MNCC__RTP__CONNECT: return "MNCC_RTP_CONNECT"; -case MNCC__RTP__FREE: return "MNCC_RTP_FREE"; -case GSM__TCHF__FRAME: return "GSM_TCHF_FRAME"; -case GSM__TCHF__FRAME__EFR: return "GSM_TCHF_FRAME_EFR"; -case GSM__TCHH__FRAME: return "GSM_TCHH_FRAME"; -case GSM__TCH__FRAME__AMR: return "GSM_TCH_FRAME_AMR"; -case GSM__BAD__FRAME: return "GSM_BAD_FRAME"; -case MNCC__SOCKET__HELLO: return "MNCC_SOCKET_HELLO"; -default: return ""; -} -} - -MNCC__MsgType::enum_type MNCC__MsgType::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "MNCC_SETUP_REQ")) return MNCC__SETUP__REQ; -else if (!strcmp(str_par, "MNCC_SETUP_IND")) return MNCC__SETUP__IND; -else if (!strcmp(str_par, "MNCC_SETUP_RSP")) return MNCC__SETUP__RSP; -else if (!strcmp(str_par, "MNCC_SETUP_CNF")) return MNCC__SETUP__CNF; -else if (!strcmp(str_par, "MNCC_SETUP_COMPL_REQ")) return MNCC__SETUP__COMPL__REQ; -else if (!strcmp(str_par, "MNCC_SETUP_COMPL_IND")) return MNCC__SETUP__COMPL__IND; -else if (!strcmp(str_par, "MNCC_CALL_CONF_IND")) return MNCC__CALL__CONF__IND; -else if (!strcmp(str_par, "MNCC_CALL_PROC_REQ")) return MNCC__CALL__PROC__REQ; -else if (!strcmp(str_par, "MNCC_PROGRESS_REQ")) return MNCC__PROGRESS__REQ; -else if (!strcmp(str_par, "MNCC_ALERT_REQ")) return MNCC__ALERT__REQ; -else if (!strcmp(str_par, "MNCC_ALERT_IND")) return MNCC__ALERT__IND; -else if (!strcmp(str_par, "MNCC_NOTIFY_REQ")) return MNCC__NOTIFY__REQ; -else if (!strcmp(str_par, "MNCC_NOTIFY_IND")) return MNCC__NOTIFY__IND; -else if (!strcmp(str_par, "MNCC_DISC_REQ")) return MNCC__DISC__REQ; -else if (!strcmp(str_par, "MNCC_DISC_IND")) return MNCC__DISC__IND; -else if (!strcmp(str_par, "MNCC_REL_REQ")) return MNCC__REL__REQ; -else if (!strcmp(str_par, "MNCC_REL_IND")) return MNCC__REL__IND; -else if (!strcmp(str_par, "MNCC_REL_CNF")) return MNCC__REL__CNF; -else if (!strcmp(str_par, "MNCC_FACILITY_REQ")) return MNCC__FACILITY__REQ; -else if (!strcmp(str_par, "MNCC_FACILITY_IND")) return MNCC__FACILITY__IND; -else if (!strcmp(str_par, "MNCC_START_DTMF_IND")) return MNCC__START__DTMF__IND; -else if (!strcmp(str_par, "MNCC_START_DTMF_RSP")) return MNCC__START__DTMF__RSP; -else if (!strcmp(str_par, "MNCC_START_DTMF_REJ")) return MNCC__START__DTMF__REJ; -else if (!strcmp(str_par, "MNCC_STOP_DTMF_IND")) return MNCC__STOP__DTMF__IND; -else if (!strcmp(str_par, "MNCC_STOP_DTMF_RSP")) return MNCC__STOP__DTMF__RSP; -else if (!strcmp(str_par, "MNCC_MODIFY_REQ")) return MNCC__MODIFY__REQ; -else if (!strcmp(str_par, "MNCC_MODIFY_IND")) return MNCC__MODIFY__IND; -else if (!strcmp(str_par, "MNCC_MODIFY_RSP")) return MNCC__MODIFY__RSP; -else if (!strcmp(str_par, "MNCC_MODIFY_CNF")) return MNCC__MODIFY__CNF; -else if (!strcmp(str_par, "MNCC_MODIFY_REJ")) return MNCC__MODIFY__REJ; -else if (!strcmp(str_par, "MNCC_HOLD_IND")) return MNCC__HOLD__IND; -else if (!strcmp(str_par, "MNCC_HOLD_CNF")) return MNCC__HOLD__CNF; -else if (!strcmp(str_par, "MNCC_HOLD_REJ")) return MNCC__HOLD__REJ; -else if (!strcmp(str_par, "MNCC_RETRIEVE_IND")) return MNCC__RETRIEVE__IND; -else if (!strcmp(str_par, "MNCC_RETRIEVE_CNF")) return MNCC__RETRIEVE__CNF; -else if (!strcmp(str_par, "MNCC_RETRIEVE_REJ")) return MNCC__RETRIEVE__REJ; -else if (!strcmp(str_par, "MNCC_USERINFO_REQ")) return MNCC__USERINFO__REQ; -else if (!strcmp(str_par, "MNCC_USERINFO_IND")) return MNCC__USERINFO__IND; -else if (!strcmp(str_par, "MNCC_REJ_REQ")) return MNCC__REJ__REQ; -else if (!strcmp(str_par, "MNCC_REJ_IND")) return MNCC__REJ__IND; -else if (!strcmp(str_par, "MNCC_PROGRESS_IND")) return MNCC__PROGRESS__IND; -else if (!strcmp(str_par, "MNCC_CALL_PROC_IND")) return MNCC__CALL__PROC__IND; -else if (!strcmp(str_par, "MNCC_CALL_CONF_REQ")) return MNCC__CALL__CONF__REQ; -else if (!strcmp(str_par, "MNCC_START_DTMF_REQ")) return MNCC__START__DTMF__REQ; -else if (!strcmp(str_par, "MNCC_STOP_DTMF_REQ")) return MNCC__STOP__DTMF__REQ; -else if (!strcmp(str_par, "MNCC_HOLD_REQ")) return MNCC__HOLD__REQ; -else if (!strcmp(str_par, "MNCC_RETRIEVE_REQ")) return MNCC__RETRIEVE__REQ; -else if (!strcmp(str_par, "MNCC_BRIDGE")) return MNCC__BRIDGE; -else if (!strcmp(str_par, "MNCC_FRAME_RECV")) return MNCC__FRAME__RECV; -else if (!strcmp(str_par, "MNCC_FRAME_DROP")) return MNCC__FRAME__DROP; -else if (!strcmp(str_par, "MNCC_LCHAN_MODIFY")) return MNCC__LCHAN__MODIFY; -else if (!strcmp(str_par, "MNCC_RTP_CREATE")) return MNCC__RTP__CREATE; -else if (!strcmp(str_par, "MNCC_RTP_CONNECT")) return MNCC__RTP__CONNECT; -else if (!strcmp(str_par, "MNCC_RTP_FREE")) return MNCC__RTP__FREE; -else if (!strcmp(str_par, "GSM_TCHF_FRAME")) return GSM__TCHF__FRAME; -else if (!strcmp(str_par, "GSM_TCHF_FRAME_EFR")) return GSM__TCHF__FRAME__EFR; -else if (!strcmp(str_par, "GSM_TCHH_FRAME")) return GSM__TCHH__FRAME; -else if (!strcmp(str_par, "GSM_TCH_FRAME_AMR")) return GSM__TCH__FRAME__AMR; -else if (!strcmp(str_par, "GSM_BAD_FRAME")) return GSM__BAD__FRAME; -else if (!strcmp(str_par, "MNCC_SOCKET_HELLO")) return MNCC__SOCKET__HELLO; -else return UNKNOWN_VALUE; -} - -boolean MNCC__MsgType::is_valid_enum(int int_par) -{ -switch (int_par) { -case 257: -case 258: -case 259: -case 260: -case 261: -case 262: -case 263: -case 264: -case 265: -case 266: -case 267: -case 268: -case 269: -case 270: -case 271: -case 272: -case 273: -case 274: -case 275: -case 276: -case 277: -case 278: -case 279: -case 280: -case 281: -case 282: -case 283: -case 284: -case 285: -case 286: -case 287: -case 288: -case 289: -case 290: -case 291: -case 292: -case 293: -case 294: -case 295: -case 296: -case 297: -case 298: -case 299: -case 300: -case 301: -case 302: -case 303: -case 512: -case 513: -case 514: -case 515: -case 516: -case 517: -case 518: -case 768: -case 769: -case 770: -case 771: -case 1023: -case 1024: -return TRUE; -default: -return FALSE; -} -} - -int MNCC__MsgType::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.MNCC_MsgType.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int MNCC__MsgType::enum2int(const MNCC__MsgType& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.MNCC_MsgType.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void MNCC__MsgType::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.MNCC_MsgType.", int_val); -enum_value = (enum_type)int_val; -} - -MNCC__MsgType::operator MNCC__MsgType::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.MNCC_MsgType."); -return enum_value; -} - -void MNCC__MsgType::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void MNCC__MsgType::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.MNCC_MsgType"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.MNCC_MsgType."); - } -} - -void MNCC__MsgType::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -text_buf.push_int(enum_value); -} - -void MNCC__MsgType::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.MNCC_MsgType.", enum_value); -} - -void MNCC__MsgType::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__MsgType::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__MsgType::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 11, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int MNCC__MsgType::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 11); -} - -void MNCC__MsgType_template::copy_template(const MNCC__MsgType_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__MsgType_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.MNCC_MsgType."); -} -} - -MNCC__MsgType_template::MNCC__MsgType_template() -{ -} - -MNCC__MsgType_template::MNCC__MsgType_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__MsgType_template::MNCC__MsgType_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!MNCC__MsgType::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.MNCC_MsgType with unknown numeric value %d.", other_value); -single_value = (MNCC__MsgType::enum_type)other_value; -} - -MNCC__MsgType_template::MNCC__MsgType_template(MNCC__MsgType::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -MNCC__MsgType_template::MNCC__MsgType_template(const MNCC__MsgType& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == MNCC__MsgType::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.MNCC_MsgType."); -single_value = other_value.enum_value; -} - -MNCC__MsgType_template::MNCC__MsgType_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (MNCC__MsgType::enum_type)(const MNCC__MsgType&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.MNCC_MsgType from an unbound optional field."); -} -} - -MNCC__MsgType_template::MNCC__MsgType_template(const MNCC__MsgType_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -MNCC__MsgType_template::~MNCC__MsgType_template() -{ -clean_up(); -} - -boolean MNCC__MsgType_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean MNCC__MsgType_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != MNCC__MsgType::UNBOUND_VALUE; -} - -void MNCC__MsgType_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__MsgType_template& MNCC__MsgType_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__MsgType_template& MNCC__MsgType_template::operator=(int other_value) -{ -if (!MNCC__MsgType::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.MNCC_MsgType.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (MNCC__MsgType::enum_type)other_value; -return *this; -} - -MNCC__MsgType_template& MNCC__MsgType_template::operator=(MNCC__MsgType::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -MNCC__MsgType_template& MNCC__MsgType_template::operator=(const MNCC__MsgType& other_value) -{ -if (other_value.enum_value == MNCC__MsgType::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.MNCC_MsgType to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -MNCC__MsgType_template& MNCC__MsgType_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (MNCC__MsgType::enum_type)(const MNCC__MsgType&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.MNCC_MsgType."); -} -return *this; -} - -MNCC__MsgType_template& MNCC__MsgType_template::operator=(const MNCC__MsgType_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__MsgType_template::match(MNCC__MsgType::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.MNCC_MsgType."); -} -return FALSE; -} - -boolean MNCC__MsgType_template::match(const MNCC__MsgType& other_value, boolean) const -{ -if (other_value.enum_value == MNCC__MsgType::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.MNCC_MsgType with an unbound value."); -return match(other_value.enum_value); -} - -MNCC__MsgType::enum_type MNCC__MsgType_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.MNCC_MsgType."); -return single_value; -} - -void MNCC__MsgType_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.MNCC_MsgType."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__MsgType_template[list_length]; -} - -MNCC__MsgType_template& MNCC__MsgType_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.MNCC_MsgType."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.MNCC_MsgType."); -return value_list.list_value[list_index]; -} - -void MNCC__MsgType_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(MNCC__MsgType::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__MsgType_template::log_match(const MNCC__MsgType& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void MNCC__MsgType_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.MNCC_MsgType."); -} -} - -void MNCC__MsgType_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (MNCC__MsgType::enum_type)text_buf.pull_int().get_val(); -if (!MNCC__MsgType::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.MNCC_MsgType.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__MsgType_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.MNCC_MsgType."); -} -} - -boolean MNCC__MsgType_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__MsgType_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__MsgType_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - MNCC__MsgType::enum_type enum_val = MNCC__MsgType::str_to_enum(m_p->get_enumerated()); - if (!MNCC__MsgType::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.MNCC_MsgType."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.MNCC_MsgType"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__MsgType_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_MsgType"); -} - -MNCC__bearer__cap__data::MNCC__bearer__cap__data() -{ -} - -MNCC__bearer__cap__data::MNCC__bearer__cap__data(const GSM48__bcap__ra& par_rate__adaptation, - const GSM48__bcap__sig__access& par_sig__access, - const INTEGER& par_async, - const INTEGER& par_nr__stop__bits, - const INTEGER& par_nr__data__bits, - const GSM48__bcap__user__rate& par_user__rate, - const GSM48__bcap__parity& par_parity, - const GSM48__bcap__interm__rate& par_interm__rate, - const GSM48__bcap__transp& par_transp, - const GSM48__bcap__modem__type& par_modem__type) - : field_rate__adaptation(par_rate__adaptation), - field_sig__access(par_sig__access), - field_async(par_async), - field_nr__stop__bits(par_nr__stop__bits), - field_nr__data__bits(par_nr__data__bits), - field_user__rate(par_user__rate), - field_parity(par_parity), - field_interm__rate(par_interm__rate), - field_transp(par_transp), - field_modem__type(par_modem__type) -{ -} - -MNCC__bearer__cap__data::MNCC__bearer__cap__data(const MNCC__bearer__cap__data& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_bearer_cap_data."); -if (other_value.rate__adaptation().is_bound()) field_rate__adaptation = other_value.rate__adaptation(); -else field_rate__adaptation.clean_up(); -if (other_value.sig__access().is_bound()) field_sig__access = other_value.sig__access(); -else field_sig__access.clean_up(); -if (other_value.async().is_bound()) field_async = other_value.async(); -else field_async.clean_up(); -if (other_value.nr__stop__bits().is_bound()) field_nr__stop__bits = other_value.nr__stop__bits(); -else field_nr__stop__bits.clean_up(); -if (other_value.nr__data__bits().is_bound()) field_nr__data__bits = other_value.nr__data__bits(); -else field_nr__data__bits.clean_up(); -if (other_value.user__rate().is_bound()) field_user__rate = other_value.user__rate(); -else field_user__rate.clean_up(); -if (other_value.parity().is_bound()) field_parity = other_value.parity(); -else field_parity.clean_up(); -if (other_value.interm__rate().is_bound()) field_interm__rate = other_value.interm__rate(); -else field_interm__rate.clean_up(); -if (other_value.transp().is_bound()) field_transp = other_value.transp(); -else field_transp.clean_up(); -if (other_value.modem__type().is_bound()) field_modem__type = other_value.modem__type(); -else field_modem__type.clean_up(); -} - -void MNCC__bearer__cap__data::clean_up() -{ -field_rate__adaptation.clean_up(); -field_sig__access.clean_up(); -field_async.clean_up(); -field_nr__stop__bits.clean_up(); -field_nr__data__bits.clean_up(); -field_user__rate.clean_up(); -field_parity.clean_up(); -field_interm__rate.clean_up(); -field_transp.clean_up(); -field_modem__type.clean_up(); -} - -const TTCN_Typedescriptor_t* MNCC__bearer__cap__data::get_descriptor() const { return &MNCC__bearer__cap__data_descr_; } -MNCC__bearer__cap__data& MNCC__bearer__cap__data::operator=(const MNCC__bearer__cap__data& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_bearer_cap_data."); - if (other_value.rate__adaptation().is_bound()) field_rate__adaptation = other_value.rate__adaptation(); - else field_rate__adaptation.clean_up(); - if (other_value.sig__access().is_bound()) field_sig__access = other_value.sig__access(); - else field_sig__access.clean_up(); - if (other_value.async().is_bound()) field_async = other_value.async(); - else field_async.clean_up(); - if (other_value.nr__stop__bits().is_bound()) field_nr__stop__bits = other_value.nr__stop__bits(); - else field_nr__stop__bits.clean_up(); - if (other_value.nr__data__bits().is_bound()) field_nr__data__bits = other_value.nr__data__bits(); - else field_nr__data__bits.clean_up(); - if (other_value.user__rate().is_bound()) field_user__rate = other_value.user__rate(); - else field_user__rate.clean_up(); - if (other_value.parity().is_bound()) field_parity = other_value.parity(); - else field_parity.clean_up(); - if (other_value.interm__rate().is_bound()) field_interm__rate = other_value.interm__rate(); - else field_interm__rate.clean_up(); - if (other_value.transp().is_bound()) field_transp = other_value.transp(); - else field_transp.clean_up(); - if (other_value.modem__type().is_bound()) field_modem__type = other_value.modem__type(); - else field_modem__type.clean_up(); -} -return *this; -} - -boolean MNCC__bearer__cap__data::operator==(const MNCC__bearer__cap__data& other_value) const -{ -return field_rate__adaptation==other_value.field_rate__adaptation - && field_sig__access==other_value.field_sig__access - && field_async==other_value.field_async - && field_nr__stop__bits==other_value.field_nr__stop__bits - && field_nr__data__bits==other_value.field_nr__data__bits - && field_user__rate==other_value.field_user__rate - && field_parity==other_value.field_parity - && field_interm__rate==other_value.field_interm__rate - && field_transp==other_value.field_transp - && field_modem__type==other_value.field_modem__type; -} - -boolean MNCC__bearer__cap__data::is_bound() const -{ -if(field_rate__adaptation.is_bound()) return TRUE; -if(field_sig__access.is_bound()) return TRUE; -if(field_async.is_bound()) return TRUE; -if(field_nr__stop__bits.is_bound()) return TRUE; -if(field_nr__data__bits.is_bound()) return TRUE; -if(field_user__rate.is_bound()) return TRUE; -if(field_parity.is_bound()) return TRUE; -if(field_interm__rate.is_bound()) return TRUE; -if(field_transp.is_bound()) return TRUE; -if(field_modem__type.is_bound()) return TRUE; -return FALSE; -} -boolean MNCC__bearer__cap__data::is_value() const -{ -if(!field_rate__adaptation.is_value()) return FALSE; -if(!field_sig__access.is_value()) return FALSE; -if(!field_async.is_value()) return FALSE; -if(!field_nr__stop__bits.is_value()) return FALSE; -if(!field_nr__data__bits.is_value()) return FALSE; -if(!field_user__rate.is_value()) return FALSE; -if(!field_parity.is_value()) return FALSE; -if(!field_interm__rate.is_value()) return FALSE; -if(!field_transp.is_value()) return FALSE; -if(!field_modem__type.is_value()) return FALSE; -return TRUE; -} -void MNCC__bearer__cap__data::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ rate_adaptation := "); -field_rate__adaptation.log(); -TTCN_Logger::log_event_str(", sig_access := "); -field_sig__access.log(); -TTCN_Logger::log_event_str(", async := "); -field_async.log(); -TTCN_Logger::log_event_str(", nr_stop_bits := "); -field_nr__stop__bits.log(); -TTCN_Logger::log_event_str(", nr_data_bits := "); -field_nr__data__bits.log(); -TTCN_Logger::log_event_str(", user_rate := "); -field_user__rate.log(); -TTCN_Logger::log_event_str(", parity := "); -field_parity.log(); -TTCN_Logger::log_event_str(", interm_rate := "); -field_interm__rate.log(); -TTCN_Logger::log_event_str(", transp := "); -field_transp.log(); -TTCN_Logger::log_event_str(", modem_type := "); -field_modem__type.log(); -TTCN_Logger::log_event_str(" }"); -} - -void MNCC__bearer__cap__data::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (100 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) rate__adaptation().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) sig__access().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) async().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) nr__stop__bits().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) nr__data__bits().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) user__rate().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) parity().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) interm__rate().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) transp().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) modem__type().set_param(*param.get_elem(9)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "rate_adaptation")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rate__adaptation().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "sig_access")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sig__access().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "async")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - async().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "nr_stop_bits")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - nr__stop__bits().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "nr_data_bits")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - nr__data__bits().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "user_rate")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - user__rate().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "parity")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - parity().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "interm_rate")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - interm__rate().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "transp")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - transp().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "modem_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - modem__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_bearer_cap_data: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_bearer_cap_data"); - } -} - -void MNCC__bearer__cap__data::set_implicit_omit() -{ -if (rate__adaptation().is_bound()) rate__adaptation().set_implicit_omit(); -if (sig__access().is_bound()) sig__access().set_implicit_omit(); -if (async().is_bound()) async().set_implicit_omit(); -if (nr__stop__bits().is_bound()) nr__stop__bits().set_implicit_omit(); -if (nr__data__bits().is_bound()) nr__data__bits().set_implicit_omit(); -if (user__rate().is_bound()) user__rate().set_implicit_omit(); -if (parity().is_bound()) parity().set_implicit_omit(); -if (interm__rate().is_bound()) interm__rate().set_implicit_omit(); -if (transp().is_bound()) transp().set_implicit_omit(); -if (modem__type().is_bound()) modem__type().set_implicit_omit(); -} - -void MNCC__bearer__cap__data::encode_text(Text_Buf& text_buf) const -{ -field_rate__adaptation.encode_text(text_buf); -field_sig__access.encode_text(text_buf); -field_async.encode_text(text_buf); -field_nr__stop__bits.encode_text(text_buf); -field_nr__data__bits.encode_text(text_buf); -field_user__rate.encode_text(text_buf); -field_parity.encode_text(text_buf); -field_interm__rate.encode_text(text_buf); -field_transp.encode_text(text_buf); -field_modem__type.encode_text(text_buf); -} - -void MNCC__bearer__cap__data::decode_text(Text_Buf& text_buf) -{ -field_rate__adaptation.decode_text(text_buf); -field_sig__access.decode_text(text_buf); -field_async.decode_text(text_buf); -field_nr__stop__bits.decode_text(text_buf); -field_nr__data__bits.decode_text(text_buf); -field_user__rate.decode_text(text_buf); -field_parity.decode_text(text_buf); -field_interm__rate.decode_text(text_buf); -field_transp.decode_text(text_buf); -field_modem__type.decode_text(text_buf); -} - -void MNCC__bearer__cap__data::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__bearer__cap__data::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__bearer__cap__data::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__bearer__cap__data_rate__adaptation_descr_.raw->forceomit); - decoded_field_length = field_rate__adaptation.RAW_decode(MNCC__bearer__cap__data_rate__adaptation_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__bearer__cap__data_sig__access_descr_.raw->forceomit); - decoded_field_length = field_sig__access.RAW_decode(MNCC__bearer__cap__data_sig__access_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, MNCC__bearer__cap__data_async_descr_.raw->forceomit); - decoded_field_length = field_async.RAW_decode(MNCC__bearer__cap__data_async_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, MNCC__bearer__cap__data_nr__stop__bits_descr_.raw->forceomit); - decoded_field_length = field_nr__stop__bits.RAW_decode(MNCC__bearer__cap__data_nr__stop__bits_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, MNCC__bearer__cap__data_nr__data__bits_descr_.raw->forceomit); - decoded_field_length = field_nr__data__bits.RAW_decode(MNCC__bearer__cap__data_nr__data__bits_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_5_force_omit(5, force_omit, MNCC__bearer__cap__data_user__rate_descr_.raw->forceomit); - decoded_field_length = field_user__rate.RAW_decode(MNCC__bearer__cap__data_user__rate_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_5_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_6_force_omit(6, force_omit, MNCC__bearer__cap__data_parity_descr_.raw->forceomit); - decoded_field_length = field_parity.RAW_decode(MNCC__bearer__cap__data_parity_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_6_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_7_force_omit(7, force_omit, MNCC__bearer__cap__data_interm__rate_descr_.raw->forceomit); - decoded_field_length = field_interm__rate.RAW_decode(MNCC__bearer__cap__data_interm__rate_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_7_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_8_force_omit(8, force_omit, MNCC__bearer__cap__data_transp_descr_.raw->forceomit); - decoded_field_length = field_transp.RAW_decode(MNCC__bearer__cap__data_transp_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_8_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_9_force_omit(9, force_omit, MNCC__bearer__cap__data_modem__type_descr_.raw->forceomit); - decoded_field_length = field_modem__type.RAW_decode(MNCC__bearer__cap__data_modem__type_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_9_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__bearer__cap__data::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 10; - myleaf.body.node.nodes = init_nodes_of_enc_tree(10); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__bearer__cap__data_rate__adaptation_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__bearer__cap__data_sig__access_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, MNCC__bearer__cap__data_async_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, MNCC__bearer__cap__data_nr__stop__bits_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, MNCC__bearer__cap__data_nr__data__bits_descr_.raw); - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 5, MNCC__bearer__cap__data_user__rate_descr_.raw); - myleaf.body.node.nodes[6] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 6, MNCC__bearer__cap__data_parity_descr_.raw); - myleaf.body.node.nodes[7] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 7, MNCC__bearer__cap__data_interm__rate_descr_.raw); - myleaf.body.node.nodes[8] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 8, MNCC__bearer__cap__data_transp_descr_.raw); - myleaf.body.node.nodes[9] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 9, MNCC__bearer__cap__data_modem__type_descr_.raw); - encoded_length += field_rate__adaptation.RAW_encode(MNCC__bearer__cap__data_rate__adaptation_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_sig__access.RAW_encode(MNCC__bearer__cap__data_sig__access_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_async.RAW_encode(MNCC__bearer__cap__data_async_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_nr__stop__bits.RAW_encode(MNCC__bearer__cap__data_nr__stop__bits_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_nr__data__bits.RAW_encode(MNCC__bearer__cap__data_nr__data__bits_descr_, *myleaf.body.node.nodes[4]); - encoded_length += field_user__rate.RAW_encode(MNCC__bearer__cap__data_user__rate_descr_, *myleaf.body.node.nodes[5]); - encoded_length += field_parity.RAW_encode(MNCC__bearer__cap__data_parity_descr_, *myleaf.body.node.nodes[6]); - encoded_length += field_interm__rate.RAW_encode(MNCC__bearer__cap__data_interm__rate_descr_, *myleaf.body.node.nodes[7]); - encoded_length += field_transp.RAW_encode(MNCC__bearer__cap__data_transp_descr_, *myleaf.body.node.nodes[8]); - encoded_length += field_modem__type.RAW_encode(MNCC__bearer__cap__data_modem__type_descr_, *myleaf.body.node.nodes[9]); - return myleaf.length = encoded_length; -} - -struct MNCC__bearer__cap__data_template::single_value_struct { -GSM48__bcap__ra_template field_rate__adaptation; -GSM48__bcap__sig__access_template field_sig__access; -INTEGER_template field_async; -INTEGER_template field_nr__stop__bits; -INTEGER_template field_nr__data__bits; -GSM48__bcap__user__rate_template field_user__rate; -GSM48__bcap__parity_template field_parity; -GSM48__bcap__interm__rate_template field_interm__rate; -GSM48__bcap__transp_template field_transp; -GSM48__bcap__modem__type_template field_modem__type; -}; - -void MNCC__bearer__cap__data_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_rate__adaptation = ANY_VALUE; -single_value->field_sig__access = ANY_VALUE; -single_value->field_async = ANY_VALUE; -single_value->field_nr__stop__bits = ANY_VALUE; -single_value->field_nr__data__bits = ANY_VALUE; -single_value->field_user__rate = ANY_VALUE; -single_value->field_parity = ANY_VALUE; -single_value->field_interm__rate = ANY_VALUE; -single_value->field_transp = ANY_VALUE; -single_value->field_modem__type = ANY_VALUE; -} -} -} - -void MNCC__bearer__cap__data_template::copy_value(const MNCC__bearer__cap__data& other_value) -{ -single_value = new single_value_struct; -if (other_value.rate__adaptation().is_bound()) { - single_value->field_rate__adaptation = other_value.rate__adaptation(); -} else { - single_value->field_rate__adaptation.clean_up(); -} -if (other_value.sig__access().is_bound()) { - single_value->field_sig__access = other_value.sig__access(); -} else { - single_value->field_sig__access.clean_up(); -} -if (other_value.async().is_bound()) { - single_value->field_async = other_value.async(); -} else { - single_value->field_async.clean_up(); -} -if (other_value.nr__stop__bits().is_bound()) { - single_value->field_nr__stop__bits = other_value.nr__stop__bits(); -} else { - single_value->field_nr__stop__bits.clean_up(); -} -if (other_value.nr__data__bits().is_bound()) { - single_value->field_nr__data__bits = other_value.nr__data__bits(); -} else { - single_value->field_nr__data__bits.clean_up(); -} -if (other_value.user__rate().is_bound()) { - single_value->field_user__rate = other_value.user__rate(); -} else { - single_value->field_user__rate.clean_up(); -} -if (other_value.parity().is_bound()) { - single_value->field_parity = other_value.parity(); -} else { - single_value->field_parity.clean_up(); -} -if (other_value.interm__rate().is_bound()) { - single_value->field_interm__rate = other_value.interm__rate(); -} else { - single_value->field_interm__rate.clean_up(); -} -if (other_value.transp().is_bound()) { - single_value->field_transp = other_value.transp(); -} else { - single_value->field_transp.clean_up(); -} -if (other_value.modem__type().is_bound()) { - single_value->field_modem__type = other_value.modem__type(); -} else { - single_value->field_modem__type.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__bearer__cap__data_template::copy_template(const MNCC__bearer__cap__data_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.rate__adaptation().get_selection()) { -single_value->field_rate__adaptation = other_value.rate__adaptation(); -} else { -single_value->field_rate__adaptation.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.sig__access().get_selection()) { -single_value->field_sig__access = other_value.sig__access(); -} else { -single_value->field_sig__access.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.async().get_selection()) { -single_value->field_async = other_value.async(); -} else { -single_value->field_async.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.nr__stop__bits().get_selection()) { -single_value->field_nr__stop__bits = other_value.nr__stop__bits(); -} else { -single_value->field_nr__stop__bits.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.nr__data__bits().get_selection()) { -single_value->field_nr__data__bits = other_value.nr__data__bits(); -} else { -single_value->field_nr__data__bits.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.user__rate().get_selection()) { -single_value->field_user__rate = other_value.user__rate(); -} else { -single_value->field_user__rate.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.parity().get_selection()) { -single_value->field_parity = other_value.parity(); -} else { -single_value->field_parity.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.interm__rate().get_selection()) { -single_value->field_interm__rate = other_value.interm__rate(); -} else { -single_value->field_interm__rate.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.transp().get_selection()) { -single_value->field_transp = other_value.transp(); -} else { -single_value->field_transp.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.modem__type().get_selection()) { -single_value->field_modem__type = other_value.modem__type(); -} else { -single_value->field_modem__type.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__bearer__cap__data_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_bearer_cap_data."); -break; -} -set_selection(other_value); -} - -MNCC__bearer__cap__data_template::MNCC__bearer__cap__data_template() -{ -} - -MNCC__bearer__cap__data_template::MNCC__bearer__cap__data_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__bearer__cap__data_template::MNCC__bearer__cap__data_template(const MNCC__bearer__cap__data& other_value) -{ -copy_value(other_value); -} - -MNCC__bearer__cap__data_template::MNCC__bearer__cap__data_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__bearer__cap__data&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_bearer_cap_data from an unbound optional field."); -} -} - -MNCC__bearer__cap__data_template::MNCC__bearer__cap__data_template(const MNCC__bearer__cap__data_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__bearer__cap__data_template::~MNCC__bearer__cap__data_template() -{ -clean_up(); -} - -MNCC__bearer__cap__data_template& MNCC__bearer__cap__data_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__bearer__cap__data_template& MNCC__bearer__cap__data_template::operator=(const MNCC__bearer__cap__data& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__bearer__cap__data_template& MNCC__bearer__cap__data_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__bearer__cap__data&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_bearer_cap_data."); -} -return *this; -} - -MNCC__bearer__cap__data_template& MNCC__bearer__cap__data_template::operator=(const MNCC__bearer__cap__data_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__bearer__cap__data_template::match(const MNCC__bearer__cap__data& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.rate__adaptation().is_bound()) return FALSE; -if(!single_value->field_rate__adaptation.match(other_value.rate__adaptation(), legacy))return FALSE; -if(!other_value.sig__access().is_bound()) return FALSE; -if(!single_value->field_sig__access.match(other_value.sig__access(), legacy))return FALSE; -if(!other_value.async().is_bound()) return FALSE; -if(!single_value->field_async.match(other_value.async(), legacy))return FALSE; -if(!other_value.nr__stop__bits().is_bound()) return FALSE; -if(!single_value->field_nr__stop__bits.match(other_value.nr__stop__bits(), legacy))return FALSE; -if(!other_value.nr__data__bits().is_bound()) return FALSE; -if(!single_value->field_nr__data__bits.match(other_value.nr__data__bits(), legacy))return FALSE; -if(!other_value.user__rate().is_bound()) return FALSE; -if(!single_value->field_user__rate.match(other_value.user__rate(), legacy))return FALSE; -if(!other_value.parity().is_bound()) return FALSE; -if(!single_value->field_parity.match(other_value.parity(), legacy))return FALSE; -if(!other_value.interm__rate().is_bound()) return FALSE; -if(!single_value->field_interm__rate.match(other_value.interm__rate(), legacy))return FALSE; -if(!other_value.transp().is_bound()) return FALSE; -if(!single_value->field_transp.match(other_value.transp(), legacy))return FALSE; -if(!other_value.modem__type().is_bound()) return FALSE; -if(!single_value->field_modem__type.match(other_value.modem__type(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_bearer_cap_data."); -} -return FALSE; -} - -boolean MNCC__bearer__cap__data_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_rate__adaptation.is_bound()) return TRUE; -if (single_value->field_sig__access.is_bound()) return TRUE; -if (single_value->field_async.is_bound()) return TRUE; -if (single_value->field_nr__stop__bits.is_bound()) return TRUE; -if (single_value->field_nr__data__bits.is_bound()) return TRUE; -if (single_value->field_user__rate.is_bound()) return TRUE; -if (single_value->field_parity.is_bound()) return TRUE; -if (single_value->field_interm__rate.is_bound()) return TRUE; -if (single_value->field_transp.is_bound()) return TRUE; -if (single_value->field_modem__type.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__bearer__cap__data_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_rate__adaptation.is_value()) return FALSE; -if (!single_value->field_sig__access.is_value()) return FALSE; -if (!single_value->field_async.is_value()) return FALSE; -if (!single_value->field_nr__stop__bits.is_value()) return FALSE; -if (!single_value->field_nr__data__bits.is_value()) return FALSE; -if (!single_value->field_user__rate.is_value()) return FALSE; -if (!single_value->field_parity.is_value()) return FALSE; -if (!single_value->field_interm__rate.is_value()) return FALSE; -if (!single_value->field_transp.is_value()) return FALSE; -if (!single_value->field_modem__type.is_value()) return FALSE; -return TRUE; -} - -void MNCC__bearer__cap__data_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__bearer__cap__data MNCC__bearer__cap__data_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_bearer_cap_data."); -MNCC__bearer__cap__data ret_val; -if (single_value->field_rate__adaptation.is_bound()) { -ret_val.rate__adaptation() = single_value->field_rate__adaptation.valueof(); -} -if (single_value->field_sig__access.is_bound()) { -ret_val.sig__access() = single_value->field_sig__access.valueof(); -} -if (single_value->field_async.is_bound()) { -ret_val.async() = single_value->field_async.valueof(); -} -if (single_value->field_nr__stop__bits.is_bound()) { -ret_val.nr__stop__bits() = single_value->field_nr__stop__bits.valueof(); -} -if (single_value->field_nr__data__bits.is_bound()) { -ret_val.nr__data__bits() = single_value->field_nr__data__bits.valueof(); -} -if (single_value->field_user__rate.is_bound()) { -ret_val.user__rate() = single_value->field_user__rate.valueof(); -} -if (single_value->field_parity.is_bound()) { -ret_val.parity() = single_value->field_parity.valueof(); -} -if (single_value->field_interm__rate.is_bound()) { -ret_val.interm__rate() = single_value->field_interm__rate.valueof(); -} -if (single_value->field_transp.is_bound()) { -ret_val.transp() = single_value->field_transp.valueof(); -} -if (single_value->field_modem__type.is_bound()) { -ret_val.modem__type() = single_value->field_modem__type.valueof(); -} -return ret_val; -} - -void MNCC__bearer__cap__data_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_bearer_cap_data."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__bearer__cap__data_template[list_length]; -} - -MNCC__bearer__cap__data_template& MNCC__bearer__cap__data_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_bearer_cap_data."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_bearer_cap_data."); -return value_list.list_value[list_index]; -} - -GSM48__bcap__ra_template& MNCC__bearer__cap__data_template::rate__adaptation() -{ -set_specific(); -return single_value->field_rate__adaptation; -} - -const GSM48__bcap__ra_template& MNCC__bearer__cap__data_template::rate__adaptation() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field rate_adaptation of a non-specific template of type @MNCC_Types.MNCC_bearer_cap_data."); -return single_value->field_rate__adaptation; -} - -GSM48__bcap__sig__access_template& MNCC__bearer__cap__data_template::sig__access() -{ -set_specific(); -return single_value->field_sig__access; -} - -const GSM48__bcap__sig__access_template& MNCC__bearer__cap__data_template::sig__access() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field sig_access of a non-specific template of type @MNCC_Types.MNCC_bearer_cap_data."); -return single_value->field_sig__access; -} - -INTEGER_template& MNCC__bearer__cap__data_template::async() -{ -set_specific(); -return single_value->field_async; -} - -const INTEGER_template& MNCC__bearer__cap__data_template::async() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field async of a non-specific template of type @MNCC_Types.MNCC_bearer_cap_data."); -return single_value->field_async; -} - -INTEGER_template& MNCC__bearer__cap__data_template::nr__stop__bits() -{ -set_specific(); -return single_value->field_nr__stop__bits; -} - -const INTEGER_template& MNCC__bearer__cap__data_template::nr__stop__bits() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field nr_stop_bits of a non-specific template of type @MNCC_Types.MNCC_bearer_cap_data."); -return single_value->field_nr__stop__bits; -} - -INTEGER_template& MNCC__bearer__cap__data_template::nr__data__bits() -{ -set_specific(); -return single_value->field_nr__data__bits; -} - -const INTEGER_template& MNCC__bearer__cap__data_template::nr__data__bits() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field nr_data_bits of a non-specific template of type @MNCC_Types.MNCC_bearer_cap_data."); -return single_value->field_nr__data__bits; -} - -GSM48__bcap__user__rate_template& MNCC__bearer__cap__data_template::user__rate() -{ -set_specific(); -return single_value->field_user__rate; -} - -const GSM48__bcap__user__rate_template& MNCC__bearer__cap__data_template::user__rate() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field user_rate of a non-specific template of type @MNCC_Types.MNCC_bearer_cap_data."); -return single_value->field_user__rate; -} - -GSM48__bcap__parity_template& MNCC__bearer__cap__data_template::parity() -{ -set_specific(); -return single_value->field_parity; -} - -const GSM48__bcap__parity_template& MNCC__bearer__cap__data_template::parity() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field parity of a non-specific template of type @MNCC_Types.MNCC_bearer_cap_data."); -return single_value->field_parity; -} - -GSM48__bcap__interm__rate_template& MNCC__bearer__cap__data_template::interm__rate() -{ -set_specific(); -return single_value->field_interm__rate; -} - -const GSM48__bcap__interm__rate_template& MNCC__bearer__cap__data_template::interm__rate() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field interm_rate of a non-specific template of type @MNCC_Types.MNCC_bearer_cap_data."); -return single_value->field_interm__rate; -} - -GSM48__bcap__transp_template& MNCC__bearer__cap__data_template::transp() -{ -set_specific(); -return single_value->field_transp; -} - -const GSM48__bcap__transp_template& MNCC__bearer__cap__data_template::transp() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field transp of a non-specific template of type @MNCC_Types.MNCC_bearer_cap_data."); -return single_value->field_transp; -} - -GSM48__bcap__modem__type_template& MNCC__bearer__cap__data_template::modem__type() -{ -set_specific(); -return single_value->field_modem__type; -} - -const GSM48__bcap__modem__type_template& MNCC__bearer__cap__data_template::modem__type() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field modem_type of a non-specific template of type @MNCC_Types.MNCC_bearer_cap_data."); -return single_value->field_modem__type; -} - -int MNCC__bearer__cap__data_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap_data which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 10; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap_data containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap_data containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap_data containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap_data containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap_data containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_bearer_cap_data."); - } - return 0; -} - -void MNCC__bearer__cap__data_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ rate_adaptation := "); -single_value->field_rate__adaptation.log(); -TTCN_Logger::log_event_str(", sig_access := "); -single_value->field_sig__access.log(); -TTCN_Logger::log_event_str(", async := "); -single_value->field_async.log(); -TTCN_Logger::log_event_str(", nr_stop_bits := "); -single_value->field_nr__stop__bits.log(); -TTCN_Logger::log_event_str(", nr_data_bits := "); -single_value->field_nr__data__bits.log(); -TTCN_Logger::log_event_str(", user_rate := "); -single_value->field_user__rate.log(); -TTCN_Logger::log_event_str(", parity := "); -single_value->field_parity.log(); -TTCN_Logger::log_event_str(", interm_rate := "); -single_value->field_interm__rate.log(); -TTCN_Logger::log_event_str(", transp := "); -single_value->field_transp.log(); -TTCN_Logger::log_event_str(", modem_type := "); -single_value->field_modem__type.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__bearer__cap__data_template::log_match(const MNCC__bearer__cap__data& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_rate__adaptation.match(match_value.rate__adaptation(), legacy)){ -TTCN_Logger::log_logmatch_info(".rate_adaptation"); -single_value->field_rate__adaptation.log_match(match_value.rate__adaptation(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_sig__access.match(match_value.sig__access(), legacy)){ -TTCN_Logger::log_logmatch_info(".sig_access"); -single_value->field_sig__access.log_match(match_value.sig__access(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_async.match(match_value.async(), legacy)){ -TTCN_Logger::log_logmatch_info(".async"); -single_value->field_async.log_match(match_value.async(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_nr__stop__bits.match(match_value.nr__stop__bits(), legacy)){ -TTCN_Logger::log_logmatch_info(".nr_stop_bits"); -single_value->field_nr__stop__bits.log_match(match_value.nr__stop__bits(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_nr__data__bits.match(match_value.nr__data__bits(), legacy)){ -TTCN_Logger::log_logmatch_info(".nr_data_bits"); -single_value->field_nr__data__bits.log_match(match_value.nr__data__bits(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_user__rate.match(match_value.user__rate(), legacy)){ -TTCN_Logger::log_logmatch_info(".user_rate"); -single_value->field_user__rate.log_match(match_value.user__rate(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_parity.match(match_value.parity(), legacy)){ -TTCN_Logger::log_logmatch_info(".parity"); -single_value->field_parity.log_match(match_value.parity(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_interm__rate.match(match_value.interm__rate(), legacy)){ -TTCN_Logger::log_logmatch_info(".interm_rate"); -single_value->field_interm__rate.log_match(match_value.interm__rate(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_transp.match(match_value.transp(), legacy)){ -TTCN_Logger::log_logmatch_info(".transp"); -single_value->field_transp.log_match(match_value.transp(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_modem__type.match(match_value.modem__type(), legacy)){ -TTCN_Logger::log_logmatch_info(".modem_type"); -single_value->field_modem__type.log_match(match_value.modem__type(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ rate_adaptation := "); -single_value->field_rate__adaptation.log_match(match_value.rate__adaptation(), legacy); -TTCN_Logger::log_event_str(", sig_access := "); -single_value->field_sig__access.log_match(match_value.sig__access(), legacy); -TTCN_Logger::log_event_str(", async := "); -single_value->field_async.log_match(match_value.async(), legacy); -TTCN_Logger::log_event_str(", nr_stop_bits := "); -single_value->field_nr__stop__bits.log_match(match_value.nr__stop__bits(), legacy); -TTCN_Logger::log_event_str(", nr_data_bits := "); -single_value->field_nr__data__bits.log_match(match_value.nr__data__bits(), legacy); -TTCN_Logger::log_event_str(", user_rate := "); -single_value->field_user__rate.log_match(match_value.user__rate(), legacy); -TTCN_Logger::log_event_str(", parity := "); -single_value->field_parity.log_match(match_value.parity(), legacy); -TTCN_Logger::log_event_str(", interm_rate := "); -single_value->field_interm__rate.log_match(match_value.interm__rate(), legacy); -TTCN_Logger::log_event_str(", transp := "); -single_value->field_transp.log_match(match_value.transp(), legacy); -TTCN_Logger::log_event_str(", modem_type := "); -single_value->field_modem__type.log_match(match_value.modem__type(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__bearer__cap__data_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_rate__adaptation.encode_text(text_buf); -single_value->field_sig__access.encode_text(text_buf); -single_value->field_async.encode_text(text_buf); -single_value->field_nr__stop__bits.encode_text(text_buf); -single_value->field_nr__data__bits.encode_text(text_buf); -single_value->field_user__rate.encode_text(text_buf); -single_value->field_parity.encode_text(text_buf); -single_value->field_interm__rate.encode_text(text_buf); -single_value->field_transp.encode_text(text_buf); -single_value->field_modem__type.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_bearer_cap_data."); -} -} - -void MNCC__bearer__cap__data_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_rate__adaptation.decode_text(text_buf); -single_value->field_sig__access.decode_text(text_buf); -single_value->field_async.decode_text(text_buf); -single_value->field_nr__stop__bits.decode_text(text_buf); -single_value->field_nr__data__bits.decode_text(text_buf); -single_value->field_user__rate.decode_text(text_buf); -single_value->field_parity.decode_text(text_buf); -single_value->field_interm__rate.decode_text(text_buf); -single_value->field_transp.decode_text(text_buf); -single_value->field_modem__type.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__bearer__cap__data_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_bearer_cap_data."); -} -} - -void MNCC__bearer__cap__data_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__bearer__cap__data_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) rate__adaptation().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) sig__access().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) async().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) nr__stop__bits().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) nr__data__bits().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) user__rate().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) parity().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) interm__rate().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) transp().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) modem__type().set_param(*param.get_elem(9)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "rate_adaptation")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rate__adaptation().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "sig_access")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sig__access().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "async")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - async().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "nr_stop_bits")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - nr__stop__bits().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "nr_data_bits")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - nr__data__bits().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "user_rate")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - user__rate().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "parity")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - parity().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "interm_rate")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - interm__rate().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "transp")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - transp().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "modem_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - modem__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_bearer_cap_data: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_bearer_cap_data"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__bearer__cap__data_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_rate__adaptation.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap_data"); -single_value->field_sig__access.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap_data"); -single_value->field_async.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap_data"); -single_value->field_nr__stop__bits.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap_data"); -single_value->field_nr__data__bits.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap_data"); -single_value->field_user__rate.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap_data"); -single_value->field_parity.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap_data"); -single_value->field_interm__rate.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap_data"); -single_value->field_transp.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap_data"); -single_value->field_modem__type.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap_data"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap_data"); -} - -boolean MNCC__bearer__cap__data_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__bearer__cap__data_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx& par_data) - : field_transfer(par_transfer), - field_mode(par_mode), - field_coding(par_coding), - field_radio(par_radio), - field_speech__ctm(par_speech__ctm), - field_speech__ver(par_speech__ver), - field_data(par_data) -{ -} - -MNCC__bearer__cap::MNCC__bearer__cap(const MNCC__bearer__cap& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_bearer_cap."); -if (other_value.transfer().is_bound()) field_transfer = other_value.transfer(); -else field_transfer.clean_up(); -if (other_value.mode().is_bound()) field_mode = other_value.mode(); -else field_mode.clean_up(); -if (other_value.coding().is_bound()) field_coding = other_value.coding(); -else field_coding.clean_up(); -if (other_value.radio().is_bound()) field_radio = other_value.radio(); -else field_radio.clean_up(); -if (other_value.speech__ctm().is_bound()) field_speech__ctm = other_value.speech__ctm(); -else field_speech__ctm.clean_up(); -if (other_value.speech__ver().is_bound()) field_speech__ver = other_value.speech__ver(); -else field_speech__ver.clean_up(); -if (other_value.data().is_bound()) field_data = other_value.data(); -else field_data.clean_up(); -} - -void MNCC__bearer__cap::clean_up() -{ -field_transfer.clean_up(); -field_mode.clean_up(); -field_coding.clean_up(); -field_radio.clean_up(); -field_speech__ctm.clean_up(); -field_speech__ver.clean_up(); -field_data.clean_up(); -} - -const TTCN_Typedescriptor_t* MNCC__bearer__cap::get_descriptor() const { return &MNCC__bearer__cap_descr_; } -MNCC__bearer__cap& MNCC__bearer__cap::operator=(const MNCC__bearer__cap& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_bearer_cap."); - if (other_value.transfer().is_bound()) field_transfer = other_value.transfer(); - else field_transfer.clean_up(); - if (other_value.mode().is_bound()) field_mode = other_value.mode(); - else field_mode.clean_up(); - if (other_value.coding().is_bound()) field_coding = other_value.coding(); - else field_coding.clean_up(); - if (other_value.radio().is_bound()) field_radio = other_value.radio(); - else field_radio.clean_up(); - if (other_value.speech__ctm().is_bound()) field_speech__ctm = other_value.speech__ctm(); - else field_speech__ctm.clean_up(); - if (other_value.speech__ver().is_bound()) field_speech__ver = other_value.speech__ver(); - else field_speech__ver.clean_up(); - if (other_value.data().is_bound()) field_data = other_value.data(); - else field_data.clean_up(); -} -return *this; -} - -boolean MNCC__bearer__cap::operator==(const MNCC__bearer__cap& other_value) const -{ -return field_transfer==other_value.field_transfer - && field_mode==other_value.field_mode - && field_coding==other_value.field_coding - && field_radio==other_value.field_radio - && field_speech__ctm==other_value.field_speech__ctm - && field_speech__ver==other_value.field_speech__ver - && field_data==other_value.field_data; -} - -boolean MNCC__bearer__cap::is_bound() const -{ -if(field_transfer.is_bound()) return TRUE; -if(field_mode.is_bound()) return TRUE; -if(field_coding.is_bound()) return TRUE; -if(field_radio.is_bound()) return TRUE; -if(field_speech__ctm.is_bound()) return TRUE; -if(field_speech__ver.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_data.get_selection() || field_data.is_bound()) return TRUE; -return FALSE; -} -boolean MNCC__bearer__cap::is_value() const -{ -if(!field_transfer.is_value()) return FALSE; -if(!field_mode.is_value()) return FALSE; -if(!field_coding.is_value()) return FALSE; -if(!field_radio.is_value()) return FALSE; -if(!field_speech__ctm.is_value()) return FALSE; -if(!field_speech__ver.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_data.get_selection() && !field_data.is_value()) return FALSE; -return TRUE; -} -int MNCC__bearer__cap::size_of() const -{ - int ret_val = 6; - if (field_data.ispresent()) ret_val++; - return ret_val; -} - -void MNCC__bearer__cap::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ transfer := "); -field_transfer.log(); -TTCN_Logger::log_event_str(", mode := "); -field_mode.log(); -TTCN_Logger::log_event_str(", coding := "); -field_coding.log(); -TTCN_Logger::log_event_str(", radio := "); -field_radio.log(); -TTCN_Logger::log_event_str(", speech_ctm := "); -field_speech__ctm.log(); -TTCN_Logger::log_event_str(", speech_ver := "); -field_speech__ver.log(); -TTCN_Logger::log_event_str(", data := "); -field_data.log(); -TTCN_Logger::log_event_str(" }"); -} - -void MNCC__bearer__cap::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (70 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) transfer().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) mode().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) coding().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) radio().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) speech__ctm().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) speech__ver().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) data().set_param(*param.get_elem(6)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "transfer")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - transfer().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mode")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mode().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "coding")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - coding().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "radio")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - radio().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "speech_ctm")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - speech__ctm().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "speech_ver")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - speech__ver().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "data")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - data().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_bearer_cap: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_bearer_cap"); - } -} - -void MNCC__bearer__cap::set_implicit_omit() -{ -if (transfer().is_bound()) transfer().set_implicit_omit(); -if (mode().is_bound()) mode().set_implicit_omit(); -if (coding().is_bound()) coding().set_implicit_omit(); -if (radio().is_bound()) radio().set_implicit_omit(); -if (speech__ctm().is_bound()) speech__ctm().set_implicit_omit(); -if (speech__ver().is_bound()) speech__ver().set_implicit_omit(); -if (!data().is_bound()) data() = OMIT_VALUE; -else data().set_implicit_omit(); -} - -void MNCC__bearer__cap::encode_text(Text_Buf& text_buf) const -{ -field_transfer.encode_text(text_buf); -field_mode.encode_text(text_buf); -field_coding.encode_text(text_buf); -field_radio.encode_text(text_buf); -field_speech__ctm.encode_text(text_buf); -field_speech__ver.encode_text(text_buf); -field_data.encode_text(text_buf); -} - -void MNCC__bearer__cap::decode_text(Text_Buf& text_buf) -{ -field_transfer.decode_text(text_buf); -field_mode.decode_text(text_buf); -field_coding.decode_text(text_buf); -field_radio.decode_text(text_buf); -field_speech__ctm.decode_text(text_buf); -field_speech__ver.decode_text(text_buf); -field_data.decode_text(text_buf); -} - -void MNCC__bearer__cap::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__bearer__cap::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__bearer__cap::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__bearer__cap_transfer_descr_.raw->forceomit); - decoded_field_length = field_transfer.RAW_decode(MNCC__bearer__cap_transfer_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__bearer__cap_mode_descr_.raw->forceomit); - decoded_field_length = field_mode.RAW_decode(MNCC__bearer__cap_mode_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, MNCC__bearer__cap_coding_descr_.raw->forceomit); - decoded_field_length = field_coding.RAW_decode(MNCC__bearer__cap_coding_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, MNCC__bearer__cap_radio_descr_.raw->forceomit); - decoded_field_length = field_radio.RAW_decode(MNCC__bearer__cap_radio_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, MNCC__bearer__cap_speech__ctm_descr_.raw->forceomit); - decoded_field_length = field_speech__ctm.RAW_decode(MNCC__bearer__cap_speech__ctm_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_5_force_omit(5, force_omit, MNCC__bearer__cap_speech__ver_descr_.raw->forceomit); - decoded_field_length = field_speech__ver.RAW_decode(MNCC__bearer__cap_speech__ver_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_5_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(6)) { - field_data = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_6_force_omit(6, force_omit, MNCC__bearer__cap_data_descr_.raw->forceomit); - decoded_field_length = field_data().RAW_decode(MNCC__bearer__cap_data_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_6_force_omit); - if (decoded_field_length < 1) { - field_data = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_data=OMIT_VALUE; - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__bearer__cap::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 7; - myleaf.body.node.nodes = init_nodes_of_enc_tree(7); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__bearer__cap_transfer_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__bearer__cap_mode_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, MNCC__bearer__cap_coding_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, MNCC__bearer__cap_radio_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, MNCC__bearer__cap_speech__ctm_descr_.raw); - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 5, MNCC__bearer__cap_speech__ver_descr_.raw); - if (field_data.ispresent()) { - myleaf.body.node.nodes[6] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 6, MNCC__bearer__cap_data_descr_.raw); - } - else myleaf.body.node.nodes[6] = NULL; - encoded_length += field_transfer.RAW_encode(MNCC__bearer__cap_transfer_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_mode.RAW_encode(MNCC__bearer__cap_mode_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_coding.RAW_encode(MNCC__bearer__cap_coding_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_radio.RAW_encode(MNCC__bearer__cap_radio_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_speech__ctm.RAW_encode(MNCC__bearer__cap_speech__ctm_descr_, *myleaf.body.node.nodes[4]); - encoded_length += field_speech__ver.RAW_encode(MNCC__bearer__cap_speech__ver_descr_, *myleaf.body.node.nodes[5]); - if (field_data.ispresent()) { - encoded_length += field_data().RAW_encode(MNCC__bearer__cap_data_descr_, *myleaf.body.node.nodes[6]); - } - return myleaf.length = encoded_length; -} - -struct MNCC__bearer__cap_template::single_value_struct { -INTEGER_template field_transfer; -INTEGER_template field_mode; -INTEGER_template field_coding; -INTEGER_template field_radio; -INTEGER_template field_speech__ctm; -MNCC__speech__vers_template field_speech__ver; -MNCC__bearer__cap__data_template field_data; -}; - -void MNCC__bearer__cap_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_transfer = ANY_VALUE; -single_value->field_mode = ANY_VALUE; -single_value->field_coding = ANY_VALUE; -single_value->field_radio = ANY_VALUE; -single_value->field_speech__ctm = ANY_VALUE; -single_value->field_speech__ver = ANY_VALUE; -single_value->field_data = ANY_OR_OMIT; -} -} -} - -void MNCC__bearer__cap_template::copy_value(const MNCC__bearer__cap& other_value) -{ -single_value = new single_value_struct; -if (other_value.transfer().is_bound()) { - single_value->field_transfer = other_value.transfer(); -} else { - single_value->field_transfer.clean_up(); -} -if (other_value.mode().is_bound()) { - single_value->field_mode = other_value.mode(); -} else { - single_value->field_mode.clean_up(); -} -if (other_value.coding().is_bound()) { - single_value->field_coding = other_value.coding(); -} else { - single_value->field_coding.clean_up(); -} -if (other_value.radio().is_bound()) { - single_value->field_radio = other_value.radio(); -} else { - single_value->field_radio.clean_up(); -} -if (other_value.speech__ctm().is_bound()) { - single_value->field_speech__ctm = other_value.speech__ctm(); -} else { - single_value->field_speech__ctm.clean_up(); -} -if (other_value.speech__ver().is_bound()) { - single_value->field_speech__ver = other_value.speech__ver(); -} else { - single_value->field_speech__ver.clean_up(); -} -if (other_value.data().is_bound()) { - if (other_value.data().ispresent()) single_value->field_data = other_value.data()(); - else single_value->field_data = OMIT_VALUE; -} else { - single_value->field_data.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__bearer__cap_template::copy_template(const MNCC__bearer__cap_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.transfer().get_selection()) { -single_value->field_transfer = other_value.transfer(); -} else { -single_value->field_transfer.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mode().get_selection()) { -single_value->field_mode = other_value.mode(); -} else { -single_value->field_mode.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.coding().get_selection()) { -single_value->field_coding = other_value.coding(); -} else { -single_value->field_coding.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.radio().get_selection()) { -single_value->field_radio = other_value.radio(); -} else { -single_value->field_radio.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.speech__ctm().get_selection()) { -single_value->field_speech__ctm = other_value.speech__ctm(); -} else { -single_value->field_speech__ctm.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.speech__ver().get_selection()) { -single_value->field_speech__ver = other_value.speech__ver(); -} else { -single_value->field_speech__ver.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.data().get_selection()) { -single_value->field_data = other_value.data(); -} else { -single_value->field_data.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__bearer__cap_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_bearer_cap."); -break; -} -set_selection(other_value); -} - -MNCC__bearer__cap_template::MNCC__bearer__cap_template() -{ -} - -MNCC__bearer__cap_template::MNCC__bearer__cap_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__bearer__cap_template::MNCC__bearer__cap_template(const MNCC__bearer__cap& other_value) -{ -copy_value(other_value); -} - -MNCC__bearer__cap_template::MNCC__bearer__cap_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__bearer__cap&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_bearer_cap from an unbound optional field."); -} -} - -MNCC__bearer__cap_template::MNCC__bearer__cap_template(const MNCC__bearer__cap_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__bearer__cap_template::~MNCC__bearer__cap_template() -{ -clean_up(); -} - -MNCC__bearer__cap_template& MNCC__bearer__cap_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__bearer__cap_template& MNCC__bearer__cap_template::operator=(const MNCC__bearer__cap& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__bearer__cap_template& MNCC__bearer__cap_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__bearer__cap&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_bearer_cap."); -} -return *this; -} - -MNCC__bearer__cap_template& MNCC__bearer__cap_template::operator=(const MNCC__bearer__cap_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__bearer__cap_template::match(const MNCC__bearer__cap& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.transfer().is_bound()) return FALSE; -if(!single_value->field_transfer.match(other_value.transfer(), legacy))return FALSE; -if(!other_value.mode().is_bound()) return FALSE; -if(!single_value->field_mode.match(other_value.mode(), legacy))return FALSE; -if(!other_value.coding().is_bound()) return FALSE; -if(!single_value->field_coding.match(other_value.coding(), legacy))return FALSE; -if(!other_value.radio().is_bound()) return FALSE; -if(!single_value->field_radio.match(other_value.radio(), legacy))return FALSE; -if(!other_value.speech__ctm().is_bound()) return FALSE; -if(!single_value->field_speech__ctm.match(other_value.speech__ctm(), legacy))return FALSE; -if(!other_value.speech__ver().is_bound()) return FALSE; -if(!single_value->field_speech__ver.match(other_value.speech__ver(), legacy))return FALSE; -if(!other_value.data().is_bound()) return FALSE; -if((other_value.data().ispresent() ? !single_value->field_data.match((const MNCC__bearer__cap__data&)other_value.data(), legacy) : !single_value->field_data.match_omit(legacy)))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_bearer_cap."); -} -return FALSE; -} - -boolean MNCC__bearer__cap_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_transfer.is_bound()) return TRUE; -if (single_value->field_mode.is_bound()) return TRUE; -if (single_value->field_coding.is_bound()) return TRUE; -if (single_value->field_radio.is_bound()) return TRUE; -if (single_value->field_speech__ctm.is_bound()) return TRUE; -if (single_value->field_speech__ver.is_bound()) return TRUE; -if (single_value->field_data.is_omit() || single_value->field_data.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__bearer__cap_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_transfer.is_value()) return FALSE; -if (!single_value->field_mode.is_value()) return FALSE; -if (!single_value->field_coding.is_value()) return FALSE; -if (!single_value->field_radio.is_value()) return FALSE; -if (!single_value->field_speech__ctm.is_value()) return FALSE; -if (!single_value->field_speech__ver.is_value()) return FALSE; -if (!single_value->field_data.is_omit() && !single_value->field_data.is_value()) return FALSE; -return TRUE; -} - -void MNCC__bearer__cap_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__bearer__cap MNCC__bearer__cap_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_bearer_cap."); -MNCC__bearer__cap ret_val; -if (single_value->field_transfer.is_bound()) { -ret_val.transfer() = single_value->field_transfer.valueof(); -} -if (single_value->field_mode.is_bound()) { -ret_val.mode() = single_value->field_mode.valueof(); -} -if (single_value->field_coding.is_bound()) { -ret_val.coding() = single_value->field_coding.valueof(); -} -if (single_value->field_radio.is_bound()) { -ret_val.radio() = single_value->field_radio.valueof(); -} -if (single_value->field_speech__ctm.is_bound()) { -ret_val.speech__ctm() = single_value->field_speech__ctm.valueof(); -} -if (single_value->field_speech__ver.is_bound()) { -ret_val.speech__ver() = single_value->field_speech__ver.valueof(); -} -if (single_value->field_data.is_omit()) ret_val.data() = OMIT_VALUE; -else if (single_value->field_data.is_bound()) { -ret_val.data() = single_value->field_data.valueof(); -} -return ret_val; -} - -void MNCC__bearer__cap_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_bearer_cap."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__bearer__cap_template[list_length]; -} - -MNCC__bearer__cap_template& MNCC__bearer__cap_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_bearer_cap."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_bearer_cap."); -return value_list.list_value[list_index]; -} - -INTEGER_template& MNCC__bearer__cap_template::transfer() -{ -set_specific(); -return single_value->field_transfer; -} - -const INTEGER_template& MNCC__bearer__cap_template::transfer() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field transfer of a non-specific template of type @MNCC_Types.MNCC_bearer_cap."); -return single_value->field_transfer; -} - -INTEGER_template& MNCC__bearer__cap_template::mode() -{ -set_specific(); -return single_value->field_mode; -} - -const INTEGER_template& MNCC__bearer__cap_template::mode() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mode of a non-specific template of type @MNCC_Types.MNCC_bearer_cap."); -return single_value->field_mode; -} - -INTEGER_template& MNCC__bearer__cap_template::coding() -{ -set_specific(); -return single_value->field_coding; -} - -const INTEGER_template& MNCC__bearer__cap_template::coding() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field coding of a non-specific template of type @MNCC_Types.MNCC_bearer_cap."); -return single_value->field_coding; -} - -INTEGER_template& MNCC__bearer__cap_template::radio() -{ -set_specific(); -return single_value->field_radio; -} - -const INTEGER_template& MNCC__bearer__cap_template::radio() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field radio of a non-specific template of type @MNCC_Types.MNCC_bearer_cap."); -return single_value->field_radio; -} - -INTEGER_template& MNCC__bearer__cap_template::speech__ctm() -{ -set_specific(); -return single_value->field_speech__ctm; -} - -const INTEGER_template& MNCC__bearer__cap_template::speech__ctm() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field speech_ctm of a non-specific template of type @MNCC_Types.MNCC_bearer_cap."); -return single_value->field_speech__ctm; -} - -MNCC__speech__vers_template& MNCC__bearer__cap_template::speech__ver() -{ -set_specific(); -return single_value->field_speech__ver; -} - -const MNCC__speech__vers_template& MNCC__bearer__cap_template::speech__ver() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field speech_ver of a non-specific template of type @MNCC_Types.MNCC_bearer_cap."); -return single_value->field_speech__ver; -} - -MNCC__bearer__cap__data_template& MNCC__bearer__cap_template::data() -{ -set_specific(); -return single_value->field_data; -} - -const MNCC__bearer__cap__data_template& MNCC__bearer__cap_template::data() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field data of a non-specific template of type @MNCC_Types.MNCC_bearer_cap."); -return single_value->field_data; -} - -int MNCC__bearer__cap_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - { int ret_val = 6; - if (single_value->field_data.is_present()) ret_val++; - return ret_val; - } - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_bearer_cap containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_bearer_cap."); - } - return 0; -} - -void MNCC__bearer__cap_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ transfer := "); -single_value->field_transfer.log(); -TTCN_Logger::log_event_str(", mode := "); -single_value->field_mode.log(); -TTCN_Logger::log_event_str(", coding := "); -single_value->field_coding.log(); -TTCN_Logger::log_event_str(", radio := "); -single_value->field_radio.log(); -TTCN_Logger::log_event_str(", speech_ctm := "); -single_value->field_speech__ctm.log(); -TTCN_Logger::log_event_str(", speech_ver := "); -single_value->field_speech__ver.log(); -TTCN_Logger::log_event_str(", data := "); -single_value->field_data.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__bearer__cap_template::log_match(const MNCC__bearer__cap& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_transfer.match(match_value.transfer(), legacy)){ -TTCN_Logger::log_logmatch_info(".transfer"); -single_value->field_transfer.log_match(match_value.transfer(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mode.match(match_value.mode(), legacy)){ -TTCN_Logger::log_logmatch_info(".mode"); -single_value->field_mode.log_match(match_value.mode(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_coding.match(match_value.coding(), legacy)){ -TTCN_Logger::log_logmatch_info(".coding"); -single_value->field_coding.log_match(match_value.coding(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_radio.match(match_value.radio(), legacy)){ -TTCN_Logger::log_logmatch_info(".radio"); -single_value->field_radio.log_match(match_value.radio(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_speech__ctm.match(match_value.speech__ctm(), legacy)){ -TTCN_Logger::log_logmatch_info(".speech_ctm"); -single_value->field_speech__ctm.log_match(match_value.speech__ctm(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_speech__ver.match(match_value.speech__ver(), legacy)){ -TTCN_Logger::log_logmatch_info(".speech_ver"); -single_value->field_speech__ver.log_match(match_value.speech__ver(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if (match_value.data().ispresent()){ -if(!single_value->field_data.match(match_value.data(), legacy)){ -TTCN_Logger::log_logmatch_info(".data"); -single_value->field_data.log_match(match_value.data(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_data.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".data := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_data.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ transfer := "); -single_value->field_transfer.log_match(match_value.transfer(), legacy); -TTCN_Logger::log_event_str(", mode := "); -single_value->field_mode.log_match(match_value.mode(), legacy); -TTCN_Logger::log_event_str(", coding := "); -single_value->field_coding.log_match(match_value.coding(), legacy); -TTCN_Logger::log_event_str(", radio := "); -single_value->field_radio.log_match(match_value.radio(), legacy); -TTCN_Logger::log_event_str(", speech_ctm := "); -single_value->field_speech__ctm.log_match(match_value.speech__ctm(), legacy); -TTCN_Logger::log_event_str(", speech_ver := "); -single_value->field_speech__ver.log_match(match_value.speech__ver(), legacy); -TTCN_Logger::log_event_str(", data := "); -if (match_value.data().ispresent()) single_value->field_data.log_match(match_value.data(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_data.log(); -if (single_value->field_data.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__bearer__cap_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_transfer.encode_text(text_buf); -single_value->field_mode.encode_text(text_buf); -single_value->field_coding.encode_text(text_buf); -single_value->field_radio.encode_text(text_buf); -single_value->field_speech__ctm.encode_text(text_buf); -single_value->field_speech__ver.encode_text(text_buf); -single_value->field_data.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_bearer_cap."); -} -} - -void MNCC__bearer__cap_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_transfer.decode_text(text_buf); -single_value->field_mode.decode_text(text_buf); -single_value->field_coding.decode_text(text_buf); -single_value->field_radio.decode_text(text_buf); -single_value->field_speech__ctm.decode_text(text_buf); -single_value->field_speech__ver.decode_text(text_buf); -single_value->field_data.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__bearer__cap_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_bearer_cap."); -} -} - -void MNCC__bearer__cap_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__bearer__cap_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) transfer().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) mode().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) coding().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) radio().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) speech__ctm().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) speech__ver().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) data().set_param(*param.get_elem(6)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "transfer")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - transfer().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mode")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mode().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "coding")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - coding().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "radio")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - radio().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "speech_ctm")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - speech__ctm().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "speech_ver")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - speech__ver().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "data")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - data().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_bearer_cap: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_bearer_cap"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__bearer__cap_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_transfer.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap"); -single_value->field_mode.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap"); -single_value->field_coding.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap"); -single_value->field_radio.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap"); -single_value->field_speech__ctm.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap"); -single_value->field_speech__ver.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap"); -single_value->field_data.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_bearer_cap"); -} - -boolean MNCC__bearer__cap_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__bearer__cap_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_type_of_number."); -return enum_value > other_value; -} - -boolean GSM48__type__of__number::operator>(const GSM48__type__of__number& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_type_of_number."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_type_of_number."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__type__of__number::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__TON__UNKNOWN: return "GSM48_TON_UNKNOWN"; -case GSM48__TON__INTERNATIONAL: return "GSM48_TON_INTERNATIONAL"; -case GSM48__TON__NATIONAL: return "GSM48_TON_NATIONAL"; -case GSM48__TON__NETWORK__SPECIFIC: return "GSM48_TON_NETWORK_SPECIFIC"; -case GSM48__TON__SHORT__CODE: return "GSM48_TON_SHORT_CODE"; -default: return ""; -} -} - -GSM48__type__of__number::enum_type GSM48__type__of__number::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_TON_UNKNOWN")) return GSM48__TON__UNKNOWN; -else if (!strcmp(str_par, "GSM48_TON_INTERNATIONAL")) return GSM48__TON__INTERNATIONAL; -else if (!strcmp(str_par, "GSM48_TON_NATIONAL")) return GSM48__TON__NATIONAL; -else if (!strcmp(str_par, "GSM48_TON_NETWORK_SPECIFIC")) return GSM48__TON__NETWORK__SPECIFIC; -else if (!strcmp(str_par, "GSM48_TON_SHORT_CODE")) return GSM48__TON__SHORT__CODE; -else return UNKNOWN_VALUE; -} - -boolean GSM48__type__of__number::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -case 4: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__type__of__number::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_type_of_number.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__type__of__number::enum2int(const GSM48__type__of__number& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_type_of_number.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__type__of__number::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_type_of_number.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__type__of__number::operator GSM48__type__of__number::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_type_of_number."); -return enum_value; -} - -void GSM48__type__of__number::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__type__of__number::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_type_of_number"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_type_of_number."); - } -} - -void GSM48__type__of__number::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_type_of_number."); -text_buf.push_int(enum_value); -} - -void GSM48__type__of__number::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_type_of_number.", enum_value); -} - -void GSM48__type__of__number::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__type__of__number::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__type__of__number::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 3, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__type__of__number::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 3); -} - -void GSM48__type__of__number_template::copy_template(const GSM48__type__of__number_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__type__of__number_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_type_of_number."); -} -} - -GSM48__type__of__number_template::GSM48__type__of__number_template() -{ -} - -GSM48__type__of__number_template::GSM48__type__of__number_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__type__of__number_template::GSM48__type__of__number_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__type__of__number::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_type_of_number with unknown numeric value %d.", other_value); -single_value = (GSM48__type__of__number::enum_type)other_value; -} - -GSM48__type__of__number_template::GSM48__type__of__number_template(GSM48__type__of__number::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__type__of__number_template::GSM48__type__of__number_template(const GSM48__type__of__number& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__type__of__number::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_type_of_number."); -single_value = other_value.enum_value; -} - -GSM48__type__of__number_template::GSM48__type__of__number_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__type__of__number::enum_type)(const GSM48__type__of__number&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_type_of_number from an unbound optional field."); -} -} - -GSM48__type__of__number_template::GSM48__type__of__number_template(const GSM48__type__of__number_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__type__of__number_template::~GSM48__type__of__number_template() -{ -clean_up(); -} - -boolean GSM48__type__of__number_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__type__of__number_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__type__of__number::UNBOUND_VALUE; -} - -void GSM48__type__of__number_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__type__of__number_template& GSM48__type__of__number_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__type__of__number_template& GSM48__type__of__number_template::operator=(int other_value) -{ -if (!GSM48__type__of__number::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_type_of_number.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__type__of__number::enum_type)other_value; -return *this; -} - -GSM48__type__of__number_template& GSM48__type__of__number_template::operator=(GSM48__type__of__number::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__type__of__number_template& GSM48__type__of__number_template::operator=(const GSM48__type__of__number& other_value) -{ -if (other_value.enum_value == GSM48__type__of__number::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_type_of_number to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__type__of__number_template& GSM48__type__of__number_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__type__of__number::enum_type)(const GSM48__type__of__number&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_type_of_number."); -} -return *this; -} - -GSM48__type__of__number_template& GSM48__type__of__number_template::operator=(const GSM48__type__of__number_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__type__of__number_template::match(GSM48__type__of__number::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_type_of_number."); -} -return FALSE; -} - -boolean GSM48__type__of__number_template::match(const GSM48__type__of__number& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__type__of__number::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_type_of_number with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__type__of__number::enum_type GSM48__type__of__number_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_type_of_number."); -return single_value; -} - -void GSM48__type__of__number_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_type_of_number."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__type__of__number_template[list_length]; -} - -GSM48__type__of__number_template& GSM48__type__of__number_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_type_of_number."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_type_of_number."); -return value_list.list_value[list_index]; -} - -void GSM48__type__of__number_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__type__of__number::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__type__of__number_template::log_match(const GSM48__type__of__number& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__type__of__number_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_type_of_number."); -} -} - -void GSM48__type__of__number_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__type__of__number::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__type__of__number::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_type_of_number.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__type__of__number_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_type_of_number."); -} -} - -boolean GSM48__type__of__number_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__type__of__number_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__type__of__number_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__type__of__number::enum_type enum_val = GSM48__type__of__number::str_to_enum(m_p->get_enumerated()); - if (!GSM48__type__of__number::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_type_of_number."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_type_of_number"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__type__of__number_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_type_of_number"); -} - -GSM48__num__plan__ind::GSM48__num__plan__ind() -{ -enum_value = UNBOUND_VALUE; -} - -GSM48__num__plan__ind::GSM48__num__plan__ind(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_num_plan_ind with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -GSM48__num__plan__ind::GSM48__num__plan__ind(enum_type other_value) -{ -enum_value = other_value; -} - -GSM48__num__plan__ind::GSM48__num__plan__ind(const GSM48__num__plan__ind& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -enum_value = other_value.enum_value; -} - -GSM48__num__plan__ind& GSM48__num__plan__ind::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_num_plan_ind.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -GSM48__num__plan__ind& GSM48__num__plan__ind::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -GSM48__num__plan__ind& GSM48__num__plan__ind::operator=(const GSM48__num__plan__ind& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -enum_value = other_value.enum_value; -return *this; -} - -boolean GSM48__num__plan__ind::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -return enum_value == other_value; -} - -boolean GSM48__num__plan__ind::operator==(const GSM48__num__plan__ind& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -return enum_value == other_value.enum_value; -} - -boolean GSM48__num__plan__ind::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -return enum_value < other_value; -} - -boolean GSM48__num__plan__ind::operator<(const GSM48__num__plan__ind& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -return enum_value < other_value.enum_value; -} - -boolean GSM48__num__plan__ind::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -return enum_value > other_value; -} - -boolean GSM48__num__plan__ind::operator>(const GSM48__num__plan__ind& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__num__plan__ind::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__NUMPLAN__UNKNOWN: return "GSM48_NUMPLAN_UNKNOWN"; -case GSM48__NUMPLAN__E164: return "GSM48_NUMPLAN_E164"; -case GSM48__NUMPLAN__X121: return "GSM48_NUMPLAN_X121"; -case GSM48__NUMPLAN__F69: return "GSM48_NUMPLAN_F69"; -case GSM48__NUMPLAN__NATIONAL: return "GSM48_NUMPLAN_NATIONAL"; -case GSM48__NUMPLAN__PRIVATE: return "GSM48_NUMPLAN_PRIVATE"; -case GSM48__NUMPLAN__CTS: return "GSM48_NUMPLAN_CTS"; -case GSM48__NUMPLAN__RESERVED: return "GSM48_NUMPLAN_RESERVED"; -default: return ""; -} -} - -GSM48__num__plan__ind::enum_type GSM48__num__plan__ind::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_NUMPLAN_UNKNOWN")) return GSM48__NUMPLAN__UNKNOWN; -else if (!strcmp(str_par, "GSM48_NUMPLAN_E164")) return GSM48__NUMPLAN__E164; -else if (!strcmp(str_par, "GSM48_NUMPLAN_X121")) return GSM48__NUMPLAN__X121; -else if (!strcmp(str_par, "GSM48_NUMPLAN_F69")) return GSM48__NUMPLAN__F69; -else if (!strcmp(str_par, "GSM48_NUMPLAN_NATIONAL")) return GSM48__NUMPLAN__NATIONAL; -else if (!strcmp(str_par, "GSM48_NUMPLAN_PRIVATE")) return GSM48__NUMPLAN__PRIVATE; -else if (!strcmp(str_par, "GSM48_NUMPLAN_CTS")) return GSM48__NUMPLAN__CTS; -else if (!strcmp(str_par, "GSM48_NUMPLAN_RESERVED")) return GSM48__NUMPLAN__RESERVED; -else return UNKNOWN_VALUE; -} - -boolean GSM48__num__plan__ind::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 3: -case 4: -case 8: -case 9: -case 11: -case 15: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__num__plan__ind::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_num_plan_ind.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__num__plan__ind::enum2int(const GSM48__num__plan__ind& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_num_plan_ind.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__num__plan__ind::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_num_plan_ind.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__num__plan__ind::operator GSM48__num__plan__ind::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -return enum_value; -} - -void GSM48__num__plan__ind::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__num__plan__ind::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_num_plan_ind"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_num_plan_ind."); - } -} - -void GSM48__num__plan__ind::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -text_buf.push_int(enum_value); -} - -void GSM48__num__plan__ind::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_num_plan_ind.", enum_value); -} - -void GSM48__num__plan__ind::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__num__plan__ind::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__num__plan__ind::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 4, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__num__plan__ind::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 4); -} - -void GSM48__num__plan__ind_template::copy_template(const GSM48__num__plan__ind_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__num__plan__ind_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -} -} - -GSM48__num__plan__ind_template::GSM48__num__plan__ind_template() -{ -} - -GSM48__num__plan__ind_template::GSM48__num__plan__ind_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__num__plan__ind_template::GSM48__num__plan__ind_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__num__plan__ind::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_num_plan_ind with unknown numeric value %d.", other_value); -single_value = (GSM48__num__plan__ind::enum_type)other_value; -} - -GSM48__num__plan__ind_template::GSM48__num__plan__ind_template(GSM48__num__plan__ind::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__num__plan__ind_template::GSM48__num__plan__ind_template(const GSM48__num__plan__ind& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__num__plan__ind::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -single_value = other_value.enum_value; -} - -GSM48__num__plan__ind_template::GSM48__num__plan__ind_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__num__plan__ind::enum_type)(const GSM48__num__plan__ind&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_num_plan_ind from an unbound optional field."); -} -} - -GSM48__num__plan__ind_template::GSM48__num__plan__ind_template(const GSM48__num__plan__ind_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__num__plan__ind_template::~GSM48__num__plan__ind_template() -{ -clean_up(); -} - -boolean GSM48__num__plan__ind_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__num__plan__ind_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__num__plan__ind::UNBOUND_VALUE; -} - -void GSM48__num__plan__ind_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__num__plan__ind_template& GSM48__num__plan__ind_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__num__plan__ind_template& GSM48__num__plan__ind_template::operator=(int other_value) -{ -if (!GSM48__num__plan__ind::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_num_plan_ind.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__num__plan__ind::enum_type)other_value; -return *this; -} - -GSM48__num__plan__ind_template& GSM48__num__plan__ind_template::operator=(GSM48__num__plan__ind::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__num__plan__ind_template& GSM48__num__plan__ind_template::operator=(const GSM48__num__plan__ind& other_value) -{ -if (other_value.enum_value == GSM48__num__plan__ind::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_num_plan_ind to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__num__plan__ind_template& GSM48__num__plan__ind_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__num__plan__ind::enum_type)(const GSM48__num__plan__ind&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -} -return *this; -} - -GSM48__num__plan__ind_template& GSM48__num__plan__ind_template::operator=(const GSM48__num__plan__ind_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__num__plan__ind_template::match(GSM48__num__plan__ind::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -} -return FALSE; -} - -boolean GSM48__num__plan__ind_template::match(const GSM48__num__plan__ind& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__num__plan__ind::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_num_plan_ind with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__num__plan__ind::enum_type GSM48__num__plan__ind_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -return single_value; -} - -void GSM48__num__plan__ind_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__num__plan__ind_template[list_length]; -} - -GSM48__num__plan__ind_template& GSM48__num__plan__ind_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -return value_list.list_value[list_index]; -} - -void GSM48__num__plan__ind_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__num__plan__ind::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__num__plan__ind_template::log_match(const GSM48__num__plan__ind& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__num__plan__ind_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -} -} - -void GSM48__num__plan__ind_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__num__plan__ind::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__num__plan__ind::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_num_plan_ind.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__num__plan__ind_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_num_plan_ind."); -} -} - -boolean GSM48__num__plan__ind_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__num__plan__ind_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__num__plan__ind_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__num__plan__ind::enum_type enum_val = GSM48__num__plan__ind::str_to_enum(m_p->get_enumerated()); - if (!GSM48__num__plan__ind::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_num_plan_ind."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_num_plan_ind"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__num__plan__ind_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_num_plan_ind"); -} - -GSM48__present__ind::GSM48__present__ind() -{ -enum_value = UNBOUND_VALUE; -} - -GSM48__present__ind::GSM48__present__ind(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_present_ind with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -GSM48__present__ind::GSM48__present__ind(enum_type other_value) -{ -enum_value = other_value; -} - -GSM48__present__ind::GSM48__present__ind(const GSM48__present__ind& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -enum_value = other_value.enum_value; -} - -GSM48__present__ind& GSM48__present__ind::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_present_ind.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -GSM48__present__ind& GSM48__present__ind::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -GSM48__present__ind& GSM48__present__ind::operator=(const GSM48__present__ind& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -enum_value = other_value.enum_value; -return *this; -} - -boolean GSM48__present__ind::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -return enum_value == other_value; -} - -boolean GSM48__present__ind::operator==(const GSM48__present__ind& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -return enum_value == other_value.enum_value; -} - -boolean GSM48__present__ind::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -return enum_value < other_value; -} - -boolean GSM48__present__ind::operator<(const GSM48__present__ind& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -return enum_value < other_value.enum_value; -} - -boolean GSM48__present__ind::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -return enum_value > other_value; -} - -boolean GSM48__present__ind::operator>(const GSM48__present__ind& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__present__ind::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__PRES__IND__ALLOWED: return "GSM48_PRES_IND_ALLOWED"; -case GSM48__PRES__IND__RESTRICTED: return "GSM48_PRES_IND_RESTRICTED"; -case GSM48__PRES__IND__NUM__NOT__AVAIL: return "GSM48_PRES_IND_NUM_NOT_AVAIL"; -case GSM48__PRES__IND__RESERVED: return "GSM48_PRES_IND_RESERVED"; -default: return ""; -} -} - -GSM48__present__ind::enum_type GSM48__present__ind::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_PRES_IND_ALLOWED")) return GSM48__PRES__IND__ALLOWED; -else if (!strcmp(str_par, "GSM48_PRES_IND_RESTRICTED")) return GSM48__PRES__IND__RESTRICTED; -else if (!strcmp(str_par, "GSM48_PRES_IND_NUM_NOT_AVAIL")) return GSM48__PRES__IND__NUM__NOT__AVAIL; -else if (!strcmp(str_par, "GSM48_PRES_IND_RESERVED")) return GSM48__PRES__IND__RESERVED; -else return UNKNOWN_VALUE; -} - -boolean GSM48__present__ind::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__present__ind::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_present_ind.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__present__ind::enum2int(const GSM48__present__ind& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_present_ind.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__present__ind::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_present_ind.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__present__ind::operator GSM48__present__ind::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_present_ind."); -return enum_value; -} - -void GSM48__present__ind::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__present__ind::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_present_ind"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_present_ind."); - } -} - -void GSM48__present__ind::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -text_buf.push_int(enum_value); -} - -void GSM48__present__ind::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_present_ind.", enum_value); -} - -void GSM48__present__ind::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__present__ind::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__present__ind::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 3, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__present__ind::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 3); -} - -void GSM48__present__ind_template::copy_template(const GSM48__present__ind_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__present__ind_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_present_ind."); -} -} - -GSM48__present__ind_template::GSM48__present__ind_template() -{ -} - -GSM48__present__ind_template::GSM48__present__ind_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__present__ind_template::GSM48__present__ind_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__present__ind::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_present_ind with unknown numeric value %d.", other_value); -single_value = (GSM48__present__ind::enum_type)other_value; -} - -GSM48__present__ind_template::GSM48__present__ind_template(GSM48__present__ind::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__present__ind_template::GSM48__present__ind_template(const GSM48__present__ind& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__present__ind::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_present_ind."); -single_value = other_value.enum_value; -} - -GSM48__present__ind_template::GSM48__present__ind_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__present__ind::enum_type)(const GSM48__present__ind&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_present_ind from an unbound optional field."); -} -} - -GSM48__present__ind_template::GSM48__present__ind_template(const GSM48__present__ind_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__present__ind_template::~GSM48__present__ind_template() -{ -clean_up(); -} - -boolean GSM48__present__ind_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__present__ind_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__present__ind::UNBOUND_VALUE; -} - -void GSM48__present__ind_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__present__ind_template& GSM48__present__ind_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__present__ind_template& GSM48__present__ind_template::operator=(int other_value) -{ -if (!GSM48__present__ind::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_present_ind.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__present__ind::enum_type)other_value; -return *this; -} - -GSM48__present__ind_template& GSM48__present__ind_template::operator=(GSM48__present__ind::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__present__ind_template& GSM48__present__ind_template::operator=(const GSM48__present__ind& other_value) -{ -if (other_value.enum_value == GSM48__present__ind::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_present_ind to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__present__ind_template& GSM48__present__ind_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__present__ind::enum_type)(const GSM48__present__ind&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_present_ind."); -} -return *this; -} - -GSM48__present__ind_template& GSM48__present__ind_template::operator=(const GSM48__present__ind_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__present__ind_template::match(GSM48__present__ind::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_present_ind."); -} -return FALSE; -} - -boolean GSM48__present__ind_template::match(const GSM48__present__ind& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__present__ind::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_present_ind with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__present__ind::enum_type GSM48__present__ind_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_present_ind."); -return single_value; -} - -void GSM48__present__ind_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_present_ind."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__present__ind_template[list_length]; -} - -GSM48__present__ind_template& GSM48__present__ind_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_present_ind."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_present_ind."); -return value_list.list_value[list_index]; -} - -void GSM48__present__ind_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__present__ind::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__present__ind_template::log_match(const GSM48__present__ind& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__present__ind_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_present_ind."); -} -} - -void GSM48__present__ind_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__present__ind::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__present__ind::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_present_ind.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__present__ind_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_present_ind."); -} -} - -boolean GSM48__present__ind_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__present__ind_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__present__ind_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__present__ind::enum_type enum_val = GSM48__present__ind::str_to_enum(m_p->get_enumerated()); - if (!GSM48__present__ind::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_present_ind."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_present_ind"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__present__ind_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_present_ind"); -} - -GSM48__screening__ind::GSM48__screening__ind() -{ -enum_value = UNBOUND_VALUE; -} - -GSM48__screening__ind::GSM48__screening__ind(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_screening_ind with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -GSM48__screening__ind::GSM48__screening__ind(enum_type other_value) -{ -enum_value = other_value; -} - -GSM48__screening__ind::GSM48__screening__ind(const GSM48__screening__ind& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -enum_value = other_value.enum_value; -} - -GSM48__screening__ind& GSM48__screening__ind::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_screening_ind.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -GSM48__screening__ind& GSM48__screening__ind::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -GSM48__screening__ind& GSM48__screening__ind::operator=(const GSM48__screening__ind& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -enum_value = other_value.enum_value; -return *this; -} - -boolean GSM48__screening__ind::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -return enum_value == other_value; -} - -boolean GSM48__screening__ind::operator==(const GSM48__screening__ind& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -return enum_value == other_value.enum_value; -} - -boolean GSM48__screening__ind::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -return enum_value < other_value; -} - -boolean GSM48__screening__ind::operator<(const GSM48__screening__ind& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -return enum_value < other_value.enum_value; -} - -boolean GSM48__screening__ind::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -return enum_value > other_value; -} - -boolean GSM48__screening__ind::operator>(const GSM48__screening__ind& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__screening__ind::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__SCR__IND__NOT__SCREENED: return "GSM48_SCR_IND_NOT_SCREENED"; -case GSM48__SCR__IND__VERIF__PASSED: return "GSM48_SCR_IND_VERIF_PASSED"; -case GSM48__SCR__IND__VERIF__FAILED: return "GSM48_SCR_IND_VERIF_FAILED"; -case GSM48__SCR__IND__NETW__PROVIDED: return "GSM48_SCR_IND_NETW_PROVIDED"; -default: return ""; -} -} - -GSM48__screening__ind::enum_type GSM48__screening__ind::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_SCR_IND_NOT_SCREENED")) return GSM48__SCR__IND__NOT__SCREENED; -else if (!strcmp(str_par, "GSM48_SCR_IND_VERIF_PASSED")) return GSM48__SCR__IND__VERIF__PASSED; -else if (!strcmp(str_par, "GSM48_SCR_IND_VERIF_FAILED")) return GSM48__SCR__IND__VERIF__FAILED; -else if (!strcmp(str_par, "GSM48_SCR_IND_NETW_PROVIDED")) return GSM48__SCR__IND__NETW__PROVIDED; -else return UNKNOWN_VALUE; -} - -boolean GSM48__screening__ind::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__screening__ind::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_screening_ind.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__screening__ind::enum2int(const GSM48__screening__ind& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_screening_ind.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__screening__ind::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_screening_ind.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__screening__ind::operator GSM48__screening__ind::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_screening_ind."); -return enum_value; -} - -void GSM48__screening__ind::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__screening__ind::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_screening_ind"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_screening_ind."); - } -} - -void GSM48__screening__ind::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -text_buf.push_int(enum_value); -} - -void GSM48__screening__ind::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_screening_ind.", enum_value); -} - -void GSM48__screening__ind::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__screening__ind::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__screening__ind::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 3, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__screening__ind::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 3); -} - -void GSM48__screening__ind_template::copy_template(const GSM48__screening__ind_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__screening__ind_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_screening_ind."); -} -} - -GSM48__screening__ind_template::GSM48__screening__ind_template() -{ -} - -GSM48__screening__ind_template::GSM48__screening__ind_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__screening__ind_template::GSM48__screening__ind_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__screening__ind::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_screening_ind with unknown numeric value %d.", other_value); -single_value = (GSM48__screening__ind::enum_type)other_value; -} - -GSM48__screening__ind_template::GSM48__screening__ind_template(GSM48__screening__ind::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__screening__ind_template::GSM48__screening__ind_template(const GSM48__screening__ind& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__screening__ind::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind."); -single_value = other_value.enum_value; -} - -GSM48__screening__ind_template::GSM48__screening__ind_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__screening__ind::enum_type)(const GSM48__screening__ind&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_screening_ind from an unbound optional field."); -} -} - -GSM48__screening__ind_template::GSM48__screening__ind_template(const GSM48__screening__ind_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__screening__ind_template::~GSM48__screening__ind_template() -{ -clean_up(); -} - -boolean GSM48__screening__ind_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__screening__ind_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__screening__ind::UNBOUND_VALUE; -} - -void GSM48__screening__ind_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__screening__ind_template& GSM48__screening__ind_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__screening__ind_template& GSM48__screening__ind_template::operator=(int other_value) -{ -if (!GSM48__screening__ind::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_screening_ind.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__screening__ind::enum_type)other_value; -return *this; -} - -GSM48__screening__ind_template& GSM48__screening__ind_template::operator=(GSM48__screening__ind::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__screening__ind_template& GSM48__screening__ind_template::operator=(const GSM48__screening__ind& other_value) -{ -if (other_value.enum_value == GSM48__screening__ind::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_screening_ind to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__screening__ind_template& GSM48__screening__ind_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__screening__ind::enum_type)(const GSM48__screening__ind&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_screening_ind."); -} -return *this; -} - -GSM48__screening__ind_template& GSM48__screening__ind_template::operator=(const GSM48__screening__ind_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__screening__ind_template::match(GSM48__screening__ind::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_screening_ind."); -} -return FALSE; -} - -boolean GSM48__screening__ind_template::match(const GSM48__screening__ind& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__screening__ind::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_screening_ind with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__screening__ind::enum_type GSM48__screening__ind_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_screening_ind."); -return single_value; -} - -void GSM48__screening__ind_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_screening_ind."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__screening__ind_template[list_length]; -} - -GSM48__screening__ind_template& GSM48__screening__ind_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_screening_ind."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_screening_ind."); -return value_list.list_value[list_index]; -} - -void GSM48__screening__ind_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__screening__ind::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__screening__ind_template::log_match(const GSM48__screening__ind& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__screening__ind_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_screening_ind."); -} -} - -void GSM48__screening__ind_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__screening__ind::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__screening__ind::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_screening_ind.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__screening__ind_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_screening_ind."); -} -} - -boolean GSM48__screening__ind_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__screening__ind_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__screening__ind_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__screening__ind::enum_type enum_val = GSM48__screening__ind::str_to_enum(m_p->get_enumerated()); - if (!GSM48__screening__ind::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_screening_ind."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_screening_ind"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__screening__ind_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_screening_ind"); -} - -MNCC__number::MNCC__number() -{ -} - -MNCC__number::MNCC__number(const GSM48__type__of__number& par_number__type, - const GSM48__num__plan__ind& par_plan, - const GSM48__present__ind& par_presence, - const GSM48__screening__ind& par_screen, - const CHARSTRING& par_number) - : field_number__type(par_number__type), - field_plan(par_plan), - field_presence(par_presence), - field_screen(par_screen), - field_number(par_number) -{ -} - -MNCC__number::MNCC__number(const MNCC__number& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_number."); -if (other_value.number__type().is_bound()) field_number__type = other_value.number__type(); -else field_number__type.clean_up(); -if (other_value.plan().is_bound()) field_plan = other_value.plan(); -else field_plan.clean_up(); -if (other_value.presence().is_bound()) field_presence = other_value.presence(); -else field_presence.clean_up(); -if (other_value.screen().is_bound()) field_screen = other_value.screen(); -else field_screen.clean_up(); -if (other_value.number().is_bound()) field_number = other_value.number(); -else field_number.clean_up(); -} - -void MNCC__number::clean_up() -{ -field_number__type.clean_up(); -field_plan.clean_up(); -field_presence.clean_up(); -field_screen.clean_up(); -field_number.clean_up(); -} - -const TTCN_Typedescriptor_t* MNCC__number::get_descriptor() const { return &MNCC__number_descr_; } -MNCC__number& MNCC__number::operator=(const MNCC__number& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_number."); - if (other_value.number__type().is_bound()) field_number__type = other_value.number__type(); - else field_number__type.clean_up(); - if (other_value.plan().is_bound()) field_plan = other_value.plan(); - else field_plan.clean_up(); - if (other_value.presence().is_bound()) field_presence = other_value.presence(); - else field_presence.clean_up(); - if (other_value.screen().is_bound()) field_screen = other_value.screen(); - else field_screen.clean_up(); - if (other_value.number().is_bound()) field_number = other_value.number(); - else field_number.clean_up(); -} -return *this; -} - -boolean MNCC__number::operator==(const MNCC__number& other_value) const -{ -return field_number__type==other_value.field_number__type - && field_plan==other_value.field_plan - && field_presence==other_value.field_presence - && field_screen==other_value.field_screen - && field_number==other_value.field_number; -} - -boolean MNCC__number::is_bound() const -{ -if(field_number__type.is_bound()) return TRUE; -if(field_plan.is_bound()) return TRUE; -if(field_presence.is_bound()) return TRUE; -if(field_screen.is_bound()) return TRUE; -if(field_number.is_bound()) return TRUE; -return FALSE; -} -boolean MNCC__number::is_value() const -{ -if(!field_number__type.is_value()) return FALSE; -if(!field_plan.is_value()) return FALSE; -if(!field_presence.is_value()) return FALSE; -if(!field_screen.is_value()) return FALSE; -if(!field_number.is_value()) return FALSE; -return TRUE; -} -void MNCC__number::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ number_type := "); -field_number__type.log(); -TTCN_Logger::log_event_str(", plan := "); -field_plan.log(); -TTCN_Logger::log_event_str(", presence := "); -field_presence.log(); -TTCN_Logger::log_event_str(", screen := "); -field_screen.log(); -TTCN_Logger::log_event_str(", number := "); -field_number.log(); -TTCN_Logger::log_event_str(" }"); -} - -void MNCC__number::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (50 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) number__type().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) plan().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) presence().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) screen().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) number().set_param(*param.get_elem(4)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "number_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - number__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "plan")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - plan().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "presence")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - presence().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "screen")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - screen().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "number")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - number().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_number: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_number"); - } -} - -void MNCC__number::set_implicit_omit() -{ -if (number__type().is_bound()) number__type().set_implicit_omit(); -if (plan().is_bound()) plan().set_implicit_omit(); -if (presence().is_bound()) presence().set_implicit_omit(); -if (screen().is_bound()) screen().set_implicit_omit(); -if (number().is_bound()) number().set_implicit_omit(); -} - -void MNCC__number::encode_text(Text_Buf& text_buf) const -{ -field_number__type.encode_text(text_buf); -field_plan.encode_text(text_buf); -field_presence.encode_text(text_buf); -field_screen.encode_text(text_buf); -field_number.encode_text(text_buf); -} - -void MNCC__number::decode_text(Text_Buf& text_buf) -{ -field_number__type.decode_text(text_buf); -field_plan.decode_text(text_buf); -field_presence.decode_text(text_buf); -field_screen.decode_text(text_buf); -field_number.decode_text(text_buf); -} - -void MNCC__number::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__number::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__number::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__number_number__type_descr_.raw->forceomit); - decoded_field_length = field_number__type.RAW_decode(MNCC__number_number__type_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__number_plan_descr_.raw->forceomit); - decoded_field_length = field_plan.RAW_decode(MNCC__number_plan_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, MNCC__number_presence_descr_.raw->forceomit); - decoded_field_length = field_presence.RAW_decode(MNCC__number_presence_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, MNCC__number_screen_descr_.raw->forceomit); - decoded_field_length = field_screen.RAW_decode(MNCC__number_screen_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, MNCC__number_number_descr_.raw->forceomit); - decoded_field_length = field_number.RAW_decode(MNCC__number_number_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__number::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 5; - myleaf.body.node.nodes = init_nodes_of_enc_tree(5); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__number_number__type_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__number_plan_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, MNCC__number_presence_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, MNCC__number_screen_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, MNCC__number_number_descr_.raw); - encoded_length += field_number__type.RAW_encode(MNCC__number_number__type_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_plan.RAW_encode(MNCC__number_plan_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_presence.RAW_encode(MNCC__number_presence_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_screen.RAW_encode(MNCC__number_screen_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_number.RAW_encode(MNCC__number_number_descr_, *myleaf.body.node.nodes[4]); - return myleaf.length = encoded_length; -} - -struct MNCC__number_template::single_value_struct { -GSM48__type__of__number_template field_number__type; -GSM48__num__plan__ind_template field_plan; -GSM48__present__ind_template field_presence; -GSM48__screening__ind_template field_screen; -CHARSTRING_template field_number; -}; - -void MNCC__number_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_number__type = ANY_VALUE; -single_value->field_plan = ANY_VALUE; -single_value->field_presence = ANY_VALUE; -single_value->field_screen = ANY_VALUE; -single_value->field_number = ANY_VALUE; -} -} -} - -void MNCC__number_template::copy_value(const MNCC__number& other_value) -{ -single_value = new single_value_struct; -if (other_value.number__type().is_bound()) { - single_value->field_number__type = other_value.number__type(); -} else { - single_value->field_number__type.clean_up(); -} -if (other_value.plan().is_bound()) { - single_value->field_plan = other_value.plan(); -} else { - single_value->field_plan.clean_up(); -} -if (other_value.presence().is_bound()) { - single_value->field_presence = other_value.presence(); -} else { - single_value->field_presence.clean_up(); -} -if (other_value.screen().is_bound()) { - single_value->field_screen = other_value.screen(); -} else { - single_value->field_screen.clean_up(); -} -if (other_value.number().is_bound()) { - single_value->field_number = other_value.number(); -} else { - single_value->field_number.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__number_template::copy_template(const MNCC__number_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.number__type().get_selection()) { -single_value->field_number__type = other_value.number__type(); -} else { -single_value->field_number__type.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.plan().get_selection()) { -single_value->field_plan = other_value.plan(); -} else { -single_value->field_plan.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.presence().get_selection()) { -single_value->field_presence = other_value.presence(); -} else { -single_value->field_presence.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.screen().get_selection()) { -single_value->field_screen = other_value.screen(); -} else { -single_value->field_screen.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.number().get_selection()) { -single_value->field_number = other_value.number(); -} else { -single_value->field_number.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__number_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_number."); -break; -} -set_selection(other_value); -} - -MNCC__number_template::MNCC__number_template() -{ -} - -MNCC__number_template::MNCC__number_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__number_template::MNCC__number_template(const MNCC__number& other_value) -{ -copy_value(other_value); -} - -MNCC__number_template::MNCC__number_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__number&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_number from an unbound optional field."); -} -} - -MNCC__number_template::MNCC__number_template(const MNCC__number_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__number_template::~MNCC__number_template() -{ -clean_up(); -} - -MNCC__number_template& MNCC__number_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__number_template& MNCC__number_template::operator=(const MNCC__number& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__number_template& MNCC__number_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__number&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_number."); -} -return *this; -} - -MNCC__number_template& MNCC__number_template::operator=(const MNCC__number_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__number_template::match(const MNCC__number& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.number__type().is_bound()) return FALSE; -if(!single_value->field_number__type.match(other_value.number__type(), legacy))return FALSE; -if(!other_value.plan().is_bound()) return FALSE; -if(!single_value->field_plan.match(other_value.plan(), legacy))return FALSE; -if(!other_value.presence().is_bound()) return FALSE; -if(!single_value->field_presence.match(other_value.presence(), legacy))return FALSE; -if(!other_value.screen().is_bound()) return FALSE; -if(!single_value->field_screen.match(other_value.screen(), legacy))return FALSE; -if(!other_value.number().is_bound()) return FALSE; -if(!single_value->field_number.match(other_value.number(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_number."); -} -return FALSE; -} - -boolean MNCC__number_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_number__type.is_bound()) return TRUE; -if (single_value->field_plan.is_bound()) return TRUE; -if (single_value->field_presence.is_bound()) return TRUE; -if (single_value->field_screen.is_bound()) return TRUE; -if (single_value->field_number.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__number_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_number__type.is_value()) return FALSE; -if (!single_value->field_plan.is_value()) return FALSE; -if (!single_value->field_presence.is_value()) return FALSE; -if (!single_value->field_screen.is_value()) return FALSE; -if (!single_value->field_number.is_value()) return FALSE; -return TRUE; -} - -void MNCC__number_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__number MNCC__number_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_number."); -MNCC__number ret_val; -if (single_value->field_number__type.is_bound()) { -ret_val.number__type() = single_value->field_number__type.valueof(); -} -if (single_value->field_plan.is_bound()) { -ret_val.plan() = single_value->field_plan.valueof(); -} -if (single_value->field_presence.is_bound()) { -ret_val.presence() = single_value->field_presence.valueof(); -} -if (single_value->field_screen.is_bound()) { -ret_val.screen() = single_value->field_screen.valueof(); -} -if (single_value->field_number.is_bound()) { -ret_val.number() = single_value->field_number.valueof(); -} -return ret_val; -} - -void MNCC__number_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_number."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__number_template[list_length]; -} - -MNCC__number_template& MNCC__number_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_number."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_number."); -return value_list.list_value[list_index]; -} - -GSM48__type__of__number_template& MNCC__number_template::number__type() -{ -set_specific(); -return single_value->field_number__type; -} - -const GSM48__type__of__number_template& MNCC__number_template::number__type() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field number_type of a non-specific template of type @MNCC_Types.MNCC_number."); -return single_value->field_number__type; -} - -GSM48__num__plan__ind_template& MNCC__number_template::plan() -{ -set_specific(); -return single_value->field_plan; -} - -const GSM48__num__plan__ind_template& MNCC__number_template::plan() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field plan of a non-specific template of type @MNCC_Types.MNCC_number."); -return single_value->field_plan; -} - -GSM48__present__ind_template& MNCC__number_template::presence() -{ -set_specific(); -return single_value->field_presence; -} - -const GSM48__present__ind_template& MNCC__number_template::presence() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field presence of a non-specific template of type @MNCC_Types.MNCC_number."); -return single_value->field_presence; -} - -GSM48__screening__ind_template& MNCC__number_template::screen() -{ -set_specific(); -return single_value->field_screen; -} - -const GSM48__screening__ind_template& MNCC__number_template::screen() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field screen of a non-specific template of type @MNCC_Types.MNCC_number."); -return single_value->field_screen; -} - -CHARSTRING_template& MNCC__number_template::number() -{ -set_specific(); -return single_value->field_number; -} - -const CHARSTRING_template& MNCC__number_template::number() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field number of a non-specific template of type @MNCC_Types.MNCC_number."); -return single_value->field_number; -} - -int MNCC__number_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_number which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 5; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_number containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_number containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_number containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_number containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_number containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_number."); - } - return 0; -} - -void MNCC__number_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ number_type := "); -single_value->field_number__type.log(); -TTCN_Logger::log_event_str(", plan := "); -single_value->field_plan.log(); -TTCN_Logger::log_event_str(", presence := "); -single_value->field_presence.log(); -TTCN_Logger::log_event_str(", screen := "); -single_value->field_screen.log(); -TTCN_Logger::log_event_str(", number := "); -single_value->field_number.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__number_template::log_match(const MNCC__number& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_number__type.match(match_value.number__type(), legacy)){ -TTCN_Logger::log_logmatch_info(".number_type"); -single_value->field_number__type.log_match(match_value.number__type(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_plan.match(match_value.plan(), legacy)){ -TTCN_Logger::log_logmatch_info(".plan"); -single_value->field_plan.log_match(match_value.plan(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_presence.match(match_value.presence(), legacy)){ -TTCN_Logger::log_logmatch_info(".presence"); -single_value->field_presence.log_match(match_value.presence(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_screen.match(match_value.screen(), legacy)){ -TTCN_Logger::log_logmatch_info(".screen"); -single_value->field_screen.log_match(match_value.screen(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_number.match(match_value.number(), legacy)){ -TTCN_Logger::log_logmatch_info(".number"); -single_value->field_number.log_match(match_value.number(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ number_type := "); -single_value->field_number__type.log_match(match_value.number__type(), legacy); -TTCN_Logger::log_event_str(", plan := "); -single_value->field_plan.log_match(match_value.plan(), legacy); -TTCN_Logger::log_event_str(", presence := "); -single_value->field_presence.log_match(match_value.presence(), legacy); -TTCN_Logger::log_event_str(", screen := "); -single_value->field_screen.log_match(match_value.screen(), legacy); -TTCN_Logger::log_event_str(", number := "); -single_value->field_number.log_match(match_value.number(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__number_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_number__type.encode_text(text_buf); -single_value->field_plan.encode_text(text_buf); -single_value->field_presence.encode_text(text_buf); -single_value->field_screen.encode_text(text_buf); -single_value->field_number.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_number."); -} -} - -void MNCC__number_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_number__type.decode_text(text_buf); -single_value->field_plan.decode_text(text_buf); -single_value->field_presence.decode_text(text_buf); -single_value->field_screen.decode_text(text_buf); -single_value->field_number.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__number_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_number."); -} -} - -void MNCC__number_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__number_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) number__type().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) plan().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) presence().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) screen().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) number().set_param(*param.get_elem(4)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "number_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - number__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "plan")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - plan().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "presence")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - presence().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "screen")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - screen().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "number")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - number().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_number: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_number"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__number_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_number__type.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_number"); -single_value->field_plan.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_number"); -single_value->field_presence.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_number"); -single_value->field_screen.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_number"); -single_value->field_number.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_number"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_number"); -} - -boolean MNCC__number_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__number_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_coding."); -return enum_value > other_value; -} - -boolean GSM48__cause__coding::operator>(const GSM48__cause__coding& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_coding."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_coding."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__cause__coding::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__CAUSE__CS__Q931: return "GSM48_CAUSE_CS_Q931"; -case GSM48__CAUSE__CS__RSVD: return "GSM48_CAUSE_CS_RSVD"; -case GSM48__CAUSE__CS__NATIONAL: return "GSM48_CAUSE_CS_NATIONAL"; -case GSM48__CAUSE__CS__GSM: return "GSM48_CAUSE_CS_GSM"; -default: return ""; -} -} - -GSM48__cause__coding::enum_type GSM48__cause__coding::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_CAUSE_CS_Q931")) return GSM48__CAUSE__CS__Q931; -else if (!strcmp(str_par, "GSM48_CAUSE_CS_RSVD")) return GSM48__CAUSE__CS__RSVD; -else if (!strcmp(str_par, "GSM48_CAUSE_CS_NATIONAL")) return GSM48__CAUSE__CS__NATIONAL; -else if (!strcmp(str_par, "GSM48_CAUSE_CS_GSM")) return GSM48__CAUSE__CS__GSM; -else return UNKNOWN_VALUE; -} - -boolean GSM48__cause__coding::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__cause__coding::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_cause_coding.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__cause__coding::enum2int(const GSM48__cause__coding& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_cause_coding.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__cause__coding::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_cause_coding.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__cause__coding::operator GSM48__cause__coding::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_cause_coding."); -return enum_value; -} - -void GSM48__cause__coding::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__cause__coding::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_cause_coding"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_cause_coding."); - } -} - -void GSM48__cause__coding::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_cause_coding."); -text_buf.push_int(enum_value); -} - -void GSM48__cause__coding::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_cause_coding.", enum_value); -} - -void GSM48__cause__coding::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__cause__coding::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__cause__coding::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 3, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__cause__coding::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 3); -} - -void GSM48__cause__coding_template::copy_template(const GSM48__cause__coding_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__cause__coding_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_cause_coding."); -} -} - -GSM48__cause__coding_template::GSM48__cause__coding_template() -{ -} - -GSM48__cause__coding_template::GSM48__cause__coding_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__cause__coding_template::GSM48__cause__coding_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__cause__coding::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_cause_coding with unknown numeric value %d.", other_value); -single_value = (GSM48__cause__coding::enum_type)other_value; -} - -GSM48__cause__coding_template::GSM48__cause__coding_template(GSM48__cause__coding::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__cause__coding_template::GSM48__cause__coding_template(const GSM48__cause__coding& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__cause__coding::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_cause_coding."); -single_value = other_value.enum_value; -} - -GSM48__cause__coding_template::GSM48__cause__coding_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__cause__coding::enum_type)(const GSM48__cause__coding&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_cause_coding from an unbound optional field."); -} -} - -GSM48__cause__coding_template::GSM48__cause__coding_template(const GSM48__cause__coding_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__cause__coding_template::~GSM48__cause__coding_template() -{ -clean_up(); -} - -boolean GSM48__cause__coding_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__cause__coding_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__cause__coding::UNBOUND_VALUE; -} - -void GSM48__cause__coding_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__cause__coding_template& GSM48__cause__coding_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__cause__coding_template& GSM48__cause__coding_template::operator=(int other_value) -{ -if (!GSM48__cause__coding::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_cause_coding.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__cause__coding::enum_type)other_value; -return *this; -} - -GSM48__cause__coding_template& GSM48__cause__coding_template::operator=(GSM48__cause__coding::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__cause__coding_template& GSM48__cause__coding_template::operator=(const GSM48__cause__coding& other_value) -{ -if (other_value.enum_value == GSM48__cause__coding::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_cause_coding to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__cause__coding_template& GSM48__cause__coding_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__cause__coding::enum_type)(const GSM48__cause__coding&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_cause_coding."); -} -return *this; -} - -GSM48__cause__coding_template& GSM48__cause__coding_template::operator=(const GSM48__cause__coding_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__cause__coding_template::match(GSM48__cause__coding::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_cause_coding."); -} -return FALSE; -} - -boolean GSM48__cause__coding_template::match(const GSM48__cause__coding& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__cause__coding::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_cause_coding with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__cause__coding::enum_type GSM48__cause__coding_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_cause_coding."); -return single_value; -} - -void GSM48__cause__coding_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_cause_coding."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__cause__coding_template[list_length]; -} - -GSM48__cause__coding_template& GSM48__cause__coding_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_cause_coding."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_cause_coding."); -return value_list.list_value[list_index]; -} - -void GSM48__cause__coding_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__cause__coding::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__cause__coding_template::log_match(const GSM48__cause__coding& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__cause__coding_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_cause_coding."); -} -} - -void GSM48__cause__coding_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__cause__coding::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__cause__coding::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_cause_coding.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__cause__coding_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_cause_coding."); -} -} - -boolean GSM48__cause__coding_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__cause__coding_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__cause__coding_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__cause__coding::enum_type enum_val = GSM48__cause__coding::str_to_enum(m_p->get_enumerated()); - if (!GSM48__cause__coding::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_cause_coding."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_cause_coding"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__cause__coding_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_cause_coding"); -} - -GSM48__cause__loc::GSM48__cause__loc() -{ -enum_value = UNBOUND_VALUE; -} - -GSM48__cause__loc::GSM48__cause__loc(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_cause_loc with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -GSM48__cause__loc::GSM48__cause__loc(enum_type other_value) -{ -enum_value = other_value; -} - -GSM48__cause__loc::GSM48__cause__loc(const GSM48__cause__loc& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -enum_value = other_value.enum_value; -} - -GSM48__cause__loc& GSM48__cause__loc::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_cause_loc.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -GSM48__cause__loc& GSM48__cause__loc::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -GSM48__cause__loc& GSM48__cause__loc::operator=(const GSM48__cause__loc& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -enum_value = other_value.enum_value; -return *this; -} - -boolean GSM48__cause__loc::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -return enum_value == other_value; -} - -boolean GSM48__cause__loc::operator==(const GSM48__cause__loc& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -return enum_value == other_value.enum_value; -} - -boolean GSM48__cause__loc::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -return enum_value < other_value; -} - -boolean GSM48__cause__loc::operator<(const GSM48__cause__loc& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -return enum_value < other_value.enum_value; -} - -boolean GSM48__cause__loc::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -return enum_value > other_value; -} - -boolean GSM48__cause__loc::operator>(const GSM48__cause__loc& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -return enum_value > other_value.enum_value; -} - -const char *GSM48__cause__loc::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM48__CAUSE__LOC__USER: return "GSM48_CAUSE_LOC_USER"; -case GSM48__CAUSE__LOC__PRN__S__LU: return "GSM48_CAUSE_LOC_PRN_S_LU"; -case GSM48__CAUSE__LOC__PUN__S__LU: return "GSM48_CAUSE_LOC_PUN_S_LU"; -case GSM48__CAUSE__LOC__TRANS__NET: return "GSM48_CAUSE_LOC_TRANS_NET"; -case GSM48__CAUSE__LOC__PUN__S__RU: return "GSM48_CAUSE_LOC_PUN_S_RU"; -case GSM48__CAUSE__LOC__PRN__S__RU: return "GSM48_CAUSE_LOC_PRN_S_RU"; -case GSM48__CAUSE__LOC__INN__NET: return "GSM48_CAUSE_LOC_INN_NET"; -case GSM48__CAUSE__LOC__NET__BEYOND: return "GSM48_CAUSE_LOC_NET_BEYOND"; -default: return ""; -} -} - -GSM48__cause__loc::enum_type GSM48__cause__loc::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM48_CAUSE_LOC_USER")) return GSM48__CAUSE__LOC__USER; -else if (!strcmp(str_par, "GSM48_CAUSE_LOC_PRN_S_LU")) return GSM48__CAUSE__LOC__PRN__S__LU; -else if (!strcmp(str_par, "GSM48_CAUSE_LOC_PUN_S_LU")) return GSM48__CAUSE__LOC__PUN__S__LU; -else if (!strcmp(str_par, "GSM48_CAUSE_LOC_TRANS_NET")) return GSM48__CAUSE__LOC__TRANS__NET; -else if (!strcmp(str_par, "GSM48_CAUSE_LOC_PUN_S_RU")) return GSM48__CAUSE__LOC__PUN__S__RU; -else if (!strcmp(str_par, "GSM48_CAUSE_LOC_PRN_S_RU")) return GSM48__CAUSE__LOC__PRN__S__RU; -else if (!strcmp(str_par, "GSM48_CAUSE_LOC_INN_NET")) return GSM48__CAUSE__LOC__INN__NET; -else if (!strcmp(str_par, "GSM48_CAUSE_LOC_NET_BEYOND")) return GSM48__CAUSE__LOC__NET__BEYOND; -else return UNKNOWN_VALUE; -} - -boolean GSM48__cause__loc::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -case 4: -case 5: -case 7: -case 10: -return TRUE; -default: -return FALSE; -} -} - -int GSM48__cause__loc::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_cause_loc.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int GSM48__cause__loc::enum2int(const GSM48__cause__loc& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.GSM48_cause_loc.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void GSM48__cause__loc::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.GSM48_cause_loc.", int_val); -enum_value = (enum_type)int_val; -} - -GSM48__cause__loc::operator GSM48__cause__loc::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.GSM48_cause_loc."); -return enum_value; -} - -void GSM48__cause__loc::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void GSM48__cause__loc::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.GSM48_cause_loc"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_cause_loc."); - } -} - -void GSM48__cause__loc::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -text_buf.push_int(enum_value); -} - -void GSM48__cause__loc::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.GSM48_cause_loc.", enum_value); -} - -void GSM48__cause__loc::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void GSM48__cause__loc::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int GSM48__cause__loc::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 4, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int GSM48__cause__loc::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 4); -} - -void GSM48__cause__loc_template::copy_template(const GSM48__cause__loc_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new GSM48__cause__loc_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_cause_loc."); -} -} - -GSM48__cause__loc_template::GSM48__cause__loc_template() -{ -} - -GSM48__cause__loc_template::GSM48__cause__loc_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -GSM48__cause__loc_template::GSM48__cause__loc_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!GSM48__cause__loc::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.GSM48_cause_loc with unknown numeric value %d.", other_value); -single_value = (GSM48__cause__loc::enum_type)other_value; -} - -GSM48__cause__loc_template::GSM48__cause__loc_template(GSM48__cause__loc::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -GSM48__cause__loc_template::GSM48__cause__loc_template(const GSM48__cause__loc& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == GSM48__cause__loc::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc."); -single_value = other_value.enum_value; -} - -GSM48__cause__loc_template::GSM48__cause__loc_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__cause__loc::enum_type)(const GSM48__cause__loc&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.GSM48_cause_loc from an unbound optional field."); -} -} - -GSM48__cause__loc_template::GSM48__cause__loc_template(const GSM48__cause__loc_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -GSM48__cause__loc_template::~GSM48__cause__loc_template() -{ -clean_up(); -} - -boolean GSM48__cause__loc_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean GSM48__cause__loc_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != GSM48__cause__loc::UNBOUND_VALUE; -} - -void GSM48__cause__loc_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -GSM48__cause__loc_template& GSM48__cause__loc_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -GSM48__cause__loc_template& GSM48__cause__loc_template::operator=(int other_value) -{ -if (!GSM48__cause__loc::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.GSM48_cause_loc.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__cause__loc::enum_type)other_value; -return *this; -} - -GSM48__cause__loc_template& GSM48__cause__loc_template::operator=(GSM48__cause__loc::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -GSM48__cause__loc_template& GSM48__cause__loc_template::operator=(const GSM48__cause__loc& other_value) -{ -if (other_value.enum_value == GSM48__cause__loc::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_cause_loc to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -GSM48__cause__loc_template& GSM48__cause__loc_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (GSM48__cause__loc::enum_type)(const GSM48__cause__loc&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.GSM48_cause_loc."); -} -return *this; -} - -GSM48__cause__loc_template& GSM48__cause__loc_template::operator=(const GSM48__cause__loc_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean GSM48__cause__loc_template::match(GSM48__cause__loc::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_cause_loc."); -} -return FALSE; -} - -boolean GSM48__cause__loc_template::match(const GSM48__cause__loc& other_value, boolean) const -{ -if (other_value.enum_value == GSM48__cause__loc::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.GSM48_cause_loc with an unbound value."); -return match(other_value.enum_value); -} - -GSM48__cause__loc::enum_type GSM48__cause__loc_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.GSM48_cause_loc."); -return single_value; -} - -void GSM48__cause__loc_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.GSM48_cause_loc."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new GSM48__cause__loc_template[list_length]; -} - -GSM48__cause__loc_template& GSM48__cause__loc_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.GSM48_cause_loc."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.GSM48_cause_loc."); -return value_list.list_value[list_index]; -} - -void GSM48__cause__loc_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(GSM48__cause__loc::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void GSM48__cause__loc_template::log_match(const GSM48__cause__loc& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void GSM48__cause__loc_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.GSM48_cause_loc."); -} -} - -void GSM48__cause__loc_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (GSM48__cause__loc::enum_type)text_buf.pull_int().get_val(); -if (!GSM48__cause__loc::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.GSM48_cause_loc.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new GSM48__cause__loc_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.GSM48_cause_loc."); -} -} - -boolean GSM48__cause__loc_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean GSM48__cause__loc_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - GSM48__cause__loc_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - GSM48__cause__loc::enum_type enum_val = GSM48__cause__loc::str_to_enum(m_p->get_enumerated()); - if (!GSM48__cause__loc::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.GSM48_cause_loc."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.GSM48_cause_loc"); - } - is_ifpresent = param.get_ifpresent(); -} - -void GSM48__cause__loc_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.GSM48_cause_loc"); -} - -MNCC__cause::MNCC__cause() -{ -} - -MNCC__cause::MNCC__cause(const GSM48__cause__loc& par_location, - const GSM48__cause__coding& par_coding, - const INTEGER& par_rec, - const INTEGER& par_rec__val, - const INTEGER& par_val, - const OCTETSTRING& par_diag) - : field_location(par_location), - field_coding(par_coding), - field_rec(par_rec), - field_rec__val(par_rec__val), - field_val(par_val), - field_diag(par_diag) -{ -} - -MNCC__cause::MNCC__cause(const MNCC__cause& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_cause."); -if (other_value.location().is_bound()) field_location = other_value.location(); -else field_location.clean_up(); -if (other_value.coding().is_bound()) field_coding = other_value.coding(); -else field_coding.clean_up(); -if (other_value.rec().is_bound()) field_rec = other_value.rec(); -else field_rec.clean_up(); -if (other_value.rec__val().is_bound()) field_rec__val = other_value.rec__val(); -else field_rec__val.clean_up(); -if (other_value.val().is_bound()) field_val = other_value.val(); -else field_val.clean_up(); -if (other_value.diag().is_bound()) field_diag = other_value.diag(); -else field_diag.clean_up(); -} - -void MNCC__cause::clean_up() -{ -field_location.clean_up(); -field_coding.clean_up(); -field_rec.clean_up(); -field_rec__val.clean_up(); -field_val.clean_up(); -field_diag.clean_up(); -} - -const TTCN_Typedescriptor_t* MNCC__cause::get_descriptor() const { return &MNCC__cause_descr_; } -MNCC__cause& MNCC__cause::operator=(const MNCC__cause& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_cause."); - if (other_value.location().is_bound()) field_location = other_value.location(); - else field_location.clean_up(); - if (other_value.coding().is_bound()) field_coding = other_value.coding(); - else field_coding.clean_up(); - if (other_value.rec().is_bound()) field_rec = other_value.rec(); - else field_rec.clean_up(); - if (other_value.rec__val().is_bound()) field_rec__val = other_value.rec__val(); - else field_rec__val.clean_up(); - if (other_value.val().is_bound()) field_val = other_value.val(); - else field_val.clean_up(); - if (other_value.diag().is_bound()) field_diag = other_value.diag(); - else field_diag.clean_up(); -} -return *this; -} - -boolean MNCC__cause::operator==(const MNCC__cause& other_value) const -{ -return field_location==other_value.field_location - && field_coding==other_value.field_coding - && field_rec==other_value.field_rec - && field_rec__val==other_value.field_rec__val - && field_val==other_value.field_val - && field_diag==other_value.field_diag; -} - -boolean MNCC__cause::is_bound() const -{ -if(field_location.is_bound()) return TRUE; -if(field_coding.is_bound()) return TRUE; -if(field_rec.is_bound()) return TRUE; -if(field_rec__val.is_bound()) return TRUE; -if(field_val.is_bound()) return TRUE; -if(field_diag.is_bound()) return TRUE; -return FALSE; -} -boolean MNCC__cause::is_value() const -{ -if(!field_location.is_value()) return FALSE; -if(!field_coding.is_value()) return FALSE; -if(!field_rec.is_value()) return FALSE; -if(!field_rec__val.is_value()) return FALSE; -if(!field_val.is_value()) return FALSE; -if(!field_diag.is_value()) return FALSE; -return TRUE; -} -void MNCC__cause::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ location := "); -field_location.log(); -TTCN_Logger::log_event_str(", coding := "); -field_coding.log(); -TTCN_Logger::log_event_str(", rec := "); -field_rec.log(); -TTCN_Logger::log_event_str(", rec_val := "); -field_rec__val.log(); -TTCN_Logger::log_event_str(", val := "); -field_val.log(); -TTCN_Logger::log_event_str(", diag := "); -field_diag.log(); -TTCN_Logger::log_event_str(" }"); -} - -void MNCC__cause::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (60 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) location().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) coding().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) rec().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) rec__val().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) val().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) diag().set_param(*param.get_elem(5)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "location")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - location().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "coding")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - coding().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rec")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rec().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rec_val")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rec__val().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "val")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - val().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "diag")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - diag().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_cause: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_cause"); - } -} - -void MNCC__cause::set_implicit_omit() -{ -if (location().is_bound()) location().set_implicit_omit(); -if (coding().is_bound()) coding().set_implicit_omit(); -if (rec().is_bound()) rec().set_implicit_omit(); -if (rec__val().is_bound()) rec__val().set_implicit_omit(); -if (val().is_bound()) val().set_implicit_omit(); -if (diag().is_bound()) diag().set_implicit_omit(); -} - -void MNCC__cause::encode_text(Text_Buf& text_buf) const -{ -field_location.encode_text(text_buf); -field_coding.encode_text(text_buf); -field_rec.encode_text(text_buf); -field_rec__val.encode_text(text_buf); -field_val.encode_text(text_buf); -field_diag.encode_text(text_buf); -} - -void MNCC__cause::decode_text(Text_Buf& text_buf) -{ -field_location.decode_text(text_buf); -field_coding.decode_text(text_buf); -field_rec.decode_text(text_buf); -field_rec__val.decode_text(text_buf); -field_val.decode_text(text_buf); -field_diag.decode_text(text_buf); -} - -void MNCC__cause::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__cause::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__cause::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__cause_location_descr_.raw->forceomit); - decoded_field_length = field_location.RAW_decode(MNCC__cause_location_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__cause_coding_descr_.raw->forceomit); - decoded_field_length = field_coding.RAW_decode(MNCC__cause_coding_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, MNCC__cause_rec_descr_.raw->forceomit); - decoded_field_length = field_rec.RAW_decode(MNCC__cause_rec_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, MNCC__cause_rec__val_descr_.raw->forceomit); - decoded_field_length = field_rec__val.RAW_decode(MNCC__cause_rec__val_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, MNCC__cause_val_descr_.raw->forceomit); - decoded_field_length = field_val.RAW_decode(MNCC__cause_val_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_5_force_omit(5, force_omit, MNCC__cause_diag_descr_.raw->forceomit); - decoded_field_length = field_diag.RAW_decode(MNCC__cause_diag_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_5_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__cause::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 6; - myleaf.body.node.nodes = init_nodes_of_enc_tree(6); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__cause_location_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__cause_coding_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, MNCC__cause_rec_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, MNCC__cause_rec__val_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, MNCC__cause_val_descr_.raw); - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 5, MNCC__cause_diag_descr_.raw); - encoded_length += field_location.RAW_encode(MNCC__cause_location_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_coding.RAW_encode(MNCC__cause_coding_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_rec.RAW_encode(MNCC__cause_rec_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_rec__val.RAW_encode(MNCC__cause_rec__val_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_val.RAW_encode(MNCC__cause_val_descr_, *myleaf.body.node.nodes[4]); - encoded_length += field_diag.RAW_encode(MNCC__cause_diag_descr_, *myleaf.body.node.nodes[5]); - return myleaf.length = encoded_length; -} - -struct MNCC__cause_template::single_value_struct { -GSM48__cause__loc_template field_location; -GSM48__cause__coding_template field_coding; -INTEGER_template field_rec; -INTEGER_template field_rec__val; -INTEGER_template field_val; -OCTETSTRING_template field_diag; -}; - -void MNCC__cause_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_location = ANY_VALUE; -single_value->field_coding = ANY_VALUE; -single_value->field_rec = ANY_VALUE; -single_value->field_rec__val = ANY_VALUE; -single_value->field_val = ANY_VALUE; -single_value->field_diag = ANY_VALUE; -} -} -} - -void MNCC__cause_template::copy_value(const MNCC__cause& other_value) -{ -single_value = new single_value_struct; -if (other_value.location().is_bound()) { - single_value->field_location = other_value.location(); -} else { - single_value->field_location.clean_up(); -} -if (other_value.coding().is_bound()) { - single_value->field_coding = other_value.coding(); -} else { - single_value->field_coding.clean_up(); -} -if (other_value.rec().is_bound()) { - single_value->field_rec = other_value.rec(); -} else { - single_value->field_rec.clean_up(); -} -if (other_value.rec__val().is_bound()) { - single_value->field_rec__val = other_value.rec__val(); -} else { - single_value->field_rec__val.clean_up(); -} -if (other_value.val().is_bound()) { - single_value->field_val = other_value.val(); -} else { - single_value->field_val.clean_up(); -} -if (other_value.diag().is_bound()) { - single_value->field_diag = other_value.diag(); -} else { - single_value->field_diag.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__cause_template::copy_template(const MNCC__cause_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.location().get_selection()) { -single_value->field_location = other_value.location(); -} else { -single_value->field_location.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.coding().get_selection()) { -single_value->field_coding = other_value.coding(); -} else { -single_value->field_coding.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.rec().get_selection()) { -single_value->field_rec = other_value.rec(); -} else { -single_value->field_rec.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.rec__val().get_selection()) { -single_value->field_rec__val = other_value.rec__val(); -} else { -single_value->field_rec__val.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.val().get_selection()) { -single_value->field_val = other_value.val(); -} else { -single_value->field_val.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.diag().get_selection()) { -single_value->field_diag = other_value.diag(); -} else { -single_value->field_diag.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__cause_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_cause."); -break; -} -set_selection(other_value); -} - -MNCC__cause_template::MNCC__cause_template() -{ -} - -MNCC__cause_template::MNCC__cause_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__cause_template::MNCC__cause_template(const MNCC__cause& other_value) -{ -copy_value(other_value); -} - -MNCC__cause_template::MNCC__cause_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__cause&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_cause from an unbound optional field."); -} -} - -MNCC__cause_template::MNCC__cause_template(const MNCC__cause_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__cause_template::~MNCC__cause_template() -{ -clean_up(); -} - -MNCC__cause_template& MNCC__cause_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__cause_template& MNCC__cause_template::operator=(const MNCC__cause& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__cause_template& MNCC__cause_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__cause&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_cause."); -} -return *this; -} - -MNCC__cause_template& MNCC__cause_template::operator=(const MNCC__cause_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__cause_template::match(const MNCC__cause& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.location().is_bound()) return FALSE; -if(!single_value->field_location.match(other_value.location(), legacy))return FALSE; -if(!other_value.coding().is_bound()) return FALSE; -if(!single_value->field_coding.match(other_value.coding(), legacy))return FALSE; -if(!other_value.rec().is_bound()) return FALSE; -if(!single_value->field_rec.match(other_value.rec(), legacy))return FALSE; -if(!other_value.rec__val().is_bound()) return FALSE; -if(!single_value->field_rec__val.match(other_value.rec__val(), legacy))return FALSE; -if(!other_value.val().is_bound()) return FALSE; -if(!single_value->field_val.match(other_value.val(), legacy))return FALSE; -if(!other_value.diag().is_bound()) return FALSE; -if(!single_value->field_diag.match(other_value.diag(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_cause."); -} -return FALSE; -} - -boolean MNCC__cause_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_location.is_bound()) return TRUE; -if (single_value->field_coding.is_bound()) return TRUE; -if (single_value->field_rec.is_bound()) return TRUE; -if (single_value->field_rec__val.is_bound()) return TRUE; -if (single_value->field_val.is_bound()) return TRUE; -if (single_value->field_diag.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__cause_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_location.is_value()) return FALSE; -if (!single_value->field_coding.is_value()) return FALSE; -if (!single_value->field_rec.is_value()) return FALSE; -if (!single_value->field_rec__val.is_value()) return FALSE; -if (!single_value->field_val.is_value()) return FALSE; -if (!single_value->field_diag.is_value()) return FALSE; -return TRUE; -} - -void MNCC__cause_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__cause MNCC__cause_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_cause."); -MNCC__cause ret_val; -if (single_value->field_location.is_bound()) { -ret_val.location() = single_value->field_location.valueof(); -} -if (single_value->field_coding.is_bound()) { -ret_val.coding() = single_value->field_coding.valueof(); -} -if (single_value->field_rec.is_bound()) { -ret_val.rec() = single_value->field_rec.valueof(); -} -if (single_value->field_rec__val.is_bound()) { -ret_val.rec__val() = single_value->field_rec__val.valueof(); -} -if (single_value->field_val.is_bound()) { -ret_val.val() = single_value->field_val.valueof(); -} -if (single_value->field_diag.is_bound()) { -ret_val.diag() = single_value->field_diag.valueof(); -} -return ret_val; -} - -void MNCC__cause_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_cause."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__cause_template[list_length]; -} - -MNCC__cause_template& MNCC__cause_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_cause."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_cause."); -return value_list.list_value[list_index]; -} - -GSM48__cause__loc_template& MNCC__cause_template::location() -{ -set_specific(); -return single_value->field_location; -} - -const GSM48__cause__loc_template& MNCC__cause_template::location() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field location of a non-specific template of type @MNCC_Types.MNCC_cause."); -return single_value->field_location; -} - -GSM48__cause__coding_template& MNCC__cause_template::coding() -{ -set_specific(); -return single_value->field_coding; -} - -const GSM48__cause__coding_template& MNCC__cause_template::coding() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field coding of a non-specific template of type @MNCC_Types.MNCC_cause."); -return single_value->field_coding; -} - -INTEGER_template& MNCC__cause_template::rec() -{ -set_specific(); -return single_value->field_rec; -} - -const INTEGER_template& MNCC__cause_template::rec() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field rec of a non-specific template of type @MNCC_Types.MNCC_cause."); -return single_value->field_rec; -} - -INTEGER_template& MNCC__cause_template::rec__val() -{ -set_specific(); -return single_value->field_rec__val; -} - -const INTEGER_template& MNCC__cause_template::rec__val() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field rec_val of a non-specific template of type @MNCC_Types.MNCC_cause."); -return single_value->field_rec__val; -} - -INTEGER_template& MNCC__cause_template::val() -{ -set_specific(); -return single_value->field_val; -} - -const INTEGER_template& MNCC__cause_template::val() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field val of a non-specific template of type @MNCC_Types.MNCC_cause."); -return single_value->field_val; -} - -OCTETSTRING_template& MNCC__cause_template::diag() -{ -set_specific(); -return single_value->field_diag; -} - -const OCTETSTRING_template& MNCC__cause_template::diag() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field diag of a non-specific template of type @MNCC_Types.MNCC_cause."); -return single_value->field_diag; -} - -int MNCC__cause_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cause which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 6; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cause containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cause containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cause containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cause containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cause containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_cause."); - } - return 0; -} - -void MNCC__cause_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ location := "); -single_value->field_location.log(); -TTCN_Logger::log_event_str(", coding := "); -single_value->field_coding.log(); -TTCN_Logger::log_event_str(", rec := "); -single_value->field_rec.log(); -TTCN_Logger::log_event_str(", rec_val := "); -single_value->field_rec__val.log(); -TTCN_Logger::log_event_str(", val := "); -single_value->field_val.log(); -TTCN_Logger::log_event_str(", diag := "); -single_value->field_diag.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__cause_template::log_match(const MNCC__cause& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_location.match(match_value.location(), legacy)){ -TTCN_Logger::log_logmatch_info(".location"); -single_value->field_location.log_match(match_value.location(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_coding.match(match_value.coding(), legacy)){ -TTCN_Logger::log_logmatch_info(".coding"); -single_value->field_coding.log_match(match_value.coding(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_rec.match(match_value.rec(), legacy)){ -TTCN_Logger::log_logmatch_info(".rec"); -single_value->field_rec.log_match(match_value.rec(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_rec__val.match(match_value.rec__val(), legacy)){ -TTCN_Logger::log_logmatch_info(".rec_val"); -single_value->field_rec__val.log_match(match_value.rec__val(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_val.match(match_value.val(), legacy)){ -TTCN_Logger::log_logmatch_info(".val"); -single_value->field_val.log_match(match_value.val(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_diag.match(match_value.diag(), legacy)){ -TTCN_Logger::log_logmatch_info(".diag"); -single_value->field_diag.log_match(match_value.diag(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ location := "); -single_value->field_location.log_match(match_value.location(), legacy); -TTCN_Logger::log_event_str(", coding := "); -single_value->field_coding.log_match(match_value.coding(), legacy); -TTCN_Logger::log_event_str(", rec := "); -single_value->field_rec.log_match(match_value.rec(), legacy); -TTCN_Logger::log_event_str(", rec_val := "); -single_value->field_rec__val.log_match(match_value.rec__val(), legacy); -TTCN_Logger::log_event_str(", val := "); -single_value->field_val.log_match(match_value.val(), legacy); -TTCN_Logger::log_event_str(", diag := "); -single_value->field_diag.log_match(match_value.diag(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__cause_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_location.encode_text(text_buf); -single_value->field_coding.encode_text(text_buf); -single_value->field_rec.encode_text(text_buf); -single_value->field_rec__val.encode_text(text_buf); -single_value->field_val.encode_text(text_buf); -single_value->field_diag.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_cause."); -} -} - -void MNCC__cause_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_location.decode_text(text_buf); -single_value->field_coding.decode_text(text_buf); -single_value->field_rec.decode_text(text_buf); -single_value->field_rec__val.decode_text(text_buf); -single_value->field_val.decode_text(text_buf); -single_value->field_diag.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__cause_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_cause."); -} -} - -void MNCC__cause_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__cause_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) location().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) coding().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) rec().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) rec__val().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) val().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) diag().set_param(*param.get_elem(5)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "location")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - location().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "coding")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - coding().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rec")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rec().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rec_val")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rec__val().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "val")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - val().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "diag")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - diag().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_cause: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_cause"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__cause_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_location.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_cause"); -single_value->field_coding.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_cause"); -single_value->field_rec.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_cause"); -single_value->field_rec__val.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_cause"); -single_value->field_val.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_cause"); -single_value->field_diag.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_cause"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_cause"); -} - -boolean MNCC__cause_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__cause_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) proto().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) info().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "proto")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - proto().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "info")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - info().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_useruser: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_useruser"); - } -} - -void MNCC__useruser::set_implicit_omit() -{ -if (proto().is_bound()) proto().set_implicit_omit(); -if (info().is_bound()) info().set_implicit_omit(); -} - -void MNCC__useruser::encode_text(Text_Buf& text_buf) const -{ -field_proto.encode_text(text_buf); -field_info.encode_text(text_buf); -} - -void MNCC__useruser::decode_text(Text_Buf& text_buf) -{ -field_proto.decode_text(text_buf); -field_info.decode_text(text_buf); -} - -void MNCC__useruser::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__useruser::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__useruser::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__useruser_proto_descr_.raw->forceomit); - decoded_field_length = field_proto.RAW_decode(MNCC__useruser_proto_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__useruser_info_descr_.raw->forceomit); - decoded_field_length = field_info.RAW_decode(MNCC__useruser_info_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__useruser::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 2; - myleaf.body.node.nodes = init_nodes_of_enc_tree(2); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__useruser_proto_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__useruser_info_descr_.raw); - encoded_length += field_proto.RAW_encode(MNCC__useruser_proto_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_info.RAW_encode(MNCC__useruser_info_descr_, *myleaf.body.node.nodes[1]); - return myleaf.length = encoded_length; -} - -struct MNCC__useruser_template::single_value_struct { -INTEGER_template field_proto; -CHARSTRING_template field_info; -}; - -void MNCC__useruser_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_proto = ANY_VALUE; -single_value->field_info = ANY_VALUE; -} -} -} - -void MNCC__useruser_template::copy_value(const MNCC__useruser& other_value) -{ -single_value = new single_value_struct; -if (other_value.proto().is_bound()) { - single_value->field_proto = other_value.proto(); -} else { - single_value->field_proto.clean_up(); -} -if (other_value.info().is_bound()) { - single_value->field_info = other_value.info(); -} else { - single_value->field_info.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__useruser_template::copy_template(const MNCC__useruser_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.proto().get_selection()) { -single_value->field_proto = other_value.proto(); -} else { -single_value->field_proto.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.info().get_selection()) { -single_value->field_info = other_value.info(); -} else { -single_value->field_info.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__useruser_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_useruser."); -break; -} -set_selection(other_value); -} - -MNCC__useruser_template::MNCC__useruser_template() -{ -} - -MNCC__useruser_template::MNCC__useruser_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__useruser_template::MNCC__useruser_template(const MNCC__useruser& other_value) -{ -copy_value(other_value); -} - -MNCC__useruser_template::MNCC__useruser_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__useruser&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_useruser from an unbound optional field."); -} -} - -MNCC__useruser_template::MNCC__useruser_template(const MNCC__useruser_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__useruser_template::~MNCC__useruser_template() -{ -clean_up(); -} - -MNCC__useruser_template& MNCC__useruser_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__useruser_template& MNCC__useruser_template::operator=(const MNCC__useruser& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__useruser_template& MNCC__useruser_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__useruser&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_useruser."); -} -return *this; -} - -MNCC__useruser_template& MNCC__useruser_template::operator=(const MNCC__useruser_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__useruser_template::match(const MNCC__useruser& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.proto().is_bound()) return FALSE; -if(!single_value->field_proto.match(other_value.proto(), legacy))return FALSE; -if(!other_value.info().is_bound()) return FALSE; -if(!single_value->field_info.match(other_value.info(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_useruser."); -} -return FALSE; -} - -boolean MNCC__useruser_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_proto.is_bound()) return TRUE; -if (single_value->field_info.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__useruser_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_proto.is_value()) return FALSE; -if (!single_value->field_info.is_value()) return FALSE; -return TRUE; -} - -void MNCC__useruser_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__useruser MNCC__useruser_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_useruser."); -MNCC__useruser ret_val; -if (single_value->field_proto.is_bound()) { -ret_val.proto() = single_value->field_proto.valueof(); -} -if (single_value->field_info.is_bound()) { -ret_val.info() = single_value->field_info.valueof(); -} -return ret_val; -} - -void MNCC__useruser_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_useruser."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__useruser_template[list_length]; -} - -MNCC__useruser_template& MNCC__useruser_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_useruser."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_useruser."); -return value_list.list_value[list_index]; -} - -INTEGER_template& MNCC__useruser_template::proto() -{ -set_specific(); -return single_value->field_proto; -} - -const INTEGER_template& MNCC__useruser_template::proto() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field proto of a non-specific template of type @MNCC_Types.MNCC_useruser."); -return single_value->field_proto; -} - -CHARSTRING_template& MNCC__useruser_template::info() -{ -set_specific(); -return single_value->field_info; -} - -const CHARSTRING_template& MNCC__useruser_template::info() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field info of a non-specific template of type @MNCC_Types.MNCC_useruser."); -return single_value->field_info; -} - -int MNCC__useruser_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_useruser which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 2; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_useruser containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_useruser containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_useruser containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_useruser containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_useruser containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_useruser."); - } - return 0; -} - -void MNCC__useruser_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ proto := "); -single_value->field_proto.log(); -TTCN_Logger::log_event_str(", info := "); -single_value->field_info.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__useruser_template::log_match(const MNCC__useruser& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_proto.match(match_value.proto(), legacy)){ -TTCN_Logger::log_logmatch_info(".proto"); -single_value->field_proto.log_match(match_value.proto(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_info.match(match_value.info(), legacy)){ -TTCN_Logger::log_logmatch_info(".info"); -single_value->field_info.log_match(match_value.info(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ proto := "); -single_value->field_proto.log_match(match_value.proto(), legacy); -TTCN_Logger::log_event_str(", info := "); -single_value->field_info.log_match(match_value.info(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__useruser_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_proto.encode_text(text_buf); -single_value->field_info.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_useruser."); -} -} - -void MNCC__useruser_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_proto.decode_text(text_buf); -single_value->field_info.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__useruser_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_useruser."); -} -} - -void MNCC__useruser_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__useruser_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) proto().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) info().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "proto")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - proto().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "info")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - info().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_useruser: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_useruser"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__useruser_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_proto.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_useruser"); -single_value->field_info.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_useruser"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_useruser"); -} - -boolean MNCC__useruser_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__useruser_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) coding().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) location().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) descr().set_param(*param.get_elem(2)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "coding")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - coding().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "location")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - location().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "descr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - descr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_progress: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_progress"); - } -} - -void MNCC__progress::set_implicit_omit() -{ -if (coding().is_bound()) coding().set_implicit_omit(); -if (location().is_bound()) location().set_implicit_omit(); -if (descr().is_bound()) descr().set_implicit_omit(); -} - -void MNCC__progress::encode_text(Text_Buf& text_buf) const -{ -field_coding.encode_text(text_buf); -field_location.encode_text(text_buf); -field_descr.encode_text(text_buf); -} - -void MNCC__progress::decode_text(Text_Buf& text_buf) -{ -field_coding.decode_text(text_buf); -field_location.decode_text(text_buf); -field_descr.decode_text(text_buf); -} - -void MNCC__progress::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__progress::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__progress::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__progress_coding_descr_.raw->forceomit); - decoded_field_length = field_coding.RAW_decode(MNCC__progress_coding_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__progress_location_descr_.raw->forceomit); - decoded_field_length = field_location.RAW_decode(MNCC__progress_location_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, MNCC__progress_descr_descr_.raw->forceomit); - decoded_field_length = field_descr.RAW_decode(MNCC__progress_descr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__progress::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 3; - myleaf.body.node.nodes = init_nodes_of_enc_tree(3); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__progress_coding_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__progress_location_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, MNCC__progress_descr_descr_.raw); - encoded_length += field_coding.RAW_encode(MNCC__progress_coding_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_location.RAW_encode(MNCC__progress_location_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_descr.RAW_encode(MNCC__progress_descr_descr_, *myleaf.body.node.nodes[2]); - return myleaf.length = encoded_length; -} - -struct MNCC__progress_template::single_value_struct { -INTEGER_template field_coding; -INTEGER_template field_location; -INTEGER_template field_descr; -}; - -void MNCC__progress_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_coding = ANY_VALUE; -single_value->field_location = ANY_VALUE; -single_value->field_descr = ANY_VALUE; -} -} -} - -void MNCC__progress_template::copy_value(const MNCC__progress& other_value) -{ -single_value = new single_value_struct; -if (other_value.coding().is_bound()) { - single_value->field_coding = other_value.coding(); -} else { - single_value->field_coding.clean_up(); -} -if (other_value.location().is_bound()) { - single_value->field_location = other_value.location(); -} else { - single_value->field_location.clean_up(); -} -if (other_value.descr().is_bound()) { - single_value->field_descr = other_value.descr(); -} else { - single_value->field_descr.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__progress_template::copy_template(const MNCC__progress_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.coding().get_selection()) { -single_value->field_coding = other_value.coding(); -} else { -single_value->field_coding.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.location().get_selection()) { -single_value->field_location = other_value.location(); -} else { -single_value->field_location.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.descr().get_selection()) { -single_value->field_descr = other_value.descr(); -} else { -single_value->field_descr.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__progress_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_progress."); -break; -} -set_selection(other_value); -} - -MNCC__progress_template::MNCC__progress_template() -{ -} - -MNCC__progress_template::MNCC__progress_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__progress_template::MNCC__progress_template(const MNCC__progress& other_value) -{ -copy_value(other_value); -} - -MNCC__progress_template::MNCC__progress_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__progress&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_progress from an unbound optional field."); -} -} - -MNCC__progress_template::MNCC__progress_template(const MNCC__progress_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__progress_template::~MNCC__progress_template() -{ -clean_up(); -} - -MNCC__progress_template& MNCC__progress_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__progress_template& MNCC__progress_template::operator=(const MNCC__progress& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__progress_template& MNCC__progress_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__progress&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_progress."); -} -return *this; -} - -MNCC__progress_template& MNCC__progress_template::operator=(const MNCC__progress_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__progress_template::match(const MNCC__progress& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.coding().is_bound()) return FALSE; -if(!single_value->field_coding.match(other_value.coding(), legacy))return FALSE; -if(!other_value.location().is_bound()) return FALSE; -if(!single_value->field_location.match(other_value.location(), legacy))return FALSE; -if(!other_value.descr().is_bound()) return FALSE; -if(!single_value->field_descr.match(other_value.descr(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_progress."); -} -return FALSE; -} - -boolean MNCC__progress_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_coding.is_bound()) return TRUE; -if (single_value->field_location.is_bound()) return TRUE; -if (single_value->field_descr.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__progress_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_coding.is_value()) return FALSE; -if (!single_value->field_location.is_value()) return FALSE; -if (!single_value->field_descr.is_value()) return FALSE; -return TRUE; -} - -void MNCC__progress_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__progress MNCC__progress_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_progress."); -MNCC__progress ret_val; -if (single_value->field_coding.is_bound()) { -ret_val.coding() = single_value->field_coding.valueof(); -} -if (single_value->field_location.is_bound()) { -ret_val.location() = single_value->field_location.valueof(); -} -if (single_value->field_descr.is_bound()) { -ret_val.descr() = single_value->field_descr.valueof(); -} -return ret_val; -} - -void MNCC__progress_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_progress."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__progress_template[list_length]; -} - -MNCC__progress_template& MNCC__progress_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_progress."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_progress."); -return value_list.list_value[list_index]; -} - -INTEGER_template& MNCC__progress_template::coding() -{ -set_specific(); -return single_value->field_coding; -} - -const INTEGER_template& MNCC__progress_template::coding() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field coding of a non-specific template of type @MNCC_Types.MNCC_progress."); -return single_value->field_coding; -} - -INTEGER_template& MNCC__progress_template::location() -{ -set_specific(); -return single_value->field_location; -} - -const INTEGER_template& MNCC__progress_template::location() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field location of a non-specific template of type @MNCC_Types.MNCC_progress."); -return single_value->field_location; -} - -INTEGER_template& MNCC__progress_template::descr() -{ -set_specific(); -return single_value->field_descr; -} - -const INTEGER_template& MNCC__progress_template::descr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field descr of a non-specific template of type @MNCC_Types.MNCC_progress."); -return single_value->field_descr; -} - -int MNCC__progress_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_progress which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 3; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_progress containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_progress containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_progress containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_progress containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_progress containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_progress."); - } - return 0; -} - -void MNCC__progress_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ coding := "); -single_value->field_coding.log(); -TTCN_Logger::log_event_str(", location := "); -single_value->field_location.log(); -TTCN_Logger::log_event_str(", descr := "); -single_value->field_descr.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__progress_template::log_match(const MNCC__progress& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_coding.match(match_value.coding(), legacy)){ -TTCN_Logger::log_logmatch_info(".coding"); -single_value->field_coding.log_match(match_value.coding(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_location.match(match_value.location(), legacy)){ -TTCN_Logger::log_logmatch_info(".location"); -single_value->field_location.log_match(match_value.location(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_descr.match(match_value.descr(), legacy)){ -TTCN_Logger::log_logmatch_info(".descr"); -single_value->field_descr.log_match(match_value.descr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ coding := "); -single_value->field_coding.log_match(match_value.coding(), legacy); -TTCN_Logger::log_event_str(", location := "); -single_value->field_location.log_match(match_value.location(), legacy); -TTCN_Logger::log_event_str(", descr := "); -single_value->field_descr.log_match(match_value.descr(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__progress_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_coding.encode_text(text_buf); -single_value->field_location.encode_text(text_buf); -single_value->field_descr.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_progress."); -} -} - -void MNCC__progress_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_coding.decode_text(text_buf); -single_value->field_location.decode_text(text_buf); -single_value->field_descr.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__progress_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_progress."); -} -} - -void MNCC__progress_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__progress_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) coding().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) location().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) descr().set_param(*param.get_elem(2)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "coding")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - coding().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "location")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - location().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "descr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - descr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_progress: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_progress"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__progress_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_coding.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_progress"); -single_value->field_location.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_progress"); -single_value->field_descr.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_progress"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_progress"); -} - -boolean MNCC__progress_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__progress_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) dtmf().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) pcp().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "dtmf")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - dtmf().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "pcp")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - pcp().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_cccap: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_cccap"); - } -} - -void MNCC__cccap::set_implicit_omit() -{ -if (dtmf().is_bound()) dtmf().set_implicit_omit(); -if (pcp().is_bound()) pcp().set_implicit_omit(); -} - -void MNCC__cccap::encode_text(Text_Buf& text_buf) const -{ -field_dtmf.encode_text(text_buf); -field_pcp.encode_text(text_buf); -} - -void MNCC__cccap::decode_text(Text_Buf& text_buf) -{ -field_dtmf.decode_text(text_buf); -field_pcp.decode_text(text_buf); -} - -void MNCC__cccap::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__cccap::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__cccap::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__cccap_dtmf_descr_.raw->forceomit); - decoded_field_length = field_dtmf.RAW_decode(MNCC__cccap_dtmf_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__cccap_pcp_descr_.raw->forceomit); - decoded_field_length = field_pcp.RAW_decode(MNCC__cccap_pcp_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__cccap::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 2; - myleaf.body.node.nodes = init_nodes_of_enc_tree(2); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__cccap_dtmf_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__cccap_pcp_descr_.raw); - encoded_length += field_dtmf.RAW_encode(MNCC__cccap_dtmf_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_pcp.RAW_encode(MNCC__cccap_pcp_descr_, *myleaf.body.node.nodes[1]); - return myleaf.length = encoded_length; -} - -struct MNCC__cccap_template::single_value_struct { -INTEGER_template field_dtmf; -INTEGER_template field_pcp; -}; - -void MNCC__cccap_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_dtmf = ANY_VALUE; -single_value->field_pcp = ANY_VALUE; -} -} -} - -void MNCC__cccap_template::copy_value(const MNCC__cccap& other_value) -{ -single_value = new single_value_struct; -if (other_value.dtmf().is_bound()) { - single_value->field_dtmf = other_value.dtmf(); -} else { - single_value->field_dtmf.clean_up(); -} -if (other_value.pcp().is_bound()) { - single_value->field_pcp = other_value.pcp(); -} else { - single_value->field_pcp.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__cccap_template::copy_template(const MNCC__cccap_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.dtmf().get_selection()) { -single_value->field_dtmf = other_value.dtmf(); -} else { -single_value->field_dtmf.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.pcp().get_selection()) { -single_value->field_pcp = other_value.pcp(); -} else { -single_value->field_pcp.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__cccap_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_cccap."); -break; -} -set_selection(other_value); -} - -MNCC__cccap_template::MNCC__cccap_template() -{ -} - -MNCC__cccap_template::MNCC__cccap_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__cccap_template::MNCC__cccap_template(const MNCC__cccap& other_value) -{ -copy_value(other_value); -} - -MNCC__cccap_template::MNCC__cccap_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__cccap&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_cccap from an unbound optional field."); -} -} - -MNCC__cccap_template::MNCC__cccap_template(const MNCC__cccap_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__cccap_template::~MNCC__cccap_template() -{ -clean_up(); -} - -MNCC__cccap_template& MNCC__cccap_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__cccap_template& MNCC__cccap_template::operator=(const MNCC__cccap& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__cccap_template& MNCC__cccap_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__cccap&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_cccap."); -} -return *this; -} - -MNCC__cccap_template& MNCC__cccap_template::operator=(const MNCC__cccap_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__cccap_template::match(const MNCC__cccap& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.dtmf().is_bound()) return FALSE; -if(!single_value->field_dtmf.match(other_value.dtmf(), legacy))return FALSE; -if(!other_value.pcp().is_bound()) return FALSE; -if(!single_value->field_pcp.match(other_value.pcp(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_cccap."); -} -return FALSE; -} - -boolean MNCC__cccap_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_dtmf.is_bound()) return TRUE; -if (single_value->field_pcp.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__cccap_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_dtmf.is_value()) return FALSE; -if (!single_value->field_pcp.is_value()) return FALSE; -return TRUE; -} - -void MNCC__cccap_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__cccap MNCC__cccap_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_cccap."); -MNCC__cccap ret_val; -if (single_value->field_dtmf.is_bound()) { -ret_val.dtmf() = single_value->field_dtmf.valueof(); -} -if (single_value->field_pcp.is_bound()) { -ret_val.pcp() = single_value->field_pcp.valueof(); -} -return ret_val; -} - -void MNCC__cccap_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_cccap."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__cccap_template[list_length]; -} - -MNCC__cccap_template& MNCC__cccap_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_cccap."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_cccap."); -return value_list.list_value[list_index]; -} - -INTEGER_template& MNCC__cccap_template::dtmf() -{ -set_specific(); -return single_value->field_dtmf; -} - -const INTEGER_template& MNCC__cccap_template::dtmf() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field dtmf of a non-specific template of type @MNCC_Types.MNCC_cccap."); -return single_value->field_dtmf; -} - -INTEGER_template& MNCC__cccap_template::pcp() -{ -set_specific(); -return single_value->field_pcp; -} - -const INTEGER_template& MNCC__cccap_template::pcp() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field pcp of a non-specific template of type @MNCC_Types.MNCC_cccap."); -return single_value->field_pcp; -} - -int MNCC__cccap_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cccap which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 2; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cccap containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cccap containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cccap containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cccap containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_cccap containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_cccap."); - } - return 0; -} - -void MNCC__cccap_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ dtmf := "); -single_value->field_dtmf.log(); -TTCN_Logger::log_event_str(", pcp := "); -single_value->field_pcp.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__cccap_template::log_match(const MNCC__cccap& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_dtmf.match(match_value.dtmf(), legacy)){ -TTCN_Logger::log_logmatch_info(".dtmf"); -single_value->field_dtmf.log_match(match_value.dtmf(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_pcp.match(match_value.pcp(), legacy)){ -TTCN_Logger::log_logmatch_info(".pcp"); -single_value->field_pcp.log_match(match_value.pcp(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ dtmf := "); -single_value->field_dtmf.log_match(match_value.dtmf(), legacy); -TTCN_Logger::log_event_str(", pcp := "); -single_value->field_pcp.log_match(match_value.pcp(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__cccap_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_dtmf.encode_text(text_buf); -single_value->field_pcp.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_cccap."); -} -} - -void MNCC__cccap_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_dtmf.decode_text(text_buf); -single_value->field_pcp.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__cccap_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_cccap."); -} -} - -void MNCC__cccap_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__cccap_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) dtmf().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) pcp().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "dtmf")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - dtmf().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "pcp")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - pcp().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_cccap: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_cccap"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__cccap_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_dtmf.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_cccap"); -single_value->field_pcp.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_cccap"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_cccap"); -} - -boolean MNCC__cccap_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__cccap_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_bcap."); -return enum_value > other_value; -} - -boolean MNCC__bcap::operator>(const MNCC__bcap& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_bcap."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @MNCC_Types.MNCC_bcap."); -return enum_value > other_value.enum_value; -} - -const char *MNCC__bcap::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case GSM__MNCC__BCAP__SPEECH: return "GSM_MNCC_BCAP_SPEECH"; -case GSM__MNCC__BCAP__UNR__DIG: return "GSM_MNCC_BCAP_UNR_DIG"; -case GSM__MNCC__BCAP__AUDIO: return "GSM_MNCC_BCAP_AUDIO"; -case GSM__MNCC__BCAP__FAX__G3: return "GSM_MNCC_BCAP_FAX_G3"; -case GSM__MNCC__BCAP__OTHER__ITC: return "GSM_MNCC_BCAP_OTHER_ITC"; -case GSM__MNCC__BCAP__RESERVED: return "GSM_MNCC_BCAP_RESERVED"; -default: return ""; -} -} - -MNCC__bcap::enum_type MNCC__bcap::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "GSM_MNCC_BCAP_SPEECH")) return GSM__MNCC__BCAP__SPEECH; -else if (!strcmp(str_par, "GSM_MNCC_BCAP_UNR_DIG")) return GSM__MNCC__BCAP__UNR__DIG; -else if (!strcmp(str_par, "GSM_MNCC_BCAP_AUDIO")) return GSM__MNCC__BCAP__AUDIO; -else if (!strcmp(str_par, "GSM_MNCC_BCAP_FAX_G3")) return GSM__MNCC__BCAP__FAX__G3; -else if (!strcmp(str_par, "GSM_MNCC_BCAP_OTHER_ITC")) return GSM__MNCC__BCAP__OTHER__ITC; -else if (!strcmp(str_par, "GSM_MNCC_BCAP_RESERVED")) return GSM__MNCC__BCAP__RESERVED; -else return UNKNOWN_VALUE; -} - -boolean MNCC__bcap::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -case 4: -case 7: -return TRUE; -default: -return FALSE; -} -} - -int MNCC__bcap::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.MNCC_bcap.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int MNCC__bcap::enum2int(const MNCC__bcap& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @MNCC_Types.MNCC_bcap.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void MNCC__bcap::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @MNCC_Types.MNCC_bcap.", int_val); -enum_value = (enum_type)int_val; -} - -MNCC__bcap::operator MNCC__bcap::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @MNCC_Types.MNCC_bcap."); -return enum_value; -} - -void MNCC__bcap::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void MNCC__bcap::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@MNCC_Types.MNCC_bcap"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @MNCC_Types.MNCC_bcap."); - } -} - -void MNCC__bcap::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @MNCC_Types.MNCC_bcap."); -text_buf.push_int(enum_value); -} - -void MNCC__bcap::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @MNCC_Types.MNCC_bcap.", enum_value); -} - -void MNCC__bcap::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__bcap::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__bcap::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 3, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int MNCC__bcap::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 3); -} - -void MNCC__bcap_template::copy_template(const MNCC__bcap_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__bcap_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @MNCC_Types.MNCC_bcap."); -} -} - -MNCC__bcap_template::MNCC__bcap_template() -{ -} - -MNCC__bcap_template::MNCC__bcap_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__bcap_template::MNCC__bcap_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!MNCC__bcap::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @MNCC_Types.MNCC_bcap with unknown numeric value %d.", other_value); -single_value = (MNCC__bcap::enum_type)other_value; -} - -MNCC__bcap_template::MNCC__bcap_template(MNCC__bcap::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -MNCC__bcap_template::MNCC__bcap_template(const MNCC__bcap& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == MNCC__bcap::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @MNCC_Types.MNCC_bcap."); -single_value = other_value.enum_value; -} - -MNCC__bcap_template::MNCC__bcap_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (MNCC__bcap::enum_type)(const MNCC__bcap&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @MNCC_Types.MNCC_bcap from an unbound optional field."); -} -} - -MNCC__bcap_template::MNCC__bcap_template(const MNCC__bcap_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -MNCC__bcap_template::~MNCC__bcap_template() -{ -clean_up(); -} - -boolean MNCC__bcap_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean MNCC__bcap_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != MNCC__bcap::UNBOUND_VALUE; -} - -void MNCC__bcap_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__bcap_template& MNCC__bcap_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__bcap_template& MNCC__bcap_template::operator=(int other_value) -{ -if (!MNCC__bcap::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @MNCC_Types.MNCC_bcap.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (MNCC__bcap::enum_type)other_value; -return *this; -} - -MNCC__bcap_template& MNCC__bcap_template::operator=(MNCC__bcap::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -MNCC__bcap_template& MNCC__bcap_template::operator=(const MNCC__bcap& other_value) -{ -if (other_value.enum_value == MNCC__bcap::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.MNCC_bcap to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -MNCC__bcap_template& MNCC__bcap_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (MNCC__bcap::enum_type)(const MNCC__bcap&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @MNCC_Types.MNCC_bcap."); -} -return *this; -} - -MNCC__bcap_template& MNCC__bcap_template::operator=(const MNCC__bcap_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__bcap_template::match(MNCC__bcap::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @MNCC_Types.MNCC_bcap."); -} -return FALSE; -} - -boolean MNCC__bcap_template::match(const MNCC__bcap& other_value, boolean) const -{ -if (other_value.enum_value == MNCC__bcap::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @MNCC_Types.MNCC_bcap with an unbound value."); -return match(other_value.enum_value); -} - -MNCC__bcap::enum_type MNCC__bcap_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @MNCC_Types.MNCC_bcap."); -return single_value; -} - -void MNCC__bcap_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @MNCC_Types.MNCC_bcap."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__bcap_template[list_length]; -} - -MNCC__bcap_template& MNCC__bcap_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @MNCC_Types.MNCC_bcap."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @MNCC_Types.MNCC_bcap."); -return value_list.list_value[list_index]; -} - -void MNCC__bcap_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(MNCC__bcap::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__bcap_template::log_match(const MNCC__bcap& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void MNCC__bcap_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @MNCC_Types.MNCC_bcap."); -} -} - -void MNCC__bcap_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (MNCC__bcap::enum_type)text_buf.pull_int().get_val(); -if (!MNCC__bcap::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @MNCC_Types.MNCC_bcap.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__bcap_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @MNCC_Types.MNCC_bcap."); -} -} - -boolean MNCC__bcap_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__bcap_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__bcap_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - MNCC__bcap::enum_type enum_val = MNCC__bcap::str_to_enum(m_p->get_enumerated()); - if (!MNCC__bcap::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @MNCC_Types.MNCC_bcap."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@MNCC_Types.MNCC_bcap"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__bcap_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_bcap"); -} - -MNCC__PDU__Signal::MNCC__PDU__Signal() -{ -} - -MNCC__PDU__Signal::MNCC__PDU__Signal(const INTEGER& par_callref, - const OPTIONAL& par_bearer__cap, - const OPTIONAL& par_called, - const OPTIONAL& par_calling, - const OPTIONAL& par_redirecting, - const OPTIONAL& par_connected, - const OPTIONAL& par_cause, - const OPTIONAL& par_progress, - const OPTIONAL& par_useruser, - const OPTIONAL& par_facility, - const OPTIONAL& par_cccap, - const OPTIONAL& par_ssversion, - const INTEGER& par_clir__sup, - const INTEGER& par_clir__inv, - const OPTIONAL& par_signal, - const OPTIONAL& par_keypad, - const INTEGER& par_more, - const INTEGER& par_notify, - const OPTIONAL& par_emergency, - const CHARSTRING& par_imsi, - const INTEGER& par_lchan__type, - const INTEGER& par_lchan__mode) - : field_callref(par_callref), - field_bearer__cap(par_bearer__cap), - field_called(par_called), - field_calling(par_calling), - field_redirecting(par_redirecting), - field_connected(par_connected), - field_cause(par_cause), - field_progress(par_progress), - field_useruser(par_useruser), - field_facility(par_facility), - field_cccap(par_cccap), - field_ssversion(par_ssversion), - field_clir__sup(par_clir__sup), - field_clir__inv(par_clir__inv), - field_signal(par_signal), - field_keypad(par_keypad), - field_more(par_more), - field_notify(par_notify), - field_emergency(par_emergency), - field_imsi(par_imsi), - field_lchan__type(par_lchan__type), - field_lchan__mode(par_lchan__mode) -{ -} - -MNCC__PDU__Signal::MNCC__PDU__Signal(const MNCC__PDU__Signal& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_PDU_Signal."); -if (other_value.callref().is_bound()) field_callref = other_value.callref(); -else field_callref.clean_up(); -if (other_value.bearer__cap().is_bound()) field_bearer__cap = other_value.bearer__cap(); -else field_bearer__cap.clean_up(); -if (other_value.called().is_bound()) field_called = other_value.called(); -else field_called.clean_up(); -if (other_value.calling().is_bound()) field_calling = other_value.calling(); -else field_calling.clean_up(); -if (other_value.redirecting().is_bound()) field_redirecting = other_value.redirecting(); -else field_redirecting.clean_up(); -if (other_value.connected().is_bound()) field_connected = other_value.connected(); -else field_connected.clean_up(); -if (other_value.cause().is_bound()) field_cause = other_value.cause(); -else field_cause.clean_up(); -if (other_value.progress().is_bound()) field_progress = other_value.progress(); -else field_progress.clean_up(); -if (other_value.useruser().is_bound()) field_useruser = other_value.useruser(); -else field_useruser.clean_up(); -if (other_value.facility().is_bound()) field_facility = other_value.facility(); -else field_facility.clean_up(); -if (other_value.cccap().is_bound()) field_cccap = other_value.cccap(); -else field_cccap.clean_up(); -if (other_value.ssversion().is_bound()) field_ssversion = other_value.ssversion(); -else field_ssversion.clean_up(); -if (other_value.clir__sup().is_bound()) field_clir__sup = other_value.clir__sup(); -else field_clir__sup.clean_up(); -if (other_value.clir__inv().is_bound()) field_clir__inv = other_value.clir__inv(); -else field_clir__inv.clean_up(); -if (other_value.signal().is_bound()) field_signal = other_value.signal(); -else field_signal.clean_up(); -if (other_value.keypad().is_bound()) field_keypad = other_value.keypad(); -else field_keypad.clean_up(); -if (other_value.more().is_bound()) field_more = other_value.more(); -else field_more.clean_up(); -if (other_value.notify().is_bound()) field_notify = other_value.notify(); -else field_notify.clean_up(); -if (other_value.emergency().is_bound()) field_emergency = other_value.emergency(); -else field_emergency.clean_up(); -if (other_value.imsi().is_bound()) field_imsi = other_value.imsi(); -else field_imsi.clean_up(); -if (other_value.lchan__type().is_bound()) field_lchan__type = other_value.lchan__type(); -else field_lchan__type.clean_up(); -if (other_value.lchan__mode().is_bound()) field_lchan__mode = other_value.lchan__mode(); -else field_lchan__mode.clean_up(); -} - -void MNCC__PDU__Signal::clean_up() -{ -field_callref.clean_up(); -field_bearer__cap.clean_up(); -field_called.clean_up(); -field_calling.clean_up(); -field_redirecting.clean_up(); -field_connected.clean_up(); -field_cause.clean_up(); -field_progress.clean_up(); -field_useruser.clean_up(); -field_facility.clean_up(); -field_cccap.clean_up(); -field_ssversion.clean_up(); -field_clir__sup.clean_up(); -field_clir__inv.clean_up(); -field_signal.clean_up(); -field_keypad.clean_up(); -field_more.clean_up(); -field_notify.clean_up(); -field_emergency.clean_up(); -field_imsi.clean_up(); -field_lchan__type.clean_up(); -field_lchan__mode.clean_up(); -} - -const TTCN_Typedescriptor_t* MNCC__PDU__Signal::get_descriptor() const { return &MNCC__PDU__Signal_descr_; } -MNCC__PDU__Signal& MNCC__PDU__Signal::operator=(const MNCC__PDU__Signal& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_PDU_Signal."); - if (other_value.callref().is_bound()) field_callref = other_value.callref(); - else field_callref.clean_up(); - if (other_value.bearer__cap().is_bound()) field_bearer__cap = other_value.bearer__cap(); - else field_bearer__cap.clean_up(); - if (other_value.called().is_bound()) field_called = other_value.called(); - else field_called.clean_up(); - if (other_value.calling().is_bound()) field_calling = other_value.calling(); - else field_calling.clean_up(); - if (other_value.redirecting().is_bound()) field_redirecting = other_value.redirecting(); - else field_redirecting.clean_up(); - if (other_value.connected().is_bound()) field_connected = other_value.connected(); - else field_connected.clean_up(); - if (other_value.cause().is_bound()) field_cause = other_value.cause(); - else field_cause.clean_up(); - if (other_value.progress().is_bound()) field_progress = other_value.progress(); - else field_progress.clean_up(); - if (other_value.useruser().is_bound()) field_useruser = other_value.useruser(); - else field_useruser.clean_up(); - if (other_value.facility().is_bound()) field_facility = other_value.facility(); - else field_facility.clean_up(); - if (other_value.cccap().is_bound()) field_cccap = other_value.cccap(); - else field_cccap.clean_up(); - if (other_value.ssversion().is_bound()) field_ssversion = other_value.ssversion(); - else field_ssversion.clean_up(); - if (other_value.clir__sup().is_bound()) field_clir__sup = other_value.clir__sup(); - else field_clir__sup.clean_up(); - if (other_value.clir__inv().is_bound()) field_clir__inv = other_value.clir__inv(); - else field_clir__inv.clean_up(); - if (other_value.signal().is_bound()) field_signal = other_value.signal(); - else field_signal.clean_up(); - if (other_value.keypad().is_bound()) field_keypad = other_value.keypad(); - else field_keypad.clean_up(); - if (other_value.more().is_bound()) field_more = other_value.more(); - else field_more.clean_up(); - if (other_value.notify().is_bound()) field_notify = other_value.notify(); - else field_notify.clean_up(); - if (other_value.emergency().is_bound()) field_emergency = other_value.emergency(); - else field_emergency.clean_up(); - if (other_value.imsi().is_bound()) field_imsi = other_value.imsi(); - else field_imsi.clean_up(); - if (other_value.lchan__type().is_bound()) field_lchan__type = other_value.lchan__type(); - else field_lchan__type.clean_up(); - if (other_value.lchan__mode().is_bound()) field_lchan__mode = other_value.lchan__mode(); - else field_lchan__mode.clean_up(); -} -return *this; -} - -boolean MNCC__PDU__Signal::operator==(const MNCC__PDU__Signal& other_value) const -{ -return field_callref==other_value.field_callref - && field_bearer__cap==other_value.field_bearer__cap - && field_called==other_value.field_called - && field_calling==other_value.field_calling - && field_redirecting==other_value.field_redirecting - && field_connected==other_value.field_connected - && field_cause==other_value.field_cause - && field_progress==other_value.field_progress - && field_useruser==other_value.field_useruser - && field_facility==other_value.field_facility - && field_cccap==other_value.field_cccap - && field_ssversion==other_value.field_ssversion - && field_clir__sup==other_value.field_clir__sup - && field_clir__inv==other_value.field_clir__inv - && field_signal==other_value.field_signal - && field_keypad==other_value.field_keypad - && field_more==other_value.field_more - && field_notify==other_value.field_notify - && field_emergency==other_value.field_emergency - && field_imsi==other_value.field_imsi - && field_lchan__type==other_value.field_lchan__type - && field_lchan__mode==other_value.field_lchan__mode; -} - -boolean MNCC__PDU__Signal::is_bound() const -{ -if(field_callref.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_bearer__cap.get_selection() || field_bearer__cap.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_called.get_selection() || field_called.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_calling.get_selection() || field_calling.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_redirecting.get_selection() || field_redirecting.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_connected.get_selection() || field_connected.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_cause.get_selection() || field_cause.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_progress.get_selection() || field_progress.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_useruser.get_selection() || field_useruser.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_facility.get_selection() || field_facility.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_cccap.get_selection() || field_cccap.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_ssversion.get_selection() || field_ssversion.is_bound()) return TRUE; -if(field_clir__sup.is_bound()) return TRUE; -if(field_clir__inv.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_signal.get_selection() || field_signal.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_keypad.get_selection() || field_keypad.is_bound()) return TRUE; -if(field_more.is_bound()) return TRUE; -if(field_notify.is_bound()) return TRUE; -if(OPTIONAL_OMIT == field_emergency.get_selection() || field_emergency.is_bound()) return TRUE; -if(field_imsi.is_bound()) return TRUE; -if(field_lchan__type.is_bound()) return TRUE; -if(field_lchan__mode.is_bound()) return TRUE; -return FALSE; -} -boolean MNCC__PDU__Signal::is_value() const -{ -if(!field_callref.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_bearer__cap.get_selection() && !field_bearer__cap.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_called.get_selection() && !field_called.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_calling.get_selection() && !field_calling.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_redirecting.get_selection() && !field_redirecting.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_connected.get_selection() && !field_connected.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_cause.get_selection() && !field_cause.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_progress.get_selection() && !field_progress.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_useruser.get_selection() && !field_useruser.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_facility.get_selection() && !field_facility.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_cccap.get_selection() && !field_cccap.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_ssversion.get_selection() && !field_ssversion.is_value()) return FALSE; -if(!field_clir__sup.is_value()) return FALSE; -if(!field_clir__inv.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_signal.get_selection() && !field_signal.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_keypad.get_selection() && !field_keypad.is_value()) return FALSE; -if(!field_more.is_value()) return FALSE; -if(!field_notify.is_value()) return FALSE; -if(OPTIONAL_OMIT != field_emergency.get_selection() && !field_emergency.is_value()) return FALSE; -if(!field_imsi.is_value()) return FALSE; -if(!field_lchan__type.is_value()) return FALSE; -if(!field_lchan__mode.is_value()) return FALSE; -return TRUE; -} -int MNCC__PDU__Signal::size_of() const -{ - int ret_val = 8; - if (field_bearer__cap.ispresent()) ret_val++; - if (field_called.ispresent()) ret_val++; - if (field_calling.ispresent()) ret_val++; - if (field_redirecting.ispresent()) ret_val++; - if (field_connected.ispresent()) ret_val++; - if (field_cause.ispresent()) ret_val++; - if (field_progress.ispresent()) ret_val++; - if (field_useruser.ispresent()) ret_val++; - if (field_facility.ispresent()) ret_val++; - if (field_cccap.ispresent()) ret_val++; - if (field_ssversion.ispresent()) ret_val++; - if (field_signal.ispresent()) ret_val++; - if (field_keypad.ispresent()) ret_val++; - if (field_emergency.ispresent()) ret_val++; - return ret_val; -} - -void MNCC__PDU__Signal::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ callref := "); -field_callref.log(); -TTCN_Logger::log_event_str(", bearer_cap := "); -field_bearer__cap.log(); -TTCN_Logger::log_event_str(", called := "); -field_called.log(); -TTCN_Logger::log_event_str(", calling := "); -field_calling.log(); -TTCN_Logger::log_event_str(", redirecting := "); -field_redirecting.log(); -TTCN_Logger::log_event_str(", connected := "); -field_connected.log(); -TTCN_Logger::log_event_str(", cause := "); -field_cause.log(); -TTCN_Logger::log_event_str(", progress := "); -field_progress.log(); -TTCN_Logger::log_event_str(", useruser := "); -field_useruser.log(); -TTCN_Logger::log_event_str(", facility := "); -field_facility.log(); -TTCN_Logger::log_event_str(", cccap := "); -field_cccap.log(); -TTCN_Logger::log_event_str(", ssversion := "); -field_ssversion.log(); -TTCN_Logger::log_event_str(", clir_sup := "); -field_clir__sup.log(); -TTCN_Logger::log_event_str(", clir_inv := "); -field_clir__inv.log(); -TTCN_Logger::log_event_str(", signal := "); -field_signal.log(); -TTCN_Logger::log_event_str(", keypad := "); -field_keypad.log(); -TTCN_Logger::log_event_str(", more := "); -field_more.log(); -TTCN_Logger::log_event_str(", notify := "); -field_notify.log(); -TTCN_Logger::log_event_str(", emergency := "); -field_emergency.log(); -TTCN_Logger::log_event_str(", imsi := "); -field_imsi.log(); -TTCN_Logger::log_event_str(", lchan_type := "); -field_lchan__type.log(); -TTCN_Logger::log_event_str(", lchan_mode := "); -field_lchan__mode.log(); -TTCN_Logger::log_event_str(" }"); -} - -void MNCC__PDU__Signal::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (220 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) callref().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) bearer__cap().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) called().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) calling().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) redirecting().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) connected().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) cause().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) progress().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) useruser().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) facility().set_param(*param.get_elem(9)); - if (param.get_size()>10 && param.get_elem(10)->get_type()!=Module_Param::MP_NotUsed) cccap().set_param(*param.get_elem(10)); - if (param.get_size()>11 && param.get_elem(11)->get_type()!=Module_Param::MP_NotUsed) ssversion().set_param(*param.get_elem(11)); - if (param.get_size()>12 && param.get_elem(12)->get_type()!=Module_Param::MP_NotUsed) clir__sup().set_param(*param.get_elem(12)); - if (param.get_size()>13 && param.get_elem(13)->get_type()!=Module_Param::MP_NotUsed) clir__inv().set_param(*param.get_elem(13)); - if (param.get_size()>14 && param.get_elem(14)->get_type()!=Module_Param::MP_NotUsed) signal().set_param(*param.get_elem(14)); - if (param.get_size()>15 && param.get_elem(15)->get_type()!=Module_Param::MP_NotUsed) keypad().set_param(*param.get_elem(15)); - if (param.get_size()>16 && param.get_elem(16)->get_type()!=Module_Param::MP_NotUsed) more().set_param(*param.get_elem(16)); - if (param.get_size()>17 && param.get_elem(17)->get_type()!=Module_Param::MP_NotUsed) notify().set_param(*param.get_elem(17)); - if (param.get_size()>18 && param.get_elem(18)->get_type()!=Module_Param::MP_NotUsed) emergency().set_param(*param.get_elem(18)); - if (param.get_size()>19 && param.get_elem(19)->get_type()!=Module_Param::MP_NotUsed) imsi().set_param(*param.get_elem(19)); - if (param.get_size()>20 && param.get_elem(20)->get_type()!=Module_Param::MP_NotUsed) lchan__type().set_param(*param.get_elem(20)); - if (param.get_size()>21 && param.get_elem(21)->get_type()!=Module_Param::MP_NotUsed) lchan__mode().set_param(*param.get_elem(21)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "callref")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - callref().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "bearer_cap")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - bearer__cap().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "called")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - called().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "calling")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - calling().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "redirecting")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - redirecting().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "connected")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - connected().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cause")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cause().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "progress")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - progress().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "useruser")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - useruser().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "facility")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - facility().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cccap")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cccap().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ssversion")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ssversion().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "clir_sup")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - clir__sup().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "clir_inv")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - clir__inv().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "signal")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - signal().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "keypad")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - keypad().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "more")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - more().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "notify")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - notify().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "emergency")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - emergency().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "imsi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - imsi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lchan_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lchan__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lchan_mode")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lchan__mode().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_PDU_Signal: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_PDU_Signal"); - } -} - -void MNCC__PDU__Signal::set_implicit_omit() -{ -if (callref().is_bound()) callref().set_implicit_omit(); -if (!bearer__cap().is_bound()) bearer__cap() = OMIT_VALUE; -else bearer__cap().set_implicit_omit(); -if (!called().is_bound()) called() = OMIT_VALUE; -else called().set_implicit_omit(); -if (!calling().is_bound()) calling() = OMIT_VALUE; -else calling().set_implicit_omit(); -if (!redirecting().is_bound()) redirecting() = OMIT_VALUE; -else redirecting().set_implicit_omit(); -if (!connected().is_bound()) connected() = OMIT_VALUE; -else connected().set_implicit_omit(); -if (!cause().is_bound()) cause() = OMIT_VALUE; -else cause().set_implicit_omit(); -if (!progress().is_bound()) progress() = OMIT_VALUE; -else progress().set_implicit_omit(); -if (!useruser().is_bound()) useruser() = OMIT_VALUE; -else useruser().set_implicit_omit(); -if (!facility().is_bound()) facility() = OMIT_VALUE; -else facility().set_implicit_omit(); -if (!cccap().is_bound()) cccap() = OMIT_VALUE; -else cccap().set_implicit_omit(); -if (!ssversion().is_bound()) ssversion() = OMIT_VALUE; -else ssversion().set_implicit_omit(); -if (clir__sup().is_bound()) clir__sup().set_implicit_omit(); -if (clir__inv().is_bound()) clir__inv().set_implicit_omit(); -if (!signal().is_bound()) signal() = OMIT_VALUE; -else signal().set_implicit_omit(); -if (!keypad().is_bound()) keypad() = OMIT_VALUE; -else keypad().set_implicit_omit(); -if (more().is_bound()) more().set_implicit_omit(); -if (notify().is_bound()) notify().set_implicit_omit(); -if (!emergency().is_bound()) emergency() = OMIT_VALUE; -else emergency().set_implicit_omit(); -if (imsi().is_bound()) imsi().set_implicit_omit(); -if (lchan__type().is_bound()) lchan__type().set_implicit_omit(); -if (lchan__mode().is_bound()) lchan__mode().set_implicit_omit(); -} - -void MNCC__PDU__Signal::encode_text(Text_Buf& text_buf) const -{ -field_callref.encode_text(text_buf); -field_bearer__cap.encode_text(text_buf); -field_called.encode_text(text_buf); -field_calling.encode_text(text_buf); -field_redirecting.encode_text(text_buf); -field_connected.encode_text(text_buf); -field_cause.encode_text(text_buf); -field_progress.encode_text(text_buf); -field_useruser.encode_text(text_buf); -field_facility.encode_text(text_buf); -field_cccap.encode_text(text_buf); -field_ssversion.encode_text(text_buf); -field_clir__sup.encode_text(text_buf); -field_clir__inv.encode_text(text_buf); -field_signal.encode_text(text_buf); -field_keypad.encode_text(text_buf); -field_more.encode_text(text_buf); -field_notify.encode_text(text_buf); -field_emergency.encode_text(text_buf); -field_imsi.encode_text(text_buf); -field_lchan__type.encode_text(text_buf); -field_lchan__mode.encode_text(text_buf); -} - -void MNCC__PDU__Signal::decode_text(Text_Buf& text_buf) -{ -field_callref.decode_text(text_buf); -field_bearer__cap.decode_text(text_buf); -field_called.decode_text(text_buf); -field_calling.decode_text(text_buf); -field_redirecting.decode_text(text_buf); -field_connected.decode_text(text_buf); -field_cause.decode_text(text_buf); -field_progress.decode_text(text_buf); -field_useruser.decode_text(text_buf); -field_facility.decode_text(text_buf); -field_cccap.decode_text(text_buf); -field_ssversion.decode_text(text_buf); -field_clir__sup.decode_text(text_buf); -field_clir__inv.decode_text(text_buf); -field_signal.decode_text(text_buf); -field_keypad.decode_text(text_buf); -field_more.decode_text(text_buf); -field_notify.decode_text(text_buf); -field_emergency.decode_text(text_buf); -field_imsi.decode_text(text_buf); -field_lchan__type.decode_text(text_buf); -field_lchan__mode.decode_text(text_buf); -} - -void MNCC__PDU__Signal::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__PDU__Signal::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__PDU__Signal::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__PDU__Signal_callref_descr_.raw->forceomit); - decoded_field_length = field_callref.RAW_decode(MNCC__PDU__Signal_callref_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(1)) { - field_bearer__cap = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__PDU__Signal_bearer__cap_descr_.raw->forceomit); - decoded_field_length = field_bearer__cap().RAW_decode(MNCC__PDU__Signal_bearer__cap_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 1) { - field_bearer__cap = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_bearer__cap=OMIT_VALUE; - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(2)) { - field_called = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_2_force_omit(2, force_omit, MNCC__PDU__Signal_called_descr_.raw->forceomit); - decoded_field_length = field_called().RAW_decode(MNCC__PDU__Signal_called_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 1) { - field_called = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_called=OMIT_VALUE; - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(3)) { - field_calling = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_3_force_omit(3, force_omit, MNCC__PDU__Signal_calling_descr_.raw->forceomit); - decoded_field_length = field_calling().RAW_decode(MNCC__PDU__Signal_calling_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 1) { - field_calling = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_calling=OMIT_VALUE; - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(4)) { - field_redirecting = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_4_force_omit(4, force_omit, MNCC__PDU__Signal_redirecting_descr_.raw->forceomit); - decoded_field_length = field_redirecting().RAW_decode(MNCC__PDU__Signal_redirecting_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 1) { - field_redirecting = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_redirecting=OMIT_VALUE; - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(5)) { - field_connected = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_5_force_omit(5, force_omit, MNCC__PDU__Signal_connected_descr_.raw->forceomit); - decoded_field_length = field_connected().RAW_decode(MNCC__PDU__Signal_connected_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_5_force_omit); - if (decoded_field_length < 1) { - field_connected = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_connected=OMIT_VALUE; - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(6)) { - field_cause = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_6_force_omit(6, force_omit, MNCC__PDU__Signal_cause_descr_.raw->forceomit); - decoded_field_length = field_cause().RAW_decode(MNCC__PDU__Signal_cause_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_6_force_omit); - if (decoded_field_length < 1) { - field_cause = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_cause=OMIT_VALUE; - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(7)) { - field_progress = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_7_force_omit(7, force_omit, MNCC__PDU__Signal_progress_descr_.raw->forceomit); - decoded_field_length = field_progress().RAW_decode(MNCC__PDU__Signal_progress_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_7_force_omit); - if (decoded_field_length < 1) { - field_progress = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_progress=OMIT_VALUE; - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(8)) { - field_useruser = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_8_force_omit(8, force_omit, MNCC__PDU__Signal_useruser_descr_.raw->forceomit); - decoded_field_length = field_useruser().RAW_decode(MNCC__PDU__Signal_useruser_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_8_force_omit); - if (decoded_field_length < 1) { - field_useruser = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_useruser=OMIT_VALUE; - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(9)) { - field_facility = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_9_force_omit(9, force_omit, MNCC__PDU__Signal_facility_descr_.raw->forceomit); - decoded_field_length = field_facility().RAW_decode(MNCC__PDU__Signal_facility_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_9_force_omit); - if (decoded_field_length < 1) { - field_facility = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_facility=OMIT_VALUE; - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(10)) { - field_cccap = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_10_force_omit(10, force_omit, MNCC__PDU__Signal_cccap_descr_.raw->forceomit); - decoded_field_length = field_cccap().RAW_decode(MNCC__PDU__Signal_cccap_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_10_force_omit); - if (decoded_field_length < 1) { - field_cccap = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_cccap=OMIT_VALUE; - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(11)) { - field_ssversion = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_11_force_omit(11, force_omit, MNCC__PDU__Signal_ssversion_descr_.raw->forceomit); - decoded_field_length = field_ssversion().RAW_decode(MNCC__PDU__Signal_ssversion_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_11_force_omit); - if (decoded_field_length < 1) { - field_ssversion = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_ssversion=OMIT_VALUE; - RAW_Force_Omit field_12_force_omit(12, force_omit, MNCC__PDU__Signal_clir__sup_descr_.raw->forceomit); - decoded_field_length = field_clir__sup.RAW_decode(MNCC__PDU__Signal_clir__sup_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_12_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_13_force_omit(13, force_omit, MNCC__PDU__Signal_clir__inv_descr_.raw->forceomit); - decoded_field_length = field_clir__inv.RAW_decode(MNCC__PDU__Signal_clir__inv_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_13_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(14)) { - field_signal = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_14_force_omit(14, force_omit, MNCC__PDU__Signal_signal_descr_.raw->forceomit); - decoded_field_length = field_signal().RAW_decode(MNCC__PDU__Signal_signal_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_14_force_omit); - if (decoded_field_length < 1) { - field_signal = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_signal=OMIT_VALUE; - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(15)) { - field_keypad = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_15_force_omit(15, force_omit, MNCC__PDU__Signal_keypad_descr_.raw->forceomit); - decoded_field_length = field_keypad().RAW_decode(MNCC__PDU__Signal_keypad_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_15_force_omit); - if (decoded_field_length < 1) { - field_keypad = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_keypad=OMIT_VALUE; - RAW_Force_Omit field_16_force_omit(16, force_omit, MNCC__PDU__Signal_more_descr_.raw->forceomit); - decoded_field_length = field_more.RAW_decode(MNCC__PDU__Signal_more_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_16_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_17_force_omit(17, force_omit, MNCC__PDU__Signal_notify_descr_.raw->forceomit); - decoded_field_length = field_notify.RAW_decode(MNCC__PDU__Signal_notify_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_17_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - if (limit > 0){ - if (force_omit != NULL && (*force_omit)(18)) { - field_emergency = OMIT_VALUE; - } - else { - size_t fl_start_pos = p_buf.get_pos_bit(); - RAW_Force_Omit field_18_force_omit(18, force_omit, MNCC__PDU__Signal_emergency_descr_.raw->forceomit); - decoded_field_length = field_emergency().RAW_decode(MNCC__PDU__Signal_emergency_descr_, p_buf, limit, local_top_order, TRUE, -1, TRUE, &field_18_force_omit); - if (decoded_field_length < 1) { - field_emergency = OMIT_VALUE; - p_buf.set_pos_bit(fl_start_pos); - } else { - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - } - } - } - else field_emergency=OMIT_VALUE; - RAW_Force_Omit field_19_force_omit(19, force_omit, MNCC__PDU__Signal_imsi_descr_.raw->forceomit); - decoded_field_length = field_imsi.RAW_decode(MNCC__PDU__Signal_imsi_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_19_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_20_force_omit(20, force_omit, MNCC__PDU__Signal_lchan__type_descr_.raw->forceomit); - decoded_field_length = field_lchan__type.RAW_decode(MNCC__PDU__Signal_lchan__type_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_20_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_21_force_omit(21, force_omit, MNCC__PDU__Signal_lchan__mode_descr_.raw->forceomit); - decoded_field_length = field_lchan__mode.RAW_decode(MNCC__PDU__Signal_lchan__mode_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_21_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__PDU__Signal::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 22; - myleaf.body.node.nodes = init_nodes_of_enc_tree(22); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__PDU__Signal_callref_descr_.raw); - if (field_bearer__cap.ispresent()) { - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__PDU__Signal_bearer__cap_descr_.raw); - } - else myleaf.body.node.nodes[1] = NULL; - if (field_called.ispresent()) { - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, MNCC__PDU__Signal_called_descr_.raw); - } - else myleaf.body.node.nodes[2] = NULL; - if (field_calling.ispresent()) { - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, MNCC__PDU__Signal_calling_descr_.raw); - } - else myleaf.body.node.nodes[3] = NULL; - if (field_redirecting.ispresent()) { - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, MNCC__PDU__Signal_redirecting_descr_.raw); - } - else myleaf.body.node.nodes[4] = NULL; - if (field_connected.ispresent()) { - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 5, MNCC__PDU__Signal_connected_descr_.raw); - } - else myleaf.body.node.nodes[5] = NULL; - if (field_cause.ispresent()) { - myleaf.body.node.nodes[6] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 6, MNCC__PDU__Signal_cause_descr_.raw); - } - else myleaf.body.node.nodes[6] = NULL; - if (field_progress.ispresent()) { - myleaf.body.node.nodes[7] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 7, MNCC__PDU__Signal_progress_descr_.raw); - } - else myleaf.body.node.nodes[7] = NULL; - if (field_useruser.ispresent()) { - myleaf.body.node.nodes[8] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 8, MNCC__PDU__Signal_useruser_descr_.raw); - } - else myleaf.body.node.nodes[8] = NULL; - if (field_facility.ispresent()) { - myleaf.body.node.nodes[9] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 9, MNCC__PDU__Signal_facility_descr_.raw); - } - else myleaf.body.node.nodes[9] = NULL; - if (field_cccap.ispresent()) { - myleaf.body.node.nodes[10] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 10, MNCC__PDU__Signal_cccap_descr_.raw); - } - else myleaf.body.node.nodes[10] = NULL; - if (field_ssversion.ispresent()) { - myleaf.body.node.nodes[11] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 11, MNCC__PDU__Signal_ssversion_descr_.raw); - } - else myleaf.body.node.nodes[11] = NULL; - myleaf.body.node.nodes[12] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 12, MNCC__PDU__Signal_clir__sup_descr_.raw); - myleaf.body.node.nodes[13] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 13, MNCC__PDU__Signal_clir__inv_descr_.raw); - if (field_signal.ispresent()) { - myleaf.body.node.nodes[14] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 14, MNCC__PDU__Signal_signal_descr_.raw); - } - else myleaf.body.node.nodes[14] = NULL; - if (field_keypad.ispresent()) { - myleaf.body.node.nodes[15] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 15, MNCC__PDU__Signal_keypad_descr_.raw); - } - else myleaf.body.node.nodes[15] = NULL; - myleaf.body.node.nodes[16] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 16, MNCC__PDU__Signal_more_descr_.raw); - myleaf.body.node.nodes[17] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 17, MNCC__PDU__Signal_notify_descr_.raw); - if (field_emergency.ispresent()) { - myleaf.body.node.nodes[18] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 18, MNCC__PDU__Signal_emergency_descr_.raw); - } - else myleaf.body.node.nodes[18] = NULL; - myleaf.body.node.nodes[19] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 19, MNCC__PDU__Signal_imsi_descr_.raw); - myleaf.body.node.nodes[20] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 20, MNCC__PDU__Signal_lchan__type_descr_.raw); - myleaf.body.node.nodes[21] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 21, MNCC__PDU__Signal_lchan__mode_descr_.raw); - encoded_length += field_callref.RAW_encode(MNCC__PDU__Signal_callref_descr_, *myleaf.body.node.nodes[0]); - if (field_bearer__cap.ispresent()) { - encoded_length += field_bearer__cap().RAW_encode(MNCC__PDU__Signal_bearer__cap_descr_, *myleaf.body.node.nodes[1]); - } - if (field_called.ispresent()) { - encoded_length += field_called().RAW_encode(MNCC__PDU__Signal_called_descr_, *myleaf.body.node.nodes[2]); - } - if (field_calling.ispresent()) { - encoded_length += field_calling().RAW_encode(MNCC__PDU__Signal_calling_descr_, *myleaf.body.node.nodes[3]); - } - if (field_redirecting.ispresent()) { - encoded_length += field_redirecting().RAW_encode(MNCC__PDU__Signal_redirecting_descr_, *myleaf.body.node.nodes[4]); - } - if (field_connected.ispresent()) { - encoded_length += field_connected().RAW_encode(MNCC__PDU__Signal_connected_descr_, *myleaf.body.node.nodes[5]); - } - if (field_cause.ispresent()) { - encoded_length += field_cause().RAW_encode(MNCC__PDU__Signal_cause_descr_, *myleaf.body.node.nodes[6]); - } - if (field_progress.ispresent()) { - encoded_length += field_progress().RAW_encode(MNCC__PDU__Signal_progress_descr_, *myleaf.body.node.nodes[7]); - } - if (field_useruser.ispresent()) { - encoded_length += field_useruser().RAW_encode(MNCC__PDU__Signal_useruser_descr_, *myleaf.body.node.nodes[8]); - } - if (field_facility.ispresent()) { - encoded_length += field_facility().RAW_encode(MNCC__PDU__Signal_facility_descr_, *myleaf.body.node.nodes[9]); - } - if (field_cccap.ispresent()) { - encoded_length += field_cccap().RAW_encode(MNCC__PDU__Signal_cccap_descr_, *myleaf.body.node.nodes[10]); - } - if (field_ssversion.ispresent()) { - encoded_length += field_ssversion().RAW_encode(MNCC__PDU__Signal_ssversion_descr_, *myleaf.body.node.nodes[11]); - } - encoded_length += field_clir__sup.RAW_encode(MNCC__PDU__Signal_clir__sup_descr_, *myleaf.body.node.nodes[12]); - encoded_length += field_clir__inv.RAW_encode(MNCC__PDU__Signal_clir__inv_descr_, *myleaf.body.node.nodes[13]); - if (field_signal.ispresent()) { - encoded_length += field_signal().RAW_encode(MNCC__PDU__Signal_signal_descr_, *myleaf.body.node.nodes[14]); - } - if (field_keypad.ispresent()) { - encoded_length += field_keypad().RAW_encode(MNCC__PDU__Signal_keypad_descr_, *myleaf.body.node.nodes[15]); - } - encoded_length += field_more.RAW_encode(MNCC__PDU__Signal_more_descr_, *myleaf.body.node.nodes[16]); - encoded_length += field_notify.RAW_encode(MNCC__PDU__Signal_notify_descr_, *myleaf.body.node.nodes[17]); - if (field_emergency.ispresent()) { - encoded_length += field_emergency().RAW_encode(MNCC__PDU__Signal_emergency_descr_, *myleaf.body.node.nodes[18]); - } - encoded_length += field_imsi.RAW_encode(MNCC__PDU__Signal_imsi_descr_, *myleaf.body.node.nodes[19]); - encoded_length += field_lchan__type.RAW_encode(MNCC__PDU__Signal_lchan__type_descr_, *myleaf.body.node.nodes[20]); - encoded_length += field_lchan__mode.RAW_encode(MNCC__PDU__Signal_lchan__mode_descr_, *myleaf.body.node.nodes[21]); - return myleaf.length = encoded_length; -} - -struct MNCC__PDU__Signal_template::single_value_struct { -INTEGER_template field_callref; -MNCC__bearer__cap_template field_bearer__cap; -MNCC__number_template field_called; -MNCC__number_template field_calling; -MNCC__number_template field_redirecting; -MNCC__number_template field_connected; -MNCC__cause_template field_cause; -MNCC__progress_template field_progress; -MNCC__useruser_template field_useruser; -CHARSTRING_template field_facility; -MNCC__cccap_template field_cccap; -CHARSTRING_template field_ssversion; -INTEGER_template field_clir__sup; -INTEGER_template field_clir__inv; -INTEGER_template field_signal; -CHARSTRING_template field_keypad; -INTEGER_template field_more; -INTEGER_template field_notify; -INTEGER_template field_emergency; -CHARSTRING_template field_imsi; -INTEGER_template field_lchan__type; -INTEGER_template field_lchan__mode; -}; - -void MNCC__PDU__Signal_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_callref = ANY_VALUE; -single_value->field_bearer__cap = ANY_OR_OMIT; -single_value->field_called = ANY_OR_OMIT; -single_value->field_calling = ANY_OR_OMIT; -single_value->field_redirecting = ANY_OR_OMIT; -single_value->field_connected = ANY_OR_OMIT; -single_value->field_cause = ANY_OR_OMIT; -single_value->field_progress = ANY_OR_OMIT; -single_value->field_useruser = ANY_OR_OMIT; -single_value->field_facility = ANY_OR_OMIT; -single_value->field_cccap = ANY_OR_OMIT; -single_value->field_ssversion = ANY_OR_OMIT; -single_value->field_clir__sup = ANY_VALUE; -single_value->field_clir__inv = ANY_VALUE; -single_value->field_signal = ANY_OR_OMIT; -single_value->field_keypad = ANY_OR_OMIT; -single_value->field_more = ANY_VALUE; -single_value->field_notify = ANY_VALUE; -single_value->field_emergency = ANY_OR_OMIT; -single_value->field_imsi = ANY_VALUE; -single_value->field_lchan__type = ANY_VALUE; -single_value->field_lchan__mode = ANY_VALUE; -} -} -} - -void MNCC__PDU__Signal_template::copy_value(const MNCC__PDU__Signal& other_value) -{ -single_value = new single_value_struct; -if (other_value.callref().is_bound()) { - single_value->field_callref = other_value.callref(); -} else { - single_value->field_callref.clean_up(); -} -if (other_value.bearer__cap().is_bound()) { - if (other_value.bearer__cap().ispresent()) single_value->field_bearer__cap = other_value.bearer__cap()(); - else single_value->field_bearer__cap = OMIT_VALUE; -} else { - single_value->field_bearer__cap.clean_up(); -} -if (other_value.called().is_bound()) { - if (other_value.called().ispresent()) single_value->field_called = other_value.called()(); - else single_value->field_called = OMIT_VALUE; -} else { - single_value->field_called.clean_up(); -} -if (other_value.calling().is_bound()) { - if (other_value.calling().ispresent()) single_value->field_calling = other_value.calling()(); - else single_value->field_calling = OMIT_VALUE; -} else { - single_value->field_calling.clean_up(); -} -if (other_value.redirecting().is_bound()) { - if (other_value.redirecting().ispresent()) single_value->field_redirecting = other_value.redirecting()(); - else single_value->field_redirecting = OMIT_VALUE; -} else { - single_value->field_redirecting.clean_up(); -} -if (other_value.connected().is_bound()) { - if (other_value.connected().ispresent()) single_value->field_connected = other_value.connected()(); - else single_value->field_connected = OMIT_VALUE; -} else { - single_value->field_connected.clean_up(); -} -if (other_value.cause().is_bound()) { - if (other_value.cause().ispresent()) single_value->field_cause = other_value.cause()(); - else single_value->field_cause = OMIT_VALUE; -} else { - single_value->field_cause.clean_up(); -} -if (other_value.progress().is_bound()) { - if (other_value.progress().ispresent()) single_value->field_progress = other_value.progress()(); - else single_value->field_progress = OMIT_VALUE; -} else { - single_value->field_progress.clean_up(); -} -if (other_value.useruser().is_bound()) { - if (other_value.useruser().ispresent()) single_value->field_useruser = other_value.useruser()(); - else single_value->field_useruser = OMIT_VALUE; -} else { - single_value->field_useruser.clean_up(); -} -if (other_value.facility().is_bound()) { - if (other_value.facility().ispresent()) single_value->field_facility = other_value.facility()(); - else single_value->field_facility = OMIT_VALUE; -} else { - single_value->field_facility.clean_up(); -} -if (other_value.cccap().is_bound()) { - if (other_value.cccap().ispresent()) single_value->field_cccap = other_value.cccap()(); - else single_value->field_cccap = OMIT_VALUE; -} else { - single_value->field_cccap.clean_up(); -} -if (other_value.ssversion().is_bound()) { - if (other_value.ssversion().ispresent()) single_value->field_ssversion = other_value.ssversion()(); - else single_value->field_ssversion = OMIT_VALUE; -} else { - single_value->field_ssversion.clean_up(); -} -if (other_value.clir__sup().is_bound()) { - single_value->field_clir__sup = other_value.clir__sup(); -} else { - single_value->field_clir__sup.clean_up(); -} -if (other_value.clir__inv().is_bound()) { - single_value->field_clir__inv = other_value.clir__inv(); -} else { - single_value->field_clir__inv.clean_up(); -} -if (other_value.signal().is_bound()) { - if (other_value.signal().ispresent()) single_value->field_signal = other_value.signal()(); - else single_value->field_signal = OMIT_VALUE; -} else { - single_value->field_signal.clean_up(); -} -if (other_value.keypad().is_bound()) { - if (other_value.keypad().ispresent()) single_value->field_keypad = other_value.keypad()(); - else single_value->field_keypad = OMIT_VALUE; -} else { - single_value->field_keypad.clean_up(); -} -if (other_value.more().is_bound()) { - single_value->field_more = other_value.more(); -} else { - single_value->field_more.clean_up(); -} -if (other_value.notify().is_bound()) { - single_value->field_notify = other_value.notify(); -} else { - single_value->field_notify.clean_up(); -} -if (other_value.emergency().is_bound()) { - if (other_value.emergency().ispresent()) single_value->field_emergency = other_value.emergency()(); - else single_value->field_emergency = OMIT_VALUE; -} else { - single_value->field_emergency.clean_up(); -} -if (other_value.imsi().is_bound()) { - single_value->field_imsi = other_value.imsi(); -} else { - single_value->field_imsi.clean_up(); -} -if (other_value.lchan__type().is_bound()) { - single_value->field_lchan__type = other_value.lchan__type(); -} else { - single_value->field_lchan__type.clean_up(); -} -if (other_value.lchan__mode().is_bound()) { - single_value->field_lchan__mode = other_value.lchan__mode(); -} else { - single_value->field_lchan__mode.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__PDU__Signal_template::copy_template(const MNCC__PDU__Signal_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.callref().get_selection()) { -single_value->field_callref = other_value.callref(); -} else { -single_value->field_callref.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.bearer__cap().get_selection()) { -single_value->field_bearer__cap = other_value.bearer__cap(); -} else { -single_value->field_bearer__cap.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.called().get_selection()) { -single_value->field_called = other_value.called(); -} else { -single_value->field_called.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.calling().get_selection()) { -single_value->field_calling = other_value.calling(); -} else { -single_value->field_calling.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.redirecting().get_selection()) { -single_value->field_redirecting = other_value.redirecting(); -} else { -single_value->field_redirecting.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.connected().get_selection()) { -single_value->field_connected = other_value.connected(); -} else { -single_value->field_connected.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.cause().get_selection()) { -single_value->field_cause = other_value.cause(); -} else { -single_value->field_cause.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.progress().get_selection()) { -single_value->field_progress = other_value.progress(); -} else { -single_value->field_progress.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.useruser().get_selection()) { -single_value->field_useruser = other_value.useruser(); -} else { -single_value->field_useruser.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.facility().get_selection()) { -single_value->field_facility = other_value.facility(); -} else { -single_value->field_facility.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.cccap().get_selection()) { -single_value->field_cccap = other_value.cccap(); -} else { -single_value->field_cccap.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ssversion().get_selection()) { -single_value->field_ssversion = other_value.ssversion(); -} else { -single_value->field_ssversion.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.clir__sup().get_selection()) { -single_value->field_clir__sup = other_value.clir__sup(); -} else { -single_value->field_clir__sup.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.clir__inv().get_selection()) { -single_value->field_clir__inv = other_value.clir__inv(); -} else { -single_value->field_clir__inv.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.signal().get_selection()) { -single_value->field_signal = other_value.signal(); -} else { -single_value->field_signal.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.keypad().get_selection()) { -single_value->field_keypad = other_value.keypad(); -} else { -single_value->field_keypad.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.more().get_selection()) { -single_value->field_more = other_value.more(); -} else { -single_value->field_more.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.notify().get_selection()) { -single_value->field_notify = other_value.notify(); -} else { -single_value->field_notify.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.emergency().get_selection()) { -single_value->field_emergency = other_value.emergency(); -} else { -single_value->field_emergency.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.imsi().get_selection()) { -single_value->field_imsi = other_value.imsi(); -} else { -single_value->field_imsi.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.lchan__type().get_selection()) { -single_value->field_lchan__type = other_value.lchan__type(); -} else { -single_value->field_lchan__type.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.lchan__mode().get_selection()) { -single_value->field_lchan__mode = other_value.lchan__mode(); -} else { -single_value->field_lchan__mode.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__PDU__Signal_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Signal."); -break; -} -set_selection(other_value); -} - -MNCC__PDU__Signal_template::MNCC__PDU__Signal_template() -{ -} - -MNCC__PDU__Signal_template::MNCC__PDU__Signal_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__PDU__Signal_template::MNCC__PDU__Signal_template(const MNCC__PDU__Signal& other_value) -{ -copy_value(other_value); -} - -MNCC__PDU__Signal_template::MNCC__PDU__Signal_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__PDU__Signal&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_PDU_Signal from an unbound optional field."); -} -} - -MNCC__PDU__Signal_template::MNCC__PDU__Signal_template(const MNCC__PDU__Signal_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__PDU__Signal_template::~MNCC__PDU__Signal_template() -{ -clean_up(); -} - -MNCC__PDU__Signal_template& MNCC__PDU__Signal_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__PDU__Signal_template& MNCC__PDU__Signal_template::operator=(const MNCC__PDU__Signal& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__PDU__Signal_template& MNCC__PDU__Signal_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__PDU__Signal&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_PDU_Signal."); -} -return *this; -} - -MNCC__PDU__Signal_template& MNCC__PDU__Signal_template::operator=(const MNCC__PDU__Signal_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__PDU__Signal_template::match(const MNCC__PDU__Signal& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.callref().is_bound()) return FALSE; -if(!single_value->field_callref.match(other_value.callref(), legacy))return FALSE; -if(!other_value.bearer__cap().is_bound()) return FALSE; -if((other_value.bearer__cap().ispresent() ? !single_value->field_bearer__cap.match((const MNCC__bearer__cap&)other_value.bearer__cap(), legacy) : !single_value->field_bearer__cap.match_omit(legacy)))return FALSE; -if(!other_value.called().is_bound()) return FALSE; -if((other_value.called().ispresent() ? !single_value->field_called.match((const MNCC__number&)other_value.called(), legacy) : !single_value->field_called.match_omit(legacy)))return FALSE; -if(!other_value.calling().is_bound()) return FALSE; -if((other_value.calling().ispresent() ? !single_value->field_calling.match((const MNCC__number&)other_value.calling(), legacy) : !single_value->field_calling.match_omit(legacy)))return FALSE; -if(!other_value.redirecting().is_bound()) return FALSE; -if((other_value.redirecting().ispresent() ? !single_value->field_redirecting.match((const MNCC__number&)other_value.redirecting(), legacy) : !single_value->field_redirecting.match_omit(legacy)))return FALSE; -if(!other_value.connected().is_bound()) return FALSE; -if((other_value.connected().ispresent() ? !single_value->field_connected.match((const MNCC__number&)other_value.connected(), legacy) : !single_value->field_connected.match_omit(legacy)))return FALSE; -if(!other_value.cause().is_bound()) return FALSE; -if((other_value.cause().ispresent() ? !single_value->field_cause.match((const MNCC__cause&)other_value.cause(), legacy) : !single_value->field_cause.match_omit(legacy)))return FALSE; -if(!other_value.progress().is_bound()) return FALSE; -if((other_value.progress().ispresent() ? !single_value->field_progress.match((const MNCC__progress&)other_value.progress(), legacy) : !single_value->field_progress.match_omit(legacy)))return FALSE; -if(!other_value.useruser().is_bound()) return FALSE; -if((other_value.useruser().ispresent() ? !single_value->field_useruser.match((const MNCC__useruser&)other_value.useruser(), legacy) : !single_value->field_useruser.match_omit(legacy)))return FALSE; -if(!other_value.facility().is_bound()) return FALSE; -if((other_value.facility().ispresent() ? !single_value->field_facility.match((const CHARSTRING&)other_value.facility(), legacy) : !single_value->field_facility.match_omit(legacy)))return FALSE; -if(!other_value.cccap().is_bound()) return FALSE; -if((other_value.cccap().ispresent() ? !single_value->field_cccap.match((const MNCC__cccap&)other_value.cccap(), legacy) : !single_value->field_cccap.match_omit(legacy)))return FALSE; -if(!other_value.ssversion().is_bound()) return FALSE; -if((other_value.ssversion().ispresent() ? !single_value->field_ssversion.match((const CHARSTRING&)other_value.ssversion(), legacy) : !single_value->field_ssversion.match_omit(legacy)))return FALSE; -if(!other_value.clir__sup().is_bound()) return FALSE; -if(!single_value->field_clir__sup.match(other_value.clir__sup(), legacy))return FALSE; -if(!other_value.clir__inv().is_bound()) return FALSE; -if(!single_value->field_clir__inv.match(other_value.clir__inv(), legacy))return FALSE; -if(!other_value.signal().is_bound()) return FALSE; -if((other_value.signal().ispresent() ? !single_value->field_signal.match((const INTEGER&)other_value.signal(), legacy) : !single_value->field_signal.match_omit(legacy)))return FALSE; -if(!other_value.keypad().is_bound()) return FALSE; -if((other_value.keypad().ispresent() ? !single_value->field_keypad.match((const CHARSTRING&)other_value.keypad(), legacy) : !single_value->field_keypad.match_omit(legacy)))return FALSE; -if(!other_value.more().is_bound()) return FALSE; -if(!single_value->field_more.match(other_value.more(), legacy))return FALSE; -if(!other_value.notify().is_bound()) return FALSE; -if(!single_value->field_notify.match(other_value.notify(), legacy))return FALSE; -if(!other_value.emergency().is_bound()) return FALSE; -if((other_value.emergency().ispresent() ? !single_value->field_emergency.match((const INTEGER&)other_value.emergency(), legacy) : !single_value->field_emergency.match_omit(legacy)))return FALSE; -if(!other_value.imsi().is_bound()) return FALSE; -if(!single_value->field_imsi.match(other_value.imsi(), legacy))return FALSE; -if(!other_value.lchan__type().is_bound()) return FALSE; -if(!single_value->field_lchan__type.match(other_value.lchan__type(), legacy))return FALSE; -if(!other_value.lchan__mode().is_bound()) return FALSE; -if(!single_value->field_lchan__mode.match(other_value.lchan__mode(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Signal."); -} -return FALSE; -} - -boolean MNCC__PDU__Signal_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_callref.is_bound()) return TRUE; -if (single_value->field_bearer__cap.is_omit() || single_value->field_bearer__cap.is_bound()) return TRUE; -if (single_value->field_called.is_omit() || single_value->field_called.is_bound()) return TRUE; -if (single_value->field_calling.is_omit() || single_value->field_calling.is_bound()) return TRUE; -if (single_value->field_redirecting.is_omit() || single_value->field_redirecting.is_bound()) return TRUE; -if (single_value->field_connected.is_omit() || single_value->field_connected.is_bound()) return TRUE; -if (single_value->field_cause.is_omit() || single_value->field_cause.is_bound()) return TRUE; -if (single_value->field_progress.is_omit() || single_value->field_progress.is_bound()) return TRUE; -if (single_value->field_useruser.is_omit() || single_value->field_useruser.is_bound()) return TRUE; -if (single_value->field_facility.is_omit() || single_value->field_facility.is_bound()) return TRUE; -if (single_value->field_cccap.is_omit() || single_value->field_cccap.is_bound()) return TRUE; -if (single_value->field_ssversion.is_omit() || single_value->field_ssversion.is_bound()) return TRUE; -if (single_value->field_clir__sup.is_bound()) return TRUE; -if (single_value->field_clir__inv.is_bound()) return TRUE; -if (single_value->field_signal.is_omit() || single_value->field_signal.is_bound()) return TRUE; -if (single_value->field_keypad.is_omit() || single_value->field_keypad.is_bound()) return TRUE; -if (single_value->field_more.is_bound()) return TRUE; -if (single_value->field_notify.is_bound()) return TRUE; -if (single_value->field_emergency.is_omit() || single_value->field_emergency.is_bound()) return TRUE; -if (single_value->field_imsi.is_bound()) return TRUE; -if (single_value->field_lchan__type.is_bound()) return TRUE; -if (single_value->field_lchan__mode.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__PDU__Signal_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_callref.is_value()) return FALSE; -if (!single_value->field_bearer__cap.is_omit() && !single_value->field_bearer__cap.is_value()) return FALSE; -if (!single_value->field_called.is_omit() && !single_value->field_called.is_value()) return FALSE; -if (!single_value->field_calling.is_omit() && !single_value->field_calling.is_value()) return FALSE; -if (!single_value->field_redirecting.is_omit() && !single_value->field_redirecting.is_value()) return FALSE; -if (!single_value->field_connected.is_omit() && !single_value->field_connected.is_value()) return FALSE; -if (!single_value->field_cause.is_omit() && !single_value->field_cause.is_value()) return FALSE; -if (!single_value->field_progress.is_omit() && !single_value->field_progress.is_value()) return FALSE; -if (!single_value->field_useruser.is_omit() && !single_value->field_useruser.is_value()) return FALSE; -if (!single_value->field_facility.is_omit() && !single_value->field_facility.is_value()) return FALSE; -if (!single_value->field_cccap.is_omit() && !single_value->field_cccap.is_value()) return FALSE; -if (!single_value->field_ssversion.is_omit() && !single_value->field_ssversion.is_value()) return FALSE; -if (!single_value->field_clir__sup.is_value()) return FALSE; -if (!single_value->field_clir__inv.is_value()) return FALSE; -if (!single_value->field_signal.is_omit() && !single_value->field_signal.is_value()) return FALSE; -if (!single_value->field_keypad.is_omit() && !single_value->field_keypad.is_value()) return FALSE; -if (!single_value->field_more.is_value()) return FALSE; -if (!single_value->field_notify.is_value()) return FALSE; -if (!single_value->field_emergency.is_omit() && !single_value->field_emergency.is_value()) return FALSE; -if (!single_value->field_imsi.is_value()) return FALSE; -if (!single_value->field_lchan__type.is_value()) return FALSE; -if (!single_value->field_lchan__mode.is_value()) return FALSE; -return TRUE; -} - -void MNCC__PDU__Signal_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__PDU__Signal MNCC__PDU__Signal_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -MNCC__PDU__Signal ret_val; -if (single_value->field_callref.is_bound()) { -ret_val.callref() = single_value->field_callref.valueof(); -} -if (single_value->field_bearer__cap.is_omit()) ret_val.bearer__cap() = OMIT_VALUE; -else if (single_value->field_bearer__cap.is_bound()) { -ret_val.bearer__cap() = single_value->field_bearer__cap.valueof(); -} -if (single_value->field_called.is_omit()) ret_val.called() = OMIT_VALUE; -else if (single_value->field_called.is_bound()) { -ret_val.called() = single_value->field_called.valueof(); -} -if (single_value->field_calling.is_omit()) ret_val.calling() = OMIT_VALUE; -else if (single_value->field_calling.is_bound()) { -ret_val.calling() = single_value->field_calling.valueof(); -} -if (single_value->field_redirecting.is_omit()) ret_val.redirecting() = OMIT_VALUE; -else if (single_value->field_redirecting.is_bound()) { -ret_val.redirecting() = single_value->field_redirecting.valueof(); -} -if (single_value->field_connected.is_omit()) ret_val.connected() = OMIT_VALUE; -else if (single_value->field_connected.is_bound()) { -ret_val.connected() = single_value->field_connected.valueof(); -} -if (single_value->field_cause.is_omit()) ret_val.cause() = OMIT_VALUE; -else if (single_value->field_cause.is_bound()) { -ret_val.cause() = single_value->field_cause.valueof(); -} -if (single_value->field_progress.is_omit()) ret_val.progress() = OMIT_VALUE; -else if (single_value->field_progress.is_bound()) { -ret_val.progress() = single_value->field_progress.valueof(); -} -if (single_value->field_useruser.is_omit()) ret_val.useruser() = OMIT_VALUE; -else if (single_value->field_useruser.is_bound()) { -ret_val.useruser() = single_value->field_useruser.valueof(); -} -if (single_value->field_facility.is_omit()) ret_val.facility() = OMIT_VALUE; -else if (single_value->field_facility.is_bound()) { -ret_val.facility() = single_value->field_facility.valueof(); -} -if (single_value->field_cccap.is_omit()) ret_val.cccap() = OMIT_VALUE; -else if (single_value->field_cccap.is_bound()) { -ret_val.cccap() = single_value->field_cccap.valueof(); -} -if (single_value->field_ssversion.is_omit()) ret_val.ssversion() = OMIT_VALUE; -else if (single_value->field_ssversion.is_bound()) { -ret_val.ssversion() = single_value->field_ssversion.valueof(); -} -if (single_value->field_clir__sup.is_bound()) { -ret_val.clir__sup() = single_value->field_clir__sup.valueof(); -} -if (single_value->field_clir__inv.is_bound()) { -ret_val.clir__inv() = single_value->field_clir__inv.valueof(); -} -if (single_value->field_signal.is_omit()) ret_val.signal() = OMIT_VALUE; -else if (single_value->field_signal.is_bound()) { -ret_val.signal() = single_value->field_signal.valueof(); -} -if (single_value->field_keypad.is_omit()) ret_val.keypad() = OMIT_VALUE; -else if (single_value->field_keypad.is_bound()) { -ret_val.keypad() = single_value->field_keypad.valueof(); -} -if (single_value->field_more.is_bound()) { -ret_val.more() = single_value->field_more.valueof(); -} -if (single_value->field_notify.is_bound()) { -ret_val.notify() = single_value->field_notify.valueof(); -} -if (single_value->field_emergency.is_omit()) ret_val.emergency() = OMIT_VALUE; -else if (single_value->field_emergency.is_bound()) { -ret_val.emergency() = single_value->field_emergency.valueof(); -} -if (single_value->field_imsi.is_bound()) { -ret_val.imsi() = single_value->field_imsi.valueof(); -} -if (single_value->field_lchan__type.is_bound()) { -ret_val.lchan__type() = single_value->field_lchan__type.valueof(); -} -if (single_value->field_lchan__mode.is_bound()) { -ret_val.lchan__mode() = single_value->field_lchan__mode.valueof(); -} -return ret_val; -} - -void MNCC__PDU__Signal_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_PDU_Signal."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__PDU__Signal_template[list_length]; -} - -MNCC__PDU__Signal_template& MNCC__PDU__Signal_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_PDU_Signal."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_PDU_Signal."); -return value_list.list_value[list_index]; -} - -INTEGER_template& MNCC__PDU__Signal_template::callref() -{ -set_specific(); -return single_value->field_callref; -} - -const INTEGER_template& MNCC__PDU__Signal_template::callref() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field callref of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_callref; -} - -MNCC__bearer__cap_template& MNCC__PDU__Signal_template::bearer__cap() -{ -set_specific(); -return single_value->field_bearer__cap; -} - -const MNCC__bearer__cap_template& MNCC__PDU__Signal_template::bearer__cap() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field bearer_cap of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_bearer__cap; -} - -MNCC__number_template& MNCC__PDU__Signal_template::called() -{ -set_specific(); -return single_value->field_called; -} - -const MNCC__number_template& MNCC__PDU__Signal_template::called() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field called of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_called; -} - -MNCC__number_template& MNCC__PDU__Signal_template::calling() -{ -set_specific(); -return single_value->field_calling; -} - -const MNCC__number_template& MNCC__PDU__Signal_template::calling() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field calling of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_calling; -} - -MNCC__number_template& MNCC__PDU__Signal_template::redirecting() -{ -set_specific(); -return single_value->field_redirecting; -} - -const MNCC__number_template& MNCC__PDU__Signal_template::redirecting() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field redirecting of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_redirecting; -} - -MNCC__number_template& MNCC__PDU__Signal_template::connected() -{ -set_specific(); -return single_value->field_connected; -} - -const MNCC__number_template& MNCC__PDU__Signal_template::connected() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field connected of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_connected; -} - -MNCC__cause_template& MNCC__PDU__Signal_template::cause() -{ -set_specific(); -return single_value->field_cause; -} - -const MNCC__cause_template& MNCC__PDU__Signal_template::cause() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field cause of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_cause; -} - -MNCC__progress_template& MNCC__PDU__Signal_template::progress() -{ -set_specific(); -return single_value->field_progress; -} - -const MNCC__progress_template& MNCC__PDU__Signal_template::progress() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field progress of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_progress; -} - -MNCC__useruser_template& MNCC__PDU__Signal_template::useruser() -{ -set_specific(); -return single_value->field_useruser; -} - -const MNCC__useruser_template& MNCC__PDU__Signal_template::useruser() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field useruser of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_useruser; -} - -CHARSTRING_template& MNCC__PDU__Signal_template::facility() -{ -set_specific(); -return single_value->field_facility; -} - -const CHARSTRING_template& MNCC__PDU__Signal_template::facility() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field facility of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_facility; -} - -MNCC__cccap_template& MNCC__PDU__Signal_template::cccap() -{ -set_specific(); -return single_value->field_cccap; -} - -const MNCC__cccap_template& MNCC__PDU__Signal_template::cccap() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field cccap of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_cccap; -} - -CHARSTRING_template& MNCC__PDU__Signal_template::ssversion() -{ -set_specific(); -return single_value->field_ssversion; -} - -const CHARSTRING_template& MNCC__PDU__Signal_template::ssversion() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ssversion of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_ssversion; -} - -INTEGER_template& MNCC__PDU__Signal_template::clir__sup() -{ -set_specific(); -return single_value->field_clir__sup; -} - -const INTEGER_template& MNCC__PDU__Signal_template::clir__sup() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field clir_sup of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_clir__sup; -} - -INTEGER_template& MNCC__PDU__Signal_template::clir__inv() -{ -set_specific(); -return single_value->field_clir__inv; -} - -const INTEGER_template& MNCC__PDU__Signal_template::clir__inv() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field clir_inv of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_clir__inv; -} - -INTEGER_template& MNCC__PDU__Signal_template::signal() -{ -set_specific(); -return single_value->field_signal; -} - -const INTEGER_template& MNCC__PDU__Signal_template::signal() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field signal of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_signal; -} - -CHARSTRING_template& MNCC__PDU__Signal_template::keypad() -{ -set_specific(); -return single_value->field_keypad; -} - -const CHARSTRING_template& MNCC__PDU__Signal_template::keypad() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field keypad of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_keypad; -} - -INTEGER_template& MNCC__PDU__Signal_template::more() -{ -set_specific(); -return single_value->field_more; -} - -const INTEGER_template& MNCC__PDU__Signal_template::more() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field more of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_more; -} - -INTEGER_template& MNCC__PDU__Signal_template::notify() -{ -set_specific(); -return single_value->field_notify; -} - -const INTEGER_template& MNCC__PDU__Signal_template::notify() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field notify of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_notify; -} - -INTEGER_template& MNCC__PDU__Signal_template::emergency() -{ -set_specific(); -return single_value->field_emergency; -} - -const INTEGER_template& MNCC__PDU__Signal_template::emergency() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field emergency of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_emergency; -} - -CHARSTRING_template& MNCC__PDU__Signal_template::imsi() -{ -set_specific(); -return single_value->field_imsi; -} - -const CHARSTRING_template& MNCC__PDU__Signal_template::imsi() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field imsi of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_imsi; -} - -INTEGER_template& MNCC__PDU__Signal_template::lchan__type() -{ -set_specific(); -return single_value->field_lchan__type; -} - -const INTEGER_template& MNCC__PDU__Signal_template::lchan__type() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field lchan_type of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_lchan__type; -} - -INTEGER_template& MNCC__PDU__Signal_template::lchan__mode() -{ -set_specific(); -return single_value->field_lchan__mode; -} - -const INTEGER_template& MNCC__PDU__Signal_template::lchan__mode() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field lchan_mode of a non-specific template of type @MNCC_Types.MNCC_PDU_Signal."); -return single_value->field_lchan__mode; -} - -int MNCC__PDU__Signal_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Signal which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - { int ret_val = 8; - if (single_value->field_bearer__cap.is_present()) ret_val++; - if (single_value->field_called.is_present()) ret_val++; - if (single_value->field_calling.is_present()) ret_val++; - if (single_value->field_redirecting.is_present()) ret_val++; - if (single_value->field_connected.is_present()) ret_val++; - if (single_value->field_cause.is_present()) ret_val++; - if (single_value->field_progress.is_present()) ret_val++; - if (single_value->field_useruser.is_present()) ret_val++; - if (single_value->field_facility.is_present()) ret_val++; - if (single_value->field_cccap.is_present()) ret_val++; - if (single_value->field_ssversion.is_present()) ret_val++; - if (single_value->field_signal.is_present()) ret_val++; - if (single_value->field_keypad.is_present()) ret_val++; - if (single_value->field_emergency.is_present()) ret_val++; - return ret_val; - } - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Signal containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Signal containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Signal containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Signal containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Signal containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Signal."); - } - return 0; -} - -void MNCC__PDU__Signal_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ callref := "); -single_value->field_callref.log(); -TTCN_Logger::log_event_str(", bearer_cap := "); -single_value->field_bearer__cap.log(); -TTCN_Logger::log_event_str(", called := "); -single_value->field_called.log(); -TTCN_Logger::log_event_str(", calling := "); -single_value->field_calling.log(); -TTCN_Logger::log_event_str(", redirecting := "); -single_value->field_redirecting.log(); -TTCN_Logger::log_event_str(", connected := "); -single_value->field_connected.log(); -TTCN_Logger::log_event_str(", cause := "); -single_value->field_cause.log(); -TTCN_Logger::log_event_str(", progress := "); -single_value->field_progress.log(); -TTCN_Logger::log_event_str(", useruser := "); -single_value->field_useruser.log(); -TTCN_Logger::log_event_str(", facility := "); -single_value->field_facility.log(); -TTCN_Logger::log_event_str(", cccap := "); -single_value->field_cccap.log(); -TTCN_Logger::log_event_str(", ssversion := "); -single_value->field_ssversion.log(); -TTCN_Logger::log_event_str(", clir_sup := "); -single_value->field_clir__sup.log(); -TTCN_Logger::log_event_str(", clir_inv := "); -single_value->field_clir__inv.log(); -TTCN_Logger::log_event_str(", signal := "); -single_value->field_signal.log(); -TTCN_Logger::log_event_str(", keypad := "); -single_value->field_keypad.log(); -TTCN_Logger::log_event_str(", more := "); -single_value->field_more.log(); -TTCN_Logger::log_event_str(", notify := "); -single_value->field_notify.log(); -TTCN_Logger::log_event_str(", emergency := "); -single_value->field_emergency.log(); -TTCN_Logger::log_event_str(", imsi := "); -single_value->field_imsi.log(); -TTCN_Logger::log_event_str(", lchan_type := "); -single_value->field_lchan__type.log(); -TTCN_Logger::log_event_str(", lchan_mode := "); -single_value->field_lchan__mode.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__PDU__Signal_template::log_match(const MNCC__PDU__Signal& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_callref.match(match_value.callref(), legacy)){ -TTCN_Logger::log_logmatch_info(".callref"); -single_value->field_callref.log_match(match_value.callref(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if (match_value.bearer__cap().ispresent()){ -if(!single_value->field_bearer__cap.match(match_value.bearer__cap(), legacy)){ -TTCN_Logger::log_logmatch_info(".bearer_cap"); -single_value->field_bearer__cap.log_match(match_value.bearer__cap(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_bearer__cap.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".bearer_cap := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_bearer__cap.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if (match_value.called().ispresent()){ -if(!single_value->field_called.match(match_value.called(), legacy)){ -TTCN_Logger::log_logmatch_info(".called"); -single_value->field_called.log_match(match_value.called(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_called.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".called := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_called.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if (match_value.calling().ispresent()){ -if(!single_value->field_calling.match(match_value.calling(), legacy)){ -TTCN_Logger::log_logmatch_info(".calling"); -single_value->field_calling.log_match(match_value.calling(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_calling.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".calling := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_calling.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if (match_value.redirecting().ispresent()){ -if(!single_value->field_redirecting.match(match_value.redirecting(), legacy)){ -TTCN_Logger::log_logmatch_info(".redirecting"); -single_value->field_redirecting.log_match(match_value.redirecting(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_redirecting.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".redirecting := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_redirecting.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if (match_value.connected().ispresent()){ -if(!single_value->field_connected.match(match_value.connected(), legacy)){ -TTCN_Logger::log_logmatch_info(".connected"); -single_value->field_connected.log_match(match_value.connected(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_connected.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".connected := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_connected.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if (match_value.cause().ispresent()){ -if(!single_value->field_cause.match(match_value.cause(), legacy)){ -TTCN_Logger::log_logmatch_info(".cause"); -single_value->field_cause.log_match(match_value.cause(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_cause.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".cause := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_cause.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if (match_value.progress().ispresent()){ -if(!single_value->field_progress.match(match_value.progress(), legacy)){ -TTCN_Logger::log_logmatch_info(".progress"); -single_value->field_progress.log_match(match_value.progress(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_progress.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".progress := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_progress.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if (match_value.useruser().ispresent()){ -if(!single_value->field_useruser.match(match_value.useruser(), legacy)){ -TTCN_Logger::log_logmatch_info(".useruser"); -single_value->field_useruser.log_match(match_value.useruser(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_useruser.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".useruser := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_useruser.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if (match_value.facility().ispresent()){ -if(!single_value->field_facility.match(match_value.facility(), legacy)){ -TTCN_Logger::log_logmatch_info(".facility"); -single_value->field_facility.log_match(match_value.facility(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_facility.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".facility := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_facility.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if (match_value.cccap().ispresent()){ -if(!single_value->field_cccap.match(match_value.cccap(), legacy)){ -TTCN_Logger::log_logmatch_info(".cccap"); -single_value->field_cccap.log_match(match_value.cccap(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_cccap.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".cccap := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_cccap.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if (match_value.ssversion().ispresent()){ -if(!single_value->field_ssversion.match(match_value.ssversion(), legacy)){ -TTCN_Logger::log_logmatch_info(".ssversion"); -single_value->field_ssversion.log_match(match_value.ssversion(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_ssversion.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".ssversion := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_ssversion.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if(!single_value->field_clir__sup.match(match_value.clir__sup(), legacy)){ -TTCN_Logger::log_logmatch_info(".clir_sup"); -single_value->field_clir__sup.log_match(match_value.clir__sup(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_clir__inv.match(match_value.clir__inv(), legacy)){ -TTCN_Logger::log_logmatch_info(".clir_inv"); -single_value->field_clir__inv.log_match(match_value.clir__inv(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if (match_value.signal().ispresent()){ -if(!single_value->field_signal.match(match_value.signal(), legacy)){ -TTCN_Logger::log_logmatch_info(".signal"); -single_value->field_signal.log_match(match_value.signal(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_signal.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".signal := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_signal.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if (match_value.keypad().ispresent()){ -if(!single_value->field_keypad.match(match_value.keypad(), legacy)){ -TTCN_Logger::log_logmatch_info(".keypad"); -single_value->field_keypad.log_match(match_value.keypad(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_keypad.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".keypad := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_keypad.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if(!single_value->field_more.match(match_value.more(), legacy)){ -TTCN_Logger::log_logmatch_info(".more"); -single_value->field_more.log_match(match_value.more(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_notify.match(match_value.notify(), legacy)){ -TTCN_Logger::log_logmatch_info(".notify"); -single_value->field_notify.log_match(match_value.notify(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if (match_value.emergency().ispresent()){ -if(!single_value->field_emergency.match(match_value.emergency(), legacy)){ -TTCN_Logger::log_logmatch_info(".emergency"); -single_value->field_emergency.log_match(match_value.emergency(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} else { -if (!single_value->field_emergency.match_omit(legacy)){ - TTCN_Logger::log_logmatch_info(".emergency := omit with "); -TTCN_Logger::print_logmatch_buffer(); -single_value->field_emergency.log(); -TTCN_Logger::log_event_str(" unmatched"); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -if(!single_value->field_imsi.match(match_value.imsi(), legacy)){ -TTCN_Logger::log_logmatch_info(".imsi"); -single_value->field_imsi.log_match(match_value.imsi(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_lchan__type.match(match_value.lchan__type(), legacy)){ -TTCN_Logger::log_logmatch_info(".lchan_type"); -single_value->field_lchan__type.log_match(match_value.lchan__type(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_lchan__mode.match(match_value.lchan__mode(), legacy)){ -TTCN_Logger::log_logmatch_info(".lchan_mode"); -single_value->field_lchan__mode.log_match(match_value.lchan__mode(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ callref := "); -single_value->field_callref.log_match(match_value.callref(), legacy); -TTCN_Logger::log_event_str(", bearer_cap := "); -if (match_value.bearer__cap().ispresent()) single_value->field_bearer__cap.log_match(match_value.bearer__cap(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_bearer__cap.log(); -if (single_value->field_bearer__cap.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", called := "); -if (match_value.called().ispresent()) single_value->field_called.log_match(match_value.called(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_called.log(); -if (single_value->field_called.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", calling := "); -if (match_value.calling().ispresent()) single_value->field_calling.log_match(match_value.calling(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_calling.log(); -if (single_value->field_calling.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", redirecting := "); -if (match_value.redirecting().ispresent()) single_value->field_redirecting.log_match(match_value.redirecting(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_redirecting.log(); -if (single_value->field_redirecting.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", connected := "); -if (match_value.connected().ispresent()) single_value->field_connected.log_match(match_value.connected(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_connected.log(); -if (single_value->field_connected.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", cause := "); -if (match_value.cause().ispresent()) single_value->field_cause.log_match(match_value.cause(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_cause.log(); -if (single_value->field_cause.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", progress := "); -if (match_value.progress().ispresent()) single_value->field_progress.log_match(match_value.progress(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_progress.log(); -if (single_value->field_progress.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", useruser := "); -if (match_value.useruser().ispresent()) single_value->field_useruser.log_match(match_value.useruser(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_useruser.log(); -if (single_value->field_useruser.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", facility := "); -if (match_value.facility().ispresent()) single_value->field_facility.log_match(match_value.facility(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_facility.log(); -if (single_value->field_facility.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", cccap := "); -if (match_value.cccap().ispresent()) single_value->field_cccap.log_match(match_value.cccap(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_cccap.log(); -if (single_value->field_cccap.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", ssversion := "); -if (match_value.ssversion().ispresent()) single_value->field_ssversion.log_match(match_value.ssversion(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_ssversion.log(); -if (single_value->field_ssversion.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", clir_sup := "); -single_value->field_clir__sup.log_match(match_value.clir__sup(), legacy); -TTCN_Logger::log_event_str(", clir_inv := "); -single_value->field_clir__inv.log_match(match_value.clir__inv(), legacy); -TTCN_Logger::log_event_str(", signal := "); -if (match_value.signal().ispresent()) single_value->field_signal.log_match(match_value.signal(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_signal.log(); -if (single_value->field_signal.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", keypad := "); -if (match_value.keypad().ispresent()) single_value->field_keypad.log_match(match_value.keypad(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_keypad.log(); -if (single_value->field_keypad.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", more := "); -single_value->field_more.log_match(match_value.more(), legacy); -TTCN_Logger::log_event_str(", notify := "); -single_value->field_notify.log_match(match_value.notify(), legacy); -TTCN_Logger::log_event_str(", emergency := "); -if (match_value.emergency().ispresent()) single_value->field_emergency.log_match(match_value.emergency(), legacy); -else { -TTCN_Logger::log_event_str("omit with "); -single_value->field_emergency.log(); -if (single_value->field_emergency.match_omit(legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -TTCN_Logger::log_event_str(", imsi := "); -single_value->field_imsi.log_match(match_value.imsi(), legacy); -TTCN_Logger::log_event_str(", lchan_type := "); -single_value->field_lchan__type.log_match(match_value.lchan__type(), legacy); -TTCN_Logger::log_event_str(", lchan_mode := "); -single_value->field_lchan__mode.log_match(match_value.lchan__mode(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__PDU__Signal_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_callref.encode_text(text_buf); -single_value->field_bearer__cap.encode_text(text_buf); -single_value->field_called.encode_text(text_buf); -single_value->field_calling.encode_text(text_buf); -single_value->field_redirecting.encode_text(text_buf); -single_value->field_connected.encode_text(text_buf); -single_value->field_cause.encode_text(text_buf); -single_value->field_progress.encode_text(text_buf); -single_value->field_useruser.encode_text(text_buf); -single_value->field_facility.encode_text(text_buf); -single_value->field_cccap.encode_text(text_buf); -single_value->field_ssversion.encode_text(text_buf); -single_value->field_clir__sup.encode_text(text_buf); -single_value->field_clir__inv.encode_text(text_buf); -single_value->field_signal.encode_text(text_buf); -single_value->field_keypad.encode_text(text_buf); -single_value->field_more.encode_text(text_buf); -single_value->field_notify.encode_text(text_buf); -single_value->field_emergency.encode_text(text_buf); -single_value->field_imsi.encode_text(text_buf); -single_value->field_lchan__type.encode_text(text_buf); -single_value->field_lchan__mode.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Signal."); -} -} - -void MNCC__PDU__Signal_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_callref.decode_text(text_buf); -single_value->field_bearer__cap.decode_text(text_buf); -single_value->field_called.decode_text(text_buf); -single_value->field_calling.decode_text(text_buf); -single_value->field_redirecting.decode_text(text_buf); -single_value->field_connected.decode_text(text_buf); -single_value->field_cause.decode_text(text_buf); -single_value->field_progress.decode_text(text_buf); -single_value->field_useruser.decode_text(text_buf); -single_value->field_facility.decode_text(text_buf); -single_value->field_cccap.decode_text(text_buf); -single_value->field_ssversion.decode_text(text_buf); -single_value->field_clir__sup.decode_text(text_buf); -single_value->field_clir__inv.decode_text(text_buf); -single_value->field_signal.decode_text(text_buf); -single_value->field_keypad.decode_text(text_buf); -single_value->field_more.decode_text(text_buf); -single_value->field_notify.decode_text(text_buf); -single_value->field_emergency.decode_text(text_buf); -single_value->field_imsi.decode_text(text_buf); -single_value->field_lchan__type.decode_text(text_buf); -single_value->field_lchan__mode.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__PDU__Signal_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_PDU_Signal."); -} -} - -void MNCC__PDU__Signal_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__PDU__Signal_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) callref().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) bearer__cap().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) called().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) calling().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) redirecting().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) connected().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) cause().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) progress().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) useruser().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) facility().set_param(*param.get_elem(9)); - if (param.get_size()>10 && param.get_elem(10)->get_type()!=Module_Param::MP_NotUsed) cccap().set_param(*param.get_elem(10)); - if (param.get_size()>11 && param.get_elem(11)->get_type()!=Module_Param::MP_NotUsed) ssversion().set_param(*param.get_elem(11)); - if (param.get_size()>12 && param.get_elem(12)->get_type()!=Module_Param::MP_NotUsed) clir__sup().set_param(*param.get_elem(12)); - if (param.get_size()>13 && param.get_elem(13)->get_type()!=Module_Param::MP_NotUsed) clir__inv().set_param(*param.get_elem(13)); - if (param.get_size()>14 && param.get_elem(14)->get_type()!=Module_Param::MP_NotUsed) signal().set_param(*param.get_elem(14)); - if (param.get_size()>15 && param.get_elem(15)->get_type()!=Module_Param::MP_NotUsed) keypad().set_param(*param.get_elem(15)); - if (param.get_size()>16 && param.get_elem(16)->get_type()!=Module_Param::MP_NotUsed) more().set_param(*param.get_elem(16)); - if (param.get_size()>17 && param.get_elem(17)->get_type()!=Module_Param::MP_NotUsed) notify().set_param(*param.get_elem(17)); - if (param.get_size()>18 && param.get_elem(18)->get_type()!=Module_Param::MP_NotUsed) emergency().set_param(*param.get_elem(18)); - if (param.get_size()>19 && param.get_elem(19)->get_type()!=Module_Param::MP_NotUsed) imsi().set_param(*param.get_elem(19)); - if (param.get_size()>20 && param.get_elem(20)->get_type()!=Module_Param::MP_NotUsed) lchan__type().set_param(*param.get_elem(20)); - if (param.get_size()>21 && param.get_elem(21)->get_type()!=Module_Param::MP_NotUsed) lchan__mode().set_param(*param.get_elem(21)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "callref")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - callref().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "bearer_cap")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - bearer__cap().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "called")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - called().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "calling")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - calling().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "redirecting")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - redirecting().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "connected")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - connected().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cause")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cause().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "progress")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - progress().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "useruser")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - useruser().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "facility")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - facility().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cccap")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cccap().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ssversion")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ssversion().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "clir_sup")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - clir__sup().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "clir_inv")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - clir__inv().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "signal")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - signal().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "keypad")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - keypad().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "more")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - more().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "notify")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - notify().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "emergency")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - emergency().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "imsi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - imsi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lchan_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lchan__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lchan_mode")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lchan__mode().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_PDU_Signal: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_PDU_Signal"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__PDU__Signal_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_callref.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_bearer__cap.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_called.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_calling.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_redirecting.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_connected.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_cause.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_progress.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_useruser.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_facility.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_cccap.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_ssversion.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_clir__sup.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_clir__inv.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_signal.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_keypad.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_more.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_notify.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_emergency.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_imsi.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_lchan__type.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -single_value->field_lchan__mode.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_PDU_Signal"); -} - -boolean MNCC__PDU__Signal_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__PDU__Signal_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) callref().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) data().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "callref")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - callref().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "data")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - data().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_PDU_Data: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_PDU_Data"); - } -} - -void MNCC__PDU__Data::set_implicit_omit() -{ -if (callref().is_bound()) callref().set_implicit_omit(); -if (data().is_bound()) data().set_implicit_omit(); -} - -void MNCC__PDU__Data::encode_text(Text_Buf& text_buf) const -{ -field_callref.encode_text(text_buf); -field_data.encode_text(text_buf); -} - -void MNCC__PDU__Data::decode_text(Text_Buf& text_buf) -{ -field_callref.decode_text(text_buf); -field_data.decode_text(text_buf); -} - -void MNCC__PDU__Data::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__PDU__Data::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__PDU__Data::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__PDU__Data_callref_descr_.raw->forceomit); - decoded_field_length = field_callref.RAW_decode(MNCC__PDU__Data_callref_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__PDU__Data_data_descr_.raw->forceomit); - decoded_field_length = field_data.RAW_decode(MNCC__PDU__Data_data_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__PDU__Data::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 2; - myleaf.body.node.nodes = init_nodes_of_enc_tree(2); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__PDU__Data_callref_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__PDU__Data_data_descr_.raw); - encoded_length += field_callref.RAW_encode(MNCC__PDU__Data_callref_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_data.RAW_encode(MNCC__PDU__Data_data_descr_, *myleaf.body.node.nodes[1]); - return myleaf.length = encoded_length; -} - -struct MNCC__PDU__Data_template::single_value_struct { -INTEGER_template field_callref; -OCTETSTRING_template field_data; -}; - -void MNCC__PDU__Data_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_callref = ANY_VALUE; -single_value->field_data = ANY_VALUE; -} -} -} - -void MNCC__PDU__Data_template::copy_value(const MNCC__PDU__Data& other_value) -{ -single_value = new single_value_struct; -if (other_value.callref().is_bound()) { - single_value->field_callref = other_value.callref(); -} else { - single_value->field_callref.clean_up(); -} -if (other_value.data().is_bound()) { - single_value->field_data = other_value.data(); -} else { - single_value->field_data.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__PDU__Data_template::copy_template(const MNCC__PDU__Data_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.callref().get_selection()) { -single_value->field_callref = other_value.callref(); -} else { -single_value->field_callref.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.data().get_selection()) { -single_value->field_data = other_value.data(); -} else { -single_value->field_data.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__PDU__Data_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Data."); -break; -} -set_selection(other_value); -} - -MNCC__PDU__Data_template::MNCC__PDU__Data_template() -{ -} - -MNCC__PDU__Data_template::MNCC__PDU__Data_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__PDU__Data_template::MNCC__PDU__Data_template(const MNCC__PDU__Data& other_value) -{ -copy_value(other_value); -} - -MNCC__PDU__Data_template::MNCC__PDU__Data_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__PDU__Data&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_PDU_Data from an unbound optional field."); -} -} - -MNCC__PDU__Data_template::MNCC__PDU__Data_template(const MNCC__PDU__Data_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__PDU__Data_template::~MNCC__PDU__Data_template() -{ -clean_up(); -} - -MNCC__PDU__Data_template& MNCC__PDU__Data_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__PDU__Data_template& MNCC__PDU__Data_template::operator=(const MNCC__PDU__Data& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__PDU__Data_template& MNCC__PDU__Data_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__PDU__Data&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_PDU_Data."); -} -return *this; -} - -MNCC__PDU__Data_template& MNCC__PDU__Data_template::operator=(const MNCC__PDU__Data_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__PDU__Data_template::match(const MNCC__PDU__Data& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.callref().is_bound()) return FALSE; -if(!single_value->field_callref.match(other_value.callref(), legacy))return FALSE; -if(!other_value.data().is_bound()) return FALSE; -if(!single_value->field_data.match(other_value.data(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Data."); -} -return FALSE; -} - -boolean MNCC__PDU__Data_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_callref.is_bound()) return TRUE; -if (single_value->field_data.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__PDU__Data_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_callref.is_value()) return FALSE; -if (!single_value->field_data.is_value()) return FALSE; -return TRUE; -} - -void MNCC__PDU__Data_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__PDU__Data MNCC__PDU__Data_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_PDU_Data."); -MNCC__PDU__Data ret_val; -if (single_value->field_callref.is_bound()) { -ret_val.callref() = single_value->field_callref.valueof(); -} -if (single_value->field_data.is_bound()) { -ret_val.data() = single_value->field_data.valueof(); -} -return ret_val; -} - -void MNCC__PDU__Data_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_PDU_Data."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__PDU__Data_template[list_length]; -} - -MNCC__PDU__Data_template& MNCC__PDU__Data_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_PDU_Data."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_PDU_Data."); -return value_list.list_value[list_index]; -} - -INTEGER_template& MNCC__PDU__Data_template::callref() -{ -set_specific(); -return single_value->field_callref; -} - -const INTEGER_template& MNCC__PDU__Data_template::callref() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field callref of a non-specific template of type @MNCC_Types.MNCC_PDU_Data."); -return single_value->field_callref; -} - -OCTETSTRING_template& MNCC__PDU__Data_template::data() -{ -set_specific(); -return single_value->field_data; -} - -const OCTETSTRING_template& MNCC__PDU__Data_template::data() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field data of a non-specific template of type @MNCC_Types.MNCC_PDU_Data."); -return single_value->field_data; -} - -int MNCC__PDU__Data_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Data which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 2; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Data containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Data containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Data containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Data containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Data containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Data."); - } - return 0; -} - -void MNCC__PDU__Data_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ callref := "); -single_value->field_callref.log(); -TTCN_Logger::log_event_str(", data := "); -single_value->field_data.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__PDU__Data_template::log_match(const MNCC__PDU__Data& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_callref.match(match_value.callref(), legacy)){ -TTCN_Logger::log_logmatch_info(".callref"); -single_value->field_callref.log_match(match_value.callref(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_data.match(match_value.data(), legacy)){ -TTCN_Logger::log_logmatch_info(".data"); -single_value->field_data.log_match(match_value.data(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ callref := "); -single_value->field_callref.log_match(match_value.callref(), legacy); -TTCN_Logger::log_event_str(", data := "); -single_value->field_data.log_match(match_value.data(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__PDU__Data_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_callref.encode_text(text_buf); -single_value->field_data.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Data."); -} -} - -void MNCC__PDU__Data_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_callref.decode_text(text_buf); -single_value->field_data.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__PDU__Data_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_PDU_Data."); -} -} - -void MNCC__PDU__Data_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__PDU__Data_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) callref().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) data().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "callref")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - callref().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "data")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - data().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_PDU_Data: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_PDU_Data"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__PDU__Data_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_callref.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Data"); -single_value->field_data.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Data"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_PDU_Data"); -} - -boolean MNCC__PDU__Data_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__PDU__Data_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) callref().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) ip().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) rtp__port().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) payload__type().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) payload__msg__type().set_param(*param.get_elem(4)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "callref")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - callref().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ip")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ip().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rtp_port")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rtp__port().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "payload_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - payload__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "payload_msg_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - payload__msg__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_PDU_Rtp: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_PDU_Rtp"); - } -} - -void MNCC__PDU__Rtp::set_implicit_omit() -{ -if (callref().is_bound()) callref().set_implicit_omit(); -if (ip().is_bound()) ip().set_implicit_omit(); -if (rtp__port().is_bound()) rtp__port().set_implicit_omit(); -if (payload__type().is_bound()) payload__type().set_implicit_omit(); -if (payload__msg__type().is_bound()) payload__msg__type().set_implicit_omit(); -} - -void MNCC__PDU__Rtp::encode_text(Text_Buf& text_buf) const -{ -field_callref.encode_text(text_buf); -field_ip.encode_text(text_buf); -field_rtp__port.encode_text(text_buf); -field_payload__type.encode_text(text_buf); -field_payload__msg__type.encode_text(text_buf); -} - -void MNCC__PDU__Rtp::decode_text(Text_Buf& text_buf) -{ -field_callref.decode_text(text_buf); -field_ip.decode_text(text_buf); -field_rtp__port.decode_text(text_buf); -field_payload__type.decode_text(text_buf); -field_payload__msg__type.decode_text(text_buf); -} - -void MNCC__PDU__Rtp::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__PDU__Rtp::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__PDU__Rtp::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__PDU__Rtp_callref_descr_.raw->forceomit); - decoded_field_length = field_callref.RAW_decode(MNCC__PDU__Rtp_callref_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__PDU__Rtp_ip_descr_.raw->forceomit); - decoded_field_length = field_ip.RAW_decode(MNCC__PDU__Rtp_ip_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, MNCC__PDU__Rtp_rtp__port_descr_.raw->forceomit); - decoded_field_length = field_rtp__port.RAW_decode(MNCC__PDU__Rtp_rtp__port_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, MNCC__PDU__Rtp_payload__type_descr_.raw->forceomit); - decoded_field_length = field_payload__type.RAW_decode(MNCC__PDU__Rtp_payload__type_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, MNCC__PDU__Rtp_payload__msg__type_descr_.raw->forceomit); - decoded_field_length = field_payload__msg__type.RAW_decode(MNCC__PDU__Rtp_payload__msg__type_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__PDU__Rtp::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 5; - myleaf.body.node.nodes = init_nodes_of_enc_tree(5); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__PDU__Rtp_callref_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__PDU__Rtp_ip_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, MNCC__PDU__Rtp_rtp__port_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, MNCC__PDU__Rtp_payload__type_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, MNCC__PDU__Rtp_payload__msg__type_descr_.raw); - encoded_length += field_callref.RAW_encode(MNCC__PDU__Rtp_callref_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_ip.RAW_encode(MNCC__PDU__Rtp_ip_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_rtp__port.RAW_encode(MNCC__PDU__Rtp_rtp__port_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_payload__type.RAW_encode(MNCC__PDU__Rtp_payload__type_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_payload__msg__type.RAW_encode(MNCC__PDU__Rtp_payload__msg__type_descr_, *myleaf.body.node.nodes[4]); - return myleaf.length = encoded_length; -} - -struct MNCC__PDU__Rtp_template::single_value_struct { -INTEGER_template field_callref; -INTEGER_template field_ip; -INTEGER_template field_rtp__port; -INTEGER_template field_payload__type; -INTEGER_template field_payload__msg__type; -}; - -void MNCC__PDU__Rtp_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_callref = ANY_VALUE; -single_value->field_ip = ANY_VALUE; -single_value->field_rtp__port = ANY_VALUE; -single_value->field_payload__type = ANY_VALUE; -single_value->field_payload__msg__type = ANY_VALUE; -} -} -} - -void MNCC__PDU__Rtp_template::copy_value(const MNCC__PDU__Rtp& other_value) -{ -single_value = new single_value_struct; -if (other_value.callref().is_bound()) { - single_value->field_callref = other_value.callref(); -} else { - single_value->field_callref.clean_up(); -} -if (other_value.ip().is_bound()) { - single_value->field_ip = other_value.ip(); -} else { - single_value->field_ip.clean_up(); -} -if (other_value.rtp__port().is_bound()) { - single_value->field_rtp__port = other_value.rtp__port(); -} else { - single_value->field_rtp__port.clean_up(); -} -if (other_value.payload__type().is_bound()) { - single_value->field_payload__type = other_value.payload__type(); -} else { - single_value->field_payload__type.clean_up(); -} -if (other_value.payload__msg__type().is_bound()) { - single_value->field_payload__msg__type = other_value.payload__msg__type(); -} else { - single_value->field_payload__msg__type.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__PDU__Rtp_template::copy_template(const MNCC__PDU__Rtp_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.callref().get_selection()) { -single_value->field_callref = other_value.callref(); -} else { -single_value->field_callref.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ip().get_selection()) { -single_value->field_ip = other_value.ip(); -} else { -single_value->field_ip.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.rtp__port().get_selection()) { -single_value->field_rtp__port = other_value.rtp__port(); -} else { -single_value->field_rtp__port.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.payload__type().get_selection()) { -single_value->field_payload__type = other_value.payload__type(); -} else { -single_value->field_payload__type.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.payload__msg__type().get_selection()) { -single_value->field_payload__msg__type = other_value.payload__msg__type(); -} else { -single_value->field_payload__msg__type.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__PDU__Rtp_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Rtp."); -break; -} -set_selection(other_value); -} - -MNCC__PDU__Rtp_template::MNCC__PDU__Rtp_template() -{ -} - -MNCC__PDU__Rtp_template::MNCC__PDU__Rtp_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__PDU__Rtp_template::MNCC__PDU__Rtp_template(const MNCC__PDU__Rtp& other_value) -{ -copy_value(other_value); -} - -MNCC__PDU__Rtp_template::MNCC__PDU__Rtp_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__PDU__Rtp&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_PDU_Rtp from an unbound optional field."); -} -} - -MNCC__PDU__Rtp_template::MNCC__PDU__Rtp_template(const MNCC__PDU__Rtp_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__PDU__Rtp_template::~MNCC__PDU__Rtp_template() -{ -clean_up(); -} - -MNCC__PDU__Rtp_template& MNCC__PDU__Rtp_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__PDU__Rtp_template& MNCC__PDU__Rtp_template::operator=(const MNCC__PDU__Rtp& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__PDU__Rtp_template& MNCC__PDU__Rtp_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__PDU__Rtp&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_PDU_Rtp."); -} -return *this; -} - -MNCC__PDU__Rtp_template& MNCC__PDU__Rtp_template::operator=(const MNCC__PDU__Rtp_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__PDU__Rtp_template::match(const MNCC__PDU__Rtp& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.callref().is_bound()) return FALSE; -if(!single_value->field_callref.match(other_value.callref(), legacy))return FALSE; -if(!other_value.ip().is_bound()) return FALSE; -if(!single_value->field_ip.match(other_value.ip(), legacy))return FALSE; -if(!other_value.rtp__port().is_bound()) return FALSE; -if(!single_value->field_rtp__port.match(other_value.rtp__port(), legacy))return FALSE; -if(!other_value.payload__type().is_bound()) return FALSE; -if(!single_value->field_payload__type.match(other_value.payload__type(), legacy))return FALSE; -if(!other_value.payload__msg__type().is_bound()) return FALSE; -if(!single_value->field_payload__msg__type.match(other_value.payload__msg__type(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Rtp."); -} -return FALSE; -} - -boolean MNCC__PDU__Rtp_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_callref.is_bound()) return TRUE; -if (single_value->field_ip.is_bound()) return TRUE; -if (single_value->field_rtp__port.is_bound()) return TRUE; -if (single_value->field_payload__type.is_bound()) return TRUE; -if (single_value->field_payload__msg__type.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__PDU__Rtp_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_callref.is_value()) return FALSE; -if (!single_value->field_ip.is_value()) return FALSE; -if (!single_value->field_rtp__port.is_value()) return FALSE; -if (!single_value->field_payload__type.is_value()) return FALSE; -if (!single_value->field_payload__msg__type.is_value()) return FALSE; -return TRUE; -} - -void MNCC__PDU__Rtp_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__PDU__Rtp MNCC__PDU__Rtp_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_PDU_Rtp."); -MNCC__PDU__Rtp ret_val; -if (single_value->field_callref.is_bound()) { -ret_val.callref() = single_value->field_callref.valueof(); -} -if (single_value->field_ip.is_bound()) { -ret_val.ip() = single_value->field_ip.valueof(); -} -if (single_value->field_rtp__port.is_bound()) { -ret_val.rtp__port() = single_value->field_rtp__port.valueof(); -} -if (single_value->field_payload__type.is_bound()) { -ret_val.payload__type() = single_value->field_payload__type.valueof(); -} -if (single_value->field_payload__msg__type.is_bound()) { -ret_val.payload__msg__type() = single_value->field_payload__msg__type.valueof(); -} -return ret_val; -} - -void MNCC__PDU__Rtp_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_PDU_Rtp."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__PDU__Rtp_template[list_length]; -} - -MNCC__PDU__Rtp_template& MNCC__PDU__Rtp_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_PDU_Rtp."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_PDU_Rtp."); -return value_list.list_value[list_index]; -} - -INTEGER_template& MNCC__PDU__Rtp_template::callref() -{ -set_specific(); -return single_value->field_callref; -} - -const INTEGER_template& MNCC__PDU__Rtp_template::callref() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field callref of a non-specific template of type @MNCC_Types.MNCC_PDU_Rtp."); -return single_value->field_callref; -} - -INTEGER_template& MNCC__PDU__Rtp_template::ip() -{ -set_specific(); -return single_value->field_ip; -} - -const INTEGER_template& MNCC__PDU__Rtp_template::ip() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ip of a non-specific template of type @MNCC_Types.MNCC_PDU_Rtp."); -return single_value->field_ip; -} - -INTEGER_template& MNCC__PDU__Rtp_template::rtp__port() -{ -set_specific(); -return single_value->field_rtp__port; -} - -const INTEGER_template& MNCC__PDU__Rtp_template::rtp__port() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field rtp_port of a non-specific template of type @MNCC_Types.MNCC_PDU_Rtp."); -return single_value->field_rtp__port; -} - -INTEGER_template& MNCC__PDU__Rtp_template::payload__type() -{ -set_specific(); -return single_value->field_payload__type; -} - -const INTEGER_template& MNCC__PDU__Rtp_template::payload__type() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field payload_type of a non-specific template of type @MNCC_Types.MNCC_PDU_Rtp."); -return single_value->field_payload__type; -} - -INTEGER_template& MNCC__PDU__Rtp_template::payload__msg__type() -{ -set_specific(); -return single_value->field_payload__msg__type; -} - -const INTEGER_template& MNCC__PDU__Rtp_template::payload__msg__type() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field payload_msg_type of a non-specific template of type @MNCC_Types.MNCC_PDU_Rtp."); -return single_value->field_payload__msg__type; -} - -int MNCC__PDU__Rtp_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Rtp which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 5; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Rtp containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Rtp containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Rtp containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Rtp containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Rtp containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Rtp."); - } - return 0; -} - -void MNCC__PDU__Rtp_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ callref := "); -single_value->field_callref.log(); -TTCN_Logger::log_event_str(", ip := "); -single_value->field_ip.log(); -TTCN_Logger::log_event_str(", rtp_port := "); -single_value->field_rtp__port.log(); -TTCN_Logger::log_event_str(", payload_type := "); -single_value->field_payload__type.log(); -TTCN_Logger::log_event_str(", payload_msg_type := "); -single_value->field_payload__msg__type.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__PDU__Rtp_template::log_match(const MNCC__PDU__Rtp& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_callref.match(match_value.callref(), legacy)){ -TTCN_Logger::log_logmatch_info(".callref"); -single_value->field_callref.log_match(match_value.callref(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ip.match(match_value.ip(), legacy)){ -TTCN_Logger::log_logmatch_info(".ip"); -single_value->field_ip.log_match(match_value.ip(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_rtp__port.match(match_value.rtp__port(), legacy)){ -TTCN_Logger::log_logmatch_info(".rtp_port"); -single_value->field_rtp__port.log_match(match_value.rtp__port(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_payload__type.match(match_value.payload__type(), legacy)){ -TTCN_Logger::log_logmatch_info(".payload_type"); -single_value->field_payload__type.log_match(match_value.payload__type(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_payload__msg__type.match(match_value.payload__msg__type(), legacy)){ -TTCN_Logger::log_logmatch_info(".payload_msg_type"); -single_value->field_payload__msg__type.log_match(match_value.payload__msg__type(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ callref := "); -single_value->field_callref.log_match(match_value.callref(), legacy); -TTCN_Logger::log_event_str(", ip := "); -single_value->field_ip.log_match(match_value.ip(), legacy); -TTCN_Logger::log_event_str(", rtp_port := "); -single_value->field_rtp__port.log_match(match_value.rtp__port(), legacy); -TTCN_Logger::log_event_str(", payload_type := "); -single_value->field_payload__type.log_match(match_value.payload__type(), legacy); -TTCN_Logger::log_event_str(", payload_msg_type := "); -single_value->field_payload__msg__type.log_match(match_value.payload__msg__type(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__PDU__Rtp_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_callref.encode_text(text_buf); -single_value->field_ip.encode_text(text_buf); -single_value->field_rtp__port.encode_text(text_buf); -single_value->field_payload__type.encode_text(text_buf); -single_value->field_payload__msg__type.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Rtp."); -} -} - -void MNCC__PDU__Rtp_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_callref.decode_text(text_buf); -single_value->field_ip.decode_text(text_buf); -single_value->field_rtp__port.decode_text(text_buf); -single_value->field_payload__type.decode_text(text_buf); -single_value->field_payload__msg__type.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__PDU__Rtp_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_PDU_Rtp."); -} -} - -void MNCC__PDU__Rtp_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__PDU__Rtp_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) callref().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) ip().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) rtp__port().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) payload__type().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) payload__msg__type().set_param(*param.get_elem(4)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "callref")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - callref().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ip")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ip().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rtp_port")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rtp__port().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "payload_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - payload__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "payload_msg_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - payload__msg__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_PDU_Rtp: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_PDU_Rtp"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__PDU__Rtp_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_callref.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Rtp"); -single_value->field_ip.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Rtp"); -single_value->field_rtp__port.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Rtp"); -single_value->field_payload__type.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Rtp"); -single_value->field_payload__msg__type.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Rtp"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_PDU_Rtp"); -} - -boolean MNCC__PDU__Rtp_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__PDU__Rtp_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) version().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) mncc__size().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) data__frame__size().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) called__offset().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) signal__offset().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) emergency__offset().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) lchan__type__offset().set_param(*param.get_elem(6)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "version")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - version().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mncc_size")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mncc__size().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "data_frame_size")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - data__frame__size().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "called_offset")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - called__offset().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "signal_offset")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - signal__offset().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "emergency_offset")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - emergency__offset().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lchan_type_offset")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lchan__type__offset().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_PDU_Hello: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_PDU_Hello"); - } -} - -void MNCC__PDU__Hello::set_implicit_omit() -{ -if (version().is_bound()) version().set_implicit_omit(); -if (mncc__size().is_bound()) mncc__size().set_implicit_omit(); -if (data__frame__size().is_bound()) data__frame__size().set_implicit_omit(); -if (called__offset().is_bound()) called__offset().set_implicit_omit(); -if (signal__offset().is_bound()) signal__offset().set_implicit_omit(); -if (emergency__offset().is_bound()) emergency__offset().set_implicit_omit(); -if (lchan__type__offset().is_bound()) lchan__type__offset().set_implicit_omit(); -} - -void MNCC__PDU__Hello::encode_text(Text_Buf& text_buf) const -{ -field_version.encode_text(text_buf); -field_mncc__size.encode_text(text_buf); -field_data__frame__size.encode_text(text_buf); -field_called__offset.encode_text(text_buf); -field_signal__offset.encode_text(text_buf); -field_emergency__offset.encode_text(text_buf); -field_lchan__type__offset.encode_text(text_buf); -} - -void MNCC__PDU__Hello::decode_text(Text_Buf& text_buf) -{ -field_version.decode_text(text_buf); -field_mncc__size.decode_text(text_buf); -field_data__frame__size.decode_text(text_buf); -field_called__offset.decode_text(text_buf); -field_signal__offset.decode_text(text_buf); -field_emergency__offset.decode_text(text_buf); -field_lchan__type__offset.decode_text(text_buf); -} - -void MNCC__PDU__Hello::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__PDU__Hello::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__PDU__Hello::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__PDU__Hello_version_descr_.raw->forceomit); - decoded_field_length = field_version.RAW_decode(MNCC__PDU__Hello_version_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__PDU__Hello_mncc__size_descr_.raw->forceomit); - decoded_field_length = field_mncc__size.RAW_decode(MNCC__PDU__Hello_mncc__size_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, MNCC__PDU__Hello_data__frame__size_descr_.raw->forceomit); - decoded_field_length = field_data__frame__size.RAW_decode(MNCC__PDU__Hello_data__frame__size_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, MNCC__PDU__Hello_called__offset_descr_.raw->forceomit); - decoded_field_length = field_called__offset.RAW_decode(MNCC__PDU__Hello_called__offset_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, MNCC__PDU__Hello_signal__offset_descr_.raw->forceomit); - decoded_field_length = field_signal__offset.RAW_decode(MNCC__PDU__Hello_signal__offset_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_5_force_omit(5, force_omit, MNCC__PDU__Hello_emergency__offset_descr_.raw->forceomit); - decoded_field_length = field_emergency__offset.RAW_decode(MNCC__PDU__Hello_emergency__offset_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_5_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_6_force_omit(6, force_omit, MNCC__PDU__Hello_lchan__type__offset_descr_.raw->forceomit); - decoded_field_length = field_lchan__type__offset.RAW_decode(MNCC__PDU__Hello_lchan__type__offset_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_6_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__PDU__Hello::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 7; - myleaf.body.node.nodes = init_nodes_of_enc_tree(7); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__PDU__Hello_version_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__PDU__Hello_mncc__size_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, MNCC__PDU__Hello_data__frame__size_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, MNCC__PDU__Hello_called__offset_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, MNCC__PDU__Hello_signal__offset_descr_.raw); - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 5, MNCC__PDU__Hello_emergency__offset_descr_.raw); - myleaf.body.node.nodes[6] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 6, MNCC__PDU__Hello_lchan__type__offset_descr_.raw); - encoded_length += field_version.RAW_encode(MNCC__PDU__Hello_version_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_mncc__size.RAW_encode(MNCC__PDU__Hello_mncc__size_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_data__frame__size.RAW_encode(MNCC__PDU__Hello_data__frame__size_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_called__offset.RAW_encode(MNCC__PDU__Hello_called__offset_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_signal__offset.RAW_encode(MNCC__PDU__Hello_signal__offset_descr_, *myleaf.body.node.nodes[4]); - encoded_length += field_emergency__offset.RAW_encode(MNCC__PDU__Hello_emergency__offset_descr_, *myleaf.body.node.nodes[5]); - encoded_length += field_lchan__type__offset.RAW_encode(MNCC__PDU__Hello_lchan__type__offset_descr_, *myleaf.body.node.nodes[6]); - return myleaf.length = encoded_length; -} - -struct MNCC__PDU__Hello_template::single_value_struct { -INTEGER_template field_version; -INTEGER_template field_mncc__size; -INTEGER_template field_data__frame__size; -INTEGER_template field_called__offset; -INTEGER_template field_signal__offset; -INTEGER_template field_emergency__offset; -INTEGER_template field_lchan__type__offset; -}; - -void MNCC__PDU__Hello_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_version = ANY_VALUE; -single_value->field_mncc__size = ANY_VALUE; -single_value->field_data__frame__size = ANY_VALUE; -single_value->field_called__offset = ANY_VALUE; -single_value->field_signal__offset = ANY_VALUE; -single_value->field_emergency__offset = ANY_VALUE; -single_value->field_lchan__type__offset = ANY_VALUE; -} -} -} - -void MNCC__PDU__Hello_template::copy_value(const MNCC__PDU__Hello& other_value) -{ -single_value = new single_value_struct; -if (other_value.version().is_bound()) { - single_value->field_version = other_value.version(); -} else { - single_value->field_version.clean_up(); -} -if (other_value.mncc__size().is_bound()) { - single_value->field_mncc__size = other_value.mncc__size(); -} else { - single_value->field_mncc__size.clean_up(); -} -if (other_value.data__frame__size().is_bound()) { - single_value->field_data__frame__size = other_value.data__frame__size(); -} else { - single_value->field_data__frame__size.clean_up(); -} -if (other_value.called__offset().is_bound()) { - single_value->field_called__offset = other_value.called__offset(); -} else { - single_value->field_called__offset.clean_up(); -} -if (other_value.signal__offset().is_bound()) { - single_value->field_signal__offset = other_value.signal__offset(); -} else { - single_value->field_signal__offset.clean_up(); -} -if (other_value.emergency__offset().is_bound()) { - single_value->field_emergency__offset = other_value.emergency__offset(); -} else { - single_value->field_emergency__offset.clean_up(); -} -if (other_value.lchan__type__offset().is_bound()) { - single_value->field_lchan__type__offset = other_value.lchan__type__offset(); -} else { - single_value->field_lchan__type__offset.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__PDU__Hello_template::copy_template(const MNCC__PDU__Hello_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.version().get_selection()) { -single_value->field_version = other_value.version(); -} else { -single_value->field_version.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mncc__size().get_selection()) { -single_value->field_mncc__size = other_value.mncc__size(); -} else { -single_value->field_mncc__size.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.data__frame__size().get_selection()) { -single_value->field_data__frame__size = other_value.data__frame__size(); -} else { -single_value->field_data__frame__size.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.called__offset().get_selection()) { -single_value->field_called__offset = other_value.called__offset(); -} else { -single_value->field_called__offset.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.signal__offset().get_selection()) { -single_value->field_signal__offset = other_value.signal__offset(); -} else { -single_value->field_signal__offset.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.emergency__offset().get_selection()) { -single_value->field_emergency__offset = other_value.emergency__offset(); -} else { -single_value->field_emergency__offset.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.lchan__type__offset().get_selection()) { -single_value->field_lchan__type__offset = other_value.lchan__type__offset(); -} else { -single_value->field_lchan__type__offset.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__PDU__Hello_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Hello."); -break; -} -set_selection(other_value); -} - -MNCC__PDU__Hello_template::MNCC__PDU__Hello_template() -{ -} - -MNCC__PDU__Hello_template::MNCC__PDU__Hello_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__PDU__Hello_template::MNCC__PDU__Hello_template(const MNCC__PDU__Hello& other_value) -{ -copy_value(other_value); -} - -MNCC__PDU__Hello_template::MNCC__PDU__Hello_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__PDU__Hello&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_PDU_Hello from an unbound optional field."); -} -} - -MNCC__PDU__Hello_template::MNCC__PDU__Hello_template(const MNCC__PDU__Hello_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__PDU__Hello_template::~MNCC__PDU__Hello_template() -{ -clean_up(); -} - -MNCC__PDU__Hello_template& MNCC__PDU__Hello_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__PDU__Hello_template& MNCC__PDU__Hello_template::operator=(const MNCC__PDU__Hello& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__PDU__Hello_template& MNCC__PDU__Hello_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__PDU__Hello&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_PDU_Hello."); -} -return *this; -} - -MNCC__PDU__Hello_template& MNCC__PDU__Hello_template::operator=(const MNCC__PDU__Hello_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__PDU__Hello_template::match(const MNCC__PDU__Hello& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.version().is_bound()) return FALSE; -if(!single_value->field_version.match(other_value.version(), legacy))return FALSE; -if(!other_value.mncc__size().is_bound()) return FALSE; -if(!single_value->field_mncc__size.match(other_value.mncc__size(), legacy))return FALSE; -if(!other_value.data__frame__size().is_bound()) return FALSE; -if(!single_value->field_data__frame__size.match(other_value.data__frame__size(), legacy))return FALSE; -if(!other_value.called__offset().is_bound()) return FALSE; -if(!single_value->field_called__offset.match(other_value.called__offset(), legacy))return FALSE; -if(!other_value.signal__offset().is_bound()) return FALSE; -if(!single_value->field_signal__offset.match(other_value.signal__offset(), legacy))return FALSE; -if(!other_value.emergency__offset().is_bound()) return FALSE; -if(!single_value->field_emergency__offset.match(other_value.emergency__offset(), legacy))return FALSE; -if(!other_value.lchan__type__offset().is_bound()) return FALSE; -if(!single_value->field_lchan__type__offset.match(other_value.lchan__type__offset(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Hello."); -} -return FALSE; -} - -boolean MNCC__PDU__Hello_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_version.is_bound()) return TRUE; -if (single_value->field_mncc__size.is_bound()) return TRUE; -if (single_value->field_data__frame__size.is_bound()) return TRUE; -if (single_value->field_called__offset.is_bound()) return TRUE; -if (single_value->field_signal__offset.is_bound()) return TRUE; -if (single_value->field_emergency__offset.is_bound()) return TRUE; -if (single_value->field_lchan__type__offset.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__PDU__Hello_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_version.is_value()) return FALSE; -if (!single_value->field_mncc__size.is_value()) return FALSE; -if (!single_value->field_data__frame__size.is_value()) return FALSE; -if (!single_value->field_called__offset.is_value()) return FALSE; -if (!single_value->field_signal__offset.is_value()) return FALSE; -if (!single_value->field_emergency__offset.is_value()) return FALSE; -if (!single_value->field_lchan__type__offset.is_value()) return FALSE; -return TRUE; -} - -void MNCC__PDU__Hello_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__PDU__Hello MNCC__PDU__Hello_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_PDU_Hello."); -MNCC__PDU__Hello ret_val; -if (single_value->field_version.is_bound()) { -ret_val.version() = single_value->field_version.valueof(); -} -if (single_value->field_mncc__size.is_bound()) { -ret_val.mncc__size() = single_value->field_mncc__size.valueof(); -} -if (single_value->field_data__frame__size.is_bound()) { -ret_val.data__frame__size() = single_value->field_data__frame__size.valueof(); -} -if (single_value->field_called__offset.is_bound()) { -ret_val.called__offset() = single_value->field_called__offset.valueof(); -} -if (single_value->field_signal__offset.is_bound()) { -ret_val.signal__offset() = single_value->field_signal__offset.valueof(); -} -if (single_value->field_emergency__offset.is_bound()) { -ret_val.emergency__offset() = single_value->field_emergency__offset.valueof(); -} -if (single_value->field_lchan__type__offset.is_bound()) { -ret_val.lchan__type__offset() = single_value->field_lchan__type__offset.valueof(); -} -return ret_val; -} - -void MNCC__PDU__Hello_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_PDU_Hello."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__PDU__Hello_template[list_length]; -} - -MNCC__PDU__Hello_template& MNCC__PDU__Hello_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_PDU_Hello."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_PDU_Hello."); -return value_list.list_value[list_index]; -} - -INTEGER_template& MNCC__PDU__Hello_template::version() -{ -set_specific(); -return single_value->field_version; -} - -const INTEGER_template& MNCC__PDU__Hello_template::version() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field version of a non-specific template of type @MNCC_Types.MNCC_PDU_Hello."); -return single_value->field_version; -} - -INTEGER_template& MNCC__PDU__Hello_template::mncc__size() -{ -set_specific(); -return single_value->field_mncc__size; -} - -const INTEGER_template& MNCC__PDU__Hello_template::mncc__size() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mncc_size of a non-specific template of type @MNCC_Types.MNCC_PDU_Hello."); -return single_value->field_mncc__size; -} - -INTEGER_template& MNCC__PDU__Hello_template::data__frame__size() -{ -set_specific(); -return single_value->field_data__frame__size; -} - -const INTEGER_template& MNCC__PDU__Hello_template::data__frame__size() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field data_frame_size of a non-specific template of type @MNCC_Types.MNCC_PDU_Hello."); -return single_value->field_data__frame__size; -} - -INTEGER_template& MNCC__PDU__Hello_template::called__offset() -{ -set_specific(); -return single_value->field_called__offset; -} - -const INTEGER_template& MNCC__PDU__Hello_template::called__offset() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field called_offset of a non-specific template of type @MNCC_Types.MNCC_PDU_Hello."); -return single_value->field_called__offset; -} - -INTEGER_template& MNCC__PDU__Hello_template::signal__offset() -{ -set_specific(); -return single_value->field_signal__offset; -} - -const INTEGER_template& MNCC__PDU__Hello_template::signal__offset() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field signal_offset of a non-specific template of type @MNCC_Types.MNCC_PDU_Hello."); -return single_value->field_signal__offset; -} - -INTEGER_template& MNCC__PDU__Hello_template::emergency__offset() -{ -set_specific(); -return single_value->field_emergency__offset; -} - -const INTEGER_template& MNCC__PDU__Hello_template::emergency__offset() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field emergency_offset of a non-specific template of type @MNCC_Types.MNCC_PDU_Hello."); -return single_value->field_emergency__offset; -} - -INTEGER_template& MNCC__PDU__Hello_template::lchan__type__offset() -{ -set_specific(); -return single_value->field_lchan__type__offset; -} - -const INTEGER_template& MNCC__PDU__Hello_template::lchan__type__offset() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field lchan_type_offset of a non-specific template of type @MNCC_Types.MNCC_PDU_Hello."); -return single_value->field_lchan__type__offset; -} - -int MNCC__PDU__Hello_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Hello which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 7; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Hello containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Hello containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Hello containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Hello containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU_Hello containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Hello."); - } - return 0; -} - -void MNCC__PDU__Hello_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ version := "); -single_value->field_version.log(); -TTCN_Logger::log_event_str(", mncc_size := "); -single_value->field_mncc__size.log(); -TTCN_Logger::log_event_str(", data_frame_size := "); -single_value->field_data__frame__size.log(); -TTCN_Logger::log_event_str(", called_offset := "); -single_value->field_called__offset.log(); -TTCN_Logger::log_event_str(", signal_offset := "); -single_value->field_signal__offset.log(); -TTCN_Logger::log_event_str(", emergency_offset := "); -single_value->field_emergency__offset.log(); -TTCN_Logger::log_event_str(", lchan_type_offset := "); -single_value->field_lchan__type__offset.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__PDU__Hello_template::log_match(const MNCC__PDU__Hello& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_version.match(match_value.version(), legacy)){ -TTCN_Logger::log_logmatch_info(".version"); -single_value->field_version.log_match(match_value.version(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mncc__size.match(match_value.mncc__size(), legacy)){ -TTCN_Logger::log_logmatch_info(".mncc_size"); -single_value->field_mncc__size.log_match(match_value.mncc__size(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_data__frame__size.match(match_value.data__frame__size(), legacy)){ -TTCN_Logger::log_logmatch_info(".data_frame_size"); -single_value->field_data__frame__size.log_match(match_value.data__frame__size(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_called__offset.match(match_value.called__offset(), legacy)){ -TTCN_Logger::log_logmatch_info(".called_offset"); -single_value->field_called__offset.log_match(match_value.called__offset(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_signal__offset.match(match_value.signal__offset(), legacy)){ -TTCN_Logger::log_logmatch_info(".signal_offset"); -single_value->field_signal__offset.log_match(match_value.signal__offset(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_emergency__offset.match(match_value.emergency__offset(), legacy)){ -TTCN_Logger::log_logmatch_info(".emergency_offset"); -single_value->field_emergency__offset.log_match(match_value.emergency__offset(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_lchan__type__offset.match(match_value.lchan__type__offset(), legacy)){ -TTCN_Logger::log_logmatch_info(".lchan_type_offset"); -single_value->field_lchan__type__offset.log_match(match_value.lchan__type__offset(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ version := "); -single_value->field_version.log_match(match_value.version(), legacy); -TTCN_Logger::log_event_str(", mncc_size := "); -single_value->field_mncc__size.log_match(match_value.mncc__size(), legacy); -TTCN_Logger::log_event_str(", data_frame_size := "); -single_value->field_data__frame__size.log_match(match_value.data__frame__size(), legacy); -TTCN_Logger::log_event_str(", called_offset := "); -single_value->field_called__offset.log_match(match_value.called__offset(), legacy); -TTCN_Logger::log_event_str(", signal_offset := "); -single_value->field_signal__offset.log_match(match_value.signal__offset(), legacy); -TTCN_Logger::log_event_str(", emergency_offset := "); -single_value->field_emergency__offset.log_match(match_value.emergency__offset(), legacy); -TTCN_Logger::log_event_str(", lchan_type_offset := "); -single_value->field_lchan__type__offset.log_match(match_value.lchan__type__offset(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__PDU__Hello_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_version.encode_text(text_buf); -single_value->field_mncc__size.encode_text(text_buf); -single_value->field_data__frame__size.encode_text(text_buf); -single_value->field_called__offset.encode_text(text_buf); -single_value->field_signal__offset.encode_text(text_buf); -single_value->field_emergency__offset.encode_text(text_buf); -single_value->field_lchan__type__offset.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU_Hello."); -} -} - -void MNCC__PDU__Hello_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_version.decode_text(text_buf); -single_value->field_mncc__size.decode_text(text_buf); -single_value->field_data__frame__size.decode_text(text_buf); -single_value->field_called__offset.decode_text(text_buf); -single_value->field_signal__offset.decode_text(text_buf); -single_value->field_emergency__offset.decode_text(text_buf); -single_value->field_lchan__type__offset.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__PDU__Hello_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_PDU_Hello."); -} -} - -void MNCC__PDU__Hello_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__PDU__Hello_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) version().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) mncc__size().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) data__frame__size().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) called__offset().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) signal__offset().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) emergency__offset().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) lchan__type__offset().set_param(*param.get_elem(6)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "version")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - version().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mncc_size")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mncc__size().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "data_frame_size")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - data__frame__size().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "called_offset")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - called__offset().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "signal_offset")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - signal__offset().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "emergency_offset")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - emergency__offset().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lchan_type_offset")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lchan__type__offset().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_PDU_Hello: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_PDU_Hello"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__PDU__Hello_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_version.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Hello"); -single_value->field_mncc__size.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Hello"); -single_value->field_data__frame__size.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Hello"); -single_value->field_called__offset.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Hello"); -single_value->field_signal__offset.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Hello"); -single_value->field_emergency__offset.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Hello"); -single_value->field_lchan__type__offset.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU_Hello"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_PDU_Hello"); -} - -boolean MNCC__PDU__Hello_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__PDU__Hello_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idxis_value(); -case ALT_data: return field_data->is_value(); -case ALT_rtp: return field_rtp->is_value(); -case ALT_hello: return field_hello->is_value(); -default: TTCN_error("Invalid selection in union is_bound");} -} - -void MNCC__MsgUnion::clean_up() -{ -switch (union_selection) { -case ALT_signal: - delete field_signal; - break; -case ALT_data: - delete field_data; - break; -case ALT_rtp: - delete field_rtp; - break; -case ALT_hello: - delete field_hello; - break; -default: - break; -} -union_selection = UNBOUND_VALUE; -} - -void MNCC__MsgUnion::log() const -{ -switch (union_selection) { -case ALT_signal: -TTCN_Logger::log_event_str("{ signal := "); -field_signal->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_data: -TTCN_Logger::log_event_str("{ data := "); -field_data->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_rtp: -TTCN_Logger::log_event_str("{ rtp := "); -field_rtp->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_hello: -TTCN_Logger::log_event_str("{ hello := "); -field_hello->log(); -TTCN_Logger::log_event_str(" }"); -break; -default: -TTCN_Logger::log_event_unbound(); -} -} - -void MNCC__MsgUnion::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "union value"); - Module_Param_Ptr m_p = ¶m; - if (m_p->get_type()==Module_Param::MP_Value_List && m_p->get_size()==0) return; - if (m_p->get_type()!=Module_Param::MP_Assignment_List) { - param.error("union value with field name was expected"); - } - Module_Param* mp_last = m_p->get_elem(m_p->get_size()-1); - char* last_name = mp_last->get_id()->get_name(); - if (!strcmp(last_name, "signal")) { - signal().set_param(*mp_last); - if (!signal().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "data")) { - data().set_param(*mp_last); - if (!data().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "rtp")) { - rtp().set_param(*mp_last); - if (!rtp().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "hello")) { - hello().set_param(*mp_last); - if (!hello().is_bound()) clean_up(); - return; - } - mp_last->error("Field %s does not exist in type @MNCC_Types.MNCC_MsgUnion.", last_name); -} - -void MNCC__MsgUnion::set_implicit_omit() -{ -switch (union_selection) { -case ALT_signal: -field_signal->set_implicit_omit(); break; -case ALT_data: -field_data->set_implicit_omit(); break; -case ALT_rtp: -field_rtp->set_implicit_omit(); break; -case ALT_hello: -field_hello->set_implicit_omit(); break; -default: break; -} -} - -void MNCC__MsgUnion::encode_text(Text_Buf& text_buf) const -{ -text_buf.push_int(union_selection); -switch (union_selection) { -case ALT_signal: -field_signal->encode_text(text_buf); -break; -case ALT_data: -field_data->encode_text(text_buf); -break; -case ALT_rtp: -field_rtp->encode_text(text_buf); -break; -case ALT_hello: -field_hello->encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an unbound value of union type @MNCC_Types.MNCC_MsgUnion."); -} -} - -void MNCC__MsgUnion::decode_text(Text_Buf& text_buf) -{ -switch ((union_selection_type)text_buf.pull_int().get_val()) { -case ALT_signal: -signal().decode_text(text_buf); -break; -case ALT_data: -data().decode_text(text_buf); -break; -case ALT_rtp: -rtp().decode_text(text_buf); -break; -case ALT_hello: -hello().decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: Unrecognized union selector was received for type @MNCC_Types.MNCC_MsgUnion."); -} -} - -void MNCC__MsgUnion::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__MsgUnion::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__MsgUnion::RAW_decode( -const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, -raw_order_t top_bit_ord, boolean no_err, int sel_field, boolean, const RAW_Force_Omit* force_omit) -{ - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - int decoded_length=0; - int starting_pos=p_buf.get_pos_bit(); - if(sel_field!=-1){ - switch(sel_field){ - case 0: { - RAW_Force_Omit field_force_omit(0, force_omit, MNCC__MsgUnion_signal_descr_.raw->forceomit); - decoded_length = signal().RAW_decode(MNCC__MsgUnion_signal_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 1: { - RAW_Force_Omit field_force_omit(1, force_omit, MNCC__MsgUnion_data_descr_.raw->forceomit); - decoded_length = data().RAW_decode(MNCC__MsgUnion_data_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 2: { - RAW_Force_Omit field_force_omit(2, force_omit, MNCC__MsgUnion_rtp_descr_.raw->forceomit); - decoded_length = rtp().RAW_decode(MNCC__MsgUnion_rtp_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 3: { - RAW_Force_Omit field_force_omit(3, force_omit, MNCC__MsgUnion_hello_descr_.raw->forceomit); - decoded_length = hello().RAW_decode(MNCC__MsgUnion_hello_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - default: break; - } - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } else { - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__MsgUnion_signal_descr_.raw->forceomit); - decoded_length = signal().RAW_decode(MNCC__MsgUnion_signal_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_0_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__MsgUnion_data_descr_.raw->forceomit); - decoded_length = data().RAW_decode(MNCC__MsgUnion_data_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_1_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_2_force_omit(2, force_omit, MNCC__MsgUnion_rtp_descr_.raw->forceomit); - decoded_length = rtp().RAW_decode(MNCC__MsgUnion_rtp_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_2_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_3_force_omit(3, force_omit, MNCC__MsgUnion_hello_descr_.raw->forceomit); - decoded_length = hello().RAW_decode(MNCC__MsgUnion_hello_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_3_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - } - clean_up(); - return -1; -} - -int MNCC__MsgUnion::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const -{ - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 4; myleaf.body.node.nodes = init_nodes_of_enc_tree(4); - memset(myleaf.body.node.nodes, 0, 4 * sizeof(RAW_enc_tree *)); - switch (union_selection) { - case ALT_signal: - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 0, MNCC__MsgUnion_signal_descr_.raw); - encoded_length = field_signal->RAW_encode(MNCC__MsgUnion_signal_descr_, *myleaf.body.node.nodes[0]); - myleaf.body.node.nodes[0]->coding_descr = &MNCC__MsgUnion_signal_descr_; - break; - case ALT_data: - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 1, MNCC__MsgUnion_data_descr_.raw); - encoded_length = field_data->RAW_encode(MNCC__MsgUnion_data_descr_, *myleaf.body.node.nodes[1]); - myleaf.body.node.nodes[1]->coding_descr = &MNCC__MsgUnion_data_descr_; - break; - case ALT_rtp: - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 2, MNCC__MsgUnion_rtp_descr_.raw); - encoded_length = field_rtp->RAW_encode(MNCC__MsgUnion_rtp_descr_, *myleaf.body.node.nodes[2]); - myleaf.body.node.nodes[2]->coding_descr = &MNCC__MsgUnion_rtp_descr_; - break; - case ALT_hello: - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 3, MNCC__MsgUnion_hello_descr_.raw); - encoded_length = field_hello->RAW_encode(MNCC__MsgUnion_hello_descr_, *myleaf.body.node.nodes[3]); - myleaf.body.node.nodes[3]->coding_descr = &MNCC__MsgUnion_hello_descr_; - break; - default: - TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - } - return encoded_length; -} - -void MNCC__MsgUnion_template::copy_value(const MNCC__MsgUnion& other_value) -{ -single_value.union_selection = other_value.get_selection(); -switch (single_value.union_selection) { -case MNCC__MsgUnion::ALT_signal: -single_value.field_signal = new MNCC__PDU__Signal_template(other_value.signal()); -break; -case MNCC__MsgUnion::ALT_data: -single_value.field_data = new MNCC__PDU__Data_template(other_value.data()); -break; -case MNCC__MsgUnion::ALT_rtp: -single_value.field_rtp = new MNCC__PDU__Rtp_template(other_value.rtp()); -break; -case MNCC__MsgUnion::ALT_hello: -single_value.field_hello = new MNCC__PDU__Hello_template(other_value.hello()); -break; -default: -TTCN_error("Initializing a template with an unbound value of type @MNCC_Types.MNCC_MsgUnion."); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__MsgUnion_template::copy_template(const MNCC__MsgUnion_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value.union_selection = other_value.single_value.union_selection; -switch (single_value.union_selection) { -case MNCC__MsgUnion::ALT_signal: -single_value.field_signal = new MNCC__PDU__Signal_template(*other_value.single_value.field_signal); -break; -case MNCC__MsgUnion::ALT_data: -single_value.field_data = new MNCC__PDU__Data_template(*other_value.single_value.field_data); -break; -case MNCC__MsgUnion::ALT_rtp: -single_value.field_rtp = new MNCC__PDU__Rtp_template(*other_value.single_value.field_rtp); -break; -case MNCC__MsgUnion::ALT_hello: -single_value.field_hello = new MNCC__PDU__Hello_template(*other_value.single_value.field_hello); -break; -default: -TTCN_error("Internal error: Invalid union selector in a specific value when copying a template of type @MNCC_Types.MNCC_MsgUnion."); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__MsgUnion_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized template of union type @MNCC_Types.MNCC_MsgUnion."); -} -set_selection(other_value); -} - -MNCC__MsgUnion_template::MNCC__MsgUnion_template() -{ -} - -MNCC__MsgUnion_template::MNCC__MsgUnion_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__MsgUnion_template::MNCC__MsgUnion_template(const MNCC__MsgUnion& other_value) -{ -copy_value(other_value); -} - -MNCC__MsgUnion_template::MNCC__MsgUnion_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__MsgUnion&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of union type @MNCC_Types.MNCC_MsgUnion from an unbound optional field."); -} -} - -MNCC__MsgUnion_template::MNCC__MsgUnion_template(const MNCC__MsgUnion_template& other_value) -: Base_Template(){ -copy_template(other_value); -} - -MNCC__MsgUnion_template::~MNCC__MsgUnion_template() -{ -clean_up(); -} - -void MNCC__MsgUnion_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -switch (single_value.union_selection) { -case MNCC__MsgUnion::ALT_signal: -delete single_value.field_signal; -break; -case MNCC__MsgUnion::ALT_data: -delete single_value.field_data; -break; -case MNCC__MsgUnion::ALT_rtp: -delete single_value.field_rtp; -break; -case MNCC__MsgUnion::ALT_hello: -delete single_value.field_hello; -default: -break; -} -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__MsgUnion_template& MNCC__MsgUnion_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__MsgUnion_template& MNCC__MsgUnion_template::operator=(const MNCC__MsgUnion& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__MsgUnion_template& MNCC__MsgUnion_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__MsgUnion&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of union type @MNCC_Types.MNCC_MsgUnion."); -} -return *this; -} - -MNCC__MsgUnion_template& MNCC__MsgUnion_template::operator=(const MNCC__MsgUnion_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__MsgUnion_template::match(const MNCC__MsgUnion& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -{ -MNCC__MsgUnion::union_selection_type value_selection = other_value.get_selection(); -if (value_selection == MNCC__MsgUnion::UNBOUND_VALUE) return FALSE; -if (value_selection != single_value.union_selection) return FALSE; -switch (value_selection) { -case MNCC__MsgUnion::ALT_signal: -return single_value.field_signal->match(other_value.signal(), legacy); -case MNCC__MsgUnion::ALT_data: -return single_value.field_data->match(other_value.data(), legacy); -case MNCC__MsgUnion::ALT_rtp: -return single_value.field_rtp->match(other_value.rtp(), legacy); -case MNCC__MsgUnion::ALT_hello: -return single_value.field_hello->match(other_value.hello(), legacy); -default: -TTCN_error("Internal error: Invalid selector in a specific value when matching a template of union type @MNCC_Types.MNCC_MsgUnion."); -} -} -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error ("Matching an uninitialized template of union type @MNCC_Types.MNCC_MsgUnion."); -} -return FALSE; -} - -boolean MNCC__MsgUnion_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -switch (single_value.union_selection) { -case MNCC__MsgUnion::ALT_signal: -return single_value.field_signal->is_value(); -case MNCC__MsgUnion::ALT_data: -return single_value.field_data->is_value(); -case MNCC__MsgUnion::ALT_rtp: -return single_value.field_rtp->is_value(); -case MNCC__MsgUnion::ALT_hello: -return single_value.field_hello->is_value(); -default: -TTCN_error("Internal error: Invalid selector in a specific value when performing is_value operation on a template of union type @MNCC_Types.MNCC_MsgUnion."); -} -} - -MNCC__MsgUnion MNCC__MsgUnion_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of union type @MNCC_Types.MNCC_MsgUnion."); -MNCC__MsgUnion ret_val; -switch (single_value.union_selection) { -case MNCC__MsgUnion::ALT_signal: -ret_val.signal() = single_value.field_signal->valueof(); -break; -case MNCC__MsgUnion::ALT_data: -ret_val.data() = single_value.field_data->valueof(); -break; -case MNCC__MsgUnion::ALT_rtp: -ret_val.rtp() = single_value.field_rtp->valueof(); -break; -case MNCC__MsgUnion::ALT_hello: -ret_val.hello() = single_value.field_hello->valueof(); -break; -default: -TTCN_error("Internal error: Invalid selector in a specific value when performing valueof operation on a template of union type @MNCC_Types.MNCC_MsgUnion."); -} -return ret_val; -} - -MNCC__MsgUnion_template& MNCC__MsgUnion_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Internal error: Accessing a list element of a non-list template of union type @MNCC_Types.MNCC_MsgUnion."); -if (list_index >= value_list.n_values) TTCN_error("Internal error: Index overflow in a value list template of union type @MNCC_Types.MNCC_MsgUnion."); -return value_list.list_value[list_index]; -} -void MNCC__MsgUnion_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error ("Internal error: Setting an invalid list for a template of union type @MNCC_Types.MNCC_MsgUnion."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__MsgUnion_template[list_length]; -} - -MNCC__PDU__Signal_template& MNCC__MsgUnion_template::signal() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != MNCC__MsgUnion::ALT_signal) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_signal = new MNCC__PDU__Signal_template(ANY_VALUE); -else single_value.field_signal = new MNCC__PDU__Signal_template; -single_value.union_selection = MNCC__MsgUnion::ALT_signal; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_signal; -} - -const MNCC__PDU__Signal_template& MNCC__MsgUnion_template::signal() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field signal in a non-specific template of union type @MNCC_Types.MNCC_MsgUnion."); -if (single_value.union_selection != MNCC__MsgUnion::ALT_signal) TTCN_error("Accessing non-selected field signal in a template of union type @MNCC_Types.MNCC_MsgUnion."); -return *single_value.field_signal; -} - -MNCC__PDU__Data_template& MNCC__MsgUnion_template::data() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != MNCC__MsgUnion::ALT_data) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_data = new MNCC__PDU__Data_template(ANY_VALUE); -else single_value.field_data = new MNCC__PDU__Data_template; -single_value.union_selection = MNCC__MsgUnion::ALT_data; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_data; -} - -const MNCC__PDU__Data_template& MNCC__MsgUnion_template::data() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field data in a non-specific template of union type @MNCC_Types.MNCC_MsgUnion."); -if (single_value.union_selection != MNCC__MsgUnion::ALT_data) TTCN_error("Accessing non-selected field data in a template of union type @MNCC_Types.MNCC_MsgUnion."); -return *single_value.field_data; -} - -MNCC__PDU__Rtp_template& MNCC__MsgUnion_template::rtp() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != MNCC__MsgUnion::ALT_rtp) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_rtp = new MNCC__PDU__Rtp_template(ANY_VALUE); -else single_value.field_rtp = new MNCC__PDU__Rtp_template; -single_value.union_selection = MNCC__MsgUnion::ALT_rtp; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_rtp; -} - -const MNCC__PDU__Rtp_template& MNCC__MsgUnion_template::rtp() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field rtp in a non-specific template of union type @MNCC_Types.MNCC_MsgUnion."); -if (single_value.union_selection != MNCC__MsgUnion::ALT_rtp) TTCN_error("Accessing non-selected field rtp in a template of union type @MNCC_Types.MNCC_MsgUnion."); -return *single_value.field_rtp; -} - -MNCC__PDU__Hello_template& MNCC__MsgUnion_template::hello() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != MNCC__MsgUnion::ALT_hello) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_hello = new MNCC__PDU__Hello_template(ANY_VALUE); -else single_value.field_hello = new MNCC__PDU__Hello_template; -single_value.union_selection = MNCC__MsgUnion::ALT_hello; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_hello; -} - -const MNCC__PDU__Hello_template& MNCC__MsgUnion_template::hello() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field hello in a non-specific template of union type @MNCC_Types.MNCC_MsgUnion."); -if (single_value.union_selection != MNCC__MsgUnion::ALT_hello) TTCN_error("Accessing non-selected field hello in a template of union type @MNCC_Types.MNCC_MsgUnion."); -return *single_value.field_hello; -} - -boolean MNCC__MsgUnion_template::ischosen(MNCC__MsgUnion::union_selection_type checked_selection) const -{ -if (checked_selection == MNCC__MsgUnion::UNBOUND_VALUE) TTCN_error("Internal error: Performing ischosen() operation on an invalid field of union type @MNCC_Types.MNCC_MsgUnion."); -switch (template_selection) { -case SPECIFIC_VALUE: -if (single_value.union_selection == MNCC__MsgUnion::UNBOUND_VALUE) TTCN_error("Internal error: Invalid selector in a specific value when performing ischosen() operation on a template of union type @MNCC_Types.MNCC_MsgUnion."); -return single_value.union_selection == checked_selection; -case VALUE_LIST: -{ -if (value_list.n_values < 1) -TTCN_error("Internal error: Performing ischosen() operation on a template of union type @MNCC_Types.MNCC_MsgUnion containing an empty list."); -boolean ret_val = value_list.list_value[0].ischosen(checked_selection); -for (unsigned int list_count = 1; ret_val == TRUE && list_count < value_list.n_values; list_count++) { -ret_val = value_list.list_value[list_count].ischosen(checked_selection); -} -return ret_val; -} -default: -return FALSE; -} -return FALSE; -} - -void MNCC__MsgUnion_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -switch (single_value.union_selection) { -case MNCC__MsgUnion::ALT_signal: -TTCN_Logger::log_event_str("{ signal := "); -single_value.field_signal->log(); -TTCN_Logger::log_event_str(" }"); -break; -case MNCC__MsgUnion::ALT_data: -TTCN_Logger::log_event_str("{ data := "); -single_value.field_data->log(); -TTCN_Logger::log_event_str(" }"); -break; -case MNCC__MsgUnion::ALT_rtp: -TTCN_Logger::log_event_str("{ rtp := "); -single_value.field_rtp->log(); -TTCN_Logger::log_event_str(" }"); -break; -case MNCC__MsgUnion::ALT_hello: -TTCN_Logger::log_event_str("{ hello := "); -single_value.field_hello->log(); -TTCN_Logger::log_event_str(" }"); -break; -default: -TTCN_Logger::log_event_str(""); -} -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__MsgUnion_template::log_match(const MNCC__MsgUnion& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity() && match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -return; -} -if (template_selection == SPECIFIC_VALUE && single_value.union_selection == match_value.get_selection()) { -switch (single_value.union_selection) { -case MNCC__MsgUnion::ALT_signal: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".signal"); -single_value.field_signal->log_match(match_value.signal(), legacy); -} else { -TTCN_Logger::log_event_str("{ signal := "); -single_value.field_signal->log_match(match_value.signal(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case MNCC__MsgUnion::ALT_data: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".data"); -single_value.field_data->log_match(match_value.data(), legacy); -} else { -TTCN_Logger::log_event_str("{ data := "); -single_value.field_data->log_match(match_value.data(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case MNCC__MsgUnion::ALT_rtp: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".rtp"); -single_value.field_rtp->log_match(match_value.rtp(), legacy); -} else { -TTCN_Logger::log_event_str("{ rtp := "); -single_value.field_rtp->log_match(match_value.rtp(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case MNCC__MsgUnion::ALT_hello: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".hello"); -single_value.field_hello->log_match(match_value.hello(), legacy); -} else { -TTCN_Logger::log_event_str("{ hello := "); -single_value.field_hello->log_match(match_value.hello(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -default: -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(""); -} -} else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__MsgUnion_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value.union_selection); -switch (single_value.union_selection) { -case MNCC__MsgUnion::ALT_signal: -single_value.field_signal->encode_text(text_buf); -break; -case MNCC__MsgUnion::ALT_data: -single_value.field_data->encode_text(text_buf); -break; -case MNCC__MsgUnion::ALT_rtp: -single_value.field_rtp->encode_text(text_buf); -break; -case MNCC__MsgUnion::ALT_hello: -single_value.field_hello->encode_text(text_buf); -break; -default: -TTCN_error("Internal error: Invalid selector in a specific value when encoding a template of union type @MNCC_Types.MNCC_MsgUnion."); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized template of type @MNCC_Types.MNCC_MsgUnion."); -} -} - -void MNCC__MsgUnion_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -{ -single_value.union_selection = MNCC__MsgUnion::UNBOUND_VALUE; -MNCC__MsgUnion::union_selection_type new_selection = (MNCC__MsgUnion::union_selection_type)text_buf.pull_int().get_val(); -switch (new_selection) { -case MNCC__MsgUnion::ALT_signal: -single_value.field_signal = new MNCC__PDU__Signal_template; -single_value.field_signal->decode_text(text_buf); -break; -case MNCC__MsgUnion::ALT_data: -single_value.field_data = new MNCC__PDU__Data_template; -single_value.field_data->decode_text(text_buf); -break; -case MNCC__MsgUnion::ALT_rtp: -single_value.field_rtp = new MNCC__PDU__Rtp_template; -single_value.field_rtp->decode_text(text_buf); -break; -case MNCC__MsgUnion::ALT_hello: -single_value.field_hello = new MNCC__PDU__Hello_template; -single_value.field_hello->decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: Unrecognized union selector was received for a template of type @MNCC_Types.MNCC_MsgUnion."); -} -single_value.union_selection = new_selection; -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__MsgUnion_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: Unrecognized selector was received in a template of type @MNCC_Types.MNCC_MsgUnion."); -} -} - -boolean MNCC__MsgUnion_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__MsgUnion_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int v_idx=0; v_idx(param.get_id()) != NULL && - param.get_id()->next_name()) { - char* param_field = param.get_id()->get_current_name(); - if (param_field[0] >= '0' && param_field[0] <= '9') { - param.error("Unexpected array index in module parameter, expected a valid field" - " name for union template type `@MNCC_Types.MNCC_MsgUnion'"); - } - if (strcmp("signal", param_field) == 0) { - signal().set_param(param); - return; - } else if (strcmp("data", param_field) == 0) { - data().set_param(param); - return; - } else if (strcmp("rtp", param_field) == 0) { - rtp().set_param(param); - return; - } else if (strcmp("hello", param_field) == 0) { - hello().set_param(param); - return; - } else param.error("Field `%s' not found in union template type `@MNCC_Types.MNCC_MsgUnion'", param_field); - } - param.basic_check(Module_Param::BC_TEMPLATE, "union template"); - Module_Param_Ptr m_p = ¶m; - switch (m_p->get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__MsgUnion_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Value_List: - if (m_p->get_size()==0) break; - param.type_error("union template", "@MNCC_Types.MNCC_MsgUnion"); - break; - case Module_Param::MP_Assignment_List: { - Module_Param* mp_last = m_p->get_elem(m_p->get_size()-1); - char* last_name = mp_last->get_id()->get_name(); - if (!strcmp(last_name, "signal")) { - signal().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "data")) { - data().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "rtp")) { - rtp().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "hello")) { - hello().set_param(*mp_last); - break; - } - mp_last->error("Field %s does not exist in type @MNCC_Types.MNCC_MsgUnion.", last_name); - } break; - default: - param.type_error("union template", "@MNCC_Types.MNCC_MsgUnion"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__MsgUnion_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -switch (single_value.union_selection) { -case MNCC__MsgUnion::ALT_signal: -single_value.field_signal->check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_MsgUnion"); -return; -case MNCC__MsgUnion::ALT_data: -single_value.field_data->check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_MsgUnion"); -return; -case MNCC__MsgUnion::ALT_rtp: -single_value.field_rtp->check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_MsgUnion"); -return; -case MNCC__MsgUnion::ALT_hello: -single_value.field_hello->check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_MsgUnion"); -return; -default: -TTCN_error("Internal error: Invalid selector in a specific value when performing check_restriction operation on a template of union type @MNCC_Types.MNCC_MsgUnion."); -} -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_MsgUnion"); -} - -MNCC__PDU::MNCC__PDU() -{ -} - -MNCC__PDU::MNCC__PDU(const MNCC__MsgType& par_msg__type, - const MNCC__MsgUnion& par_u) - : field_msg__type(par_msg__type), - field_u(par_u) -{ -} - -MNCC__PDU::MNCC__PDU(const MNCC__PDU& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_PDU."); -if (other_value.msg__type().is_bound()) field_msg__type = other_value.msg__type(); -else field_msg__type.clean_up(); -if (other_value.u().is_bound()) field_u = other_value.u(); -else field_u.clean_up(); -} - -void MNCC__PDU::clean_up() -{ -field_msg__type.clean_up(); -field_u.clean_up(); -} - -const TTCN_Typedescriptor_t* MNCC__PDU::get_descriptor() const { return &MNCC__PDU_descr_; } -MNCC__PDU& MNCC__PDU::operator=(const MNCC__PDU& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_PDU."); - if (other_value.msg__type().is_bound()) field_msg__type = other_value.msg__type(); - else field_msg__type.clean_up(); - if (other_value.u().is_bound()) field_u = other_value.u(); - else field_u.clean_up(); -} -return *this; -} - -boolean MNCC__PDU::operator==(const MNCC__PDU& other_value) const -{ -return field_msg__type==other_value.field_msg__type - && field_u==other_value.field_u; -} - -boolean MNCC__PDU::is_bound() const -{ -if(field_msg__type.is_bound()) return TRUE; -if(field_u.is_bound()) return TRUE; -return FALSE; -} -boolean MNCC__PDU::is_value() const -{ -if(!field_msg__type.is_value()) return FALSE; -if(!field_u.is_value()) return FALSE; -return TRUE; -} -void MNCC__PDU::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ msg_type := "); -field_msg__type.log(); -TTCN_Logger::log_event_str(", u := "); -field_u.log(); -TTCN_Logger::log_event_str(" }"); -} - -void MNCC__PDU::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (20 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) msg__type().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) u().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "msg_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - msg__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "u")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - u().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_PDU: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@MNCC_Types.MNCC_PDU"); - } -} - -void MNCC__PDU::set_implicit_omit() -{ -if (msg__type().is_bound()) msg__type().set_implicit_omit(); -if (u().is_bound()) u().set_implicit_omit(); -} - -void MNCC__PDU::encode_text(Text_Buf& text_buf) const -{ -field_msg__type.encode_text(text_buf); -field_u.encode_text(text_buf); -} - -void MNCC__PDU::decode_text(Text_Buf& text_buf) -{ -field_msg__type.decode_text(text_buf); -field_u.decode_text(text_buf); -} - -void MNCC__PDU::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void MNCC__PDU::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int MNCC__PDU::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - int selected_field = -1; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, MNCC__PDU_msg__type_descr_.raw->forceomit); - decoded_field_length = field_msg__type.RAW_decode(MNCC__PDU_msg__type_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - if (field_msg__type == MNCC__MsgType::MNCC__SOCKET__HELLO) selected_field = 3; - else if (field_msg__type == MNCC__MsgType::MNCC__RTP__CREATE || field_msg__type == MNCC__MsgType::MNCC__RTP__CONNECT || field_msg__type == MNCC__MsgType::MNCC__RTP__FREE) selected_field = 2; - else if (field_msg__type == MNCC__MsgType::GSM__TCHF__FRAME || field_msg__type == MNCC__MsgType::GSM__TCHF__FRAME__EFR || field_msg__type == MNCC__MsgType::GSM__TCHH__FRAME || field_msg__type == MNCC__MsgType::GSM__TCH__FRAME__AMR || field_msg__type == MNCC__MsgType::GSM__BAD__FRAME) selected_field = 1; - else selected_field = 0; - RAW_Force_Omit field_1_force_omit(1, force_omit, MNCC__PDU_u_descr_.raw->forceomit); - decoded_field_length = field_u.RAW_decode(MNCC__PDU_u_descr_, p_buf, limit, local_top_order, no_err, selected_field, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int MNCC__PDU::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 2; - myleaf.body.node.nodes = init_nodes_of_enc_tree(2); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, MNCC__PDU_msg__type_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, MNCC__PDU_u_descr_.raw); - encoded_length += field_msg__type.RAW_encode(MNCC__PDU_msg__type_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_u.RAW_encode(MNCC__PDU_u_descr_, *myleaf.body.node.nodes[1]); - switch (field_u.get_selection()) { - case MNCC__MsgUnion::ALT_hello: - if (field_msg__type != MNCC__MsgType::MNCC__SOCKET__HELLO) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - MNCC__MsgType new_val(MNCC__MsgType::MNCC__SOCKET__HELLO); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(MNCC__PDU_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case MNCC__MsgUnion::ALT_rtp: - if (field_msg__type != MNCC__MsgType::MNCC__RTP__CREATE && field_msg__type != MNCC__MsgType::MNCC__RTP__CONNECT && field_msg__type != MNCC__MsgType::MNCC__RTP__FREE) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - MNCC__MsgType new_val(MNCC__MsgType::MNCC__RTP__CREATE); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(MNCC__PDU_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case MNCC__MsgUnion::ALT_data: - if (field_msg__type != MNCC__MsgType::GSM__TCHF__FRAME && field_msg__type != MNCC__MsgType::GSM__TCHF__FRAME__EFR && field_msg__type != MNCC__MsgType::GSM__TCHH__FRAME && field_msg__type != MNCC__MsgType::GSM__TCH__FRAME__AMR && field_msg__type != MNCC__MsgType::GSM__BAD__FRAME) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - MNCC__MsgType new_val(MNCC__MsgType::GSM__TCHF__FRAME); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(MNCC__PDU_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - default:; - } - return myleaf.length = encoded_length; -} - -struct MNCC__PDU_template::single_value_struct { -MNCC__MsgType_template field_msg__type; -MNCC__MsgUnion_template field_u; -}; - -void MNCC__PDU_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_msg__type = ANY_VALUE; -single_value->field_u = ANY_VALUE; -} -} -} - -void MNCC__PDU_template::copy_value(const MNCC__PDU& other_value) -{ -single_value = new single_value_struct; -if (other_value.msg__type().is_bound()) { - single_value->field_msg__type = other_value.msg__type(); -} else { - single_value->field_msg__type.clean_up(); -} -if (other_value.u().is_bound()) { - single_value->field_u = other_value.u(); -} else { - single_value->field_u.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void MNCC__PDU_template::copy_template(const MNCC__PDU_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.msg__type().get_selection()) { -single_value->field_msg__type = other_value.msg__type(); -} else { -single_value->field_msg__type.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.u().get_selection()) { -single_value->field_u = other_value.u(); -} else { -single_value->field_u.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new MNCC__PDU_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU."); -break; -} -set_selection(other_value); -} - -MNCC__PDU_template::MNCC__PDU_template() -{ -} - -MNCC__PDU_template::MNCC__PDU_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -MNCC__PDU_template::MNCC__PDU_template(const MNCC__PDU& other_value) -{ -copy_value(other_value); -} - -MNCC__PDU_template::MNCC__PDU_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__PDU&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @MNCC_Types.MNCC_PDU from an unbound optional field."); -} -} - -MNCC__PDU_template::MNCC__PDU_template(const MNCC__PDU_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -MNCC__PDU_template::~MNCC__PDU_template() -{ -clean_up(); -} - -MNCC__PDU_template& MNCC__PDU_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -MNCC__PDU_template& MNCC__PDU_template::operator=(const MNCC__PDU& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -MNCC__PDU_template& MNCC__PDU_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const MNCC__PDU&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @MNCC_Types.MNCC_PDU."); -} -return *this; -} - -MNCC__PDU_template& MNCC__PDU_template::operator=(const MNCC__PDU_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean MNCC__PDU_template::match(const MNCC__PDU& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.msg__type().is_bound()) return FALSE; -if(!single_value->field_msg__type.match(other_value.msg__type(), legacy))return FALSE; -if(!other_value.u().is_bound()) return FALSE; -if(!single_value->field_u.match(other_value.u(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU."); -} -return FALSE; -} - -boolean MNCC__PDU_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_msg__type.is_bound()) return TRUE; -if (single_value->field_u.is_bound()) return TRUE; -return FALSE; -} - -boolean MNCC__PDU_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_msg__type.is_value()) return FALSE; -if (!single_value->field_u.is_value()) return FALSE; -return TRUE; -} - -void MNCC__PDU_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -MNCC__PDU MNCC__PDU_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @MNCC_Types.MNCC_PDU."); -MNCC__PDU ret_val; -if (single_value->field_msg__type.is_bound()) { -ret_val.msg__type() = single_value->field_msg__type.valueof(); -} -if (single_value->field_u.is_bound()) { -ret_val.u() = single_value->field_u.valueof(); -} -return ret_val; -} - -void MNCC__PDU_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @MNCC_Types.MNCC_PDU."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new MNCC__PDU_template[list_length]; -} - -MNCC__PDU_template& MNCC__PDU_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @MNCC_Types.MNCC_PDU."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @MNCC_Types.MNCC_PDU."); -return value_list.list_value[list_index]; -} - -MNCC__MsgType_template& MNCC__PDU_template::msg__type() -{ -set_specific(); -return single_value->field_msg__type; -} - -const MNCC__MsgType_template& MNCC__PDU_template::msg__type() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field msg_type of a non-specific template of type @MNCC_Types.MNCC_PDU."); -return single_value->field_msg__type; -} - -MNCC__MsgUnion_template& MNCC__PDU_template::u() -{ -set_specific(); -return single_value->field_u; -} - -const MNCC__MsgUnion_template& MNCC__PDU_template::u() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field u of a non-specific template of type @MNCC_Types.MNCC_PDU."); -return single_value->field_u; -} - -int MNCC__PDU_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 2; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @MNCC_Types.MNCC_PDU containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU."); - } - return 0; -} - -void MNCC__PDU_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ msg_type := "); -single_value->field_msg__type.log(); -TTCN_Logger::log_event_str(", u := "); -single_value->field_u.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void MNCC__PDU_template::log_match(const MNCC__PDU& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_msg__type.match(match_value.msg__type(), legacy)){ -TTCN_Logger::log_logmatch_info(".msg_type"); -single_value->field_msg__type.log_match(match_value.msg__type(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_u.match(match_value.u(), legacy)){ -TTCN_Logger::log_logmatch_info(".u"); -single_value->field_u.log_match(match_value.u(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ msg_type := "); -single_value->field_msg__type.log_match(match_value.msg__type(), legacy); -TTCN_Logger::log_event_str(", u := "); -single_value->field_u.log_match(match_value.u(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void MNCC__PDU_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_msg__type.encode_text(text_buf); -single_value->field_u.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @MNCC_Types.MNCC_PDU."); -} -} - -void MNCC__PDU_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_msg__type.decode_text(text_buf); -single_value->field_u.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new MNCC__PDU_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @MNCC_Types.MNCC_PDU."); -} -} - -void MNCC__PDU_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - MNCC__PDU_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) msg__type().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) u().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "msg_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - msg__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "u")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - u().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @MNCC_Types.MNCC_PDU: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@MNCC_Types.MNCC_PDU"); - } - is_ifpresent = param.get_ifpresent(); -} - -void MNCC__PDU_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_msg__type.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU"); -single_value->field_u.check_restriction(t_res, t_name ? t_name : "@MNCC_Types.MNCC_PDU"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@MNCC_Types.MNCC_PDU"); -} - -boolean MNCC__PDU_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean MNCC__PDU_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx(pdu).u().rtp().callref(); -} -else { -current_location.update_lineno(1926); -/* MNCC_Types.ttcn, line 1926 */ -boolean tmp_56; -{ -boolean tmp_53 = pdu.is_bound(); -if(tmp_53) { -const MNCC__PDU& tmp_54 = pdu; -const MNCC__MsgUnion& tmp_55 = tmp_54.u(); -tmp_53 = tmp_55.is_bound(); -if(tmp_53) { -tmp_53 = tmp_55.ischosen(MNCC__MsgUnion::ALT_data); -} -} -tmp_56 = tmp_53; -} -if (tmp_56) { -current_location.update_lineno(1927); -/* MNCC_Types.ttcn, line 1927 */ -return const_cast< const MNCC__PDU&>(pdu).u().data().callref(); -} -else { -current_location.update_lineno(1928); -/* MNCC_Types.ttcn, line 1928 */ -boolean tmp_60; -{ -boolean tmp_57 = pdu.is_bound(); -if(tmp_57) { -const MNCC__PDU& tmp_58 = pdu; -const MNCC__MsgUnion& tmp_59 = tmp_58.u(); -tmp_57 = tmp_59.is_bound(); -if(tmp_57) { -tmp_57 = tmp_59.ischosen(MNCC__MsgUnion::ALT_signal); -} -} -tmp_60 = tmp_57; -} -if (tmp_60) { -current_location.update_lineno(1929); -/* MNCC_Types.ttcn, line 1929 */ -return const_cast< const MNCC__PDU&>(pdu).u().signal().callref(); -} -else { -current_location.update_lineno(1931); -/* MNCC_Types.ttcn, line 1931 */ -TTCN_Runtime::setverdict(FAIL,(TTCN_Logger::begin_event_log2str(),TTCN_Logger::log_event_str("Unable to determine Callref for MNCC"),pdu.log(),TTCN_Logger::end_event_log2str())); -current_location.update_lineno(1932); -/* MNCC_Types.ttcn, line 1932 */ -TTCN_Runtime::stop_component(MTC_COMPREF); -} -} -} -} -} - - -/* Bodies of static functions */ - -static void pre_init_module() -{ -TTCN_Location current_location("MNCC_Types.ttcn", 0, TTCN_Location::LOCATION_UNKNOWN, "MNCC_Types"); -Osmocom__Types::module_object.pre_init_module(); -current_location.update_lineno(143); -/* MNCC_Types.ttcn, line 143 */ -const_GSM__MAX__FACILITY = 128; -current_location.update_lineno(144); -/* MNCC_Types.ttcn, line 144 */ -const_GSM__MAX__SSVERSION = 128; -current_location.update_lineno(145); -/* MNCC_Types.ttcn, line 145 */ -const_GSM__MAX__USERUSER = 128; -module_object.add_function("enc_MNCC_PDU", (genericfunc_t)&enc__MNCC__PDU, NULL); -module_object.add_function("dec_MNCC_PDU", (genericfunc_t)&dec__MNCC__PDU, NULL); -module_object.add_function("f_mncc_get_call_id", (genericfunc_t)&f__mncc__get__call__id, NULL); -} - -static void post_init_module() -{ -TTCN_Location current_location("MNCC_Types.ttcn", 0, TTCN_Location::LOCATION_UNKNOWN, "MNCC_Types"); -Osmocom__Types::module_object.post_init_module(); -current_location.update_lineno(173); -/* MNCC_Types.ttcn, line 173 */ -template_ts__MNCC__bcap__voice.transfer() = 0; -template_ts__MNCC__bcap__voice.mode() = 0; -template_ts__MNCC__bcap__voice.coding() = 0; -template_ts__MNCC__bcap__voice.radio() = 3; -template_ts__MNCC__bcap__voice.speech__ctm() = 0; -{ -MNCC__speech__vers_template& tmp_0 = template_ts__MNCC__bcap__voice.speech__ver(); -tmp_0.set_size(6); -tmp_0[0] = 0; -tmp_0[1] = 2; -tmp_0[2] = 4; -tmp_0[3] = 1; -tmp_0[4] = 5; -tmp_0[5] = -1; -} -template_ts__MNCC__bcap__voice.data() = OMIT_VALUE; -const_ts__MNCC__number_ton_defval = GSM48__type__of__number::GSM48__TON__INTERNATIONAL; -const_ts__MNCC__number_npi_defval = GSM48__num__plan__ind::GSM48__NUMPLAN__E164; -const_ts__MNCC__number_pres_defval = GSM48__present__ind::GSM48__PRES__IND__ALLOWED; -const_ts__MNCC__number_screen_defval = GSM48__screening__ind::GSM48__SCR__IND__NOT__SCREENED; -template_tr__MNCC__number_ton_defval = ANY_VALUE; -template_tr__MNCC__number_npi_defval = ANY_VALUE; -template_tr__MNCC__number_pres_defval = ANY_VALUE; -template_tr__MNCC__number_screen_defval = ANY_VALUE; -const_ts__MNCC__cause_loc_defval = GSM48__cause__loc::GSM48__CAUSE__LOC__PUN__S__LU; -const_ts__MNCC__cause_coding_defval = GSM48__cause__coding::GSM48__CAUSE__CS__GSM; -const_ts__MNCC__cause_diag_defval = os_0; -const_ts__MNCC__HELLO_version_defval = 5; -const_ts__MNCC__SETUP__req_imsi_defval = cs_0; -template_tr__MNCC__SETUP__req_call__id_defval = ANY_VALUE; -template_tr__MNCC__SETUP__req_called_defval = ANY_VALUE; -template_tr__MNCC__SETUP__req_calling_defval = ANY_OR_OMIT; -template_tr__MNCC__SETUP__req_imsi_defval = ANY_VALUE; -const_ts__MNCC__SETUP__rsp_imsi_defval = cs_0; -template_ts__MNCC__SETUP__rsp_connected_defval = OMIT_VALUE; -template_tr__MNCC__SETUP__rsp_imsi_defval = ANY_VALUE; -template_tr__MNCC__SETUP__rsp_connected_defval = ANY_OR_OMIT; -template_tr__MNCC__SETUP__ind_call__id_defval = ANY_VALUE; -template_tr__MNCC__SETUP__ind_called_defval = ANY_VALUE; -template_tr__MNCC__SETUP__ind_calling_defval = ANY_OR_OMIT; -template_tr__MNCC__SETUP__ind_imsi_defval = ANY_VALUE; -template_ts__MNCC__SETUP__ind_calling_defval = OMIT_VALUE; -template_ts__MNCC__SETUP__ind_imsi_defval = OMIT_VALUE; -template_ts__MNCC__SETUP__ind_bcap_defval = ts__MNCC__bcap__voice; -template_ts__MNCC__SETUP__CNF_connected_defval = OMIT_VALUE; -template_tr__MNCC__SETUP__cnf_connected_defval = ANY_OR_OMIT; -template_tr__MNCC__SETUP__COMPL__ind_call__id_defval = ANY_VALUE; -template_tr__MNCC__REJ__req_cause_defval = ANY_OR_OMIT; -template_ts__MNCC__REJ__ind_cause_defval = OMIT_VALUE; -template_tr__MNCC__CALL__CONF__ind_bcap_defval = ANY_OR_OMIT; -template_tr__MNCC__CALL__CONF__ind_cause_defval = ANY_OR_OMIT; -template_tr__MNCC__CALL__CONF__ind_cccap_defval = ANY_OR_OMIT; -template_ts__MNCC__CALL__CONF__ind_bcap_defval = OMIT_VALUE; -template_ts__MNCC__CALL__CONF__ind_cause_defval = OMIT_VALUE; -template_ts__MNCC__CALL__CONF__ind_cccap_defval = OMIT_VALUE; -template_ts__MNCC__CALL__PROC__req_bcap_defval = OMIT_VALUE; -template_ts__MNCC__CALL__PROC__req_prog_defval = OMIT_VALUE; -template_ts__MNCC__CALL__PROC__req_fac_defval = OMIT_VALUE; -template_ts__MNCC__CALL__PROC__req_cccap_defval = OMIT_VALUE; -template_tr__MNCC__CALL__PROC__req_bcap_defval = ANY_OR_OMIT; -template_tr__MNCC__CALL__PROC__req_prog_defval = ANY_OR_OMIT; -template_tr__MNCC__CALL__PROC__req_fac_defval = ANY_OR_OMIT; -template_tr__MNCC__CALL__PROC__req_cccap_defval = ANY_OR_OMIT; -template_ts__MNCC__PROGRESS__req_uu_defval = OMIT_VALUE; -template_ts__MNCC__ALERT__req_prog_defval = OMIT_VALUE; -template_ts__MNCC__ALERT__req_fac_defval = OMIT_VALUE; -template_ts__MNCC__ALERT__req_uu_defval = OMIT_VALUE; -template_tr__MNCC__ALERT__req_prog_defval = ANY_OR_OMIT; -template_tr__MNCC__ALERT__req_fac_defval = ANY_OR_OMIT; -template_tr__MNCC__ALERT__req_uu_defval = ANY_OR_OMIT; -template_tr__MNCC__ALERT__ind_prog_defval = OMIT_VALUE; -template_tr__MNCC__ALERT__ind_fac_defval = OMIT_VALUE; -template_tr__MNCC__ALERT__ind_uu_defval = OMIT_VALUE; -template_ts__MNCC__ALERT__ind_prog_defval = OMIT_VALUE; -template_ts__MNCC__ALERT__ind_fac_defval = OMIT_VALUE; -template_ts__MNCC__ALERT__ind_uu_defval = OMIT_VALUE; -template_tr__MNCC__DISC__ind_call__id_defval = ANY_VALUE; -template_tr__MNCC__DISC__ind_cause_defval = ANY_VALUE; -template_tr__MNCC__DISC__ind_prog_defval = ANY_OR_OMIT; -template_tr__MNCC__DISC__ind_fac_defval = ANY_OR_OMIT; -template_tr__MNCC__DISC__ind_uu_defval = ANY_OR_OMIT; -template_ts__MNCC__DISC__ind_prog_defval = OMIT_VALUE; -template_ts__MNCC__DISC__ind_fac_defval = OMIT_VALUE; -template_ts__MNCC__DISC__ind_uu_defval = OMIT_VALUE; -template_ts__MNCC__DISC__req_prog_defval = OMIT_VALUE; -template_ts__MNCC__DISC__req_fac_defval = OMIT_VALUE; -template_ts__MNCC__DISC__req_uu_defval = OMIT_VALUE; -template_tr__MNCC__DISC__req_cause_defval = ANY_OR_OMIT; -template_tr__MNCC__DISC__req_prog_defval = OMIT_VALUE; -template_tr__MNCC__DISC__req_fac_defval = OMIT_VALUE; -template_tr__MNCC__DISC__req_uu_defval = OMIT_VALUE; -template_tr__MNCC__REL__ind_call__id_defval = ANY_VALUE; -template_tr__MNCC__REL__ind_cause_defval = ANY_VALUE; -template_tr__MNCC__REL__ind_fac_defval = ANY_OR_OMIT; -template_tr__MNCC__REL__ind_uu_defval = ANY_OR_OMIT; -template_ts__MNCC__REL__ind_fac_defval = OMIT_VALUE; -template_ts__MNCC__REL__ind_uu_defval = OMIT_VALUE; -template_ts__MNCC__REL__req_fac_defval = OMIT_VALUE; -template_ts__MNCC__REL__req_uu_defval = OMIT_VALUE; -template_tr__MNCC__REL__req_cause_defval = ANY_OR_OMIT; -template_tr__MNCC__REL__req_fac_defval = ANY_OR_OMIT; -template_tr__MNCC__REL__req_uu_defval = ANY_OR_OMIT; -template_tr__MNCC__REL__cnf_call__id_defval = ANY_VALUE; -template_tr__MNCC__REL__cnf_cause_defval = ANY_VALUE; -template_tr__MNCC__REL__cnf_fac_defval = ANY_OR_OMIT; -template_tr__MNCC__REL__cnf_uu_defval = ANY_OR_OMIT; -template_ts__MNCC__REL__cnf_fac_defval = OMIT_VALUE; -template_ts__MNCC__REL__cnf_uu_defval = OMIT_VALUE; -template_tr__MNCC__FACILITY__ind_call__id_defval = ANY_VALUE; -template_tr__MNCC__FACILITY__ind_fac_defval = ANY_VALUE; -template_tr__MNCC__START__DTMF__ind_call__id_defval = ANY_VALUE; -template_tr__MNCC__START__DTMF__ind_keypad_defval = ANY_VALUE; -template_tr__MNCC__STOP__DTMF__ind_call__id_defval = ANY_VALUE; -template_tr__MNCC__MODIFY__ind_call__id_defval = ANY_VALUE; -template_tr__MNCC__MODIFY__ind_bcap_defval = ANY_VALUE; -template_tr__MNCC__MODIFY__cnf_call__id_defval = ANY_VALUE; -template_tr__MNCC__MODIFY__cnf_bcap_defval = ANY_VALUE; -template_tr__MNCC__USERINFO__ind_call__id_defval = ANY_VALUE; -template_tr__MNCC__USERINFO__ind_uu_defval = ANY_VALUE; -template_tr__MNCC__HOLD__ind_call__id_defval = ANY_VALUE; -template_tr__MNCC__RETRIEVE__ind_call__id_defval = ANY_VALUE; -template_tr__MNCC__RTP__CREATE_call__id_defval = ANY_VALUE; -template_tr__MNCC__RTP__CONNECT_ip_defval = ANY_VALUE; -template_tr__MNCC__RTP__CONNECT_rtp__port_defval = ANY_VALUE; -template_tr__MNCC__RTP__CONNECT_pt_defval = ANY_VALUE; -} - - -} /* end of namespace */ diff --git a/titan/MNCC_Types.hh b/titan/MNCC_Types.hh deleted file mode 100644 index bd027ca..0000000 --- a/titan/MNCC_Types.hh +++ /dev/null @@ -1,4010 +0,0 @@ -// This C++ header file was generated by the TTCN-3 compiler -// of the TTCN-3 Test Executor version CRL 113 200/6 R5A -// The generation of user and time information were disabled by the -D flag. - -// Copyright (c) 2000-2018 Ericsson Telecom AB - -// Do not edit this file unless you know what you are doing. - -#ifndef MNCC__Types_HH -#define MNCC__Types_HH - -#ifdef TITAN_RUNTIME_2 -#error Generated code does not match with used runtime.\ - Code was generated without -R option but -DTITAN_RUNTIME_2 was used. -#endif - -/* Header file includes */ - -#include -#include "Osmocom_Types.hh" - -#if TTCN3_VERSION != 60500 -#error Version mismatch detected.\ - Please check the version of the TTCN-3 compiler and the base library.\ - Run make clean and rebuild the project if the version of the compiler changed recently. -#endif - -#ifndef LINUX -#error This file should be compiled on LINUX -#endif - -#undef MNCC__Types_HH -#endif - -namespace MNCC__Types { - -/* Forward declarations of classes */ - -class GSM48__bcap__ra; -class GSM48__bcap__ra_template; -class GSM48__bcap__sig__access; -class GSM48__bcap__sig__access_template; -class GSM48__bcap__user__rate; -class GSM48__bcap__user__rate_template; -class GSM48__bcap__parity; -class GSM48__bcap__parity_template; -class GSM48__bcap__interm__rate; -class GSM48__bcap__interm__rate_template; -class GSM48__bcap__transp; -class GSM48__bcap__transp_template; -class GSM48__bcap__modem__type; -class GSM48__bcap__modem__type_template; -class MNCC__MsgType; -class MNCC__MsgType_template; -class MNCC__bearer__cap__data; -class MNCC__bearer__cap__data_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER MNCC__speech__vers; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER_template MNCC__speech__vers_template; -class MNCC__bearer__cap; -class MNCC__bearer__cap_template; -class GSM48__type__of__number; -class GSM48__type__of__number_template; -class GSM48__num__plan__ind; -class GSM48__num__plan__ind_template; -class GSM48__present__ind; -class GSM48__present__ind_template; -class GSM48__screening__ind; -class GSM48__screening__ind_template; -class MNCC__number; -class MNCC__number_template; -class GSM48__cause__coding; -class GSM48__cause__coding_template; -class GSM48__cause__loc; -class GSM48__cause__loc_template; -class MNCC__cause; -class MNCC__cause_template; -class MNCC__useruser; -class MNCC__useruser_template; -class MNCC__progress; -class MNCC__progress_template; -class MNCC__cccap; -class MNCC__cccap_template; -class MNCC__bcap; -class MNCC__bcap_template; -class MNCC__PDU__Signal; -class MNCC__PDU__Signal_template; -class MNCC__PDU__Data; -class MNCC__PDU__Data_template; -class MNCC__PDU__Rtp; -class MNCC__PDU__Rtp_template; -class MNCC__PDU__Hello; -class MNCC__PDU__Hello_template; -class MNCC__MsgUnion; -class MNCC__MsgUnion_template; -class MNCC__PDU; -class MNCC__PDU_template; - -} /* end of namespace */ - -#ifndef MNCC__Types_HH -#define MNCC__Types_HH - -namespace MNCC__Types { - -/* Type definitions */ - -typedef INTEGER int_; -typedef INTEGER_template int__template; -typedef INTEGER MNCC__notify; -typedef INTEGER_template MNCC__notify_template; -typedef CHARSTRING MNCC__keypad; -typedef CHARSTRING_template MNCC__keypad_template; - -/* Class definitions */ - -class GSM48__bcap__ra : public Base_Type { // enum -friend class GSM48__bcap__ra_template; -public: -enum enum_type { GSM48__BCAP__RA__NONE = 0, GSM48__BCAP__RA__V110__X30 = 1, GSM48__BCAP__RA__X31 = 2, GSM48__BCAP__RA__OTHER = 3, UNKNOWN_VALUE = 4, UNBOUND_VALUE = 5 }; -private: -enum_type enum_value; - -public: -GSM48__bcap__ra(); -GSM48__bcap__ra(int other_value); -GSM48__bcap__ra(enum_type other_value); -GSM48__bcap__ra(const GSM48__bcap__ra& other_value); - -GSM48__bcap__ra& operator=(int other_value); -GSM48__bcap__ra& operator=(enum_type other_value); -GSM48__bcap__ra& operator=(const GSM48__bcap__ra& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__bcap__ra& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__bcap__ra& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__bcap__ra& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__bcap__ra& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__bcap__ra& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__bcap__ra& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__bcap__ra& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__bcap__ra_template : public Base_Template { -union { -GSM48__bcap__ra::enum_type single_value; -struct { -unsigned int n_values; -GSM48__bcap__ra_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__bcap__ra_template& other_value); - -public: -GSM48__bcap__ra_template(); -GSM48__bcap__ra_template(template_sel other_value); -GSM48__bcap__ra_template(int other_value); -GSM48__bcap__ra_template(GSM48__bcap__ra::enum_type other_value); -GSM48__bcap__ra_template(const GSM48__bcap__ra& other_value); -GSM48__bcap__ra_template(const OPTIONAL& other_value); -GSM48__bcap__ra_template(const GSM48__bcap__ra_template& other_value); -~GSM48__bcap__ra_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__bcap__ra_template& operator=(template_sel other_value); -GSM48__bcap__ra_template& operator=(int other_value); -GSM48__bcap__ra_template& operator=(GSM48__bcap__ra::enum_type other_value); -GSM48__bcap__ra_template& operator=(const GSM48__bcap__ra& other_value); -GSM48__bcap__ra_template& operator=(const OPTIONAL& other_value); -GSM48__bcap__ra_template& operator=(const GSM48__bcap__ra_template& other_value); - -boolean match(GSM48__bcap__ra::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__bcap__ra& other_value, boolean legacy = FALSE) const; -GSM48__bcap__ra::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__bcap__ra_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__bcap__ra& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class GSM48__bcap__sig__access : public Base_Type { // enum -friend class GSM48__bcap__sig__access_template; -public: -enum enum_type { GSM48__BCAP__SA__NONE = 0, GSM48__BCAP__SA__I440__I450 = 1, GSM48__BCAP__SA__X21 = 2, GSM48__BCAP__SA__X28__DP__IN = 3, GSM48__BCAP__SA__X28__DP__UN = 4, GSM48__BCAP__SA__X28__NDP = 5, GSM48__BCAP__SA__X32 = 6, UNKNOWN_VALUE = 7, UNBOUND_VALUE = 8 }; -private: -enum_type enum_value; - -public: -GSM48__bcap__sig__access(); -GSM48__bcap__sig__access(int other_value); -GSM48__bcap__sig__access(enum_type other_value); -GSM48__bcap__sig__access(const GSM48__bcap__sig__access& other_value); - -GSM48__bcap__sig__access& operator=(int other_value); -GSM48__bcap__sig__access& operator=(enum_type other_value); -GSM48__bcap__sig__access& operator=(const GSM48__bcap__sig__access& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__bcap__sig__access& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__bcap__sig__access& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__bcap__sig__access& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__bcap__sig__access& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__bcap__sig__access& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__bcap__sig__access& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__bcap__sig__access& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__bcap__sig__access_template : public Base_Template { -union { -GSM48__bcap__sig__access::enum_type single_value; -struct { -unsigned int n_values; -GSM48__bcap__sig__access_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__bcap__sig__access_template& other_value); - -public: -GSM48__bcap__sig__access_template(); -GSM48__bcap__sig__access_template(template_sel other_value); -GSM48__bcap__sig__access_template(int other_value); -GSM48__bcap__sig__access_template(GSM48__bcap__sig__access::enum_type other_value); -GSM48__bcap__sig__access_template(const GSM48__bcap__sig__access& other_value); -GSM48__bcap__sig__access_template(const OPTIONAL& other_value); -GSM48__bcap__sig__access_template(const GSM48__bcap__sig__access_template& other_value); -~GSM48__bcap__sig__access_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__bcap__sig__access_template& operator=(template_sel other_value); -GSM48__bcap__sig__access_template& operator=(int other_value); -GSM48__bcap__sig__access_template& operator=(GSM48__bcap__sig__access::enum_type other_value); -GSM48__bcap__sig__access_template& operator=(const GSM48__bcap__sig__access& other_value); -GSM48__bcap__sig__access_template& operator=(const OPTIONAL& other_value); -GSM48__bcap__sig__access_template& operator=(const GSM48__bcap__sig__access_template& other_value); - -boolean match(GSM48__bcap__sig__access::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__bcap__sig__access& other_value, boolean legacy = FALSE) const; -GSM48__bcap__sig__access::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__bcap__sig__access_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__bcap__sig__access& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class GSM48__bcap__user__rate : public Base_Type { // enum -friend class GSM48__bcap__user__rate_template; -public: -enum enum_type { GSM48__BCAP__UR__NONE = 0, GSM48__BCAP__UR__300 = 1, GSM48__BCAP__UR__1200 = 2, GSM48__BCAP__UR__2400 = 3, GSM48__BCAP__UR__4800 = 4, GSM48__BCAP__UR__9600 = 5, GSM48__BCAP__UR__12000 = 6, GSM48__BCAP__UR__1200__75 = 7, UNKNOWN_VALUE = 8, UNBOUND_VALUE = 9 }; -private: -enum_type enum_value; - -public: -GSM48__bcap__user__rate(); -GSM48__bcap__user__rate(int other_value); -GSM48__bcap__user__rate(enum_type other_value); -GSM48__bcap__user__rate(const GSM48__bcap__user__rate& other_value); - -GSM48__bcap__user__rate& operator=(int other_value); -GSM48__bcap__user__rate& operator=(enum_type other_value); -GSM48__bcap__user__rate& operator=(const GSM48__bcap__user__rate& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__bcap__user__rate& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__bcap__user__rate& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__bcap__user__rate& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__bcap__user__rate& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__bcap__user__rate& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__bcap__user__rate& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__bcap__user__rate& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__bcap__user__rate_template : public Base_Template { -union { -GSM48__bcap__user__rate::enum_type single_value; -struct { -unsigned int n_values; -GSM48__bcap__user__rate_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__bcap__user__rate_template& other_value); - -public: -GSM48__bcap__user__rate_template(); -GSM48__bcap__user__rate_template(template_sel other_value); -GSM48__bcap__user__rate_template(int other_value); -GSM48__bcap__user__rate_template(GSM48__bcap__user__rate::enum_type other_value); -GSM48__bcap__user__rate_template(const GSM48__bcap__user__rate& other_value); -GSM48__bcap__user__rate_template(const OPTIONAL& other_value); -GSM48__bcap__user__rate_template(const GSM48__bcap__user__rate_template& other_value); -~GSM48__bcap__user__rate_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__bcap__user__rate_template& operator=(template_sel other_value); -GSM48__bcap__user__rate_template& operator=(int other_value); -GSM48__bcap__user__rate_template& operator=(GSM48__bcap__user__rate::enum_type other_value); -GSM48__bcap__user__rate_template& operator=(const GSM48__bcap__user__rate& other_value); -GSM48__bcap__user__rate_template& operator=(const OPTIONAL& other_value); -GSM48__bcap__user__rate_template& operator=(const GSM48__bcap__user__rate_template& other_value); - -boolean match(GSM48__bcap__user__rate::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__bcap__user__rate& other_value, boolean legacy = FALSE) const; -GSM48__bcap__user__rate::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__bcap__user__rate_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__bcap__user__rate& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class GSM48__bcap__parity : public Base_Type { // enum -friend class GSM48__bcap__parity_template; -public: -enum enum_type { GSM48__BCAP__PAR__ODD = 0, GSM48__BCAP__PAR__EVEN = 2, GSM48__BCAP__PAR__NONE = 3, GSM48__BCAP__PAR__ZERO = 4, GSM48__BCAP__PAR__ONE = 5, UNKNOWN_VALUE = 1, UNBOUND_VALUE = 6 }; -private: -enum_type enum_value; - -public: -GSM48__bcap__parity(); -GSM48__bcap__parity(int other_value); -GSM48__bcap__parity(enum_type other_value); -GSM48__bcap__parity(const GSM48__bcap__parity& other_value); - -GSM48__bcap__parity& operator=(int other_value); -GSM48__bcap__parity& operator=(enum_type other_value); -GSM48__bcap__parity& operator=(const GSM48__bcap__parity& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__bcap__parity& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__bcap__parity& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__bcap__parity& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__bcap__parity& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__bcap__parity& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__bcap__parity& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__bcap__parity& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__bcap__parity_template : public Base_Template { -union { -GSM48__bcap__parity::enum_type single_value; -struct { -unsigned int n_values; -GSM48__bcap__parity_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__bcap__parity_template& other_value); - -public: -GSM48__bcap__parity_template(); -GSM48__bcap__parity_template(template_sel other_value); -GSM48__bcap__parity_template(int other_value); -GSM48__bcap__parity_template(GSM48__bcap__parity::enum_type other_value); -GSM48__bcap__parity_template(const GSM48__bcap__parity& other_value); -GSM48__bcap__parity_template(const OPTIONAL& other_value); -GSM48__bcap__parity_template(const GSM48__bcap__parity_template& other_value); -~GSM48__bcap__parity_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__bcap__parity_template& operator=(template_sel other_value); -GSM48__bcap__parity_template& operator=(int other_value); -GSM48__bcap__parity_template& operator=(GSM48__bcap__parity::enum_type other_value); -GSM48__bcap__parity_template& operator=(const GSM48__bcap__parity& other_value); -GSM48__bcap__parity_template& operator=(const OPTIONAL& other_value); -GSM48__bcap__parity_template& operator=(const GSM48__bcap__parity_template& other_value); - -boolean match(GSM48__bcap__parity::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__bcap__parity& other_value, boolean legacy = FALSE) const; -GSM48__bcap__parity::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__bcap__parity_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__bcap__parity& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class GSM48__bcap__interm__rate : public Base_Type { // enum -friend class GSM48__bcap__interm__rate_template; -public: -enum enum_type { GSM48__BCAP__IR__NONE = 0, GSM48__BCAP__IR__8k = 2, GSM48__BCAP__IR__16k = 3, UNKNOWN_VALUE = 1, UNBOUND_VALUE = 4 }; -private: -enum_type enum_value; - -public: -GSM48__bcap__interm__rate(); -GSM48__bcap__interm__rate(int other_value); -GSM48__bcap__interm__rate(enum_type other_value); -GSM48__bcap__interm__rate(const GSM48__bcap__interm__rate& other_value); - -GSM48__bcap__interm__rate& operator=(int other_value); -GSM48__bcap__interm__rate& operator=(enum_type other_value); -GSM48__bcap__interm__rate& operator=(const GSM48__bcap__interm__rate& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__bcap__interm__rate& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__bcap__interm__rate& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__bcap__interm__rate& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__bcap__interm__rate& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__bcap__interm__rate& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__bcap__interm__rate& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__bcap__interm__rate& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__bcap__interm__rate_template : public Base_Template { -union { -GSM48__bcap__interm__rate::enum_type single_value; -struct { -unsigned int n_values; -GSM48__bcap__interm__rate_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__bcap__interm__rate_template& other_value); - -public: -GSM48__bcap__interm__rate_template(); -GSM48__bcap__interm__rate_template(template_sel other_value); -GSM48__bcap__interm__rate_template(int other_value); -GSM48__bcap__interm__rate_template(GSM48__bcap__interm__rate::enum_type other_value); -GSM48__bcap__interm__rate_template(const GSM48__bcap__interm__rate& other_value); -GSM48__bcap__interm__rate_template(const OPTIONAL& other_value); -GSM48__bcap__interm__rate_template(const GSM48__bcap__interm__rate_template& other_value); -~GSM48__bcap__interm__rate_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__bcap__interm__rate_template& operator=(template_sel other_value); -GSM48__bcap__interm__rate_template& operator=(int other_value); -GSM48__bcap__interm__rate_template& operator=(GSM48__bcap__interm__rate::enum_type other_value); -GSM48__bcap__interm__rate_template& operator=(const GSM48__bcap__interm__rate& other_value); -GSM48__bcap__interm__rate_template& operator=(const OPTIONAL& other_value); -GSM48__bcap__interm__rate_template& operator=(const GSM48__bcap__interm__rate_template& other_value); - -boolean match(GSM48__bcap__interm__rate::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__bcap__interm__rate& other_value, boolean legacy = FALSE) const; -GSM48__bcap__interm__rate::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__bcap__interm__rate_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__bcap__interm__rate& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class GSM48__bcap__transp : public Base_Type { // enum -friend class GSM48__bcap__transp_template; -public: -enum enum_type { GSM48__BCAP__TR__TRANSP = 0, GSM48__BCAP__TR__RLP = 1, GSM48__BCAP__TR__TR__PREF = 2, GSM48__BCAP__TR__RLP__PREF = 3, UNKNOWN_VALUE = 4, UNBOUND_VALUE = 5 }; -private: -enum_type enum_value; - -public: -GSM48__bcap__transp(); -GSM48__bcap__transp(int other_value); -GSM48__bcap__transp(enum_type other_value); -GSM48__bcap__transp(const GSM48__bcap__transp& other_value); - -GSM48__bcap__transp& operator=(int other_value); -GSM48__bcap__transp& operator=(enum_type other_value); -GSM48__bcap__transp& operator=(const GSM48__bcap__transp& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__bcap__transp& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__bcap__transp& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__bcap__transp& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__bcap__transp& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__bcap__transp& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__bcap__transp& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__bcap__transp& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__bcap__transp_template : public Base_Template { -union { -GSM48__bcap__transp::enum_type single_value; -struct { -unsigned int n_values; -GSM48__bcap__transp_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__bcap__transp_template& other_value); - -public: -GSM48__bcap__transp_template(); -GSM48__bcap__transp_template(template_sel other_value); -GSM48__bcap__transp_template(int other_value); -GSM48__bcap__transp_template(GSM48__bcap__transp::enum_type other_value); -GSM48__bcap__transp_template(const GSM48__bcap__transp& other_value); -GSM48__bcap__transp_template(const OPTIONAL& other_value); -GSM48__bcap__transp_template(const GSM48__bcap__transp_template& other_value); -~GSM48__bcap__transp_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__bcap__transp_template& operator=(template_sel other_value); -GSM48__bcap__transp_template& operator=(int other_value); -GSM48__bcap__transp_template& operator=(GSM48__bcap__transp::enum_type other_value); -GSM48__bcap__transp_template& operator=(const GSM48__bcap__transp& other_value); -GSM48__bcap__transp_template& operator=(const OPTIONAL& other_value); -GSM48__bcap__transp_template& operator=(const GSM48__bcap__transp_template& other_value); - -boolean match(GSM48__bcap__transp::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__bcap__transp& other_value, boolean legacy = FALSE) const; -GSM48__bcap__transp::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__bcap__transp_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__bcap__transp& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class GSM48__bcap__modem__type : public Base_Type { // enum -friend class GSM48__bcap__modem__type_template; -public: -enum enum_type { GSM48__BCAP__MT__NONE = 0, GSM48__BCAP__MT__V21 = 1, GSM48__BCAP__MT__V22 = 2, GSM48__BCAP__MT__V22bis = 3, GSM48__BCAP__MT__V23 = 4, GSM48__BCAP__MT__V26ter = 5, GSM48__BCAP__MT__V32 = 6, GSM48__BCAP__MT__UNDEF = 7, GSM48__BCAP__MT__AUTO__1 = 8, UNKNOWN_VALUE = 9, UNBOUND_VALUE = 10 }; -private: -enum_type enum_value; - -public: -GSM48__bcap__modem__type(); -GSM48__bcap__modem__type(int other_value); -GSM48__bcap__modem__type(enum_type other_value); -GSM48__bcap__modem__type(const GSM48__bcap__modem__type& other_value); - -GSM48__bcap__modem__type& operator=(int other_value); -GSM48__bcap__modem__type& operator=(enum_type other_value); -GSM48__bcap__modem__type& operator=(const GSM48__bcap__modem__type& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__bcap__modem__type& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__bcap__modem__type& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__bcap__modem__type& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__bcap__modem__type& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__bcap__modem__type& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__bcap__modem__type& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__bcap__modem__type& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__bcap__modem__type_template : public Base_Template { -union { -GSM48__bcap__modem__type::enum_type single_value; -struct { -unsigned int n_values; -GSM48__bcap__modem__type_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__bcap__modem__type_template& other_value); - -public: -GSM48__bcap__modem__type_template(); -GSM48__bcap__modem__type_template(template_sel other_value); -GSM48__bcap__modem__type_template(int other_value); -GSM48__bcap__modem__type_template(GSM48__bcap__modem__type::enum_type other_value); -GSM48__bcap__modem__type_template(const GSM48__bcap__modem__type& other_value); -GSM48__bcap__modem__type_template(const OPTIONAL& other_value); -GSM48__bcap__modem__type_template(const GSM48__bcap__modem__type_template& other_value); -~GSM48__bcap__modem__type_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__bcap__modem__type_template& operator=(template_sel other_value); -GSM48__bcap__modem__type_template& operator=(int other_value); -GSM48__bcap__modem__type_template& operator=(GSM48__bcap__modem__type::enum_type other_value); -GSM48__bcap__modem__type_template& operator=(const GSM48__bcap__modem__type& other_value); -GSM48__bcap__modem__type_template& operator=(const OPTIONAL& other_value); -GSM48__bcap__modem__type_template& operator=(const GSM48__bcap__modem__type_template& other_value); - -boolean match(GSM48__bcap__modem__type::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__bcap__modem__type& other_value, boolean legacy = FALSE) const; -GSM48__bcap__modem__type::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__bcap__modem__type_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__bcap__modem__type& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class MNCC__MsgType : public Base_Type { // enum -friend class MNCC__MsgType_template; -public: -enum enum_type { MNCC__SETUP__REQ = 257, MNCC__SETUP__IND = 258, MNCC__SETUP__RSP = 259, MNCC__SETUP__CNF = 260, MNCC__SETUP__COMPL__REQ = 261, MNCC__SETUP__COMPL__IND = 262, MNCC__CALL__CONF__IND = 263, MNCC__CALL__PROC__REQ = 264, MNCC__PROGRESS__REQ = 265, MNCC__ALERT__REQ = 266, MNCC__ALERT__IND = 267, MNCC__NOTIFY__REQ = 268, MNCC__NOTIFY__IND = 269, MNCC__DISC__REQ = 270, MNCC__DISC__IND = 271, MNCC__REL__REQ = 272, MNCC__REL__IND = 273, MNCC__REL__CNF = 274, MNCC__FACILITY__REQ = 275, MNCC__FACILITY__IND = 276, MNCC__START__DTMF__IND = 277, MNCC__START__DTMF__RSP = 278, MNCC__START__DTMF__REJ = 279, MNCC__STOP__DTMF__IND = 280, MNCC__STOP__DTMF__RSP = 281, MNCC__MODIFY__REQ = 282, MNCC__MODIFY__IND = 283, MNCC__MODIFY__RSP = 284, MNCC__MODIFY__CNF = 285, MNCC__MODIFY__REJ = 286, MNCC__HOLD__IND = 287, MNCC__HOLD__CNF = 288, MNCC__HOLD__REJ = 289, MNCC__RETRIEVE__IND = 290, MNCC__RETRIEVE__CNF = 291, MNCC__RETRIEVE__REJ = 292, MNCC__USERINFO__REQ = 293, MNCC__USERINFO__IND = 294, MNCC__REJ__REQ = 295, MNCC__REJ__IND = 296, MNCC__PROGRESS__IND = 297, MNCC__CALL__PROC__IND = 298, MNCC__CALL__CONF__REQ = 299, MNCC__START__DTMF__REQ = 300, MNCC__STOP__DTMF__REQ = 301, MNCC__HOLD__REQ = 302, MNCC__RETRIEVE__REQ = 303, MNCC__BRIDGE = 512, MNCC__FRAME__RECV = 513, MNCC__FRAME__DROP = 514, MNCC__LCHAN__MODIFY = 515, MNCC__RTP__CREATE = 516, MNCC__RTP__CONNECT = 517, MNCC__RTP__FREE = 518, GSM__TCHF__FRAME = 768, GSM__TCHF__FRAME__EFR = 769, GSM__TCHH__FRAME = 770, GSM__TCH__FRAME__AMR = 771, GSM__BAD__FRAME = 1023, MNCC__SOCKET__HELLO = 1024, UNKNOWN_VALUE = 0, UNBOUND_VALUE = 1 }; -private: -enum_type enum_value; - -public: -MNCC__MsgType(); -MNCC__MsgType(int other_value); -MNCC__MsgType(enum_type other_value); -MNCC__MsgType(const MNCC__MsgType& other_value); - -MNCC__MsgType& operator=(int other_value); -MNCC__MsgType& operator=(enum_type other_value); -MNCC__MsgType& operator=(const MNCC__MsgType& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const MNCC__MsgType& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const MNCC__MsgType& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const MNCC__MsgType& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const MNCC__MsgType& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const MNCC__MsgType& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const MNCC__MsgType& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const MNCC__MsgType& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__MsgType_template : public Base_Template { -union { -MNCC__MsgType::enum_type single_value; -struct { -unsigned int n_values; -MNCC__MsgType_template *list_value; -} value_list; -}; - -void copy_template(const MNCC__MsgType_template& other_value); - -public: -MNCC__MsgType_template(); -MNCC__MsgType_template(template_sel other_value); -MNCC__MsgType_template(int other_value); -MNCC__MsgType_template(MNCC__MsgType::enum_type other_value); -MNCC__MsgType_template(const MNCC__MsgType& other_value); -MNCC__MsgType_template(const OPTIONAL& other_value); -MNCC__MsgType_template(const MNCC__MsgType_template& other_value); -~MNCC__MsgType_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__MsgType_template& operator=(template_sel other_value); -MNCC__MsgType_template& operator=(int other_value); -MNCC__MsgType_template& operator=(MNCC__MsgType::enum_type other_value); -MNCC__MsgType_template& operator=(const MNCC__MsgType& other_value); -MNCC__MsgType_template& operator=(const OPTIONAL& other_value); -MNCC__MsgType_template& operator=(const MNCC__MsgType_template& other_value); - -boolean match(MNCC__MsgType::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const MNCC__MsgType& other_value, boolean legacy = FALSE) const; -MNCC__MsgType::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__MsgType_template& list_item(unsigned int list_index); -void log() const; -void log_match(const MNCC__MsgType& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class MNCC__bearer__cap__data : public Base_Type { - GSM48__bcap__ra field_rate__adaptation; - GSM48__bcap__sig__access field_sig__access; - INTEGER field_async; - INTEGER field_nr__stop__bits; - INTEGER field_nr__data__bits; - GSM48__bcap__user__rate field_user__rate; - GSM48__bcap__parity field_parity; - GSM48__bcap__interm__rate field_interm__rate; - GSM48__bcap__transp field_transp; - GSM48__bcap__modem__type field_modem__type; -public: - MNCC__bearer__cap__data(); - MNCC__bearer__cap__data(const GSM48__bcap__ra& par_rate__adaptation, - const GSM48__bcap__sig__access& par_sig__access, - const INTEGER& par_async, - const INTEGER& par_nr__stop__bits, - const INTEGER& par_nr__data__bits, - const GSM48__bcap__user__rate& par_user__rate, - const GSM48__bcap__parity& par_parity, - const GSM48__bcap__interm__rate& par_interm__rate, - const GSM48__bcap__transp& par_transp, - const GSM48__bcap__modem__type& par_modem__type); - MNCC__bearer__cap__data(const MNCC__bearer__cap__data& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__bearer__cap__data& operator=(const MNCC__bearer__cap__data& other_value); - boolean operator==(const MNCC__bearer__cap__data& other_value) const; - inline boolean operator!=(const MNCC__bearer__cap__data& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline GSM48__bcap__ra& rate__adaptation() - {return field_rate__adaptation;} - inline const GSM48__bcap__ra& rate__adaptation() const - {return field_rate__adaptation;} - inline GSM48__bcap__sig__access& sig__access() - {return field_sig__access;} - inline const GSM48__bcap__sig__access& sig__access() const - {return field_sig__access;} - inline INTEGER& async() - {return field_async;} - inline const INTEGER& async() const - {return field_async;} - inline INTEGER& nr__stop__bits() - {return field_nr__stop__bits;} - inline const INTEGER& nr__stop__bits() const - {return field_nr__stop__bits;} - inline INTEGER& nr__data__bits() - {return field_nr__data__bits;} - inline const INTEGER& nr__data__bits() const - {return field_nr__data__bits;} - inline GSM48__bcap__user__rate& user__rate() - {return field_user__rate;} - inline const GSM48__bcap__user__rate& user__rate() const - {return field_user__rate;} - inline GSM48__bcap__parity& parity() - {return field_parity;} - inline const GSM48__bcap__parity& parity() const - {return field_parity;} - inline GSM48__bcap__interm__rate& interm__rate() - {return field_interm__rate;} - inline const GSM48__bcap__interm__rate& interm__rate() const - {return field_interm__rate;} - inline GSM48__bcap__transp& transp() - {return field_transp;} - inline const GSM48__bcap__transp& transp() const - {return field_transp;} - inline GSM48__bcap__modem__type& modem__type() - {return field_modem__type;} - inline const GSM48__bcap__modem__type& modem__type() const - {return field_modem__type;} - inline int size_of() const - {return 10;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__bearer__cap__data_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__bearer__cap__data_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__bearer__cap__data& other_value); -void copy_template(const MNCC__bearer__cap__data_template& other_value); - -public: -MNCC__bearer__cap__data_template(); -MNCC__bearer__cap__data_template(template_sel other_value); -MNCC__bearer__cap__data_template(const MNCC__bearer__cap__data& other_value); -MNCC__bearer__cap__data_template(const OPTIONAL& other_value); -MNCC__bearer__cap__data_template(const MNCC__bearer__cap__data_template& other_value); -~MNCC__bearer__cap__data_template(); -MNCC__bearer__cap__data_template& operator=(template_sel other_value); -MNCC__bearer__cap__data_template& operator=(const MNCC__bearer__cap__data& other_value); -MNCC__bearer__cap__data_template& operator=(const OPTIONAL& other_value); -MNCC__bearer__cap__data_template& operator=(const MNCC__bearer__cap__data_template& other_value); -boolean match(const MNCC__bearer__cap__data& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__bearer__cap__data valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__bearer__cap__data_template& list_item(unsigned int list_index) const; -GSM48__bcap__ra_template& rate__adaptation(); -const GSM48__bcap__ra_template& rate__adaptation() const; -GSM48__bcap__sig__access_template& sig__access(); -const GSM48__bcap__sig__access_template& sig__access() const; -INTEGER_template& async(); -const INTEGER_template& async() const; -INTEGER_template& nr__stop__bits(); -const INTEGER_template& nr__stop__bits() const; -INTEGER_template& nr__data__bits(); -const INTEGER_template& nr__data__bits() const; -GSM48__bcap__user__rate_template& user__rate(); -const GSM48__bcap__user__rate_template& user__rate() const; -GSM48__bcap__parity_template& parity(); -const GSM48__bcap__parity_template& parity() const; -GSM48__bcap__interm__rate_template& interm__rate(); -const GSM48__bcap__interm__rate_template& interm__rate() const; -GSM48__bcap__transp_template& transp(); -const GSM48__bcap__transp_template& transp() const; -GSM48__bcap__modem__type_template& modem__type(); -const GSM48__bcap__modem__type_template& modem__type() const; -int size_of() const; -void log() const; -void log_match(const MNCC__bearer__cap__data& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class MNCC__bearer__cap : public Base_Type { - INTEGER field_transfer; - INTEGER field_mode; - INTEGER field_coding; - INTEGER field_radio; - INTEGER field_speech__ctm; - MNCC__speech__vers field_speech__ver; - OPTIONAL field_data; -public: - MNCC__bearer__cap(); - MNCC__bearer__cap(const INTEGER& par_transfer, - const INTEGER& par_mode, - const INTEGER& par_coding, - const INTEGER& par_radio, - const INTEGER& par_speech__ctm, - const MNCC__speech__vers& par_speech__ver, - const OPTIONAL& par_data); - MNCC__bearer__cap(const MNCC__bearer__cap& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__bearer__cap& operator=(const MNCC__bearer__cap& other_value); - boolean operator==(const MNCC__bearer__cap& other_value) const; - inline boolean operator!=(const MNCC__bearer__cap& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& transfer() - {return field_transfer;} - inline const INTEGER& transfer() const - {return field_transfer;} - inline INTEGER& mode() - {return field_mode;} - inline const INTEGER& mode() const - {return field_mode;} - inline INTEGER& coding() - {return field_coding;} - inline const INTEGER& coding() const - {return field_coding;} - inline INTEGER& radio() - {return field_radio;} - inline const INTEGER& radio() const - {return field_radio;} - inline INTEGER& speech__ctm() - {return field_speech__ctm;} - inline const INTEGER& speech__ctm() const - {return field_speech__ctm;} - inline MNCC__speech__vers& speech__ver() - {return field_speech__ver;} - inline const MNCC__speech__vers& speech__ver() const - {return field_speech__ver;} - inline OPTIONAL& data() - {return field_data;} - inline const OPTIONAL& data() const - {return field_data;} - int size_of() const; - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__bearer__cap_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__bearer__cap_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__bearer__cap& other_value); -void copy_template(const MNCC__bearer__cap_template& other_value); - -public: -MNCC__bearer__cap_template(); -MNCC__bearer__cap_template(template_sel other_value); -MNCC__bearer__cap_template(const MNCC__bearer__cap& other_value); -MNCC__bearer__cap_template(const OPTIONAL& other_value); -MNCC__bearer__cap_template(const MNCC__bearer__cap_template& other_value); -~MNCC__bearer__cap_template(); -MNCC__bearer__cap_template& operator=(template_sel other_value); -MNCC__bearer__cap_template& operator=(const MNCC__bearer__cap& other_value); -MNCC__bearer__cap_template& operator=(const OPTIONAL& other_value); -MNCC__bearer__cap_template& operator=(const MNCC__bearer__cap_template& other_value); -boolean match(const MNCC__bearer__cap& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__bearer__cap valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__bearer__cap_template& list_item(unsigned int list_index) const; -INTEGER_template& transfer(); -const INTEGER_template& transfer() const; -INTEGER_template& mode(); -const INTEGER_template& mode() const; -INTEGER_template& coding(); -const INTEGER_template& coding() const; -INTEGER_template& radio(); -const INTEGER_template& radio() const; -INTEGER_template& speech__ctm(); -const INTEGER_template& speech__ctm() const; -MNCC__speech__vers_template& speech__ver(); -const MNCC__speech__vers_template& speech__ver() const; -MNCC__bearer__cap__data_template& data(); -const MNCC__bearer__cap__data_template& data() const; -int size_of() const; -void log() const; -void log_match(const MNCC__bearer__cap& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class GSM48__type__of__number : public Base_Type { // enum -friend class GSM48__type__of__number_template; -public: -enum enum_type { GSM48__TON__UNKNOWN = 0, GSM48__TON__INTERNATIONAL = 1, GSM48__TON__NATIONAL = 2, GSM48__TON__NETWORK__SPECIFIC = 3, GSM48__TON__SHORT__CODE = 4, UNKNOWN_VALUE = 5, UNBOUND_VALUE = 6 }; -private: -enum_type enum_value; - -public: -GSM48__type__of__number(); -GSM48__type__of__number(int other_value); -GSM48__type__of__number(enum_type other_value); -GSM48__type__of__number(const GSM48__type__of__number& other_value); - -GSM48__type__of__number& operator=(int other_value); -GSM48__type__of__number& operator=(enum_type other_value); -GSM48__type__of__number& operator=(const GSM48__type__of__number& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__type__of__number& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__type__of__number& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__type__of__number& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__type__of__number& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__type__of__number& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__type__of__number& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__type__of__number& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__type__of__number_template : public Base_Template { -union { -GSM48__type__of__number::enum_type single_value; -struct { -unsigned int n_values; -GSM48__type__of__number_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__type__of__number_template& other_value); - -public: -GSM48__type__of__number_template(); -GSM48__type__of__number_template(template_sel other_value); -GSM48__type__of__number_template(int other_value); -GSM48__type__of__number_template(GSM48__type__of__number::enum_type other_value); -GSM48__type__of__number_template(const GSM48__type__of__number& other_value); -GSM48__type__of__number_template(const OPTIONAL& other_value); -GSM48__type__of__number_template(const GSM48__type__of__number_template& other_value); -~GSM48__type__of__number_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__type__of__number_template& operator=(template_sel other_value); -GSM48__type__of__number_template& operator=(int other_value); -GSM48__type__of__number_template& operator=(GSM48__type__of__number::enum_type other_value); -GSM48__type__of__number_template& operator=(const GSM48__type__of__number& other_value); -GSM48__type__of__number_template& operator=(const OPTIONAL& other_value); -GSM48__type__of__number_template& operator=(const GSM48__type__of__number_template& other_value); - -boolean match(GSM48__type__of__number::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__type__of__number& other_value, boolean legacy = FALSE) const; -GSM48__type__of__number::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__type__of__number_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__type__of__number& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class GSM48__num__plan__ind : public Base_Type { // enum -friend class GSM48__num__plan__ind_template; -public: -enum enum_type { GSM48__NUMPLAN__UNKNOWN = 0, GSM48__NUMPLAN__E164 = 1, GSM48__NUMPLAN__X121 = 3, GSM48__NUMPLAN__F69 = 4, GSM48__NUMPLAN__NATIONAL = 8, GSM48__NUMPLAN__PRIVATE = 9, GSM48__NUMPLAN__CTS = 11, GSM48__NUMPLAN__RESERVED = 15, UNKNOWN_VALUE = 2, UNBOUND_VALUE = 5 }; -private: -enum_type enum_value; - -public: -GSM48__num__plan__ind(); -GSM48__num__plan__ind(int other_value); -GSM48__num__plan__ind(enum_type other_value); -GSM48__num__plan__ind(const GSM48__num__plan__ind& other_value); - -GSM48__num__plan__ind& operator=(int other_value); -GSM48__num__plan__ind& operator=(enum_type other_value); -GSM48__num__plan__ind& operator=(const GSM48__num__plan__ind& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__num__plan__ind& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__num__plan__ind& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__num__plan__ind& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__num__plan__ind& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__num__plan__ind& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__num__plan__ind& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__num__plan__ind& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__num__plan__ind_template : public Base_Template { -union { -GSM48__num__plan__ind::enum_type single_value; -struct { -unsigned int n_values; -GSM48__num__plan__ind_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__num__plan__ind_template& other_value); - -public: -GSM48__num__plan__ind_template(); -GSM48__num__plan__ind_template(template_sel other_value); -GSM48__num__plan__ind_template(int other_value); -GSM48__num__plan__ind_template(GSM48__num__plan__ind::enum_type other_value); -GSM48__num__plan__ind_template(const GSM48__num__plan__ind& other_value); -GSM48__num__plan__ind_template(const OPTIONAL& other_value); -GSM48__num__plan__ind_template(const GSM48__num__plan__ind_template& other_value); -~GSM48__num__plan__ind_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__num__plan__ind_template& operator=(template_sel other_value); -GSM48__num__plan__ind_template& operator=(int other_value); -GSM48__num__plan__ind_template& operator=(GSM48__num__plan__ind::enum_type other_value); -GSM48__num__plan__ind_template& operator=(const GSM48__num__plan__ind& other_value); -GSM48__num__plan__ind_template& operator=(const OPTIONAL& other_value); -GSM48__num__plan__ind_template& operator=(const GSM48__num__plan__ind_template& other_value); - -boolean match(GSM48__num__plan__ind::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__num__plan__ind& other_value, boolean legacy = FALSE) const; -GSM48__num__plan__ind::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__num__plan__ind_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__num__plan__ind& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class GSM48__present__ind : public Base_Type { // enum -friend class GSM48__present__ind_template; -public: -enum enum_type { GSM48__PRES__IND__ALLOWED = 0, GSM48__PRES__IND__RESTRICTED = 1, GSM48__PRES__IND__NUM__NOT__AVAIL = 2, GSM48__PRES__IND__RESERVED = 3, UNKNOWN_VALUE = 4, UNBOUND_VALUE = 5 }; -private: -enum_type enum_value; - -public: -GSM48__present__ind(); -GSM48__present__ind(int other_value); -GSM48__present__ind(enum_type other_value); -GSM48__present__ind(const GSM48__present__ind& other_value); - -GSM48__present__ind& operator=(int other_value); -GSM48__present__ind& operator=(enum_type other_value); -GSM48__present__ind& operator=(const GSM48__present__ind& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__present__ind& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__present__ind& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__present__ind& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__present__ind& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__present__ind& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__present__ind& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__present__ind& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__present__ind_template : public Base_Template { -union { -GSM48__present__ind::enum_type single_value; -struct { -unsigned int n_values; -GSM48__present__ind_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__present__ind_template& other_value); - -public: -GSM48__present__ind_template(); -GSM48__present__ind_template(template_sel other_value); -GSM48__present__ind_template(int other_value); -GSM48__present__ind_template(GSM48__present__ind::enum_type other_value); -GSM48__present__ind_template(const GSM48__present__ind& other_value); -GSM48__present__ind_template(const OPTIONAL& other_value); -GSM48__present__ind_template(const GSM48__present__ind_template& other_value); -~GSM48__present__ind_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__present__ind_template& operator=(template_sel other_value); -GSM48__present__ind_template& operator=(int other_value); -GSM48__present__ind_template& operator=(GSM48__present__ind::enum_type other_value); -GSM48__present__ind_template& operator=(const GSM48__present__ind& other_value); -GSM48__present__ind_template& operator=(const OPTIONAL& other_value); -GSM48__present__ind_template& operator=(const GSM48__present__ind_template& other_value); - -boolean match(GSM48__present__ind::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__present__ind& other_value, boolean legacy = FALSE) const; -GSM48__present__ind::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__present__ind_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__present__ind& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class GSM48__screening__ind : public Base_Type { // enum -friend class GSM48__screening__ind_template; -public: -enum enum_type { GSM48__SCR__IND__NOT__SCREENED = 0, GSM48__SCR__IND__VERIF__PASSED = 1, GSM48__SCR__IND__VERIF__FAILED = 2, GSM48__SCR__IND__NETW__PROVIDED = 3, UNKNOWN_VALUE = 4, UNBOUND_VALUE = 5 }; -private: -enum_type enum_value; - -public: -GSM48__screening__ind(); -GSM48__screening__ind(int other_value); -GSM48__screening__ind(enum_type other_value); -GSM48__screening__ind(const GSM48__screening__ind& other_value); - -GSM48__screening__ind& operator=(int other_value); -GSM48__screening__ind& operator=(enum_type other_value); -GSM48__screening__ind& operator=(const GSM48__screening__ind& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__screening__ind& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__screening__ind& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__screening__ind& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__screening__ind& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__screening__ind& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__screening__ind& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__screening__ind& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__screening__ind_template : public Base_Template { -union { -GSM48__screening__ind::enum_type single_value; -struct { -unsigned int n_values; -GSM48__screening__ind_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__screening__ind_template& other_value); - -public: -GSM48__screening__ind_template(); -GSM48__screening__ind_template(template_sel other_value); -GSM48__screening__ind_template(int other_value); -GSM48__screening__ind_template(GSM48__screening__ind::enum_type other_value); -GSM48__screening__ind_template(const GSM48__screening__ind& other_value); -GSM48__screening__ind_template(const OPTIONAL& other_value); -GSM48__screening__ind_template(const GSM48__screening__ind_template& other_value); -~GSM48__screening__ind_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__screening__ind_template& operator=(template_sel other_value); -GSM48__screening__ind_template& operator=(int other_value); -GSM48__screening__ind_template& operator=(GSM48__screening__ind::enum_type other_value); -GSM48__screening__ind_template& operator=(const GSM48__screening__ind& other_value); -GSM48__screening__ind_template& operator=(const OPTIONAL& other_value); -GSM48__screening__ind_template& operator=(const GSM48__screening__ind_template& other_value); - -boolean match(GSM48__screening__ind::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__screening__ind& other_value, boolean legacy = FALSE) const; -GSM48__screening__ind::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__screening__ind_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__screening__ind& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class MNCC__number : public Base_Type { - GSM48__type__of__number field_number__type; - GSM48__num__plan__ind field_plan; - GSM48__present__ind field_presence; - GSM48__screening__ind field_screen; - CHARSTRING field_number; -public: - MNCC__number(); - MNCC__number(const GSM48__type__of__number& par_number__type, - const GSM48__num__plan__ind& par_plan, - const GSM48__present__ind& par_presence, - const GSM48__screening__ind& par_screen, - const CHARSTRING& par_number); - MNCC__number(const MNCC__number& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__number& operator=(const MNCC__number& other_value); - boolean operator==(const MNCC__number& other_value) const; - inline boolean operator!=(const MNCC__number& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline GSM48__type__of__number& number__type() - {return field_number__type;} - inline const GSM48__type__of__number& number__type() const - {return field_number__type;} - inline GSM48__num__plan__ind& plan() - {return field_plan;} - inline const GSM48__num__plan__ind& plan() const - {return field_plan;} - inline GSM48__present__ind& presence() - {return field_presence;} - inline const GSM48__present__ind& presence() const - {return field_presence;} - inline GSM48__screening__ind& screen() - {return field_screen;} - inline const GSM48__screening__ind& screen() const - {return field_screen;} - inline CHARSTRING& number() - {return field_number;} - inline const CHARSTRING& number() const - {return field_number;} - inline int size_of() const - {return 5;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__number_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__number_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__number& other_value); -void copy_template(const MNCC__number_template& other_value); - -public: -MNCC__number_template(); -MNCC__number_template(template_sel other_value); -MNCC__number_template(const MNCC__number& other_value); -MNCC__number_template(const OPTIONAL& other_value); -MNCC__number_template(const MNCC__number_template& other_value); -~MNCC__number_template(); -MNCC__number_template& operator=(template_sel other_value); -MNCC__number_template& operator=(const MNCC__number& other_value); -MNCC__number_template& operator=(const OPTIONAL& other_value); -MNCC__number_template& operator=(const MNCC__number_template& other_value); -boolean match(const MNCC__number& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__number valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__number_template& list_item(unsigned int list_index) const; -GSM48__type__of__number_template& number__type(); -const GSM48__type__of__number_template& number__type() const; -GSM48__num__plan__ind_template& plan(); -const GSM48__num__plan__ind_template& plan() const; -GSM48__present__ind_template& presence(); -const GSM48__present__ind_template& presence() const; -GSM48__screening__ind_template& screen(); -const GSM48__screening__ind_template& screen() const; -CHARSTRING_template& number(); -const CHARSTRING_template& number() const; -int size_of() const; -void log() const; -void log_match(const MNCC__number& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class GSM48__cause__coding : public Base_Type { // enum -friend class GSM48__cause__coding_template; -public: -enum enum_type { GSM48__CAUSE__CS__Q931 = 0, GSM48__CAUSE__CS__RSVD = 1, GSM48__CAUSE__CS__NATIONAL = 2, GSM48__CAUSE__CS__GSM = 3, UNKNOWN_VALUE = 4, UNBOUND_VALUE = 5 }; -private: -enum_type enum_value; - -public: -GSM48__cause__coding(); -GSM48__cause__coding(int other_value); -GSM48__cause__coding(enum_type other_value); -GSM48__cause__coding(const GSM48__cause__coding& other_value); - -GSM48__cause__coding& operator=(int other_value); -GSM48__cause__coding& operator=(enum_type other_value); -GSM48__cause__coding& operator=(const GSM48__cause__coding& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__cause__coding& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__cause__coding& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__cause__coding& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__cause__coding& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__cause__coding& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__cause__coding& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__cause__coding& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__cause__coding_template : public Base_Template { -union { -GSM48__cause__coding::enum_type single_value; -struct { -unsigned int n_values; -GSM48__cause__coding_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__cause__coding_template& other_value); - -public: -GSM48__cause__coding_template(); -GSM48__cause__coding_template(template_sel other_value); -GSM48__cause__coding_template(int other_value); -GSM48__cause__coding_template(GSM48__cause__coding::enum_type other_value); -GSM48__cause__coding_template(const GSM48__cause__coding& other_value); -GSM48__cause__coding_template(const OPTIONAL& other_value); -GSM48__cause__coding_template(const GSM48__cause__coding_template& other_value); -~GSM48__cause__coding_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__cause__coding_template& operator=(template_sel other_value); -GSM48__cause__coding_template& operator=(int other_value); -GSM48__cause__coding_template& operator=(GSM48__cause__coding::enum_type other_value); -GSM48__cause__coding_template& operator=(const GSM48__cause__coding& other_value); -GSM48__cause__coding_template& operator=(const OPTIONAL& other_value); -GSM48__cause__coding_template& operator=(const GSM48__cause__coding_template& other_value); - -boolean match(GSM48__cause__coding::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__cause__coding& other_value, boolean legacy = FALSE) const; -GSM48__cause__coding::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__cause__coding_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__cause__coding& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class GSM48__cause__loc : public Base_Type { // enum -friend class GSM48__cause__loc_template; -public: -enum enum_type { GSM48__CAUSE__LOC__USER = 0, GSM48__CAUSE__LOC__PRN__S__LU = 1, GSM48__CAUSE__LOC__PUN__S__LU = 2, GSM48__CAUSE__LOC__TRANS__NET = 3, GSM48__CAUSE__LOC__PUN__S__RU = 4, GSM48__CAUSE__LOC__PRN__S__RU = 5, GSM48__CAUSE__LOC__INN__NET = 7, GSM48__CAUSE__LOC__NET__BEYOND = 10, UNKNOWN_VALUE = 6, UNBOUND_VALUE = 8 }; -private: -enum_type enum_value; - -public: -GSM48__cause__loc(); -GSM48__cause__loc(int other_value); -GSM48__cause__loc(enum_type other_value); -GSM48__cause__loc(const GSM48__cause__loc& other_value); - -GSM48__cause__loc& operator=(int other_value); -GSM48__cause__loc& operator=(enum_type other_value); -GSM48__cause__loc& operator=(const GSM48__cause__loc& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const GSM48__cause__loc& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const GSM48__cause__loc& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const GSM48__cause__loc& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const GSM48__cause__loc& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const GSM48__cause__loc& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const GSM48__cause__loc& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const GSM48__cause__loc& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class GSM48__cause__loc_template : public Base_Template { -union { -GSM48__cause__loc::enum_type single_value; -struct { -unsigned int n_values; -GSM48__cause__loc_template *list_value; -} value_list; -}; - -void copy_template(const GSM48__cause__loc_template& other_value); - -public: -GSM48__cause__loc_template(); -GSM48__cause__loc_template(template_sel other_value); -GSM48__cause__loc_template(int other_value); -GSM48__cause__loc_template(GSM48__cause__loc::enum_type other_value); -GSM48__cause__loc_template(const GSM48__cause__loc& other_value); -GSM48__cause__loc_template(const OPTIONAL& other_value); -GSM48__cause__loc_template(const GSM48__cause__loc_template& other_value); -~GSM48__cause__loc_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -GSM48__cause__loc_template& operator=(template_sel other_value); -GSM48__cause__loc_template& operator=(int other_value); -GSM48__cause__loc_template& operator=(GSM48__cause__loc::enum_type other_value); -GSM48__cause__loc_template& operator=(const GSM48__cause__loc& other_value); -GSM48__cause__loc_template& operator=(const OPTIONAL& other_value); -GSM48__cause__loc_template& operator=(const GSM48__cause__loc_template& other_value); - -boolean match(GSM48__cause__loc::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const GSM48__cause__loc& other_value, boolean legacy = FALSE) const; -GSM48__cause__loc::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -GSM48__cause__loc_template& list_item(unsigned int list_index); -void log() const; -void log_match(const GSM48__cause__loc& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class MNCC__cause : public Base_Type { - GSM48__cause__loc field_location; - GSM48__cause__coding field_coding; - INTEGER field_rec; - INTEGER field_rec__val; - INTEGER field_val; - OCTETSTRING field_diag; -public: - MNCC__cause(); - MNCC__cause(const GSM48__cause__loc& par_location, - const GSM48__cause__coding& par_coding, - const INTEGER& par_rec, - const INTEGER& par_rec__val, - const INTEGER& par_val, - const OCTETSTRING& par_diag); - MNCC__cause(const MNCC__cause& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__cause& operator=(const MNCC__cause& other_value); - boolean operator==(const MNCC__cause& other_value) const; - inline boolean operator!=(const MNCC__cause& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline GSM48__cause__loc& location() - {return field_location;} - inline const GSM48__cause__loc& location() const - {return field_location;} - inline GSM48__cause__coding& coding() - {return field_coding;} - inline const GSM48__cause__coding& coding() const - {return field_coding;} - inline INTEGER& rec() - {return field_rec;} - inline const INTEGER& rec() const - {return field_rec;} - inline INTEGER& rec__val() - {return field_rec__val;} - inline const INTEGER& rec__val() const - {return field_rec__val;} - inline INTEGER& val() - {return field_val;} - inline const INTEGER& val() const - {return field_val;} - inline OCTETSTRING& diag() - {return field_diag;} - inline const OCTETSTRING& diag() const - {return field_diag;} - inline int size_of() const - {return 6;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__cause_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__cause_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__cause& other_value); -void copy_template(const MNCC__cause_template& other_value); - -public: -MNCC__cause_template(); -MNCC__cause_template(template_sel other_value); -MNCC__cause_template(const MNCC__cause& other_value); -MNCC__cause_template(const OPTIONAL& other_value); -MNCC__cause_template(const MNCC__cause_template& other_value); -~MNCC__cause_template(); -MNCC__cause_template& operator=(template_sel other_value); -MNCC__cause_template& operator=(const MNCC__cause& other_value); -MNCC__cause_template& operator=(const OPTIONAL& other_value); -MNCC__cause_template& operator=(const MNCC__cause_template& other_value); -boolean match(const MNCC__cause& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__cause valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__cause_template& list_item(unsigned int list_index) const; -GSM48__cause__loc_template& location(); -const GSM48__cause__loc_template& location() const; -GSM48__cause__coding_template& coding(); -const GSM48__cause__coding_template& coding() const; -INTEGER_template& rec(); -const INTEGER_template& rec() const; -INTEGER_template& rec__val(); -const INTEGER_template& rec__val() const; -INTEGER_template& val(); -const INTEGER_template& val() const; -OCTETSTRING_template& diag(); -const OCTETSTRING_template& diag() const; -int size_of() const; -void log() const; -void log_match(const MNCC__cause& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class MNCC__useruser : public Base_Type { - INTEGER field_proto; - CHARSTRING field_info; -public: - MNCC__useruser(); - MNCC__useruser(const INTEGER& par_proto, - const CHARSTRING& par_info); - MNCC__useruser(const MNCC__useruser& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__useruser& operator=(const MNCC__useruser& other_value); - boolean operator==(const MNCC__useruser& other_value) const; - inline boolean operator!=(const MNCC__useruser& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& proto() - {return field_proto;} - inline const INTEGER& proto() const - {return field_proto;} - inline CHARSTRING& info() - {return field_info;} - inline const CHARSTRING& info() const - {return field_info;} - inline int size_of() const - {return 2;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__useruser_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__useruser_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__useruser& other_value); -void copy_template(const MNCC__useruser_template& other_value); - -public: -MNCC__useruser_template(); -MNCC__useruser_template(template_sel other_value); -MNCC__useruser_template(const MNCC__useruser& other_value); -MNCC__useruser_template(const OPTIONAL& other_value); -MNCC__useruser_template(const MNCC__useruser_template& other_value); -~MNCC__useruser_template(); -MNCC__useruser_template& operator=(template_sel other_value); -MNCC__useruser_template& operator=(const MNCC__useruser& other_value); -MNCC__useruser_template& operator=(const OPTIONAL& other_value); -MNCC__useruser_template& operator=(const MNCC__useruser_template& other_value); -boolean match(const MNCC__useruser& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__useruser valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__useruser_template& list_item(unsigned int list_index) const; -INTEGER_template& proto(); -const INTEGER_template& proto() const; -CHARSTRING_template& info(); -const CHARSTRING_template& info() const; -int size_of() const; -void log() const; -void log_match(const MNCC__useruser& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class MNCC__progress : public Base_Type { - INTEGER field_coding; - INTEGER field_location; - INTEGER field_descr; -public: - MNCC__progress(); - MNCC__progress(const INTEGER& par_coding, - const INTEGER& par_location, - const INTEGER& par_descr); - MNCC__progress(const MNCC__progress& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__progress& operator=(const MNCC__progress& other_value); - boolean operator==(const MNCC__progress& other_value) const; - inline boolean operator!=(const MNCC__progress& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& coding() - {return field_coding;} - inline const INTEGER& coding() const - {return field_coding;} - inline INTEGER& location() - {return field_location;} - inline const INTEGER& location() const - {return field_location;} - inline INTEGER& descr() - {return field_descr;} - inline const INTEGER& descr() const - {return field_descr;} - inline int size_of() const - {return 3;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__progress_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__progress_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__progress& other_value); -void copy_template(const MNCC__progress_template& other_value); - -public: -MNCC__progress_template(); -MNCC__progress_template(template_sel other_value); -MNCC__progress_template(const MNCC__progress& other_value); -MNCC__progress_template(const OPTIONAL& other_value); -MNCC__progress_template(const MNCC__progress_template& other_value); -~MNCC__progress_template(); -MNCC__progress_template& operator=(template_sel other_value); -MNCC__progress_template& operator=(const MNCC__progress& other_value); -MNCC__progress_template& operator=(const OPTIONAL& other_value); -MNCC__progress_template& operator=(const MNCC__progress_template& other_value); -boolean match(const MNCC__progress& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__progress valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__progress_template& list_item(unsigned int list_index) const; -INTEGER_template& coding(); -const INTEGER_template& coding() const; -INTEGER_template& location(); -const INTEGER_template& location() const; -INTEGER_template& descr(); -const INTEGER_template& descr() const; -int size_of() const; -void log() const; -void log_match(const MNCC__progress& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class MNCC__cccap : public Base_Type { - INTEGER field_dtmf; - INTEGER field_pcp; -public: - MNCC__cccap(); - MNCC__cccap(const INTEGER& par_dtmf, - const INTEGER& par_pcp); - MNCC__cccap(const MNCC__cccap& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__cccap& operator=(const MNCC__cccap& other_value); - boolean operator==(const MNCC__cccap& other_value) const; - inline boolean operator!=(const MNCC__cccap& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& dtmf() - {return field_dtmf;} - inline const INTEGER& dtmf() const - {return field_dtmf;} - inline INTEGER& pcp() - {return field_pcp;} - inline const INTEGER& pcp() const - {return field_pcp;} - inline int size_of() const - {return 2;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__cccap_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__cccap_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__cccap& other_value); -void copy_template(const MNCC__cccap_template& other_value); - -public: -MNCC__cccap_template(); -MNCC__cccap_template(template_sel other_value); -MNCC__cccap_template(const MNCC__cccap& other_value); -MNCC__cccap_template(const OPTIONAL& other_value); -MNCC__cccap_template(const MNCC__cccap_template& other_value); -~MNCC__cccap_template(); -MNCC__cccap_template& operator=(template_sel other_value); -MNCC__cccap_template& operator=(const MNCC__cccap& other_value); -MNCC__cccap_template& operator=(const OPTIONAL& other_value); -MNCC__cccap_template& operator=(const MNCC__cccap_template& other_value); -boolean match(const MNCC__cccap& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__cccap valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__cccap_template& list_item(unsigned int list_index) const; -INTEGER_template& dtmf(); -const INTEGER_template& dtmf() const; -INTEGER_template& pcp(); -const INTEGER_template& pcp() const; -int size_of() const; -void log() const; -void log_match(const MNCC__cccap& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class MNCC__bcap : public Base_Type { // enum -friend class MNCC__bcap_template; -public: -enum enum_type { GSM__MNCC__BCAP__SPEECH = 0, GSM__MNCC__BCAP__UNR__DIG = 1, GSM__MNCC__BCAP__AUDIO = 2, GSM__MNCC__BCAP__FAX__G3 = 3, GSM__MNCC__BCAP__OTHER__ITC = 4, GSM__MNCC__BCAP__RESERVED = 7, UNKNOWN_VALUE = 5, UNBOUND_VALUE = 6 }; -private: -enum_type enum_value; - -public: -MNCC__bcap(); -MNCC__bcap(int other_value); -MNCC__bcap(enum_type other_value); -MNCC__bcap(const MNCC__bcap& other_value); - -MNCC__bcap& operator=(int other_value); -MNCC__bcap& operator=(enum_type other_value); -MNCC__bcap& operator=(const MNCC__bcap& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const MNCC__bcap& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const MNCC__bcap& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const MNCC__bcap& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const MNCC__bcap& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const MNCC__bcap& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const MNCC__bcap& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const MNCC__bcap& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__bcap_template : public Base_Template { -union { -MNCC__bcap::enum_type single_value; -struct { -unsigned int n_values; -MNCC__bcap_template *list_value; -} value_list; -}; - -void copy_template(const MNCC__bcap_template& other_value); - -public: -MNCC__bcap_template(); -MNCC__bcap_template(template_sel other_value); -MNCC__bcap_template(int other_value); -MNCC__bcap_template(MNCC__bcap::enum_type other_value); -MNCC__bcap_template(const MNCC__bcap& other_value); -MNCC__bcap_template(const OPTIONAL& other_value); -MNCC__bcap_template(const MNCC__bcap_template& other_value); -~MNCC__bcap_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__bcap_template& operator=(template_sel other_value); -MNCC__bcap_template& operator=(int other_value); -MNCC__bcap_template& operator=(MNCC__bcap::enum_type other_value); -MNCC__bcap_template& operator=(const MNCC__bcap& other_value); -MNCC__bcap_template& operator=(const OPTIONAL& other_value); -MNCC__bcap_template& operator=(const MNCC__bcap_template& other_value); - -boolean match(MNCC__bcap::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const MNCC__bcap& other_value, boolean legacy = FALSE) const; -MNCC__bcap::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__bcap_template& list_item(unsigned int list_index); -void log() const; -void log_match(const MNCC__bcap& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class MNCC__PDU__Signal : public Base_Type { - INTEGER field_callref; - OPTIONAL field_bearer__cap; - OPTIONAL field_called; - OPTIONAL field_calling; - OPTIONAL field_redirecting; - OPTIONAL field_connected; - OPTIONAL field_cause; - OPTIONAL field_progress; - OPTIONAL field_useruser; - OPTIONAL field_facility; - OPTIONAL field_cccap; - OPTIONAL field_ssversion; - INTEGER field_clir__sup; - INTEGER field_clir__inv; - OPTIONAL field_signal; - OPTIONAL field_keypad; - INTEGER field_more; - INTEGER field_notify; - OPTIONAL field_emergency; - CHARSTRING field_imsi; - INTEGER field_lchan__type; - INTEGER field_lchan__mode; -public: - MNCC__PDU__Signal(); - MNCC__PDU__Signal(const INTEGER& par_callref, - const OPTIONAL& par_bearer__cap, - const OPTIONAL& par_called, - const OPTIONAL& par_calling, - const OPTIONAL& par_redirecting, - const OPTIONAL& par_connected, - const OPTIONAL& par_cause, - const OPTIONAL& par_progress, - const OPTIONAL& par_useruser, - const OPTIONAL& par_facility, - const OPTIONAL& par_cccap, - const OPTIONAL& par_ssversion, - const INTEGER& par_clir__sup, - const INTEGER& par_clir__inv, - const OPTIONAL& par_signal, - const OPTIONAL& par_keypad, - const INTEGER& par_more, - const INTEGER& par_notify, - const OPTIONAL& par_emergency, - const CHARSTRING& par_imsi, - const INTEGER& par_lchan__type, - const INTEGER& par_lchan__mode); - MNCC__PDU__Signal(const MNCC__PDU__Signal& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__PDU__Signal& operator=(const MNCC__PDU__Signal& other_value); - boolean operator==(const MNCC__PDU__Signal& other_value) const; - inline boolean operator!=(const MNCC__PDU__Signal& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& callref() - {return field_callref;} - inline const INTEGER& callref() const - {return field_callref;} - inline OPTIONAL& bearer__cap() - {return field_bearer__cap;} - inline const OPTIONAL& bearer__cap() const - {return field_bearer__cap;} - inline OPTIONAL& called() - {return field_called;} - inline const OPTIONAL& called() const - {return field_called;} - inline OPTIONAL& calling() - {return field_calling;} - inline const OPTIONAL& calling() const - {return field_calling;} - inline OPTIONAL& redirecting() - {return field_redirecting;} - inline const OPTIONAL& redirecting() const - {return field_redirecting;} - inline OPTIONAL& connected() - {return field_connected;} - inline const OPTIONAL& connected() const - {return field_connected;} - inline OPTIONAL& cause() - {return field_cause;} - inline const OPTIONAL& cause() const - {return field_cause;} - inline OPTIONAL& progress() - {return field_progress;} - inline const OPTIONAL& progress() const - {return field_progress;} - inline OPTIONAL& useruser() - {return field_useruser;} - inline const OPTIONAL& useruser() const - {return field_useruser;} - inline OPTIONAL& facility() - {return field_facility;} - inline const OPTIONAL& facility() const - {return field_facility;} - inline OPTIONAL& cccap() - {return field_cccap;} - inline const OPTIONAL& cccap() const - {return field_cccap;} - inline OPTIONAL& ssversion() - {return field_ssversion;} - inline const OPTIONAL& ssversion() const - {return field_ssversion;} - inline INTEGER& clir__sup() - {return field_clir__sup;} - inline const INTEGER& clir__sup() const - {return field_clir__sup;} - inline INTEGER& clir__inv() - {return field_clir__inv;} - inline const INTEGER& clir__inv() const - {return field_clir__inv;} - inline OPTIONAL& signal() - {return field_signal;} - inline const OPTIONAL& signal() const - {return field_signal;} - inline OPTIONAL& keypad() - {return field_keypad;} - inline const OPTIONAL& keypad() const - {return field_keypad;} - inline INTEGER& more() - {return field_more;} - inline const INTEGER& more() const - {return field_more;} - inline INTEGER& notify() - {return field_notify;} - inline const INTEGER& notify() const - {return field_notify;} - inline OPTIONAL& emergency() - {return field_emergency;} - inline const OPTIONAL& emergency() const - {return field_emergency;} - inline CHARSTRING& imsi() - {return field_imsi;} - inline const CHARSTRING& imsi() const - {return field_imsi;} - inline INTEGER& lchan__type() - {return field_lchan__type;} - inline const INTEGER& lchan__type() const - {return field_lchan__type;} - inline INTEGER& lchan__mode() - {return field_lchan__mode;} - inline const INTEGER& lchan__mode() const - {return field_lchan__mode;} - int size_of() const; - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__PDU__Signal_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__PDU__Signal_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__PDU__Signal& other_value); -void copy_template(const MNCC__PDU__Signal_template& other_value); - -public: -MNCC__PDU__Signal_template(); -MNCC__PDU__Signal_template(template_sel other_value); -MNCC__PDU__Signal_template(const MNCC__PDU__Signal& other_value); -MNCC__PDU__Signal_template(const OPTIONAL& other_value); -MNCC__PDU__Signal_template(const MNCC__PDU__Signal_template& other_value); -~MNCC__PDU__Signal_template(); -MNCC__PDU__Signal_template& operator=(template_sel other_value); -MNCC__PDU__Signal_template& operator=(const MNCC__PDU__Signal& other_value); -MNCC__PDU__Signal_template& operator=(const OPTIONAL& other_value); -MNCC__PDU__Signal_template& operator=(const MNCC__PDU__Signal_template& other_value); -boolean match(const MNCC__PDU__Signal& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__PDU__Signal valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__PDU__Signal_template& list_item(unsigned int list_index) const; -INTEGER_template& callref(); -const INTEGER_template& callref() const; -MNCC__bearer__cap_template& bearer__cap(); -const MNCC__bearer__cap_template& bearer__cap() const; -MNCC__number_template& called(); -const MNCC__number_template& called() const; -MNCC__number_template& calling(); -const MNCC__number_template& calling() const; -MNCC__number_template& redirecting(); -const MNCC__number_template& redirecting() const; -MNCC__number_template& connected(); -const MNCC__number_template& connected() const; -MNCC__cause_template& cause(); -const MNCC__cause_template& cause() const; -MNCC__progress_template& progress(); -const MNCC__progress_template& progress() const; -MNCC__useruser_template& useruser(); -const MNCC__useruser_template& useruser() const; -CHARSTRING_template& facility(); -const CHARSTRING_template& facility() const; -MNCC__cccap_template& cccap(); -const MNCC__cccap_template& cccap() const; -CHARSTRING_template& ssversion(); -const CHARSTRING_template& ssversion() const; -INTEGER_template& clir__sup(); -const INTEGER_template& clir__sup() const; -INTEGER_template& clir__inv(); -const INTEGER_template& clir__inv() const; -INTEGER_template& signal(); -const INTEGER_template& signal() const; -CHARSTRING_template& keypad(); -const CHARSTRING_template& keypad() const; -INTEGER_template& more(); -const INTEGER_template& more() const; -INTEGER_template& notify(); -const INTEGER_template& notify() const; -INTEGER_template& emergency(); -const INTEGER_template& emergency() const; -CHARSTRING_template& imsi(); -const CHARSTRING_template& imsi() const; -INTEGER_template& lchan__type(); -const INTEGER_template& lchan__type() const; -INTEGER_template& lchan__mode(); -const INTEGER_template& lchan__mode() const; -int size_of() const; -void log() const; -void log_match(const MNCC__PDU__Signal& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class MNCC__PDU__Data : public Base_Type { - INTEGER field_callref; - OCTETSTRING field_data; -public: - MNCC__PDU__Data(); - MNCC__PDU__Data(const INTEGER& par_callref, - const OCTETSTRING& par_data); - MNCC__PDU__Data(const MNCC__PDU__Data& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__PDU__Data& operator=(const MNCC__PDU__Data& other_value); - boolean operator==(const MNCC__PDU__Data& other_value) const; - inline boolean operator!=(const MNCC__PDU__Data& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& callref() - {return field_callref;} - inline const INTEGER& callref() const - {return field_callref;} - inline OCTETSTRING& data() - {return field_data;} - inline const OCTETSTRING& data() const - {return field_data;} - inline int size_of() const - {return 2;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__PDU__Data_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__PDU__Data_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__PDU__Data& other_value); -void copy_template(const MNCC__PDU__Data_template& other_value); - -public: -MNCC__PDU__Data_template(); -MNCC__PDU__Data_template(template_sel other_value); -MNCC__PDU__Data_template(const MNCC__PDU__Data& other_value); -MNCC__PDU__Data_template(const OPTIONAL& other_value); -MNCC__PDU__Data_template(const MNCC__PDU__Data_template& other_value); -~MNCC__PDU__Data_template(); -MNCC__PDU__Data_template& operator=(template_sel other_value); -MNCC__PDU__Data_template& operator=(const MNCC__PDU__Data& other_value); -MNCC__PDU__Data_template& operator=(const OPTIONAL& other_value); -MNCC__PDU__Data_template& operator=(const MNCC__PDU__Data_template& other_value); -boolean match(const MNCC__PDU__Data& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__PDU__Data valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__PDU__Data_template& list_item(unsigned int list_index) const; -INTEGER_template& callref(); -const INTEGER_template& callref() const; -OCTETSTRING_template& data(); -const OCTETSTRING_template& data() const; -int size_of() const; -void log() const; -void log_match(const MNCC__PDU__Data& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class MNCC__PDU__Rtp : public Base_Type { - INTEGER field_callref; - INTEGER field_ip; - INTEGER field_rtp__port; - INTEGER field_payload__type; - INTEGER field_payload__msg__type; -public: - MNCC__PDU__Rtp(); - MNCC__PDU__Rtp(const INTEGER& par_callref, - const INTEGER& par_ip, - const INTEGER& par_rtp__port, - const INTEGER& par_payload__type, - const INTEGER& par_payload__msg__type); - MNCC__PDU__Rtp(const MNCC__PDU__Rtp& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__PDU__Rtp& operator=(const MNCC__PDU__Rtp& other_value); - boolean operator==(const MNCC__PDU__Rtp& other_value) const; - inline boolean operator!=(const MNCC__PDU__Rtp& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& callref() - {return field_callref;} - inline const INTEGER& callref() const - {return field_callref;} - inline INTEGER& ip() - {return field_ip;} - inline const INTEGER& ip() const - {return field_ip;} - inline INTEGER& rtp__port() - {return field_rtp__port;} - inline const INTEGER& rtp__port() const - {return field_rtp__port;} - inline INTEGER& payload__type() - {return field_payload__type;} - inline const INTEGER& payload__type() const - {return field_payload__type;} - inline INTEGER& payload__msg__type() - {return field_payload__msg__type;} - inline const INTEGER& payload__msg__type() const - {return field_payload__msg__type;} - inline int size_of() const - {return 5;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__PDU__Rtp_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__PDU__Rtp_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__PDU__Rtp& other_value); -void copy_template(const MNCC__PDU__Rtp_template& other_value); - -public: -MNCC__PDU__Rtp_template(); -MNCC__PDU__Rtp_template(template_sel other_value); -MNCC__PDU__Rtp_template(const MNCC__PDU__Rtp& other_value); -MNCC__PDU__Rtp_template(const OPTIONAL& other_value); -MNCC__PDU__Rtp_template(const MNCC__PDU__Rtp_template& other_value); -~MNCC__PDU__Rtp_template(); -MNCC__PDU__Rtp_template& operator=(template_sel other_value); -MNCC__PDU__Rtp_template& operator=(const MNCC__PDU__Rtp& other_value); -MNCC__PDU__Rtp_template& operator=(const OPTIONAL& other_value); -MNCC__PDU__Rtp_template& operator=(const MNCC__PDU__Rtp_template& other_value); -boolean match(const MNCC__PDU__Rtp& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__PDU__Rtp valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__PDU__Rtp_template& list_item(unsigned int list_index) const; -INTEGER_template& callref(); -const INTEGER_template& callref() const; -INTEGER_template& ip(); -const INTEGER_template& ip() const; -INTEGER_template& rtp__port(); -const INTEGER_template& rtp__port() const; -INTEGER_template& payload__type(); -const INTEGER_template& payload__type() const; -INTEGER_template& payload__msg__type(); -const INTEGER_template& payload__msg__type() const; -int size_of() const; -void log() const; -void log_match(const MNCC__PDU__Rtp& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class MNCC__PDU__Hello : public Base_Type { - INTEGER field_version; - INTEGER field_mncc__size; - INTEGER field_data__frame__size; - INTEGER field_called__offset; - INTEGER field_signal__offset; - INTEGER field_emergency__offset; - INTEGER field_lchan__type__offset; -public: - MNCC__PDU__Hello(); - MNCC__PDU__Hello(const INTEGER& par_version, - const INTEGER& par_mncc__size, - const INTEGER& par_data__frame__size, - const INTEGER& par_called__offset, - const INTEGER& par_signal__offset, - const INTEGER& par_emergency__offset, - const INTEGER& par_lchan__type__offset); - MNCC__PDU__Hello(const MNCC__PDU__Hello& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__PDU__Hello& operator=(const MNCC__PDU__Hello& other_value); - boolean operator==(const MNCC__PDU__Hello& other_value) const; - inline boolean operator!=(const MNCC__PDU__Hello& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& version() - {return field_version;} - inline const INTEGER& version() const - {return field_version;} - inline INTEGER& mncc__size() - {return field_mncc__size;} - inline const INTEGER& mncc__size() const - {return field_mncc__size;} - inline INTEGER& data__frame__size() - {return field_data__frame__size;} - inline const INTEGER& data__frame__size() const - {return field_data__frame__size;} - inline INTEGER& called__offset() - {return field_called__offset;} - inline const INTEGER& called__offset() const - {return field_called__offset;} - inline INTEGER& signal__offset() - {return field_signal__offset;} - inline const INTEGER& signal__offset() const - {return field_signal__offset;} - inline INTEGER& emergency__offset() - {return field_emergency__offset;} - inline const INTEGER& emergency__offset() const - {return field_emergency__offset;} - inline INTEGER& lchan__type__offset() - {return field_lchan__type__offset;} - inline const INTEGER& lchan__type__offset() const - {return field_lchan__type__offset;} - inline int size_of() const - {return 7;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__PDU__Hello_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__PDU__Hello_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__PDU__Hello& other_value); -void copy_template(const MNCC__PDU__Hello_template& other_value); - -public: -MNCC__PDU__Hello_template(); -MNCC__PDU__Hello_template(template_sel other_value); -MNCC__PDU__Hello_template(const MNCC__PDU__Hello& other_value); -MNCC__PDU__Hello_template(const OPTIONAL& other_value); -MNCC__PDU__Hello_template(const MNCC__PDU__Hello_template& other_value); -~MNCC__PDU__Hello_template(); -MNCC__PDU__Hello_template& operator=(template_sel other_value); -MNCC__PDU__Hello_template& operator=(const MNCC__PDU__Hello& other_value); -MNCC__PDU__Hello_template& operator=(const OPTIONAL& other_value); -MNCC__PDU__Hello_template& operator=(const MNCC__PDU__Hello_template& other_value); -boolean match(const MNCC__PDU__Hello& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__PDU__Hello valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__PDU__Hello_template& list_item(unsigned int list_index) const; -INTEGER_template& version(); -const INTEGER_template& version() const; -INTEGER_template& mncc__size(); -const INTEGER_template& mncc__size() const; -INTEGER_template& data__frame__size(); -const INTEGER_template& data__frame__size() const; -INTEGER_template& called__offset(); -const INTEGER_template& called__offset() const; -INTEGER_template& signal__offset(); -const INTEGER_template& signal__offset() const; -INTEGER_template& emergency__offset(); -const INTEGER_template& emergency__offset() const; -INTEGER_template& lchan__type__offset(); -const INTEGER_template& lchan__type__offset() const; -int size_of() const; -void log() const; -void log_match(const MNCC__PDU__Hello& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class MNCC__MsgUnion : public Base_Type { -public: -enum union_selection_type { UNBOUND_VALUE = 0, ALT_signal = 1, ALT_data = 2, ALT_rtp = 3, ALT_hello = 4 }; -private: -union_selection_type union_selection; -union { -MNCC__PDU__Signal *field_signal; -MNCC__PDU__Data *field_data; -MNCC__PDU__Rtp *field_rtp; -MNCC__PDU__Hello *field_hello; -}; -void copy_value(const MNCC__MsgUnion& other_value); - -public: -MNCC__MsgUnion(); -MNCC__MsgUnion(const MNCC__MsgUnion& other_value); -~MNCC__MsgUnion(); -MNCC__MsgUnion& operator=(const MNCC__MsgUnion& other_value); -boolean operator==(const MNCC__MsgUnion& other_value) const; -inline boolean operator!=(const MNCC__MsgUnion& other_value) const { return !(*this == other_value); } -MNCC__PDU__Signal& signal(); -const MNCC__PDU__Signal& signal() const; -MNCC__PDU__Data& data(); -const MNCC__PDU__Data& data() const; -MNCC__PDU__Rtp& rtp(); -const MNCC__PDU__Rtp& rtp() const; -MNCC__PDU__Hello& hello(); -const MNCC__PDU__Hello& hello() const; -inline union_selection_type get_selection() const { return union_selection; } -boolean ischosen(union_selection_type checked_selection) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); - void set_implicit_omit(); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__MsgUnion_template : public Base_Template { -union { -struct { -MNCC__MsgUnion::union_selection_type union_selection; -union { -MNCC__PDU__Signal_template *field_signal; -MNCC__PDU__Data_template *field_data; -MNCC__PDU__Rtp_template *field_rtp; -MNCC__PDU__Hello_template *field_hello; -}; -} single_value; -struct { -unsigned int n_values; -MNCC__MsgUnion_template *list_value; -} value_list; -}; -void copy_value(const MNCC__MsgUnion& other_value); - -void copy_template(const MNCC__MsgUnion_template& other_value); - -public: -MNCC__MsgUnion_template(); -MNCC__MsgUnion_template(template_sel other_value); -MNCC__MsgUnion_template(const MNCC__MsgUnion& other_value); -MNCC__MsgUnion_template(const OPTIONAL& other_value); -MNCC__MsgUnion_template(const MNCC__MsgUnion_template& other_value); -~MNCC__MsgUnion_template(); -void clean_up(); -MNCC__MsgUnion_template& operator=(template_sel other_value); -MNCC__MsgUnion_template& operator=(const MNCC__MsgUnion& other_value); -MNCC__MsgUnion_template& operator=(const OPTIONAL& other_value); -MNCC__MsgUnion_template& operator=(const MNCC__MsgUnion_template& other_value); -boolean match(const MNCC__MsgUnion& other_value, boolean legacy = FALSE) const; -boolean is_value() const;MNCC__MsgUnion valueof() const; -MNCC__MsgUnion_template& list_item(unsigned int list_index) const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__PDU__Signal_template& signal(); -const MNCC__PDU__Signal_template& signal() const; -MNCC__PDU__Data_template& data(); -const MNCC__PDU__Data_template& data() const; -MNCC__PDU__Rtp_template& rtp(); -const MNCC__PDU__Rtp_template& rtp() const; -MNCC__PDU__Hello_template& hello(); -const MNCC__PDU__Hello_template& hello() const; -boolean ischosen(MNCC__MsgUnion::union_selection_type checked_selection) const; -void log() const; -void log_match(const MNCC__MsgUnion& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class MNCC__PDU : public Base_Type { - MNCC__MsgType field_msg__type; - MNCC__MsgUnion field_u; -public: - MNCC__PDU(); - MNCC__PDU(const MNCC__MsgType& par_msg__type, - const MNCC__MsgUnion& par_u); - MNCC__PDU(const MNCC__PDU& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - MNCC__PDU& operator=(const MNCC__PDU& other_value); - boolean operator==(const MNCC__PDU& other_value) const; - inline boolean operator!=(const MNCC__PDU& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline MNCC__MsgType& msg__type() - {return field_msg__type;} - inline const MNCC__MsgType& msg__type() const - {return field_msg__type;} - inline MNCC__MsgUnion& u() - {return field_u;} - inline const MNCC__MsgUnion& u() const - {return field_u;} - inline int size_of() const - {return 2;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class MNCC__PDU_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -MNCC__PDU_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const MNCC__PDU& other_value); -void copy_template(const MNCC__PDU_template& other_value); - -public: -MNCC__PDU_template(); -MNCC__PDU_template(template_sel other_value); -MNCC__PDU_template(const MNCC__PDU& other_value); -MNCC__PDU_template(const OPTIONAL& other_value); -MNCC__PDU_template(const MNCC__PDU_template& other_value); -~MNCC__PDU_template(); -MNCC__PDU_template& operator=(template_sel other_value); -MNCC__PDU_template& operator=(const MNCC__PDU& other_value); -MNCC__PDU_template& operator=(const OPTIONAL& other_value); -MNCC__PDU_template& operator=(const MNCC__PDU_template& other_value); -boolean match(const MNCC__PDU& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -MNCC__PDU valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -MNCC__PDU_template& list_item(unsigned int list_index) const; -MNCC__MsgType_template& msg__type(); -const MNCC__MsgType_template& msg__type() const; -MNCC__MsgUnion_template& u(); -const MNCC__MsgUnion_template& u() const; -int size_of() const; -void log() const; -void log_match(const MNCC__PDU& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - - -/* Function prototypes */ - -extern void int__encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER int__decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__bcap__ra_encoder(const GSM48__bcap__ra& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__bcap__ra_decoder(OCTETSTRING& input_stream, GSM48__bcap__ra& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__bcap__sig__access_encoder(const GSM48__bcap__sig__access& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__bcap__sig__access_decoder(OCTETSTRING& input_stream, GSM48__bcap__sig__access& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__bcap__user__rate_encoder(const GSM48__bcap__user__rate& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__bcap__user__rate_decoder(OCTETSTRING& input_stream, GSM48__bcap__user__rate& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__bcap__parity_encoder(const GSM48__bcap__parity& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__bcap__parity_decoder(OCTETSTRING& input_stream, GSM48__bcap__parity& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__bcap__interm__rate_encoder(const GSM48__bcap__interm__rate& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__bcap__interm__rate_decoder(OCTETSTRING& input_stream, GSM48__bcap__interm__rate& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__bcap__transp_encoder(const GSM48__bcap__transp& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__bcap__transp_decoder(OCTETSTRING& input_stream, GSM48__bcap__transp& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__bcap__modem__type_encoder(const GSM48__bcap__modem__type& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__bcap__modem__type_decoder(OCTETSTRING& input_stream, GSM48__bcap__modem__type& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__MsgType_encoder(const MNCC__MsgType& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__MsgType_decoder(OCTETSTRING& input_stream, MNCC__MsgType& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap__data_rate__adaptation_encoder(const GSM48__bcap__ra& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap__data_rate__adaptation_decoder(OCTETSTRING& input_stream, GSM48__bcap__ra& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap__data_sig__access_encoder(const GSM48__bcap__sig__access& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap__data_sig__access_decoder(OCTETSTRING& input_stream, GSM48__bcap__sig__access& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap__data_async_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap__data_async_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap__data_nr__stop__bits_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap__data_nr__stop__bits_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap__data_nr__data__bits_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap__data_nr__data__bits_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap__data_user__rate_encoder(const GSM48__bcap__user__rate& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap__data_user__rate_decoder(OCTETSTRING& input_stream, GSM48__bcap__user__rate& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap__data_parity_encoder(const GSM48__bcap__parity& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap__data_parity_decoder(OCTETSTRING& input_stream, GSM48__bcap__parity& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap__data_interm__rate_encoder(const GSM48__bcap__interm__rate& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap__data_interm__rate_decoder(OCTETSTRING& input_stream, GSM48__bcap__interm__rate& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap__data_transp_encoder(const GSM48__bcap__transp& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap__data_transp_decoder(OCTETSTRING& input_stream, GSM48__bcap__transp& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap__data_modem__type_encoder(const GSM48__bcap__modem__type& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap__data_modem__type_decoder(OCTETSTRING& input_stream, GSM48__bcap__modem__type& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap__data_encoder(const MNCC__bearer__cap__data& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap__data_decoder(OCTETSTRING& input_stream, MNCC__bearer__cap__data& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__speech__vers_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__speech__vers_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__speech__vers_encoder(const MNCC__speech__vers& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__speech__vers_decoder(OCTETSTRING& input_stream, MNCC__speech__vers& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap_transfer_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap_transfer_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap_mode_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap_mode_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap_coding_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap_coding_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap_radio_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap_radio_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap_speech__ctm_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap_speech__ctm_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap_speech__ver_encoder(const MNCC__speech__vers& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap_speech__ver_decoder(OCTETSTRING& input_stream, MNCC__speech__vers& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap_data_encoder(const MNCC__bearer__cap__data& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap_data_decoder(OCTETSTRING& input_stream, MNCC__bearer__cap__data& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bearer__cap_encoder(const MNCC__bearer__cap& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bearer__cap_decoder(OCTETSTRING& input_stream, MNCC__bearer__cap& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__type__of__number_encoder(const GSM48__type__of__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__type__of__number_decoder(OCTETSTRING& input_stream, GSM48__type__of__number& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__number_number__type_encoder(const GSM48__type__of__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__number_number__type_decoder(OCTETSTRING& input_stream, GSM48__type__of__number& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__num__plan__ind_encoder(const GSM48__num__plan__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__num__plan__ind_decoder(OCTETSTRING& input_stream, GSM48__num__plan__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__number_plan_encoder(const GSM48__num__plan__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__number_plan_decoder(OCTETSTRING& input_stream, GSM48__num__plan__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__present__ind_encoder(const GSM48__present__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__present__ind_decoder(OCTETSTRING& input_stream, GSM48__present__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__number_presence_encoder(const GSM48__present__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__number_presence_decoder(OCTETSTRING& input_stream, GSM48__present__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__screening__ind_encoder(const GSM48__screening__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__screening__ind_decoder(OCTETSTRING& input_stream, GSM48__screening__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__number_screen_encoder(const GSM48__screening__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__number_screen_decoder(OCTETSTRING& input_stream, GSM48__screening__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__number_number_encoder(const CHARSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__number_number_decoder(OCTETSTRING& input_stream, CHARSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__number_encoder(const MNCC__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__number_decoder(OCTETSTRING& input_stream, MNCC__number& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__cause__coding_encoder(const GSM48__cause__coding& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__cause__coding_decoder(OCTETSTRING& input_stream, GSM48__cause__coding& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void GSM48__cause__loc_encoder(const GSM48__cause__loc& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER GSM48__cause__loc_decoder(OCTETSTRING& input_stream, GSM48__cause__loc& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern MNCC__number_template ts__MNCC__number(const CHARSTRING& number, const GSM48__type__of__number& ton, const GSM48__num__plan__ind& npi, const GSM48__present__ind& pres, const GSM48__screening__ind& screen); -extern MNCC__number_template tr__MNCC__number(const CHARSTRING_template& number, const GSM48__type__of__number_template& ton, const GSM48__num__plan__ind_template& npi, const GSM48__present__ind_template& pres, const GSM48__screening__ind_template& screen); -extern void MNCC__cause_location_encoder(const GSM48__cause__loc& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__cause_location_decoder(OCTETSTRING& input_stream, GSM48__cause__loc& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__cause_coding_encoder(const GSM48__cause__coding& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__cause_coding_decoder(OCTETSTRING& input_stream, GSM48__cause__coding& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__cause_rec_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__cause_rec_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__cause_rec__val_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__cause_rec__val_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__cause_val_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__cause_val_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__cause_diag_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__cause_diag_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__cause_encoder(const MNCC__cause& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__cause_decoder(OCTETSTRING& input_stream, MNCC__cause& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern MNCC__cause_template ts__MNCC__cause(const INTEGER& val, const GSM48__cause__loc& loc, const GSM48__cause__coding& coding, const OCTETSTRING& diag); -extern void MNCC__useruser_proto_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__useruser_proto_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__useruser_info_encoder(const CHARSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__useruser_info_decoder(OCTETSTRING& input_stream, CHARSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__useruser_encoder(const MNCC__useruser& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__useruser_decoder(OCTETSTRING& input_stream, MNCC__useruser& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__progress_coding_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__progress_coding_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__progress_location_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__progress_location_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__progress_descr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__progress_descr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__progress_encoder(const MNCC__progress& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__progress_decoder(OCTETSTRING& input_stream, MNCC__progress& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__cccap_dtmf_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__cccap_dtmf_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__cccap_pcp_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__cccap_pcp_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__cccap_encoder(const MNCC__cccap& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__cccap_decoder(OCTETSTRING& input_stream, MNCC__cccap& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__notify_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__notify_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__keypad_encoder(const CHARSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__keypad_decoder(OCTETSTRING& input_stream, CHARSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__bcap_encoder(const MNCC__bcap& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__bcap_decoder(OCTETSTRING& input_stream, MNCC__bcap& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_callref_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_callref_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_clir__sup_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_clir__sup_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_clir__inv_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_clir__inv_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_more_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_more_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_notify_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_notify_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_imsi_encoder(const CHARSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_imsi_decoder(OCTETSTRING& input_stream, CHARSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_lchan__type_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_lchan__type_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_lchan__mode_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_lchan__mode_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_bearer__cap_encoder(const MNCC__bearer__cap& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_bearer__cap_decoder(OCTETSTRING& input_stream, MNCC__bearer__cap& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_called_encoder(const MNCC__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_called_decoder(OCTETSTRING& input_stream, MNCC__number& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_calling_encoder(const MNCC__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_calling_decoder(OCTETSTRING& input_stream, MNCC__number& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_redirecting_encoder(const MNCC__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_redirecting_decoder(OCTETSTRING& input_stream, MNCC__number& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_connected_encoder(const MNCC__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_connected_decoder(OCTETSTRING& input_stream, MNCC__number& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_cause_encoder(const MNCC__cause& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_cause_decoder(OCTETSTRING& input_stream, MNCC__cause& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_progress_encoder(const MNCC__progress& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_progress_decoder(OCTETSTRING& input_stream, MNCC__progress& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_useruser_encoder(const MNCC__useruser& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_useruser_decoder(OCTETSTRING& input_stream, MNCC__useruser& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_facility_encoder(const CHARSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_facility_decoder(OCTETSTRING& input_stream, CHARSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_cccap_encoder(const MNCC__cccap& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_cccap_decoder(OCTETSTRING& input_stream, MNCC__cccap& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_ssversion_encoder(const CHARSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_ssversion_decoder(OCTETSTRING& input_stream, CHARSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_signal_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_signal_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_keypad_encoder(const CHARSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_keypad_decoder(OCTETSTRING& input_stream, CHARSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_emergency_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_emergency_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Signal_encoder(const MNCC__PDU__Signal& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Signal_decoder(OCTETSTRING& input_stream, MNCC__PDU__Signal& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Data_callref_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Data_callref_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Data_data_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Data_data_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Data_encoder(const MNCC__PDU__Data& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Data_decoder(OCTETSTRING& input_stream, MNCC__PDU__Data& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Rtp_callref_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Rtp_callref_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Rtp_ip_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Rtp_ip_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Rtp_rtp__port_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Rtp_rtp__port_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Rtp_payload__type_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Rtp_payload__type_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Rtp_payload__msg__type_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Rtp_payload__msg__type_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Rtp_encoder(const MNCC__PDU__Rtp& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Rtp_decoder(OCTETSTRING& input_stream, MNCC__PDU__Rtp& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Hello_version_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Hello_version_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Hello_mncc__size_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Hello_mncc__size_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Hello_data__frame__size_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Hello_data__frame__size_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Hello_called__offset_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Hello_called__offset_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Hello_signal__offset_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Hello_signal__offset_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Hello_emergency__offset_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Hello_emergency__offset_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Hello_lchan__type__offset_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Hello_lchan__type__offset_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU__Hello_encoder(const MNCC__PDU__Hello& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU__Hello_decoder(OCTETSTRING& input_stream, MNCC__PDU__Hello& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__MsgUnion_signal_encoder(const MNCC__PDU__Signal& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__MsgUnion_signal_decoder(OCTETSTRING& input_stream, MNCC__PDU__Signal& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__MsgUnion_data_encoder(const MNCC__PDU__Data& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__MsgUnion_data_decoder(OCTETSTRING& input_stream, MNCC__PDU__Data& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__MsgUnion_rtp_encoder(const MNCC__PDU__Rtp& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__MsgUnion_rtp_decoder(OCTETSTRING& input_stream, MNCC__PDU__Rtp& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__MsgUnion_hello_encoder(const MNCC__PDU__Hello& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__MsgUnion_hello_decoder(OCTETSTRING& input_stream, MNCC__PDU__Hello& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__MsgUnion_encoder(const MNCC__MsgUnion& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__MsgUnion_decoder(OCTETSTRING& input_stream, MNCC__MsgUnion& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU_msg__type_encoder(const MNCC__MsgType& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU_msg__type_decoder(OCTETSTRING& input_stream, MNCC__MsgType& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU_u_encoder(const MNCC__MsgUnion& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU_u_decoder(OCTETSTRING& input_stream, MNCC__MsgUnion& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void MNCC__PDU_encoder(const MNCC__PDU& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER MNCC__PDU_decoder(OCTETSTRING& input_stream, MNCC__PDU& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern OCTETSTRING enc__MNCC__PDU(const MNCC__PDU& pdu); -extern MNCC__PDU dec__MNCC__PDU(const OCTETSTRING& stream); -extern MNCC__PDU_template ts__MNCC__HELLO(const INTEGER& version); -extern MNCC__PDU_template ts__MNCC__Sign(const MNCC__MsgType& msg__type, const MNCC__PDU__Signal& sign); -extern MNCC__PDU_template ts__MNCC__SIMPLE(const MNCC__MsgType& msg__type, const INTEGER& call__id); -extern MNCC__PDU_template tr__MNCC__SIMPLE(const MNCC__MsgType_template& msg__type, const INTEGER_template& call__id); -extern MNCC__PDU_template ts__MNCC__SETUP__req(const INTEGER& call__id, const CHARSTRING& called, const CHARSTRING& calling, const CHARSTRING& imsi); -extern MNCC__PDU_template tr__MNCC__SETUP__req(const INTEGER_template& call__id, const CHARSTRING_template& called, const CHARSTRING_template& calling, const CHARSTRING_template& imsi); -extern MNCC__PDU_template ts__MNCC__SETUP__rsp(const INTEGER& call__id, const CHARSTRING& imsi, const MNCC__number_template& connected); -extern MNCC__PDU_template tr__MNCC__SETUP__rsp(const INTEGER_template& call__id, const CHARSTRING_template& imsi, const MNCC__number_template& connected); -extern MNCC__PDU_template tr__MNCC__SETUP__ind(const INTEGER_template& call__id, const MNCC__number_template& called, const MNCC__number_template& calling, const CHARSTRING_template& imsi); -extern MNCC__PDU_template ts__MNCC__SETUP__ind(const INTEGER& call__id, const MNCC__number& called, const MNCC__number_template& calling, const CHARSTRING_template& imsi, const MNCC__bearer__cap_template& bcap); -extern MNCC__PDU_template ts__MNCC__SETUP__CNF(const INTEGER& call__id, const MNCC__number_template& connected); -extern MNCC__PDU_template tr__MNCC__SETUP__cnf(const INTEGER& call__id, const MNCC__number_template& connected); -extern MNCC__PDU_template tr__MNCC__SETUP__COMPL__req(const INTEGER_template& call__id); -extern MNCC__PDU_template tr__MNCC__SETUP__COMPL__ind(const INTEGER_template& call__id); -extern MNCC__PDU_template ts__MNCC__SETUP__COMPL__ind(const INTEGER& call__id); -extern MNCC__PDU_template tr__MNCC__REJ__req(const INTEGER_template& call__id, const MNCC__cause_template& cause); -extern MNCC__PDU_template ts__MNCC__REJ__ind(const INTEGER& call__id, const MNCC__cause_template& cause); -extern MNCC__PDU_template tr__MNCC__CALL__CONF__ind(const INTEGER_template& call__id, const MNCC__bearer__cap_template& bcap, const MNCC__cause_template& cause, const MNCC__cccap_template& cccap); -extern MNCC__PDU_template ts__MNCC__CALL__CONF__ind(const INTEGER& call__id, const MNCC__bearer__cap_template& bcap, const MNCC__cause_template& cause, const MNCC__cccap_template& cccap); -extern MNCC__PDU_template ts__MNCC__CALL__PROC__req(const INTEGER& call__id, const MNCC__bearer__cap_template& bcap, const MNCC__progress_template& prog, const CHARSTRING_template& fac, const MNCC__cccap_template& cccap); -extern MNCC__PDU_template tr__MNCC__CALL__PROC__req(const INTEGER_template& call__id, const MNCC__bearer__cap_template& bcap, const MNCC__progress_template& prog, const CHARSTRING_template& fac, const MNCC__cccap_template& cccap); -extern MNCC__PDU_template ts__MNCC__PROGRESS__req(const INTEGER& call__id, const MNCC__progress& prog, const MNCC__useruser_template& uu); -extern MNCC__PDU_template ts__MNCC__ALERT__req(const INTEGER& call__id, const MNCC__progress_template& prog, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template tr__MNCC__ALERT__req(const INTEGER_template& call__id, const MNCC__progress_template& prog, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template tr__MNCC__ALERT__ind(const INTEGER_template& call__id, const MNCC__progress_template& prog, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template ts__MNCC__ALERT__ind(const INTEGER& call__id, const MNCC__progress_template& prog, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template ts__MNCC__NOTIFY__req(const INTEGER& call__id, const INTEGER& notify); -extern MNCC__PDU_template tr__MNCC__NOTIFY__ind(const INTEGER_template& call__id, const INTEGER_template& notify); -extern MNCC__PDU_template tr__MNCC__DISC__ind(const INTEGER_template& call__id, const MNCC__cause_template& cause, const MNCC__progress_template& prog, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template ts__MNCC__DISC__ind(const INTEGER& call__id, const MNCC__cause_template& cause, const MNCC__progress_template& prog, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template ts__MNCC__DISC__req(const INTEGER& call__id, const MNCC__cause& cause, const MNCC__progress_template& prog, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template tr__MNCC__DISC__req(const INTEGER_template& call__id, const MNCC__cause_template& cause, const MNCC__progress_template& prog, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template tr__MNCC__REL__ind(const INTEGER_template& call__id, const MNCC__cause_template& cause, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template ts__MNCC__REL__ind(const INTEGER& call__id, const MNCC__cause_template& cause, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template ts__MNCC__REL__req(const INTEGER& call__id, const MNCC__cause& cause, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template tr__MNCC__REL__req(const INTEGER_template& call__id, const MNCC__cause_template& cause, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template tr__MNCC__REL__cnf(const INTEGER_template& call__id, const MNCC__cause_template& cause, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template ts__MNCC__REL__cnf(const INTEGER& call__id, const MNCC__cause_template& cause, const CHARSTRING_template& fac, const MNCC__useruser_template& uu); -extern MNCC__PDU_template ts__MNCC__FACILITY__req(const INTEGER& call__id, const CHARSTRING& fac); -extern MNCC__PDU_template tr__MNCC__FACILITY__ind(const INTEGER_template& call__id, const CHARSTRING_template& fac); -extern MNCC__PDU_template tr__MNCC__START__DTMF__ind(const INTEGER_template& call__id, const CHARSTRING_template& keypad); -extern MNCC__PDU_template ts__MNCC__START__DTMF__rsp(const INTEGER& call__id, const CHARSTRING& keypad); -extern MNCC__PDU_template ts__MNCC__START__DTMF__rej(const INTEGER& call__id, const MNCC__cause& cause); -extern MNCC__PDU_template tr__MNCC__STOP__DTMF__ind(const INTEGER_template& call__id); -extern MNCC__PDU_template ts__MNCC__STOP__DTMF__rsp(const INTEGER& call__id); -extern MNCC__PDU_template tr__MNCC__MODIFY__ind(const INTEGER_template& call__id, const MNCC__bearer__cap_template& bcap); -extern MNCC__PDU_template ts__MNCC__MODIFY__rsp(const INTEGER& call__id, const MNCC__bearer__cap& bcap); -extern MNCC__PDU_template ts__MNCC__MODIFY__req(const INTEGER& call__id, const MNCC__bearer__cap& bcap); -extern MNCC__PDU_template tr__MNCC__MODIFY__cnf(const INTEGER_template& call__id, const MNCC__bearer__cap_template& bcap); -extern MNCC__PDU_template ts__MNCC__USERINFO__req(const INTEGER& call__id, const MNCC__useruser& uu, const INTEGER& more); -extern MNCC__PDU_template tr__MNCC__USERINFO__ind(const INTEGER_template& call__id, const MNCC__useruser_template& uu, const INTEGER& more); -extern MNCC__PDU_template tr__MNCC__HOLD__ind(const INTEGER_template& call__id); -extern MNCC__PDU_template ts__MNCC__HOLD__cnf(const INTEGER& call__id); -extern MNCC__PDU_template ts__MNCC__HOLD__rej(const INTEGER& call__id, const MNCC__cause& cause); -extern MNCC__PDU_template tr__MNCC__RETRIEVE__ind(const INTEGER_template& call__id); -extern MNCC__PDU_template ts__MNCC__RETRIEVE__cnf(const INTEGER& call__id); -extern MNCC__PDU_template ts__MNCC__RETRIEVE__rej(const INTEGER& call__id, const MNCC__cause& cause); -extern MNCC__PDU_template ts__MNCC__SIMPLE__RTP(const MNCC__MsgType& msg__type, const INTEGER& call__id); -extern MNCC__PDU_template ts__MNCC__RTP__CREATE(const INTEGER& call__id); -extern MNCC__PDU_template tr__MNCC__RTP__CREATE(const INTEGER_template& call__id); -extern MNCC__PDU_template ts__MNCC__RTP__CONNECT(const INTEGER& call__id, const INTEGER& ip, const INTEGER& rtp__port, const INTEGER& pt); -extern MNCC__PDU_template tr__MNCC__RTP__CONNECT(const INTEGER_template& call__id, const INTEGER_template& ip, const INTEGER_template& rtp__port, const INTEGER_template& pt); -extern MNCC__PDU_template ts__MNCC__RTP__FREE(const INTEGER& call__id); -extern INTEGER f__mncc__get__call__id(const MNCC__PDU& pdu); - -/* Global variable declarations */ - -extern const TTCN_RAWdescriptor_t int__raw_; -extern const XERdescriptor_t int__xer_; -extern const TTCN_Typedescriptor_t int__descr_; -extern UNIVERSAL_CHARSTRING int__default_coding; -extern const TTCN_RAWdescriptor_t GSM48__bcap__ra_raw_; -extern const TTCN_Typedescriptor_t GSM48__bcap__ra_descr_; -extern UNIVERSAL_CHARSTRING GSM48__bcap__ra_default_coding; -extern const TTCN_RAWdescriptor_t GSM48__bcap__sig__access_raw_; -extern const TTCN_Typedescriptor_t GSM48__bcap__sig__access_descr_; -extern UNIVERSAL_CHARSTRING GSM48__bcap__sig__access_default_coding; -extern const TTCN_RAWdescriptor_t GSM48__bcap__user__rate_raw_; -extern const TTCN_Typedescriptor_t GSM48__bcap__user__rate_descr_; -extern UNIVERSAL_CHARSTRING GSM48__bcap__user__rate_default_coding; -extern const TTCN_RAWdescriptor_t GSM48__bcap__parity_raw_; -extern const TTCN_Typedescriptor_t GSM48__bcap__parity_descr_; -extern UNIVERSAL_CHARSTRING GSM48__bcap__parity_default_coding; -extern const TTCN_RAWdescriptor_t GSM48__bcap__interm__rate_raw_; -extern const TTCN_Typedescriptor_t GSM48__bcap__interm__rate_descr_; -extern UNIVERSAL_CHARSTRING GSM48__bcap__interm__rate_default_coding; -extern const TTCN_RAWdescriptor_t GSM48__bcap__transp_raw_; -extern const TTCN_Typedescriptor_t GSM48__bcap__transp_descr_; -extern UNIVERSAL_CHARSTRING GSM48__bcap__transp_default_coding; -extern const TTCN_RAWdescriptor_t GSM48__bcap__modem__type_raw_; -extern const TTCN_Typedescriptor_t GSM48__bcap__modem__type_descr_; -extern UNIVERSAL_CHARSTRING GSM48__bcap__modem__type_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__MsgType_raw_; -extern const TTCN_Typedescriptor_t MNCC__MsgType_descr_; -extern UNIVERSAL_CHARSTRING MNCC__MsgType_default_coding; -extern const INTEGER& GSM__MAX__FACILITY; -extern const INTEGER& GSM__MAX__SSVERSION; -extern const INTEGER& GSM__MAX__USERUSER; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_rate__adaptation_raw_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap__data_rate__adaptation_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_rate__adaptation_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_sig__access_raw_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap__data_sig__access_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_sig__access_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_async_raw_; -extern const XERdescriptor_t MNCC__bearer__cap__data_async_xer_; -extern const TTCN_OERdescriptor_t MNCC__bearer__cap__data_async_oer_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap__data_async_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_async_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_nr__stop__bits_raw_; -extern const XERdescriptor_t MNCC__bearer__cap__data_nr__stop__bits_xer_; -extern const TTCN_OERdescriptor_t MNCC__bearer__cap__data_nr__stop__bits_oer_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap__data_nr__stop__bits_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_nr__stop__bits_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_nr__data__bits_raw_; -extern const XERdescriptor_t MNCC__bearer__cap__data_nr__data__bits_xer_; -extern const TTCN_OERdescriptor_t MNCC__bearer__cap__data_nr__data__bits_oer_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap__data_nr__data__bits_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_nr__data__bits_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_user__rate_raw_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap__data_user__rate_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_user__rate_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_parity_raw_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap__data_parity_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_parity_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_interm__rate_raw_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap__data_interm__rate_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_interm__rate_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_transp_raw_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap__data_transp_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_transp_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_modem__type_raw_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap__data_modem__type_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_modem__type_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap__data_raw_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap__data_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap__data_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__speech__vers_raw_; -extern const TTCN_Typedescriptor_t MNCC__speech__vers_descr_; -extern const TTCN_RAWdescriptor_t MNCC__speech__vers_0_raw_; -extern const XERdescriptor_t MNCC__speech__vers_0_xer_; -extern const TTCN_OERdescriptor_t MNCC__speech__vers_0_oer_; -extern const TTCN_Typedescriptor_t MNCC__speech__vers_0_descr_; -extern UNIVERSAL_CHARSTRING MNCC__speech__vers_0_default_coding; -extern UNIVERSAL_CHARSTRING MNCC__speech__vers_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap_transfer_raw_; -extern const XERdescriptor_t MNCC__bearer__cap_transfer_xer_; -extern const TTCN_OERdescriptor_t MNCC__bearer__cap_transfer_oer_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap_transfer_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap_transfer_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap_mode_raw_; -extern const XERdescriptor_t MNCC__bearer__cap_mode_xer_; -extern const TTCN_OERdescriptor_t MNCC__bearer__cap_mode_oer_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap_mode_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap_mode_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap_coding_raw_; -extern const XERdescriptor_t MNCC__bearer__cap_coding_xer_; -extern const TTCN_OERdescriptor_t MNCC__bearer__cap_coding_oer_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap_coding_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap_coding_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap_radio_raw_; -extern const XERdescriptor_t MNCC__bearer__cap_radio_xer_; -extern const TTCN_OERdescriptor_t MNCC__bearer__cap_radio_oer_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap_radio_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap_radio_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap_speech__ctm_raw_; -extern const XERdescriptor_t MNCC__bearer__cap_speech__ctm_xer_; -extern const TTCN_OERdescriptor_t MNCC__bearer__cap_speech__ctm_oer_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap_speech__ctm_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap_speech__ctm_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap_speech__ver_raw_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap_speech__ver_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap_speech__ver_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap_raw_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap_descr_; -extern const TTCN_RAWdescriptor_t MNCC__bearer__cap_data_raw_; -extern const TTCN_Typedescriptor_t MNCC__bearer__cap_data_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap_data_default_coding; -extern UNIVERSAL_CHARSTRING MNCC__bearer__cap_default_coding; -extern const MNCC__bearer__cap_template& ts__MNCC__bcap__voice; -extern const TTCN_RAWdescriptor_t GSM48__type__of__number_raw_; -extern const TTCN_Typedescriptor_t GSM48__type__of__number_descr_; -extern UNIVERSAL_CHARSTRING GSM48__type__of__number_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__number_number__type_raw_; -extern const TTCN_Typedescriptor_t MNCC__number_number__type_descr_; -extern UNIVERSAL_CHARSTRING MNCC__number_number__type_default_coding; -extern const TTCN_RAWdescriptor_t GSM48__num__plan__ind_raw_; -extern const TTCN_Typedescriptor_t GSM48__num__plan__ind_descr_; -extern UNIVERSAL_CHARSTRING GSM48__num__plan__ind_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__number_plan_raw_; -extern const TTCN_Typedescriptor_t MNCC__number_plan_descr_; -extern UNIVERSAL_CHARSTRING MNCC__number_plan_default_coding; -extern const TTCN_RAWdescriptor_t GSM48__present__ind_raw_; -extern const TTCN_Typedescriptor_t GSM48__present__ind_descr_; -extern UNIVERSAL_CHARSTRING GSM48__present__ind_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__number_presence_raw_; -extern const TTCN_Typedescriptor_t MNCC__number_presence_descr_; -extern UNIVERSAL_CHARSTRING MNCC__number_presence_default_coding; -extern const TTCN_RAWdescriptor_t GSM48__screening__ind_raw_; -extern const TTCN_Typedescriptor_t GSM48__screening__ind_descr_; -extern UNIVERSAL_CHARSTRING GSM48__screening__ind_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__number_screen_raw_; -extern const TTCN_Typedescriptor_t MNCC__number_screen_descr_; -extern UNIVERSAL_CHARSTRING MNCC__number_screen_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__number_number_raw_; -extern const XERdescriptor_t MNCC__number_number_xer_; -extern const TTCN_Typedescriptor_t MNCC__number_number_descr_; -extern UNIVERSAL_CHARSTRING MNCC__number_number_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__number_raw_; -extern const TTCN_Typedescriptor_t MNCC__number_descr_; -extern UNIVERSAL_CHARSTRING MNCC__number_default_coding; -extern const TTCN_RAWdescriptor_t GSM48__cause__coding_raw_; -extern const TTCN_Typedescriptor_t GSM48__cause__coding_descr_; -extern UNIVERSAL_CHARSTRING GSM48__cause__coding_default_coding; -extern const TTCN_RAWdescriptor_t GSM48__cause__loc_raw_; -extern const TTCN_Typedescriptor_t GSM48__cause__loc_descr_; -extern UNIVERSAL_CHARSTRING GSM48__cause__loc_default_coding; -extern const GSM48__type__of__number& ts__MNCC__number_ton_defval; -extern const GSM48__num__plan__ind& ts__MNCC__number_npi_defval; -extern const GSM48__present__ind& ts__MNCC__number_pres_defval; -extern const GSM48__screening__ind& ts__MNCC__number_screen_defval; -extern const GSM48__type__of__number_template& tr__MNCC__number_ton_defval; -extern const GSM48__num__plan__ind_template& tr__MNCC__number_npi_defval; -extern const GSM48__present__ind_template& tr__MNCC__number_pres_defval; -extern const GSM48__screening__ind_template& tr__MNCC__number_screen_defval; -extern const TTCN_RAWdescriptor_t MNCC__cause_location_raw_; -extern const TTCN_Typedescriptor_t MNCC__cause_location_descr_; -extern UNIVERSAL_CHARSTRING MNCC__cause_location_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__cause_coding_raw_; -extern const TTCN_Typedescriptor_t MNCC__cause_coding_descr_; -extern UNIVERSAL_CHARSTRING MNCC__cause_coding_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__cause_rec_raw_; -extern const XERdescriptor_t MNCC__cause_rec_xer_; -extern const TTCN_OERdescriptor_t MNCC__cause_rec_oer_; -extern const TTCN_Typedescriptor_t MNCC__cause_rec_descr_; -extern UNIVERSAL_CHARSTRING MNCC__cause_rec_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__cause_rec__val_raw_; -extern const XERdescriptor_t MNCC__cause_rec__val_xer_; -extern const TTCN_OERdescriptor_t MNCC__cause_rec__val_oer_; -extern const TTCN_Typedescriptor_t MNCC__cause_rec__val_descr_; -extern UNIVERSAL_CHARSTRING MNCC__cause_rec__val_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__cause_val_raw_; -extern const XERdescriptor_t MNCC__cause_val_xer_; -extern const TTCN_OERdescriptor_t MNCC__cause_val_oer_; -extern const TTCN_Typedescriptor_t MNCC__cause_val_descr_; -extern UNIVERSAL_CHARSTRING MNCC__cause_val_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__cause_diag_raw_; -extern const XERdescriptor_t MNCC__cause_diag_xer_; -extern const TTCN_OERdescriptor_t MNCC__cause_diag_oer_; -extern const TTCN_Typedescriptor_t MNCC__cause_diag_descr_; -extern UNIVERSAL_CHARSTRING MNCC__cause_diag_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__cause_raw_; -extern const TTCN_Typedescriptor_t MNCC__cause_descr_; -extern UNIVERSAL_CHARSTRING MNCC__cause_default_coding; -extern const GSM48__cause__loc& ts__MNCC__cause_loc_defval; -extern const GSM48__cause__coding& ts__MNCC__cause_coding_defval; -extern const OCTETSTRING& ts__MNCC__cause_diag_defval; -extern const TTCN_RAWdescriptor_t MNCC__useruser_proto_raw_; -extern const XERdescriptor_t MNCC__useruser_proto_xer_; -extern const TTCN_OERdescriptor_t MNCC__useruser_proto_oer_; -extern const TTCN_Typedescriptor_t MNCC__useruser_proto_descr_; -extern UNIVERSAL_CHARSTRING MNCC__useruser_proto_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__useruser_info_raw_; -extern const XERdescriptor_t MNCC__useruser_info_xer_; -extern const TTCN_Typedescriptor_t MNCC__useruser_info_descr_; -extern UNIVERSAL_CHARSTRING MNCC__useruser_info_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__useruser_raw_; -extern const TTCN_Typedescriptor_t MNCC__useruser_descr_; -extern UNIVERSAL_CHARSTRING MNCC__useruser_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__progress_coding_raw_; -extern const XERdescriptor_t MNCC__progress_coding_xer_; -extern const TTCN_OERdescriptor_t MNCC__progress_coding_oer_; -extern const TTCN_Typedescriptor_t MNCC__progress_coding_descr_; -extern UNIVERSAL_CHARSTRING MNCC__progress_coding_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__progress_location_raw_; -extern const XERdescriptor_t MNCC__progress_location_xer_; -extern const TTCN_OERdescriptor_t MNCC__progress_location_oer_; -extern const TTCN_Typedescriptor_t MNCC__progress_location_descr_; -extern UNIVERSAL_CHARSTRING MNCC__progress_location_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__progress_descr_raw_; -extern const XERdescriptor_t MNCC__progress_descr_xer_; -extern const TTCN_OERdescriptor_t MNCC__progress_descr_oer_; -extern const TTCN_Typedescriptor_t MNCC__progress_descr_descr_; -extern UNIVERSAL_CHARSTRING MNCC__progress_descr_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__progress_raw_; -extern const TTCN_Typedescriptor_t MNCC__progress_descr_; -extern UNIVERSAL_CHARSTRING MNCC__progress_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__cccap_dtmf_raw_; -extern const XERdescriptor_t MNCC__cccap_dtmf_xer_; -extern const TTCN_OERdescriptor_t MNCC__cccap_dtmf_oer_; -extern const TTCN_Typedescriptor_t MNCC__cccap_dtmf_descr_; -extern UNIVERSAL_CHARSTRING MNCC__cccap_dtmf_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__cccap_pcp_raw_; -extern const XERdescriptor_t MNCC__cccap_pcp_xer_; -extern const TTCN_OERdescriptor_t MNCC__cccap_pcp_oer_; -extern const TTCN_Typedescriptor_t MNCC__cccap_pcp_descr_; -extern UNIVERSAL_CHARSTRING MNCC__cccap_pcp_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__cccap_raw_; -extern const TTCN_Typedescriptor_t MNCC__cccap_descr_; -extern UNIVERSAL_CHARSTRING MNCC__cccap_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__notify_raw_; -extern const XERdescriptor_t MNCC__notify_xer_; -extern const TTCN_OERdescriptor_t MNCC__notify_oer_; -extern const TTCN_Typedescriptor_t MNCC__notify_descr_; -extern UNIVERSAL_CHARSTRING MNCC__notify_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__keypad_raw_; -extern const XERdescriptor_t MNCC__keypad_xer_; -extern const TTCN_Typedescriptor_t MNCC__keypad_descr_; -extern UNIVERSAL_CHARSTRING MNCC__keypad_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__bcap_raw_; -extern const TTCN_Typedescriptor_t MNCC__bcap_descr_; -extern UNIVERSAL_CHARSTRING MNCC__bcap_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_callref_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_callref_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Signal_callref_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_callref_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_callref_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_clir__sup_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_clir__sup_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Signal_clir__sup_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_clir__sup_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_clir__sup_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_clir__inv_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_clir__inv_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Signal_clir__inv_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_clir__inv_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_clir__inv_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_more_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_more_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Signal_more_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_more_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_more_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_notify_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_notify_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Signal_notify_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_notify_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_notify_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_imsi_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_imsi_xer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_imsi_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_imsi_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_lchan__type_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_lchan__type_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Signal_lchan__type_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_lchan__type_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_lchan__type_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_lchan__mode_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_lchan__mode_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Signal_lchan__mode_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_lchan__mode_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_lchan__mode_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_descr_; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_bearer__cap_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_bearer__cap_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_bearer__cap_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_called_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_called_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_called_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_calling_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_calling_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_calling_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_redirecting_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_redirecting_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_redirecting_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_connected_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_connected_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_connected_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_cause_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_cause_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_cause_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_progress_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_progress_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_progress_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_useruser_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_useruser_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_useruser_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_facility_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_facility_xer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_facility_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_facility_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_cccap_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_cccap_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_cccap_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_ssversion_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_ssversion_xer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_ssversion_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_ssversion_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_signal_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_signal_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Signal_signal_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_signal_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_signal_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_keypad_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_keypad_xer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_keypad_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_keypad_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Signal_emergency_raw_; -extern const XERdescriptor_t MNCC__PDU__Signal_emergency_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Signal_emergency_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Signal_emergency_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_emergency_default_coding; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Signal_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Data_callref_raw_; -extern const XERdescriptor_t MNCC__PDU__Data_callref_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Data_callref_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Data_callref_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Data_callref_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Data_data_raw_; -extern const XERdescriptor_t MNCC__PDU__Data_data_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Data_data_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Data_data_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Data_data_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Data_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Data_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Data_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_callref_raw_; -extern const XERdescriptor_t MNCC__PDU__Rtp_callref_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Rtp_callref_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Rtp_callref_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_callref_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_ip_raw_; -extern const XERdescriptor_t MNCC__PDU__Rtp_ip_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Rtp_ip_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Rtp_ip_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_ip_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_rtp__port_raw_; -extern const XERdescriptor_t MNCC__PDU__Rtp_rtp__port_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Rtp_rtp__port_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Rtp_rtp__port_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_rtp__port_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_payload__type_raw_; -extern const XERdescriptor_t MNCC__PDU__Rtp_payload__type_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Rtp_payload__type_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Rtp_payload__type_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_payload__type_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_payload__msg__type_raw_; -extern const XERdescriptor_t MNCC__PDU__Rtp_payload__msg__type_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Rtp_payload__msg__type_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Rtp_payload__msg__type_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_payload__msg__type_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Rtp_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Rtp_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Rtp_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Hello_version_raw_; -extern const XERdescriptor_t MNCC__PDU__Hello_version_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Hello_version_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Hello_version_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Hello_version_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Hello_mncc__size_raw_; -extern const XERdescriptor_t MNCC__PDU__Hello_mncc__size_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Hello_mncc__size_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Hello_mncc__size_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Hello_mncc__size_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Hello_data__frame__size_raw_; -extern const XERdescriptor_t MNCC__PDU__Hello_data__frame__size_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Hello_data__frame__size_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Hello_data__frame__size_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Hello_data__frame__size_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Hello_called__offset_raw_; -extern const XERdescriptor_t MNCC__PDU__Hello_called__offset_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Hello_called__offset_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Hello_called__offset_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Hello_called__offset_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Hello_signal__offset_raw_; -extern const XERdescriptor_t MNCC__PDU__Hello_signal__offset_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Hello_signal__offset_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Hello_signal__offset_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Hello_signal__offset_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Hello_emergency__offset_raw_; -extern const XERdescriptor_t MNCC__PDU__Hello_emergency__offset_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Hello_emergency__offset_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Hello_emergency__offset_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Hello_emergency__offset_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Hello_lchan__type__offset_raw_; -extern const XERdescriptor_t MNCC__PDU__Hello_lchan__type__offset_xer_; -extern const TTCN_OERdescriptor_t MNCC__PDU__Hello_lchan__type__offset_oer_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Hello_lchan__type__offset_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Hello_lchan__type__offset_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU__Hello_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU__Hello_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU__Hello_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__MsgUnion_raw_; -extern const TTCN_Typedescriptor_t MNCC__MsgUnion_descr_; -extern const TTCN_RAWdescriptor_t MNCC__MsgUnion_signal_raw_; -extern const TTCN_Typedescriptor_t MNCC__MsgUnion_signal_descr_; -extern UNIVERSAL_CHARSTRING MNCC__MsgUnion_signal_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__MsgUnion_data_raw_; -extern const TTCN_Typedescriptor_t MNCC__MsgUnion_data_descr_; -extern UNIVERSAL_CHARSTRING MNCC__MsgUnion_data_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__MsgUnion_rtp_raw_; -extern const TTCN_Typedescriptor_t MNCC__MsgUnion_rtp_descr_; -extern UNIVERSAL_CHARSTRING MNCC__MsgUnion_rtp_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__MsgUnion_hello_raw_; -extern const TTCN_Typedescriptor_t MNCC__MsgUnion_hello_descr_; -extern UNIVERSAL_CHARSTRING MNCC__MsgUnion_hello_default_coding; -extern UNIVERSAL_CHARSTRING MNCC__MsgUnion_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU_msg__type_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU_msg__type_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU_msg__type_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU_u_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU_u_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU_u_default_coding; -extern const TTCN_RAWdescriptor_t MNCC__PDU_raw_; -extern const TTCN_Typedescriptor_t MNCC__PDU_descr_; -extern UNIVERSAL_CHARSTRING MNCC__PDU_default_coding; -extern const INTEGER& ts__MNCC__HELLO_version_defval; -extern const CHARSTRING& ts__MNCC__SETUP__req_imsi_defval; -extern const INTEGER_template& tr__MNCC__SETUP__req_call__id_defval; -extern const CHARSTRING_template& tr__MNCC__SETUP__req_called_defval; -extern const CHARSTRING_template& tr__MNCC__SETUP__req_calling_defval; -extern const CHARSTRING_template& tr__MNCC__SETUP__req_imsi_defval; -extern const CHARSTRING& ts__MNCC__SETUP__rsp_imsi_defval; -extern const MNCC__number_template& ts__MNCC__SETUP__rsp_connected_defval; -extern const CHARSTRING_template& tr__MNCC__SETUP__rsp_imsi_defval; -extern const MNCC__number_template& tr__MNCC__SETUP__rsp_connected_defval; -extern const INTEGER_template& tr__MNCC__SETUP__ind_call__id_defval; -extern const MNCC__number_template& tr__MNCC__SETUP__ind_called_defval; -extern const MNCC__number_template& tr__MNCC__SETUP__ind_calling_defval; -extern const CHARSTRING_template& tr__MNCC__SETUP__ind_imsi_defval; -extern const MNCC__number_template& ts__MNCC__SETUP__ind_calling_defval; -extern const CHARSTRING_template& ts__MNCC__SETUP__ind_imsi_defval; -extern const MNCC__bearer__cap_template& ts__MNCC__SETUP__ind_bcap_defval; -extern const MNCC__number_template& ts__MNCC__SETUP__CNF_connected_defval; -extern const MNCC__number_template& tr__MNCC__SETUP__cnf_connected_defval; -extern const INTEGER_template& tr__MNCC__SETUP__COMPL__ind_call__id_defval; -extern const MNCC__cause_template& tr__MNCC__REJ__req_cause_defval; -extern const MNCC__cause_template& ts__MNCC__REJ__ind_cause_defval; -extern const MNCC__bearer__cap_template& tr__MNCC__CALL__CONF__ind_bcap_defval; -extern const MNCC__cause_template& tr__MNCC__CALL__CONF__ind_cause_defval; -extern const MNCC__cccap_template& tr__MNCC__CALL__CONF__ind_cccap_defval; -extern const MNCC__bearer__cap_template& ts__MNCC__CALL__CONF__ind_bcap_defval; -extern const MNCC__cause_template& ts__MNCC__CALL__CONF__ind_cause_defval; -extern const MNCC__cccap_template& ts__MNCC__CALL__CONF__ind_cccap_defval; -extern const MNCC__bearer__cap_template& ts__MNCC__CALL__PROC__req_bcap_defval; -extern const MNCC__progress_template& ts__MNCC__CALL__PROC__req_prog_defval; -extern const CHARSTRING_template& ts__MNCC__CALL__PROC__req_fac_defval; -extern const MNCC__cccap_template& ts__MNCC__CALL__PROC__req_cccap_defval; -extern const MNCC__bearer__cap_template& tr__MNCC__CALL__PROC__req_bcap_defval; -extern const MNCC__progress_template& tr__MNCC__CALL__PROC__req_prog_defval; -extern const CHARSTRING_template& tr__MNCC__CALL__PROC__req_fac_defval; -extern const MNCC__cccap_template& tr__MNCC__CALL__PROC__req_cccap_defval; -extern const MNCC__useruser_template& ts__MNCC__PROGRESS__req_uu_defval; -extern const MNCC__progress_template& ts__MNCC__ALERT__req_prog_defval; -extern const CHARSTRING_template& ts__MNCC__ALERT__req_fac_defval; -extern const MNCC__useruser_template& ts__MNCC__ALERT__req_uu_defval; -extern const MNCC__progress_template& tr__MNCC__ALERT__req_prog_defval; -extern const CHARSTRING_template& tr__MNCC__ALERT__req_fac_defval; -extern const MNCC__useruser_template& tr__MNCC__ALERT__req_uu_defval; -extern const MNCC__progress_template& tr__MNCC__ALERT__ind_prog_defval; -extern const CHARSTRING_template& tr__MNCC__ALERT__ind_fac_defval; -extern const MNCC__useruser_template& tr__MNCC__ALERT__ind_uu_defval; -extern const MNCC__progress_template& ts__MNCC__ALERT__ind_prog_defval; -extern const CHARSTRING_template& ts__MNCC__ALERT__ind_fac_defval; -extern const MNCC__useruser_template& ts__MNCC__ALERT__ind_uu_defval; -extern const INTEGER_template& tr__MNCC__DISC__ind_call__id_defval; -extern const MNCC__cause_template& tr__MNCC__DISC__ind_cause_defval; -extern const MNCC__progress_template& tr__MNCC__DISC__ind_prog_defval; -extern const CHARSTRING_template& tr__MNCC__DISC__ind_fac_defval; -extern const MNCC__useruser_template& tr__MNCC__DISC__ind_uu_defval; -extern const MNCC__progress_template& ts__MNCC__DISC__ind_prog_defval; -extern const CHARSTRING_template& ts__MNCC__DISC__ind_fac_defval; -extern const MNCC__useruser_template& ts__MNCC__DISC__ind_uu_defval; -extern const MNCC__progress_template& ts__MNCC__DISC__req_prog_defval; -extern const CHARSTRING_template& ts__MNCC__DISC__req_fac_defval; -extern const MNCC__useruser_template& ts__MNCC__DISC__req_uu_defval; -extern const MNCC__cause_template& tr__MNCC__DISC__req_cause_defval; -extern const MNCC__progress_template& tr__MNCC__DISC__req_prog_defval; -extern const CHARSTRING_template& tr__MNCC__DISC__req_fac_defval; -extern const MNCC__useruser_template& tr__MNCC__DISC__req_uu_defval; -extern const INTEGER_template& tr__MNCC__REL__ind_call__id_defval; -extern const MNCC__cause_template& tr__MNCC__REL__ind_cause_defval; -extern const CHARSTRING_template& tr__MNCC__REL__ind_fac_defval; -extern const MNCC__useruser_template& tr__MNCC__REL__ind_uu_defval; -extern const CHARSTRING_template& ts__MNCC__REL__ind_fac_defval; -extern const MNCC__useruser_template& ts__MNCC__REL__ind_uu_defval; -extern const CHARSTRING_template& ts__MNCC__REL__req_fac_defval; -extern const MNCC__useruser_template& ts__MNCC__REL__req_uu_defval; -extern const MNCC__cause_template& tr__MNCC__REL__req_cause_defval; -extern const CHARSTRING_template& tr__MNCC__REL__req_fac_defval; -extern const MNCC__useruser_template& tr__MNCC__REL__req_uu_defval; -extern const INTEGER_template& tr__MNCC__REL__cnf_call__id_defval; -extern const MNCC__cause_template& tr__MNCC__REL__cnf_cause_defval; -extern const CHARSTRING_template& tr__MNCC__REL__cnf_fac_defval; -extern const MNCC__useruser_template& tr__MNCC__REL__cnf_uu_defval; -extern const CHARSTRING_template& ts__MNCC__REL__cnf_fac_defval; -extern const MNCC__useruser_template& ts__MNCC__REL__cnf_uu_defval; -extern const INTEGER_template& tr__MNCC__FACILITY__ind_call__id_defval; -extern const CHARSTRING_template& tr__MNCC__FACILITY__ind_fac_defval; -extern const INTEGER_template& tr__MNCC__START__DTMF__ind_call__id_defval; -extern const CHARSTRING_template& tr__MNCC__START__DTMF__ind_keypad_defval; -extern const INTEGER_template& tr__MNCC__STOP__DTMF__ind_call__id_defval; -extern const INTEGER_template& tr__MNCC__MODIFY__ind_call__id_defval; -extern const MNCC__bearer__cap_template& tr__MNCC__MODIFY__ind_bcap_defval; -extern const INTEGER_template& tr__MNCC__MODIFY__cnf_call__id_defval; -extern const MNCC__bearer__cap_template& tr__MNCC__MODIFY__cnf_bcap_defval; -extern const INTEGER_template& tr__MNCC__USERINFO__ind_call__id_defval; -extern const MNCC__useruser_template& tr__MNCC__USERINFO__ind_uu_defval; -extern const INTEGER_template& tr__MNCC__HOLD__ind_call__id_defval; -extern const INTEGER_template& tr__MNCC__RETRIEVE__ind_call__id_defval; -extern const INTEGER_template& tr__MNCC__RTP__CREATE_call__id_defval; -extern const INTEGER_template& tr__MNCC__RTP__CONNECT_ip_defval; -extern const INTEGER_template& tr__MNCC__RTP__CONNECT_rtp__port_defval; -extern const INTEGER_template& tr__MNCC__RTP__CONNECT_pt_defval; -extern TTCN_Module module_object; - -} /* end of namespace */ - -#endif diff --git a/titan/MNCC_Types.ttcn b/titan/MNCC_Types.ttcn new file mode 100644 index 0000000..f5028d2 --- /dev/null +++ b/titan/MNCC_Types.ttcn @@ -0,0 +1,1939 @@ +module MNCC_Types { + +import from Osmocom_Types all; + +/* for architectures where 'int' is 32bit like x86_64 */ +type integer int with { variant "FIELDLENGTH(32)" }; + + +/* GSM 04.08 Bearer Capability: Rate Adaption */ +type enumerated GSM48_bcap_ra { + GSM48_BCAP_RA_NONE (0), + GSM48_BCAP_RA_V110_X30 (1), + GSM48_BCAP_RA_X31 (2), + GSM48_BCAP_RA_OTHER (3) +}; + +/* GSM 04.08 Bearer Capability: Signalling access protocol */ +type enumerated GSM48_bcap_sig_access { + GSM48_BCAP_SA_NONE (0), + GSM48_BCAP_SA_I440_I450 (1), + GSM48_BCAP_SA_X21 (2), + GSM48_BCAP_SA_X28_DP_IN (3), + GSM48_BCAP_SA_X28_DP_UN (4), + GSM48_BCAP_SA_X28_NDP (5), + GSM48_BCAP_SA_X32 (6) +}; + +/* GSM 04.08 Bearer Capability: User Rate */ +type enumerated GSM48_bcap_user_rate { + GSM48_BCAP_UR_NONE (0), + GSM48_BCAP_UR_300 (1), + GSM48_BCAP_UR_1200 (2), + GSM48_BCAP_UR_2400 (3), + GSM48_BCAP_UR_4800 (4), + GSM48_BCAP_UR_9600 (5), + GSM48_BCAP_UR_12000 (6), + GSM48_BCAP_UR_1200_75 (7) +}; + +/* GSM 04.08 Bearer Capability: Parity */ +type enumerated GSM48_bcap_parity { + GSM48_BCAP_PAR_ODD (0), + GSM48_BCAP_PAR_EVEN (2), + GSM48_BCAP_PAR_NONE (3), + GSM48_BCAP_PAR_ZERO (4), + GSM48_BCAP_PAR_ONE (5) +}; + +/* GSM 04.08 Bearer Capability: Intermediate Rate */ +type enumerated GSM48_bcap_interm_rate { + GSM48_BCAP_IR_NONE (0), + GSM48_BCAP_IR_8k (2), + GSM48_BCAP_IR_16k (3) +}; + +/* GSM 04.08 Bearer Capability: Transparency */ +type enumerated GSM48_bcap_transp { + GSM48_BCAP_TR_TRANSP (0), + GSM48_BCAP_TR_RLP (1), + GSM48_BCAP_TR_TR_PREF (2), + GSM48_BCAP_TR_RLP_PREF (3) +}; + +/* GSM 04.08 Bearer Capability: Modem Type */ +type enumerated GSM48_bcap_modem_type { + GSM48_BCAP_MT_NONE (0), + GSM48_BCAP_MT_V21 (1), + GSM48_BCAP_MT_V22 (2), + GSM48_BCAP_MT_V22bis (3), + GSM48_BCAP_MT_V23 (4), + GSM48_BCAP_MT_V26ter (5), + GSM48_BCAP_MT_V32 (6), + GSM48_BCAP_MT_UNDEF (7), + GSM48_BCAP_MT_AUTO_1 (8) +}; + +type enumerated MNCC_MsgType { + MNCC_SETUP_REQ ('0101'O), + MNCC_SETUP_IND ('0102'O), + MNCC_SETUP_RSP ('0103'O), + MNCC_SETUP_CNF ('0104'O), + MNCC_SETUP_COMPL_REQ ('0105'O), + MNCC_SETUP_COMPL_IND ('0106'O), + MNCC_CALL_CONF_IND ('0107'O), + MNCC_CALL_PROC_REQ ('0108'O), + MNCC_PROGRESS_REQ ('0109'O), + MNCC_ALERT_REQ ('010a'O), + MNCC_ALERT_IND ('010b'O), + MNCC_NOTIFY_REQ ('010c'O), + MNCC_NOTIFY_IND ('010d'O), + MNCC_DISC_REQ ('010e'O), + MNCC_DISC_IND ('010f'O), + MNCC_REL_REQ ('0110'O), + MNCC_REL_IND ('0111'O), + MNCC_REL_CNF ('0112'O), + MNCC_FACILITY_REQ ('0113'O), + MNCC_FACILITY_IND ('0114'O), + MNCC_START_DTMF_IND ('0115'O), + MNCC_START_DTMF_RSP ('0116'O), + MNCC_START_DTMF_REJ ('0117'O), + MNCC_STOP_DTMF_IND ('0118'O), + MNCC_STOP_DTMF_RSP ('0119'O), + MNCC_MODIFY_REQ ('011a'O), + MNCC_MODIFY_IND ('011b'O), + MNCC_MODIFY_RSP ('011c'O), + MNCC_MODIFY_CNF ('011d'O), + MNCC_MODIFY_REJ ('011e'O), + MNCC_HOLD_IND ('011f'O), + MNCC_HOLD_CNF ('0120'O), + MNCC_HOLD_REJ ('0121'O), + MNCC_RETRIEVE_IND ('0122'O), + MNCC_RETRIEVE_CNF ('0123'O), + MNCC_RETRIEVE_REJ ('0124'O), + MNCC_USERINFO_REQ ('0125'O), + MNCC_USERINFO_IND ('0126'O), + MNCC_REJ_REQ ('0127'O), + MNCC_REJ_IND ('0128'O), + MNCC_PROGRESS_IND ('0129'O), + MNCC_CALL_PROC_IND ('012a'O), + MNCC_CALL_CONF_REQ ('012b'O), + MNCC_START_DTMF_REQ ('012c'O), + MNCC_STOP_DTMF_REQ ('012d'O), + MNCC_HOLD_REQ ('012e'O), + MNCC_RETRIEVE_REQ ('012f'O), + + MNCC_BRIDGE ('0200'O), + MNCC_FRAME_RECV ('0201'O), + MNCC_FRAME_DROP ('0202'O), + MNCC_LCHAN_MODIFY ('0203'O), + MNCC_RTP_CREATE ('0204'O), + MNCC_RTP_CONNECT ('0205'O), + MNCC_RTP_FREE ('0206'O), + + GSM_TCHF_FRAME ('0300'O), + GSM_TCHF_FRAME_EFR ('0301'O), + GSM_TCHH_FRAME ('0302'O), + GSM_TCH_FRAME_AMR ('0303'O), + GSM_BAD_FRAME ('03ff'O), + + MNCC_SOCKET_HELLO ('0400'O) +}; + +const integer GSM_MAX_FACILITY := 128; +const integer GSM_MAX_SSVERSION := 128; +const integer GSM_MAX_USERUSER := 128; + +type record MNCC_bearer_cap_data { + GSM48_bcap_ra rate_adaptation, + GSM48_bcap_sig_access sig_access, + int async, + int nr_stop_bits, + int nr_data_bits, + GSM48_bcap_user_rate user_rate, + GSM48_bcap_parity parity, + GSM48_bcap_interm_rate interm_rate, + GSM48_bcap_transp transp, + GSM48_bcap_modem_type modem_type +}; + +type record length(0..8) of int MNCC_speech_vers; + +/* Expanded fields from GSM TS 04.08, Table 10.5.102 */ +type record MNCC_bearer_cap { + int transfer, + int mode, + int coding, + int radio, + int speech_ctm, + MNCC_speech_vers speech_ver, + MNCC_bearer_cap_data data optional +}; + +template MNCC_bearer_cap ts_MNCC_bcap_voice := { + transfer := 0, /* speech */ + mode := 0, /* circuit */ + coding := 0, /* GSM standard */ + radio := 3, /* FR/HR, FR preferred */ + speech_ctm := 0, /* not supported */ + speech_ver := { 0, 2, 4, 1, 5, -1 }, + data := omit +}; + +type record MNCC_number { + GSM48_type_of_number number_type, + GSM48_num_plan_ind plan, + GSM48_present_ind presence, + GSM48_screening_ind screen, + charstring number +}; + +/* 24.008 10.5.118 */ +type enumerated GSM48_num_plan_ind { + GSM48_NUMPLAN_UNKNOWN (0), + GSM48_NUMPLAN_E164 (1), + GSM48_NUMPLAN_X121 (3), + GSM48_NUMPLAN_F69 (4), + GSM48_NUMPLAN_NATIONAL (8), + GSM48_NUMPLAN_PRIVATE (9), + GSM48_NUMPLAN_CTS (11), + GSM48_NUMPLAN_RESERVED (15) +}; + +/* 04.08 10.5.118 */ +type enumerated GSM48_type_of_number { + GSM48_TON_UNKNOWN (0), + GSM48_TON_INTERNATIONAL (1), + GSM48_TON_NATIONAL (2), + GSM48_TON_NETWORK_SPECIFIC (3), + GSM48_TON_SHORT_CODE (4) +}; + +/* 04.08 10.5.120 */ +type enumerated GSM48_present_ind { + GSM48_PRES_IND_ALLOWED (0), + GSM48_PRES_IND_RESTRICTED (1), + GSM48_PRES_IND_NUM_NOT_AVAIL (2), + GSM48_PRES_IND_RESERVED (3) +}; + +type enumerated GSM48_screening_ind { + GSM48_SCR_IND_NOT_SCREENED (0), + GSM48_SCR_IND_VERIF_PASSED (1), + GSM48_SCR_IND_VERIF_FAILED (2), + GSM48_SCR_IND_NETW_PROVIDED (3) +}; + +/* 24.008 Table 10.5.122 */ +type enumerated GSM48_cause_coding { + GSM48_CAUSE_CS_Q931 ('00'B), + GSM48_CAUSE_CS_RSVD ('01'B), + GSM48_CAUSE_CS_NATIONAL ('10'B), + GSM48_CAUSE_CS_GSM ('11'B) +} + +type enumerated GSM48_cause_loc { + GSM48_CAUSE_LOC_USER ('0000'B), + GSM48_CAUSE_LOC_PRN_S_LU ('0001'B), + GSM48_CAUSE_LOC_PUN_S_LU ('0010'B), + GSM48_CAUSE_LOC_TRANS_NET ('0011'B), + GSM48_CAUSE_LOC_PUN_S_RU ('0100'B), + GSM48_CAUSE_LOC_PRN_S_RU ('0101'B), + GSM48_CAUSE_LOC_INN_NET ('0111'B), + GSM48_CAUSE_LOC_NET_BEYOND ('1010'B) +} + + + +template (value) MNCC_number ts_MNCC_number(charstring number, + GSM48_type_of_number ton := GSM48_TON_INTERNATIONAL, + GSM48_num_plan_ind npi := GSM48_NUMPLAN_E164, + GSM48_present_ind pres := GSM48_PRES_IND_ALLOWED, + GSM48_screening_ind screen := GSM48_SCR_IND_NOT_SCREENED) := { + number_type := ton, + plan := npi, + presence := pres, + screen := screen, + number := number +} + +template MNCC_number tr_MNCC_number(template charstring number, + template GSM48_type_of_number ton := ?, + template GSM48_num_plan_ind npi := ?, + template GSM48_present_ind pres := ?, + template GSM48_screening_ind screen := ?) := { + number_type := ton, + plan := npi, + presence := pres, + screen := screen, + number := number +} + +type record MNCC_cause { + GSM48_cause_loc location, + GSM48_cause_coding coding, + int rec, + int rec_val, + int val, + octetstring diag +} with { + variant (location) "FIELDLENGTH(32)"; + variant (coding) "FIELDLENGTH(32)"; +} + +template (value) MNCC_cause ts_MNCC_cause(int val, + GSM48_cause_loc loc := GSM48_CAUSE_LOC_PUN_S_LU, + GSM48_cause_coding coding := GSM48_CAUSE_CS_GSM, + octetstring diag := ''O) := { + location := loc, + coding := coding, + rec := 0, + rec_val := 0, + val := val, + diag := diag +} + +type record MNCC_useruser { + int proto, + charstring info +}; + +type record MNCC_progress { + int coding, + int location, + int descr +}; + +type record MNCC_cccap { + int dtmf, + int pcp +}; + +type int MNCC_notify (0..127); +type charstring MNCC_keypad length (1); + +type enumerated MNCC_bcap { + GSM_MNCC_BCAP_SPEECH (0), + GSM_MNCC_BCAP_UNR_DIG (1), + GSM_MNCC_BCAP_AUDIO (2), + GSM_MNCC_BCAP_FAX_G3 (3), + GSM_MNCC_BCAP_OTHER_ITC (4), + GSM_MNCC_BCAP_RESERVED (7) +}; + + +type record MNCC_PDU_Signal { + uint32_t callref, + + MNCC_bearer_cap bearer_cap optional, + MNCC_number called optional, + MNCC_number calling optional, + MNCC_number redirecting optional, + MNCC_number connected optional, + MNCC_cause cause optional, + MNCC_progress progress optional, + MNCC_useruser useruser optional, + charstring facility optional, + MNCC_cccap cccap optional, + charstring ssversion optional, + + int clir_sup, + int clir_inv, + int signal optional, + + MNCC_keypad keypad optional, + int more, + MNCC_notify notify, + int emergency optional, + charstring imsi, + + uint8_t lchan_type, /* empty in OSmoMSC */ + uint8_t lchan_mode /* empty in OsmoMSC */ +}; + + +type record MNCC_PDU_Data { + uint32_t callref, + octetstring data +}; + +type record MNCC_PDU_Rtp { + uint32_t callref, + uint32_t ip, + uint16_t rtp_port, + uint32_t payload_type, + uint32_t payload_msg_type +}; + +type record MNCC_PDU_Hello { + uint32_t version, + uint32_t mncc_size, + uint32_t data_frame_size, + uint32_t called_offset, + uint32_t signal_offset, + uint32_t emergency_offset, + uint32_t lchan_type_offset +}; + + +type union MNCC_MsgUnion { + MNCC_PDU_Signal signal, + MNCC_PDU_Data data, + MNCC_PDU_Rtp rtp, + MNCC_PDU_Hello hello +}; + + +type record MNCC_PDU { + MNCC_MsgType msg_type, + MNCC_MsgUnion u +} with { variant (u) "CROSSTAG( + hello, msg_type = MNCC_SOCKET_HELLO; + rtp, { msg_type = MNCC_RTP_CREATE, + msg_type = MNCC_RTP_CONNECT, + msg_type = MNCC_RTP_FREE }; + data, { msg_type = GSM_TCHF_FRAME, + msg_type = GSM_TCHF_FRAME_EFR, + msg_type = GSM_TCHH_FRAME, + msg_type = GSM_TCH_FRAME_AMR, + msg_type = GSM_BAD_FRAME }; + signal, OTHERWISE + )" +}; + +external function enc_MNCC_PDU(in MNCC_PDU pdu) return octetstring; + +external function dec_MNCC_PDU(in octetstring stream) return MNCC_PDU; + +template (value) MNCC_PDU ts_MNCC_HELLO(uint32_t version := 5) := { + msg_type := MNCC_SOCKET_HELLO, + u := { + hello := { + version := version, + mncc_size := 836, + data_frame_size := 8, + called_offset := 104, + signal_offset := 796, + emergency_offset := 812, + lchan_type_offset := 0 + } + } +} + +template MNCC_PDU ts_MNCC_Sign(MNCC_MsgType msg_type, MNCC_PDU_Signal sign) := { + msg_type := msg_type, + u := { + signal := sign + } +} + +template MNCC_PDU ts_MNCC_SIMPLE(MNCC_MsgType msg_type, uint32_t call_id) := { + msg_type := msg_type, + u := { + signal := { + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +template MNCC_PDU tr_MNCC_SIMPLE(template MNCC_MsgType msg_type, template uint32_t call_id) := { + msg_type := msg_type, + u := { + signal := { + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := *, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} + + + +/* MT: MSC <- MNCC: SETUP.req from ext. MNCC handler to MSC */ +template MNCC_PDU ts_MNCC_SETUP_req(uint32_t call_id, charstring called, charstring calling, charstring imsi := "") := { + msg_type := MNCC_SETUP_REQ, + u := { + signal := { /* See 24.008 9.3.23.1 */ + callref := call_id, + bearer_cap := ts_MNCC_bcap_voice, /* mandatory */ + called := valueof(ts_MNCC_number(called)), /* optional */ + calling := valueof(ts_MNCC_number(calling)), /* optional */ + redirecting := omit, /* optional */ + connected := omit, + cause := omit, + progress := omit, /* optional */ + useruser := omit, /* optional */ + facility := omit, /* optional */ + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, /* optional */ + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := imsi, + lchan_type := 0, + lchan_mode := 0 + } + } +}; +template MNCC_PDU tr_MNCC_SETUP_req(template uint32_t call_id := ?, + template charstring called := ?, + template charstring calling := *, + template charstring imsi := ?) := { + msg_type := MNCC_SETUP_REQ, + u := { + signal := { /* See 24.008 9.3.23.1 */ + callref := call_id, + bearer_cap := *, /* mandatory in CC */ + called := tr_MNCC_number(called), /* optional */ + calling := tr_MNCC_number(calling), /* optional */ + redirecting := *, /* optional */ + connected := omit, + cause := omit, + progress := *, /* optional */ + useruser := *, /* optional */ + facility := *, /* optional */ + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := *, /* optional */ + keypad := omit, + more := 0, + notify := 0, + emergency := *, + imsi := imsi, + lchan_type := ?, + lchan_mode := ? + } + } +}; + + +/* MO: MSC <- MNCC: Respons to SETUP.ind */ +template MNCC_PDU ts_MNCC_SETUP_rsp(uint32_t call_id, charstring imsi := "", + template MNCC_number connected := omit) := { + msg_type := MNCC_SETUP_RSP, + u := { + signal := { /* See 24.008 9.3.5 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := connected, + cause := omit, + progress := omit, + useruser := omit, /* optional */ + facility := omit, /* optional */ + cccap := omit, + ssversion := omit, /* optional */ + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := imsi, + lchan_type := 0, + lchan_mode := 0 + } + } +}; +template MNCC_PDU tr_MNCC_SETUP_rsp(template uint32_t call_id, + template charstring imsi := ?, + template MNCC_number connected := *) := { + msg_type := MNCC_SETUP_RSP, + u := { + signal := { /* See 24.008 9.3.5 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := connected, + cause := omit, + progress := omit, + useruser := *, /* optional */ + facility := *, /* optional */ + cccap := omit, + ssversion := *, /* optional */ + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := imsi, + lchan_type := ?, + lchan_mode := ? + } + } +}; + + +/* MO: MSC -> MNCC: SETUP.ind from MSC to ext. MNCC handler */ +template MNCC_PDU tr_MNCC_SETUP_ind(template uint32_t call_id := ?, template MNCC_number called := ?, + template MNCC_number calling := *, template charstring imsi :=?) := { + msg_type := MNCC_SETUP_IND, + u := { + signal := { /* See 24.008 9.3.23.2 */ + callref := call_id, + bearer_cap := ?, /* mandatory */ + called := called, /* mandatory */ + calling := calling, /* optional */ + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := *, /* optional */ + facility := *, /* optional */ + cccap := *, /* optional */ + ssversion := *, /* optional */ + clir_sup := ?, /* optional */ + clir_inv := ?, /* optional */ + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := *, + imsi := imsi, + lchan_type := ?, + lchan_mode := ? + } + } +} +template (value) MNCC_PDU ts_MNCC_SETUP_ind(uint32_t call_id, MNCC_number called, + template (omit) MNCC_number calling := omit, + template (omit) charstring imsi := omit, + template (value) MNCC_bearer_cap bcap := ts_MNCC_bcap_voice) := { + msg_type := MNCC_SETUP_IND, + u := { + signal := { /* See 24.008 9.3.23.2 */ + callref := call_id, + bearer_cap := valueof(bcap), /* mandatory */ + called := called, /* mandatory */ + calling := calling, /* optional */ + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, /* optional */ + facility := omit, /* optional */ + cccap := omit, /* optional */ + ssversion := omit, /* optional */ + clir_sup := 0, /* optional */ + clir_inv := 0, /* optional */ + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := imsi, + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* MO: MSC <- MNCC: SETUP.cnf; Response to SETUP.ind */ +template MNCC_PDU ts_MNCC_SETUP_CNF(uint32_t call_id, template MNCC_number connected := omit) := { + msg_type := MNCC_SETUP_CNF, + u := { + signal := { /* See 24.008 9.3.5 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := connected, + cause := omit, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* MT: MSC -> MNCC: SETUP.cnf; Response to SETUP.req */ +template MNCC_PDU tr_MNCC_SETUP_cnf(uint32_t call_id, template MNCC_number connected := *) := { + msg_type := MNCC_SETUP_CNF, + u := { + signal := { /* See 24.008 9.3.5 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := connected, + cause := omit, + progress := *, + useruser := *, + facility := *, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := *, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} + +/* MT: MSC -> MNCC: SETUP_COMPL.req; request to send CONNECT ACK */ +template MNCC_PDU tr_MNCC_SETUP_COMPL_req(template uint32_t call_id) := + tr_MNCC_SIMPLE(MNCC_SETUP_COMPL_REQ, call_id); /* See 24.008 9.3.6 */ + +/* MT: MSC -> MNCC: SETUP_COMPL.ind; receipt of CONNECT ACK */ +template MNCC_PDU tr_MNCC_SETUP_COMPL_ind(template uint32_t call_id := ?) := + tr_MNCC_SIMPLE(MNCC_SETUP_COMPL_IND, call_id); /* See 24.008 9.3.6 */ +template (value) MNCC_PDU ts_MNCC_SETUP_COMPL_ind(uint32_t call_id) := + ts_MNCC_SIMPLE(MNCC_SETUP_COMPL_IND, call_id); /* See 24.008 9.3.6 */ + +/* MT: MSC -> MNCC: REJ.req; reject MT call */ +template MNCC_PDU tr_MNCC_REJ_req(template uint32_t call_id, template MNCC_cause cause := *) := { + msg_type := MNCC_REJ_REQ, + u := { + signal := { /* See 24.008 9.3.19 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := omit, + useruser := *, + facility := *, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} + +/* MO: MSC <- MNCC: REJ.ind; reject MO call */ +template MNCC_PDU ts_MNCC_REJ_ind(uint32_t call_id, template MNCC_cause cause := omit) := { + msg_type := MNCC_REJ_IND, + u := { + signal := { /* See 24.008 9.3.19 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* MT: MSC -> MNCC: CALL_CONF.req; send CALL CONFIRMED to MS */ +template MNCC_PDU tr_MNCC_CALL_CONF_ind(template uint32_t call_id, template MNCC_bearer_cap bcap := *, + template MNCC_cause cause := *, + template MNCC_cccap cccap := *) := { + msg_type := MNCC_CALL_CONF_IND, + u := { + signal := { /* See 24.008 9.3.2 */ + callref := call_id, + bearer_cap := bcap, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := omit, + useruser := omit, + facility := omit, + cccap := cccap, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} +template MNCC_PDU ts_MNCC_CALL_CONF_ind(uint32_t call_id, + template (omit) MNCC_bearer_cap bcap := omit, + template (omit) MNCC_cause cause := omit, + template (omit) MNCC_cccap cccap := omit) := { + msg_type := MNCC_CALL_CONF_IND, + u := { + signal := { /* See 24.008 9.3.2 */ + callref := call_id, + bearer_cap := bcap, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := omit, + useruser := omit, + facility := omit, + cccap := cccap, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + + +/* MO: MSC <- MNCC: CALL_PROC.req; call establishment initiated in network */ +template MNCC_PDU ts_MNCC_CALL_PROC_req(uint32_t call_id, template MNCC_bearer_cap bcap := omit, + template MNCC_progress prog := omit, + template charstring fac := omit, + template MNCC_cccap cccap := omit) := { + msg_type := MNCC_CALL_PROC_REQ, + u := { + signal := { /* See 24.008 9.3.2 */ + callref := call_id, + bearer_cap := bcap, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := prog, + useruser := omit, + facility := fac, + cccap := cccap, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} +template MNCC_PDU tr_MNCC_CALL_PROC_req(template uint32_t call_id, + template MNCC_bearer_cap bcap := *, + template MNCC_progress prog := *, + template charstring fac := *, + template MNCC_cccap cccap := *) := { + msg_type := MNCC_CALL_PROC_REQ, + u := { + signal := { /* See 24.008 9.3.2 */ + callref := call_id, + bearer_cap := bcap, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := prog, + useruser := omit, + facility := fac, + cccap := cccap, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} + + +/* MSC <- MNCC: PROGRESS.req; PROGRESS message from ISDN */ +template MNCC_PDU ts_MNCC_PROGRESS_req(uint32_t call_id, MNCC_progress prog, + template MNCC_useruser uu := omit) := { + msg_type := MNCC_PROGRESS_REQ, + u := { + signal := { /* See 24.008 9.3.17 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := prog, + useruser := uu, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* MO: MSC <- MNCC: ALERT.req; indicate that user alerting has been initiated */ +template MNCC_PDU ts_MNCC_ALERT_req(uint32_t call_id, template MNCC_progress prog := omit, + template charstring fac := omit, + template MNCC_useruser uu := omit) := { + msg_type := MNCC_ALERT_REQ, + u := { + signal := { /* See 24.008 9.3.1 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := prog, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} +template MNCC_PDU tr_MNCC_ALERT_req(template uint32_t call_id, + template MNCC_progress prog := *, + template charstring fac := *, + template MNCC_useruser uu := *) := { + msg_type := MNCC_ALERT_REQ, + u := { + signal := { /* See 24.008 9.3.1 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := prog, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} + + + +/* MT: MSC -> MNCC: ALERRT.ind; indicates that mobile user alerting has been initiated */ +template MNCC_PDU tr_MNCC_ALERT_ind(template uint32_t call_id, template MNCC_progress prog := omit, + template charstring fac := omit, + template MNCC_useruser uu := omit) := { + msg_type := MNCC_ALERT_IND, + u := { + signal := { /* See 24.008 9.3.1 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := prog, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := *, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} +template (value) MNCC_PDU ts_MNCC_ALERT_ind(uint32_t call_id, + template (omit) MNCC_progress prog := omit, + template (omit) charstring fac := omit, + template (omit) MNCC_useruser uu := omit) := { + msg_type := MNCC_ALERT_IND, + u := { + signal := { /* See 24.008 9.3.1 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := prog, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + + +/* : MSC <- MNCC: NOTIFY.req; request to send information pertaining to a call (such as user suspended) */ +template MNCC_PDU ts_MNCC_NOTIFY_req(uint32_t call_id, MNCC_notify notify) := { + msg_type := MNCC_NOTIFY_REQ, + u := { + signal := { /* See 24.008 9.3.16 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := notify, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* : MSC -> MNCC: NOTIFY.ind; indication to the mobile user */ +template MNCC_PDU tr_MNCC_NOTIFY_ind(template uint32_t call_id, template MNCC_notify notify) := { + msg_type := MNCC_NOTIFY_IND, + u := { + signal := { /* See 24.008 9.3.16 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := notify, + emergency := *, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} + +/* : MSC -> MNCC: DISC.ind; mobile user requests disconnect */ +template MNCC_PDU tr_MNCC_DISC_ind(template uint32_t call_id := ?, template MNCC_cause cause := ?, + template MNCC_progress prog := *, + template charstring fac := *, + template MNCC_useruser uu := *) := { + msg_type := MNCC_DISC_IND, + u := { + signal := { /* See 24.008 9.3.7 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := prog, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := *, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} +template (value) MNCC_PDU ts_MNCC_DISC_ind(uint32_t call_id, template (value) MNCC_cause cause, + template (omit) MNCC_progress prog := omit, + template (omit) charstring fac := omit, + template (omit) MNCC_useruser uu := omit) := { + msg_type := MNCC_DISC_IND, + u := { + signal := { /* See 24.008 9.3.7 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := prog, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* : MSC <- MNCC: DISC.req; indicate disconnect to mobile user */ +template MNCC_PDU ts_MNCC_DISC_req(uint32_t call_id, MNCC_cause cause, + template MNCC_progress prog := omit, + template charstring fac := omit, + template MNCC_useruser uu := omit) := { + msg_type := MNCC_DISC_REQ, + u := { + signal := { /* See 24.008 9.3.7 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := prog, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} +template MNCC_PDU tr_MNCC_DISC_req(template uint32_t call_id, + template MNCC_cause cause := *, + template MNCC_progress prog := omit, + template charstring fac := omit, + template MNCC_useruser uu := omit) := { + msg_type := MNCC_DISC_REQ, + u := { + signal := { /* See 24.008 9.3.7 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := prog, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := *, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} + + +/* : MSC -> MNCC: REL.ind; mobile user informs network that user wants to release call + MM */ +template MNCC_PDU tr_MNCC_REL_ind(template uint32_t call_id := ?, template MNCC_cause cause := ?, + template charstring fac := *, template MNCC_useruser uu := *) := { + msg_type := MNCC_REL_IND, + u := { + signal := { /* See 24.008 9.3.18 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := omit, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := *, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} +template (value) MNCC_PDU ts_MNCC_REL_ind(uint32_t call_id, + template (value) MNCC_cause cause, + template (omit) charstring fac := omit, + template (omit) MNCC_useruser uu := omit) := { + msg_type := MNCC_REL_IND, + u := { + signal := { /* See 24.008 9.3.18 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := omit, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* : MSC <- MNCC: REL.req; indicate to mobile user tat network intents to release MM */ +template MNCC_PDU ts_MNCC_REL_req(uint32_t call_id, MNCC_cause cause, + template charstring fac := omit, template MNCC_useruser uu := omit) := { + msg_type := MNCC_REL_REQ, + u := { + signal := { /* See 24.008 9.3.18 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := omit, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} +template MNCC_PDU tr_MNCC_REL_req(template uint32_t call_id, template MNCC_cause cause := *, + template charstring fac := *, template MNCC_useruser uu := *) := { + msg_type := MNCC_REL_REQ, + u := { + signal := { /* See 24.008 9.3.18 */ + callref := call_id, + bearer_cap := omit, + called := *, + calling := *, + redirecting := *, + connected := *, + cause := cause, + progress := omit, + useruser := uu, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := ?, + lchan_type := 0, + lchan_mode := 0 + } + } +} + + +/* : MSC -> MNCC: REL.cnf; confirm REL_req */ +template MNCC_PDU tr_MNCC_REL_cnf(template uint32_t call_id := ?, template MNCC_cause cause := ?, + template charstring fac := *, template MNCC_useruser uu := *) +modifies tr_MNCC_REL_ind := { + msg_type := MNCC_REL_CNF +}; +template (value) MNCC_PDU ts_MNCC_REL_cnf(uint32_t call_id, + template (value) MNCC_cause cause, + template (omit) charstring fac := omit, + template (omit) MNCC_useruser uu := omit) +modifies ts_MNCC_REL_ind := { + msg_type := MNCC_REL_CNF +}; + + +/* : MSC <- MNCC: FACILITY.req; request transmission of facility */ +template MNCC_PDU ts_MNCC_FACILITY_req(uint32_t call_id, charstring fac) := { + msg_type := MNCC_FACILITY_REQ, + u := { + signal := { /* See 24.008 9.3.9 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* : MSC -> MNCC: FACILITY.req; indicate reception of facility */ +template MNCC_PDU tr_MNCC_FACILITY_ind(template uint32_t call_id := ?, template charstring fac := ?) := { + msg_type := MNCC_FACILITY_IND, + u := { + signal := { /* See 24.008 9.3.9 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := fac, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := *, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} + +/* : MSC -> MNCC: START_DTMF.ind; MS has */ +template MNCC_PDU tr_MNCC_START_DTMF_ind(template uint32_t call_id := ?, template MNCC_keypad keypad := ?) := { + msg_type := MNCC_START_DTMF_IND, + u := { + signal := { /* See 24.008 9.3.24 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := keypad, + more := 0, + notify := 0, + emergency := *, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} + +/* : MSC <- MNCC: START_DTMF.rsp; Acknowledge start of DTMF */ +template MNCC_PDU ts_MNCC_START_DTMF_rsp(uint32_t call_id, MNCC_keypad keypad) := { + msg_type := MNCC_START_DTMF_RSP, + u := { + signal := { /* See 24.008 9.3.25 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := keypad, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* : MSC <- MNCC: START_DTMF.rsp; Acknowledge start of DTMF */ +template MNCC_PDU ts_MNCC_START_DTMF_rej(uint32_t call_id, MNCC_cause cause) := { + msg_type := MNCC_START_DTMF_REJ, + u := { + signal := { /* See 24.008 9.3.26 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* : MSC -> MNCC: STOP_DTMF.ind */ +template MNCC_PDU tr_MNCC_STOP_DTMF_ind(template uint32_t call_id := ?) := + tr_MNCC_SIMPLE(MNCC_STOP_DTMF_IND, call_id); /* See 24.008 9.3.29 */ + +/* : MSC <- MNCC: STOP_DTMF.rsp; Acknowledge stop of DTMF */ +template MNCC_PDU ts_MNCC_STOP_DTMF_rsp(uint32_t call_id) := + ts_MNCC_SIMPLE(MNCC_STOP_DTMF_RSP, call_id); /* See 24.008 9.3.30 */ + +/* : MSC -> MNCC: MODIFY.ind; request to start MO in-call modification */ +template MNCC_PDU tr_MNCC_MODIFY_ind(template uint32_t call_id := ?, template MNCC_bearer_cap bcap := ?) := { + msg_type := MNCC_MODIFY_IND, + u := { + signal := { /* See 24.008 9.3.14 */ + callref := call_id, + bearer_cap := bcap, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := *, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} + +/* : MSC <- MNCC: MODIFY.rsp; tespond to MO in-call modification */ +template MNCC_PDU ts_MNCC_MODIFY_rsp(uint32_t call_id, MNCC_bearer_cap bcap) := { + msg_type := MNCC_MODIFY_RSP, + u := { + signal := { /* See 24.008 9.3.14 */ + callref := call_id, + bearer_cap := bcap, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* : MSC <- MNCC: MODIFY.req; request to start MT in-call modification */ +template MNCC_PDU ts_MNCC_MODIFY_req(uint32_t call_id, MNCC_bearer_cap bcap) := { + msg_type := MNCC_MODIFY_REQ, + u := { + signal := { /* See 24.008 9.3.14 */ + callref := call_id, + bearer_cap := bcap, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* : MSC -> MNCC: MODIFY.cnf; MS has responded to MT in-call modification */ +template MNCC_PDU tr_MNCC_MODIFY_cnf(template uint32_t call_id := ?, + template MNCC_bearer_cap bcap := ?) := { + msg_type := MNCC_MODIFY_CNF, + u := { + signal := { /* See 24.008 9.3.14 */ + callref := call_id, + bearer_cap := bcap, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := *, + imsi := ?, + lchan_type := ?, + lchan_mode := ? + } + } +} + +/* : MSC <- MNCC: Request transmission of USERINFO to MS */ +template MNCC_PDU ts_MNCC_USERINFO_req(uint32_t call_id, MNCC_useruser uu, integer more) := { + msg_type := MNCC_USERINFO_REQ, + u := { + signal := { /* See 24.008 9.3.31 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := uu, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := more, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* : MSC -> MNCC: Indicate reception of USERINFO from MS */ +template MNCC_PDU tr_MNCC_USERINFO_ind(template uint32_t call_id := ?, template MNCC_useruser uu := ?, + integer more) := { + msg_type := MNCC_USERINFO_IND, + u := { + signal := { /* See 24.008 9.3.31 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := omit, + progress := omit, + useruser := uu, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := more, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* : MSC -> MNCC: HOLD.ind; MS requests hold of call */ +template MNCC_PDU tr_MNCC_HOLD_ind(template uint32_t call_id := ?) := + tr_MNCC_SIMPLE(MNCC_HOLD_IND, call_id); /* See 24.008 9.3.10 */ + +/* : MSC <- MNCC: HOLD.cnf; network confirms hold of call */ +template MNCC_PDU ts_MNCC_HOLD_cnf(uint32_t call_id) := + ts_MNCC_SIMPLE(MNCC_HOLD_CNF, call_id); /* See 24.008 9.3.11 */ + +/* : MSC <- MNCC: HOLD.rej; network rejects hold of call */ +template MNCC_PDU ts_MNCC_HOLD_rej(uint32_t call_id, MNCC_cause cause) := { + msg_type := MNCC_HOLD_REJ, + u := { + signal := { /* See 24.008 9.3.12 */ + callref := call_id, + bearer_cap := omit, + called := omit, + calling := omit, + redirecting := omit, + connected := omit, + cause := cause, + progress := omit, + useruser := omit, + facility := omit, + cccap := omit, + ssversion := omit, + clir_sup := 0, + clir_inv := 0, + signal := omit, + keypad := omit, + more := 0, + notify := 0, + emergency := omit, + imsi := "", + lchan_type := 0, + lchan_mode := 0 + } + } +} + +/* : MSC -> MNCC: RETRIEVE.ind; MS requests retrieval of held call */ +template MNCC_PDU tr_MNCC_RETRIEVE_ind(template uint32_t call_id := ?) := + tr_MNCC_SIMPLE(MNCC_RETRIEVE_IND, call_id); /* See 24.008 9.3.20 */ + +/* : MSC <- MNCC: RETRIEVE.cnf; network confirms retrieve of call */ +template MNCC_PDU ts_MNCC_RETRIEVE_cnf(uint32_t call_id) := + ts_MNCC_SIMPLE(MNCC_RETRIEVE_CNF, call_id); /* See 24.008 9.3.21 */ + +/* : MSC <- MNCC: RETRIEVE.rej; network rejects retrieve of call */ +template MNCC_PDU ts_MNCC_RETRIEVE_rej(uint32_t call_id, MNCC_cause cause) +modifies ts_MNCC_HOLD_rej := { /* See 24.008 9.3.22 */ + msg_type := MNCC_RETRIEVE_REJ +} + + +template MNCC_PDU ts_MNCC_SIMPLE_RTP(MNCC_MsgType msg_type, uint32_t call_id) := { + msg_type := msg_type, + u := { + rtp := { + callref := call_id, + ip := 0, + rtp_port := 0, + payload_type := 0, + payload_msg_type := 0 + } + } +} + +/* MSC <- MNCC: RTP_CREATE.req; request creation of RTP */ +template MNCC_PDU ts_MNCC_RTP_CREATE(uint32_t call_id) := ts_MNCC_SIMPLE_RTP(MNCC_RTP_CREATE, call_id); + +/* MSC -> MNCC: RTP_CREATE.rsp; acknowledge creation of RTP (stating MSC side IP/Port) */ +template MNCC_PDU tr_MNCC_RTP_CREATE(template uint32_t call_id := ?, + template uint32_t ip := ?, + template uint32_t rtp_port := ?, + template uint32_t payload_type := ?) := { + msg_type := MNCC_RTP_CREATE, + u := { + rtp := { + callref := call_id, + ip := ip, + rtp_port := rtp_port, + payload_type := payload_type, + payload_msg_type := ? + } + } +} + +/* MSC <- MNCC: RTP_CONNECT.req; request connect of RTP */ +template MNCC_PDU ts_MNCC_RTP_CONNECT(uint32_t call_id, uint32_t ip, uint32_t rtp_port, uint32_t pt) := { + msg_type := MNCC_RTP_CONNECT, + u := { + rtp := { + callref := call_id, + ip := ip, + rtp_port := rtp_port, + payload_type := pt, + payload_msg_type := 0 + } + } +} +template MNCC_PDU tr_MNCC_RTP_CONNECT(template uint32_t call_id, + template uint32_t ip := ?, + template uint32_t rtp_port := ?, + template uint32_t pt := ?) := { + msg_type := MNCC_RTP_CONNECT, + u := { + rtp := { + callref := call_id, + ip := ip, + rtp_port := rtp_port, + payload_type := pt, + payload_msg_type := 0 + } + } +} + + +/* MSC <- MNCC: RTP_FREE.req; request connect of RTP */ +template MNCC_PDU ts_MNCC_RTP_FREE(uint32_t call_id) := ts_MNCC_SIMPLE_RTP(MNCC_RTP_FREE, call_id); + +function f_mncc_get_call_id(MNCC_PDU pdu) return uint32_t { + if (ischosen(pdu.u.rtp)) { + return pdu.u.rtp.callref; + } else if (ischosen(pdu.u.data)) { + return pdu.u.data.callref; + } else if (ischosen(pdu.u.signal)) { + return pdu.u.signal.callref; + } else { + setverdict(fail, "Unable to determine Callref for MNCC", pdu); + mtc.stop + } +} + +} with { encode "RAW" ; variant "FIELDORDER(msb)" } diff --git a/titan/Makefile b/titan/Makefile index e11dd1b..2aeebb9 100644 --- a/titan/Makefile +++ b/titan/Makefile @@ -1,3 +1,8 @@ +TYPE_MODULES:=General Osmocom MNCC PCUIF + +TYPE_CC=$(TYPE_MODULES:%=%_Types.cc) +TYPE_HH=$(TYPE_MODULES:%=%_Types.hh) +GENERATED=$(TYPE_CC) $(TYPE_HH) OBJS=General_Types.o Osmocom_Types.o hello.o OBJS+=MNCC_Types.o MNCC_EncDec.o @@ -7,7 +12,10 @@ CXXFLAGS=-DLINUX -DMAKEDEPEND_RUN -I/usr/include/titan -fPIC LDFLAGS=-L/usr/lib/titan -fPIC -lttcn3-dynamic LDFLAGS_STATIC=-L/usr/lib/titan -lttcn3 -lxml2 -lssl -lcrypto -all: titan.a +all: compile titan.a + +$(GENERATED): + ttcn3_compiler -D *.ttcn titan.a: $(OBJS) $(AR) r $@ $^ @@ -15,5 +23,6 @@ titan.a: $(OBJS) %.o: %.cc $(CXX) $(CXXFLAGS) -c -o $@ $^ +.PHONY: clean clean: - @rm titan.a $(OBJS) + @rm -f titan.a $(OBJS) $(GENERATED) diff --git a/titan/Osmocom_Types.cc b/titan/Osmocom_Types.cc deleted file mode 100644 index e76bb80..0000000 --- a/titan/Osmocom_Types.cc +++ /dev/null @@ -1,2332 +0,0 @@ -// This C++ source file was generated by the TTCN-3 compiler -// of the TTCN-3 Test Executor version CRL 113 200/6 R5A -// The generation of user and time information were disabled by the -D flag. - -// Copyright (c) 2000-2018 Ericsson Telecom AB - -// Do not edit this file unless you know what you are doing. - -/* Including header files */ - -#include "Osmocom_Types.hh" - -namespace Osmocom__Types { - -/* Prototypes of static functions */ - -static void pre_init_module(); -static void post_init_module(); - -/* Literal string constants */ - -static const unsigned char bs_1_bits[] = { 0 }, -bs_0_bits[] = { 1 }; -static const BITSTRING bs_1(1, bs_1_bits), -bs_0(1, bs_0_bits); -static const HEXSTRING hs_0(0, NULL); -static const OCTETSTRING os_0(0, NULL); -static const CHARSTRING cs_1('*'), -cs_2('?'), -cs_0(4, "omit"); -static const unsigned char module_checksum[] = { 0xf6, 0xe8, 0x52, 0x94, 0x05, 0xfd, 0x52, 0xd3, 0x21, 0xf8, 0x93, 0x2f, 0xbf, 0x86, 0x75, 0x66 }; - -/* Global variable definitions */ - -const TTCN_RAWdescriptor_t uint8__t_raw_ = {8,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint8__t_xer_ = { {"uint8_t>\n", "uint8_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint8__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint8__t_descr_ = { "@Osmocom_Types.uint8_t", &INTEGER_ber_, &uint8__t_raw_, &INTEGER_text_, &uint8__t_xer_, &INTEGER_json_, &uint8__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint8__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint16__t_raw_ = {16,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint16__t_xer_ = { {"uint16_t>\n", "uint16_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint16__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint16__t_descr_ = { "@Osmocom_Types.uint16_t", &INTEGER_ber_, &uint16__t_raw_, &INTEGER_text_, &uint16__t_xer_, &INTEGER_json_, &uint16__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint16__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint24__t_raw_ = {24,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint24__t_xer_ = { {"uint24_t>\n", "uint24_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t uint24__t_descr_ = { "@Osmocom_Types.uint24_t", &INTEGER_ber_, &uint24__t_raw_, &INTEGER_text_, &uint24__t_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint24__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint32__t_raw_ = {32,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint32__t_xer_ = { {"uint32_t>\n", "uint32_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint32__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint32__t_descr_ = { "@Osmocom_Types.uint32_t", &INTEGER_ber_, &uint32__t_raw_, &INTEGER_text_, &uint32__t_xer_, &INTEGER_json_, &uint32__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint32__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t int8__t_raw_ = {8,SG_SG_BIT,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t int8__t_xer_ = { {"int8_t>\n", "int8_t>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t int8__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t int8__t_descr_ = { "@Osmocom_Types.int8_t", &INTEGER_ber_, &int8__t_raw_, &INTEGER_text_, &int8__t_xer_, &INTEGER_json_, &int8__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING int8__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t int16__t_raw_ = {16,SG_SG_BIT,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t int16__t_xer_ = { {"int16_t>\n", "int16_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t int16__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t int16__t_descr_ = { "@Osmocom_Types.int16_t", &INTEGER_ber_, &int16__t_raw_, &INTEGER_text_, &int16__t_xer_, &INTEGER_json_, &int16__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING int16__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint1__t_raw_ = {1,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint1__t_xer_ = { {"uint1_t>\n", "uint1_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint1__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint1__t_descr_ = { "@Osmocom_Types.uint1_t", &INTEGER_ber_, &uint1__t_raw_, &INTEGER_text_, &uint1__t_xer_, &INTEGER_json_, &uint1__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint1__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint2__t_raw_ = {2,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint2__t_xer_ = { {"uint2_t>\n", "uint2_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint2__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint2__t_descr_ = { "@Osmocom_Types.uint2_t", &INTEGER_ber_, &uint2__t_raw_, &INTEGER_text_, &uint2__t_xer_, &INTEGER_json_, &uint2__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint2__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint3__t_raw_ = {3,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint3__t_xer_ = { {"uint3_t>\n", "uint3_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint3__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint3__t_descr_ = { "@Osmocom_Types.uint3_t", &INTEGER_ber_, &uint3__t_raw_, &INTEGER_text_, &uint3__t_xer_, &INTEGER_json_, &uint3__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint3__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint4__t_raw_ = {4,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint4__t_xer_ = { {"uint4_t>\n", "uint4_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint4__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint4__t_descr_ = { "@Osmocom_Types.uint4_t", &INTEGER_ber_, &uint4__t_raw_, &INTEGER_text_, &uint4__t_xer_, &INTEGER_json_, &uint4__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint4__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint5__t_raw_ = {5,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint5__t_xer_ = { {"uint5_t>\n", "uint5_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint5__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint5__t_descr_ = { "@Osmocom_Types.uint5_t", &INTEGER_ber_, &uint5__t_raw_, &INTEGER_text_, &uint5__t_xer_, &INTEGER_json_, &uint5__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint5__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint6__t_raw_ = {6,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint6__t_xer_ = { {"uint6_t>\n", "uint6_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint6__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint6__t_descr_ = { "@Osmocom_Types.uint6_t", &INTEGER_ber_, &uint6__t_raw_, &INTEGER_text_, &uint6__t_xer_, &INTEGER_json_, &uint6__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint6__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint7__t_raw_ = {7,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint7__t_xer_ = { {"uint7_t>\n", "uint7_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t uint7__t_descr_ = { "@Osmocom_Types.uint7_t", &INTEGER_ber_, &uint7__t_raw_, &INTEGER_text_, &uint7__t_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint7__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint9__t_raw_ = {9,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint9__t_xer_ = { {"uint9_t>\n", "uint9_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint9__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint9__t_descr_ = { "@Osmocom_Types.uint9_t", &INTEGER_ber_, &uint9__t_raw_, &INTEGER_text_, &uint9__t_xer_, &INTEGER_json_, &uint9__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint9__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint10__t_raw_ = {10,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint10__t_xer_ = { {"uint10_t>\n", "uint10_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint10__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint10__t_descr_ = { "@Osmocom_Types.uint10_t", &INTEGER_ber_, &uint10__t_raw_, &INTEGER_text_, &uint10__t_xer_, &INTEGER_json_, &uint10__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint10__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint11__t_raw_ = {11,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint11__t_xer_ = { {"uint11_t>\n", "uint11_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t uint11__t_descr_ = { "@Osmocom_Types.uint11_t", &INTEGER_ber_, &uint11__t_raw_, &INTEGER_text_, &uint11__t_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint11__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint12__t_raw_ = {12,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint12__t_xer_ = { {"uint12_t>\n", "uint12_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t uint12__t_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t uint12__t_descr_ = { "@Osmocom_Types.uint12_t", &INTEGER_ber_, &uint12__t_raw_, &INTEGER_text_, &uint12__t_xer_, &INTEGER_json_, &uint12__t_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint12__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint13__t_raw_ = {13,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint13__t_xer_ = { {"uint13_t>\n", "uint13_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t uint13__t_descr_ = { "@Osmocom_Types.uint13_t", &INTEGER_ber_, &uint13__t_raw_, &INTEGER_text_, &uint13__t_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint13__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint14__t_raw_ = {14,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint14__t_xer_ = { {"uint14_t>\n", "uint14_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t uint14__t_descr_ = { "@Osmocom_Types.uint14_t", &INTEGER_ber_, &uint14__t_raw_, &INTEGER_text_, &uint14__t_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint14__t_default_coding("RAW"); -const TTCN_RAWdescriptor_t uint15__t_raw_ = {15,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t uint15__t_xer_ = { {"uint15_t>\n", "uint15_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t uint15__t_descr_ = { "@Osmocom_Types.uint15_t", &INTEGER_ber_, &uint15__t_raw_, &INTEGER_text_, &uint15__t_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING uint15__t_default_coding("RAW"); -static INTEGER const_c__UINT16__MAX; -const INTEGER& c__UINT16__MAX = const_c__UINT16__MAX; -static INTEGER const_c__UINT32__MAX; -const INTEGER& c__UINT32__MAX = const_c__UINT32__MAX; -const TTCN_RAWdescriptor_t Arfcn_pcs_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t Arfcn_pcs_xer_ = { {"pcs>\n", "pcs>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int Arfcn_pcs_oer_ext_arr_[0] = {}; -const int Arfcn_pcs_oer_p_[0] = {}; -const TTCN_OERdescriptor_t Arfcn_pcs_oer_ = { -1, TRUE, -1, FALSE, 0, 0, Arfcn_pcs_oer_ext_arr_, 0, Arfcn_pcs_oer_p_}; -const TTCN_Typedescriptor_t Arfcn_pcs_descr_ = { "@Osmocom_Types.Arfcn.pcs", &BOOLEAN_ber_, &Arfcn_pcs_raw_, &BOOLEAN_text_, &Arfcn_pcs_xer_, &BOOLEAN_json_, &Arfcn_pcs_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING Arfcn_pcs_default_coding("RAW"); -const TTCN_RAWdescriptor_t Arfcn_arfcn_raw_ = {15,SG_NO,ORDER_MSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t Arfcn_arfcn_xer_ = { {"arfcn>\n", "arfcn>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t Arfcn_arfcn_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t Arfcn_arfcn_descr_ = { "@Osmocom_Types.Arfcn.arfcn", &INTEGER_ber_, &Arfcn_arfcn_raw_, &INTEGER_text_, &Arfcn_arfcn_xer_, &INTEGER_json_, &Arfcn_arfcn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING Arfcn_arfcn_default_coding("RAW"); -const TTCN_RAWdescriptor_t Arfcn_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for Arfcn -const TTCN_Typedescriptor_t Arfcn_descr_ = { "@Osmocom_Types.Arfcn", NULL, &Arfcn_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING Arfcn_default_coding("RAW"); -static INTEGER const_f__rnd__hexstring_max_defval; -const INTEGER& f__rnd__hexstring_max_defval = const_f__rnd__hexstring_max_defval; -static INTEGER const_f__rnd__msisdn_len_defval; -const INTEGER& f__rnd__msisdn_len_defval = const_f__rnd__msisdn_len_defval; -const TTCN_RAWdescriptor_t IntegerRecord_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for IntegerRecord -const TTCN_Typedescriptor_t IntegerRecord_descr_ = { "@Osmocom_Types.IntegerRecord", NULL, &IntegerRecord_raw_, NULL, NULL, NULL, NULL, &IntegerRecord_0_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t IntegerRecord_0_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t IntegerRecord_0_xer_ = { {"INTEGER>\n", "INTEGER>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t IntegerRecord_0_descr_ = { "@Osmocom_Types.IntegerRecord.INTEGER", &INTEGER_ber_, &IntegerRecord_0_raw_, &INTEGER_text_, &IntegerRecord_0_xer_, &INTEGER_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING IntegerRecord_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING IntegerRecord_default_coding("RAW"); -TTCN_Module module_object("Osmocom_Types", __DATE__, __TIME__, module_checksum, pre_init_module, NULL, 0U, 4294967295U, 4294967295U, 4294967295U, NULL, 0LU, 0, post_init_module, NULL, NULL, NULL, NULL, NULL, NULL, NULL); - -static const RuntimeVersionChecker ver_checker( current_runtime_version.requires_major_version_6, - current_runtime_version.requires_minor_version_5, - current_runtime_version.requires_patch_level_0, current_runtime_version.requires_runtime_1); - -/* Member functions of C++ classes */ - -Arfcn::Arfcn() -{ -} - -Arfcn::Arfcn(const BOOLEAN& par_pcs, - const INTEGER& par_arfcn) - : field_pcs(par_pcs), - field_arfcn(par_arfcn) -{ -} - -Arfcn::Arfcn(const Arfcn& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @Osmocom_Types.Arfcn."); -if (other_value.pcs().is_bound()) field_pcs = other_value.pcs(); -else field_pcs.clean_up(); -if (other_value.arfcn().is_bound()) field_arfcn = other_value.arfcn(); -else field_arfcn.clean_up(); -} - -void Arfcn::clean_up() -{ -field_pcs.clean_up(); -field_arfcn.clean_up(); -} - -const TTCN_Typedescriptor_t* Arfcn::get_descriptor() const { return &Arfcn_descr_; } -Arfcn& Arfcn::operator=(const Arfcn& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @Osmocom_Types.Arfcn."); - if (other_value.pcs().is_bound()) field_pcs = other_value.pcs(); - else field_pcs.clean_up(); - if (other_value.arfcn().is_bound()) field_arfcn = other_value.arfcn(); - else field_arfcn.clean_up(); -} -return *this; -} - -boolean Arfcn::operator==(const Arfcn& other_value) const -{ -return field_pcs==other_value.field_pcs - && field_arfcn==other_value.field_arfcn; -} - -boolean Arfcn::is_bound() const -{ -if(field_pcs.is_bound()) return TRUE; -if(field_arfcn.is_bound()) return TRUE; -return FALSE; -} -boolean Arfcn::is_value() const -{ -if(!field_pcs.is_value()) return FALSE; -if(!field_arfcn.is_value()) return FALSE; -return TRUE; -} -void Arfcn::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ pcs := "); -field_pcs.log(); -TTCN_Logger::log_event_str(", arfcn := "); -field_arfcn.log(); -TTCN_Logger::log_event_str(" }"); -} - -void Arfcn::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (20 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) pcs().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "pcs")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - pcs().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @Osmocom_Types.Arfcn: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@Osmocom_Types.Arfcn"); - } -} - -void Arfcn::set_implicit_omit() -{ -if (pcs().is_bound()) pcs().set_implicit_omit(); -if (arfcn().is_bound()) arfcn().set_implicit_omit(); -} - -void Arfcn::encode_text(Text_Buf& text_buf) const -{ -field_pcs.encode_text(text_buf); -field_arfcn.encode_text(text_buf); -} - -void Arfcn::decode_text(Text_Buf& text_buf) -{ -field_pcs.decode_text(text_buf); -field_arfcn.decode_text(text_buf); -} - -void Arfcn::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void Arfcn::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int Arfcn::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, Arfcn_pcs_descr_.raw->forceomit); - decoded_field_length = field_pcs.RAW_decode(Arfcn_pcs_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, Arfcn_arfcn_descr_.raw->forceomit); - decoded_field_length = field_arfcn.RAW_decode(Arfcn_arfcn_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int Arfcn::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 2; - myleaf.body.node.nodes = init_nodes_of_enc_tree(2); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, Arfcn_pcs_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, Arfcn_arfcn_descr_.raw); - encoded_length += field_pcs.RAW_encode(Arfcn_pcs_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_arfcn.RAW_encode(Arfcn_arfcn_descr_, *myleaf.body.node.nodes[1]); - return myleaf.length = encoded_length; -} - -struct Arfcn_template::single_value_struct { -BOOLEAN_template field_pcs; -INTEGER_template field_arfcn; -}; - -void Arfcn_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_pcs = ANY_VALUE; -single_value->field_arfcn = ANY_VALUE; -} -} -} - -void Arfcn_template::copy_value(const Arfcn& other_value) -{ -single_value = new single_value_struct; -if (other_value.pcs().is_bound()) { - single_value->field_pcs = other_value.pcs(); -} else { - single_value->field_pcs.clean_up(); -} -if (other_value.arfcn().is_bound()) { - single_value->field_arfcn = other_value.arfcn(); -} else { - single_value->field_arfcn.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void Arfcn_template::copy_template(const Arfcn_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.pcs().get_selection()) { -single_value->field_pcs = other_value.pcs(); -} else { -single_value->field_pcs.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.arfcn().get_selection()) { -single_value->field_arfcn = other_value.arfcn(); -} else { -single_value->field_arfcn.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new Arfcn_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @Osmocom_Types.Arfcn."); -break; -} -set_selection(other_value); -} - -Arfcn_template::Arfcn_template() -{ -} - -Arfcn_template::Arfcn_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -Arfcn_template::Arfcn_template(const Arfcn& other_value) -{ -copy_value(other_value); -} - -Arfcn_template::Arfcn_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const Arfcn&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @Osmocom_Types.Arfcn from an unbound optional field."); -} -} - -Arfcn_template::Arfcn_template(const Arfcn_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -Arfcn_template::~Arfcn_template() -{ -clean_up(); -} - -Arfcn_template& Arfcn_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -Arfcn_template& Arfcn_template::operator=(const Arfcn& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -Arfcn_template& Arfcn_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const Arfcn&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @Osmocom_Types.Arfcn."); -} -return *this; -} - -Arfcn_template& Arfcn_template::operator=(const Arfcn_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean Arfcn_template::match(const Arfcn& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.pcs().is_bound()) return FALSE; -if(!single_value->field_pcs.match(other_value.pcs(), legacy))return FALSE; -if(!other_value.arfcn().is_bound()) return FALSE; -if(!single_value->field_arfcn.match(other_value.arfcn(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @Osmocom_Types.Arfcn."); -} -return FALSE; -} - -boolean Arfcn_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_pcs.is_bound()) return TRUE; -if (single_value->field_arfcn.is_bound()) return TRUE; -return FALSE; -} - -boolean Arfcn_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_pcs.is_value()) return FALSE; -if (!single_value->field_arfcn.is_value()) return FALSE; -return TRUE; -} - -void Arfcn_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -Arfcn Arfcn_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @Osmocom_Types.Arfcn."); -Arfcn ret_val; -if (single_value->field_pcs.is_bound()) { -ret_val.pcs() = single_value->field_pcs.valueof(); -} -if (single_value->field_arfcn.is_bound()) { -ret_val.arfcn() = single_value->field_arfcn.valueof(); -} -return ret_val; -} - -void Arfcn_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @Osmocom_Types.Arfcn."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new Arfcn_template[list_length]; -} - -Arfcn_template& Arfcn_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @Osmocom_Types.Arfcn."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @Osmocom_Types.Arfcn."); -return value_list.list_value[list_index]; -} - -BOOLEAN_template& Arfcn_template::pcs() -{ -set_specific(); -return single_value->field_pcs; -} - -const BOOLEAN_template& Arfcn_template::pcs() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field pcs of a non-specific template of type @Osmocom_Types.Arfcn."); -return single_value->field_pcs; -} - -INTEGER_template& Arfcn_template::arfcn() -{ -set_specific(); -return single_value->field_arfcn; -} - -const INTEGER_template& Arfcn_template::arfcn() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field arfcn of a non-specific template of type @Osmocom_Types.Arfcn."); -return single_value->field_arfcn; -} - -int Arfcn_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @Osmocom_Types.Arfcn which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 2; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @Osmocom_Types.Arfcn containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @Osmocom_Types.Arfcn containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @Osmocom_Types.Arfcn containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @Osmocom_Types.Arfcn containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @Osmocom_Types.Arfcn containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @Osmocom_Types.Arfcn."); - } - return 0; -} - -void Arfcn_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ pcs := "); -single_value->field_pcs.log(); -TTCN_Logger::log_event_str(", arfcn := "); -single_value->field_arfcn.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void Arfcn_template::log_match(const Arfcn& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_pcs.match(match_value.pcs(), legacy)){ -TTCN_Logger::log_logmatch_info(".pcs"); -single_value->field_pcs.log_match(match_value.pcs(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_arfcn.match(match_value.arfcn(), legacy)){ -TTCN_Logger::log_logmatch_info(".arfcn"); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ pcs := "); -single_value->field_pcs.log_match(match_value.pcs(), legacy); -TTCN_Logger::log_event_str(", arfcn := "); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void Arfcn_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_pcs.encode_text(text_buf); -single_value->field_arfcn.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @Osmocom_Types.Arfcn."); -} -} - -void Arfcn_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_pcs.decode_text(text_buf); -single_value->field_arfcn.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new Arfcn_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @Osmocom_Types.Arfcn."); -} -} - -void Arfcn_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - Arfcn_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) pcs().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "pcs")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - pcs().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @Osmocom_Types.Arfcn: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@Osmocom_Types.Arfcn"); - } - is_ifpresent = param.get_ifpresent(); -} - -void Arfcn_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_pcs.check_restriction(t_res, t_name ? t_name : "@Osmocom_Types.Arfcn"); -single_value->field_arfcn.check_restriction(t_res, t_name ? t_name : "@Osmocom_Types.Arfcn"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@Osmocom_Types.Arfcn"); -} - -boolean Arfcn_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean Arfcn_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx(arr)[i] == key)) { -current_location.update_lineno(113); -/* Osmocom_Types.ttcn, line 113 */ -return TRUE; -} -current_location.update_lineno(111); -/* Osmocom_Types.ttcn, line 111 */ -{ -INTEGER tmp_7; -++i; -} -} -} -current_location.update_lineno(116); -/* Osmocom_Types.ttcn, line 116 */ -return FALSE; -} - -void f__timer__safe__restart(TIMER& T) -{ -TTCN_Location current_location("Osmocom_Types.ttcn", 120, TTCN_Location::LOCATION_FUNCTION, "f_timer_safe_restart"); -current_location.update_lineno(121); -/* Osmocom_Types.ttcn, line 121 */ -if (T.running(NULL)) { -current_location.update_lineno(122); -/* Osmocom_Types.ttcn, line 122 */ -T.stop(); -} -current_location.update_lineno(124); -/* Osmocom_Types.ttcn, line 124 */ -T.start(); -} - -INTEGER f__div__round__up(const INTEGER& dividend, const INTEGER& divisor) -{ -TTCN_Location current_location("Osmocom_Types.ttcn", 128, TTCN_Location::LOCATION_FUNCTION, "f_div_round_up"); -current_location.update_lineno(129); -/* Osmocom_Types.ttcn, line 129 */ -INTEGER x((dividend / divisor)); -current_location.update_lineno(130); -/* Osmocom_Types.ttcn, line 130 */ -if ((rem(dividend, divisor) != 0)) { -current_location.update_lineno(131); -/* Osmocom_Types.ttcn, line 131 */ -{ -INTEGER tmp_8; -++x; -} -} -current_location.update_lineno(133); -/* Osmocom_Types.ttcn, line 133 */ -return x; -} - - -/* Bodies of static functions */ - -static void pre_init_module() -{ -TTCN_Location current_location("Osmocom_Types.ttcn", 0, TTCN_Location::LOCATION_UNKNOWN, "Osmocom_Types"); -General__Types::module_object.pre_init_module(); -current_location.update_lineno(29); -/* Osmocom_Types.ttcn, line 29 */ -const_c__UINT16__MAX = 65535; -current_location.update_lineno(30); -/* Osmocom_Types.ttcn, line 30 */ -{ INTEGER INTEGER_tmp("4294967295"); -const_c__UINT32__MAX = INTEGER_tmp; } -module_object.add_function("f_rnd_int", (genericfunc_t)&f__rnd__int, NULL); -module_object.add_function("f_rnd_hexstring", (genericfunc_t)&f__rnd__hexstring, NULL); -module_object.add_function("f_rnd_octstring", (genericfunc_t)&f__rnd__octstring, NULL); -module_object.add_function("f_rnd_imsi", (genericfunc_t)&f__rnd__imsi, NULL); -module_object.add_function("f_rnd_msisdn", (genericfunc_t)&f__rnd__msisdn, NULL); -module_object.add_function("f_sleep", (genericfunc_t)&f__sleep, NULL); -module_object.add_function("bool2bit", (genericfunc_t)&bool2bit, NULL); -module_object.add_function("bool2bit_tmpl", (genericfunc_t)&bool2bit__tmpl, NULL); -module_object.add_function("int2bool", (genericfunc_t)&int2bool, NULL); -module_object.add_function("f_array_contains", (genericfunc_t)&f__array__contains, NULL); -module_object.add_function("f_timer_safe_restart", (genericfunc_t)&f__timer__safe__restart, NULL); -module_object.add_function("f_div_round_up", (genericfunc_t)&f__div__round__up, NULL); -} - -static void post_init_module() -{ -TTCN_Location current_location("Osmocom_Types.ttcn", 0, TTCN_Location::LOCATION_UNKNOWN, "Osmocom_Types"); -General__Types::module_object.post_init_module(); -const_f__rnd__hexstring_max_defval = 15; -const_f__rnd__msisdn_len_defval = 6; -} - - -} /* end of namespace */ diff --git a/titan/Osmocom_Types.hh b/titan/Osmocom_Types.hh deleted file mode 100644 index b22ee31..0000000 --- a/titan/Osmocom_Types.hh +++ /dev/null @@ -1,375 +0,0 @@ -// This C++ header file was generated by the TTCN-3 compiler -// of the TTCN-3 Test Executor version CRL 113 200/6 R5A -// The generation of user and time information were disabled by the -D flag. - -// Copyright (c) 2000-2018 Ericsson Telecom AB - -// Do not edit this file unless you know what you are doing. - -#ifndef Osmocom__Types_HH -#define Osmocom__Types_HH - -#ifdef TITAN_RUNTIME_2 -#error Generated code does not match with used runtime.\ - Code was generated without -R option but -DTITAN_RUNTIME_2 was used. -#endif - -/* Header file includes */ - -#include -#include "General_Types.hh" - -#if TTCN3_VERSION != 60500 -#error Version mismatch detected.\ - Please check the version of the TTCN-3 compiler and the base library.\ - Run make clean and rebuild the project if the version of the compiler changed recently. -#endif - -#ifndef LINUX -#error This file should be compiled on LINUX -#endif - -#undef Osmocom__Types_HH -#endif - -namespace Osmocom__Types { - -/* Forward declarations of classes */ - -class Arfcn; -class Arfcn_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER IntegerRecord; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER_template IntegerRecord_template; - -} /* end of namespace */ - -#ifndef Osmocom__Types_HH -#define Osmocom__Types_HH - -namespace Osmocom__Types { - -/* Type definitions */ - -typedef INTEGER uint8__t; -typedef INTEGER_template uint8__t_template; -typedef INTEGER uint16__t; -typedef INTEGER_template uint16__t_template; -typedef INTEGER uint24__t; -typedef INTEGER_template uint24__t_template; -typedef INTEGER uint32__t; -typedef INTEGER_template uint32__t_template; -typedef INTEGER int8__t; -typedef INTEGER_template int8__t_template; -typedef INTEGER int16__t; -typedef INTEGER_template int16__t_template; -typedef INTEGER uint1__t; -typedef INTEGER_template uint1__t_template; -typedef INTEGER uint2__t; -typedef INTEGER_template uint2__t_template; -typedef INTEGER uint3__t; -typedef INTEGER_template uint3__t_template; -typedef INTEGER uint4__t; -typedef INTEGER_template uint4__t_template; -typedef INTEGER uint5__t; -typedef INTEGER_template uint5__t_template; -typedef INTEGER uint6__t; -typedef INTEGER_template uint6__t_template; -typedef INTEGER uint7__t; -typedef INTEGER_template uint7__t_template; -typedef INTEGER uint9__t; -typedef INTEGER_template uint9__t_template; -typedef INTEGER uint10__t; -typedef INTEGER_template uint10__t_template; -typedef INTEGER uint11__t; -typedef INTEGER_template uint11__t_template; -typedef INTEGER uint12__t; -typedef INTEGER_template uint12__t_template; -typedef INTEGER uint13__t; -typedef INTEGER_template uint13__t_template; -typedef INTEGER uint14__t; -typedef INTEGER_template uint14__t_template; -typedef INTEGER uint15__t; -typedef INTEGER_template uint15__t_template; - -/* Class definitions */ - -class Arfcn : public Base_Type { - BOOLEAN field_pcs; - INTEGER field_arfcn; -public: - Arfcn(); - Arfcn(const BOOLEAN& par_pcs, - const INTEGER& par_arfcn); - Arfcn(const Arfcn& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - Arfcn& operator=(const Arfcn& other_value); - boolean operator==(const Arfcn& other_value) const; - inline boolean operator!=(const Arfcn& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline BOOLEAN& pcs() - {return field_pcs;} - inline const BOOLEAN& pcs() const - {return field_pcs;} - inline INTEGER& arfcn() - {return field_arfcn;} - inline const INTEGER& arfcn() const - {return field_arfcn;} - inline int size_of() const - {return 2;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class Arfcn_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -Arfcn_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const Arfcn& other_value); -void copy_template(const Arfcn_template& other_value); - -public: -Arfcn_template(); -Arfcn_template(template_sel other_value); -Arfcn_template(const Arfcn& other_value); -Arfcn_template(const OPTIONAL& other_value); -Arfcn_template(const Arfcn_template& other_value); -~Arfcn_template(); -Arfcn_template& operator=(template_sel other_value); -Arfcn_template& operator=(const Arfcn& other_value); -Arfcn_template& operator=(const OPTIONAL& other_value); -Arfcn_template& operator=(const Arfcn_template& other_value); -boolean match(const Arfcn& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -Arfcn valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -Arfcn_template& list_item(unsigned int list_index) const; -BOOLEAN_template& pcs(); -const BOOLEAN_template& pcs() const; -INTEGER_template& arfcn(); -const INTEGER_template& arfcn() const; -int size_of() const; -void log() const; -void log_match(const Arfcn& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - - -/* Function prototypes */ - -extern void uint8__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint8__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint16__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint16__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint24__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint24__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint32__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint32__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void int8__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER int8__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void int16__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER int16__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint1__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint1__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint2__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint2__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint3__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint3__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint4__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint4__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint5__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint5__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint6__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint6__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint7__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint7__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint9__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint9__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint10__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint10__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint11__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint11__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint12__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint12__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint13__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint13__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint14__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint14__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void uint15__t_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER uint15__t_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void Arfcn_pcs_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER Arfcn_pcs_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void Arfcn_arfcn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER Arfcn_arfcn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void Arfcn_encoder(const Arfcn& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER Arfcn_decoder(OCTETSTRING& input_stream, Arfcn& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER f__rnd__int(const INTEGER& max); -extern HEXSTRING f__rnd__hexstring(const INTEGER& len, const INTEGER& max); -extern OCTETSTRING f__rnd__octstring(const INTEGER& len); -extern HEXSTRING f__rnd__imsi(const HEXSTRING& prefix); -extern OCTETSTRING f__rnd__msisdn(const OCTETSTRING& prefix, const INTEGER& len); -extern void f__sleep(const FLOAT& seconds); -extern BITSTRING bool2bit(const BOOLEAN& inp); -extern BITSTRING_template bool2bit__tmpl(const BOOLEAN_template& inp); -extern void IntegerRecord_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER IntegerRecord_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void IntegerRecord_encoder(const IntegerRecord& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER IntegerRecord_decoder(OCTETSTRING& input_stream, IntegerRecord& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern BOOLEAN int2bool(const INTEGER& int_); -extern BOOLEAN f__array__contains(const IntegerRecord& arr, const INTEGER& key); -extern void f__timer__safe__restart(TIMER& T); -extern INTEGER f__div__round__up(const INTEGER& dividend, const INTEGER& divisor); - -/* Global variable declarations */ - -extern const TTCN_RAWdescriptor_t uint8__t_raw_; -extern const XERdescriptor_t uint8__t_xer_; -extern const TTCN_OERdescriptor_t uint8__t_oer_; -extern const TTCN_Typedescriptor_t uint8__t_descr_; -extern UNIVERSAL_CHARSTRING uint8__t_default_coding; -extern const TTCN_RAWdescriptor_t uint16__t_raw_; -extern const XERdescriptor_t uint16__t_xer_; -extern const TTCN_OERdescriptor_t uint16__t_oer_; -extern const TTCN_Typedescriptor_t uint16__t_descr_; -extern UNIVERSAL_CHARSTRING uint16__t_default_coding; -extern const TTCN_RAWdescriptor_t uint24__t_raw_; -extern const XERdescriptor_t uint24__t_xer_; -extern const TTCN_Typedescriptor_t uint24__t_descr_; -extern UNIVERSAL_CHARSTRING uint24__t_default_coding; -extern const TTCN_RAWdescriptor_t uint32__t_raw_; -extern const XERdescriptor_t uint32__t_xer_; -extern const TTCN_OERdescriptor_t uint32__t_oer_; -extern const TTCN_Typedescriptor_t uint32__t_descr_; -extern UNIVERSAL_CHARSTRING uint32__t_default_coding; -extern const TTCN_RAWdescriptor_t int8__t_raw_; -extern const XERdescriptor_t int8__t_xer_; -extern const TTCN_OERdescriptor_t int8__t_oer_; -extern const TTCN_Typedescriptor_t int8__t_descr_; -extern UNIVERSAL_CHARSTRING int8__t_default_coding; -extern const TTCN_RAWdescriptor_t int16__t_raw_; -extern const XERdescriptor_t int16__t_xer_; -extern const TTCN_OERdescriptor_t int16__t_oer_; -extern const TTCN_Typedescriptor_t int16__t_descr_; -extern UNIVERSAL_CHARSTRING int16__t_default_coding; -extern const TTCN_RAWdescriptor_t uint1__t_raw_; -extern const XERdescriptor_t uint1__t_xer_; -extern const TTCN_OERdescriptor_t uint1__t_oer_; -extern const TTCN_Typedescriptor_t uint1__t_descr_; -extern UNIVERSAL_CHARSTRING uint1__t_default_coding; -extern const TTCN_RAWdescriptor_t uint2__t_raw_; -extern const XERdescriptor_t uint2__t_xer_; -extern const TTCN_OERdescriptor_t uint2__t_oer_; -extern const TTCN_Typedescriptor_t uint2__t_descr_; -extern UNIVERSAL_CHARSTRING uint2__t_default_coding; -extern const TTCN_RAWdescriptor_t uint3__t_raw_; -extern const XERdescriptor_t uint3__t_xer_; -extern const TTCN_OERdescriptor_t uint3__t_oer_; -extern const TTCN_Typedescriptor_t uint3__t_descr_; -extern UNIVERSAL_CHARSTRING uint3__t_default_coding; -extern const TTCN_RAWdescriptor_t uint4__t_raw_; -extern const XERdescriptor_t uint4__t_xer_; -extern const TTCN_OERdescriptor_t uint4__t_oer_; -extern const TTCN_Typedescriptor_t uint4__t_descr_; -extern UNIVERSAL_CHARSTRING uint4__t_default_coding; -extern const TTCN_RAWdescriptor_t uint5__t_raw_; -extern const XERdescriptor_t uint5__t_xer_; -extern const TTCN_OERdescriptor_t uint5__t_oer_; -extern const TTCN_Typedescriptor_t uint5__t_descr_; -extern UNIVERSAL_CHARSTRING uint5__t_default_coding; -extern const TTCN_RAWdescriptor_t uint6__t_raw_; -extern const XERdescriptor_t uint6__t_xer_; -extern const TTCN_OERdescriptor_t uint6__t_oer_; -extern const TTCN_Typedescriptor_t uint6__t_descr_; -extern UNIVERSAL_CHARSTRING uint6__t_default_coding; -extern const TTCN_RAWdescriptor_t uint7__t_raw_; -extern const XERdescriptor_t uint7__t_xer_; -extern const TTCN_Typedescriptor_t uint7__t_descr_; -extern UNIVERSAL_CHARSTRING uint7__t_default_coding; -extern const TTCN_RAWdescriptor_t uint9__t_raw_; -extern const XERdescriptor_t uint9__t_xer_; -extern const TTCN_OERdescriptor_t uint9__t_oer_; -extern const TTCN_Typedescriptor_t uint9__t_descr_; -extern UNIVERSAL_CHARSTRING uint9__t_default_coding; -extern const TTCN_RAWdescriptor_t uint10__t_raw_; -extern const XERdescriptor_t uint10__t_xer_; -extern const TTCN_OERdescriptor_t uint10__t_oer_; -extern const TTCN_Typedescriptor_t uint10__t_descr_; -extern UNIVERSAL_CHARSTRING uint10__t_default_coding; -extern const TTCN_RAWdescriptor_t uint11__t_raw_; -extern const XERdescriptor_t uint11__t_xer_; -extern const TTCN_Typedescriptor_t uint11__t_descr_; -extern UNIVERSAL_CHARSTRING uint11__t_default_coding; -extern const TTCN_RAWdescriptor_t uint12__t_raw_; -extern const XERdescriptor_t uint12__t_xer_; -extern const TTCN_OERdescriptor_t uint12__t_oer_; -extern const TTCN_Typedescriptor_t uint12__t_descr_; -extern UNIVERSAL_CHARSTRING uint12__t_default_coding; -extern const TTCN_RAWdescriptor_t uint13__t_raw_; -extern const XERdescriptor_t uint13__t_xer_; -extern const TTCN_Typedescriptor_t uint13__t_descr_; -extern UNIVERSAL_CHARSTRING uint13__t_default_coding; -extern const TTCN_RAWdescriptor_t uint14__t_raw_; -extern const XERdescriptor_t uint14__t_xer_; -extern const TTCN_Typedescriptor_t uint14__t_descr_; -extern UNIVERSAL_CHARSTRING uint14__t_default_coding; -extern const TTCN_RAWdescriptor_t uint15__t_raw_; -extern const XERdescriptor_t uint15__t_xer_; -extern const TTCN_Typedescriptor_t uint15__t_descr_; -extern UNIVERSAL_CHARSTRING uint15__t_default_coding; -extern const INTEGER& c__UINT16__MAX; -extern const INTEGER& c__UINT32__MAX; -extern const TTCN_RAWdescriptor_t Arfcn_pcs_raw_; -extern const XERdescriptor_t Arfcn_pcs_xer_; -extern const TTCN_OERdescriptor_t Arfcn_pcs_oer_; -extern const TTCN_Typedescriptor_t Arfcn_pcs_descr_; -extern UNIVERSAL_CHARSTRING Arfcn_pcs_default_coding; -extern const TTCN_RAWdescriptor_t Arfcn_arfcn_raw_; -extern const XERdescriptor_t Arfcn_arfcn_xer_; -extern const TTCN_OERdescriptor_t Arfcn_arfcn_oer_; -extern const TTCN_Typedescriptor_t Arfcn_arfcn_descr_; -extern UNIVERSAL_CHARSTRING Arfcn_arfcn_default_coding; -extern const TTCN_RAWdescriptor_t Arfcn_raw_; -extern const TTCN_Typedescriptor_t Arfcn_descr_; -extern UNIVERSAL_CHARSTRING Arfcn_default_coding; -extern const INTEGER& f__rnd__hexstring_max_defval; -extern const INTEGER& f__rnd__msisdn_len_defval; -extern const TTCN_RAWdescriptor_t IntegerRecord_raw_; -extern const TTCN_Typedescriptor_t IntegerRecord_descr_; -extern const TTCN_RAWdescriptor_t IntegerRecord_0_raw_; -extern const XERdescriptor_t IntegerRecord_0_xer_; -extern const TTCN_Typedescriptor_t IntegerRecord_0_descr_; -extern UNIVERSAL_CHARSTRING IntegerRecord_0_default_coding; -extern UNIVERSAL_CHARSTRING IntegerRecord_default_coding; -extern TTCN_Module module_object; - -} /* end of namespace */ - -#endif diff --git a/titan/Osmocom_Types.ttcn b/titan/Osmocom_Types.ttcn new file mode 100644 index 0000000..2a4f68c --- /dev/null +++ b/titan/Osmocom_Types.ttcn @@ -0,0 +1,156 @@ +module Osmocom_Types { + + import from General_Types all; + + type integer uint8_t (0..255) with { variant "unsigned 8 bit" }; + type integer uint16_t (0..65535) with { variant "unsigned 16 bit" }; + type integer uint24_t (0..16777215) with { variant "unsigned 24 bit" }; + type integer uint32_t (0..4294967295) with { variant "unsigned 32 bit" }; + + type integer int8_t (-128..127) with { variant "8 bit" }; + type integer int16_t (-32768..32767) with { variant "16 bit" }; + + type integer uint1_t (0..1) with { variant "unsigned 1 bit" }; + type integer uint2_t (0..3) with { variant "unsigned 2 bit" }; + type integer uint3_t (0..7) with { variant "unsigned 3 bit" }; + type integer uint4_t (0..15) with { variant "unsigned 4 bit" }; + type integer uint5_t (0..31) with { variant "unsigned 5 bit" }; + type integer uint6_t (0..63) with { variant "unsigned 6 bit" }; + type integer uint7_t (0..127) with { variant "unsigned 7 bit" }; + type integer uint9_t (0..511) with { variant "unsigned 9 bit" }; + type integer uint10_t (0..1023) with { variant "unsigned 10 bit" }; + type integer uint11_t (0..2047) with { variant "unsigned 11 bit" }; + type integer uint12_t (0..4095) with { variant "unsigned 12 bit" }; + type integer uint13_t (0..8191) with { variant "unsigned 13 bit" }; + type integer uint14_t (0..16383) with { variant "unsigned 14 bit" }; + type integer uint15_t (0..32767) with { variant "unsigned 15 bit" }; + + + const uint16_t c_UINT16_MAX := 65535; + const uint32_t c_UINT32_MAX := 4294967295; + + type record Arfcn { + boolean pcs, + uint15_t arfcn + } with { variant "" }; + + /* return random integer between 0 and max */ + function f_rnd_int(integer max) return integer { + return float2int(rnd()*int2float(max)); + } + + /* return hexstring composed of random digits */ + function f_rnd_hexstring(in integer len, in integer max := 15) return hexstring { + var integer i; + var hexstring ret := ''H; + for (i := 0; i < len; i := i + 1) { + ret := ret & int2hex(f_rnd_int(max), 1); + } + return ret; + } + + /* return octetstring composed of random bytes */ + function f_rnd_octstring(in integer len) return octetstring { + var integer i; + var octetstring ret := ''O; + for (i := 0; i < len; i := i + 1) { + ret := ret & int2oct(f_rnd_int(255), 1); + } + return ret; + } + + function f_rnd_imsi(in hexstring prefix) return hexstring { + return prefix & f_rnd_hexstring(15 - lengthof(prefix), 9); + } + + function f_rnd_msisdn(in octetstring prefix, integer len := 6) return octetstring { + return prefix & f_rnd_octstring(len - lengthof(prefix)); + } + + function f_sleep(float seconds) { + timer T := seconds; + T.start; + T.timeout; + } + +function bool2bit(boolean inp) return BIT1 { + if (inp) { + return '1'B; + } else { + return '0'B; + } +} + +function bool2bit_tmpl(template boolean inp) return template BIT1 { + if (istemplatekind(inp, "omit")) { + return omit; + } else if (istemplatekind(inp, "*")) { + return *; + } else if (istemplatekind(inp, "?")) { + return ?; + } else { + if (valueof(inp)) { + return '1'B; + } else { + return '0'B; + } + } +} + +type record of integer IntegerRecord; + +function int2bool(integer int) return boolean { + if (int != 0) { + return true; + } else { + return false; + } +} + +function f_array_contains(IntegerRecord arr, integer key) return boolean { + for (var integer i:= 0; i< sizeof(arr); i := i + 1) { + if (arr[i] == key) { + return true; + } + } + return false; +} + +/* re-start given timer in a warning-safe way: Stop (only if running) + start */ +function f_timer_safe_restart(timer T) { + if (T.running) { + T.stop; + } + T.start; +} + +/* divide two integers and return rounded-up result */ +function f_div_round_up(integer dividend, integer divisor) return integer { + var integer x := dividend / divisor; + if (dividend rem divisor != 0) { + x := x+1; + } + return x; +} + +function imsi_hex2oct(hexstring imsi) return octetstring { + var hexstring tmp := ''H; + var octetstring ret; + var integer i; + + /* swap nibbles and pad with F if insufficient input nibbles */ + for (i := 0; i < lengthof(imsi); i := i+1) { + if (i+1 < lengthof(imsi)) { + tmp := tmp & imsi[i+1]; + } else { + tmp := tmp & 'F'H; + } + tmp := tmp & imsi[i]; + i := i+1; + } + ret := hex2oct(tmp); + return ret; +} + + +} with { encode "RAW"; variant "FIELDORDER(msb)" } diff --git a/titan/PCUIF_Types.cc b/titan/PCUIF_Types.cc deleted file mode 100644 index 30adc31..0000000 --- a/titan/PCUIF_Types.cc +++ /dev/null @@ -1,32386 +0,0 @@ -// This C++ source file was generated by the TTCN-3 compiler -// of the TTCN-3 Test Executor version CRL 113 200/6 R5A -// The generation of user and time information were disabled by the -D flag. - -// Copyright (c) 2000-2018 Ericsson Telecom AB - -// Do not edit this file unless you know what you are doing. - -/* Including header files */ - -#include "PCUIF_Types.hh" - -namespace PCUIF__Types { - -/* Prototypes of static functions */ - -static void pre_init_module(); -static void post_init_module(); - -/* Literal string constants */ - -static const unsigned char bs_1_bits[] = { 0 }, -bs_3_bits[] = { 0 }, -bs_0_bits[] = { 0, 0 }, -bs_2_bits[] = { 128 }; -static const BITSTRING bs_1(3, bs_1_bits), -bs_3(8, bs_3_bits), -bs_0(14, bs_0_bits), -bs_2(8, bs_2_bits); -static const unsigned char os_2_octets[] = { 0 }, -os_0_octets[] = { 0, 0 }, -os_1_octets[] = { 0, 0, 0 }, -os_4_octets[] = { 0, 0, 0, 0 }, -os_3_octets[] = { 7 }; -static const OCTETSTRING os_2(1, os_2_octets), -os_0(2, os_0_octets), -os_1(3, os_1_octets), -os_4(4, os_4_octets), -os_3(1, os_3_octets); -static const CHARSTRING cs_0(12, "/tmp/pcu_bts"); -static const unsigned char module_checksum[] = { 0x14, 0x83, 0x83, 0x91, 0xca, 0x91, 0x4c, 0x23, 0x88, 0x82, 0xad, 0xfd, 0x2d, 0xa6, 0x37, 0x42 }; - -/* Global variable definitions */ - -static CHARSTRING const_PCU__SOCK__DEFAULT; -const CHARSTRING& PCU__SOCK__DEFAULT = const_PCU__SOCK__DEFAULT; -static INTEGER const_PCU__IF__VERSION; -const INTEGER& PCU__IF__VERSION = const_PCU__IF__VERSION; -const TTCN_RAWdescriptor_t PCUIF__MsgType_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgType -const TTCN_Typedescriptor_t PCUIF__MsgType_descr_ = { "@PCUIF_Types.PCUIF_MsgType", NULL, &PCUIF__MsgType_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgType_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Sapi_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__Sapi -const TTCN_Typedescriptor_t PCUIF__Sapi_descr_ = { "@PCUIF_Types.PCUIF_Sapi", NULL, &PCUIF__Sapi_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Sapi_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_bts__active_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_bts__active_xer_ = { {"bts_active>\n", "bts_active>\n"}, {12, 12}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_bts__active_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_bts__active_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_bts__active_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_bts__active_oer_ext_arr_, 0, PCUIF__Flags_bts__active_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_bts__active_descr_ = { "@PCUIF_Types.PCUIF_Flags.bts_active", &BOOLEAN_ber_, &PCUIF__Flags_bts__active_raw_, &BOOLEAN_text_, &PCUIF__Flags_bts__active_xer_, &BOOLEAN_json_, &PCUIF__Flags_bts__active_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_bts__active_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_sysmo__direct__dsp_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_sysmo__direct__dsp_xer_ = { {"sysmo_direct_dsp>\n", "sysmo_direct_dsp>\n"}, {18, 18}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_sysmo__direct__dsp_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_sysmo__direct__dsp_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_sysmo__direct__dsp_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_sysmo__direct__dsp_oer_ext_arr_, 0, PCUIF__Flags_sysmo__direct__dsp_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_sysmo__direct__dsp_descr_ = { "@PCUIF_Types.PCUIF_Flags.sysmo_direct_dsp", &BOOLEAN_ber_, &PCUIF__Flags_sysmo__direct__dsp_raw_, &BOOLEAN_text_, &PCUIF__Flags_sysmo__direct__dsp_xer_, &BOOLEAN_json_, &PCUIF__Flags_sysmo__direct__dsp_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_sysmo__direct__dsp_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_spare_raw_ = {14,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,14,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_spare_xer_ = { {"spare>\n", "spare>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t PCUIF__Flags_spare_descr_ = { "@PCUIF_Types.PCUIF_Flags.spare", &BITSTRING_ber_, &PCUIF__Flags_spare_raw_, NULL, &PCUIF__Flags_spare_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_spare_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_cs1_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_cs1_xer_ = { {"cs1>\n", "cs1>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_cs1_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_cs1_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_cs1_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_cs1_oer_ext_arr_, 0, PCUIF__Flags_cs1_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_cs1_descr_ = { "@PCUIF_Types.PCUIF_Flags.cs1", &BOOLEAN_ber_, &PCUIF__Flags_cs1_raw_, &BOOLEAN_text_, &PCUIF__Flags_cs1_xer_, &BOOLEAN_json_, &PCUIF__Flags_cs1_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_cs1_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_cs2_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_cs2_xer_ = { {"cs2>\n", "cs2>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_cs2_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_cs2_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_cs2_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_cs2_oer_ext_arr_, 0, PCUIF__Flags_cs2_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_cs2_descr_ = { "@PCUIF_Types.PCUIF_Flags.cs2", &BOOLEAN_ber_, &PCUIF__Flags_cs2_raw_, &BOOLEAN_text_, &PCUIF__Flags_cs2_xer_, &BOOLEAN_json_, &PCUIF__Flags_cs2_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_cs2_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_cs3_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_cs3_xer_ = { {"cs3>\n", "cs3>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_cs3_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_cs3_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_cs3_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_cs3_oer_ext_arr_, 0, PCUIF__Flags_cs3_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_cs3_descr_ = { "@PCUIF_Types.PCUIF_Flags.cs3", &BOOLEAN_ber_, &PCUIF__Flags_cs3_raw_, &BOOLEAN_text_, &PCUIF__Flags_cs3_xer_, &BOOLEAN_json_, &PCUIF__Flags_cs3_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_cs3_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_cs4_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_cs4_xer_ = { {"cs4>\n", "cs4>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_cs4_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_cs4_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_cs4_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_cs4_oer_ext_arr_, 0, PCUIF__Flags_cs4_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_cs4_descr_ = { "@PCUIF_Types.PCUIF_Flags.cs4", &BOOLEAN_ber_, &PCUIF__Flags_cs4_raw_, &BOOLEAN_text_, &PCUIF__Flags_cs4_xer_, &BOOLEAN_json_, &PCUIF__Flags_cs4_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_cs4_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_mcs1_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_mcs1_xer_ = { {"mcs1>\n", "mcs1>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_mcs1_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_mcs1_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_mcs1_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_mcs1_oer_ext_arr_, 0, PCUIF__Flags_mcs1_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_mcs1_descr_ = { "@PCUIF_Types.PCUIF_Flags.mcs1", &BOOLEAN_ber_, &PCUIF__Flags_mcs1_raw_, &BOOLEAN_text_, &PCUIF__Flags_mcs1_xer_, &BOOLEAN_json_, &PCUIF__Flags_mcs1_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_mcs1_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_mcs2_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_mcs2_xer_ = { {"mcs2>\n", "mcs2>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_mcs2_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_mcs2_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_mcs2_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_mcs2_oer_ext_arr_, 0, PCUIF__Flags_mcs2_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_mcs2_descr_ = { "@PCUIF_Types.PCUIF_Flags.mcs2", &BOOLEAN_ber_, &PCUIF__Flags_mcs2_raw_, &BOOLEAN_text_, &PCUIF__Flags_mcs2_xer_, &BOOLEAN_json_, &PCUIF__Flags_mcs2_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_mcs2_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_mcs3_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_mcs3_xer_ = { {"mcs3>\n", "mcs3>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_mcs3_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_mcs3_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_mcs3_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_mcs3_oer_ext_arr_, 0, PCUIF__Flags_mcs3_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_mcs3_descr_ = { "@PCUIF_Types.PCUIF_Flags.mcs3", &BOOLEAN_ber_, &PCUIF__Flags_mcs3_raw_, &BOOLEAN_text_, &PCUIF__Flags_mcs3_xer_, &BOOLEAN_json_, &PCUIF__Flags_mcs3_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_mcs3_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_mcs4_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_mcs4_xer_ = { {"mcs4>\n", "mcs4>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_mcs4_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_mcs4_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_mcs4_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_mcs4_oer_ext_arr_, 0, PCUIF__Flags_mcs4_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_mcs4_descr_ = { "@PCUIF_Types.PCUIF_Flags.mcs4", &BOOLEAN_ber_, &PCUIF__Flags_mcs4_raw_, &BOOLEAN_text_, &PCUIF__Flags_mcs4_xer_, &BOOLEAN_json_, &PCUIF__Flags_mcs4_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_mcs4_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_mcs5_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_mcs5_xer_ = { {"mcs5>\n", "mcs5>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_mcs5_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_mcs5_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_mcs5_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_mcs5_oer_ext_arr_, 0, PCUIF__Flags_mcs5_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_mcs5_descr_ = { "@PCUIF_Types.PCUIF_Flags.mcs5", &BOOLEAN_ber_, &PCUIF__Flags_mcs5_raw_, &BOOLEAN_text_, &PCUIF__Flags_mcs5_xer_, &BOOLEAN_json_, &PCUIF__Flags_mcs5_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_mcs5_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_mcs6_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_mcs6_xer_ = { {"mcs6>\n", "mcs6>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_mcs6_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_mcs6_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_mcs6_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_mcs6_oer_ext_arr_, 0, PCUIF__Flags_mcs6_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_mcs6_descr_ = { "@PCUIF_Types.PCUIF_Flags.mcs6", &BOOLEAN_ber_, &PCUIF__Flags_mcs6_raw_, &BOOLEAN_text_, &PCUIF__Flags_mcs6_xer_, &BOOLEAN_json_, &PCUIF__Flags_mcs6_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_mcs6_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_mcs7_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_mcs7_xer_ = { {"mcs7>\n", "mcs7>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_mcs7_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_mcs7_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_mcs7_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_mcs7_oer_ext_arr_, 0, PCUIF__Flags_mcs7_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_mcs7_descr_ = { "@PCUIF_Types.PCUIF_Flags.mcs7", &BOOLEAN_ber_, &PCUIF__Flags_mcs7_raw_, &BOOLEAN_text_, &PCUIF__Flags_mcs7_xer_, &BOOLEAN_json_, &PCUIF__Flags_mcs7_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_mcs7_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_mcs8_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_mcs8_xer_ = { {"mcs8>\n", "mcs8>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_mcs8_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_mcs8_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_mcs8_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_mcs8_oer_ext_arr_, 0, PCUIF__Flags_mcs8_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_mcs8_descr_ = { "@PCUIF_Types.PCUIF_Flags.mcs8", &BOOLEAN_ber_, &PCUIF__Flags_mcs8_raw_, &BOOLEAN_text_, &PCUIF__Flags_mcs8_xer_, &BOOLEAN_json_, &PCUIF__Flags_mcs8_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_mcs8_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_mcs9_raw_ = {1,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_mcs9_xer_ = { {"mcs9>\n", "mcs9>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Flags_mcs9_oer_ext_arr_[0] = {}; -const int PCUIF__Flags_mcs9_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Flags_mcs9_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Flags_mcs9_oer_ext_arr_, 0, PCUIF__Flags_mcs9_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Flags_mcs9_descr_ = { "@PCUIF_Types.PCUIF_Flags.mcs9", &BOOLEAN_ber_, &PCUIF__Flags_mcs9_raw_, &BOOLEAN_text_, &PCUIF__Flags_mcs9_xer_, &BOOLEAN_json_, &PCUIF__Flags_mcs9_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_mcs9_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_spare2_raw_ = {3,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,3,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Flags_spare2_xer_ = { {"spare2>\n", "spare2>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t PCUIF__Flags_spare2_descr_ = { "@PCUIF_Types.PCUIF_Flags.spare2", &BITSTRING_ber_, &PCUIF__Flags_spare2_raw_, NULL, &PCUIF__Flags_spare2_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_spare2_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Flags_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__Flags -const TTCN_Typedescriptor_t PCUIF__Flags_descr_ = { "@PCUIF_Types.PCUIF_Flags", NULL, &PCUIF__Flags_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Flags_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__TextType_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__TextType -const TTCN_Typedescriptor_t PCUIF__TextType_descr_ = { "@PCUIF_Types.PCUIF_TextType", NULL, &PCUIF__TextType_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__TextType_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Text_raw_ = {1024,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,128,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Text_xer_ = { {"PCUIF_Text>\n", "PCUIF_Text>\n"}, {12, 12}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t PCUIF__Text_descr_ = { "@PCUIF_Types.PCUIF_Text", NULL, &PCUIF__Text_raw_, &CHARSTRING_text_, &PCUIF__Text_xer_, &CHARSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Text_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__txt__ind_txt__type_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__txt__ind_txt__type -const TTCN_Typedescriptor_t PCUIF__txt__ind_txt__type_descr_ = { "@PCUIF_Types.PCUIF_txt_ind.txt_type", NULL, &PCUIF__txt__ind_txt__type_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__txt__ind_txt__type_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__txt__ind_text_raw_ = {1024,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,128,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__txt__ind_text_xer_ = { {"text>\n", "text>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t PCUIF__txt__ind_text_descr_ = { "@PCUIF_Types.PCUIF_txt_ind.text", NULL, &PCUIF__txt__ind_text_raw_, &CHARSTRING_text_, &PCUIF__txt__ind_text_xer_, &CHARSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__txt__ind_text_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__txt__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__txt__ind -const TTCN_Typedescriptor_t PCUIF__txt__ind_descr_ = { "@PCUIF_Types.PCUIF_txt_ind", NULL, &PCUIF__txt__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__txt__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t OCT162_raw_ = {1296,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,162,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t OCT162_xer_ = { {"OCT162>\n", "OCT162>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int OCT162_oer_ext_arr_[0] = {}; -const int OCT162_oer_p_[0] = {}; -const TTCN_OERdescriptor_t OCT162_oer_ = { -1, TRUE, -1, FALSE, 0, 0, OCT162_oer_ext_arr_, 0, OCT162_oer_p_}; -const TTCN_Typedescriptor_t OCT162_descr_ = { "@PCUIF_Types.OCT162", &OCTETSTRING_ber_, &OCT162_raw_, &OCTETSTRING_text_, &OCT162_xer_, &OCTETSTRING_json_, &OCT162_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING OCT162_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_sapi_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__data_sapi -const TTCN_Typedescriptor_t PCUIF__data_sapi_descr_ = { "@PCUIF_Types.PCUIF_data.sapi", NULL, &PCUIF__data_sapi_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_sapi_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_len_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data_len_xer_ = { {"len>\n", "len>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data_len_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data_len_descr_ = { "@PCUIF_Types.PCUIF_data.len", &INTEGER_ber_, &PCUIF__data_len_raw_, &INTEGER_text_, &PCUIF__data_len_xer_, &INTEGER_json_, &PCUIF__data_len_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_len_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_data_raw_ = {1296,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,162,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data_data_xer_ = { {"data>\n", "data>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__data_data_oer_ext_arr_[0] = {}; -const int PCUIF__data_data_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__data_data_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__data_data_oer_ext_arr_, 0, PCUIF__data_data_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__data_data_descr_ = { "@PCUIF_Types.PCUIF_data.data", &OCTETSTRING_ber_, &PCUIF__data_data_raw_, &OCTETSTRING_text_, &PCUIF__data_data_xer_, &OCTETSTRING_json_, &PCUIF__data_data_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_data_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_fn_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data_fn_xer_ = { {"fn>\n", "fn>\n"}, {4, 4}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data_fn_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data_fn_descr_ = { "@PCUIF_Types.PCUIF_data.fn", &INTEGER_ber_, &PCUIF__data_fn_raw_, &INTEGER_text_, &PCUIF__data_fn_xer_, &INTEGER_json_, &PCUIF__data_fn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_fn_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_arfcn_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data_arfcn_xer_ = { {"arfcn>\n", "arfcn>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data_arfcn_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data_arfcn_descr_ = { "@PCUIF_Types.PCUIF_data.arfcn", &INTEGER_ber_, &PCUIF__data_arfcn_raw_, &INTEGER_text_, &PCUIF__data_arfcn_xer_, &INTEGER_json_, &PCUIF__data_arfcn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_arfcn_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_trx__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data_trx__nr_xer_ = { {"trx_nr>\n", "trx_nr>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data_trx__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data_trx__nr_descr_ = { "@PCUIF_Types.PCUIF_data.trx_nr", &INTEGER_ber_, &PCUIF__data_trx__nr_raw_, &INTEGER_text_, &PCUIF__data_trx__nr_xer_, &INTEGER_json_, &PCUIF__data_trx__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_trx__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_ts__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data_ts__nr_xer_ = { {"ts_nr>\n", "ts_nr>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data_ts__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data_ts__nr_descr_ = { "@PCUIF_Types.PCUIF_data.ts_nr", &INTEGER_ber_, &PCUIF__data_ts__nr_raw_, &INTEGER_text_, &PCUIF__data_ts__nr_xer_, &INTEGER_json_, &PCUIF__data_ts__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_ts__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_block__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data_block__nr_xer_ = { {"block_nr>\n", "block_nr>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data_block__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data_block__nr_descr_ = { "@PCUIF_Types.PCUIF_data.block_nr", &INTEGER_ber_, &PCUIF__data_block__nr_raw_, &INTEGER_text_, &PCUIF__data_block__nr_xer_, &INTEGER_json_, &PCUIF__data_block__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_block__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_rssi_raw_ = {8,SG_SG_BIT,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data_rssi_xer_ = { {"rssi>\n", "rssi>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data_rssi_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data_rssi_descr_ = { "@PCUIF_Types.PCUIF_data.rssi", &INTEGER_ber_, &PCUIF__data_rssi_raw_, &INTEGER_text_, &PCUIF__data_rssi_xer_, &INTEGER_json_, &PCUIF__data_rssi_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_rssi_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_ber10k_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data_ber10k_xer_ = { {"ber10k>\n", "ber10k>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data_ber10k_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data_ber10k_descr_ = { "@PCUIF_Types.PCUIF_data.ber10k", &INTEGER_ber_, &PCUIF__data_ber10k_raw_, &INTEGER_text_, &PCUIF__data_ber10k_xer_, &INTEGER_json_, &PCUIF__data_ber10k_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_ber10k_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_ta__offs__qbits_raw_ = {16,SG_SG_BIT,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data_ta__offs__qbits_xer_ = { {"ta_offs_qbits>\n", "ta_offs_qbits>\n"}, {15, 15}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data_ta__offs__qbits_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data_ta__offs__qbits_descr_ = { "@PCUIF_Types.PCUIF_data.ta_offs_qbits", &INTEGER_ber_, &PCUIF__data_ta__offs__qbits_raw_, &INTEGER_text_, &PCUIF__data_ta__offs__qbits_xer_, &INTEGER_json_, &PCUIF__data_ta__offs__qbits_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_ta__offs__qbits_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_lqual__cb_raw_ = {16,SG_SG_BIT,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data_lqual__cb_xer_ = { {"lqual_cb>\n", "lqual_cb>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data_lqual__cb_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data_lqual__cb_descr_ = { "@PCUIF_Types.PCUIF_data.lqual_cb", &INTEGER_ber_, &PCUIF__data_lqual__cb_raw_, &INTEGER_text_, &PCUIF__data_lqual__cb_xer_, &INTEGER_json_, &PCUIF__data_lqual__cb_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_lqual__cb_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__data -const TTCN_Typedescriptor_t PCUIF__data_descr_ = { "@PCUIF_Types.PCUIF_data", NULL, &PCUIF__data_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_sapi_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__data__cnf__dt_sapi -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_sapi_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt.sapi", NULL, &PCUIF__data__cnf__dt_sapi_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_sapi_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_tlli_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,4,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data__cnf__dt_tlli_xer_ = { {"tlli>\n", "tlli>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__data__cnf__dt_tlli_oer_ext_arr_[0] = {}; -const int PCUIF__data__cnf__dt_tlli_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_tlli_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__data__cnf__dt_tlli_oer_ext_arr_, 0, PCUIF__data__cnf__dt_tlli_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_tlli_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt.tlli", &OCTETSTRING_ber_, &PCUIF__data__cnf__dt_tlli_raw_, &OCTETSTRING_text_, &PCUIF__data__cnf__dt_tlli_xer_, &OCTETSTRING_json_, &PCUIF__data__cnf__dt_tlli_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_tlli_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_fn_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data__cnf__dt_fn_xer_ = { {"fn>\n", "fn>\n"}, {4, 4}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_fn_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_fn_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt.fn", &INTEGER_ber_, &PCUIF__data__cnf__dt_fn_raw_, &INTEGER_text_, &PCUIF__data__cnf__dt_fn_xer_, &INTEGER_json_, &PCUIF__data__cnf__dt_fn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_fn_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_arfcn_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data__cnf__dt_arfcn_xer_ = { {"arfcn>\n", "arfcn>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_arfcn_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_arfcn_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt.arfcn", &INTEGER_ber_, &PCUIF__data__cnf__dt_arfcn_raw_, &INTEGER_text_, &PCUIF__data__cnf__dt_arfcn_xer_, &INTEGER_json_, &PCUIF__data__cnf__dt_arfcn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_arfcn_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_trx__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data__cnf__dt_trx__nr_xer_ = { {"trx_nr>\n", "trx_nr>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_trx__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_trx__nr_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt.trx_nr", &INTEGER_ber_, &PCUIF__data__cnf__dt_trx__nr_raw_, &INTEGER_text_, &PCUIF__data__cnf__dt_trx__nr_xer_, &INTEGER_json_, &PCUIF__data__cnf__dt_trx__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_trx__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_ts__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data__cnf__dt_ts__nr_xer_ = { {"ts_nr>\n", "ts_nr>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_ts__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_ts__nr_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt.ts_nr", &INTEGER_ber_, &PCUIF__data__cnf__dt_ts__nr_raw_, &INTEGER_text_, &PCUIF__data__cnf__dt_ts__nr_xer_, &INTEGER_json_, &PCUIF__data__cnf__dt_ts__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_ts__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_block__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data__cnf__dt_block__nr_xer_ = { {"block_nr>\n", "block_nr>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_block__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_block__nr_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt.block_nr", &INTEGER_ber_, &PCUIF__data__cnf__dt_block__nr_raw_, &INTEGER_text_, &PCUIF__data__cnf__dt_block__nr_xer_, &INTEGER_json_, &PCUIF__data__cnf__dt_block__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_block__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_rssi_raw_ = {8,SG_SG_BIT,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data__cnf__dt_rssi_xer_ = { {"rssi>\n", "rssi>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_rssi_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_rssi_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt.rssi", &INTEGER_ber_, &PCUIF__data__cnf__dt_rssi_raw_, &INTEGER_text_, &PCUIF__data__cnf__dt_rssi_xer_, &INTEGER_json_, &PCUIF__data__cnf__dt_rssi_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_rssi_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_ber10k_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data__cnf__dt_ber10k_xer_ = { {"ber10k>\n", "ber10k>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_ber10k_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_ber10k_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt.ber10k", &INTEGER_ber_, &PCUIF__data__cnf__dt_ber10k_raw_, &INTEGER_text_, &PCUIF__data__cnf__dt_ber10k_xer_, &INTEGER_json_, &PCUIF__data__cnf__dt_ber10k_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_ber10k_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_ta__offs__qbits_raw_ = {16,SG_SG_BIT,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data__cnf__dt_ta__offs__qbits_xer_ = { {"ta_offs_qbits>\n", "ta_offs_qbits>\n"}, {15, 15}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_ta__offs__qbits_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_ta__offs__qbits_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt.ta_offs_qbits", &INTEGER_ber_, &PCUIF__data__cnf__dt_ta__offs__qbits_raw_, &INTEGER_text_, &PCUIF__data__cnf__dt_ta__offs__qbits_xer_, &INTEGER_json_, &PCUIF__data__cnf__dt_ta__offs__qbits_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_ta__offs__qbits_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_lqual__cb_raw_ = {16,SG_SG_BIT,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__data__cnf__dt_lqual__cb_xer_ = { {"lqual_cb>\n", "lqual_cb>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_lqual__cb_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_lqual__cb_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt.lqual_cb", &INTEGER_ber_, &PCUIF__data__cnf__dt_lqual__cb_raw_, &INTEGER_text_, &PCUIF__data__cnf__dt_lqual__cb_xer_, &INTEGER_json_, &PCUIF__data__cnf__dt_lqual__cb_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_lqual__cb_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__data__cnf__dt -const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_descr_ = { "@PCUIF_Types.PCUIF_data_cnf_dt", NULL, &PCUIF__data__cnf__dt_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rts__req_sapi_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__rts__req_sapi -const TTCN_Typedescriptor_t PCUIF__rts__req_sapi_descr_ = { "@PCUIF_Types.PCUIF_rts_req.sapi", NULL, &PCUIF__rts__req_sapi_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rts__req_sapi_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rts__req_spare_raw_ = {24,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,3,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__rts__req_spare_xer_ = { {"spare>\n", "spare>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__rts__req_spare_oer_ext_arr_[0] = {}; -const int PCUIF__rts__req_spare_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__rts__req_spare_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__rts__req_spare_oer_ext_arr_, 0, PCUIF__rts__req_spare_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__rts__req_spare_descr_ = { "@PCUIF_Types.PCUIF_rts_req.spare", &OCTETSTRING_ber_, &PCUIF__rts__req_spare_raw_, &OCTETSTRING_text_, &PCUIF__rts__req_spare_xer_, &OCTETSTRING_json_, &PCUIF__rts__req_spare_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rts__req_spare_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rts__req_fn_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__rts__req_fn_xer_ = { {"fn>\n", "fn>\n"}, {4, 4}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__rts__req_fn_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__rts__req_fn_descr_ = { "@PCUIF_Types.PCUIF_rts_req.fn", &INTEGER_ber_, &PCUIF__rts__req_fn_raw_, &INTEGER_text_, &PCUIF__rts__req_fn_xer_, &INTEGER_json_, &PCUIF__rts__req_fn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rts__req_fn_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rts__req_arfcn_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__rts__req_arfcn_xer_ = { {"arfcn>\n", "arfcn>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__rts__req_arfcn_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__rts__req_arfcn_descr_ = { "@PCUIF_Types.PCUIF_rts_req.arfcn", &INTEGER_ber_, &PCUIF__rts__req_arfcn_raw_, &INTEGER_text_, &PCUIF__rts__req_arfcn_xer_, &INTEGER_json_, &PCUIF__rts__req_arfcn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rts__req_arfcn_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rts__req_trx__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__rts__req_trx__nr_xer_ = { {"trx_nr>\n", "trx_nr>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__rts__req_trx__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__rts__req_trx__nr_descr_ = { "@PCUIF_Types.PCUIF_rts_req.trx_nr", &INTEGER_ber_, &PCUIF__rts__req_trx__nr_raw_, &INTEGER_text_, &PCUIF__rts__req_trx__nr_xer_, &INTEGER_json_, &PCUIF__rts__req_trx__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rts__req_trx__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rts__req_ts__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__rts__req_ts__nr_xer_ = { {"ts_nr>\n", "ts_nr>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__rts__req_ts__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__rts__req_ts__nr_descr_ = { "@PCUIF_Types.PCUIF_rts_req.ts_nr", &INTEGER_ber_, &PCUIF__rts__req_ts__nr_raw_, &INTEGER_text_, &PCUIF__rts__req_ts__nr_xer_, &INTEGER_json_, &PCUIF__rts__req_ts__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rts__req_ts__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rts__req_block__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__rts__req_block__nr_xer_ = { {"block_nr>\n", "block_nr>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__rts__req_block__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__rts__req_block__nr_descr_ = { "@PCUIF_Types.PCUIF_rts_req.block_nr", &INTEGER_ber_, &PCUIF__rts__req_block__nr_raw_, &INTEGER_text_, &PCUIF__rts__req_block__nr_xer_, &INTEGER_json_, &PCUIF__rts__req_block__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rts__req_block__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rts__req_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__rts__req -const TTCN_Typedescriptor_t PCUIF__rts__req_descr_ = { "@PCUIF_Types.PCUIF_rts_req", NULL, &PCUIF__rts__req_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rts__req_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__BurstType_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__BurstType -const TTCN_Typedescriptor_t PCUIF__BurstType_descr_ = { "@PCUIF_Types.PCUIF_BurstType", NULL, &PCUIF__BurstType_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__BurstType_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rach__ind_sapi_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__rach__ind_sapi -const TTCN_Typedescriptor_t PCUIF__rach__ind_sapi_descr_ = { "@PCUIF_Types.PCUIF_rach_ind.sapi", NULL, &PCUIF__rach__ind_sapi_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rach__ind_sapi_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rach__ind_ra_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__rach__ind_ra_xer_ = { {"ra>\n", "ra>\n"}, {4, 4}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__rach__ind_ra_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__rach__ind_ra_descr_ = { "@PCUIF_Types.PCUIF_rach_ind.ra", &INTEGER_ber_, &PCUIF__rach__ind_ra_raw_, &INTEGER_text_, &PCUIF__rach__ind_ra_xer_, &INTEGER_json_, &PCUIF__rach__ind_ra_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rach__ind_ra_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rach__ind_qta_raw_ = {16,SG_SG_BIT,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__rach__ind_qta_xer_ = { {"qta>\n", "qta>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__rach__ind_qta_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__rach__ind_qta_descr_ = { "@PCUIF_Types.PCUIF_rach_ind.qta", &INTEGER_ber_, &PCUIF__rach__ind_qta_raw_, &INTEGER_text_, &PCUIF__rach__ind_qta_xer_, &INTEGER_json_, &PCUIF__rach__ind_qta_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rach__ind_qta_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rach__ind_fn_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__rach__ind_fn_xer_ = { {"fn>\n", "fn>\n"}, {4, 4}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__rach__ind_fn_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__rach__ind_fn_descr_ = { "@PCUIF_Types.PCUIF_rach_ind.fn", &INTEGER_ber_, &PCUIF__rach__ind_fn_raw_, &INTEGER_text_, &PCUIF__rach__ind_fn_xer_, &INTEGER_json_, &PCUIF__rach__ind_fn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rach__ind_fn_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rach__ind_arfcn_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__rach__ind_arfcn_xer_ = { {"arfcn>\n", "arfcn>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__rach__ind_arfcn_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__rach__ind_arfcn_descr_ = { "@PCUIF_Types.PCUIF_rach_ind.arfcn", &INTEGER_ber_, &PCUIF__rach__ind_arfcn_raw_, &INTEGER_text_, &PCUIF__rach__ind_arfcn_xer_, &INTEGER_json_, &PCUIF__rach__ind_arfcn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rach__ind_arfcn_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rach__ind_is__11bit_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__rach__ind_is__11bit_xer_ = { {"is_11bit>\n", "is_11bit>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__rach__ind_is__11bit_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__rach__ind_is__11bit_descr_ = { "@PCUIF_Types.PCUIF_rach_ind.is_11bit", &INTEGER_ber_, &PCUIF__rach__ind_is__11bit_raw_, &INTEGER_text_, &PCUIF__rach__ind_is__11bit_xer_, &INTEGER_json_, &PCUIF__rach__ind_is__11bit_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rach__ind_is__11bit_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rach__ind_burst__type_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__rach__ind_burst__type -const TTCN_Typedescriptor_t PCUIF__rach__ind_burst__type_descr_ = { "@PCUIF_Types.PCUIF_rach_ind.burst_type", NULL, &PCUIF__rach__ind_burst__type_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rach__ind_burst__type_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__rach__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__rach__ind -const TTCN_Typedescriptor_t PCUIF__rach__ind_descr_ = { "@PCUIF_Types.PCUIF_rach_ind", NULL, &PCUIF__rach__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__rach__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__InfoTrx_arfcn_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__InfoTrx_arfcn_xer_ = { {"arfcn>\n", "arfcn>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__InfoTrx_arfcn_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__InfoTrx_arfcn_descr_ = { "@PCUIF_Types.PCUIF_InfoTrx.arfcn", &INTEGER_ber_, &PCUIF__InfoTrx_arfcn_raw_, &INTEGER_text_, &PCUIF__InfoTrx_arfcn_xer_, &INTEGER_json_, &PCUIF__InfoTrx_arfcn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__InfoTrx_arfcn_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__InfoTrx_pdch__mask_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_MSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,8,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__InfoTrx_pdch__mask_xer_ = { {"pdch_mask>\n", "pdch_mask>\n"}, {11, 11}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_Typedescriptor_t PCUIF__InfoTrx_pdch__mask_descr_ = { "@PCUIF_Types.PCUIF_InfoTrx.pdch_mask", &BITSTRING_ber_, &PCUIF__InfoTrx_pdch__mask_raw_, NULL, &PCUIF__InfoTrx_pdch__mask_xer_, &BITSTRING_json_, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__InfoTrx_pdch__mask_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__InfoTrx_spare_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__InfoTrx_spare_xer_ = { {"spare>\n", "spare>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__InfoTrx_spare_oer_ext_arr_[0] = {}; -const int PCUIF__InfoTrx_spare_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__InfoTrx_spare_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__InfoTrx_spare_oer_ext_arr_, 0, PCUIF__InfoTrx_spare_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__InfoTrx_spare_descr_ = { "@PCUIF_Types.PCUIF_InfoTrx.spare", &OCTETSTRING_ber_, &PCUIF__InfoTrx_spare_raw_, &OCTETSTRING_text_, &PCUIF__InfoTrx_spare_xer_, &OCTETSTRING_json_, &PCUIF__InfoTrx_spare_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__InfoTrx_spare_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__InfoTrx_tsc_raw_ = {64,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,8,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__InfoTrx_tsc_xer_ = { {"tsc>\n", "tsc>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__InfoTrx_tsc_oer_ext_arr_[0] = {}; -const int PCUIF__InfoTrx_tsc_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__InfoTrx_tsc_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__InfoTrx_tsc_oer_ext_arr_, 0, PCUIF__InfoTrx_tsc_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__InfoTrx_tsc_descr_ = { "@PCUIF_Types.PCUIF_InfoTrx.tsc", &OCTETSTRING_ber_, &PCUIF__InfoTrx_tsc_raw_, &OCTETSTRING_text_, &PCUIF__InfoTrx_tsc_xer_, &OCTETSTRING_json_, &PCUIF__InfoTrx_tsc_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__InfoTrx_tsc_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__InfoTrx_hLayer1_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__InfoTrx_hLayer1_xer_ = { {"hLayer1>\n", "hLayer1>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__InfoTrx_hLayer1_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__InfoTrx_hLayer1_descr_ = { "@PCUIF_Types.PCUIF_InfoTrx.hLayer1", &INTEGER_ber_, &PCUIF__InfoTrx_hLayer1_raw_, &INTEGER_text_, &PCUIF__InfoTrx_hLayer1_xer_, &INTEGER_json_, &PCUIF__InfoTrx_hLayer1_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__InfoTrx_hLayer1_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__InfoTrx_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__InfoTrx -const TTCN_Typedescriptor_t PCUIF__InfoTrx_descr_ = { "@PCUIF_Types.PCUIF_InfoTrx", NULL, &PCUIF__InfoTrx_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__InfoTrx_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__InfoTrxs_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__InfoTrxs -const TTCN_Typedescriptor_t PCUIF__InfoTrxs_descr_ = { "@PCUIF_Types.PCUIF_InfoTrxs", NULL, &PCUIF__InfoTrxs_raw_, NULL, NULL, NULL, NULL, &PCUIF__InfoTrxs_0_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t PCUIF__InfoTrxs_0_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__InfoTrxs_0 -const TTCN_Typedescriptor_t PCUIF__InfoTrxs_0_descr_ = { "@PCUIF_Types.PCUIF_InfoTrxs.", NULL, &PCUIF__InfoTrxs_0_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__InfoTrxs_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING PCUIF__InfoTrxs_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_version_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_version_xer_ = { {"version>\n", "version>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_version_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_version_descr_ = { "@PCUIF_Types.PCUIF_info_ind.version", &INTEGER_ber_, &PCUIF__info__ind_version_raw_, &INTEGER_text_, &PCUIF__info__ind_version_xer_, &INTEGER_json_, &PCUIF__info__ind_version_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_version_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_flags_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__info__ind_flags -const TTCN_Typedescriptor_t PCUIF__info__ind_flags_descr_ = { "@PCUIF_Types.PCUIF_info_ind.flags", NULL, &PCUIF__info__ind_flags_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_flags_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_trx_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__info__ind_trx -const TTCN_Typedescriptor_t PCUIF__info__ind_trx_descr_ = { "@PCUIF_Types.PCUIF_info_ind.trx", NULL, &PCUIF__info__ind_trx_raw_, NULL, NULL, NULL, NULL, &PCUIF__InfoTrxs_0_descr_, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_trx_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_bsic_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_bsic_xer_ = { {"bsic>\n", "bsic>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_bsic_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_bsic_descr_ = { "@PCUIF_Types.PCUIF_info_ind.bsic", &INTEGER_ber_, &PCUIF__info__ind_bsic_raw_, &INTEGER_text_, &PCUIF__info__ind_bsic_xer_, &INTEGER_json_, &PCUIF__info__ind_bsic_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_bsic_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_mcc_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_mcc_xer_ = { {"mcc>\n", "mcc>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_mcc_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_mcc_descr_ = { "@PCUIF_Types.PCUIF_info_ind.mcc", &INTEGER_ber_, &PCUIF__info__ind_mcc_raw_, &INTEGER_text_, &PCUIF__info__ind_mcc_xer_, &INTEGER_json_, &PCUIF__info__ind_mcc_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_mcc_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_mnc_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_mnc_xer_ = { {"mnc>\n", "mnc>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_mnc_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_mnc_descr_ = { "@PCUIF_Types.PCUIF_info_ind.mnc", &INTEGER_ber_, &PCUIF__info__ind_mnc_raw_, &INTEGER_text_, &PCUIF__info__ind_mnc_xer_, &INTEGER_json_, &PCUIF__info__ind_mnc_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_mnc_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_mnc__3__digits_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_mnc__3__digits_xer_ = { {"mnc_3_digits>\n", "mnc_3_digits>\n"}, {14, 14}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_mnc__3__digits_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_mnc__3__digits_descr_ = { "@PCUIF_Types.PCUIF_info_ind.mnc_3_digits", &INTEGER_ber_, &PCUIF__info__ind_mnc__3__digits_raw_, &INTEGER_text_, &PCUIF__info__ind_mnc__3__digits_xer_, &INTEGER_json_, &PCUIF__info__ind_mnc__3__digits_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_mnc__3__digits_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_lac_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_lac_xer_ = { {"lac>\n", "lac>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_lac_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_lac_descr_ = { "@PCUIF_Types.PCUIF_info_ind.lac", &INTEGER_ber_, &PCUIF__info__ind_lac_raw_, &INTEGER_text_, &PCUIF__info__ind_lac_xer_, &INTEGER_json_, &PCUIF__info__ind_lac_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_lac_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_rac_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_rac_xer_ = { {"rac>\n", "rac>\n"}, {5, 5}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_rac_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_rac_descr_ = { "@PCUIF_Types.PCUIF_info_ind.rac", &INTEGER_ber_, &PCUIF__info__ind_rac_raw_, &INTEGER_text_, &PCUIF__info__ind_rac_xer_, &INTEGER_json_, &PCUIF__info__ind_rac_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_rac_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_nsei_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_nsei_xer_ = { {"nsei>\n", "nsei>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_nsei_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_nsei_descr_ = { "@PCUIF_Types.PCUIF_info_ind.nsei", &INTEGER_ber_, &PCUIF__info__ind_nsei_raw_, &INTEGER_text_, &PCUIF__info__ind_nsei_xer_, &INTEGER_json_, &PCUIF__info__ind_nsei_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_nsei_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_nse__timer_raw_ = {7,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__info__ind_nse__timer -const TTCN_Typedescriptor_t PCUIF__info__ind_nse__timer_descr_ = { "@PCUIF_Types.PCUIF_info_ind.nse_timer", NULL, &PCUIF__info__ind_nse__timer_raw_, NULL, NULL, NULL, NULL, &PCUIF__info__ind_nse__timer_0_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t PCUIF__info__ind_nse__timer_0_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_nse__timer_0_xer_ = { {"uint8_t>\n", "uint8_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_nse__timer_0_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_nse__timer_0_descr_ = { "@PCUIF_Types.PCUIF_info_ind.nse_timer.", &INTEGER_ber_, &PCUIF__info__ind_nse__timer_0_raw_, &INTEGER_text_, &PCUIF__info__ind_nse__timer_0_xer_, &INTEGER_json_, &PCUIF__info__ind_nse__timer_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_nse__timer_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING PCUIF__info__ind_nse__timer_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_cell__timer_raw_ = {11,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__info__ind_cell__timer -const TTCN_Typedescriptor_t PCUIF__info__ind_cell__timer_descr_ = { "@PCUIF_Types.PCUIF_info_ind.cell_timer", NULL, &PCUIF__info__ind_cell__timer_raw_, NULL, NULL, NULL, NULL, &PCUIF__info__ind_cell__timer_0_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t PCUIF__info__ind_cell__timer_0_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_cell__timer_0_xer_ = { {"uint8_t>\n", "uint8_t>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_cell__timer_0_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_cell__timer_0_descr_ = { "@PCUIF_Types.PCUIF_info_ind.cell_timer.", &INTEGER_ber_, &PCUIF__info__ind_cell__timer_0_raw_, &INTEGER_text_, &PCUIF__info__ind_cell__timer_0_xer_, &INTEGER_json_, &PCUIF__info__ind_cell__timer_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_cell__timer_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING PCUIF__info__ind_cell__timer_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_cell__id_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_cell__id_xer_ = { {"cell_id>\n", "cell_id>\n"}, {9, 9}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_cell__id_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_cell__id_descr_ = { "@PCUIF_Types.PCUIF_info_ind.cell_id", &INTEGER_ber_, &PCUIF__info__ind_cell__id_raw_, &INTEGER_text_, &PCUIF__info__ind_cell__id_xer_, &INTEGER_json_, &PCUIF__info__ind_cell__id_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_cell__id_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_repeat__time_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_repeat__time_xer_ = { {"repeat_time>\n", "repeat_time>\n"}, {13, 13}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_repeat__time_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_repeat__time_descr_ = { "@PCUIF_Types.PCUIF_info_ind.repeat_time", &INTEGER_ber_, &PCUIF__info__ind_repeat__time_raw_, &INTEGER_text_, &PCUIF__info__ind_repeat__time_xer_, &INTEGER_json_, &PCUIF__info__ind_repeat__time_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_repeat__time_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_repeat__count_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_repeat__count_xer_ = { {"repeat_count>\n", "repeat_count>\n"}, {14, 14}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_repeat__count_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_repeat__count_descr_ = { "@PCUIF_Types.PCUIF_info_ind.repeat_count", &INTEGER_ber_, &PCUIF__info__ind_repeat__count_raw_, &INTEGER_text_, &PCUIF__info__ind_repeat__count_xer_, &INTEGER_json_, &PCUIF__info__ind_repeat__count_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_repeat__count_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_bvci_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_bvci_xer_ = { {"bvci>\n", "bvci>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_bvci_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_bvci_descr_ = { "@PCUIF_Types.PCUIF_info_ind.bvci", &INTEGER_ber_, &PCUIF__info__ind_bvci_raw_, &INTEGER_text_, &PCUIF__info__ind_bvci_xer_, &INTEGER_json_, &PCUIF__info__ind_bvci_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_bvci_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_t3142_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_t3142_xer_ = { {"t3142>\n", "t3142>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_t3142_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_t3142_descr_ = { "@PCUIF_Types.PCUIF_info_ind.t3142", &INTEGER_ber_, &PCUIF__info__ind_t3142_raw_, &INTEGER_text_, &PCUIF__info__ind_t3142_xer_, &INTEGER_json_, &PCUIF__info__ind_t3142_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_t3142_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_t3169_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_t3169_xer_ = { {"t3169>\n", "t3169>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_t3169_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_t3169_descr_ = { "@PCUIF_Types.PCUIF_info_ind.t3169", &INTEGER_ber_, &PCUIF__info__ind_t3169_raw_, &INTEGER_text_, &PCUIF__info__ind_t3169_xer_, &INTEGER_json_, &PCUIF__info__ind_t3169_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_t3169_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_t3191_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_t3191_xer_ = { {"t3191>\n", "t3191>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_t3191_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_t3191_descr_ = { "@PCUIF_Types.PCUIF_info_ind.t3191", &INTEGER_ber_, &PCUIF__info__ind_t3191_raw_, &INTEGER_text_, &PCUIF__info__ind_t3191_xer_, &INTEGER_json_, &PCUIF__info__ind_t3191_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_t3191_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_t3193__10ms_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_t3193__10ms_xer_ = { {"t3193_10ms>\n", "t3193_10ms>\n"}, {12, 12}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_t3193__10ms_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_t3193__10ms_descr_ = { "@PCUIF_Types.PCUIF_info_ind.t3193_10ms", &INTEGER_ber_, &PCUIF__info__ind_t3193__10ms_raw_, &INTEGER_text_, &PCUIF__info__ind_t3193__10ms_xer_, &INTEGER_json_, &PCUIF__info__ind_t3193__10ms_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_t3193__10ms_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_t3195_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_t3195_xer_ = { {"t3195>\n", "t3195>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_t3195_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_t3195_descr_ = { "@PCUIF_Types.PCUIF_info_ind.t3195", &INTEGER_ber_, &PCUIF__info__ind_t3195_raw_, &INTEGER_text_, &PCUIF__info__ind_t3195_xer_, &INTEGER_json_, &PCUIF__info__ind_t3195_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_t3195_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_t3101_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_t3101_xer_ = { {"t3101>\n", "t3101>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_t3101_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_t3101_descr_ = { "@PCUIF_Types.PCUIF_info_ind.t3101", &INTEGER_ber_, &PCUIF__info__ind_t3101_raw_, &INTEGER_text_, &PCUIF__info__ind_t3101_xer_, &INTEGER_json_, &PCUIF__info__ind_t3101_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_t3101_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_t3103_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_t3103_xer_ = { {"t3103>\n", "t3103>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_t3103_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_t3103_descr_ = { "@PCUIF_Types.PCUIF_info_ind.t3103", &INTEGER_ber_, &PCUIF__info__ind_t3103_raw_, &INTEGER_text_, &PCUIF__info__ind_t3103_xer_, &INTEGER_json_, &PCUIF__info__ind_t3103_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_t3103_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_t3105_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_t3105_xer_ = { {"t3105>\n", "t3105>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_t3105_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_t3105_descr_ = { "@PCUIF_Types.PCUIF_info_ind.t3105", &INTEGER_ber_, &PCUIF__info__ind_t3105_raw_, &INTEGER_text_, &PCUIF__info__ind_t3105_xer_, &INTEGER_json_, &PCUIF__info__ind_t3105_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_t3105_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_cv__countdown_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_cv__countdown_xer_ = { {"cv_countdown>\n", "cv_countdown>\n"}, {14, 14}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_cv__countdown_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_cv__countdown_descr_ = { "@PCUIF_Types.PCUIF_info_ind.cv_countdown", &INTEGER_ber_, &PCUIF__info__ind_cv__countdown_raw_, &INTEGER_text_, &PCUIF__info__ind_cv__countdown_xer_, &INTEGER_json_, &PCUIF__info__ind_cv__countdown_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_cv__countdown_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_dl__tbf__ext_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_dl__tbf__ext_xer_ = { {"dl_tbf_ext>\n", "dl_tbf_ext>\n"}, {12, 12}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_dl__tbf__ext_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_dl__tbf__ext_descr_ = { "@PCUIF_Types.PCUIF_info_ind.dl_tbf_ext", &INTEGER_ber_, &PCUIF__info__ind_dl__tbf__ext_raw_, &INTEGER_text_, &PCUIF__info__ind_dl__tbf__ext_xer_, &INTEGER_json_, &PCUIF__info__ind_dl__tbf__ext_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_dl__tbf__ext_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_ul__tbf__ext_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_ul__tbf__ext_xer_ = { {"ul_tbf_ext>\n", "ul_tbf_ext>\n"}, {12, 12}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_ul__tbf__ext_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_ul__tbf__ext_descr_ = { "@PCUIF_Types.PCUIF_info_ind.ul_tbf_ext", &INTEGER_ber_, &PCUIF__info__ind_ul__tbf__ext_raw_, &INTEGER_text_, &PCUIF__info__ind_ul__tbf__ext_xer_, &INTEGER_json_, &PCUIF__info__ind_ul__tbf__ext_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_ul__tbf__ext_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_initial__cs_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_initial__cs_xer_ = { {"initial_cs>\n", "initial_cs>\n"}, {12, 12}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_initial__cs_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_initial__cs_descr_ = { "@PCUIF_Types.PCUIF_info_ind.initial_cs", &INTEGER_ber_, &PCUIF__info__ind_initial__cs_raw_, &INTEGER_text_, &PCUIF__info__ind_initial__cs_xer_, &INTEGER_json_, &PCUIF__info__ind_initial__cs_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_initial__cs_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_initial__mcs_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_initial__mcs_xer_ = { {"initial_mcs>\n", "initial_mcs>\n"}, {13, 13}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_initial__mcs_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_initial__mcs_descr_ = { "@PCUIF_Types.PCUIF_info_ind.initial_mcs", &INTEGER_ber_, &PCUIF__info__ind_initial__mcs_raw_, &INTEGER_text_, &PCUIF__info__ind_initial__mcs_xer_, &INTEGER_json_, &PCUIF__info__ind_initial__mcs_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_initial__mcs_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_nsvci_raw_ = {2,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__info__ind_nsvci -const TTCN_Typedescriptor_t PCUIF__info__ind_nsvci_descr_ = { "@PCUIF_Types.PCUIF_info_ind.nsvci", NULL, &PCUIF__info__ind_nsvci_raw_, NULL, NULL, NULL, NULL, &PCUIF__info__ind_nsvci_0_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t PCUIF__info__ind_nsvci_0_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_nsvci_0_xer_ = { {"uint16_t>\n", "uint16_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_nsvci_0_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_nsvci_0_descr_ = { "@PCUIF_Types.PCUIF_info_ind.nsvci.", &INTEGER_ber_, &PCUIF__info__ind_nsvci_0_raw_, &INTEGER_text_, &PCUIF__info__ind_nsvci_0_xer_, &INTEGER_json_, &PCUIF__info__ind_nsvci_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_nsvci_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING PCUIF__info__ind_nsvci_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_local__pprt_raw_ = {2,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__info__ind_local__pprt -const TTCN_Typedescriptor_t PCUIF__info__ind_local__pprt_descr_ = { "@PCUIF_Types.PCUIF_info_ind.local_pprt", NULL, &PCUIF__info__ind_local__pprt_raw_, NULL, NULL, NULL, NULL, &PCUIF__info__ind_local__pprt_0_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t PCUIF__info__ind_local__pprt_0_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_local__pprt_0_xer_ = { {"uint16_t>\n", "uint16_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_local__pprt_0_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_local__pprt_0_descr_ = { "@PCUIF_Types.PCUIF_info_ind.local_pprt.", &INTEGER_ber_, &PCUIF__info__ind_local__pprt_0_raw_, &INTEGER_text_, &PCUIF__info__ind_local__pprt_0_xer_, &INTEGER_json_, &PCUIF__info__ind_local__pprt_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_local__pprt_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING PCUIF__info__ind_local__pprt_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_remote__port_raw_ = {2,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__info__ind_remote__port -const TTCN_Typedescriptor_t PCUIF__info__ind_remote__port_descr_ = { "@PCUIF_Types.PCUIF_info_ind.remote_port", NULL, &PCUIF__info__ind_remote__port_raw_, NULL, NULL, NULL, NULL, &PCUIF__info__ind_remote__port_0_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t PCUIF__info__ind_remote__port_0_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_remote__port_0_xer_ = { {"uint16_t>\n", "uint16_t>\n"}, {10, 10}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__info__ind_remote__port_0_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__info__ind_remote__port_0_descr_ = { "@PCUIF_Types.PCUIF_info_ind.remote_port.", &INTEGER_ber_, &PCUIF__info__ind_remote__port_0_raw_, &INTEGER_text_, &PCUIF__info__ind_remote__port_0_xer_, &INTEGER_json_, &PCUIF__info__ind_remote__port_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_remote__port_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING PCUIF__info__ind_remote__port_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_remote__ip_raw_ = {2,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__info__ind_remote__ip -const TTCN_Typedescriptor_t PCUIF__info__ind_remote__ip_descr_ = { "@PCUIF_Types.PCUIF_info_ind.remote_ip", NULL, &PCUIF__info__ind_remote__ip_raw_, NULL, NULL, NULL, NULL, &PCUIF__info__ind_remote__ip_0_descr_, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t PCUIF__info__ind_remote__ip_0_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,4,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__info__ind_remote__ip_0_xer_ = { {"OCT4>\n", "OCT4>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__info__ind_remote__ip_0_oer_ext_arr_[0] = {}; -const int PCUIF__info__ind_remote__ip_0_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__info__ind_remote__ip_0_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__info__ind_remote__ip_0_oer_ext_arr_, 0, PCUIF__info__ind_remote__ip_0_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__info__ind_remote__ip_0_descr_ = { "@PCUIF_Types.PCUIF_info_ind.remote_ip.", &OCTETSTRING_ber_, &PCUIF__info__ind_remote__ip_0_raw_, &OCTETSTRING_text_, &PCUIF__info__ind_remote__ip_0_xer_, &OCTETSTRING_json_, &PCUIF__info__ind_remote__ip_0_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_remote__ip_0_default_coding("RAW"); -UNIVERSAL_CHARSTRING PCUIF__info__ind_remote__ip_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__info__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__info__ind -const TTCN_Typedescriptor_t PCUIF__info__ind_descr_ = { "@PCUIF_Types.PCUIF_info_ind", NULL, &PCUIF__info__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__info__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__act__req_is__activate_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__act__req_is__activate_xer_ = { {"is_activate>\n", "is_activate>\n"}, {13, 13}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__act__req_is__activate_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__act__req_is__activate_descr_ = { "@PCUIF_Types.PCUIF_act_req.is_activate", &INTEGER_ber_, &PCUIF__act__req_is__activate_raw_, &INTEGER_text_, &PCUIF__act__req_is__activate_xer_, &INTEGER_json_, &PCUIF__act__req_is__activate_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__act__req_is__activate_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__act__req_trx__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__act__req_trx__nr_xer_ = { {"trx_nr>\n", "trx_nr>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__act__req_trx__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__act__req_trx__nr_descr_ = { "@PCUIF_Types.PCUIF_act_req.trx_nr", &INTEGER_ber_, &PCUIF__act__req_trx__nr_raw_, &INTEGER_text_, &PCUIF__act__req_trx__nr_xer_, &INTEGER_json_, &PCUIF__act__req_trx__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__act__req_trx__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__act__req_ts__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__act__req_ts__nr_xer_ = { {"ts_nr>\n", "ts_nr>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__act__req_ts__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__act__req_ts__nr_descr_ = { "@PCUIF_Types.PCUIF_act_req.ts_nr", &INTEGER_ber_, &PCUIF__act__req_ts__nr_raw_, &INTEGER_text_, &PCUIF__act__req_ts__nr_xer_, &INTEGER_json_, &PCUIF__act__req_ts__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__act__req_ts__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__act__req_spare_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__act__req_spare_xer_ = { {"spare>\n", "spare>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__act__req_spare_oer_ext_arr_[0] = {}; -const int PCUIF__act__req_spare_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__act__req_spare_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__act__req_spare_oer_ext_arr_, 0, PCUIF__act__req_spare_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__act__req_spare_descr_ = { "@PCUIF_Types.PCUIF_act_req.spare", &OCTETSTRING_ber_, &PCUIF__act__req_spare_raw_, &OCTETSTRING_text_, &PCUIF__act__req_spare_xer_, &OCTETSTRING_json_, &PCUIF__act__req_spare_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__act__req_spare_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__act__req_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__act__req -const TTCN_Typedescriptor_t PCUIF__act__req_descr_ = { "@PCUIF_Types.PCUIF_act_req", NULL, &PCUIF__act__req_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__act__req_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__time__ind_fn_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__time__ind_fn_xer_ = { {"fn>\n", "fn>\n"}, {4, 4}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__time__ind_fn_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__time__ind_fn_descr_ = { "@PCUIF_Types.PCUIF_time_ind.fn", &INTEGER_ber_, &PCUIF__time__ind_fn_raw_, &INTEGER_text_, &PCUIF__time__ind_fn_xer_, &INTEGER_json_, &PCUIF__time__ind_fn_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__time__ind_fn_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__time__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__time__ind -const TTCN_Typedescriptor_t PCUIF__time__ind_descr_ = { "@PCUIF_Types.PCUIF_time_ind", NULL, &PCUIF__time__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__time__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__pag__req_sapi_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__pag__req_sapi -const TTCN_Typedescriptor_t PCUIF__pag__req_sapi_descr_ = { "@PCUIF_Types.PCUIF_pag_req.sapi", NULL, &PCUIF__pag__req_sapi_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__pag__req_sapi_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__pag__req_chan__needed_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__pag__req_chan__needed_xer_ = { {"chan_needed>\n", "chan_needed>\n"}, {13, 13}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__pag__req_chan__needed_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__pag__req_chan__needed_descr_ = { "@PCUIF_Types.PCUIF_pag_req.chan_needed", &INTEGER_ber_, &PCUIF__pag__req_chan__needed_raw_, &INTEGER_text_, &PCUIF__pag__req_chan__needed_xer_, &INTEGER_json_, &PCUIF__pag__req_chan__needed_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__pag__req_chan__needed_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__pag__req_identity__lv_raw_ = {72,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,9,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__pag__req_identity__lv_xer_ = { {"identity_lv>\n", "identity_lv>\n"}, {13, 13}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__pag__req_identity__lv_oer_ext_arr_[0] = {}; -const int PCUIF__pag__req_identity__lv_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__pag__req_identity__lv_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__pag__req_identity__lv_oer_ext_arr_, 0, PCUIF__pag__req_identity__lv_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__pag__req_identity__lv_descr_ = { "@PCUIF_Types.PCUIF_pag_req.identity_lv", &OCTETSTRING_ber_, &PCUIF__pag__req_identity__lv_raw_, &OCTETSTRING_text_, &PCUIF__pag__req_identity__lv_xer_, &OCTETSTRING_json_, &PCUIF__pag__req_identity__lv_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__pag__req_identity__lv_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__pag__req_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__pag__req -const TTCN_Typedescriptor_t PCUIF__pag__req_descr_ = { "@PCUIF_Types.PCUIF_pag_req", NULL, &PCUIF__pag__req_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__pag__req_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__susp__req_tlli_raw_ = {32,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,4,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__susp__req_tlli_xer_ = { {"tlli>\n", "tlli>\n"}, {6, 6}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__susp__req_tlli_oer_ext_arr_[0] = {}; -const int PCUIF__susp__req_tlli_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__susp__req_tlli_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__susp__req_tlli_oer_ext_arr_, 0, PCUIF__susp__req_tlli_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__susp__req_tlli_descr_ = { "@PCUIF_Types.PCUIF_susp_req.tlli", &OCTETSTRING_ber_, &PCUIF__susp__req_tlli_raw_, &OCTETSTRING_text_, &PCUIF__susp__req_tlli_xer_, &OCTETSTRING_json_, &PCUIF__susp__req_tlli_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__susp__req_tlli_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__susp__req_ra__id_raw_ = {48,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,6,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__susp__req_ra__id_xer_ = { {"ra_id>\n", "ra_id>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__susp__req_ra__id_oer_ext_arr_[0] = {}; -const int PCUIF__susp__req_ra__id_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__susp__req_ra__id_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__susp__req_ra__id_oer_ext_arr_, 0, PCUIF__susp__req_ra__id_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__susp__req_ra__id_descr_ = { "@PCUIF_Types.PCUIF_susp_req.ra_id", &OCTETSTRING_ber_, &PCUIF__susp__req_ra__id_raw_, &OCTETSTRING_text_, &PCUIF__susp__req_ra__id_xer_, &OCTETSTRING_json_, &PCUIF__susp__req_ra__id_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__susp__req_ra__id_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__susp__req_cause_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__susp__req_cause_xer_ = { {"cause>\n", "cause>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__susp__req_cause_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__susp__req_cause_descr_ = { "@PCUIF_Types.PCUIF_susp_req.cause", &INTEGER_ber_, &PCUIF__susp__req_cause_raw_, &INTEGER_text_, &PCUIF__susp__req_cause_xer_, &INTEGER_json_, &PCUIF__susp__req_cause_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__susp__req_cause_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__susp__req_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__susp__req -const TTCN_Typedescriptor_t PCUIF__susp__req_descr_ = { "@PCUIF_Types.PCUIF_susp_req", NULL, &PCUIF__susp__req_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__susp__req_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion -const TTCN_Typedescriptor_t PCUIF__MsgUnion_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion", NULL, &PCUIF__MsgUnion_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_data__req_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_data__req -const TTCN_Typedescriptor_t PCUIF__MsgUnion_data__req_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.data_req", NULL, &PCUIF__MsgUnion_data__req_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_data__req_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_data__cnf_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_data__cnf -const TTCN_Typedescriptor_t PCUIF__MsgUnion_data__cnf_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.data_cnf", NULL, &PCUIF__MsgUnion_data__cnf_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_data__cnf_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_data__cnf__dt_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_data__cnf__dt -const TTCN_Typedescriptor_t PCUIF__MsgUnion_data__cnf__dt_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.data_cnf_dt", NULL, &PCUIF__MsgUnion_data__cnf__dt_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_data__cnf__dt_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_data__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_data__ind -const TTCN_Typedescriptor_t PCUIF__MsgUnion_data__ind_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.data_ind", NULL, &PCUIF__MsgUnion_data__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_data__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_susp__req_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_susp__req -const TTCN_Typedescriptor_t PCUIF__MsgUnion_susp__req_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.susp_req", NULL, &PCUIF__MsgUnion_susp__req_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_susp__req_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_rts__req_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_rts__req -const TTCN_Typedescriptor_t PCUIF__MsgUnion_rts__req_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.rts_req", NULL, &PCUIF__MsgUnion_rts__req_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_rts__req_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_rach__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_rach__ind -const TTCN_Typedescriptor_t PCUIF__MsgUnion_rach__ind_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.rach_ind", NULL, &PCUIF__MsgUnion_rach__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_rach__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_txt__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_txt__ind -const TTCN_Typedescriptor_t PCUIF__MsgUnion_txt__ind_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.txt_ind", NULL, &PCUIF__MsgUnion_txt__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_txt__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_info__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_info__ind -const TTCN_Typedescriptor_t PCUIF__MsgUnion_info__ind_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.info_ind", NULL, &PCUIF__MsgUnion_info__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_info__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_act__req_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_act__req -const TTCN_Typedescriptor_t PCUIF__MsgUnion_act__req_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.act_req", NULL, &PCUIF__MsgUnion_act__req_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_act__req_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_time__ind_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_time__ind -const TTCN_Typedescriptor_t PCUIF__MsgUnion_time__ind_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.time_ind", NULL, &PCUIF__MsgUnion_time__ind_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_time__ind_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__MsgUnion_pag__req_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__MsgUnion_pag__req -const TTCN_Typedescriptor_t PCUIF__MsgUnion_pag__req_descr_ = { "@PCUIF_Types.PCUIF_MsgUnion.pag_req", NULL, &PCUIF__MsgUnion_pag__req_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_pag__req_default_coding("RAW"); -UNIVERSAL_CHARSTRING PCUIF__MsgUnion_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Message_msg__type_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__Message_msg__type -const TTCN_Typedescriptor_t PCUIF__Message_msg__type_descr_ = { "@PCUIF_Types.PCUIF_Message.msg_type", NULL, &PCUIF__Message_msg__type_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Message_msg__type_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Message_bts__nr_raw_ = {8,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_MSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Message_bts__nr_xer_ = { {"bts_nr>\n", "bts_nr>\n"}, {8, 8}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const TTCN_OERdescriptor_t PCUIF__Message_bts__nr_oer_ = { -1, FALSE, -1, FALSE, 0, 0, NULL, 0, NULL }; -const TTCN_Typedescriptor_t PCUIF__Message_bts__nr_descr_ = { "@PCUIF_Types.PCUIF_Message.bts_nr", &INTEGER_ber_, &PCUIF__Message_bts__nr_raw_, &INTEGER_text_, &PCUIF__Message_bts__nr_xer_, &INTEGER_json_, &PCUIF__Message_bts__nr_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Message_bts__nr_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Message_spare_raw_ = {16,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,2,CharCoding::UNKNOWN,NULL}; -const XERdescriptor_t PCUIF__Message_spare_xer_ = { {"spare>\n", "spare>\n"}, {7, 7}, 0 |FORM_UNQUALIFIED, WHITESPACE_PRESERVE, NULL, &module_object, -1, 0, NULL, NULL, -1, XSD_NONE }; -const int PCUIF__Message_spare_oer_ext_arr_[0] = {}; -const int PCUIF__Message_spare_oer_p_[0] = {}; -const TTCN_OERdescriptor_t PCUIF__Message_spare_oer_ = { -1, TRUE, -1, FALSE, 0, 0, PCUIF__Message_spare_oer_ext_arr_, 0, PCUIF__Message_spare_oer_p_}; -const TTCN_Typedescriptor_t PCUIF__Message_spare_descr_ = { "@PCUIF_Types.PCUIF_Message.spare", &OCTETSTRING_ber_, &PCUIF__Message_spare_raw_, &OCTETSTRING_text_, &PCUIF__Message_spare_xer_, &OCTETSTRING_json_, &PCUIF__Message_spare_oer_, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Message_spare_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Message_u_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,0,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__Message_u -const TTCN_Typedescriptor_t PCUIF__Message_u_descr_ = { "@PCUIF_Types.PCUIF_Message.u", NULL, &PCUIF__Message_u_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Message_u_default_coding("RAW"); -const TTCN_RAWdescriptor_t PCUIF__Message_raw_ = {0,SG_NO,ORDER_LSB,ORDER_LSB,ORDER_LSB,ORDER_LSB,EXT_BIT_NO,ORDER_LSB,ORDER_LSB,TOP_BIT_INHERITED,1696,0,0,8,0,NULL,-1,CharCoding::UNKNOWN,NULL}; -// No XER for PCUIF__Message -const TTCN_Typedescriptor_t PCUIF__Message_descr_ = { "@PCUIF_Types.PCUIF_Message", NULL, &PCUIF__Message_raw_, NULL, NULL, NULL, NULL, NULL, TTCN_Typedescriptor_t::DONTCARE }; -UNIVERSAL_CHARSTRING PCUIF__Message_default_coding("RAW"); -static INTEGER_template template_tr__PCUIF__RTS__REQ_bts__nr_defval; -const INTEGER_template& tr__PCUIF__RTS__REQ_bts__nr_defval = template_tr__PCUIF__RTS__REQ_bts__nr_defval; -static INTEGER_template template_tr__PCUIF__RTS__REQ_trx__nr_defval; -const INTEGER_template& tr__PCUIF__RTS__REQ_trx__nr_defval = template_tr__PCUIF__RTS__REQ_trx__nr_defval; -static INTEGER_template template_tr__PCUIF__RTS__REQ_ts__nr_defval; -const INTEGER_template& tr__PCUIF__RTS__REQ_ts__nr_defval = template_tr__PCUIF__RTS__REQ_ts__nr_defval; -static PCUIF__Sapi_template template_tr__PCUIF__RTS__REQ_sapi_defval; -const PCUIF__Sapi_template& tr__PCUIF__RTS__REQ_sapi_defval = template_tr__PCUIF__RTS__REQ_sapi_defval; -static INTEGER_template template_tr__PCUIF__RTS__REQ_fn_defval; -const INTEGER_template& tr__PCUIF__RTS__REQ_fn_defval = template_tr__PCUIF__RTS__REQ_fn_defval; -static INTEGER_template template_tr__PCUIF__RTS__REQ_block__nr_defval; -const INTEGER_template& tr__PCUIF__RTS__REQ_block__nr_defval = template_tr__PCUIF__RTS__REQ_block__nr_defval; -static CHARSTRING_template template_tr__PCUIF__TXT__IND_text_defval; -const CHARSTRING_template& tr__PCUIF__TXT__IND_text_defval = template_tr__PCUIF__TXT__IND_text_defval; -static INTEGER_template template_ts__PCUIF__DATA__IND_rssi_defval; -const INTEGER_template& ts__PCUIF__DATA__IND_rssi_defval = template_ts__PCUIF__DATA__IND_rssi_defval; -static INTEGER_template template_ts__PCUIF__DATA__IND_ber10k_defval; -const INTEGER_template& ts__PCUIF__DATA__IND_ber10k_defval = template_ts__PCUIF__DATA__IND_ber10k_defval; -static INTEGER_template template_ts__PCUIF__DATA__IND_ta__offs__qbits_defval; -const INTEGER_template& ts__PCUIF__DATA__IND_ta__offs__qbits_defval = template_ts__PCUIF__DATA__IND_ta__offs__qbits_defval; -static INTEGER_template template_ts__PCUIF__DATA__IND_lqual__cb_defval; -const INTEGER_template& ts__PCUIF__DATA__IND_lqual__cb_defval = template_ts__PCUIF__DATA__IND_lqual__cb_defval; -static INTEGER_template template_tr__PCUIF__DATA__IND_bts__nr_defval; -const INTEGER_template& tr__PCUIF__DATA__IND_bts__nr_defval = template_tr__PCUIF__DATA__IND_bts__nr_defval; -static INTEGER_template template_tr__PCUIF__DATA__IND_trx__nr_defval; -const INTEGER_template& tr__PCUIF__DATA__IND_trx__nr_defval = template_tr__PCUIF__DATA__IND_trx__nr_defval; -static INTEGER_template template_tr__PCUIF__DATA__IND_ts__nr_defval; -const INTEGER_template& tr__PCUIF__DATA__IND_ts__nr_defval = template_tr__PCUIF__DATA__IND_ts__nr_defval; -static INTEGER_template template_tr__PCUIF__DATA__IND_block__nr_defval; -const INTEGER_template& tr__PCUIF__DATA__IND_block__nr_defval = template_tr__PCUIF__DATA__IND_block__nr_defval; -static PCUIF__Sapi_template template_tr__PCUIF__DATA__IND_sapi_defval; -const PCUIF__Sapi_template& tr__PCUIF__DATA__IND_sapi_defval = template_tr__PCUIF__DATA__IND_sapi_defval; -static OCTETSTRING_template template_tr__PCUIF__DATA__IND_data_defval; -const OCTETSTRING_template& tr__PCUIF__DATA__IND_data_defval = template_tr__PCUIF__DATA__IND_data_defval; -static INTEGER_template template_tr__PCUIF__DATA__REQ_block__nr_defval; -const INTEGER_template& tr__PCUIF__DATA__REQ_block__nr_defval = template_tr__PCUIF__DATA__REQ_block__nr_defval; -static INTEGER_template template_tr__PCUIF__DATA__REQ_fn_defval; -const INTEGER_template& tr__PCUIF__DATA__REQ_fn_defval = template_tr__PCUIF__DATA__REQ_fn_defval; -static PCUIF__Sapi_template template_tr__PCUIF__DATA__REQ_sapi_defval; -const PCUIF__Sapi_template& tr__PCUIF__DATA__REQ_sapi_defval = template_tr__PCUIF__DATA__REQ_sapi_defval; -static OCTETSTRING_template template_tr__PCUIF__DATA__REQ_data_defval; -const OCTETSTRING_template& tr__PCUIF__DATA__REQ_data_defval = template_tr__PCUIF__DATA__REQ_data_defval; -static INTEGER_template template_tr__PCUIF__DATA__CNF_bts__nr_defval; -const INTEGER_template& tr__PCUIF__DATA__CNF_bts__nr_defval = template_tr__PCUIF__DATA__CNF_bts__nr_defval; -static INTEGER_template template_tr__PCUIF__DATA__CNF_trx__nr_defval; -const INTEGER_template& tr__PCUIF__DATA__CNF_trx__nr_defval = template_tr__PCUIF__DATA__CNF_trx__nr_defval; -static INTEGER_template template_tr__PCUIF__DATA__CNF_ts__nr_defval; -const INTEGER_template& tr__PCUIF__DATA__CNF_ts__nr_defval = template_tr__PCUIF__DATA__CNF_ts__nr_defval; -static PCUIF__Sapi_template template_tr__PCUIF__DATA__CNF_sapi_defval; -const PCUIF__Sapi_template& tr__PCUIF__DATA__CNF_sapi_defval = template_tr__PCUIF__DATA__CNF_sapi_defval; -static OCTETSTRING_template template_tr__PCUIF__DATA__CNF_data_defval; -const OCTETSTRING_template& tr__PCUIF__DATA__CNF_data_defval = template_tr__PCUIF__DATA__CNF_data_defval; -static INTEGER_template template_ts__PCUIF__RACH__IND_qta_defval; -const INTEGER_template& ts__PCUIF__RACH__IND_qta_defval = template_ts__PCUIF__RACH__IND_qta_defval; -static INTEGER_template template_tr__PCUIF__RACH__IND_bts__nr_defval; -const INTEGER_template& tr__PCUIF__RACH__IND_bts__nr_defval = template_tr__PCUIF__RACH__IND_bts__nr_defval; -static INTEGER_template template_tr__PCUIF__RACH__IND_ra_defval; -const INTEGER_template& tr__PCUIF__RACH__IND_ra_defval = template_tr__PCUIF__RACH__IND_ra_defval; -static INTEGER_template template_tr__PCUIF__RACH__IND_is__11bit_defval; -const INTEGER_template& tr__PCUIF__RACH__IND_is__11bit_defval = template_tr__PCUIF__RACH__IND_is__11bit_defval; -static PCUIF__BurstType_template template_tr__PCUIF__RACH__IND_burst__type_defval; -const PCUIF__BurstType_template& tr__PCUIF__RACH__IND_burst__type_defval = template_tr__PCUIF__RACH__IND_burst__type_defval; -static INTEGER_template template_tr__PCUIF__RACH__IND_fn_defval; -const INTEGER_template& tr__PCUIF__RACH__IND_fn_defval = template_tr__PCUIF__RACH__IND_fn_defval; -static INTEGER_template template_tr__PCUIF__PAG__REQ_bts__nr_defval; -const INTEGER_template& tr__PCUIF__PAG__REQ_bts__nr_defval = template_tr__PCUIF__PAG__REQ_bts__nr_defval; -static OCTETSTRING_template template_tr__PCUIF__PAG__REQ_id__lv_defval; -const OCTETSTRING_template& tr__PCUIF__PAG__REQ_id__lv_defval = template_tr__PCUIF__PAG__REQ_id__lv_defval; -static INTEGER_template template_tr__PCUIF__PAG__REQ_chan__needed_defval; -const INTEGER_template& tr__PCUIF__PAG__REQ_chan__needed_defval = template_tr__PCUIF__PAG__REQ_chan__needed_defval; -static PCUIF__Sapi_template template_tr__PCUIF__PAG__REQ_sapi_defval; -const PCUIF__Sapi_template& tr__PCUIF__PAG__REQ_sapi_defval = template_tr__PCUIF__PAG__REQ_sapi_defval; -static PCUIF__Flags const_c__PCUIF__Flags__default; -const PCUIF__Flags& c__PCUIF__Flags__default = const_c__PCUIF__Flags__default; -static INTEGER_template template_ts__PCUIF__InfoTrx_arfcn_defval; -const INTEGER_template& ts__PCUIF__InfoTrx_arfcn_defval = template_ts__PCUIF__InfoTrx_arfcn_defval; -static BITSTRING_template template_ts__PCUIF__InfoTrx_pdch__mask_defval; -const BITSTRING_template& ts__PCUIF__InfoTrx_pdch__mask_defval = template_ts__PCUIF__InfoTrx_pdch__mask_defval; -static OCTETSTRING const_ts__PCUIF__InfoTrx_tsc_defval; -const OCTETSTRING& ts__PCUIF__InfoTrx_tsc_defval = const_ts__PCUIF__InfoTrx_tsc_defval; -static PCUIF__InfoTrx_template template_ts__PCUIF__InfoTrxNULL; -const PCUIF__InfoTrx_template& ts__PCUIF__InfoTrxNULL = template_ts__PCUIF__InfoTrxNULL; -static PCUIF__InfoTrxs_template template_ts__PCUIF__InfoTrxs__def; -const PCUIF__InfoTrxs_template& ts__PCUIF__InfoTrxs__def = template_ts__PCUIF__InfoTrxs__def; -static PCUIF__Flags_template template_ts__PCUIF__INFO__IND_flags_defval; -const PCUIF__Flags_template& ts__PCUIF__INFO__IND_flags_defval = template_ts__PCUIF__INFO__IND_flags_defval; -static INTEGER_template template_ts__PCUIF__INFO__IND_mcc_defval; -const INTEGER_template& ts__PCUIF__INFO__IND_mcc_defval = template_ts__PCUIF__INFO__IND_mcc_defval; -static INTEGER_template template_ts__PCUIF__INFO__IND_mnc_defval; -const INTEGER_template& ts__PCUIF__INFO__IND_mnc_defval = template_ts__PCUIF__INFO__IND_mnc_defval; -static INTEGER_template template_ts__PCUIF__INFO__IND_lac_defval; -const INTEGER_template& ts__PCUIF__INFO__IND_lac_defval = template_ts__PCUIF__INFO__IND_lac_defval; -static INTEGER_template template_ts__PCUIF__INFO__IND_rac_defval; -const INTEGER_template& ts__PCUIF__INFO__IND_rac_defval = template_ts__PCUIF__INFO__IND_rac_defval; -static INTEGER_template template_ts__PCUIF__INFO__IND_cell__id_defval; -const INTEGER_template& ts__PCUIF__INFO__IND_cell__id_defval = template_ts__PCUIF__INFO__IND_cell__id_defval; -static INTEGER_template template_ts__PCUIF__INFO__IND_bsic_defval; -const INTEGER_template& ts__PCUIF__INFO__IND_bsic_defval = template_ts__PCUIF__INFO__IND_bsic_defval; -static PCUIF__InfoTrxs_template template_ts__PCUIF__INFO__IND_trx_defval; -const PCUIF__InfoTrxs_template& ts__PCUIF__INFO__IND_trx_defval = template_ts__PCUIF__INFO__IND_trx_defval; -static INTEGER_template template_ts__PCUIF__INFO__IND_version_defval; -const INTEGER_template& ts__PCUIF__INFO__IND_version_defval = template_ts__PCUIF__INFO__IND_version_defval; -static INTEGER_template template_tr__PCUIF__INFO__IND_bts__nr_defval; -const INTEGER_template& tr__PCUIF__INFO__IND_bts__nr_defval = template_tr__PCUIF__INFO__IND_bts__nr_defval; -static PCUIF__Flags_template template_tr__PCUIF__INFO__IND_flags_defval; -const PCUIF__Flags_template& tr__PCUIF__INFO__IND_flags_defval = template_tr__PCUIF__INFO__IND_flags_defval; -static INTEGER_template template_tr__PCUIF__INFO__IND_version_defval; -const INTEGER_template& tr__PCUIF__INFO__IND_version_defval = template_tr__PCUIF__INFO__IND_version_defval; -TTCN_Module module_object("PCUIF_Types", __DATE__, __TIME__, module_checksum, pre_init_module, NULL, 0U, 4294967295U, 4294967295U, 4294967295U, NULL, 0LU, 0, post_init_module, NULL, NULL, NULL, NULL, NULL, NULL, NULL); - -static const RuntimeVersionChecker ver_checker( current_runtime_version.requires_major_version_6, - current_runtime_version.requires_minor_version_5, - current_runtime_version.requires_patch_level_0, current_runtime_version.requires_runtime_1); - -/* Member functions of C++ classes */ - -PCUIF__MsgType::PCUIF__MsgType() -{ -enum_value = UNBOUND_VALUE; -} - -PCUIF__MsgType::PCUIF__MsgType(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @PCUIF_Types.PCUIF_MsgType with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -PCUIF__MsgType::PCUIF__MsgType(enum_type other_value) -{ -enum_value = other_value; -} - -PCUIF__MsgType::PCUIF__MsgType(const PCUIF__MsgType& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -enum_value = other_value.enum_value; -} - -PCUIF__MsgType& PCUIF__MsgType::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @PCUIF_Types.PCUIF_MsgType.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -PCUIF__MsgType& PCUIF__MsgType::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -PCUIF__MsgType& PCUIF__MsgType::operator=(const PCUIF__MsgType& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -enum_value = other_value.enum_value; -return *this; -} - -boolean PCUIF__MsgType::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -return enum_value == other_value; -} - -boolean PCUIF__MsgType::operator==(const PCUIF__MsgType& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -return enum_value == other_value.enum_value; -} - -boolean PCUIF__MsgType::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -return enum_value < other_value; -} - -boolean PCUIF__MsgType::operator<(const PCUIF__MsgType& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -return enum_value < other_value.enum_value; -} - -boolean PCUIF__MsgType::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -return enum_value > other_value; -} - -boolean PCUIF__MsgType::operator>(const PCUIF__MsgType& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -return enum_value > other_value.enum_value; -} - -const char *PCUIF__MsgType::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case PCU__IF__MSG__DATA__REQ: return "PCU_IF_MSG_DATA_REQ"; -case PCU__IF__MSG__DATA__CNF: return "PCU_IF_MSG_DATA_CNF"; -case PCU__IF__MSG__DATA__IND: return "PCU_IF_MSG_DATA_IND"; -case PCU__IF__MSG__SUSP__REQ: return "PCU_IF_MSG_SUSP_REQ"; -case PCU__IF__MSG__RTS__REQ: return "PCU_IF_MSG_RTS_REQ"; -case PCU__IF__MSG__DATA__CNF__DT: return "PCU_IF_MSG_DATA_CNF_DT"; -case PCU__IF__MSG__RACH__IND: return "PCU_IF_MSG_RACH_IND"; -case PCU__IF__MSG__INFO__IND: return "PCU_IF_MSG_INFO_IND"; -case PCU__IF__MSG__ACT__REQ: return "PCU_IF_MSG_ACT_REQ"; -case PCU__IF__MSG__TIME__IND: return "PCU_IF_MSG_TIME_IND"; -case PCU__IF__MSG__PAG__REQ: return "PCU_IF_MSG_PAG_REQ"; -case PCU__IF__MSG__TXT__IND: return "PCU_IF_MSG_TXT_IND"; -default: return ""; -} -} - -PCUIF__MsgType::enum_type PCUIF__MsgType::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "PCU_IF_MSG_DATA_REQ")) return PCU__IF__MSG__DATA__REQ; -else if (!strcmp(str_par, "PCU_IF_MSG_DATA_CNF")) return PCU__IF__MSG__DATA__CNF; -else if (!strcmp(str_par, "PCU_IF_MSG_DATA_IND")) return PCU__IF__MSG__DATA__IND; -else if (!strcmp(str_par, "PCU_IF_MSG_SUSP_REQ")) return PCU__IF__MSG__SUSP__REQ; -else if (!strcmp(str_par, "PCU_IF_MSG_RTS_REQ")) return PCU__IF__MSG__RTS__REQ; -else if (!strcmp(str_par, "PCU_IF_MSG_DATA_CNF_DT")) return PCU__IF__MSG__DATA__CNF__DT; -else if (!strcmp(str_par, "PCU_IF_MSG_RACH_IND")) return PCU__IF__MSG__RACH__IND; -else if (!strcmp(str_par, "PCU_IF_MSG_INFO_IND")) return PCU__IF__MSG__INFO__IND; -else if (!strcmp(str_par, "PCU_IF_MSG_ACT_REQ")) return PCU__IF__MSG__ACT__REQ; -else if (!strcmp(str_par, "PCU_IF_MSG_TIME_IND")) return PCU__IF__MSG__TIME__IND; -else if (!strcmp(str_par, "PCU_IF_MSG_PAG_REQ")) return PCU__IF__MSG__PAG__REQ; -else if (!strcmp(str_par, "PCU_IF_MSG_TXT_IND")) return PCU__IF__MSG__TXT__IND; -else return UNKNOWN_VALUE; -} - -boolean PCUIF__MsgType::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -case 16: -case 17: -case 34: -case 50: -case 64: -case 82: -case 96: -case 112: -return TRUE; -default: -return FALSE; -} -} - -int PCUIF__MsgType::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @PCUIF_Types.PCUIF_MsgType.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int PCUIF__MsgType::enum2int(const PCUIF__MsgType& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @PCUIF_Types.PCUIF_MsgType.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void PCUIF__MsgType::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @PCUIF_Types.PCUIF_MsgType.", int_val); -enum_value = (enum_type)int_val; -} - -PCUIF__MsgType::operator PCUIF__MsgType::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @PCUIF_Types.PCUIF_MsgType."); -return enum_value; -} - -void PCUIF__MsgType::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void PCUIF__MsgType::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@PCUIF_Types.PCUIF_MsgType"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @PCUIF_Types.PCUIF_MsgType."); - } -} - -void PCUIF__MsgType::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -text_buf.push_int(enum_value); -} - -void PCUIF__MsgType::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @PCUIF_Types.PCUIF_MsgType.", enum_value); -} - -void PCUIF__MsgType::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__MsgType::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__MsgType::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 7, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int PCUIF__MsgType::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 7); -} - -void PCUIF__MsgType_template::copy_template(const PCUIF__MsgType_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__MsgType_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_MsgType."); -} -} - -PCUIF__MsgType_template::PCUIF__MsgType_template() -{ -} - -PCUIF__MsgType_template::PCUIF__MsgType_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__MsgType_template::PCUIF__MsgType_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!PCUIF__MsgType::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @PCUIF_Types.PCUIF_MsgType with unknown numeric value %d.", other_value); -single_value = (PCUIF__MsgType::enum_type)other_value; -} - -PCUIF__MsgType_template::PCUIF__MsgType_template(PCUIF__MsgType::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -PCUIF__MsgType_template::PCUIF__MsgType_template(const PCUIF__MsgType& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == PCUIF__MsgType::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType."); -single_value = other_value.enum_value; -} - -PCUIF__MsgType_template::PCUIF__MsgType_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__MsgType::enum_type)(const PCUIF__MsgType&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @PCUIF_Types.PCUIF_MsgType from an unbound optional field."); -} -} - -PCUIF__MsgType_template::PCUIF__MsgType_template(const PCUIF__MsgType_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -PCUIF__MsgType_template::~PCUIF__MsgType_template() -{ -clean_up(); -} - -boolean PCUIF__MsgType_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean PCUIF__MsgType_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != PCUIF__MsgType::UNBOUND_VALUE; -} - -void PCUIF__MsgType_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__MsgType_template& PCUIF__MsgType_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__MsgType_template& PCUIF__MsgType_template::operator=(int other_value) -{ -if (!PCUIF__MsgType::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @PCUIF_Types.PCUIF_MsgType.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__MsgType::enum_type)other_value; -return *this; -} - -PCUIF__MsgType_template& PCUIF__MsgType_template::operator=(PCUIF__MsgType::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -PCUIF__MsgType_template& PCUIF__MsgType_template::operator=(const PCUIF__MsgType& other_value) -{ -if (other_value.enum_value == PCUIF__MsgType::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @PCUIF_Types.PCUIF_MsgType to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -PCUIF__MsgType_template& PCUIF__MsgType_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__MsgType::enum_type)(const PCUIF__MsgType&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @PCUIF_Types.PCUIF_MsgType."); -} -return *this; -} - -PCUIF__MsgType_template& PCUIF__MsgType_template::operator=(const PCUIF__MsgType_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__MsgType_template::match(PCUIF__MsgType::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_MsgType."); -} -return FALSE; -} - -boolean PCUIF__MsgType_template::match(const PCUIF__MsgType& other_value, boolean) const -{ -if (other_value.enum_value == PCUIF__MsgType::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @PCUIF_Types.PCUIF_MsgType with an unbound value."); -return match(other_value.enum_value); -} - -PCUIF__MsgType::enum_type PCUIF__MsgType_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @PCUIF_Types.PCUIF_MsgType."); -return single_value; -} - -void PCUIF__MsgType_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @PCUIF_Types.PCUIF_MsgType."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__MsgType_template[list_length]; -} - -PCUIF__MsgType_template& PCUIF__MsgType_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @PCUIF_Types.PCUIF_MsgType."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @PCUIF_Types.PCUIF_MsgType."); -return value_list.list_value[list_index]; -} - -void PCUIF__MsgType_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(PCUIF__MsgType::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__MsgType_template::log_match(const PCUIF__MsgType& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void PCUIF__MsgType_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_MsgType."); -} -} - -void PCUIF__MsgType_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (PCUIF__MsgType::enum_type)text_buf.pull_int().get_val(); -if (!PCUIF__MsgType::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @PCUIF_Types.PCUIF_MsgType.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__MsgType_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @PCUIF_Types.PCUIF_MsgType."); -} -} - -boolean PCUIF__MsgType_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__MsgType_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__MsgType_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - PCUIF__MsgType::enum_type enum_val = PCUIF__MsgType::str_to_enum(m_p->get_enumerated()); - if (!PCUIF__MsgType::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @PCUIF_Types.PCUIF_MsgType."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@PCUIF_Types.PCUIF_MsgType"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__MsgType_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_MsgType"); -} - -PCUIF__Sapi::PCUIF__Sapi() -{ -enum_value = UNBOUND_VALUE; -} - -PCUIF__Sapi::PCUIF__Sapi(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @PCUIF_Types.PCUIF_Sapi with invalid numeric value %d.", other_value); -enum_value = (enum_type)other_value; -} - -PCUIF__Sapi::PCUIF__Sapi(enum_type other_value) -{ -enum_value = other_value; -} - -PCUIF__Sapi::PCUIF__Sapi(const PCUIF__Sapi& other_value) -: Base_Type() -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -enum_value = other_value.enum_value; -} - -PCUIF__Sapi& PCUIF__Sapi::operator=(int other_value) -{ -if (!is_valid_enum(other_value)) TTCN_error("Assigning unknown numeric value %d to a variable of enumerated type @PCUIF_Types.PCUIF_Sapi.", other_value); -enum_value = (enum_type)other_value; -return *this; -} - -PCUIF__Sapi& PCUIF__Sapi::operator=(enum_type other_value) -{ -enum_value = other_value; -return *this; -} - -PCUIF__Sapi& PCUIF__Sapi::operator=(const PCUIF__Sapi& other_value) -{ -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -enum_value = other_value.enum_value; -return *this; -} - -boolean PCUIF__Sapi::operator==(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -return enum_value == other_value; -} - -boolean PCUIF__Sapi::operator==(const PCUIF__Sapi& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -return enum_value == other_value.enum_value; -} - -boolean PCUIF__Sapi::operator<(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -return enum_value < other_value; -} - -boolean PCUIF__Sapi::operator<(const PCUIF__Sapi& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -return enum_value < other_value.enum_value; -} - -boolean PCUIF__Sapi::operator>(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -return enum_value > other_value; -} - -boolean PCUIF__Sapi::operator>(const PCUIF__Sapi& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -return enum_value > other_value.enum_value; -} - -const char *PCUIF__Sapi::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case PCU__IF__SAPI__UNKNOWN: return "PCU_IF_SAPI_UNKNOWN"; -case PCU__IF__SAPI__RACH: return "PCU_IF_SAPI_RACH"; -case PCU__IF__SAPI__AGCH: return "PCU_IF_SAPI_AGCH"; -case PCU__IF__SAPI__PCH: return "PCU_IF_SAPI_PCH"; -case PCU__IF__SAPI__BCCH: return "PCU_IF_SAPI_BCCH"; -case PCU__IF__SAPI__PDTCH: return "PCU_IF_SAPI_PDTCH"; -case PCU__IF__SAPI__PRACH: return "PCU_IF_SAPI_PRACH"; -case PCU__IF__SAPI__PTCCH: return "PCU_IF_SAPI_PTCCH"; -case PCU__IF__SAPI__AGCH__DT: return "PCU_IF_SAPI_AGCH_DT"; -default: return ""; -} -} - -PCUIF__Sapi::enum_type PCUIF__Sapi::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "PCU_IF_SAPI_UNKNOWN")) return PCU__IF__SAPI__UNKNOWN; -else if (!strcmp(str_par, "PCU_IF_SAPI_RACH")) return PCU__IF__SAPI__RACH; -else if (!strcmp(str_par, "PCU_IF_SAPI_AGCH")) return PCU__IF__SAPI__AGCH; -else if (!strcmp(str_par, "PCU_IF_SAPI_PCH")) return PCU__IF__SAPI__PCH; -else if (!strcmp(str_par, "PCU_IF_SAPI_BCCH")) return PCU__IF__SAPI__BCCH; -else if (!strcmp(str_par, "PCU_IF_SAPI_PDTCH")) return PCU__IF__SAPI__PDTCH; -else if (!strcmp(str_par, "PCU_IF_SAPI_PRACH")) return PCU__IF__SAPI__PRACH; -else if (!strcmp(str_par, "PCU_IF_SAPI_PTCCH")) return PCU__IF__SAPI__PTCCH; -else if (!strcmp(str_par, "PCU_IF_SAPI_AGCH_DT")) return PCU__IF__SAPI__AGCH__DT; -else return UNKNOWN_VALUE; -} - -boolean PCUIF__Sapi::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -case 4: -case 5: -case 6: -case 7: -case 8: -return TRUE; -default: -return FALSE; -} -} - -int PCUIF__Sapi::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @PCUIF_Types.PCUIF_Sapi.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int PCUIF__Sapi::enum2int(const PCUIF__Sapi& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @PCUIF_Types.PCUIF_Sapi.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void PCUIF__Sapi::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @PCUIF_Types.PCUIF_Sapi.", int_val); -enum_value = (enum_type)int_val; -} - -PCUIF__Sapi::operator PCUIF__Sapi::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @PCUIF_Types.PCUIF_Sapi."); -return enum_value; -} - -void PCUIF__Sapi::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void PCUIF__Sapi::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@PCUIF_Types.PCUIF_Sapi"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @PCUIF_Types.PCUIF_Sapi."); - } -} - -void PCUIF__Sapi::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -text_buf.push_int(enum_value); -} - -void PCUIF__Sapi::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @PCUIF_Types.PCUIF_Sapi.", enum_value); -} - -void PCUIF__Sapi::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__Sapi::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__Sapi::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 4, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int PCUIF__Sapi::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 4); -} - -void PCUIF__Sapi_template::copy_template(const PCUIF__Sapi_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__Sapi_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_Sapi."); -} -} - -PCUIF__Sapi_template::PCUIF__Sapi_template() -{ -} - -PCUIF__Sapi_template::PCUIF__Sapi_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__Sapi_template::PCUIF__Sapi_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!PCUIF__Sapi::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @PCUIF_Types.PCUIF_Sapi with unknown numeric value %d.", other_value); -single_value = (PCUIF__Sapi::enum_type)other_value; -} - -PCUIF__Sapi_template::PCUIF__Sapi_template(PCUIF__Sapi::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -PCUIF__Sapi_template::PCUIF__Sapi_template(const PCUIF__Sapi& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == PCUIF__Sapi::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi."); -single_value = other_value.enum_value; -} - -PCUIF__Sapi_template::PCUIF__Sapi_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__Sapi::enum_type)(const PCUIF__Sapi&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @PCUIF_Types.PCUIF_Sapi from an unbound optional field."); -} -} - -PCUIF__Sapi_template::PCUIF__Sapi_template(const PCUIF__Sapi_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -PCUIF__Sapi_template::~PCUIF__Sapi_template() -{ -clean_up(); -} - -boolean PCUIF__Sapi_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean PCUIF__Sapi_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != PCUIF__Sapi::UNBOUND_VALUE; -} - -void PCUIF__Sapi_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__Sapi_template& PCUIF__Sapi_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__Sapi_template& PCUIF__Sapi_template::operator=(int other_value) -{ -if (!PCUIF__Sapi::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @PCUIF_Types.PCUIF_Sapi.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__Sapi::enum_type)other_value; -return *this; -} - -PCUIF__Sapi_template& PCUIF__Sapi_template::operator=(PCUIF__Sapi::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -PCUIF__Sapi_template& PCUIF__Sapi_template::operator=(const PCUIF__Sapi& other_value) -{ -if (other_value.enum_value == PCUIF__Sapi::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @PCUIF_Types.PCUIF_Sapi to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -PCUIF__Sapi_template& PCUIF__Sapi_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__Sapi::enum_type)(const PCUIF__Sapi&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @PCUIF_Types.PCUIF_Sapi."); -} -return *this; -} - -PCUIF__Sapi_template& PCUIF__Sapi_template::operator=(const PCUIF__Sapi_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__Sapi_template::match(PCUIF__Sapi::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_Sapi."); -} -return FALSE; -} - -boolean PCUIF__Sapi_template::match(const PCUIF__Sapi& other_value, boolean) const -{ -if (other_value.enum_value == PCUIF__Sapi::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @PCUIF_Types.PCUIF_Sapi with an unbound value."); -return match(other_value.enum_value); -} - -PCUIF__Sapi::enum_type PCUIF__Sapi_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @PCUIF_Types.PCUIF_Sapi."); -return single_value; -} - -void PCUIF__Sapi_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @PCUIF_Types.PCUIF_Sapi."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__Sapi_template[list_length]; -} - -PCUIF__Sapi_template& PCUIF__Sapi_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @PCUIF_Types.PCUIF_Sapi."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @PCUIF_Types.PCUIF_Sapi."); -return value_list.list_value[list_index]; -} - -void PCUIF__Sapi_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(PCUIF__Sapi::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__Sapi_template::log_match(const PCUIF__Sapi& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void PCUIF__Sapi_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_Sapi."); -} -} - -void PCUIF__Sapi_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (PCUIF__Sapi::enum_type)text_buf.pull_int().get_val(); -if (!PCUIF__Sapi::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @PCUIF_Types.PCUIF_Sapi.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__Sapi_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @PCUIF_Types.PCUIF_Sapi."); -} -} - -boolean PCUIF__Sapi_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__Sapi_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__Sapi_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - PCUIF__Sapi::enum_type enum_val = PCUIF__Sapi::str_to_enum(m_p->get_enumerated()); - if (!PCUIF__Sapi::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @PCUIF_Types.PCUIF_Sapi."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@PCUIF_Types.PCUIF_Sapi"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__Sapi_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_Sapi"); -} - -PCUIF__Flags::PCUIF__Flags() -{ -} - -PCUIF__Flags::PCUIF__Flags(const BOOLEAN& par_bts__active, - const BOOLEAN& par_sysmo__direct__dsp, - const BITSTRING& par_spare, - const BOOLEAN& par_cs1, - const BOOLEAN& par_cs2, - const BOOLEAN& par_cs3, - const BOOLEAN& par_cs4, - const BOOLEAN& par_mcs1, - const BOOLEAN& par_mcs2, - const BOOLEAN& par_mcs3, - const BOOLEAN& par_mcs4, - const BOOLEAN& par_mcs5, - const BOOLEAN& par_mcs6, - const BOOLEAN& par_mcs7, - const BOOLEAN& par_mcs8, - const BOOLEAN& par_mcs9, - const BITSTRING& par_spare2) - : field_bts__active(par_bts__active), - field_sysmo__direct__dsp(par_sysmo__direct__dsp), - field_spare(par_spare), - field_cs1(par_cs1), - field_cs2(par_cs2), - field_cs3(par_cs3), - field_cs4(par_cs4), - field_mcs1(par_mcs1), - field_mcs2(par_mcs2), - field_mcs3(par_mcs3), - field_mcs4(par_mcs4), - field_mcs5(par_mcs5), - field_mcs6(par_mcs6), - field_mcs7(par_mcs7), - field_mcs8(par_mcs8), - field_mcs9(par_mcs9), - field_spare2(par_spare2) -{ -} - -PCUIF__Flags::PCUIF__Flags(const PCUIF__Flags& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @PCUIF_Types.PCUIF_Flags."); -if (other_value.bts__active().is_bound()) field_bts__active = other_value.bts__active(); -else field_bts__active.clean_up(); -if (other_value.sysmo__direct__dsp().is_bound()) field_sysmo__direct__dsp = other_value.sysmo__direct__dsp(); -else field_sysmo__direct__dsp.clean_up(); -if (other_value.spare().is_bound()) field_spare = other_value.spare(); -else field_spare.clean_up(); -if (other_value.cs1().is_bound()) field_cs1 = other_value.cs1(); -else field_cs1.clean_up(); -if (other_value.cs2().is_bound()) field_cs2 = other_value.cs2(); -else field_cs2.clean_up(); -if (other_value.cs3().is_bound()) field_cs3 = other_value.cs3(); -else field_cs3.clean_up(); -if (other_value.cs4().is_bound()) field_cs4 = other_value.cs4(); -else field_cs4.clean_up(); -if (other_value.mcs1().is_bound()) field_mcs1 = other_value.mcs1(); -else field_mcs1.clean_up(); -if (other_value.mcs2().is_bound()) field_mcs2 = other_value.mcs2(); -else field_mcs2.clean_up(); -if (other_value.mcs3().is_bound()) field_mcs3 = other_value.mcs3(); -else field_mcs3.clean_up(); -if (other_value.mcs4().is_bound()) field_mcs4 = other_value.mcs4(); -else field_mcs4.clean_up(); -if (other_value.mcs5().is_bound()) field_mcs5 = other_value.mcs5(); -else field_mcs5.clean_up(); -if (other_value.mcs6().is_bound()) field_mcs6 = other_value.mcs6(); -else field_mcs6.clean_up(); -if (other_value.mcs7().is_bound()) field_mcs7 = other_value.mcs7(); -else field_mcs7.clean_up(); -if (other_value.mcs8().is_bound()) field_mcs8 = other_value.mcs8(); -else field_mcs8.clean_up(); -if (other_value.mcs9().is_bound()) field_mcs9 = other_value.mcs9(); -else field_mcs9.clean_up(); -if (other_value.spare2().is_bound()) field_spare2 = other_value.spare2(); -else field_spare2.clean_up(); -} - -void PCUIF__Flags::clean_up() -{ -field_bts__active.clean_up(); -field_sysmo__direct__dsp.clean_up(); -field_spare.clean_up(); -field_cs1.clean_up(); -field_cs2.clean_up(); -field_cs3.clean_up(); -field_cs4.clean_up(); -field_mcs1.clean_up(); -field_mcs2.clean_up(); -field_mcs3.clean_up(); -field_mcs4.clean_up(); -field_mcs5.clean_up(); -field_mcs6.clean_up(); -field_mcs7.clean_up(); -field_mcs8.clean_up(); -field_mcs9.clean_up(); -field_spare2.clean_up(); -} - -const TTCN_Typedescriptor_t* PCUIF__Flags::get_descriptor() const { return &PCUIF__Flags_descr_; } -PCUIF__Flags& PCUIF__Flags::operator=(const PCUIF__Flags& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @PCUIF_Types.PCUIF_Flags."); - if (other_value.bts__active().is_bound()) field_bts__active = other_value.bts__active(); - else field_bts__active.clean_up(); - if (other_value.sysmo__direct__dsp().is_bound()) field_sysmo__direct__dsp = other_value.sysmo__direct__dsp(); - else field_sysmo__direct__dsp.clean_up(); - if (other_value.spare().is_bound()) field_spare = other_value.spare(); - else field_spare.clean_up(); - if (other_value.cs1().is_bound()) field_cs1 = other_value.cs1(); - else field_cs1.clean_up(); - if (other_value.cs2().is_bound()) field_cs2 = other_value.cs2(); - else field_cs2.clean_up(); - if (other_value.cs3().is_bound()) field_cs3 = other_value.cs3(); - else field_cs3.clean_up(); - if (other_value.cs4().is_bound()) field_cs4 = other_value.cs4(); - else field_cs4.clean_up(); - if (other_value.mcs1().is_bound()) field_mcs1 = other_value.mcs1(); - else field_mcs1.clean_up(); - if (other_value.mcs2().is_bound()) field_mcs2 = other_value.mcs2(); - else field_mcs2.clean_up(); - if (other_value.mcs3().is_bound()) field_mcs3 = other_value.mcs3(); - else field_mcs3.clean_up(); - if (other_value.mcs4().is_bound()) field_mcs4 = other_value.mcs4(); - else field_mcs4.clean_up(); - if (other_value.mcs5().is_bound()) field_mcs5 = other_value.mcs5(); - else field_mcs5.clean_up(); - if (other_value.mcs6().is_bound()) field_mcs6 = other_value.mcs6(); - else field_mcs6.clean_up(); - if (other_value.mcs7().is_bound()) field_mcs7 = other_value.mcs7(); - else field_mcs7.clean_up(); - if (other_value.mcs8().is_bound()) field_mcs8 = other_value.mcs8(); - else field_mcs8.clean_up(); - if (other_value.mcs9().is_bound()) field_mcs9 = other_value.mcs9(); - else field_mcs9.clean_up(); - if (other_value.spare2().is_bound()) field_spare2 = other_value.spare2(); - else field_spare2.clean_up(); -} -return *this; -} - -boolean PCUIF__Flags::operator==(const PCUIF__Flags& other_value) const -{ -return field_bts__active==other_value.field_bts__active - && field_sysmo__direct__dsp==other_value.field_sysmo__direct__dsp - && field_spare==other_value.field_spare - && field_cs1==other_value.field_cs1 - && field_cs2==other_value.field_cs2 - && field_cs3==other_value.field_cs3 - && field_cs4==other_value.field_cs4 - && field_mcs1==other_value.field_mcs1 - && field_mcs2==other_value.field_mcs2 - && field_mcs3==other_value.field_mcs3 - && field_mcs4==other_value.field_mcs4 - && field_mcs5==other_value.field_mcs5 - && field_mcs6==other_value.field_mcs6 - && field_mcs7==other_value.field_mcs7 - && field_mcs8==other_value.field_mcs8 - && field_mcs9==other_value.field_mcs9 - && field_spare2==other_value.field_spare2; -} - -boolean PCUIF__Flags::is_bound() const -{ -if(field_bts__active.is_bound()) return TRUE; -if(field_sysmo__direct__dsp.is_bound()) return TRUE; -if(field_spare.is_bound()) return TRUE; -if(field_cs1.is_bound()) return TRUE; -if(field_cs2.is_bound()) return TRUE; -if(field_cs3.is_bound()) return TRUE; -if(field_cs4.is_bound()) return TRUE; -if(field_mcs1.is_bound()) return TRUE; -if(field_mcs2.is_bound()) return TRUE; -if(field_mcs3.is_bound()) return TRUE; -if(field_mcs4.is_bound()) return TRUE; -if(field_mcs5.is_bound()) return TRUE; -if(field_mcs6.is_bound()) return TRUE; -if(field_mcs7.is_bound()) return TRUE; -if(field_mcs8.is_bound()) return TRUE; -if(field_mcs9.is_bound()) return TRUE; -if(field_spare2.is_bound()) return TRUE; -return FALSE; -} -boolean PCUIF__Flags::is_value() const -{ -if(!field_bts__active.is_value()) return FALSE; -if(!field_sysmo__direct__dsp.is_value()) return FALSE; -if(!field_spare.is_value()) return FALSE; -if(!field_cs1.is_value()) return FALSE; -if(!field_cs2.is_value()) return FALSE; -if(!field_cs3.is_value()) return FALSE; -if(!field_cs4.is_value()) return FALSE; -if(!field_mcs1.is_value()) return FALSE; -if(!field_mcs2.is_value()) return FALSE; -if(!field_mcs3.is_value()) return FALSE; -if(!field_mcs4.is_value()) return FALSE; -if(!field_mcs5.is_value()) return FALSE; -if(!field_mcs6.is_value()) return FALSE; -if(!field_mcs7.is_value()) return FALSE; -if(!field_mcs8.is_value()) return FALSE; -if(!field_mcs9.is_value()) return FALSE; -if(!field_spare2.is_value()) return FALSE; -return TRUE; -} -void PCUIF__Flags::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ bts_active := "); -field_bts__active.log(); -TTCN_Logger::log_event_str(", sysmo_direct_dsp := "); -field_sysmo__direct__dsp.log(); -TTCN_Logger::log_event_str(", spare := "); -field_spare.log(); -TTCN_Logger::log_event_str(", cs1 := "); -field_cs1.log(); -TTCN_Logger::log_event_str(", cs2 := "); -field_cs2.log(); -TTCN_Logger::log_event_str(", cs3 := "); -field_cs3.log(); -TTCN_Logger::log_event_str(", cs4 := "); -field_cs4.log(); -TTCN_Logger::log_event_str(", mcs1 := "); -field_mcs1.log(); -TTCN_Logger::log_event_str(", mcs2 := "); -field_mcs2.log(); -TTCN_Logger::log_event_str(", mcs3 := "); -field_mcs3.log(); -TTCN_Logger::log_event_str(", mcs4 := "); -field_mcs4.log(); -TTCN_Logger::log_event_str(", mcs5 := "); -field_mcs5.log(); -TTCN_Logger::log_event_str(", mcs6 := "); -field_mcs6.log(); -TTCN_Logger::log_event_str(", mcs7 := "); -field_mcs7.log(); -TTCN_Logger::log_event_str(", mcs8 := "); -field_mcs8.log(); -TTCN_Logger::log_event_str(", mcs9 := "); -field_mcs9.log(); -TTCN_Logger::log_event_str(", spare2 := "); -field_spare2.log(); -TTCN_Logger::log_event_str(" }"); -} - -void PCUIF__Flags::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (170 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) bts__active().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) sysmo__direct__dsp().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) spare().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) cs1().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) cs2().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) cs3().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) cs4().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) mcs1().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) mcs2().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) mcs3().set_param(*param.get_elem(9)); - if (param.get_size()>10 && param.get_elem(10)->get_type()!=Module_Param::MP_NotUsed) mcs4().set_param(*param.get_elem(10)); - if (param.get_size()>11 && param.get_elem(11)->get_type()!=Module_Param::MP_NotUsed) mcs5().set_param(*param.get_elem(11)); - if (param.get_size()>12 && param.get_elem(12)->get_type()!=Module_Param::MP_NotUsed) mcs6().set_param(*param.get_elem(12)); - if (param.get_size()>13 && param.get_elem(13)->get_type()!=Module_Param::MP_NotUsed) mcs7().set_param(*param.get_elem(13)); - if (param.get_size()>14 && param.get_elem(14)->get_type()!=Module_Param::MP_NotUsed) mcs8().set_param(*param.get_elem(14)); - if (param.get_size()>15 && param.get_elem(15)->get_type()!=Module_Param::MP_NotUsed) mcs9().set_param(*param.get_elem(15)); - if (param.get_size()>16 && param.get_elem(16)->get_type()!=Module_Param::MP_NotUsed) spare2().set_param(*param.get_elem(16)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "bts_active")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - bts__active().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "sysmo_direct_dsp")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sysmo__direct__dsp().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cs1")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cs1().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cs2")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cs2().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cs3")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cs3().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cs4")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cs4().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs1")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs1().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs2")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs2().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs3")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs3().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs4")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs4().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs5")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs5().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs6")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs6().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs7")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs7().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs8")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs8().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs9")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs9().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare2")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare2().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_Flags: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_Flags"); - } -} - -void PCUIF__Flags::set_implicit_omit() -{ -if (bts__active().is_bound()) bts__active().set_implicit_omit(); -if (sysmo__direct__dsp().is_bound()) sysmo__direct__dsp().set_implicit_omit(); -if (spare().is_bound()) spare().set_implicit_omit(); -if (cs1().is_bound()) cs1().set_implicit_omit(); -if (cs2().is_bound()) cs2().set_implicit_omit(); -if (cs3().is_bound()) cs3().set_implicit_omit(); -if (cs4().is_bound()) cs4().set_implicit_omit(); -if (mcs1().is_bound()) mcs1().set_implicit_omit(); -if (mcs2().is_bound()) mcs2().set_implicit_omit(); -if (mcs3().is_bound()) mcs3().set_implicit_omit(); -if (mcs4().is_bound()) mcs4().set_implicit_omit(); -if (mcs5().is_bound()) mcs5().set_implicit_omit(); -if (mcs6().is_bound()) mcs6().set_implicit_omit(); -if (mcs7().is_bound()) mcs7().set_implicit_omit(); -if (mcs8().is_bound()) mcs8().set_implicit_omit(); -if (mcs9().is_bound()) mcs9().set_implicit_omit(); -if (spare2().is_bound()) spare2().set_implicit_omit(); -} - -void PCUIF__Flags::encode_text(Text_Buf& text_buf) const -{ -field_bts__active.encode_text(text_buf); -field_sysmo__direct__dsp.encode_text(text_buf); -field_spare.encode_text(text_buf); -field_cs1.encode_text(text_buf); -field_cs2.encode_text(text_buf); -field_cs3.encode_text(text_buf); -field_cs4.encode_text(text_buf); -field_mcs1.encode_text(text_buf); -field_mcs2.encode_text(text_buf); -field_mcs3.encode_text(text_buf); -field_mcs4.encode_text(text_buf); -field_mcs5.encode_text(text_buf); -field_mcs6.encode_text(text_buf); -field_mcs7.encode_text(text_buf); -field_mcs8.encode_text(text_buf); -field_mcs9.encode_text(text_buf); -field_spare2.encode_text(text_buf); -} - -void PCUIF__Flags::decode_text(Text_Buf& text_buf) -{ -field_bts__active.decode_text(text_buf); -field_sysmo__direct__dsp.decode_text(text_buf); -field_spare.decode_text(text_buf); -field_cs1.decode_text(text_buf); -field_cs2.decode_text(text_buf); -field_cs3.decode_text(text_buf); -field_cs4.decode_text(text_buf); -field_mcs1.decode_text(text_buf); -field_mcs2.decode_text(text_buf); -field_mcs3.decode_text(text_buf); -field_mcs4.decode_text(text_buf); -field_mcs5.decode_text(text_buf); -field_mcs6.decode_text(text_buf); -field_mcs7.decode_text(text_buf); -field_mcs8.decode_text(text_buf); -field_mcs9.decode_text(text_buf); -field_spare2.decode_text(text_buf); -} - -void PCUIF__Flags::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__Flags::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__Flags::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__Flags_bts__active_descr_.raw->forceomit); - decoded_field_length = field_bts__active.RAW_decode(PCUIF__Flags_bts__active_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__Flags_sysmo__direct__dsp_descr_.raw->forceomit); - decoded_field_length = field_sysmo__direct__dsp.RAW_decode(PCUIF__Flags_sysmo__direct__dsp_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__Flags_spare_descr_.raw->forceomit); - decoded_field_length = field_spare.RAW_decode(PCUIF__Flags_spare_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, PCUIF__Flags_cs1_descr_.raw->forceomit); - decoded_field_length = field_cs1.RAW_decode(PCUIF__Flags_cs1_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, PCUIF__Flags_cs2_descr_.raw->forceomit); - decoded_field_length = field_cs2.RAW_decode(PCUIF__Flags_cs2_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_5_force_omit(5, force_omit, PCUIF__Flags_cs3_descr_.raw->forceomit); - decoded_field_length = field_cs3.RAW_decode(PCUIF__Flags_cs3_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_5_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_6_force_omit(6, force_omit, PCUIF__Flags_cs4_descr_.raw->forceomit); - decoded_field_length = field_cs4.RAW_decode(PCUIF__Flags_cs4_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_6_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_7_force_omit(7, force_omit, PCUIF__Flags_mcs1_descr_.raw->forceomit); - decoded_field_length = field_mcs1.RAW_decode(PCUIF__Flags_mcs1_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_7_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_8_force_omit(8, force_omit, PCUIF__Flags_mcs2_descr_.raw->forceomit); - decoded_field_length = field_mcs2.RAW_decode(PCUIF__Flags_mcs2_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_8_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_9_force_omit(9, force_omit, PCUIF__Flags_mcs3_descr_.raw->forceomit); - decoded_field_length = field_mcs3.RAW_decode(PCUIF__Flags_mcs3_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_9_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_10_force_omit(10, force_omit, PCUIF__Flags_mcs4_descr_.raw->forceomit); - decoded_field_length = field_mcs4.RAW_decode(PCUIF__Flags_mcs4_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_10_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_11_force_omit(11, force_omit, PCUIF__Flags_mcs5_descr_.raw->forceomit); - decoded_field_length = field_mcs5.RAW_decode(PCUIF__Flags_mcs5_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_11_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_12_force_omit(12, force_omit, PCUIF__Flags_mcs6_descr_.raw->forceomit); - decoded_field_length = field_mcs6.RAW_decode(PCUIF__Flags_mcs6_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_12_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_13_force_omit(13, force_omit, PCUIF__Flags_mcs7_descr_.raw->forceomit); - decoded_field_length = field_mcs7.RAW_decode(PCUIF__Flags_mcs7_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_13_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_14_force_omit(14, force_omit, PCUIF__Flags_mcs8_descr_.raw->forceomit); - decoded_field_length = field_mcs8.RAW_decode(PCUIF__Flags_mcs8_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_14_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_15_force_omit(15, force_omit, PCUIF__Flags_mcs9_descr_.raw->forceomit); - decoded_field_length = field_mcs9.RAW_decode(PCUIF__Flags_mcs9_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_15_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_16_force_omit(16, force_omit, PCUIF__Flags_spare2_descr_.raw->forceomit); - decoded_field_length = field_spare2.RAW_decode(PCUIF__Flags_spare2_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_16_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__Flags::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 17; - myleaf.body.node.nodes = init_nodes_of_enc_tree(17); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__Flags_bts__active_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__Flags_sysmo__direct__dsp_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, PCUIF__Flags_spare_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, PCUIF__Flags_cs1_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, PCUIF__Flags_cs2_descr_.raw); - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 5, PCUIF__Flags_cs3_descr_.raw); - myleaf.body.node.nodes[6] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 6, PCUIF__Flags_cs4_descr_.raw); - myleaf.body.node.nodes[7] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 7, PCUIF__Flags_mcs1_descr_.raw); - myleaf.body.node.nodes[8] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 8, PCUIF__Flags_mcs2_descr_.raw); - myleaf.body.node.nodes[9] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 9, PCUIF__Flags_mcs3_descr_.raw); - myleaf.body.node.nodes[10] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 10, PCUIF__Flags_mcs4_descr_.raw); - myleaf.body.node.nodes[11] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 11, PCUIF__Flags_mcs5_descr_.raw); - myleaf.body.node.nodes[12] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 12, PCUIF__Flags_mcs6_descr_.raw); - myleaf.body.node.nodes[13] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 13, PCUIF__Flags_mcs7_descr_.raw); - myleaf.body.node.nodes[14] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 14, PCUIF__Flags_mcs8_descr_.raw); - myleaf.body.node.nodes[15] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 15, PCUIF__Flags_mcs9_descr_.raw); - myleaf.body.node.nodes[16] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 16, PCUIF__Flags_spare2_descr_.raw); - encoded_length += field_bts__active.RAW_encode(PCUIF__Flags_bts__active_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_sysmo__direct__dsp.RAW_encode(PCUIF__Flags_sysmo__direct__dsp_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_spare.RAW_encode(PCUIF__Flags_spare_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_cs1.RAW_encode(PCUIF__Flags_cs1_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_cs2.RAW_encode(PCUIF__Flags_cs2_descr_, *myleaf.body.node.nodes[4]); - encoded_length += field_cs3.RAW_encode(PCUIF__Flags_cs3_descr_, *myleaf.body.node.nodes[5]); - encoded_length += field_cs4.RAW_encode(PCUIF__Flags_cs4_descr_, *myleaf.body.node.nodes[6]); - encoded_length += field_mcs1.RAW_encode(PCUIF__Flags_mcs1_descr_, *myleaf.body.node.nodes[7]); - encoded_length += field_mcs2.RAW_encode(PCUIF__Flags_mcs2_descr_, *myleaf.body.node.nodes[8]); - encoded_length += field_mcs3.RAW_encode(PCUIF__Flags_mcs3_descr_, *myleaf.body.node.nodes[9]); - encoded_length += field_mcs4.RAW_encode(PCUIF__Flags_mcs4_descr_, *myleaf.body.node.nodes[10]); - encoded_length += field_mcs5.RAW_encode(PCUIF__Flags_mcs5_descr_, *myleaf.body.node.nodes[11]); - encoded_length += field_mcs6.RAW_encode(PCUIF__Flags_mcs6_descr_, *myleaf.body.node.nodes[12]); - encoded_length += field_mcs7.RAW_encode(PCUIF__Flags_mcs7_descr_, *myleaf.body.node.nodes[13]); - encoded_length += field_mcs8.RAW_encode(PCUIF__Flags_mcs8_descr_, *myleaf.body.node.nodes[14]); - encoded_length += field_mcs9.RAW_encode(PCUIF__Flags_mcs9_descr_, *myleaf.body.node.nodes[15]); - encoded_length += field_spare2.RAW_encode(PCUIF__Flags_spare2_descr_, *myleaf.body.node.nodes[16]); - return myleaf.length = encoded_length; -} - -struct PCUIF__Flags_template::single_value_struct { -BOOLEAN_template field_bts__active; -BOOLEAN_template field_sysmo__direct__dsp; -BITSTRING_template field_spare; -BOOLEAN_template field_cs1; -BOOLEAN_template field_cs2; -BOOLEAN_template field_cs3; -BOOLEAN_template field_cs4; -BOOLEAN_template field_mcs1; -BOOLEAN_template field_mcs2; -BOOLEAN_template field_mcs3; -BOOLEAN_template field_mcs4; -BOOLEAN_template field_mcs5; -BOOLEAN_template field_mcs6; -BOOLEAN_template field_mcs7; -BOOLEAN_template field_mcs8; -BOOLEAN_template field_mcs9; -BITSTRING_template field_spare2; -}; - -void PCUIF__Flags_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_bts__active = ANY_VALUE; -single_value->field_sysmo__direct__dsp = ANY_VALUE; -single_value->field_spare = ANY_VALUE; -single_value->field_cs1 = ANY_VALUE; -single_value->field_cs2 = ANY_VALUE; -single_value->field_cs3 = ANY_VALUE; -single_value->field_cs4 = ANY_VALUE; -single_value->field_mcs1 = ANY_VALUE; -single_value->field_mcs2 = ANY_VALUE; -single_value->field_mcs3 = ANY_VALUE; -single_value->field_mcs4 = ANY_VALUE; -single_value->field_mcs5 = ANY_VALUE; -single_value->field_mcs6 = ANY_VALUE; -single_value->field_mcs7 = ANY_VALUE; -single_value->field_mcs8 = ANY_VALUE; -single_value->field_mcs9 = ANY_VALUE; -single_value->field_spare2 = ANY_VALUE; -} -} -} - -void PCUIF__Flags_template::copy_value(const PCUIF__Flags& other_value) -{ -single_value = new single_value_struct; -if (other_value.bts__active().is_bound()) { - single_value->field_bts__active = other_value.bts__active(); -} else { - single_value->field_bts__active.clean_up(); -} -if (other_value.sysmo__direct__dsp().is_bound()) { - single_value->field_sysmo__direct__dsp = other_value.sysmo__direct__dsp(); -} else { - single_value->field_sysmo__direct__dsp.clean_up(); -} -if (other_value.spare().is_bound()) { - single_value->field_spare = other_value.spare(); -} else { - single_value->field_spare.clean_up(); -} -if (other_value.cs1().is_bound()) { - single_value->field_cs1 = other_value.cs1(); -} else { - single_value->field_cs1.clean_up(); -} -if (other_value.cs2().is_bound()) { - single_value->field_cs2 = other_value.cs2(); -} else { - single_value->field_cs2.clean_up(); -} -if (other_value.cs3().is_bound()) { - single_value->field_cs3 = other_value.cs3(); -} else { - single_value->field_cs3.clean_up(); -} -if (other_value.cs4().is_bound()) { - single_value->field_cs4 = other_value.cs4(); -} else { - single_value->field_cs4.clean_up(); -} -if (other_value.mcs1().is_bound()) { - single_value->field_mcs1 = other_value.mcs1(); -} else { - single_value->field_mcs1.clean_up(); -} -if (other_value.mcs2().is_bound()) { - single_value->field_mcs2 = other_value.mcs2(); -} else { - single_value->field_mcs2.clean_up(); -} -if (other_value.mcs3().is_bound()) { - single_value->field_mcs3 = other_value.mcs3(); -} else { - single_value->field_mcs3.clean_up(); -} -if (other_value.mcs4().is_bound()) { - single_value->field_mcs4 = other_value.mcs4(); -} else { - single_value->field_mcs4.clean_up(); -} -if (other_value.mcs5().is_bound()) { - single_value->field_mcs5 = other_value.mcs5(); -} else { - single_value->field_mcs5.clean_up(); -} -if (other_value.mcs6().is_bound()) { - single_value->field_mcs6 = other_value.mcs6(); -} else { - single_value->field_mcs6.clean_up(); -} -if (other_value.mcs7().is_bound()) { - single_value->field_mcs7 = other_value.mcs7(); -} else { - single_value->field_mcs7.clean_up(); -} -if (other_value.mcs8().is_bound()) { - single_value->field_mcs8 = other_value.mcs8(); -} else { - single_value->field_mcs8.clean_up(); -} -if (other_value.mcs9().is_bound()) { - single_value->field_mcs9 = other_value.mcs9(); -} else { - single_value->field_mcs9.clean_up(); -} -if (other_value.spare2().is_bound()) { - single_value->field_spare2 = other_value.spare2(); -} else { - single_value->field_spare2.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__Flags_template::copy_template(const PCUIF__Flags_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.bts__active().get_selection()) { -single_value->field_bts__active = other_value.bts__active(); -} else { -single_value->field_bts__active.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.sysmo__direct__dsp().get_selection()) { -single_value->field_sysmo__direct__dsp = other_value.sysmo__direct__dsp(); -} else { -single_value->field_sysmo__direct__dsp.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.spare().get_selection()) { -single_value->field_spare = other_value.spare(); -} else { -single_value->field_spare.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.cs1().get_selection()) { -single_value->field_cs1 = other_value.cs1(); -} else { -single_value->field_cs1.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.cs2().get_selection()) { -single_value->field_cs2 = other_value.cs2(); -} else { -single_value->field_cs2.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.cs3().get_selection()) { -single_value->field_cs3 = other_value.cs3(); -} else { -single_value->field_cs3.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.cs4().get_selection()) { -single_value->field_cs4 = other_value.cs4(); -} else { -single_value->field_cs4.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mcs1().get_selection()) { -single_value->field_mcs1 = other_value.mcs1(); -} else { -single_value->field_mcs1.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mcs2().get_selection()) { -single_value->field_mcs2 = other_value.mcs2(); -} else { -single_value->field_mcs2.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mcs3().get_selection()) { -single_value->field_mcs3 = other_value.mcs3(); -} else { -single_value->field_mcs3.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mcs4().get_selection()) { -single_value->field_mcs4 = other_value.mcs4(); -} else { -single_value->field_mcs4.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mcs5().get_selection()) { -single_value->field_mcs5 = other_value.mcs5(); -} else { -single_value->field_mcs5.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mcs6().get_selection()) { -single_value->field_mcs6 = other_value.mcs6(); -} else { -single_value->field_mcs6.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mcs7().get_selection()) { -single_value->field_mcs7 = other_value.mcs7(); -} else { -single_value->field_mcs7.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mcs8().get_selection()) { -single_value->field_mcs8 = other_value.mcs8(); -} else { -single_value->field_mcs8.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mcs9().get_selection()) { -single_value->field_mcs9 = other_value.mcs9(); -} else { -single_value->field_mcs9.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.spare2().get_selection()) { -single_value->field_spare2 = other_value.spare2(); -} else { -single_value->field_spare2.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__Flags_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_Flags."); -break; -} -set_selection(other_value); -} - -PCUIF__Flags_template::PCUIF__Flags_template() -{ -} - -PCUIF__Flags_template::PCUIF__Flags_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__Flags_template::PCUIF__Flags_template(const PCUIF__Flags& other_value) -{ -copy_value(other_value); -} - -PCUIF__Flags_template::PCUIF__Flags_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__Flags&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_Flags from an unbound optional field."); -} -} - -PCUIF__Flags_template::PCUIF__Flags_template(const PCUIF__Flags_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__Flags_template::~PCUIF__Flags_template() -{ -clean_up(); -} - -PCUIF__Flags_template& PCUIF__Flags_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__Flags_template& PCUIF__Flags_template::operator=(const PCUIF__Flags& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__Flags_template& PCUIF__Flags_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__Flags&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_Flags."); -} -return *this; -} - -PCUIF__Flags_template& PCUIF__Flags_template::operator=(const PCUIF__Flags_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__Flags_template::match(const PCUIF__Flags& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.bts__active().is_bound()) return FALSE; -if(!single_value->field_bts__active.match(other_value.bts__active(), legacy))return FALSE; -if(!other_value.sysmo__direct__dsp().is_bound()) return FALSE; -if(!single_value->field_sysmo__direct__dsp.match(other_value.sysmo__direct__dsp(), legacy))return FALSE; -if(!other_value.spare().is_bound()) return FALSE; -if(!single_value->field_spare.match(other_value.spare(), legacy))return FALSE; -if(!other_value.cs1().is_bound()) return FALSE; -if(!single_value->field_cs1.match(other_value.cs1(), legacy))return FALSE; -if(!other_value.cs2().is_bound()) return FALSE; -if(!single_value->field_cs2.match(other_value.cs2(), legacy))return FALSE; -if(!other_value.cs3().is_bound()) return FALSE; -if(!single_value->field_cs3.match(other_value.cs3(), legacy))return FALSE; -if(!other_value.cs4().is_bound()) return FALSE; -if(!single_value->field_cs4.match(other_value.cs4(), legacy))return FALSE; -if(!other_value.mcs1().is_bound()) return FALSE; -if(!single_value->field_mcs1.match(other_value.mcs1(), legacy))return FALSE; -if(!other_value.mcs2().is_bound()) return FALSE; -if(!single_value->field_mcs2.match(other_value.mcs2(), legacy))return FALSE; -if(!other_value.mcs3().is_bound()) return FALSE; -if(!single_value->field_mcs3.match(other_value.mcs3(), legacy))return FALSE; -if(!other_value.mcs4().is_bound()) return FALSE; -if(!single_value->field_mcs4.match(other_value.mcs4(), legacy))return FALSE; -if(!other_value.mcs5().is_bound()) return FALSE; -if(!single_value->field_mcs5.match(other_value.mcs5(), legacy))return FALSE; -if(!other_value.mcs6().is_bound()) return FALSE; -if(!single_value->field_mcs6.match(other_value.mcs6(), legacy))return FALSE; -if(!other_value.mcs7().is_bound()) return FALSE; -if(!single_value->field_mcs7.match(other_value.mcs7(), legacy))return FALSE; -if(!other_value.mcs8().is_bound()) return FALSE; -if(!single_value->field_mcs8.match(other_value.mcs8(), legacy))return FALSE; -if(!other_value.mcs9().is_bound()) return FALSE; -if(!single_value->field_mcs9.match(other_value.mcs9(), legacy))return FALSE; -if(!other_value.spare2().is_bound()) return FALSE; -if(!single_value->field_spare2.match(other_value.spare2(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_Flags."); -} -return FALSE; -} - -boolean PCUIF__Flags_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_bts__active.is_bound()) return TRUE; -if (single_value->field_sysmo__direct__dsp.is_bound()) return TRUE; -if (single_value->field_spare.is_bound()) return TRUE; -if (single_value->field_cs1.is_bound()) return TRUE; -if (single_value->field_cs2.is_bound()) return TRUE; -if (single_value->field_cs3.is_bound()) return TRUE; -if (single_value->field_cs4.is_bound()) return TRUE; -if (single_value->field_mcs1.is_bound()) return TRUE; -if (single_value->field_mcs2.is_bound()) return TRUE; -if (single_value->field_mcs3.is_bound()) return TRUE; -if (single_value->field_mcs4.is_bound()) return TRUE; -if (single_value->field_mcs5.is_bound()) return TRUE; -if (single_value->field_mcs6.is_bound()) return TRUE; -if (single_value->field_mcs7.is_bound()) return TRUE; -if (single_value->field_mcs8.is_bound()) return TRUE; -if (single_value->field_mcs9.is_bound()) return TRUE; -if (single_value->field_spare2.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__Flags_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_bts__active.is_value()) return FALSE; -if (!single_value->field_sysmo__direct__dsp.is_value()) return FALSE; -if (!single_value->field_spare.is_value()) return FALSE; -if (!single_value->field_cs1.is_value()) return FALSE; -if (!single_value->field_cs2.is_value()) return FALSE; -if (!single_value->field_cs3.is_value()) return FALSE; -if (!single_value->field_cs4.is_value()) return FALSE; -if (!single_value->field_mcs1.is_value()) return FALSE; -if (!single_value->field_mcs2.is_value()) return FALSE; -if (!single_value->field_mcs3.is_value()) return FALSE; -if (!single_value->field_mcs4.is_value()) return FALSE; -if (!single_value->field_mcs5.is_value()) return FALSE; -if (!single_value->field_mcs6.is_value()) return FALSE; -if (!single_value->field_mcs7.is_value()) return FALSE; -if (!single_value->field_mcs8.is_value()) return FALSE; -if (!single_value->field_mcs9.is_value()) return FALSE; -if (!single_value->field_spare2.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__Flags_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__Flags PCUIF__Flags_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -PCUIF__Flags ret_val; -if (single_value->field_bts__active.is_bound()) { -ret_val.bts__active() = single_value->field_bts__active.valueof(); -} -if (single_value->field_sysmo__direct__dsp.is_bound()) { -ret_val.sysmo__direct__dsp() = single_value->field_sysmo__direct__dsp.valueof(); -} -if (single_value->field_spare.is_bound()) { -ret_val.spare() = single_value->field_spare.valueof(); -} -if (single_value->field_cs1.is_bound()) { -ret_val.cs1() = single_value->field_cs1.valueof(); -} -if (single_value->field_cs2.is_bound()) { -ret_val.cs2() = single_value->field_cs2.valueof(); -} -if (single_value->field_cs3.is_bound()) { -ret_val.cs3() = single_value->field_cs3.valueof(); -} -if (single_value->field_cs4.is_bound()) { -ret_val.cs4() = single_value->field_cs4.valueof(); -} -if (single_value->field_mcs1.is_bound()) { -ret_val.mcs1() = single_value->field_mcs1.valueof(); -} -if (single_value->field_mcs2.is_bound()) { -ret_val.mcs2() = single_value->field_mcs2.valueof(); -} -if (single_value->field_mcs3.is_bound()) { -ret_val.mcs3() = single_value->field_mcs3.valueof(); -} -if (single_value->field_mcs4.is_bound()) { -ret_val.mcs4() = single_value->field_mcs4.valueof(); -} -if (single_value->field_mcs5.is_bound()) { -ret_val.mcs5() = single_value->field_mcs5.valueof(); -} -if (single_value->field_mcs6.is_bound()) { -ret_val.mcs6() = single_value->field_mcs6.valueof(); -} -if (single_value->field_mcs7.is_bound()) { -ret_val.mcs7() = single_value->field_mcs7.valueof(); -} -if (single_value->field_mcs8.is_bound()) { -ret_val.mcs8() = single_value->field_mcs8.valueof(); -} -if (single_value->field_mcs9.is_bound()) { -ret_val.mcs9() = single_value->field_mcs9.valueof(); -} -if (single_value->field_spare2.is_bound()) { -ret_val.spare2() = single_value->field_spare2.valueof(); -} -return ret_val; -} - -void PCUIF__Flags_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_Flags."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__Flags_template[list_length]; -} - -PCUIF__Flags_template& PCUIF__Flags_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_Flags."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_Flags."); -return value_list.list_value[list_index]; -} - -BOOLEAN_template& PCUIF__Flags_template::bts__active() -{ -set_specific(); -return single_value->field_bts__active; -} - -const BOOLEAN_template& PCUIF__Flags_template::bts__active() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field bts_active of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_bts__active; -} - -BOOLEAN_template& PCUIF__Flags_template::sysmo__direct__dsp() -{ -set_specific(); -return single_value->field_sysmo__direct__dsp; -} - -const BOOLEAN_template& PCUIF__Flags_template::sysmo__direct__dsp() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field sysmo_direct_dsp of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_sysmo__direct__dsp; -} - -BITSTRING_template& PCUIF__Flags_template::spare() -{ -set_specific(); -return single_value->field_spare; -} - -const BITSTRING_template& PCUIF__Flags_template::spare() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field spare of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_spare; -} - -BOOLEAN_template& PCUIF__Flags_template::cs1() -{ -set_specific(); -return single_value->field_cs1; -} - -const BOOLEAN_template& PCUIF__Flags_template::cs1() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field cs1 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_cs1; -} - -BOOLEAN_template& PCUIF__Flags_template::cs2() -{ -set_specific(); -return single_value->field_cs2; -} - -const BOOLEAN_template& PCUIF__Flags_template::cs2() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field cs2 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_cs2; -} - -BOOLEAN_template& PCUIF__Flags_template::cs3() -{ -set_specific(); -return single_value->field_cs3; -} - -const BOOLEAN_template& PCUIF__Flags_template::cs3() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field cs3 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_cs3; -} - -BOOLEAN_template& PCUIF__Flags_template::cs4() -{ -set_specific(); -return single_value->field_cs4; -} - -const BOOLEAN_template& PCUIF__Flags_template::cs4() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field cs4 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_cs4; -} - -BOOLEAN_template& PCUIF__Flags_template::mcs1() -{ -set_specific(); -return single_value->field_mcs1; -} - -const BOOLEAN_template& PCUIF__Flags_template::mcs1() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mcs1 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_mcs1; -} - -BOOLEAN_template& PCUIF__Flags_template::mcs2() -{ -set_specific(); -return single_value->field_mcs2; -} - -const BOOLEAN_template& PCUIF__Flags_template::mcs2() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mcs2 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_mcs2; -} - -BOOLEAN_template& PCUIF__Flags_template::mcs3() -{ -set_specific(); -return single_value->field_mcs3; -} - -const BOOLEAN_template& PCUIF__Flags_template::mcs3() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mcs3 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_mcs3; -} - -BOOLEAN_template& PCUIF__Flags_template::mcs4() -{ -set_specific(); -return single_value->field_mcs4; -} - -const BOOLEAN_template& PCUIF__Flags_template::mcs4() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mcs4 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_mcs4; -} - -BOOLEAN_template& PCUIF__Flags_template::mcs5() -{ -set_specific(); -return single_value->field_mcs5; -} - -const BOOLEAN_template& PCUIF__Flags_template::mcs5() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mcs5 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_mcs5; -} - -BOOLEAN_template& PCUIF__Flags_template::mcs6() -{ -set_specific(); -return single_value->field_mcs6; -} - -const BOOLEAN_template& PCUIF__Flags_template::mcs6() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mcs6 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_mcs6; -} - -BOOLEAN_template& PCUIF__Flags_template::mcs7() -{ -set_specific(); -return single_value->field_mcs7; -} - -const BOOLEAN_template& PCUIF__Flags_template::mcs7() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mcs7 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_mcs7; -} - -BOOLEAN_template& PCUIF__Flags_template::mcs8() -{ -set_specific(); -return single_value->field_mcs8; -} - -const BOOLEAN_template& PCUIF__Flags_template::mcs8() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mcs8 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_mcs8; -} - -BOOLEAN_template& PCUIF__Flags_template::mcs9() -{ -set_specific(); -return single_value->field_mcs9; -} - -const BOOLEAN_template& PCUIF__Flags_template::mcs9() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mcs9 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_mcs9; -} - -BITSTRING_template& PCUIF__Flags_template::spare2() -{ -set_specific(); -return single_value->field_spare2; -} - -const BITSTRING_template& PCUIF__Flags_template::spare2() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field spare2 of a non-specific template of type @PCUIF_Types.PCUIF_Flags."); -return single_value->field_spare2; -} - -int PCUIF__Flags_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Flags which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 17; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Flags containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Flags containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Flags containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Flags containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Flags containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_Flags."); - } - return 0; -} - -void PCUIF__Flags_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ bts_active := "); -single_value->field_bts__active.log(); -TTCN_Logger::log_event_str(", sysmo_direct_dsp := "); -single_value->field_sysmo__direct__dsp.log(); -TTCN_Logger::log_event_str(", spare := "); -single_value->field_spare.log(); -TTCN_Logger::log_event_str(", cs1 := "); -single_value->field_cs1.log(); -TTCN_Logger::log_event_str(", cs2 := "); -single_value->field_cs2.log(); -TTCN_Logger::log_event_str(", cs3 := "); -single_value->field_cs3.log(); -TTCN_Logger::log_event_str(", cs4 := "); -single_value->field_cs4.log(); -TTCN_Logger::log_event_str(", mcs1 := "); -single_value->field_mcs1.log(); -TTCN_Logger::log_event_str(", mcs2 := "); -single_value->field_mcs2.log(); -TTCN_Logger::log_event_str(", mcs3 := "); -single_value->field_mcs3.log(); -TTCN_Logger::log_event_str(", mcs4 := "); -single_value->field_mcs4.log(); -TTCN_Logger::log_event_str(", mcs5 := "); -single_value->field_mcs5.log(); -TTCN_Logger::log_event_str(", mcs6 := "); -single_value->field_mcs6.log(); -TTCN_Logger::log_event_str(", mcs7 := "); -single_value->field_mcs7.log(); -TTCN_Logger::log_event_str(", mcs8 := "); -single_value->field_mcs8.log(); -TTCN_Logger::log_event_str(", mcs9 := "); -single_value->field_mcs9.log(); -TTCN_Logger::log_event_str(", spare2 := "); -single_value->field_spare2.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__Flags_template::log_match(const PCUIF__Flags& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_bts__active.match(match_value.bts__active(), legacy)){ -TTCN_Logger::log_logmatch_info(".bts_active"); -single_value->field_bts__active.log_match(match_value.bts__active(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_sysmo__direct__dsp.match(match_value.sysmo__direct__dsp(), legacy)){ -TTCN_Logger::log_logmatch_info(".sysmo_direct_dsp"); -single_value->field_sysmo__direct__dsp.log_match(match_value.sysmo__direct__dsp(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_spare.match(match_value.spare(), legacy)){ -TTCN_Logger::log_logmatch_info(".spare"); -single_value->field_spare.log_match(match_value.spare(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_cs1.match(match_value.cs1(), legacy)){ -TTCN_Logger::log_logmatch_info(".cs1"); -single_value->field_cs1.log_match(match_value.cs1(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_cs2.match(match_value.cs2(), legacy)){ -TTCN_Logger::log_logmatch_info(".cs2"); -single_value->field_cs2.log_match(match_value.cs2(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_cs3.match(match_value.cs3(), legacy)){ -TTCN_Logger::log_logmatch_info(".cs3"); -single_value->field_cs3.log_match(match_value.cs3(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_cs4.match(match_value.cs4(), legacy)){ -TTCN_Logger::log_logmatch_info(".cs4"); -single_value->field_cs4.log_match(match_value.cs4(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mcs1.match(match_value.mcs1(), legacy)){ -TTCN_Logger::log_logmatch_info(".mcs1"); -single_value->field_mcs1.log_match(match_value.mcs1(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mcs2.match(match_value.mcs2(), legacy)){ -TTCN_Logger::log_logmatch_info(".mcs2"); -single_value->field_mcs2.log_match(match_value.mcs2(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mcs3.match(match_value.mcs3(), legacy)){ -TTCN_Logger::log_logmatch_info(".mcs3"); -single_value->field_mcs3.log_match(match_value.mcs3(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mcs4.match(match_value.mcs4(), legacy)){ -TTCN_Logger::log_logmatch_info(".mcs4"); -single_value->field_mcs4.log_match(match_value.mcs4(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mcs5.match(match_value.mcs5(), legacy)){ -TTCN_Logger::log_logmatch_info(".mcs5"); -single_value->field_mcs5.log_match(match_value.mcs5(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mcs6.match(match_value.mcs6(), legacy)){ -TTCN_Logger::log_logmatch_info(".mcs6"); -single_value->field_mcs6.log_match(match_value.mcs6(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mcs7.match(match_value.mcs7(), legacy)){ -TTCN_Logger::log_logmatch_info(".mcs7"); -single_value->field_mcs7.log_match(match_value.mcs7(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mcs8.match(match_value.mcs8(), legacy)){ -TTCN_Logger::log_logmatch_info(".mcs8"); -single_value->field_mcs8.log_match(match_value.mcs8(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mcs9.match(match_value.mcs9(), legacy)){ -TTCN_Logger::log_logmatch_info(".mcs9"); -single_value->field_mcs9.log_match(match_value.mcs9(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_spare2.match(match_value.spare2(), legacy)){ -TTCN_Logger::log_logmatch_info(".spare2"); -single_value->field_spare2.log_match(match_value.spare2(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ bts_active := "); -single_value->field_bts__active.log_match(match_value.bts__active(), legacy); -TTCN_Logger::log_event_str(", sysmo_direct_dsp := "); -single_value->field_sysmo__direct__dsp.log_match(match_value.sysmo__direct__dsp(), legacy); -TTCN_Logger::log_event_str(", spare := "); -single_value->field_spare.log_match(match_value.spare(), legacy); -TTCN_Logger::log_event_str(", cs1 := "); -single_value->field_cs1.log_match(match_value.cs1(), legacy); -TTCN_Logger::log_event_str(", cs2 := "); -single_value->field_cs2.log_match(match_value.cs2(), legacy); -TTCN_Logger::log_event_str(", cs3 := "); -single_value->field_cs3.log_match(match_value.cs3(), legacy); -TTCN_Logger::log_event_str(", cs4 := "); -single_value->field_cs4.log_match(match_value.cs4(), legacy); -TTCN_Logger::log_event_str(", mcs1 := "); -single_value->field_mcs1.log_match(match_value.mcs1(), legacy); -TTCN_Logger::log_event_str(", mcs2 := "); -single_value->field_mcs2.log_match(match_value.mcs2(), legacy); -TTCN_Logger::log_event_str(", mcs3 := "); -single_value->field_mcs3.log_match(match_value.mcs3(), legacy); -TTCN_Logger::log_event_str(", mcs4 := "); -single_value->field_mcs4.log_match(match_value.mcs4(), legacy); -TTCN_Logger::log_event_str(", mcs5 := "); -single_value->field_mcs5.log_match(match_value.mcs5(), legacy); -TTCN_Logger::log_event_str(", mcs6 := "); -single_value->field_mcs6.log_match(match_value.mcs6(), legacy); -TTCN_Logger::log_event_str(", mcs7 := "); -single_value->field_mcs7.log_match(match_value.mcs7(), legacy); -TTCN_Logger::log_event_str(", mcs8 := "); -single_value->field_mcs8.log_match(match_value.mcs8(), legacy); -TTCN_Logger::log_event_str(", mcs9 := "); -single_value->field_mcs9.log_match(match_value.mcs9(), legacy); -TTCN_Logger::log_event_str(", spare2 := "); -single_value->field_spare2.log_match(match_value.spare2(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__Flags_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_bts__active.encode_text(text_buf); -single_value->field_sysmo__direct__dsp.encode_text(text_buf); -single_value->field_spare.encode_text(text_buf); -single_value->field_cs1.encode_text(text_buf); -single_value->field_cs2.encode_text(text_buf); -single_value->field_cs3.encode_text(text_buf); -single_value->field_cs4.encode_text(text_buf); -single_value->field_mcs1.encode_text(text_buf); -single_value->field_mcs2.encode_text(text_buf); -single_value->field_mcs3.encode_text(text_buf); -single_value->field_mcs4.encode_text(text_buf); -single_value->field_mcs5.encode_text(text_buf); -single_value->field_mcs6.encode_text(text_buf); -single_value->field_mcs7.encode_text(text_buf); -single_value->field_mcs8.encode_text(text_buf); -single_value->field_mcs9.encode_text(text_buf); -single_value->field_spare2.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_Flags."); -} -} - -void PCUIF__Flags_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_bts__active.decode_text(text_buf); -single_value->field_sysmo__direct__dsp.decode_text(text_buf); -single_value->field_spare.decode_text(text_buf); -single_value->field_cs1.decode_text(text_buf); -single_value->field_cs2.decode_text(text_buf); -single_value->field_cs3.decode_text(text_buf); -single_value->field_cs4.decode_text(text_buf); -single_value->field_mcs1.decode_text(text_buf); -single_value->field_mcs2.decode_text(text_buf); -single_value->field_mcs3.decode_text(text_buf); -single_value->field_mcs4.decode_text(text_buf); -single_value->field_mcs5.decode_text(text_buf); -single_value->field_mcs6.decode_text(text_buf); -single_value->field_mcs7.decode_text(text_buf); -single_value->field_mcs8.decode_text(text_buf); -single_value->field_mcs9.decode_text(text_buf); -single_value->field_spare2.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__Flags_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_Flags."); -} -} - -void PCUIF__Flags_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__Flags_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) bts__active().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) sysmo__direct__dsp().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) spare().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) cs1().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) cs2().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) cs3().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) cs4().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) mcs1().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) mcs2().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) mcs3().set_param(*param.get_elem(9)); - if (param.get_size()>10 && param.get_elem(10)->get_type()!=Module_Param::MP_NotUsed) mcs4().set_param(*param.get_elem(10)); - if (param.get_size()>11 && param.get_elem(11)->get_type()!=Module_Param::MP_NotUsed) mcs5().set_param(*param.get_elem(11)); - if (param.get_size()>12 && param.get_elem(12)->get_type()!=Module_Param::MP_NotUsed) mcs6().set_param(*param.get_elem(12)); - if (param.get_size()>13 && param.get_elem(13)->get_type()!=Module_Param::MP_NotUsed) mcs7().set_param(*param.get_elem(13)); - if (param.get_size()>14 && param.get_elem(14)->get_type()!=Module_Param::MP_NotUsed) mcs8().set_param(*param.get_elem(14)); - if (param.get_size()>15 && param.get_elem(15)->get_type()!=Module_Param::MP_NotUsed) mcs9().set_param(*param.get_elem(15)); - if (param.get_size()>16 && param.get_elem(16)->get_type()!=Module_Param::MP_NotUsed) spare2().set_param(*param.get_elem(16)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "bts_active")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - bts__active().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "sysmo_direct_dsp")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sysmo__direct__dsp().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cs1")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cs1().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cs2")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cs2().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cs3")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cs3().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cs4")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cs4().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs1")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs1().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs2")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs2().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs3")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs3().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs4")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs4().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs5")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs5().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs6")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs6().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs7")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs7().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs8")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs8().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcs9")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcs9().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare2")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare2().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_Flags: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_Flags"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__Flags_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_bts__active.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_sysmo__direct__dsp.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_spare.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_cs1.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_cs2.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_cs3.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_cs4.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_mcs1.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_mcs2.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_mcs3.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_mcs4.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_mcs5.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_mcs6.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_mcs7.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_mcs8.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_mcs9.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -single_value->field_spare2.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_Flags"); -} - -boolean PCUIF__Flags_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__Flags_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_TextType."); -return enum_value > other_value; -} - -boolean PCUIF__TextType::operator>(const PCUIF__TextType& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_TextType."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_TextType."); -return enum_value > other_value.enum_value; -} - -const char *PCUIF__TextType::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case PCU__VERSION: return "PCU_VERSION"; -case PCU__OML__ALERT: return "PCU_OML_ALERT"; -default: return ""; -} -} - -PCUIF__TextType::enum_type PCUIF__TextType::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "PCU_VERSION")) return PCU__VERSION; -else if (!strcmp(str_par, "PCU_OML_ALERT")) return PCU__OML__ALERT; -else return UNKNOWN_VALUE; -} - -boolean PCUIF__TextType::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -return TRUE; -default: -return FALSE; -} -} - -int PCUIF__TextType::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @PCUIF_Types.PCUIF_TextType.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int PCUIF__TextType::enum2int(const PCUIF__TextType& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @PCUIF_Types.PCUIF_TextType.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void PCUIF__TextType::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @PCUIF_Types.PCUIF_TextType.", int_val); -enum_value = (enum_type)int_val; -} - -PCUIF__TextType::operator PCUIF__TextType::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @PCUIF_Types.PCUIF_TextType."); -return enum_value; -} - -void PCUIF__TextType::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void PCUIF__TextType::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@PCUIF_Types.PCUIF_TextType"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @PCUIF_Types.PCUIF_TextType."); - } -} - -void PCUIF__TextType::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @PCUIF_Types.PCUIF_TextType."); -text_buf.push_int(enum_value); -} - -void PCUIF__TextType::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @PCUIF_Types.PCUIF_TextType.", enum_value); -} - -void PCUIF__TextType::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__TextType::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__TextType::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 2, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int PCUIF__TextType::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 2); -} - -void PCUIF__TextType_template::copy_template(const PCUIF__TextType_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__TextType_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_TextType."); -} -} - -PCUIF__TextType_template::PCUIF__TextType_template() -{ -} - -PCUIF__TextType_template::PCUIF__TextType_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__TextType_template::PCUIF__TextType_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!PCUIF__TextType::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @PCUIF_Types.PCUIF_TextType with unknown numeric value %d.", other_value); -single_value = (PCUIF__TextType::enum_type)other_value; -} - -PCUIF__TextType_template::PCUIF__TextType_template(PCUIF__TextType::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -PCUIF__TextType_template::PCUIF__TextType_template(const PCUIF__TextType& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == PCUIF__TextType::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @PCUIF_Types.PCUIF_TextType."); -single_value = other_value.enum_value; -} - -PCUIF__TextType_template::PCUIF__TextType_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__TextType::enum_type)(const PCUIF__TextType&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @PCUIF_Types.PCUIF_TextType from an unbound optional field."); -} -} - -PCUIF__TextType_template::PCUIF__TextType_template(const PCUIF__TextType_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -PCUIF__TextType_template::~PCUIF__TextType_template() -{ -clean_up(); -} - -boolean PCUIF__TextType_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean PCUIF__TextType_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != PCUIF__TextType::UNBOUND_VALUE; -} - -void PCUIF__TextType_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__TextType_template& PCUIF__TextType_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__TextType_template& PCUIF__TextType_template::operator=(int other_value) -{ -if (!PCUIF__TextType::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @PCUIF_Types.PCUIF_TextType.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__TextType::enum_type)other_value; -return *this; -} - -PCUIF__TextType_template& PCUIF__TextType_template::operator=(PCUIF__TextType::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -PCUIF__TextType_template& PCUIF__TextType_template::operator=(const PCUIF__TextType& other_value) -{ -if (other_value.enum_value == PCUIF__TextType::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @PCUIF_Types.PCUIF_TextType to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -PCUIF__TextType_template& PCUIF__TextType_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__TextType::enum_type)(const PCUIF__TextType&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @PCUIF_Types.PCUIF_TextType."); -} -return *this; -} - -PCUIF__TextType_template& PCUIF__TextType_template::operator=(const PCUIF__TextType_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__TextType_template::match(PCUIF__TextType::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_TextType."); -} -return FALSE; -} - -boolean PCUIF__TextType_template::match(const PCUIF__TextType& other_value, boolean) const -{ -if (other_value.enum_value == PCUIF__TextType::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @PCUIF_Types.PCUIF_TextType with an unbound value."); -return match(other_value.enum_value); -} - -PCUIF__TextType::enum_type PCUIF__TextType_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @PCUIF_Types.PCUIF_TextType."); -return single_value; -} - -void PCUIF__TextType_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @PCUIF_Types.PCUIF_TextType."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__TextType_template[list_length]; -} - -PCUIF__TextType_template& PCUIF__TextType_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @PCUIF_Types.PCUIF_TextType."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @PCUIF_Types.PCUIF_TextType."); -return value_list.list_value[list_index]; -} - -void PCUIF__TextType_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(PCUIF__TextType::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__TextType_template::log_match(const PCUIF__TextType& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void PCUIF__TextType_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_TextType."); -} -} - -void PCUIF__TextType_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (PCUIF__TextType::enum_type)text_buf.pull_int().get_val(); -if (!PCUIF__TextType::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @PCUIF_Types.PCUIF_TextType.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__TextType_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @PCUIF_Types.PCUIF_TextType."); -} -} - -boolean PCUIF__TextType_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__TextType_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__TextType_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - PCUIF__TextType::enum_type enum_val = PCUIF__TextType::str_to_enum(m_p->get_enumerated()); - if (!PCUIF__TextType::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @PCUIF_Types.PCUIF_TextType."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@PCUIF_Types.PCUIF_TextType"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__TextType_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_TextType"); -} - -PCUIF__txt__ind::PCUIF__txt__ind() -{ -} - -PCUIF__txt__ind::PCUIF__txt__ind(const PCUIF__TextType& par_txt__type, - const CHARSTRING& par_text) - : field_txt__type(par_txt__type), - field_text(par_text) -{ -} - -PCUIF__txt__ind::PCUIF__txt__ind(const PCUIF__txt__ind& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @PCUIF_Types.PCUIF_txt_ind."); -if (other_value.txt__type().is_bound()) field_txt__type = other_value.txt__type(); -else field_txt__type.clean_up(); -if (other_value.text().is_bound()) field_text = other_value.text(); -else field_text.clean_up(); -} - -void PCUIF__txt__ind::clean_up() -{ -field_txt__type.clean_up(); -field_text.clean_up(); -} - -const TTCN_Typedescriptor_t* PCUIF__txt__ind::get_descriptor() const { return &PCUIF__txt__ind_descr_; } -PCUIF__txt__ind& PCUIF__txt__ind::operator=(const PCUIF__txt__ind& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @PCUIF_Types.PCUIF_txt_ind."); - if (other_value.txt__type().is_bound()) field_txt__type = other_value.txt__type(); - else field_txt__type.clean_up(); - if (other_value.text().is_bound()) field_text = other_value.text(); - else field_text.clean_up(); -} -return *this; -} - -boolean PCUIF__txt__ind::operator==(const PCUIF__txt__ind& other_value) const -{ -return field_txt__type==other_value.field_txt__type - && field_text==other_value.field_text; -} - -boolean PCUIF__txt__ind::is_bound() const -{ -if(field_txt__type.is_bound()) return TRUE; -if(field_text.is_bound()) return TRUE; -return FALSE; -} -boolean PCUIF__txt__ind::is_value() const -{ -if(!field_txt__type.is_value()) return FALSE; -if(!field_text.is_value()) return FALSE; -return TRUE; -} -void PCUIF__txt__ind::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ txt_type := "); -field_txt__type.log(); -TTCN_Logger::log_event_str(", text := "); -field_text.log(); -TTCN_Logger::log_event_str(" }"); -} - -void PCUIF__txt__ind::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (20 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) txt__type().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) text().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "txt_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - txt__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "text")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - text().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_txt_ind: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_txt_ind"); - } -} - -void PCUIF__txt__ind::set_implicit_omit() -{ -if (txt__type().is_bound()) txt__type().set_implicit_omit(); -if (text().is_bound()) text().set_implicit_omit(); -} - -void PCUIF__txt__ind::encode_text(Text_Buf& text_buf) const -{ -field_txt__type.encode_text(text_buf); -field_text.encode_text(text_buf); -} - -void PCUIF__txt__ind::decode_text(Text_Buf& text_buf) -{ -field_txt__type.decode_text(text_buf); -field_text.decode_text(text_buf); -} - -void PCUIF__txt__ind::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__txt__ind::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__txt__ind::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__txt__ind_txt__type_descr_.raw->forceomit); - decoded_field_length = field_txt__type.RAW_decode(PCUIF__txt__ind_txt__type_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__txt__ind_text_descr_.raw->forceomit); - decoded_field_length = field_text.RAW_decode(PCUIF__txt__ind_text_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__txt__ind::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 2; - myleaf.body.node.nodes = init_nodes_of_enc_tree(2); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__txt__ind_txt__type_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__txt__ind_text_descr_.raw); - encoded_length += field_txt__type.RAW_encode(PCUIF__txt__ind_txt__type_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_text.RAW_encode(PCUIF__txt__ind_text_descr_, *myleaf.body.node.nodes[1]); - return myleaf.length = encoded_length; -} - -struct PCUIF__txt__ind_template::single_value_struct { -PCUIF__TextType_template field_txt__type; -CHARSTRING_template field_text; -}; - -void PCUIF__txt__ind_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_txt__type = ANY_VALUE; -single_value->field_text = ANY_VALUE; -} -} -} - -void PCUIF__txt__ind_template::copy_value(const PCUIF__txt__ind& other_value) -{ -single_value = new single_value_struct; -if (other_value.txt__type().is_bound()) { - single_value->field_txt__type = other_value.txt__type(); -} else { - single_value->field_txt__type.clean_up(); -} -if (other_value.text().is_bound()) { - single_value->field_text = other_value.text(); -} else { - single_value->field_text.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__txt__ind_template::copy_template(const PCUIF__txt__ind_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.txt__type().get_selection()) { -single_value->field_txt__type = other_value.txt__type(); -} else { -single_value->field_txt__type.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.text().get_selection()) { -single_value->field_text = other_value.text(); -} else { -single_value->field_text.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__txt__ind_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_txt_ind."); -break; -} -set_selection(other_value); -} - -PCUIF__txt__ind_template::PCUIF__txt__ind_template() -{ -} - -PCUIF__txt__ind_template::PCUIF__txt__ind_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__txt__ind_template::PCUIF__txt__ind_template(const PCUIF__txt__ind& other_value) -{ -copy_value(other_value); -} - -PCUIF__txt__ind_template::PCUIF__txt__ind_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__txt__ind&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_txt_ind from an unbound optional field."); -} -} - -PCUIF__txt__ind_template::PCUIF__txt__ind_template(const PCUIF__txt__ind_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__txt__ind_template::~PCUIF__txt__ind_template() -{ -clean_up(); -} - -PCUIF__txt__ind_template& PCUIF__txt__ind_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__txt__ind_template& PCUIF__txt__ind_template::operator=(const PCUIF__txt__ind& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__txt__ind_template& PCUIF__txt__ind_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__txt__ind&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_txt_ind."); -} -return *this; -} - -PCUIF__txt__ind_template& PCUIF__txt__ind_template::operator=(const PCUIF__txt__ind_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__txt__ind_template::match(const PCUIF__txt__ind& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.txt__type().is_bound()) return FALSE; -if(!single_value->field_txt__type.match(other_value.txt__type(), legacy))return FALSE; -if(!other_value.text().is_bound()) return FALSE; -if(!single_value->field_text.match(other_value.text(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_txt_ind."); -} -return FALSE; -} - -boolean PCUIF__txt__ind_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_txt__type.is_bound()) return TRUE; -if (single_value->field_text.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__txt__ind_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_txt__type.is_value()) return FALSE; -if (!single_value->field_text.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__txt__ind_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__txt__ind PCUIF__txt__ind_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_txt_ind."); -PCUIF__txt__ind ret_val; -if (single_value->field_txt__type.is_bound()) { -ret_val.txt__type() = single_value->field_txt__type.valueof(); -} -if (single_value->field_text.is_bound()) { -ret_val.text() = single_value->field_text.valueof(); -} -return ret_val; -} - -void PCUIF__txt__ind_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_txt_ind."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__txt__ind_template[list_length]; -} - -PCUIF__txt__ind_template& PCUIF__txt__ind_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_txt_ind."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_txt_ind."); -return value_list.list_value[list_index]; -} - -PCUIF__TextType_template& PCUIF__txt__ind_template::txt__type() -{ -set_specific(); -return single_value->field_txt__type; -} - -const PCUIF__TextType_template& PCUIF__txt__ind_template::txt__type() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field txt_type of a non-specific template of type @PCUIF_Types.PCUIF_txt_ind."); -return single_value->field_txt__type; -} - -CHARSTRING_template& PCUIF__txt__ind_template::text() -{ -set_specific(); -return single_value->field_text; -} - -const CHARSTRING_template& PCUIF__txt__ind_template::text() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field text of a non-specific template of type @PCUIF_Types.PCUIF_txt_ind."); -return single_value->field_text; -} - -int PCUIF__txt__ind_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_txt_ind which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 2; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_txt_ind containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_txt_ind containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_txt_ind containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_txt_ind containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_txt_ind containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_txt_ind."); - } - return 0; -} - -void PCUIF__txt__ind_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ txt_type := "); -single_value->field_txt__type.log(); -TTCN_Logger::log_event_str(", text := "); -single_value->field_text.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__txt__ind_template::log_match(const PCUIF__txt__ind& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_txt__type.match(match_value.txt__type(), legacy)){ -TTCN_Logger::log_logmatch_info(".txt_type"); -single_value->field_txt__type.log_match(match_value.txt__type(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_text.match(match_value.text(), legacy)){ -TTCN_Logger::log_logmatch_info(".text"); -single_value->field_text.log_match(match_value.text(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ txt_type := "); -single_value->field_txt__type.log_match(match_value.txt__type(), legacy); -TTCN_Logger::log_event_str(", text := "); -single_value->field_text.log_match(match_value.text(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__txt__ind_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_txt__type.encode_text(text_buf); -single_value->field_text.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_txt_ind."); -} -} - -void PCUIF__txt__ind_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_txt__type.decode_text(text_buf); -single_value->field_text.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__txt__ind_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_txt_ind."); -} -} - -void PCUIF__txt__ind_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__txt__ind_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) txt__type().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) text().set_param(*param.get_elem(1)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "txt_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - txt__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "text")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - text().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_txt_ind: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_txt_ind"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__txt__ind_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_txt__type.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_txt_ind"); -single_value->field_text.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_txt_ind"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_txt_ind"); -} - -boolean PCUIF__txt__ind_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__txt__ind_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) sapi().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) len().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) data().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) fn().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) trx__nr().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) ts__nr().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) block__nr().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) rssi().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) ber10k().set_param(*param.get_elem(9)); - if (param.get_size()>10 && param.get_elem(10)->get_type()!=Module_Param::MP_NotUsed) ta__offs__qbits().set_param(*param.get_elem(10)); - if (param.get_size()>11 && param.get_elem(11)->get_type()!=Module_Param::MP_NotUsed) lqual__cb().set_param(*param.get_elem(11)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "sapi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sapi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "len")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - len().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "data")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - data().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "fn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - fn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "trx_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - trx__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ts_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ts__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "block_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - block__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rssi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rssi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ber10k")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ber10k().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ta_offs_qbits")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ta__offs__qbits().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lqual_cb")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lqual__cb().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_data: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_data"); - } -} - -void PCUIF__data::set_implicit_omit() -{ -if (sapi().is_bound()) sapi().set_implicit_omit(); -if (len().is_bound()) len().set_implicit_omit(); -if (data().is_bound()) data().set_implicit_omit(); -if (fn().is_bound()) fn().set_implicit_omit(); -if (arfcn().is_bound()) arfcn().set_implicit_omit(); -if (trx__nr().is_bound()) trx__nr().set_implicit_omit(); -if (ts__nr().is_bound()) ts__nr().set_implicit_omit(); -if (block__nr().is_bound()) block__nr().set_implicit_omit(); -if (rssi().is_bound()) rssi().set_implicit_omit(); -if (ber10k().is_bound()) ber10k().set_implicit_omit(); -if (ta__offs__qbits().is_bound()) ta__offs__qbits().set_implicit_omit(); -if (lqual__cb().is_bound()) lqual__cb().set_implicit_omit(); -} - -void PCUIF__data::encode_text(Text_Buf& text_buf) const -{ -field_sapi.encode_text(text_buf); -field_len.encode_text(text_buf); -field_data.encode_text(text_buf); -field_fn.encode_text(text_buf); -field_arfcn.encode_text(text_buf); -field_trx__nr.encode_text(text_buf); -field_ts__nr.encode_text(text_buf); -field_block__nr.encode_text(text_buf); -field_rssi.encode_text(text_buf); -field_ber10k.encode_text(text_buf); -field_ta__offs__qbits.encode_text(text_buf); -field_lqual__cb.encode_text(text_buf); -} - -void PCUIF__data::decode_text(Text_Buf& text_buf) -{ -field_sapi.decode_text(text_buf); -field_len.decode_text(text_buf); -field_data.decode_text(text_buf); -field_fn.decode_text(text_buf); -field_arfcn.decode_text(text_buf); -field_trx__nr.decode_text(text_buf); -field_ts__nr.decode_text(text_buf); -field_block__nr.decode_text(text_buf); -field_rssi.decode_text(text_buf); -field_ber10k.decode_text(text_buf); -field_ta__offs__qbits.decode_text(text_buf); -field_lqual__cb.decode_text(text_buf); -} - -void PCUIF__data::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__data::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__data::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__data_sapi_descr_.raw->forceomit); - decoded_field_length = field_sapi.RAW_decode(PCUIF__data_sapi_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__data_len_descr_.raw->forceomit); - decoded_field_length = field_len.RAW_decode(PCUIF__data_len_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__data_data_descr_.raw->forceomit); - decoded_field_length = field_data.RAW_decode(PCUIF__data_data_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, PCUIF__data_fn_descr_.raw->forceomit); - decoded_field_length = field_fn.RAW_decode(PCUIF__data_fn_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, PCUIF__data_arfcn_descr_.raw->forceomit); - decoded_field_length = field_arfcn.RAW_decode(PCUIF__data_arfcn_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_5_force_omit(5, force_omit, PCUIF__data_trx__nr_descr_.raw->forceomit); - decoded_field_length = field_trx__nr.RAW_decode(PCUIF__data_trx__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_5_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_6_force_omit(6, force_omit, PCUIF__data_ts__nr_descr_.raw->forceomit); - decoded_field_length = field_ts__nr.RAW_decode(PCUIF__data_ts__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_6_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_7_force_omit(7, force_omit, PCUIF__data_block__nr_descr_.raw->forceomit); - decoded_field_length = field_block__nr.RAW_decode(PCUIF__data_block__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_7_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_8_force_omit(8, force_omit, PCUIF__data_rssi_descr_.raw->forceomit); - decoded_field_length = field_rssi.RAW_decode(PCUIF__data_rssi_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_8_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_9_force_omit(9, force_omit, PCUIF__data_ber10k_descr_.raw->forceomit); - decoded_field_length = field_ber10k.RAW_decode(PCUIF__data_ber10k_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_9_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_10_force_omit(10, force_omit, PCUIF__data_ta__offs__qbits_descr_.raw->forceomit); - decoded_field_length = field_ta__offs__qbits.RAW_decode(PCUIF__data_ta__offs__qbits_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_10_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_11_force_omit(11, force_omit, PCUIF__data_lqual__cb_descr_.raw->forceomit); - decoded_field_length = field_lqual__cb.RAW_decode(PCUIF__data_lqual__cb_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_11_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__data::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 12; - myleaf.body.node.nodes = init_nodes_of_enc_tree(12); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__data_sapi_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__data_len_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, PCUIF__data_data_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, PCUIF__data_fn_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, PCUIF__data_arfcn_descr_.raw); - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 5, PCUIF__data_trx__nr_descr_.raw); - myleaf.body.node.nodes[6] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 6, PCUIF__data_ts__nr_descr_.raw); - myleaf.body.node.nodes[7] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 7, PCUIF__data_block__nr_descr_.raw); - myleaf.body.node.nodes[8] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 8, PCUIF__data_rssi_descr_.raw); - myleaf.body.node.nodes[9] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 9, PCUIF__data_ber10k_descr_.raw); - myleaf.body.node.nodes[10] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 10, PCUIF__data_ta__offs__qbits_descr_.raw); - myleaf.body.node.nodes[11] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 11, PCUIF__data_lqual__cb_descr_.raw); - encoded_length += field_sapi.RAW_encode(PCUIF__data_sapi_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_len.RAW_encode(PCUIF__data_len_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_data.RAW_encode(PCUIF__data_data_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_fn.RAW_encode(PCUIF__data_fn_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_arfcn.RAW_encode(PCUIF__data_arfcn_descr_, *myleaf.body.node.nodes[4]); - encoded_length += field_trx__nr.RAW_encode(PCUIF__data_trx__nr_descr_, *myleaf.body.node.nodes[5]); - encoded_length += field_ts__nr.RAW_encode(PCUIF__data_ts__nr_descr_, *myleaf.body.node.nodes[6]); - encoded_length += field_block__nr.RAW_encode(PCUIF__data_block__nr_descr_, *myleaf.body.node.nodes[7]); - encoded_length += field_rssi.RAW_encode(PCUIF__data_rssi_descr_, *myleaf.body.node.nodes[8]); - encoded_length += field_ber10k.RAW_encode(PCUIF__data_ber10k_descr_, *myleaf.body.node.nodes[9]); - encoded_length += field_ta__offs__qbits.RAW_encode(PCUIF__data_ta__offs__qbits_descr_, *myleaf.body.node.nodes[10]); - encoded_length += field_lqual__cb.RAW_encode(PCUIF__data_lqual__cb_descr_, *myleaf.body.node.nodes[11]); - return myleaf.length = encoded_length; -} - -struct PCUIF__data_template::single_value_struct { -PCUIF__Sapi_template field_sapi; -INTEGER_template field_len; -OCTETSTRING_template field_data; -INTEGER_template field_fn; -INTEGER_template field_arfcn; -INTEGER_template field_trx__nr; -INTEGER_template field_ts__nr; -INTEGER_template field_block__nr; -INTEGER_template field_rssi; -INTEGER_template field_ber10k; -INTEGER_template field_ta__offs__qbits; -INTEGER_template field_lqual__cb; -}; - -void PCUIF__data_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_sapi = ANY_VALUE; -single_value->field_len = ANY_VALUE; -single_value->field_data = ANY_VALUE; -single_value->field_fn = ANY_VALUE; -single_value->field_arfcn = ANY_VALUE; -single_value->field_trx__nr = ANY_VALUE; -single_value->field_ts__nr = ANY_VALUE; -single_value->field_block__nr = ANY_VALUE; -single_value->field_rssi = ANY_VALUE; -single_value->field_ber10k = ANY_VALUE; -single_value->field_ta__offs__qbits = ANY_VALUE; -single_value->field_lqual__cb = ANY_VALUE; -} -} -} - -void PCUIF__data_template::copy_value(const PCUIF__data& other_value) -{ -single_value = new single_value_struct; -if (other_value.sapi().is_bound()) { - single_value->field_sapi = other_value.sapi(); -} else { - single_value->field_sapi.clean_up(); -} -if (other_value.len().is_bound()) { - single_value->field_len = other_value.len(); -} else { - single_value->field_len.clean_up(); -} -if (other_value.data().is_bound()) { - single_value->field_data = other_value.data(); -} else { - single_value->field_data.clean_up(); -} -if (other_value.fn().is_bound()) { - single_value->field_fn = other_value.fn(); -} else { - single_value->field_fn.clean_up(); -} -if (other_value.arfcn().is_bound()) { - single_value->field_arfcn = other_value.arfcn(); -} else { - single_value->field_arfcn.clean_up(); -} -if (other_value.trx__nr().is_bound()) { - single_value->field_trx__nr = other_value.trx__nr(); -} else { - single_value->field_trx__nr.clean_up(); -} -if (other_value.ts__nr().is_bound()) { - single_value->field_ts__nr = other_value.ts__nr(); -} else { - single_value->field_ts__nr.clean_up(); -} -if (other_value.block__nr().is_bound()) { - single_value->field_block__nr = other_value.block__nr(); -} else { - single_value->field_block__nr.clean_up(); -} -if (other_value.rssi().is_bound()) { - single_value->field_rssi = other_value.rssi(); -} else { - single_value->field_rssi.clean_up(); -} -if (other_value.ber10k().is_bound()) { - single_value->field_ber10k = other_value.ber10k(); -} else { - single_value->field_ber10k.clean_up(); -} -if (other_value.ta__offs__qbits().is_bound()) { - single_value->field_ta__offs__qbits = other_value.ta__offs__qbits(); -} else { - single_value->field_ta__offs__qbits.clean_up(); -} -if (other_value.lqual__cb().is_bound()) { - single_value->field_lqual__cb = other_value.lqual__cb(); -} else { - single_value->field_lqual__cb.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__data_template::copy_template(const PCUIF__data_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.sapi().get_selection()) { -single_value->field_sapi = other_value.sapi(); -} else { -single_value->field_sapi.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.len().get_selection()) { -single_value->field_len = other_value.len(); -} else { -single_value->field_len.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.data().get_selection()) { -single_value->field_data = other_value.data(); -} else { -single_value->field_data.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.fn().get_selection()) { -single_value->field_fn = other_value.fn(); -} else { -single_value->field_fn.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.arfcn().get_selection()) { -single_value->field_arfcn = other_value.arfcn(); -} else { -single_value->field_arfcn.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.trx__nr().get_selection()) { -single_value->field_trx__nr = other_value.trx__nr(); -} else { -single_value->field_trx__nr.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ts__nr().get_selection()) { -single_value->field_ts__nr = other_value.ts__nr(); -} else { -single_value->field_ts__nr.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.block__nr().get_selection()) { -single_value->field_block__nr = other_value.block__nr(); -} else { -single_value->field_block__nr.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.rssi().get_selection()) { -single_value->field_rssi = other_value.rssi(); -} else { -single_value->field_rssi.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ber10k().get_selection()) { -single_value->field_ber10k = other_value.ber10k(); -} else { -single_value->field_ber10k.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ta__offs__qbits().get_selection()) { -single_value->field_ta__offs__qbits = other_value.ta__offs__qbits(); -} else { -single_value->field_ta__offs__qbits.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.lqual__cb().get_selection()) { -single_value->field_lqual__cb = other_value.lqual__cb(); -} else { -single_value->field_lqual__cb.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__data_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_data."); -break; -} -set_selection(other_value); -} - -PCUIF__data_template::PCUIF__data_template() -{ -} - -PCUIF__data_template::PCUIF__data_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__data_template::PCUIF__data_template(const PCUIF__data& other_value) -{ -copy_value(other_value); -} - -PCUIF__data_template::PCUIF__data_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__data&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_data from an unbound optional field."); -} -} - -PCUIF__data_template::PCUIF__data_template(const PCUIF__data_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__data_template::~PCUIF__data_template() -{ -clean_up(); -} - -PCUIF__data_template& PCUIF__data_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__data_template& PCUIF__data_template::operator=(const PCUIF__data& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__data_template& PCUIF__data_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__data&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_data."); -} -return *this; -} - -PCUIF__data_template& PCUIF__data_template::operator=(const PCUIF__data_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__data_template::match(const PCUIF__data& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.sapi().is_bound()) return FALSE; -if(!single_value->field_sapi.match(other_value.sapi(), legacy))return FALSE; -if(!other_value.len().is_bound()) return FALSE; -if(!single_value->field_len.match(other_value.len(), legacy))return FALSE; -if(!other_value.data().is_bound()) return FALSE; -if(!single_value->field_data.match(other_value.data(), legacy))return FALSE; -if(!other_value.fn().is_bound()) return FALSE; -if(!single_value->field_fn.match(other_value.fn(), legacy))return FALSE; -if(!other_value.arfcn().is_bound()) return FALSE; -if(!single_value->field_arfcn.match(other_value.arfcn(), legacy))return FALSE; -if(!other_value.trx__nr().is_bound()) return FALSE; -if(!single_value->field_trx__nr.match(other_value.trx__nr(), legacy))return FALSE; -if(!other_value.ts__nr().is_bound()) return FALSE; -if(!single_value->field_ts__nr.match(other_value.ts__nr(), legacy))return FALSE; -if(!other_value.block__nr().is_bound()) return FALSE; -if(!single_value->field_block__nr.match(other_value.block__nr(), legacy))return FALSE; -if(!other_value.rssi().is_bound()) return FALSE; -if(!single_value->field_rssi.match(other_value.rssi(), legacy))return FALSE; -if(!other_value.ber10k().is_bound()) return FALSE; -if(!single_value->field_ber10k.match(other_value.ber10k(), legacy))return FALSE; -if(!other_value.ta__offs__qbits().is_bound()) return FALSE; -if(!single_value->field_ta__offs__qbits.match(other_value.ta__offs__qbits(), legacy))return FALSE; -if(!other_value.lqual__cb().is_bound()) return FALSE; -if(!single_value->field_lqual__cb.match(other_value.lqual__cb(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_data."); -} -return FALSE; -} - -boolean PCUIF__data_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_sapi.is_bound()) return TRUE; -if (single_value->field_len.is_bound()) return TRUE; -if (single_value->field_data.is_bound()) return TRUE; -if (single_value->field_fn.is_bound()) return TRUE; -if (single_value->field_arfcn.is_bound()) return TRUE; -if (single_value->field_trx__nr.is_bound()) return TRUE; -if (single_value->field_ts__nr.is_bound()) return TRUE; -if (single_value->field_block__nr.is_bound()) return TRUE; -if (single_value->field_rssi.is_bound()) return TRUE; -if (single_value->field_ber10k.is_bound()) return TRUE; -if (single_value->field_ta__offs__qbits.is_bound()) return TRUE; -if (single_value->field_lqual__cb.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__data_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_sapi.is_value()) return FALSE; -if (!single_value->field_len.is_value()) return FALSE; -if (!single_value->field_data.is_value()) return FALSE; -if (!single_value->field_fn.is_value()) return FALSE; -if (!single_value->field_arfcn.is_value()) return FALSE; -if (!single_value->field_trx__nr.is_value()) return FALSE; -if (!single_value->field_ts__nr.is_value()) return FALSE; -if (!single_value->field_block__nr.is_value()) return FALSE; -if (!single_value->field_rssi.is_value()) return FALSE; -if (!single_value->field_ber10k.is_value()) return FALSE; -if (!single_value->field_ta__offs__qbits.is_value()) return FALSE; -if (!single_value->field_lqual__cb.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__data_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__data PCUIF__data_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_data."); -PCUIF__data ret_val; -if (single_value->field_sapi.is_bound()) { -ret_val.sapi() = single_value->field_sapi.valueof(); -} -if (single_value->field_len.is_bound()) { -ret_val.len() = single_value->field_len.valueof(); -} -if (single_value->field_data.is_bound()) { -ret_val.data() = single_value->field_data.valueof(); -} -if (single_value->field_fn.is_bound()) { -ret_val.fn() = single_value->field_fn.valueof(); -} -if (single_value->field_arfcn.is_bound()) { -ret_val.arfcn() = single_value->field_arfcn.valueof(); -} -if (single_value->field_trx__nr.is_bound()) { -ret_val.trx__nr() = single_value->field_trx__nr.valueof(); -} -if (single_value->field_ts__nr.is_bound()) { -ret_val.ts__nr() = single_value->field_ts__nr.valueof(); -} -if (single_value->field_block__nr.is_bound()) { -ret_val.block__nr() = single_value->field_block__nr.valueof(); -} -if (single_value->field_rssi.is_bound()) { -ret_val.rssi() = single_value->field_rssi.valueof(); -} -if (single_value->field_ber10k.is_bound()) { -ret_val.ber10k() = single_value->field_ber10k.valueof(); -} -if (single_value->field_ta__offs__qbits.is_bound()) { -ret_val.ta__offs__qbits() = single_value->field_ta__offs__qbits.valueof(); -} -if (single_value->field_lqual__cb.is_bound()) { -ret_val.lqual__cb() = single_value->field_lqual__cb.valueof(); -} -return ret_val; -} - -void PCUIF__data_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_data."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__data_template[list_length]; -} - -PCUIF__data_template& PCUIF__data_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_data."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_data."); -return value_list.list_value[list_index]; -} - -PCUIF__Sapi_template& PCUIF__data_template::sapi() -{ -set_specific(); -return single_value->field_sapi; -} - -const PCUIF__Sapi_template& PCUIF__data_template::sapi() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field sapi of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_sapi; -} - -INTEGER_template& PCUIF__data_template::len() -{ -set_specific(); -return single_value->field_len; -} - -const INTEGER_template& PCUIF__data_template::len() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field len of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_len; -} - -OCTETSTRING_template& PCUIF__data_template::data() -{ -set_specific(); -return single_value->field_data; -} - -const OCTETSTRING_template& PCUIF__data_template::data() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field data of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_data; -} - -INTEGER_template& PCUIF__data_template::fn() -{ -set_specific(); -return single_value->field_fn; -} - -const INTEGER_template& PCUIF__data_template::fn() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field fn of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_fn; -} - -INTEGER_template& PCUIF__data_template::arfcn() -{ -set_specific(); -return single_value->field_arfcn; -} - -const INTEGER_template& PCUIF__data_template::arfcn() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field arfcn of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_arfcn; -} - -INTEGER_template& PCUIF__data_template::trx__nr() -{ -set_specific(); -return single_value->field_trx__nr; -} - -const INTEGER_template& PCUIF__data_template::trx__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field trx_nr of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_trx__nr; -} - -INTEGER_template& PCUIF__data_template::ts__nr() -{ -set_specific(); -return single_value->field_ts__nr; -} - -const INTEGER_template& PCUIF__data_template::ts__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ts_nr of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_ts__nr; -} - -INTEGER_template& PCUIF__data_template::block__nr() -{ -set_specific(); -return single_value->field_block__nr; -} - -const INTEGER_template& PCUIF__data_template::block__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field block_nr of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_block__nr; -} - -INTEGER_template& PCUIF__data_template::rssi() -{ -set_specific(); -return single_value->field_rssi; -} - -const INTEGER_template& PCUIF__data_template::rssi() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field rssi of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_rssi; -} - -INTEGER_template& PCUIF__data_template::ber10k() -{ -set_specific(); -return single_value->field_ber10k; -} - -const INTEGER_template& PCUIF__data_template::ber10k() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ber10k of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_ber10k; -} - -INTEGER_template& PCUIF__data_template::ta__offs__qbits() -{ -set_specific(); -return single_value->field_ta__offs__qbits; -} - -const INTEGER_template& PCUIF__data_template::ta__offs__qbits() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ta_offs_qbits of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_ta__offs__qbits; -} - -INTEGER_template& PCUIF__data_template::lqual__cb() -{ -set_specific(); -return single_value->field_lqual__cb; -} - -const INTEGER_template& PCUIF__data_template::lqual__cb() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field lqual_cb of a non-specific template of type @PCUIF_Types.PCUIF_data."); -return single_value->field_lqual__cb; -} - -int PCUIF__data_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 12; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_data."); - } - return 0; -} - -void PCUIF__data_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ sapi := "); -single_value->field_sapi.log(); -TTCN_Logger::log_event_str(", len := "); -single_value->field_len.log(); -TTCN_Logger::log_event_str(", data := "); -single_value->field_data.log(); -TTCN_Logger::log_event_str(", fn := "); -single_value->field_fn.log(); -TTCN_Logger::log_event_str(", arfcn := "); -single_value->field_arfcn.log(); -TTCN_Logger::log_event_str(", trx_nr := "); -single_value->field_trx__nr.log(); -TTCN_Logger::log_event_str(", ts_nr := "); -single_value->field_ts__nr.log(); -TTCN_Logger::log_event_str(", block_nr := "); -single_value->field_block__nr.log(); -TTCN_Logger::log_event_str(", rssi := "); -single_value->field_rssi.log(); -TTCN_Logger::log_event_str(", ber10k := "); -single_value->field_ber10k.log(); -TTCN_Logger::log_event_str(", ta_offs_qbits := "); -single_value->field_ta__offs__qbits.log(); -TTCN_Logger::log_event_str(", lqual_cb := "); -single_value->field_lqual__cb.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__data_template::log_match(const PCUIF__data& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_sapi.match(match_value.sapi(), legacy)){ -TTCN_Logger::log_logmatch_info(".sapi"); -single_value->field_sapi.log_match(match_value.sapi(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_len.match(match_value.len(), legacy)){ -TTCN_Logger::log_logmatch_info(".len"); -single_value->field_len.log_match(match_value.len(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_data.match(match_value.data(), legacy)){ -TTCN_Logger::log_logmatch_info(".data"); -single_value->field_data.log_match(match_value.data(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_fn.match(match_value.fn(), legacy)){ -TTCN_Logger::log_logmatch_info(".fn"); -single_value->field_fn.log_match(match_value.fn(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_arfcn.match(match_value.arfcn(), legacy)){ -TTCN_Logger::log_logmatch_info(".arfcn"); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_trx__nr.match(match_value.trx__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".trx_nr"); -single_value->field_trx__nr.log_match(match_value.trx__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ts__nr.match(match_value.ts__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".ts_nr"); -single_value->field_ts__nr.log_match(match_value.ts__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_block__nr.match(match_value.block__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".block_nr"); -single_value->field_block__nr.log_match(match_value.block__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_rssi.match(match_value.rssi(), legacy)){ -TTCN_Logger::log_logmatch_info(".rssi"); -single_value->field_rssi.log_match(match_value.rssi(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ber10k.match(match_value.ber10k(), legacy)){ -TTCN_Logger::log_logmatch_info(".ber10k"); -single_value->field_ber10k.log_match(match_value.ber10k(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ta__offs__qbits.match(match_value.ta__offs__qbits(), legacy)){ -TTCN_Logger::log_logmatch_info(".ta_offs_qbits"); -single_value->field_ta__offs__qbits.log_match(match_value.ta__offs__qbits(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_lqual__cb.match(match_value.lqual__cb(), legacy)){ -TTCN_Logger::log_logmatch_info(".lqual_cb"); -single_value->field_lqual__cb.log_match(match_value.lqual__cb(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ sapi := "); -single_value->field_sapi.log_match(match_value.sapi(), legacy); -TTCN_Logger::log_event_str(", len := "); -single_value->field_len.log_match(match_value.len(), legacy); -TTCN_Logger::log_event_str(", data := "); -single_value->field_data.log_match(match_value.data(), legacy); -TTCN_Logger::log_event_str(", fn := "); -single_value->field_fn.log_match(match_value.fn(), legacy); -TTCN_Logger::log_event_str(", arfcn := "); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::log_event_str(", trx_nr := "); -single_value->field_trx__nr.log_match(match_value.trx__nr(), legacy); -TTCN_Logger::log_event_str(", ts_nr := "); -single_value->field_ts__nr.log_match(match_value.ts__nr(), legacy); -TTCN_Logger::log_event_str(", block_nr := "); -single_value->field_block__nr.log_match(match_value.block__nr(), legacy); -TTCN_Logger::log_event_str(", rssi := "); -single_value->field_rssi.log_match(match_value.rssi(), legacy); -TTCN_Logger::log_event_str(", ber10k := "); -single_value->field_ber10k.log_match(match_value.ber10k(), legacy); -TTCN_Logger::log_event_str(", ta_offs_qbits := "); -single_value->field_ta__offs__qbits.log_match(match_value.ta__offs__qbits(), legacy); -TTCN_Logger::log_event_str(", lqual_cb := "); -single_value->field_lqual__cb.log_match(match_value.lqual__cb(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__data_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_sapi.encode_text(text_buf); -single_value->field_len.encode_text(text_buf); -single_value->field_data.encode_text(text_buf); -single_value->field_fn.encode_text(text_buf); -single_value->field_arfcn.encode_text(text_buf); -single_value->field_trx__nr.encode_text(text_buf); -single_value->field_ts__nr.encode_text(text_buf); -single_value->field_block__nr.encode_text(text_buf); -single_value->field_rssi.encode_text(text_buf); -single_value->field_ber10k.encode_text(text_buf); -single_value->field_ta__offs__qbits.encode_text(text_buf); -single_value->field_lqual__cb.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_data."); -} -} - -void PCUIF__data_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_sapi.decode_text(text_buf); -single_value->field_len.decode_text(text_buf); -single_value->field_data.decode_text(text_buf); -single_value->field_fn.decode_text(text_buf); -single_value->field_arfcn.decode_text(text_buf); -single_value->field_trx__nr.decode_text(text_buf); -single_value->field_ts__nr.decode_text(text_buf); -single_value->field_block__nr.decode_text(text_buf); -single_value->field_rssi.decode_text(text_buf); -single_value->field_ber10k.decode_text(text_buf); -single_value->field_ta__offs__qbits.decode_text(text_buf); -single_value->field_lqual__cb.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__data_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_data."); -} -} - -void PCUIF__data_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__data_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) sapi().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) len().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) data().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) fn().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) trx__nr().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) ts__nr().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) block__nr().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) rssi().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) ber10k().set_param(*param.get_elem(9)); - if (param.get_size()>10 && param.get_elem(10)->get_type()!=Module_Param::MP_NotUsed) ta__offs__qbits().set_param(*param.get_elem(10)); - if (param.get_size()>11 && param.get_elem(11)->get_type()!=Module_Param::MP_NotUsed) lqual__cb().set_param(*param.get_elem(11)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "sapi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sapi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "len")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - len().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "data")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - data().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "fn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - fn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "trx_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - trx__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ts_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ts__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "block_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - block__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rssi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rssi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ber10k")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ber10k().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ta_offs_qbits")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ta__offs__qbits().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lqual_cb")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lqual__cb().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_data: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_data"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__data_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_sapi.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -single_value->field_len.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -single_value->field_data.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -single_value->field_fn.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -single_value->field_arfcn.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -single_value->field_trx__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -single_value->field_ts__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -single_value->field_block__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -single_value->field_rssi.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -single_value->field_ber10k.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -single_value->field_ta__offs__qbits.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -single_value->field_lqual__cb.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_data"); -} - -boolean PCUIF__data_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__data_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) sapi().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) tlli().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) fn().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) trx__nr().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) ts__nr().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) block__nr().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) rssi().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) ber10k().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) ta__offs__qbits().set_param(*param.get_elem(9)); - if (param.get_size()>10 && param.get_elem(10)->get_type()!=Module_Param::MP_NotUsed) lqual__cb().set_param(*param.get_elem(10)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "sapi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sapi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "tlli")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - tlli().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "fn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - fn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "trx_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - trx__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ts_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ts__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "block_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - block__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rssi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rssi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ber10k")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ber10k().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ta_offs_qbits")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ta__offs__qbits().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lqual_cb")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lqual__cb().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_data_cnf_dt: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_data_cnf_dt"); - } -} - -void PCUIF__data__cnf__dt::set_implicit_omit() -{ -if (sapi().is_bound()) sapi().set_implicit_omit(); -if (tlli().is_bound()) tlli().set_implicit_omit(); -if (fn().is_bound()) fn().set_implicit_omit(); -if (arfcn().is_bound()) arfcn().set_implicit_omit(); -if (trx__nr().is_bound()) trx__nr().set_implicit_omit(); -if (ts__nr().is_bound()) ts__nr().set_implicit_omit(); -if (block__nr().is_bound()) block__nr().set_implicit_omit(); -if (rssi().is_bound()) rssi().set_implicit_omit(); -if (ber10k().is_bound()) ber10k().set_implicit_omit(); -if (ta__offs__qbits().is_bound()) ta__offs__qbits().set_implicit_omit(); -if (lqual__cb().is_bound()) lqual__cb().set_implicit_omit(); -} - -void PCUIF__data__cnf__dt::encode_text(Text_Buf& text_buf) const -{ -field_sapi.encode_text(text_buf); -field_tlli.encode_text(text_buf); -field_fn.encode_text(text_buf); -field_arfcn.encode_text(text_buf); -field_trx__nr.encode_text(text_buf); -field_ts__nr.encode_text(text_buf); -field_block__nr.encode_text(text_buf); -field_rssi.encode_text(text_buf); -field_ber10k.encode_text(text_buf); -field_ta__offs__qbits.encode_text(text_buf); -field_lqual__cb.encode_text(text_buf); -} - -void PCUIF__data__cnf__dt::decode_text(Text_Buf& text_buf) -{ -field_sapi.decode_text(text_buf); -field_tlli.decode_text(text_buf); -field_fn.decode_text(text_buf); -field_arfcn.decode_text(text_buf); -field_trx__nr.decode_text(text_buf); -field_ts__nr.decode_text(text_buf); -field_block__nr.decode_text(text_buf); -field_rssi.decode_text(text_buf); -field_ber10k.decode_text(text_buf); -field_ta__offs__qbits.decode_text(text_buf); -field_lqual__cb.decode_text(text_buf); -} - -void PCUIF__data__cnf__dt::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__data__cnf__dt::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__data__cnf__dt::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__data__cnf__dt_sapi_descr_.raw->forceomit); - decoded_field_length = field_sapi.RAW_decode(PCUIF__data__cnf__dt_sapi_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__data__cnf__dt_tlli_descr_.raw->forceomit); - decoded_field_length = field_tlli.RAW_decode(PCUIF__data__cnf__dt_tlli_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__data__cnf__dt_fn_descr_.raw->forceomit); - decoded_field_length = field_fn.RAW_decode(PCUIF__data__cnf__dt_fn_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, PCUIF__data__cnf__dt_arfcn_descr_.raw->forceomit); - decoded_field_length = field_arfcn.RAW_decode(PCUIF__data__cnf__dt_arfcn_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, PCUIF__data__cnf__dt_trx__nr_descr_.raw->forceomit); - decoded_field_length = field_trx__nr.RAW_decode(PCUIF__data__cnf__dt_trx__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_5_force_omit(5, force_omit, PCUIF__data__cnf__dt_ts__nr_descr_.raw->forceomit); - decoded_field_length = field_ts__nr.RAW_decode(PCUIF__data__cnf__dt_ts__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_5_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_6_force_omit(6, force_omit, PCUIF__data__cnf__dt_block__nr_descr_.raw->forceomit); - decoded_field_length = field_block__nr.RAW_decode(PCUIF__data__cnf__dt_block__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_6_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_7_force_omit(7, force_omit, PCUIF__data__cnf__dt_rssi_descr_.raw->forceomit); - decoded_field_length = field_rssi.RAW_decode(PCUIF__data__cnf__dt_rssi_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_7_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_8_force_omit(8, force_omit, PCUIF__data__cnf__dt_ber10k_descr_.raw->forceomit); - decoded_field_length = field_ber10k.RAW_decode(PCUIF__data__cnf__dt_ber10k_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_8_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_9_force_omit(9, force_omit, PCUIF__data__cnf__dt_ta__offs__qbits_descr_.raw->forceomit); - decoded_field_length = field_ta__offs__qbits.RAW_decode(PCUIF__data__cnf__dt_ta__offs__qbits_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_9_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_10_force_omit(10, force_omit, PCUIF__data__cnf__dt_lqual__cb_descr_.raw->forceomit); - decoded_field_length = field_lqual__cb.RAW_decode(PCUIF__data__cnf__dt_lqual__cb_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_10_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__data__cnf__dt::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 11; - myleaf.body.node.nodes = init_nodes_of_enc_tree(11); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__data__cnf__dt_sapi_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__data__cnf__dt_tlli_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, PCUIF__data__cnf__dt_fn_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, PCUIF__data__cnf__dt_arfcn_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, PCUIF__data__cnf__dt_trx__nr_descr_.raw); - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 5, PCUIF__data__cnf__dt_ts__nr_descr_.raw); - myleaf.body.node.nodes[6] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 6, PCUIF__data__cnf__dt_block__nr_descr_.raw); - myleaf.body.node.nodes[7] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 7, PCUIF__data__cnf__dt_rssi_descr_.raw); - myleaf.body.node.nodes[8] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 8, PCUIF__data__cnf__dt_ber10k_descr_.raw); - myleaf.body.node.nodes[9] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 9, PCUIF__data__cnf__dt_ta__offs__qbits_descr_.raw); - myleaf.body.node.nodes[10] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 10, PCUIF__data__cnf__dt_lqual__cb_descr_.raw); - encoded_length += field_sapi.RAW_encode(PCUIF__data__cnf__dt_sapi_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_tlli.RAW_encode(PCUIF__data__cnf__dt_tlli_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_fn.RAW_encode(PCUIF__data__cnf__dt_fn_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_arfcn.RAW_encode(PCUIF__data__cnf__dt_arfcn_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_trx__nr.RAW_encode(PCUIF__data__cnf__dt_trx__nr_descr_, *myleaf.body.node.nodes[4]); - encoded_length += field_ts__nr.RAW_encode(PCUIF__data__cnf__dt_ts__nr_descr_, *myleaf.body.node.nodes[5]); - encoded_length += field_block__nr.RAW_encode(PCUIF__data__cnf__dt_block__nr_descr_, *myleaf.body.node.nodes[6]); - encoded_length += field_rssi.RAW_encode(PCUIF__data__cnf__dt_rssi_descr_, *myleaf.body.node.nodes[7]); - encoded_length += field_ber10k.RAW_encode(PCUIF__data__cnf__dt_ber10k_descr_, *myleaf.body.node.nodes[8]); - encoded_length += field_ta__offs__qbits.RAW_encode(PCUIF__data__cnf__dt_ta__offs__qbits_descr_, *myleaf.body.node.nodes[9]); - encoded_length += field_lqual__cb.RAW_encode(PCUIF__data__cnf__dt_lqual__cb_descr_, *myleaf.body.node.nodes[10]); - return myleaf.length = encoded_length; -} - -struct PCUIF__data__cnf__dt_template::single_value_struct { -PCUIF__Sapi_template field_sapi; -OCTETSTRING_template field_tlli; -INTEGER_template field_fn; -INTEGER_template field_arfcn; -INTEGER_template field_trx__nr; -INTEGER_template field_ts__nr; -INTEGER_template field_block__nr; -INTEGER_template field_rssi; -INTEGER_template field_ber10k; -INTEGER_template field_ta__offs__qbits; -INTEGER_template field_lqual__cb; -}; - -void PCUIF__data__cnf__dt_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_sapi = ANY_VALUE; -single_value->field_tlli = ANY_VALUE; -single_value->field_fn = ANY_VALUE; -single_value->field_arfcn = ANY_VALUE; -single_value->field_trx__nr = ANY_VALUE; -single_value->field_ts__nr = ANY_VALUE; -single_value->field_block__nr = ANY_VALUE; -single_value->field_rssi = ANY_VALUE; -single_value->field_ber10k = ANY_VALUE; -single_value->field_ta__offs__qbits = ANY_VALUE; -single_value->field_lqual__cb = ANY_VALUE; -} -} -} - -void PCUIF__data__cnf__dt_template::copy_value(const PCUIF__data__cnf__dt& other_value) -{ -single_value = new single_value_struct; -if (other_value.sapi().is_bound()) { - single_value->field_sapi = other_value.sapi(); -} else { - single_value->field_sapi.clean_up(); -} -if (other_value.tlli().is_bound()) { - single_value->field_tlli = other_value.tlli(); -} else { - single_value->field_tlli.clean_up(); -} -if (other_value.fn().is_bound()) { - single_value->field_fn = other_value.fn(); -} else { - single_value->field_fn.clean_up(); -} -if (other_value.arfcn().is_bound()) { - single_value->field_arfcn = other_value.arfcn(); -} else { - single_value->field_arfcn.clean_up(); -} -if (other_value.trx__nr().is_bound()) { - single_value->field_trx__nr = other_value.trx__nr(); -} else { - single_value->field_trx__nr.clean_up(); -} -if (other_value.ts__nr().is_bound()) { - single_value->field_ts__nr = other_value.ts__nr(); -} else { - single_value->field_ts__nr.clean_up(); -} -if (other_value.block__nr().is_bound()) { - single_value->field_block__nr = other_value.block__nr(); -} else { - single_value->field_block__nr.clean_up(); -} -if (other_value.rssi().is_bound()) { - single_value->field_rssi = other_value.rssi(); -} else { - single_value->field_rssi.clean_up(); -} -if (other_value.ber10k().is_bound()) { - single_value->field_ber10k = other_value.ber10k(); -} else { - single_value->field_ber10k.clean_up(); -} -if (other_value.ta__offs__qbits().is_bound()) { - single_value->field_ta__offs__qbits = other_value.ta__offs__qbits(); -} else { - single_value->field_ta__offs__qbits.clean_up(); -} -if (other_value.lqual__cb().is_bound()) { - single_value->field_lqual__cb = other_value.lqual__cb(); -} else { - single_value->field_lqual__cb.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__data__cnf__dt_template::copy_template(const PCUIF__data__cnf__dt_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.sapi().get_selection()) { -single_value->field_sapi = other_value.sapi(); -} else { -single_value->field_sapi.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.tlli().get_selection()) { -single_value->field_tlli = other_value.tlli(); -} else { -single_value->field_tlli.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.fn().get_selection()) { -single_value->field_fn = other_value.fn(); -} else { -single_value->field_fn.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.arfcn().get_selection()) { -single_value->field_arfcn = other_value.arfcn(); -} else { -single_value->field_arfcn.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.trx__nr().get_selection()) { -single_value->field_trx__nr = other_value.trx__nr(); -} else { -single_value->field_trx__nr.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ts__nr().get_selection()) { -single_value->field_ts__nr = other_value.ts__nr(); -} else { -single_value->field_ts__nr.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.block__nr().get_selection()) { -single_value->field_block__nr = other_value.block__nr(); -} else { -single_value->field_block__nr.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.rssi().get_selection()) { -single_value->field_rssi = other_value.rssi(); -} else { -single_value->field_rssi.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ber10k().get_selection()) { -single_value->field_ber10k = other_value.ber10k(); -} else { -single_value->field_ber10k.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ta__offs__qbits().get_selection()) { -single_value->field_ta__offs__qbits = other_value.ta__offs__qbits(); -} else { -single_value->field_ta__offs__qbits.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.lqual__cb().get_selection()) { -single_value->field_lqual__cb = other_value.lqual__cb(); -} else { -single_value->field_lqual__cb.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__data__cnf__dt_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -break; -} -set_selection(other_value); -} - -PCUIF__data__cnf__dt_template::PCUIF__data__cnf__dt_template() -{ -} - -PCUIF__data__cnf__dt_template::PCUIF__data__cnf__dt_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__data__cnf__dt_template::PCUIF__data__cnf__dt_template(const PCUIF__data__cnf__dt& other_value) -{ -copy_value(other_value); -} - -PCUIF__data__cnf__dt_template::PCUIF__data__cnf__dt_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__data__cnf__dt&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_data_cnf_dt from an unbound optional field."); -} -} - -PCUIF__data__cnf__dt_template::PCUIF__data__cnf__dt_template(const PCUIF__data__cnf__dt_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__data__cnf__dt_template::~PCUIF__data__cnf__dt_template() -{ -clean_up(); -} - -PCUIF__data__cnf__dt_template& PCUIF__data__cnf__dt_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__data__cnf__dt_template& PCUIF__data__cnf__dt_template::operator=(const PCUIF__data__cnf__dt& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__data__cnf__dt_template& PCUIF__data__cnf__dt_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__data__cnf__dt&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -} -return *this; -} - -PCUIF__data__cnf__dt_template& PCUIF__data__cnf__dt_template::operator=(const PCUIF__data__cnf__dt_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__data__cnf__dt_template::match(const PCUIF__data__cnf__dt& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.sapi().is_bound()) return FALSE; -if(!single_value->field_sapi.match(other_value.sapi(), legacy))return FALSE; -if(!other_value.tlli().is_bound()) return FALSE; -if(!single_value->field_tlli.match(other_value.tlli(), legacy))return FALSE; -if(!other_value.fn().is_bound()) return FALSE; -if(!single_value->field_fn.match(other_value.fn(), legacy))return FALSE; -if(!other_value.arfcn().is_bound()) return FALSE; -if(!single_value->field_arfcn.match(other_value.arfcn(), legacy))return FALSE; -if(!other_value.trx__nr().is_bound()) return FALSE; -if(!single_value->field_trx__nr.match(other_value.trx__nr(), legacy))return FALSE; -if(!other_value.ts__nr().is_bound()) return FALSE; -if(!single_value->field_ts__nr.match(other_value.ts__nr(), legacy))return FALSE; -if(!other_value.block__nr().is_bound()) return FALSE; -if(!single_value->field_block__nr.match(other_value.block__nr(), legacy))return FALSE; -if(!other_value.rssi().is_bound()) return FALSE; -if(!single_value->field_rssi.match(other_value.rssi(), legacy))return FALSE; -if(!other_value.ber10k().is_bound()) return FALSE; -if(!single_value->field_ber10k.match(other_value.ber10k(), legacy))return FALSE; -if(!other_value.ta__offs__qbits().is_bound()) return FALSE; -if(!single_value->field_ta__offs__qbits.match(other_value.ta__offs__qbits(), legacy))return FALSE; -if(!other_value.lqual__cb().is_bound()) return FALSE; -if(!single_value->field_lqual__cb.match(other_value.lqual__cb(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -} -return FALSE; -} - -boolean PCUIF__data__cnf__dt_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_sapi.is_bound()) return TRUE; -if (single_value->field_tlli.is_bound()) return TRUE; -if (single_value->field_fn.is_bound()) return TRUE; -if (single_value->field_arfcn.is_bound()) return TRUE; -if (single_value->field_trx__nr.is_bound()) return TRUE; -if (single_value->field_ts__nr.is_bound()) return TRUE; -if (single_value->field_block__nr.is_bound()) return TRUE; -if (single_value->field_rssi.is_bound()) return TRUE; -if (single_value->field_ber10k.is_bound()) return TRUE; -if (single_value->field_ta__offs__qbits.is_bound()) return TRUE; -if (single_value->field_lqual__cb.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__data__cnf__dt_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_sapi.is_value()) return FALSE; -if (!single_value->field_tlli.is_value()) return FALSE; -if (!single_value->field_fn.is_value()) return FALSE; -if (!single_value->field_arfcn.is_value()) return FALSE; -if (!single_value->field_trx__nr.is_value()) return FALSE; -if (!single_value->field_ts__nr.is_value()) return FALSE; -if (!single_value->field_block__nr.is_value()) return FALSE; -if (!single_value->field_rssi.is_value()) return FALSE; -if (!single_value->field_ber10k.is_value()) return FALSE; -if (!single_value->field_ta__offs__qbits.is_value()) return FALSE; -if (!single_value->field_lqual__cb.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__data__cnf__dt_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__data__cnf__dt PCUIF__data__cnf__dt_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -PCUIF__data__cnf__dt ret_val; -if (single_value->field_sapi.is_bound()) { -ret_val.sapi() = single_value->field_sapi.valueof(); -} -if (single_value->field_tlli.is_bound()) { -ret_val.tlli() = single_value->field_tlli.valueof(); -} -if (single_value->field_fn.is_bound()) { -ret_val.fn() = single_value->field_fn.valueof(); -} -if (single_value->field_arfcn.is_bound()) { -ret_val.arfcn() = single_value->field_arfcn.valueof(); -} -if (single_value->field_trx__nr.is_bound()) { -ret_val.trx__nr() = single_value->field_trx__nr.valueof(); -} -if (single_value->field_ts__nr.is_bound()) { -ret_val.ts__nr() = single_value->field_ts__nr.valueof(); -} -if (single_value->field_block__nr.is_bound()) { -ret_val.block__nr() = single_value->field_block__nr.valueof(); -} -if (single_value->field_rssi.is_bound()) { -ret_val.rssi() = single_value->field_rssi.valueof(); -} -if (single_value->field_ber10k.is_bound()) { -ret_val.ber10k() = single_value->field_ber10k.valueof(); -} -if (single_value->field_ta__offs__qbits.is_bound()) { -ret_val.ta__offs__qbits() = single_value->field_ta__offs__qbits.valueof(); -} -if (single_value->field_lqual__cb.is_bound()) { -ret_val.lqual__cb() = single_value->field_lqual__cb.valueof(); -} -return ret_val; -} - -void PCUIF__data__cnf__dt_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__data__cnf__dt_template[list_length]; -} - -PCUIF__data__cnf__dt_template& PCUIF__data__cnf__dt_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return value_list.list_value[list_index]; -} - -PCUIF__Sapi_template& PCUIF__data__cnf__dt_template::sapi() -{ -set_specific(); -return single_value->field_sapi; -} - -const PCUIF__Sapi_template& PCUIF__data__cnf__dt_template::sapi() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field sapi of a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return single_value->field_sapi; -} - -OCTETSTRING_template& PCUIF__data__cnf__dt_template::tlli() -{ -set_specific(); -return single_value->field_tlli; -} - -const OCTETSTRING_template& PCUIF__data__cnf__dt_template::tlli() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field tlli of a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return single_value->field_tlli; -} - -INTEGER_template& PCUIF__data__cnf__dt_template::fn() -{ -set_specific(); -return single_value->field_fn; -} - -const INTEGER_template& PCUIF__data__cnf__dt_template::fn() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field fn of a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return single_value->field_fn; -} - -INTEGER_template& PCUIF__data__cnf__dt_template::arfcn() -{ -set_specific(); -return single_value->field_arfcn; -} - -const INTEGER_template& PCUIF__data__cnf__dt_template::arfcn() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field arfcn of a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return single_value->field_arfcn; -} - -INTEGER_template& PCUIF__data__cnf__dt_template::trx__nr() -{ -set_specific(); -return single_value->field_trx__nr; -} - -const INTEGER_template& PCUIF__data__cnf__dt_template::trx__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field trx_nr of a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return single_value->field_trx__nr; -} - -INTEGER_template& PCUIF__data__cnf__dt_template::ts__nr() -{ -set_specific(); -return single_value->field_ts__nr; -} - -const INTEGER_template& PCUIF__data__cnf__dt_template::ts__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ts_nr of a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return single_value->field_ts__nr; -} - -INTEGER_template& PCUIF__data__cnf__dt_template::block__nr() -{ -set_specific(); -return single_value->field_block__nr; -} - -const INTEGER_template& PCUIF__data__cnf__dt_template::block__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field block_nr of a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return single_value->field_block__nr; -} - -INTEGER_template& PCUIF__data__cnf__dt_template::rssi() -{ -set_specific(); -return single_value->field_rssi; -} - -const INTEGER_template& PCUIF__data__cnf__dt_template::rssi() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field rssi of a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return single_value->field_rssi; -} - -INTEGER_template& PCUIF__data__cnf__dt_template::ber10k() -{ -set_specific(); -return single_value->field_ber10k; -} - -const INTEGER_template& PCUIF__data__cnf__dt_template::ber10k() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ber10k of a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return single_value->field_ber10k; -} - -INTEGER_template& PCUIF__data__cnf__dt_template::ta__offs__qbits() -{ -set_specific(); -return single_value->field_ta__offs__qbits; -} - -const INTEGER_template& PCUIF__data__cnf__dt_template::ta__offs__qbits() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ta_offs_qbits of a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return single_value->field_ta__offs__qbits; -} - -INTEGER_template& PCUIF__data__cnf__dt_template::lqual__cb() -{ -set_specific(); -return single_value->field_lqual__cb; -} - -const INTEGER_template& PCUIF__data__cnf__dt_template::lqual__cb() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field lqual_cb of a non-specific template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -return single_value->field_lqual__cb; -} - -int PCUIF__data__cnf__dt_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data_cnf_dt which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 11; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data_cnf_dt containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data_cnf_dt containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data_cnf_dt containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data_cnf_dt containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_data_cnf_dt containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_data_cnf_dt."); - } - return 0; -} - -void PCUIF__data__cnf__dt_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ sapi := "); -single_value->field_sapi.log(); -TTCN_Logger::log_event_str(", tlli := "); -single_value->field_tlli.log(); -TTCN_Logger::log_event_str(", fn := "); -single_value->field_fn.log(); -TTCN_Logger::log_event_str(", arfcn := "); -single_value->field_arfcn.log(); -TTCN_Logger::log_event_str(", trx_nr := "); -single_value->field_trx__nr.log(); -TTCN_Logger::log_event_str(", ts_nr := "); -single_value->field_ts__nr.log(); -TTCN_Logger::log_event_str(", block_nr := "); -single_value->field_block__nr.log(); -TTCN_Logger::log_event_str(", rssi := "); -single_value->field_rssi.log(); -TTCN_Logger::log_event_str(", ber10k := "); -single_value->field_ber10k.log(); -TTCN_Logger::log_event_str(", ta_offs_qbits := "); -single_value->field_ta__offs__qbits.log(); -TTCN_Logger::log_event_str(", lqual_cb := "); -single_value->field_lqual__cb.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__data__cnf__dt_template::log_match(const PCUIF__data__cnf__dt& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_sapi.match(match_value.sapi(), legacy)){ -TTCN_Logger::log_logmatch_info(".sapi"); -single_value->field_sapi.log_match(match_value.sapi(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_tlli.match(match_value.tlli(), legacy)){ -TTCN_Logger::log_logmatch_info(".tlli"); -single_value->field_tlli.log_match(match_value.tlli(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_fn.match(match_value.fn(), legacy)){ -TTCN_Logger::log_logmatch_info(".fn"); -single_value->field_fn.log_match(match_value.fn(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_arfcn.match(match_value.arfcn(), legacy)){ -TTCN_Logger::log_logmatch_info(".arfcn"); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_trx__nr.match(match_value.trx__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".trx_nr"); -single_value->field_trx__nr.log_match(match_value.trx__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ts__nr.match(match_value.ts__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".ts_nr"); -single_value->field_ts__nr.log_match(match_value.ts__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_block__nr.match(match_value.block__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".block_nr"); -single_value->field_block__nr.log_match(match_value.block__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_rssi.match(match_value.rssi(), legacy)){ -TTCN_Logger::log_logmatch_info(".rssi"); -single_value->field_rssi.log_match(match_value.rssi(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ber10k.match(match_value.ber10k(), legacy)){ -TTCN_Logger::log_logmatch_info(".ber10k"); -single_value->field_ber10k.log_match(match_value.ber10k(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ta__offs__qbits.match(match_value.ta__offs__qbits(), legacy)){ -TTCN_Logger::log_logmatch_info(".ta_offs_qbits"); -single_value->field_ta__offs__qbits.log_match(match_value.ta__offs__qbits(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_lqual__cb.match(match_value.lqual__cb(), legacy)){ -TTCN_Logger::log_logmatch_info(".lqual_cb"); -single_value->field_lqual__cb.log_match(match_value.lqual__cb(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ sapi := "); -single_value->field_sapi.log_match(match_value.sapi(), legacy); -TTCN_Logger::log_event_str(", tlli := "); -single_value->field_tlli.log_match(match_value.tlli(), legacy); -TTCN_Logger::log_event_str(", fn := "); -single_value->field_fn.log_match(match_value.fn(), legacy); -TTCN_Logger::log_event_str(", arfcn := "); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::log_event_str(", trx_nr := "); -single_value->field_trx__nr.log_match(match_value.trx__nr(), legacy); -TTCN_Logger::log_event_str(", ts_nr := "); -single_value->field_ts__nr.log_match(match_value.ts__nr(), legacy); -TTCN_Logger::log_event_str(", block_nr := "); -single_value->field_block__nr.log_match(match_value.block__nr(), legacy); -TTCN_Logger::log_event_str(", rssi := "); -single_value->field_rssi.log_match(match_value.rssi(), legacy); -TTCN_Logger::log_event_str(", ber10k := "); -single_value->field_ber10k.log_match(match_value.ber10k(), legacy); -TTCN_Logger::log_event_str(", ta_offs_qbits := "); -single_value->field_ta__offs__qbits.log_match(match_value.ta__offs__qbits(), legacy); -TTCN_Logger::log_event_str(", lqual_cb := "); -single_value->field_lqual__cb.log_match(match_value.lqual__cb(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__data__cnf__dt_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_sapi.encode_text(text_buf); -single_value->field_tlli.encode_text(text_buf); -single_value->field_fn.encode_text(text_buf); -single_value->field_arfcn.encode_text(text_buf); -single_value->field_trx__nr.encode_text(text_buf); -single_value->field_ts__nr.encode_text(text_buf); -single_value->field_block__nr.encode_text(text_buf); -single_value->field_rssi.encode_text(text_buf); -single_value->field_ber10k.encode_text(text_buf); -single_value->field_ta__offs__qbits.encode_text(text_buf); -single_value->field_lqual__cb.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -} -} - -void PCUIF__data__cnf__dt_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_sapi.decode_text(text_buf); -single_value->field_tlli.decode_text(text_buf); -single_value->field_fn.decode_text(text_buf); -single_value->field_arfcn.decode_text(text_buf); -single_value->field_trx__nr.decode_text(text_buf); -single_value->field_ts__nr.decode_text(text_buf); -single_value->field_block__nr.decode_text(text_buf); -single_value->field_rssi.decode_text(text_buf); -single_value->field_ber10k.decode_text(text_buf); -single_value->field_ta__offs__qbits.decode_text(text_buf); -single_value->field_lqual__cb.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__data__cnf__dt_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_data_cnf_dt."); -} -} - -void PCUIF__data__cnf__dt_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__data__cnf__dt_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) sapi().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) tlli().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) fn().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) trx__nr().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) ts__nr().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) block__nr().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) rssi().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) ber10k().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) ta__offs__qbits().set_param(*param.get_elem(9)); - if (param.get_size()>10 && param.get_elem(10)->get_type()!=Module_Param::MP_NotUsed) lqual__cb().set_param(*param.get_elem(10)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "sapi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sapi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "tlli")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - tlli().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "fn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - fn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "trx_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - trx__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ts_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ts__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "block_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - block__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rssi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rssi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ber10k")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ber10k().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ta_offs_qbits")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ta__offs__qbits().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lqual_cb")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lqual__cb().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_data_cnf_dt: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_data_cnf_dt"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__data__cnf__dt_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_sapi.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -single_value->field_tlli.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -single_value->field_fn.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -single_value->field_arfcn.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -single_value->field_trx__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -single_value->field_ts__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -single_value->field_block__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -single_value->field_rssi.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -single_value->field_ber10k.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -single_value->field_ta__offs__qbits.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -single_value->field_lqual__cb.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_data_cnf_dt"); -} - -boolean PCUIF__data__cnf__dt_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__data__cnf__dt_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) sapi().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) spare().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) fn().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) trx__nr().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) ts__nr().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) block__nr().set_param(*param.get_elem(6)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "sapi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sapi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "fn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - fn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "trx_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - trx__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ts_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ts__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "block_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - block__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_rts_req: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_rts_req"); - } -} - -void PCUIF__rts__req::set_implicit_omit() -{ -if (sapi().is_bound()) sapi().set_implicit_omit(); -if (spare().is_bound()) spare().set_implicit_omit(); -if (fn().is_bound()) fn().set_implicit_omit(); -if (arfcn().is_bound()) arfcn().set_implicit_omit(); -if (trx__nr().is_bound()) trx__nr().set_implicit_omit(); -if (ts__nr().is_bound()) ts__nr().set_implicit_omit(); -if (block__nr().is_bound()) block__nr().set_implicit_omit(); -} - -void PCUIF__rts__req::encode_text(Text_Buf& text_buf) const -{ -field_sapi.encode_text(text_buf); -field_spare.encode_text(text_buf); -field_fn.encode_text(text_buf); -field_arfcn.encode_text(text_buf); -field_trx__nr.encode_text(text_buf); -field_ts__nr.encode_text(text_buf); -field_block__nr.encode_text(text_buf); -} - -void PCUIF__rts__req::decode_text(Text_Buf& text_buf) -{ -field_sapi.decode_text(text_buf); -field_spare.decode_text(text_buf); -field_fn.decode_text(text_buf); -field_arfcn.decode_text(text_buf); -field_trx__nr.decode_text(text_buf); -field_ts__nr.decode_text(text_buf); -field_block__nr.decode_text(text_buf); -} - -void PCUIF__rts__req::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__rts__req::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__rts__req::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__rts__req_sapi_descr_.raw->forceomit); - decoded_field_length = field_sapi.RAW_decode(PCUIF__rts__req_sapi_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__rts__req_spare_descr_.raw->forceomit); - decoded_field_length = field_spare.RAW_decode(PCUIF__rts__req_spare_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__rts__req_fn_descr_.raw->forceomit); - decoded_field_length = field_fn.RAW_decode(PCUIF__rts__req_fn_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, PCUIF__rts__req_arfcn_descr_.raw->forceomit); - decoded_field_length = field_arfcn.RAW_decode(PCUIF__rts__req_arfcn_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, PCUIF__rts__req_trx__nr_descr_.raw->forceomit); - decoded_field_length = field_trx__nr.RAW_decode(PCUIF__rts__req_trx__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_5_force_omit(5, force_omit, PCUIF__rts__req_ts__nr_descr_.raw->forceomit); - decoded_field_length = field_ts__nr.RAW_decode(PCUIF__rts__req_ts__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_5_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_6_force_omit(6, force_omit, PCUIF__rts__req_block__nr_descr_.raw->forceomit); - decoded_field_length = field_block__nr.RAW_decode(PCUIF__rts__req_block__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_6_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__rts__req::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 7; - myleaf.body.node.nodes = init_nodes_of_enc_tree(7); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__rts__req_sapi_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__rts__req_spare_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, PCUIF__rts__req_fn_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, PCUIF__rts__req_arfcn_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, PCUIF__rts__req_trx__nr_descr_.raw); - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 5, PCUIF__rts__req_ts__nr_descr_.raw); - myleaf.body.node.nodes[6] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 6, PCUIF__rts__req_block__nr_descr_.raw); - encoded_length += field_sapi.RAW_encode(PCUIF__rts__req_sapi_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_spare.RAW_encode(PCUIF__rts__req_spare_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_fn.RAW_encode(PCUIF__rts__req_fn_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_arfcn.RAW_encode(PCUIF__rts__req_arfcn_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_trx__nr.RAW_encode(PCUIF__rts__req_trx__nr_descr_, *myleaf.body.node.nodes[4]); - encoded_length += field_ts__nr.RAW_encode(PCUIF__rts__req_ts__nr_descr_, *myleaf.body.node.nodes[5]); - encoded_length += field_block__nr.RAW_encode(PCUIF__rts__req_block__nr_descr_, *myleaf.body.node.nodes[6]); - return myleaf.length = encoded_length; -} - -struct PCUIF__rts__req_template::single_value_struct { -PCUIF__Sapi_template field_sapi; -OCTETSTRING_template field_spare; -INTEGER_template field_fn; -INTEGER_template field_arfcn; -INTEGER_template field_trx__nr; -INTEGER_template field_ts__nr; -INTEGER_template field_block__nr; -}; - -void PCUIF__rts__req_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_sapi = ANY_VALUE; -single_value->field_spare = ANY_VALUE; -single_value->field_fn = ANY_VALUE; -single_value->field_arfcn = ANY_VALUE; -single_value->field_trx__nr = ANY_VALUE; -single_value->field_ts__nr = ANY_VALUE; -single_value->field_block__nr = ANY_VALUE; -} -} -} - -void PCUIF__rts__req_template::copy_value(const PCUIF__rts__req& other_value) -{ -single_value = new single_value_struct; -if (other_value.sapi().is_bound()) { - single_value->field_sapi = other_value.sapi(); -} else { - single_value->field_sapi.clean_up(); -} -if (other_value.spare().is_bound()) { - single_value->field_spare = other_value.spare(); -} else { - single_value->field_spare.clean_up(); -} -if (other_value.fn().is_bound()) { - single_value->field_fn = other_value.fn(); -} else { - single_value->field_fn.clean_up(); -} -if (other_value.arfcn().is_bound()) { - single_value->field_arfcn = other_value.arfcn(); -} else { - single_value->field_arfcn.clean_up(); -} -if (other_value.trx__nr().is_bound()) { - single_value->field_trx__nr = other_value.trx__nr(); -} else { - single_value->field_trx__nr.clean_up(); -} -if (other_value.ts__nr().is_bound()) { - single_value->field_ts__nr = other_value.ts__nr(); -} else { - single_value->field_ts__nr.clean_up(); -} -if (other_value.block__nr().is_bound()) { - single_value->field_block__nr = other_value.block__nr(); -} else { - single_value->field_block__nr.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__rts__req_template::copy_template(const PCUIF__rts__req_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.sapi().get_selection()) { -single_value->field_sapi = other_value.sapi(); -} else { -single_value->field_sapi.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.spare().get_selection()) { -single_value->field_spare = other_value.spare(); -} else { -single_value->field_spare.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.fn().get_selection()) { -single_value->field_fn = other_value.fn(); -} else { -single_value->field_fn.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.arfcn().get_selection()) { -single_value->field_arfcn = other_value.arfcn(); -} else { -single_value->field_arfcn.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.trx__nr().get_selection()) { -single_value->field_trx__nr = other_value.trx__nr(); -} else { -single_value->field_trx__nr.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ts__nr().get_selection()) { -single_value->field_ts__nr = other_value.ts__nr(); -} else { -single_value->field_ts__nr.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.block__nr().get_selection()) { -single_value->field_block__nr = other_value.block__nr(); -} else { -single_value->field_block__nr.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__rts__req_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_rts_req."); -break; -} -set_selection(other_value); -} - -PCUIF__rts__req_template::PCUIF__rts__req_template() -{ -} - -PCUIF__rts__req_template::PCUIF__rts__req_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__rts__req_template::PCUIF__rts__req_template(const PCUIF__rts__req& other_value) -{ -copy_value(other_value); -} - -PCUIF__rts__req_template::PCUIF__rts__req_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__rts__req&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_rts_req from an unbound optional field."); -} -} - -PCUIF__rts__req_template::PCUIF__rts__req_template(const PCUIF__rts__req_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__rts__req_template::~PCUIF__rts__req_template() -{ -clean_up(); -} - -PCUIF__rts__req_template& PCUIF__rts__req_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__rts__req_template& PCUIF__rts__req_template::operator=(const PCUIF__rts__req& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__rts__req_template& PCUIF__rts__req_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__rts__req&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_rts_req."); -} -return *this; -} - -PCUIF__rts__req_template& PCUIF__rts__req_template::operator=(const PCUIF__rts__req_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__rts__req_template::match(const PCUIF__rts__req& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.sapi().is_bound()) return FALSE; -if(!single_value->field_sapi.match(other_value.sapi(), legacy))return FALSE; -if(!other_value.spare().is_bound()) return FALSE; -if(!single_value->field_spare.match(other_value.spare(), legacy))return FALSE; -if(!other_value.fn().is_bound()) return FALSE; -if(!single_value->field_fn.match(other_value.fn(), legacy))return FALSE; -if(!other_value.arfcn().is_bound()) return FALSE; -if(!single_value->field_arfcn.match(other_value.arfcn(), legacy))return FALSE; -if(!other_value.trx__nr().is_bound()) return FALSE; -if(!single_value->field_trx__nr.match(other_value.trx__nr(), legacy))return FALSE; -if(!other_value.ts__nr().is_bound()) return FALSE; -if(!single_value->field_ts__nr.match(other_value.ts__nr(), legacy))return FALSE; -if(!other_value.block__nr().is_bound()) return FALSE; -if(!single_value->field_block__nr.match(other_value.block__nr(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_rts_req."); -} -return FALSE; -} - -boolean PCUIF__rts__req_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_sapi.is_bound()) return TRUE; -if (single_value->field_spare.is_bound()) return TRUE; -if (single_value->field_fn.is_bound()) return TRUE; -if (single_value->field_arfcn.is_bound()) return TRUE; -if (single_value->field_trx__nr.is_bound()) return TRUE; -if (single_value->field_ts__nr.is_bound()) return TRUE; -if (single_value->field_block__nr.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__rts__req_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_sapi.is_value()) return FALSE; -if (!single_value->field_spare.is_value()) return FALSE; -if (!single_value->field_fn.is_value()) return FALSE; -if (!single_value->field_arfcn.is_value()) return FALSE; -if (!single_value->field_trx__nr.is_value()) return FALSE; -if (!single_value->field_ts__nr.is_value()) return FALSE; -if (!single_value->field_block__nr.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__rts__req_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__rts__req PCUIF__rts__req_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_rts_req."); -PCUIF__rts__req ret_val; -if (single_value->field_sapi.is_bound()) { -ret_val.sapi() = single_value->field_sapi.valueof(); -} -if (single_value->field_spare.is_bound()) { -ret_val.spare() = single_value->field_spare.valueof(); -} -if (single_value->field_fn.is_bound()) { -ret_val.fn() = single_value->field_fn.valueof(); -} -if (single_value->field_arfcn.is_bound()) { -ret_val.arfcn() = single_value->field_arfcn.valueof(); -} -if (single_value->field_trx__nr.is_bound()) { -ret_val.trx__nr() = single_value->field_trx__nr.valueof(); -} -if (single_value->field_ts__nr.is_bound()) { -ret_val.ts__nr() = single_value->field_ts__nr.valueof(); -} -if (single_value->field_block__nr.is_bound()) { -ret_val.block__nr() = single_value->field_block__nr.valueof(); -} -return ret_val; -} - -void PCUIF__rts__req_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_rts_req."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__rts__req_template[list_length]; -} - -PCUIF__rts__req_template& PCUIF__rts__req_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_rts_req."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_rts_req."); -return value_list.list_value[list_index]; -} - -PCUIF__Sapi_template& PCUIF__rts__req_template::sapi() -{ -set_specific(); -return single_value->field_sapi; -} - -const PCUIF__Sapi_template& PCUIF__rts__req_template::sapi() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field sapi of a non-specific template of type @PCUIF_Types.PCUIF_rts_req."); -return single_value->field_sapi; -} - -OCTETSTRING_template& PCUIF__rts__req_template::spare() -{ -set_specific(); -return single_value->field_spare; -} - -const OCTETSTRING_template& PCUIF__rts__req_template::spare() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field spare of a non-specific template of type @PCUIF_Types.PCUIF_rts_req."); -return single_value->field_spare; -} - -INTEGER_template& PCUIF__rts__req_template::fn() -{ -set_specific(); -return single_value->field_fn; -} - -const INTEGER_template& PCUIF__rts__req_template::fn() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field fn of a non-specific template of type @PCUIF_Types.PCUIF_rts_req."); -return single_value->field_fn; -} - -INTEGER_template& PCUIF__rts__req_template::arfcn() -{ -set_specific(); -return single_value->field_arfcn; -} - -const INTEGER_template& PCUIF__rts__req_template::arfcn() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field arfcn of a non-specific template of type @PCUIF_Types.PCUIF_rts_req."); -return single_value->field_arfcn; -} - -INTEGER_template& PCUIF__rts__req_template::trx__nr() -{ -set_specific(); -return single_value->field_trx__nr; -} - -const INTEGER_template& PCUIF__rts__req_template::trx__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field trx_nr of a non-specific template of type @PCUIF_Types.PCUIF_rts_req."); -return single_value->field_trx__nr; -} - -INTEGER_template& PCUIF__rts__req_template::ts__nr() -{ -set_specific(); -return single_value->field_ts__nr; -} - -const INTEGER_template& PCUIF__rts__req_template::ts__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ts_nr of a non-specific template of type @PCUIF_Types.PCUIF_rts_req."); -return single_value->field_ts__nr; -} - -INTEGER_template& PCUIF__rts__req_template::block__nr() -{ -set_specific(); -return single_value->field_block__nr; -} - -const INTEGER_template& PCUIF__rts__req_template::block__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field block_nr of a non-specific template of type @PCUIF_Types.PCUIF_rts_req."); -return single_value->field_block__nr; -} - -int PCUIF__rts__req_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rts_req which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 7; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rts_req containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rts_req containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rts_req containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rts_req containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rts_req containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_rts_req."); - } - return 0; -} - -void PCUIF__rts__req_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ sapi := "); -single_value->field_sapi.log(); -TTCN_Logger::log_event_str(", spare := "); -single_value->field_spare.log(); -TTCN_Logger::log_event_str(", fn := "); -single_value->field_fn.log(); -TTCN_Logger::log_event_str(", arfcn := "); -single_value->field_arfcn.log(); -TTCN_Logger::log_event_str(", trx_nr := "); -single_value->field_trx__nr.log(); -TTCN_Logger::log_event_str(", ts_nr := "); -single_value->field_ts__nr.log(); -TTCN_Logger::log_event_str(", block_nr := "); -single_value->field_block__nr.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__rts__req_template::log_match(const PCUIF__rts__req& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_sapi.match(match_value.sapi(), legacy)){ -TTCN_Logger::log_logmatch_info(".sapi"); -single_value->field_sapi.log_match(match_value.sapi(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_spare.match(match_value.spare(), legacy)){ -TTCN_Logger::log_logmatch_info(".spare"); -single_value->field_spare.log_match(match_value.spare(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_fn.match(match_value.fn(), legacy)){ -TTCN_Logger::log_logmatch_info(".fn"); -single_value->field_fn.log_match(match_value.fn(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_arfcn.match(match_value.arfcn(), legacy)){ -TTCN_Logger::log_logmatch_info(".arfcn"); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_trx__nr.match(match_value.trx__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".trx_nr"); -single_value->field_trx__nr.log_match(match_value.trx__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ts__nr.match(match_value.ts__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".ts_nr"); -single_value->field_ts__nr.log_match(match_value.ts__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_block__nr.match(match_value.block__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".block_nr"); -single_value->field_block__nr.log_match(match_value.block__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ sapi := "); -single_value->field_sapi.log_match(match_value.sapi(), legacy); -TTCN_Logger::log_event_str(", spare := "); -single_value->field_spare.log_match(match_value.spare(), legacy); -TTCN_Logger::log_event_str(", fn := "); -single_value->field_fn.log_match(match_value.fn(), legacy); -TTCN_Logger::log_event_str(", arfcn := "); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::log_event_str(", trx_nr := "); -single_value->field_trx__nr.log_match(match_value.trx__nr(), legacy); -TTCN_Logger::log_event_str(", ts_nr := "); -single_value->field_ts__nr.log_match(match_value.ts__nr(), legacy); -TTCN_Logger::log_event_str(", block_nr := "); -single_value->field_block__nr.log_match(match_value.block__nr(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__rts__req_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_sapi.encode_text(text_buf); -single_value->field_spare.encode_text(text_buf); -single_value->field_fn.encode_text(text_buf); -single_value->field_arfcn.encode_text(text_buf); -single_value->field_trx__nr.encode_text(text_buf); -single_value->field_ts__nr.encode_text(text_buf); -single_value->field_block__nr.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_rts_req."); -} -} - -void PCUIF__rts__req_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_sapi.decode_text(text_buf); -single_value->field_spare.decode_text(text_buf); -single_value->field_fn.decode_text(text_buf); -single_value->field_arfcn.decode_text(text_buf); -single_value->field_trx__nr.decode_text(text_buf); -single_value->field_ts__nr.decode_text(text_buf); -single_value->field_block__nr.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__rts__req_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_rts_req."); -} -} - -void PCUIF__rts__req_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__rts__req_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) sapi().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) spare().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) fn().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) trx__nr().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) ts__nr().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) block__nr().set_param(*param.get_elem(6)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "sapi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sapi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "fn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - fn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "trx_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - trx__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ts_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ts__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "block_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - block__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_rts_req: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_rts_req"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__rts__req_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_sapi.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rts_req"); -single_value->field_spare.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rts_req"); -single_value->field_fn.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rts_req"); -single_value->field_arfcn.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rts_req"); -single_value->field_trx__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rts_req"); -single_value->field_ts__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rts_req"); -single_value->field_block__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rts_req"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_rts_req"); -} - -boolean PCUIF__rts__req_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__rts__req_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx(enum_type other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_BurstType."); -return enum_value > other_value; -} - -boolean PCUIF__BurstType::operator>(const PCUIF__BurstType& other_value) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_BurstType."); -if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of enumerated type @PCUIF_Types.PCUIF_BurstType."); -return enum_value > other_value.enum_value; -} - -const char *PCUIF__BurstType::enum_to_str(enum_type enum_par) -{ -switch (enum_par) { -case BURST__TYPE__NONE: return "BURST_TYPE_NONE"; -case BURST__TYPE__0: return "BURST_TYPE_0"; -case BURST__TYPE__1: return "BURST_TYPE_1"; -case BURST__TYPE__2: return "BURST_TYPE_2"; -default: return ""; -} -} - -PCUIF__BurstType::enum_type PCUIF__BurstType::str_to_enum(const char *str_par) -{ -if (!strcmp(str_par, "BURST_TYPE_NONE")) return BURST__TYPE__NONE; -else if (!strcmp(str_par, "BURST_TYPE_0")) return BURST__TYPE__0; -else if (!strcmp(str_par, "BURST_TYPE_1")) return BURST__TYPE__1; -else if (!strcmp(str_par, "BURST_TYPE_2")) return BURST__TYPE__2; -else return UNKNOWN_VALUE; -} - -boolean PCUIF__BurstType::is_valid_enum(int int_par) -{ -switch (int_par) { -case 0: -case 1: -case 2: -case 3: -return TRUE; -default: -return FALSE; -} -} - -int PCUIF__BurstType::enum2int(enum_type enum_par) -{ -if (enum_par==UNBOUND_VALUE || enum_par==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @PCUIF_Types.PCUIF_BurstType.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par; -} - -int PCUIF__BurstType::enum2int(const PCUIF__BurstType& enum_par) -{ -if (enum_par.enum_value==UNBOUND_VALUE || enum_par.enum_value==UNKNOWN_VALUE) TTCN_error("The argument of function enum2int() is an %s value of enumerated type @PCUIF_Types.PCUIF_BurstType.", enum_par==UNBOUND_VALUE?"unbound":"invalid"); -return enum_par.enum_value; -} - -void PCUIF__BurstType::int2enum(int int_val) -{ -if (!is_valid_enum(int_val)) TTCN_error("Assigning invalid numeric value %d to a variable of enumerated type @PCUIF_Types.PCUIF_BurstType.", int_val); -enum_value = (enum_type)int_val; -} - -PCUIF__BurstType::operator PCUIF__BurstType::enum_type() const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Using the value of an unbound variable of enumerated type @PCUIF_Types.PCUIF_BurstType."); -return enum_value; -} - -void PCUIF__BurstType::log() const -{ -if (enum_value != UNBOUND_VALUE) TTCN_Logger::log_event_enum(enum_to_str(enum_value), enum_value); -else TTCN_Logger::log_event_unbound(); -} - -void PCUIF__BurstType::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "enumerated value"); - if (param.get_type()!=Module_Param::MP_Enumerated) param.type_error("enumerated value", "@PCUIF_Types.PCUIF_BurstType"); - enum_value = str_to_enum(param.get_enumerated()); - if (!is_valid_enum(enum_value)) { - param.error("Invalid enumerated value for type @PCUIF_Types.PCUIF_BurstType."); - } -} - -void PCUIF__BurstType::encode_text(Text_Buf& text_buf) const -{ -if (enum_value == UNBOUND_VALUE) TTCN_error("Text encoder: Encoding an unbound value of enumerated type @PCUIF_Types.PCUIF_BurstType."); -text_buf.push_int(enum_value); -} - -void PCUIF__BurstType::decode_text(Text_Buf& text_buf) -{ -enum_value = (enum_type)text_buf.pull_int().get_val(); -if (!is_valid_enum(enum_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for enumerated type @PCUIF_Types.PCUIF_BurstType.", enum_value); -} - -void PCUIF__BurstType::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__BurstType::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__BurstType::RAW_decode(const TTCN_Typedescriptor_t& p_td,TTCN_Buffer& p_buf,int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit*) -{ - int decoded_value = 0; - int decoded_length = RAW_decode_enum_type(p_td, p_buf, limit, top_bit_ord, decoded_value, 3, no_err); - if (decoded_length < 0) return decoded_length; - if (is_valid_enum(decoded_value)) enum_value = (enum_type)decoded_value; - else { - if(no_err){ - return -1; - } else { - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_ENC_ENUM, "Invalid enum value '%d' for '%s': ",decoded_value, p_td.name); - enum_value = UNKNOWN_VALUE; - } - } - return decoded_length; -} - -int PCUIF__BurstType::RAW_encode(const TTCN_Typedescriptor_t& p_td, RAW_enc_tree& myleaf) const -{ - return RAW_encode_enum_type(p_td, myleaf, (int)enum_value, 3); -} - -void PCUIF__BurstType_template::copy_template(const PCUIF__BurstType_template& other_value) -{ -set_selection(other_value); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = other_value.single_value; -break; -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__BurstType_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_BurstType."); -} -} - -PCUIF__BurstType_template::PCUIF__BurstType_template() -{ -} - -PCUIF__BurstType_template::PCUIF__BurstType_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__BurstType_template::PCUIF__BurstType_template(int other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (!PCUIF__BurstType::is_valid_enum(other_value)) TTCN_error("Initializing a template of enumerated type @PCUIF_Types.PCUIF_BurstType with unknown numeric value %d.", other_value); -single_value = (PCUIF__BurstType::enum_type)other_value; -} - -PCUIF__BurstType_template::PCUIF__BurstType_template(PCUIF__BurstType::enum_type other_value) - : Base_Template(SPECIFIC_VALUE) -{ -single_value = other_value; -} - -PCUIF__BurstType_template::PCUIF__BurstType_template(const PCUIF__BurstType& other_value) - : Base_Template(SPECIFIC_VALUE) -{ -if (other_value.enum_value == PCUIF__BurstType::UNBOUND_VALUE) TTCN_error("Creating a template from an unbound value of enumerated type @PCUIF_Types.PCUIF_BurstType."); -single_value = other_value.enum_value; -} - -PCUIF__BurstType_template::PCUIF__BurstType_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__BurstType::enum_type)(const PCUIF__BurstType&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of enumerated type @PCUIF_Types.PCUIF_BurstType from an unbound optional field."); -} -} - -PCUIF__BurstType_template::PCUIF__BurstType_template(const PCUIF__BurstType_template& other_value) - : Base_Template() -{ -copy_template(other_value); -} - -PCUIF__BurstType_template::~PCUIF__BurstType_template() -{ -clean_up(); -} - -boolean PCUIF__BurstType_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -return TRUE; -} - -boolean PCUIF__BurstType_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -return single_value != PCUIF__BurstType::UNBOUND_VALUE; -} - -void PCUIF__BurstType_template::clean_up() -{ -if (template_selection == VALUE_LIST || template_selection == COMPLEMENTED_LIST) delete [] value_list.list_value; -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__BurstType_template& PCUIF__BurstType_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__BurstType_template& PCUIF__BurstType_template::operator=(int other_value) -{ -if (!PCUIF__BurstType::is_valid_enum(other_value)) TTCN_warning("Assigning unknown numeric value %d to a template of enumerated type @PCUIF_Types.PCUIF_BurstType.", other_value); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__BurstType::enum_type)other_value; -return *this; -} - -PCUIF__BurstType_template& PCUIF__BurstType_template::operator=(PCUIF__BurstType::enum_type other_value) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value; -return *this; -} - -PCUIF__BurstType_template& PCUIF__BurstType_template::operator=(const PCUIF__BurstType& other_value) -{ -if (other_value.enum_value == PCUIF__BurstType::UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @PCUIF_Types.PCUIF_BurstType to a template."); -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value = other_value.enum_value; -return *this; -} - -PCUIF__BurstType_template& PCUIF__BurstType_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -set_selection(SPECIFIC_VALUE); -single_value = (PCUIF__BurstType::enum_type)(const PCUIF__BurstType&)other_value; -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of enumerated type @PCUIF_Types.PCUIF_BurstType."); -} -return *this; -} - -PCUIF__BurstType_template& PCUIF__BurstType_template::operator=(const PCUIF__BurstType_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__BurstType_template::match(PCUIF__BurstType::enum_type other_value, boolean) const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -return single_value == other_value; -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_BurstType."); -} -return FALSE; -} - -boolean PCUIF__BurstType_template::match(const PCUIF__BurstType& other_value, boolean) const -{ -if (other_value.enum_value == PCUIF__BurstType::UNBOUND_VALUE) TTCN_error("Matching a template of enumerated type @PCUIF_Types.PCUIF_BurstType with an unbound value."); -return match(other_value.enum_value); -} - -PCUIF__BurstType::enum_type PCUIF__BurstType_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of enumerated type @PCUIF_Types.PCUIF_BurstType."); -return single_value; -} - -void PCUIF__BurstType_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error("Setting an invalid list type for a template of enumerated type @PCUIF_Types.PCUIF_BurstType."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__BurstType_template[list_length]; -} - -PCUIF__BurstType_template& PCUIF__BurstType_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Accessing a list element in a non-list template of enumerated type @PCUIF_Types.PCUIF_BurstType."); -if (list_index >= value_list.n_values) TTCN_error("Index overflow in a value list template of enumerated type @PCUIF_Types.PCUIF_BurstType."); -return value_list.list_value[list_index]; -} - -void PCUIF__BurstType_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_enum(PCUIF__BurstType::enum_to_str(single_value), single_value); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[elem_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__BurstType_template::log_match(const PCUIF__BurstType& match_value, boolean) const -{ -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} - -void PCUIF__BurstType_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of enumerated type @PCUIF_Types.PCUIF_BurstType."); -} -} - -void PCUIF__BurstType_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = (PCUIF__BurstType::enum_type)text_buf.pull_int().get_val(); -if (!PCUIF__BurstType::is_valid_enum(single_value)) TTCN_error("Text decoder: Unknown numeric value %d was received for a template of enumerated type @PCUIF_Types.PCUIF_BurstType.", single_value); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__BurstType_template[value_list.n_values]; -for (unsigned int elem_count = 0; elem_count < value_list.n_values; elem_count++) -value_list.list_value[elem_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of enumerated type @PCUIF_Types.PCUIF_BurstType."); -} -} - -boolean PCUIF__BurstType_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__BurstType_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__BurstType_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Enumerated: { - PCUIF__BurstType::enum_type enum_val = PCUIF__BurstType::str_to_enum(m_p->get_enumerated()); - if (!PCUIF__BurstType::is_valid_enum(enum_val)) { - param.error("Invalid enumerated value for type @PCUIF_Types.PCUIF_BurstType."); - } - *this = enum_val; - } break; - default: - param.type_error("enumerated template", "@PCUIF_Types.PCUIF_BurstType"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__BurstType_template::check_restriction(template_res t_res, const char* t_name, -boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_VALUE: -if (!is_ifpresent && template_selection==SPECIFIC_VALUE) return; -break; -case TR_OMIT: -if (!is_ifpresent && (template_selection==OMIT_VALUE || template_selection==SPECIFIC_VALUE)) return; -break; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_BurstType"); -} - -PCUIF__rach__ind::PCUIF__rach__ind() -{ -} - -PCUIF__rach__ind::PCUIF__rach__ind(const PCUIF__Sapi& par_sapi, - const INTEGER& par_ra, - const INTEGER& par_qta, - const INTEGER& par_fn, - const INTEGER& par_arfcn, - const INTEGER& par_is__11bit, - const PCUIF__BurstType& par_burst__type) - : field_sapi(par_sapi), - field_ra(par_ra), - field_qta(par_qta), - field_fn(par_fn), - field_arfcn(par_arfcn), - field_is__11bit(par_is__11bit), - field_burst__type(par_burst__type) -{ -} - -PCUIF__rach__ind::PCUIF__rach__ind(const PCUIF__rach__ind& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @PCUIF_Types.PCUIF_rach_ind."); -if (other_value.sapi().is_bound()) field_sapi = other_value.sapi(); -else field_sapi.clean_up(); -if (other_value.ra().is_bound()) field_ra = other_value.ra(); -else field_ra.clean_up(); -if (other_value.qta().is_bound()) field_qta = other_value.qta(); -else field_qta.clean_up(); -if (other_value.fn().is_bound()) field_fn = other_value.fn(); -else field_fn.clean_up(); -if (other_value.arfcn().is_bound()) field_arfcn = other_value.arfcn(); -else field_arfcn.clean_up(); -if (other_value.is__11bit().is_bound()) field_is__11bit = other_value.is__11bit(); -else field_is__11bit.clean_up(); -if (other_value.burst__type().is_bound()) field_burst__type = other_value.burst__type(); -else field_burst__type.clean_up(); -} - -void PCUIF__rach__ind::clean_up() -{ -field_sapi.clean_up(); -field_ra.clean_up(); -field_qta.clean_up(); -field_fn.clean_up(); -field_arfcn.clean_up(); -field_is__11bit.clean_up(); -field_burst__type.clean_up(); -} - -const TTCN_Typedescriptor_t* PCUIF__rach__ind::get_descriptor() const { return &PCUIF__rach__ind_descr_; } -PCUIF__rach__ind& PCUIF__rach__ind::operator=(const PCUIF__rach__ind& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @PCUIF_Types.PCUIF_rach_ind."); - if (other_value.sapi().is_bound()) field_sapi = other_value.sapi(); - else field_sapi.clean_up(); - if (other_value.ra().is_bound()) field_ra = other_value.ra(); - else field_ra.clean_up(); - if (other_value.qta().is_bound()) field_qta = other_value.qta(); - else field_qta.clean_up(); - if (other_value.fn().is_bound()) field_fn = other_value.fn(); - else field_fn.clean_up(); - if (other_value.arfcn().is_bound()) field_arfcn = other_value.arfcn(); - else field_arfcn.clean_up(); - if (other_value.is__11bit().is_bound()) field_is__11bit = other_value.is__11bit(); - else field_is__11bit.clean_up(); - if (other_value.burst__type().is_bound()) field_burst__type = other_value.burst__type(); - else field_burst__type.clean_up(); -} -return *this; -} - -boolean PCUIF__rach__ind::operator==(const PCUIF__rach__ind& other_value) const -{ -return field_sapi==other_value.field_sapi - && field_ra==other_value.field_ra - && field_qta==other_value.field_qta - && field_fn==other_value.field_fn - && field_arfcn==other_value.field_arfcn - && field_is__11bit==other_value.field_is__11bit - && field_burst__type==other_value.field_burst__type; -} - -boolean PCUIF__rach__ind::is_bound() const -{ -if(field_sapi.is_bound()) return TRUE; -if(field_ra.is_bound()) return TRUE; -if(field_qta.is_bound()) return TRUE; -if(field_fn.is_bound()) return TRUE; -if(field_arfcn.is_bound()) return TRUE; -if(field_is__11bit.is_bound()) return TRUE; -if(field_burst__type.is_bound()) return TRUE; -return FALSE; -} -boolean PCUIF__rach__ind::is_value() const -{ -if(!field_sapi.is_value()) return FALSE; -if(!field_ra.is_value()) return FALSE; -if(!field_qta.is_value()) return FALSE; -if(!field_fn.is_value()) return FALSE; -if(!field_arfcn.is_value()) return FALSE; -if(!field_is__11bit.is_value()) return FALSE; -if(!field_burst__type.is_value()) return FALSE; -return TRUE; -} -void PCUIF__rach__ind::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ sapi := "); -field_sapi.log(); -TTCN_Logger::log_event_str(", ra := "); -field_ra.log(); -TTCN_Logger::log_event_str(", qta := "); -field_qta.log(); -TTCN_Logger::log_event_str(", fn := "); -field_fn.log(); -TTCN_Logger::log_event_str(", arfcn := "); -field_arfcn.log(); -TTCN_Logger::log_event_str(", is_11bit := "); -field_is__11bit.log(); -TTCN_Logger::log_event_str(", burst_type := "); -field_burst__type.log(); -TTCN_Logger::log_event_str(" }"); -} - -void PCUIF__rach__ind::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (70 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) sapi().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) ra().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) qta().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) fn().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) is__11bit().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) burst__type().set_param(*param.get_elem(6)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "sapi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sapi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ra")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ra().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "qta")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - qta().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "fn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - fn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "is_11bit")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - is__11bit().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "burst_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - burst__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_rach_ind: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_rach_ind"); - } -} - -void PCUIF__rach__ind::set_implicit_omit() -{ -if (sapi().is_bound()) sapi().set_implicit_omit(); -if (ra().is_bound()) ra().set_implicit_omit(); -if (qta().is_bound()) qta().set_implicit_omit(); -if (fn().is_bound()) fn().set_implicit_omit(); -if (arfcn().is_bound()) arfcn().set_implicit_omit(); -if (is__11bit().is_bound()) is__11bit().set_implicit_omit(); -if (burst__type().is_bound()) burst__type().set_implicit_omit(); -} - -void PCUIF__rach__ind::encode_text(Text_Buf& text_buf) const -{ -field_sapi.encode_text(text_buf); -field_ra.encode_text(text_buf); -field_qta.encode_text(text_buf); -field_fn.encode_text(text_buf); -field_arfcn.encode_text(text_buf); -field_is__11bit.encode_text(text_buf); -field_burst__type.encode_text(text_buf); -} - -void PCUIF__rach__ind::decode_text(Text_Buf& text_buf) -{ -field_sapi.decode_text(text_buf); -field_ra.decode_text(text_buf); -field_qta.decode_text(text_buf); -field_fn.decode_text(text_buf); -field_arfcn.decode_text(text_buf); -field_is__11bit.decode_text(text_buf); -field_burst__type.decode_text(text_buf); -} - -void PCUIF__rach__ind::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__rach__ind::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__rach__ind::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__rach__ind_sapi_descr_.raw->forceomit); - decoded_field_length = field_sapi.RAW_decode(PCUIF__rach__ind_sapi_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__rach__ind_ra_descr_.raw->forceomit); - decoded_field_length = field_ra.RAW_decode(PCUIF__rach__ind_ra_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__rach__ind_qta_descr_.raw->forceomit); - decoded_field_length = field_qta.RAW_decode(PCUIF__rach__ind_qta_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, PCUIF__rach__ind_fn_descr_.raw->forceomit); - decoded_field_length = field_fn.RAW_decode(PCUIF__rach__ind_fn_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, PCUIF__rach__ind_arfcn_descr_.raw->forceomit); - decoded_field_length = field_arfcn.RAW_decode(PCUIF__rach__ind_arfcn_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_5_force_omit(5, force_omit, PCUIF__rach__ind_is__11bit_descr_.raw->forceomit); - decoded_field_length = field_is__11bit.RAW_decode(PCUIF__rach__ind_is__11bit_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_5_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_6_force_omit(6, force_omit, PCUIF__rach__ind_burst__type_descr_.raw->forceomit); - decoded_field_length = field_burst__type.RAW_decode(PCUIF__rach__ind_burst__type_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_6_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__rach__ind::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 7; - myleaf.body.node.nodes = init_nodes_of_enc_tree(7); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__rach__ind_sapi_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__rach__ind_ra_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, PCUIF__rach__ind_qta_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, PCUIF__rach__ind_fn_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, PCUIF__rach__ind_arfcn_descr_.raw); - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 5, PCUIF__rach__ind_is__11bit_descr_.raw); - myleaf.body.node.nodes[6] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 6, PCUIF__rach__ind_burst__type_descr_.raw); - encoded_length += field_sapi.RAW_encode(PCUIF__rach__ind_sapi_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_ra.RAW_encode(PCUIF__rach__ind_ra_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_qta.RAW_encode(PCUIF__rach__ind_qta_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_fn.RAW_encode(PCUIF__rach__ind_fn_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_arfcn.RAW_encode(PCUIF__rach__ind_arfcn_descr_, *myleaf.body.node.nodes[4]); - encoded_length += field_is__11bit.RAW_encode(PCUIF__rach__ind_is__11bit_descr_, *myleaf.body.node.nodes[5]); - encoded_length += field_burst__type.RAW_encode(PCUIF__rach__ind_burst__type_descr_, *myleaf.body.node.nodes[6]); - return myleaf.length = encoded_length; -} - -struct PCUIF__rach__ind_template::single_value_struct { -PCUIF__Sapi_template field_sapi; -INTEGER_template field_ra; -INTEGER_template field_qta; -INTEGER_template field_fn; -INTEGER_template field_arfcn; -INTEGER_template field_is__11bit; -PCUIF__BurstType_template field_burst__type; -}; - -void PCUIF__rach__ind_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_sapi = ANY_VALUE; -single_value->field_ra = ANY_VALUE; -single_value->field_qta = ANY_VALUE; -single_value->field_fn = ANY_VALUE; -single_value->field_arfcn = ANY_VALUE; -single_value->field_is__11bit = ANY_VALUE; -single_value->field_burst__type = ANY_VALUE; -} -} -} - -void PCUIF__rach__ind_template::copy_value(const PCUIF__rach__ind& other_value) -{ -single_value = new single_value_struct; -if (other_value.sapi().is_bound()) { - single_value->field_sapi = other_value.sapi(); -} else { - single_value->field_sapi.clean_up(); -} -if (other_value.ra().is_bound()) { - single_value->field_ra = other_value.ra(); -} else { - single_value->field_ra.clean_up(); -} -if (other_value.qta().is_bound()) { - single_value->field_qta = other_value.qta(); -} else { - single_value->field_qta.clean_up(); -} -if (other_value.fn().is_bound()) { - single_value->field_fn = other_value.fn(); -} else { - single_value->field_fn.clean_up(); -} -if (other_value.arfcn().is_bound()) { - single_value->field_arfcn = other_value.arfcn(); -} else { - single_value->field_arfcn.clean_up(); -} -if (other_value.is__11bit().is_bound()) { - single_value->field_is__11bit = other_value.is__11bit(); -} else { - single_value->field_is__11bit.clean_up(); -} -if (other_value.burst__type().is_bound()) { - single_value->field_burst__type = other_value.burst__type(); -} else { - single_value->field_burst__type.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__rach__ind_template::copy_template(const PCUIF__rach__ind_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.sapi().get_selection()) { -single_value->field_sapi = other_value.sapi(); -} else { -single_value->field_sapi.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ra().get_selection()) { -single_value->field_ra = other_value.ra(); -} else { -single_value->field_ra.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.qta().get_selection()) { -single_value->field_qta = other_value.qta(); -} else { -single_value->field_qta.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.fn().get_selection()) { -single_value->field_fn = other_value.fn(); -} else { -single_value->field_fn.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.arfcn().get_selection()) { -single_value->field_arfcn = other_value.arfcn(); -} else { -single_value->field_arfcn.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.is__11bit().get_selection()) { -single_value->field_is__11bit = other_value.is__11bit(); -} else { -single_value->field_is__11bit.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.burst__type().get_selection()) { -single_value->field_burst__type = other_value.burst__type(); -} else { -single_value->field_burst__type.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__rach__ind_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_rach_ind."); -break; -} -set_selection(other_value); -} - -PCUIF__rach__ind_template::PCUIF__rach__ind_template() -{ -} - -PCUIF__rach__ind_template::PCUIF__rach__ind_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__rach__ind_template::PCUIF__rach__ind_template(const PCUIF__rach__ind& other_value) -{ -copy_value(other_value); -} - -PCUIF__rach__ind_template::PCUIF__rach__ind_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__rach__ind&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_rach_ind from an unbound optional field."); -} -} - -PCUIF__rach__ind_template::PCUIF__rach__ind_template(const PCUIF__rach__ind_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__rach__ind_template::~PCUIF__rach__ind_template() -{ -clean_up(); -} - -PCUIF__rach__ind_template& PCUIF__rach__ind_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__rach__ind_template& PCUIF__rach__ind_template::operator=(const PCUIF__rach__ind& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__rach__ind_template& PCUIF__rach__ind_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__rach__ind&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_rach_ind."); -} -return *this; -} - -PCUIF__rach__ind_template& PCUIF__rach__ind_template::operator=(const PCUIF__rach__ind_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__rach__ind_template::match(const PCUIF__rach__ind& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.sapi().is_bound()) return FALSE; -if(!single_value->field_sapi.match(other_value.sapi(), legacy))return FALSE; -if(!other_value.ra().is_bound()) return FALSE; -if(!single_value->field_ra.match(other_value.ra(), legacy))return FALSE; -if(!other_value.qta().is_bound()) return FALSE; -if(!single_value->field_qta.match(other_value.qta(), legacy))return FALSE; -if(!other_value.fn().is_bound()) return FALSE; -if(!single_value->field_fn.match(other_value.fn(), legacy))return FALSE; -if(!other_value.arfcn().is_bound()) return FALSE; -if(!single_value->field_arfcn.match(other_value.arfcn(), legacy))return FALSE; -if(!other_value.is__11bit().is_bound()) return FALSE; -if(!single_value->field_is__11bit.match(other_value.is__11bit(), legacy))return FALSE; -if(!other_value.burst__type().is_bound()) return FALSE; -if(!single_value->field_burst__type.match(other_value.burst__type(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_rach_ind."); -} -return FALSE; -} - -boolean PCUIF__rach__ind_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_sapi.is_bound()) return TRUE; -if (single_value->field_ra.is_bound()) return TRUE; -if (single_value->field_qta.is_bound()) return TRUE; -if (single_value->field_fn.is_bound()) return TRUE; -if (single_value->field_arfcn.is_bound()) return TRUE; -if (single_value->field_is__11bit.is_bound()) return TRUE; -if (single_value->field_burst__type.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__rach__ind_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_sapi.is_value()) return FALSE; -if (!single_value->field_ra.is_value()) return FALSE; -if (!single_value->field_qta.is_value()) return FALSE; -if (!single_value->field_fn.is_value()) return FALSE; -if (!single_value->field_arfcn.is_value()) return FALSE; -if (!single_value->field_is__11bit.is_value()) return FALSE; -if (!single_value->field_burst__type.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__rach__ind_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__rach__ind PCUIF__rach__ind_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_rach_ind."); -PCUIF__rach__ind ret_val; -if (single_value->field_sapi.is_bound()) { -ret_val.sapi() = single_value->field_sapi.valueof(); -} -if (single_value->field_ra.is_bound()) { -ret_val.ra() = single_value->field_ra.valueof(); -} -if (single_value->field_qta.is_bound()) { -ret_val.qta() = single_value->field_qta.valueof(); -} -if (single_value->field_fn.is_bound()) { -ret_val.fn() = single_value->field_fn.valueof(); -} -if (single_value->field_arfcn.is_bound()) { -ret_val.arfcn() = single_value->field_arfcn.valueof(); -} -if (single_value->field_is__11bit.is_bound()) { -ret_val.is__11bit() = single_value->field_is__11bit.valueof(); -} -if (single_value->field_burst__type.is_bound()) { -ret_val.burst__type() = single_value->field_burst__type.valueof(); -} -return ret_val; -} - -void PCUIF__rach__ind_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_rach_ind."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__rach__ind_template[list_length]; -} - -PCUIF__rach__ind_template& PCUIF__rach__ind_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_rach_ind."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_rach_ind."); -return value_list.list_value[list_index]; -} - -PCUIF__Sapi_template& PCUIF__rach__ind_template::sapi() -{ -set_specific(); -return single_value->field_sapi; -} - -const PCUIF__Sapi_template& PCUIF__rach__ind_template::sapi() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field sapi of a non-specific template of type @PCUIF_Types.PCUIF_rach_ind."); -return single_value->field_sapi; -} - -INTEGER_template& PCUIF__rach__ind_template::ra() -{ -set_specific(); -return single_value->field_ra; -} - -const INTEGER_template& PCUIF__rach__ind_template::ra() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ra of a non-specific template of type @PCUIF_Types.PCUIF_rach_ind."); -return single_value->field_ra; -} - -INTEGER_template& PCUIF__rach__ind_template::qta() -{ -set_specific(); -return single_value->field_qta; -} - -const INTEGER_template& PCUIF__rach__ind_template::qta() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field qta of a non-specific template of type @PCUIF_Types.PCUIF_rach_ind."); -return single_value->field_qta; -} - -INTEGER_template& PCUIF__rach__ind_template::fn() -{ -set_specific(); -return single_value->field_fn; -} - -const INTEGER_template& PCUIF__rach__ind_template::fn() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field fn of a non-specific template of type @PCUIF_Types.PCUIF_rach_ind."); -return single_value->field_fn; -} - -INTEGER_template& PCUIF__rach__ind_template::arfcn() -{ -set_specific(); -return single_value->field_arfcn; -} - -const INTEGER_template& PCUIF__rach__ind_template::arfcn() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field arfcn of a non-specific template of type @PCUIF_Types.PCUIF_rach_ind."); -return single_value->field_arfcn; -} - -INTEGER_template& PCUIF__rach__ind_template::is__11bit() -{ -set_specific(); -return single_value->field_is__11bit; -} - -const INTEGER_template& PCUIF__rach__ind_template::is__11bit() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field is_11bit of a non-specific template of type @PCUIF_Types.PCUIF_rach_ind."); -return single_value->field_is__11bit; -} - -PCUIF__BurstType_template& PCUIF__rach__ind_template::burst__type() -{ -set_specific(); -return single_value->field_burst__type; -} - -const PCUIF__BurstType_template& PCUIF__rach__ind_template::burst__type() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field burst_type of a non-specific template of type @PCUIF_Types.PCUIF_rach_ind."); -return single_value->field_burst__type; -} - -int PCUIF__rach__ind_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rach_ind which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 7; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rach_ind containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rach_ind containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rach_ind containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rach_ind containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_rach_ind containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_rach_ind."); - } - return 0; -} - -void PCUIF__rach__ind_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ sapi := "); -single_value->field_sapi.log(); -TTCN_Logger::log_event_str(", ra := "); -single_value->field_ra.log(); -TTCN_Logger::log_event_str(", qta := "); -single_value->field_qta.log(); -TTCN_Logger::log_event_str(", fn := "); -single_value->field_fn.log(); -TTCN_Logger::log_event_str(", arfcn := "); -single_value->field_arfcn.log(); -TTCN_Logger::log_event_str(", is_11bit := "); -single_value->field_is__11bit.log(); -TTCN_Logger::log_event_str(", burst_type := "); -single_value->field_burst__type.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__rach__ind_template::log_match(const PCUIF__rach__ind& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_sapi.match(match_value.sapi(), legacy)){ -TTCN_Logger::log_logmatch_info(".sapi"); -single_value->field_sapi.log_match(match_value.sapi(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ra.match(match_value.ra(), legacy)){ -TTCN_Logger::log_logmatch_info(".ra"); -single_value->field_ra.log_match(match_value.ra(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_qta.match(match_value.qta(), legacy)){ -TTCN_Logger::log_logmatch_info(".qta"); -single_value->field_qta.log_match(match_value.qta(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_fn.match(match_value.fn(), legacy)){ -TTCN_Logger::log_logmatch_info(".fn"); -single_value->field_fn.log_match(match_value.fn(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_arfcn.match(match_value.arfcn(), legacy)){ -TTCN_Logger::log_logmatch_info(".arfcn"); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_is__11bit.match(match_value.is__11bit(), legacy)){ -TTCN_Logger::log_logmatch_info(".is_11bit"); -single_value->field_is__11bit.log_match(match_value.is__11bit(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_burst__type.match(match_value.burst__type(), legacy)){ -TTCN_Logger::log_logmatch_info(".burst_type"); -single_value->field_burst__type.log_match(match_value.burst__type(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ sapi := "); -single_value->field_sapi.log_match(match_value.sapi(), legacy); -TTCN_Logger::log_event_str(", ra := "); -single_value->field_ra.log_match(match_value.ra(), legacy); -TTCN_Logger::log_event_str(", qta := "); -single_value->field_qta.log_match(match_value.qta(), legacy); -TTCN_Logger::log_event_str(", fn := "); -single_value->field_fn.log_match(match_value.fn(), legacy); -TTCN_Logger::log_event_str(", arfcn := "); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::log_event_str(", is_11bit := "); -single_value->field_is__11bit.log_match(match_value.is__11bit(), legacy); -TTCN_Logger::log_event_str(", burst_type := "); -single_value->field_burst__type.log_match(match_value.burst__type(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__rach__ind_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_sapi.encode_text(text_buf); -single_value->field_ra.encode_text(text_buf); -single_value->field_qta.encode_text(text_buf); -single_value->field_fn.encode_text(text_buf); -single_value->field_arfcn.encode_text(text_buf); -single_value->field_is__11bit.encode_text(text_buf); -single_value->field_burst__type.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_rach_ind."); -} -} - -void PCUIF__rach__ind_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_sapi.decode_text(text_buf); -single_value->field_ra.decode_text(text_buf); -single_value->field_qta.decode_text(text_buf); -single_value->field_fn.decode_text(text_buf); -single_value->field_arfcn.decode_text(text_buf); -single_value->field_is__11bit.decode_text(text_buf); -single_value->field_burst__type.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__rach__ind_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_rach_ind."); -} -} - -void PCUIF__rach__ind_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__rach__ind_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) sapi().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) ra().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) qta().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) fn().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) is__11bit().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) burst__type().set_param(*param.get_elem(6)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "sapi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sapi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ra")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ra().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "qta")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - qta().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "fn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - fn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "is_11bit")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - is__11bit().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "burst_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - burst__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_rach_ind: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_rach_ind"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__rach__ind_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_sapi.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rach_ind"); -single_value->field_ra.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rach_ind"); -single_value->field_qta.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rach_ind"); -single_value->field_fn.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rach_ind"); -single_value->field_arfcn.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rach_ind"); -single_value->field_is__11bit.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rach_ind"); -single_value->field_burst__type.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_rach_ind"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_rach_ind"); -} - -boolean PCUIF__rach__ind_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__rach__ind_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) pdch__mask().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) spare().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) tsc().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) hLayer1().set_param(*param.get_elem(4)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "pdch_mask")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - pdch__mask().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "tsc")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - tsc().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "hLayer1")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - hLayer1().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_InfoTrx: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_InfoTrx"); - } -} - -void PCUIF__InfoTrx::set_implicit_omit() -{ -if (arfcn().is_bound()) arfcn().set_implicit_omit(); -if (pdch__mask().is_bound()) pdch__mask().set_implicit_omit(); -if (spare().is_bound()) spare().set_implicit_omit(); -if (tsc().is_bound()) tsc().set_implicit_omit(); -if (hLayer1().is_bound()) hLayer1().set_implicit_omit(); -} - -void PCUIF__InfoTrx::encode_text(Text_Buf& text_buf) const -{ -field_arfcn.encode_text(text_buf); -field_pdch__mask.encode_text(text_buf); -field_spare.encode_text(text_buf); -field_tsc.encode_text(text_buf); -field_hLayer1.encode_text(text_buf); -} - -void PCUIF__InfoTrx::decode_text(Text_Buf& text_buf) -{ -field_arfcn.decode_text(text_buf); -field_pdch__mask.decode_text(text_buf); -field_spare.decode_text(text_buf); -field_tsc.decode_text(text_buf); -field_hLayer1.decode_text(text_buf); -} - -void PCUIF__InfoTrx::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__InfoTrx::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__InfoTrx::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__InfoTrx_arfcn_descr_.raw->forceomit); - decoded_field_length = field_arfcn.RAW_decode(PCUIF__InfoTrx_arfcn_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__InfoTrx_pdch__mask_descr_.raw->forceomit); - decoded_field_length = field_pdch__mask.RAW_decode(PCUIF__InfoTrx_pdch__mask_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__InfoTrx_spare_descr_.raw->forceomit); - decoded_field_length = field_spare.RAW_decode(PCUIF__InfoTrx_spare_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, PCUIF__InfoTrx_tsc_descr_.raw->forceomit); - decoded_field_length = field_tsc.RAW_decode(PCUIF__InfoTrx_tsc_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, PCUIF__InfoTrx_hLayer1_descr_.raw->forceomit); - decoded_field_length = field_hLayer1.RAW_decode(PCUIF__InfoTrx_hLayer1_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__InfoTrx::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 5; - myleaf.body.node.nodes = init_nodes_of_enc_tree(5); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__InfoTrx_arfcn_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__InfoTrx_pdch__mask_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, PCUIF__InfoTrx_spare_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, PCUIF__InfoTrx_tsc_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, PCUIF__InfoTrx_hLayer1_descr_.raw); - encoded_length += field_arfcn.RAW_encode(PCUIF__InfoTrx_arfcn_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_pdch__mask.RAW_encode(PCUIF__InfoTrx_pdch__mask_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_spare.RAW_encode(PCUIF__InfoTrx_spare_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_tsc.RAW_encode(PCUIF__InfoTrx_tsc_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_hLayer1.RAW_encode(PCUIF__InfoTrx_hLayer1_descr_, *myleaf.body.node.nodes[4]); - return myleaf.length = encoded_length; -} - -struct PCUIF__InfoTrx_template::single_value_struct { -INTEGER_template field_arfcn; -BITSTRING_template field_pdch__mask; -OCTETSTRING_template field_spare; -OCTETSTRING_template field_tsc; -INTEGER_template field_hLayer1; -}; - -void PCUIF__InfoTrx_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_arfcn = ANY_VALUE; -single_value->field_pdch__mask = ANY_VALUE; -single_value->field_spare = ANY_VALUE; -single_value->field_tsc = ANY_VALUE; -single_value->field_hLayer1 = ANY_VALUE; -} -} -} - -void PCUIF__InfoTrx_template::copy_value(const PCUIF__InfoTrx& other_value) -{ -single_value = new single_value_struct; -if (other_value.arfcn().is_bound()) { - single_value->field_arfcn = other_value.arfcn(); -} else { - single_value->field_arfcn.clean_up(); -} -if (other_value.pdch__mask().is_bound()) { - single_value->field_pdch__mask = other_value.pdch__mask(); -} else { - single_value->field_pdch__mask.clean_up(); -} -if (other_value.spare().is_bound()) { - single_value->field_spare = other_value.spare(); -} else { - single_value->field_spare.clean_up(); -} -if (other_value.tsc().is_bound()) { - single_value->field_tsc = other_value.tsc(); -} else { - single_value->field_tsc.clean_up(); -} -if (other_value.hLayer1().is_bound()) { - single_value->field_hLayer1 = other_value.hLayer1(); -} else { - single_value->field_hLayer1.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__InfoTrx_template::copy_template(const PCUIF__InfoTrx_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.arfcn().get_selection()) { -single_value->field_arfcn = other_value.arfcn(); -} else { -single_value->field_arfcn.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.pdch__mask().get_selection()) { -single_value->field_pdch__mask = other_value.pdch__mask(); -} else { -single_value->field_pdch__mask.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.spare().get_selection()) { -single_value->field_spare = other_value.spare(); -} else { -single_value->field_spare.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.tsc().get_selection()) { -single_value->field_tsc = other_value.tsc(); -} else { -single_value->field_tsc.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.hLayer1().get_selection()) { -single_value->field_hLayer1 = other_value.hLayer1(); -} else { -single_value->field_hLayer1.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__InfoTrx_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_InfoTrx."); -break; -} -set_selection(other_value); -} - -PCUIF__InfoTrx_template::PCUIF__InfoTrx_template() -{ -} - -PCUIF__InfoTrx_template::PCUIF__InfoTrx_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__InfoTrx_template::PCUIF__InfoTrx_template(const PCUIF__InfoTrx& other_value) -{ -copy_value(other_value); -} - -PCUIF__InfoTrx_template::PCUIF__InfoTrx_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__InfoTrx&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_InfoTrx from an unbound optional field."); -} -} - -PCUIF__InfoTrx_template::PCUIF__InfoTrx_template(const PCUIF__InfoTrx_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__InfoTrx_template::~PCUIF__InfoTrx_template() -{ -clean_up(); -} - -PCUIF__InfoTrx_template& PCUIF__InfoTrx_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__InfoTrx_template& PCUIF__InfoTrx_template::operator=(const PCUIF__InfoTrx& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__InfoTrx_template& PCUIF__InfoTrx_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__InfoTrx&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_InfoTrx."); -} -return *this; -} - -PCUIF__InfoTrx_template& PCUIF__InfoTrx_template::operator=(const PCUIF__InfoTrx_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__InfoTrx_template::match(const PCUIF__InfoTrx& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.arfcn().is_bound()) return FALSE; -if(!single_value->field_arfcn.match(other_value.arfcn(), legacy))return FALSE; -if(!other_value.pdch__mask().is_bound()) return FALSE; -if(!single_value->field_pdch__mask.match(other_value.pdch__mask(), legacy))return FALSE; -if(!other_value.spare().is_bound()) return FALSE; -if(!single_value->field_spare.match(other_value.spare(), legacy))return FALSE; -if(!other_value.tsc().is_bound()) return FALSE; -if(!single_value->field_tsc.match(other_value.tsc(), legacy))return FALSE; -if(!other_value.hLayer1().is_bound()) return FALSE; -if(!single_value->field_hLayer1.match(other_value.hLayer1(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_InfoTrx."); -} -return FALSE; -} - -boolean PCUIF__InfoTrx_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_arfcn.is_bound()) return TRUE; -if (single_value->field_pdch__mask.is_bound()) return TRUE; -if (single_value->field_spare.is_bound()) return TRUE; -if (single_value->field_tsc.is_bound()) return TRUE; -if (single_value->field_hLayer1.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__InfoTrx_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_arfcn.is_value()) return FALSE; -if (!single_value->field_pdch__mask.is_value()) return FALSE; -if (!single_value->field_spare.is_value()) return FALSE; -if (!single_value->field_tsc.is_value()) return FALSE; -if (!single_value->field_hLayer1.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__InfoTrx_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__InfoTrx PCUIF__InfoTrx_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_InfoTrx."); -PCUIF__InfoTrx ret_val; -if (single_value->field_arfcn.is_bound()) { -ret_val.arfcn() = single_value->field_arfcn.valueof(); -} -if (single_value->field_pdch__mask.is_bound()) { -ret_val.pdch__mask() = single_value->field_pdch__mask.valueof(); -} -if (single_value->field_spare.is_bound()) { -ret_val.spare() = single_value->field_spare.valueof(); -} -if (single_value->field_tsc.is_bound()) { -ret_val.tsc() = single_value->field_tsc.valueof(); -} -if (single_value->field_hLayer1.is_bound()) { -ret_val.hLayer1() = single_value->field_hLayer1.valueof(); -} -return ret_val; -} - -void PCUIF__InfoTrx_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_InfoTrx."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__InfoTrx_template[list_length]; -} - -PCUIF__InfoTrx_template& PCUIF__InfoTrx_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_InfoTrx."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_InfoTrx."); -return value_list.list_value[list_index]; -} - -INTEGER_template& PCUIF__InfoTrx_template::arfcn() -{ -set_specific(); -return single_value->field_arfcn; -} - -const INTEGER_template& PCUIF__InfoTrx_template::arfcn() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field arfcn of a non-specific template of type @PCUIF_Types.PCUIF_InfoTrx."); -return single_value->field_arfcn; -} - -BITSTRING_template& PCUIF__InfoTrx_template::pdch__mask() -{ -set_specific(); -return single_value->field_pdch__mask; -} - -const BITSTRING_template& PCUIF__InfoTrx_template::pdch__mask() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field pdch_mask of a non-specific template of type @PCUIF_Types.PCUIF_InfoTrx."); -return single_value->field_pdch__mask; -} - -OCTETSTRING_template& PCUIF__InfoTrx_template::spare() -{ -set_specific(); -return single_value->field_spare; -} - -const OCTETSTRING_template& PCUIF__InfoTrx_template::spare() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field spare of a non-specific template of type @PCUIF_Types.PCUIF_InfoTrx."); -return single_value->field_spare; -} - -OCTETSTRING_template& PCUIF__InfoTrx_template::tsc() -{ -set_specific(); -return single_value->field_tsc; -} - -const OCTETSTRING_template& PCUIF__InfoTrx_template::tsc() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field tsc of a non-specific template of type @PCUIF_Types.PCUIF_InfoTrx."); -return single_value->field_tsc; -} - -INTEGER_template& PCUIF__InfoTrx_template::hLayer1() -{ -set_specific(); -return single_value->field_hLayer1; -} - -const INTEGER_template& PCUIF__InfoTrx_template::hLayer1() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field hLayer1 of a non-specific template of type @PCUIF_Types.PCUIF_InfoTrx."); -return single_value->field_hLayer1; -} - -int PCUIF__InfoTrx_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrx which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 5; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrx containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrx containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrx containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrx containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrx containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_InfoTrx."); - } - return 0; -} - -void PCUIF__InfoTrx_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ arfcn := "); -single_value->field_arfcn.log(); -TTCN_Logger::log_event_str(", pdch_mask := "); -single_value->field_pdch__mask.log(); -TTCN_Logger::log_event_str(", spare := "); -single_value->field_spare.log(); -TTCN_Logger::log_event_str(", tsc := "); -single_value->field_tsc.log(); -TTCN_Logger::log_event_str(", hLayer1 := "); -single_value->field_hLayer1.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__InfoTrx_template::log_match(const PCUIF__InfoTrx& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_arfcn.match(match_value.arfcn(), legacy)){ -TTCN_Logger::log_logmatch_info(".arfcn"); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_pdch__mask.match(match_value.pdch__mask(), legacy)){ -TTCN_Logger::log_logmatch_info(".pdch_mask"); -single_value->field_pdch__mask.log_match(match_value.pdch__mask(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_spare.match(match_value.spare(), legacy)){ -TTCN_Logger::log_logmatch_info(".spare"); -single_value->field_spare.log_match(match_value.spare(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_tsc.match(match_value.tsc(), legacy)){ -TTCN_Logger::log_logmatch_info(".tsc"); -single_value->field_tsc.log_match(match_value.tsc(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_hLayer1.match(match_value.hLayer1(), legacy)){ -TTCN_Logger::log_logmatch_info(".hLayer1"); -single_value->field_hLayer1.log_match(match_value.hLayer1(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ arfcn := "); -single_value->field_arfcn.log_match(match_value.arfcn(), legacy); -TTCN_Logger::log_event_str(", pdch_mask := "); -single_value->field_pdch__mask.log_match(match_value.pdch__mask(), legacy); -TTCN_Logger::log_event_str(", spare := "); -single_value->field_spare.log_match(match_value.spare(), legacy); -TTCN_Logger::log_event_str(", tsc := "); -single_value->field_tsc.log_match(match_value.tsc(), legacy); -TTCN_Logger::log_event_str(", hLayer1 := "); -single_value->field_hLayer1.log_match(match_value.hLayer1(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__InfoTrx_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_arfcn.encode_text(text_buf); -single_value->field_pdch__mask.encode_text(text_buf); -single_value->field_spare.encode_text(text_buf); -single_value->field_tsc.encode_text(text_buf); -single_value->field_hLayer1.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_InfoTrx."); -} -} - -void PCUIF__InfoTrx_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_arfcn.decode_text(text_buf); -single_value->field_pdch__mask.decode_text(text_buf); -single_value->field_spare.decode_text(text_buf); -single_value->field_tsc.decode_text(text_buf); -single_value->field_hLayer1.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__InfoTrx_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_InfoTrx."); -} -} - -void PCUIF__InfoTrx_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__InfoTrx_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) arfcn().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) pdch__mask().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) spare().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) tsc().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) hLayer1().set_param(*param.get_elem(4)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "arfcn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - arfcn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "pdch_mask")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - pdch__mask().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "tsc")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - tsc().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "hLayer1")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - hLayer1().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_InfoTrx: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_InfoTrx"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__InfoTrx_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_arfcn.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_InfoTrx"); -single_value->field_pdch__mask.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_InfoTrx"); -single_value->field_spare.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_InfoTrx"); -single_value->field_tsc.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_InfoTrx"); -single_value->field_hLayer1.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_InfoTrx"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_InfoTrx"); -} - -boolean PCUIF__InfoTrx_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__InfoTrx_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idxref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} - -PCUIF__InfoTrxs::PCUIF__InfoTrxs(const PCUIF__InfoTrxs& other_value) -{ -if (!other_value.is_bound()) TTCN_error("Copying an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -val_ptr = other_value.val_ptr; -val_ptr->ref_count++; -} - -PCUIF__InfoTrxs::~PCUIF__InfoTrxs() -{ -clean_up(); -if (val_ptr != NULL) val_ptr = NULL; -} - -void PCUIF__InfoTrxs::clean_up() -{ -if (val_ptr != NULL) { -if (val_ptr->ref_count > 1) { -val_ptr->ref_count--; -val_ptr = NULL; -} -else if (val_ptr->ref_count == 1) { -for (int elem_count = 0; elem_count < val_ptr->n_elements; -elem_count++) -if (val_ptr->value_elements[elem_count] != NULL) -delete val_ptr->value_elements[elem_count]; -free_pointers((void**)val_ptr->value_elements); -delete val_ptr; -val_ptr = NULL; -} -else -TTCN_error("Internal error: Invalid reference counter in a record of/set of value."); -} -} - -PCUIF__InfoTrxs& PCUIF__InfoTrxs::operator=(null_type) -{ -clean_up(); -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -return *this; -} - -PCUIF__InfoTrxs& PCUIF__InfoTrxs::operator=(const PCUIF__InfoTrxs& other_value) -{ -if (other_value.val_ptr == NULL) TTCN_error("Assigning an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -if (this != &other_value) { -clean_up(); -val_ptr = other_value.val_ptr; -val_ptr->ref_count++; -} -return *this; -} - -boolean PCUIF__InfoTrxs::operator==(null_type) const -{ -if (val_ptr == NULL) -TTCN_error("The left operand of comparison is an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -return val_ptr->n_elements == 0 ; -} - -boolean PCUIF__InfoTrxs::operator==(const PCUIF__InfoTrxs& other_value) const -{ -if (val_ptr == NULL) TTCN_error("The left operand of comparison is an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -if (other_value.val_ptr == NULL) TTCN_error("The right operand of comparison is an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -if (val_ptr == other_value.val_ptr) return TRUE; -if (val_ptr->n_elements != (other_value.val_ptr)->n_elements) -return FALSE; -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++){ -if (val_ptr->value_elements[elem_count] != NULL){ -if ((other_value.val_ptr)->value_elements[elem_count] != NULL){ - if (*val_ptr->value_elements[elem_count] != *(other_value.val_ptr)->value_elements[elem_count]) return FALSE; -} else return FALSE; -} else { -if ((other_value.val_ptr)->value_elements[elem_count] != NULL) return FALSE; -} -} -return TRUE; -} - -PCUIF__InfoTrx& PCUIF__InfoTrxs::operator[](int index_value) -{ -if (index_value < 0) TTCN_error("Accessing an element of type @PCUIF_Types.PCUIF_InfoTrxs using a negative index: %d.", index_value); -if (val_ptr == NULL) { -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} else if (val_ptr->ref_count > 1) { -struct recordof_setof_struct *new_val_ptr = new recordof_setof_struct; -new_val_ptr->ref_count = 1; -new_val_ptr->n_elements = (index_value >= val_ptr->n_elements) ? index_value + 1 : val_ptr->n_elements; -new_val_ptr->value_elements = (PCUIF__InfoTrx**)allocate_pointers(new_val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++){ -if (val_ptr->value_elements[elem_count] != NULL){ -new_val_ptr->value_elements[elem_count] = new PCUIF__InfoTrx(*(val_ptr->value_elements[elem_count])); -} -} -clean_up(); -val_ptr = new_val_ptr; -} -if (index_value >= val_ptr->n_elements) set_size(index_value + 1); -if (val_ptr->value_elements[index_value] == NULL) { -val_ptr->value_elements[index_value] = new PCUIF__InfoTrx; -} -return *val_ptr->value_elements[index_value]; -} - -PCUIF__InfoTrx& PCUIF__InfoTrxs::operator[](const INTEGER& index_value) -{ -index_value.must_bound("Using an unbound integer value for indexing a value of type @PCUIF_Types.PCUIF_InfoTrxs."); -return (*this)[(int)index_value]; -} - -const PCUIF__InfoTrx& PCUIF__InfoTrxs::operator[](int index_value) const -{ -if (val_ptr == NULL) -TTCN_error("Accessing an element in an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -if (index_value < 0) TTCN_error("Accessing an element of type @PCUIF_Types.PCUIF_InfoTrxs using a negative index: %d.", index_value); -if (index_value >= val_ptr->n_elements) TTCN_error("Index overflow in a value of type @PCUIF_Types.PCUIF_InfoTrxs: The index is %d, but the value has only %d elements.", index_value, val_ptr->n_elements); -return (val_ptr->value_elements[index_value] == NULL) ? -UNBOUND_ELEM : *val_ptr->value_elements[index_value]; -} - -const PCUIF__InfoTrx& PCUIF__InfoTrxs::operator[](const INTEGER& index_value) const -{ -index_value.must_bound("Using an unbound integer value for indexing a value of type @PCUIF_Types.PCUIF_InfoTrxs."); -return (*this)[(int)index_value]; -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs::operator<<=(int rotate_count) const -{ -return *this >>= (-rotate_count); -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs::operator<<=(const INTEGER& rotate_count) const -{ -rotate_count.must_bound("Unbound integer operand of rotate left operator."); -return *this >>= (int)(-rotate_count); -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs::operator>>=(const INTEGER& rotate_count) const -{ -rotate_count.must_bound("Unbound integer operand of rotate right operator."); -return *this >>= (int)rotate_count; -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs::operator>>=(int rotate_count) const -{ -if (val_ptr == NULL) TTCN_error("Performing rotation operation on an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -if (val_ptr->n_elements == 0) return *this; -int rc; -if (rotate_count>=0) rc = rotate_count % val_ptr->n_elements; -else rc = val_ptr->n_elements - ((-rotate_count) % val_ptr->n_elements); -if (rc == 0) return *this; -PCUIF__InfoTrxs ret_val; -ret_val.set_size(val_ptr->n_elements); -for (int i=0; in_elements; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[(i+rc)%val_ptr->n_elements] =new PCUIF__InfoTrx(*val_ptr->value_elements[i]); -} -} -return ret_val; -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs::operator+(const PCUIF__InfoTrxs& other_value) const -{ -if (val_ptr == NULL || other_value.val_ptr == NULL) TTCN_error("Unbound operand of @PCUIF_Types.PCUIF_InfoTrxs concatenation."); -if (val_ptr->n_elements == 0) return other_value; -if (other_value.val_ptr->n_elements == 0) return *this; -PCUIF__InfoTrxs ret_val; -ret_val.set_size(val_ptr->n_elements+other_value.val_ptr->n_elements); -for (int i=0; in_elements; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i] = new PCUIF__InfoTrx(*val_ptr->value_elements[i]); -} -} -for (int i=0; in_elements; i++) { -if (other_value.val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i+val_ptr->n_elements] = new PCUIF__InfoTrx(*other_value.val_ptr->value_elements[i]); -} -} -return ret_val; -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs::substr(int index, int returncount) const -{ -if (val_ptr == NULL) TTCN_error("The first argument of substr() is an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -check_substr_arguments(val_ptr->n_elements, index, returncount, "@PCUIF_Types.PCUIF_InfoTrxs","element"); -PCUIF__InfoTrxs ret_val; -ret_val.set_size(returncount); -for (int i=0; ivalue_elements[i+index] != NULL) { -ret_val.val_ptr->value_elements[i] = new PCUIF__InfoTrx(*val_ptr->value_elements[i+index]); -} -} -return ret_val; -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs::replace(int index, int len, const PCUIF__InfoTrxs& repl) const -{ -if (val_ptr == NULL) TTCN_error("The first argument of replace() is an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -if (repl.val_ptr == NULL) TTCN_error("The fourth argument of replace() is an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -check_replace_arguments(val_ptr->n_elements, index, len, "@PCUIF_Types.PCUIF_InfoTrxs","element"); -PCUIF__InfoTrxs ret_val; -ret_val.set_size(val_ptr->n_elements + repl.val_ptr->n_elements - len); -for (int i = 0; i < index; i++) { -if (val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i] = new PCUIF__InfoTrx(*val_ptr->value_elements[i]); -} -} -for (int i = 0; i < repl.val_ptr->n_elements; i++) { -if (repl.val_ptr->value_elements[i] != NULL) { -ret_val.val_ptr->value_elements[i+index] = new PCUIF__InfoTrx(*repl.val_ptr->value_elements[i]); -} -} -for (int i = 0; i < val_ptr->n_elements - index - len; i++) { -if (val_ptr->value_elements[index+i+len] != NULL) { -ret_val.val_ptr->value_elements[index+i+repl.val_ptr->n_elements] = new PCUIF__InfoTrx(*val_ptr->value_elements[index+i+len]); -} -} -return ret_val; -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs::replace(int index, int len, const PCUIF__InfoTrxs_template& repl) const -{ -if (!repl.is_value()) TTCN_error("The fourth argument of function replace() is a template with non-specific value."); -return replace(index, len, repl.valueof()); -} - -void PCUIF__InfoTrxs::set_size(int new_size) -{ -if (new_size < 0) TTCN_error("Internal error: Setting a negative size for a value of type @PCUIF_Types.PCUIF_InfoTrxs."); -if (val_ptr == NULL) { -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = 0; -val_ptr->value_elements = NULL; -} else if (val_ptr->ref_count > 1) { -struct recordof_setof_struct *new_val_ptr = new recordof_setof_struct; -new_val_ptr->ref_count = 1; -new_val_ptr->n_elements = (new_size < val_ptr->n_elements) ? new_size : val_ptr->n_elements; -new_val_ptr->value_elements = (PCUIF__InfoTrx**)allocate_pointers(new_val_ptr->n_elements); -for (int elem_count = 0; elem_count < new_val_ptr->n_elements; elem_count++) { -if (val_ptr->value_elements[elem_count] != NULL){ -new_val_ptr->value_elements[elem_count] = new PCUIF__InfoTrx(*(val_ptr->value_elements[elem_count])); -} -} -clean_up(); -val_ptr = new_val_ptr; -} -if (new_size > val_ptr->n_elements) { -val_ptr->value_elements = (PCUIF__InfoTrx**)reallocate_pointers((void**)val_ptr->value_elements, val_ptr->n_elements, new_size); -#ifdef TITAN_MEMORY_DEBUG_SET_RECORD_OF -if((val_ptr->n_elements/1000)!=(new_size/1000)) TTCN_warning("New size of type @PCUIF_Types.PCUIF_InfoTrxs: %d",new_size); -#endif -val_ptr->n_elements = new_size; -} else if (new_size < val_ptr->n_elements) { -for (int elem_count = new_size; elem_count < val_ptr->n_elements; elem_count++) -if (val_ptr->value_elements[elem_count] != NULL)delete val_ptr->value_elements[elem_count]; -val_ptr->value_elements = (PCUIF__InfoTrx**)reallocate_pointers((void**)val_ptr->value_elements, val_ptr->n_elements, new_size); -val_ptr->n_elements = new_size; -} -} - -boolean PCUIF__InfoTrxs::is_value() const -{ -if (val_ptr == NULL) return FALSE; -for(int i = 0; i < val_ptr->n_elements; ++i) { -if (val_ptr->value_elements[i] == NULL || !val_ptr->value_elements[i]->is_value()) return FALSE; -} -return TRUE; -} - -int PCUIF__InfoTrxs::size_of() const -{ -if (val_ptr == NULL) TTCN_error("Performing sizeof operation on an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -return val_ptr->n_elements; -} - -int PCUIF__InfoTrxs::lengthof() const -{ -if (val_ptr == NULL) TTCN_error("Performing lengthof operation on an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -for (int my_length=val_ptr->n_elements; my_length>0; my_length--) if (val_ptr->value_elements[my_length-1] != NULL) return my_length; -return 0; -} - -void PCUIF__InfoTrxs::log() const -{ -if (val_ptr == NULL) {; -TTCN_Logger::log_event_unbound(); -return; -} -switch (val_ptr->n_elements) { -case 0: -TTCN_Logger::log_event_str("{ }"); -break; -default: -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -(*this)[elem_count].log(); -} -TTCN_Logger::log_event_str(" }"); -} -} - -void PCUIF__InfoTrxs::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE|Module_Param::BC_LIST, "record of value"); - switch (param.get_operation_type()) { - case Module_Param::OT_ASSIGN: - if (param.get_type()==Module_Param::MP_Value_List && param.get_size()==0) { - *this = NULL_VALUE; - return; - } - switch (param.get_type()) { - case Module_Param::MP_Value_List: - set_size(param.get_size()); - for (size_t i=0; iget_type()!=Module_Param::MP_NotUsed) { - (*this)[i].set_param(*curr); - if (!(*this)[i].is_bound()) { - delete val_ptr->value_elements[i]; - val_ptr->value_elements[i] = NULL; - } - } - } - break; - case Module_Param::MP_Indexed_List: - for (size_t i=0; iget_id()->get_index()].set_param(*curr); - if (!(*this)[curr->get_id()->get_index()].is_bound()) { - delete val_ptr->value_elements[curr->get_id()->get_index()]; - val_ptr->value_elements[curr->get_id()->get_index()] = NULL; - } - } - break; - default: - param.type_error("record of value", "@PCUIF_Types.PCUIF_InfoTrxs"); - } - break; - case Module_Param::OT_CONCAT: - switch (param.get_type()) { - case Module_Param::MP_Value_List: { - if (!is_bound()) *this = NULL_VALUE; - int start_idx = lengthof(); - for (size_t i=0; iget_type()!=Module_Param::MP_NotUsed)) { - (*this)[start_idx+(int)i].set_param(*curr); - } - } - } break; - case Module_Param::MP_Indexed_List: - param.error("Cannot concatenate an indexed value list"); - break; - default: - param.type_error("record of value", "@PCUIF_Types.PCUIF_InfoTrxs"); - } - break; - default: - TTCN_error("Internal error: Unknown operation type."); - } -} - -void PCUIF__InfoTrxs::set_implicit_omit() -{ -if (val_ptr == NULL) return; -for (int i = 0; i < val_ptr->n_elements; i++) { -if (val_ptr->value_elements[i] != NULL) val_ptr->value_elements[i]->set_implicit_omit(); -} -} - -void PCUIF__InfoTrxs::encode_text(Text_Buf& text_buf) const -{ -if (val_ptr == NULL) TTCN_error("Text encoder: Encoding an unbound value of type @PCUIF_Types.PCUIF_InfoTrxs."); -text_buf.push_int(val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) -(*this)[elem_count].encode_text(text_buf); -} - -void PCUIF__InfoTrxs::decode_text(Text_Buf& text_buf) -{ -clean_up(); -val_ptr = new recordof_setof_struct; -val_ptr->ref_count = 1; -val_ptr->n_elements = text_buf.pull_int().get_val(); -if (val_ptr->n_elements < 0) TTCN_error("Text decoder: Negative size was received for a value of type @PCUIF_Types.PCUIF_InfoTrxs."); -val_ptr->value_elements = (PCUIF__InfoTrx**)allocate_pointers(val_ptr->n_elements); -for (int elem_count = 0; elem_count < val_ptr->n_elements; elem_count++) { -val_ptr->value_elements[elem_count] = new PCUIF__InfoTrx; -val_ptr->value_elements[elem_count]->decode_text(text_buf); -} -} - -void PCUIF__InfoTrxs::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__InfoTrxs::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__InfoTrxs::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean /*no_err*/, int sel_field, boolean first_call, const RAW_Force_Omit*){ - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - int decoded_length=0; - int decoded_field_length=0; - size_t start_of_field=0; - if(first_call) { - clean_up(); - val_ptr=new recordof_setof_struct; - val_ptr->ref_count=1; - val_ptr->n_elements=0; - val_ptr->value_elements=NULL; - } - int start_field=val_ptr->n_elements; - if(p_td.raw->fieldlength || sel_field!=-1){ - int a=0; - if(sel_field==-1) sel_field=p_td.raw->fieldlength; - for(a=0;an_elements=0; - } else { - if(limit==0){ - if(!first_call) return -1; - val_ptr->n_elements=0; - return decoded_length+p_buf.increase_pos_padd(p_td.raw->padding)+prepaddlength; - } - int a=start_field; - while(limit>0){ - start_of_field=p_buf.get_pos_bit(); - decoded_field_length=(*this)[a].RAW_decode(*p_td.oftype_descr,p_buf,limit,top_bit_ord,TRUE); - if(decoded_field_length < 0){ - delete &(*this)[a]; - val_ptr->n_elements--; - p_buf.set_pos_bit(start_of_field); - if(a>start_field){ - return decoded_length+p_buf.increase_pos_padd(p_td.raw->padding)+prepaddlength; - } else return -1; - } - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - a++; - } - } - return decoded_length+p_buf.increase_pos_padd(p_td.raw->padding)+prepaddlength; -} - -int PCUIF__InfoTrxs::RAW_encode(const TTCN_Typedescriptor_t& p_td,RAW_enc_tree& myleaf) const{ - int encoded_length=0; - int encoded_num_of_records=p_td.raw->fieldlength?smaller(val_ptr->n_elements, p_td.raw->fieldlength):val_ptr->n_elements; - myleaf.isleaf=FALSE; - myleaf.rec_of=TRUE; - myleaf.body.node.num_of_nodes=encoded_num_of_records; - myleaf.body.node.nodes=init_nodes_of_enc_tree(encoded_num_of_records); - for(int a=0;araw); - encoded_length+=(*this)[a].RAW_encode(*p_td.oftype_descr,*myleaf.body.node.nodes[a]); - } - return myleaf.length=encoded_length; -} - -void PCUIF__InfoTrxs_template::copy_value(const PCUIF__InfoTrxs& other_value) -{ -if (!other_value.is_bound()) TTCN_error("Initialization of a template of type @PCUIF_Types.PCUIF_InfoTrxs with an unbound value."); -single_value.n_elements = other_value.size_of(); -single_value.value_elements = (PCUIF__InfoTrx_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (other_value[elem_count].is_bound()) { -single_value.value_elements[elem_count] = new PCUIF__InfoTrx_template(other_value[elem_count]); -} else { -single_value.value_elements[elem_count] = new PCUIF__InfoTrx_template; -} -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__InfoTrxs_template::copy_template(const PCUIF__InfoTrxs_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value.n_elements = other_value.single_value.n_elements; -single_value.value_elements = (PCUIF__InfoTrx_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (UNINITIALIZED_TEMPLATE != other_value.single_value.value_elements[elem_count]->get_selection()) { -single_value.value_elements[elem_count] = new PCUIF__InfoTrx_template(*other_value.single_value.value_elements[elem_count]); -} else { -single_value.value_elements[elem_count] = new PCUIF__InfoTrx_template; -} -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__InfoTrxs_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_InfoTrxs."); -break; -} -set_selection(other_value); -} - -boolean PCUIF__InfoTrxs_template::match_function_specific(const Base_Type *value_ptr, int value_index, const Restricted_Length_Template *template_ptr, int template_index, boolean legacy) -{ -if (value_index >= 0) return ((const PCUIF__InfoTrxs_template*)template_ptr)->single_value.value_elements[template_index]->match((*(const PCUIF__InfoTrxs*)value_ptr)[value_index], legacy); -else return ((const PCUIF__InfoTrxs_template*)template_ptr)->single_value.value_elements[template_index]->is_any_or_omit(); -} - -PCUIF__InfoTrxs_template::PCUIF__InfoTrxs_template() -{ -} - -PCUIF__InfoTrxs_template::PCUIF__InfoTrxs_template(template_sel other_value) - : Record_Of_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__InfoTrxs_template::PCUIF__InfoTrxs_template(null_type) - : Record_Of_Template(SPECIFIC_VALUE) -{ -single_value.n_elements = 0; -single_value.value_elements = NULL; -} - -PCUIF__InfoTrxs_template::PCUIF__InfoTrxs_template(const PCUIF__InfoTrxs& other_value) -{ -copy_value(other_value); -} - -PCUIF__InfoTrxs_template::PCUIF__InfoTrxs_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__InfoTrxs&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_InfoTrxs from an unbound optional field."); -} -} - -PCUIF__InfoTrxs_template::PCUIF__InfoTrxs_template(const PCUIF__InfoTrxs_template& other_value) - : Record_Of_Template() -{ -copy_template(other_value); -} - -PCUIF__InfoTrxs_template::~PCUIF__InfoTrxs_template() -{ -clean_up(); -} - -void PCUIF__InfoTrxs_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -delete single_value.value_elements[elem_count]; -free_pointers((void**)single_value.value_elements); -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__InfoTrxs_template& PCUIF__InfoTrxs_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__InfoTrxs_template& PCUIF__InfoTrxs_template::operator=(null_type) -{ -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value.n_elements = 0; -single_value.value_elements = NULL; -return *this; -} - -PCUIF__InfoTrxs_template& PCUIF__InfoTrxs_template::operator=(const PCUIF__InfoTrxs& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__InfoTrxs_template& PCUIF__InfoTrxs_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__InfoTrxs&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_InfoTrxs."); -} -return *this; -} - -PCUIF__InfoTrxs_template& PCUIF__InfoTrxs_template::operator=(const PCUIF__InfoTrxs_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -PCUIF__InfoTrx_template& PCUIF__InfoTrxs_template::operator[](int index_value) -{ -if (index_value < 0) TTCN_error("Accessing an element of a template for type @PCUIF_Types.PCUIF_InfoTrxs using a negative index: %d.", index_value); -switch (template_selection) -{ - case SPECIFIC_VALUE: - if(index_value < single_value.n_elements) break; - // no break - case OMIT_VALUE: - case ANY_VALUE: - case ANY_OR_OMIT: - case UNINITIALIZED_TEMPLATE: - set_size(index_value + 1); - break; - default: - TTCN_error("Accessing an element of a non-specific template for type @PCUIF_Types.PCUIF_InfoTrxs."); - break; -} -return *single_value.value_elements[index_value]; -} - -PCUIF__InfoTrx_template& PCUIF__InfoTrxs_template::operator[](const INTEGER& index_value) -{ -index_value.must_bound("Using an unbound integer value for indexing a template of type @PCUIF_Types.PCUIF_InfoTrxs."); -return (*this)[(int)index_value]; -} - -const PCUIF__InfoTrx_template& PCUIF__InfoTrxs_template::operator[](int index_value) const -{ -if (index_value < 0) TTCN_error("Accessing an element of a template for type @PCUIF_Types.PCUIF_InfoTrxs using a negative index: %d.", index_value); -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing an element of a non-specific template for type @PCUIF_Types.PCUIF_InfoTrxs."); -if (index_value >= single_value.n_elements) TTCN_error("Index overflow in a template of type @PCUIF_Types.PCUIF_InfoTrxs: The index is %d, but the template has only %d elements.", index_value, single_value.n_elements); -return *single_value.value_elements[index_value]; -} - -const PCUIF__InfoTrx_template& PCUIF__InfoTrxs_template::operator[](const INTEGER& index_value) const -{ -index_value.must_bound("Using an unbound integer value for indexing a template of type @PCUIF_Types.PCUIF_InfoTrxs."); -return (*this)[(int)index_value]; -} - -void PCUIF__InfoTrxs_template::set_size(int new_size) -{ -if (new_size < 0) TTCN_error("Internal error: Setting a negative size for a template of type @PCUIF_Types.PCUIF_InfoTrxs."); -template_sel old_selection = template_selection; -if (old_selection != SPECIFIC_VALUE) { -clean_up(); -set_selection(SPECIFIC_VALUE); -single_value.n_elements = 0; -single_value.value_elements = NULL; -} -if (new_size > single_value.n_elements) { -single_value.value_elements = (PCUIF__InfoTrx_template**)reallocate_pointers((void**)single_value.value_elements, single_value.n_elements, new_size); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -for (int elem_count = single_value.n_elements; elem_count < new_size; elem_count++) -single_value.value_elements[elem_count] = new PCUIF__InfoTrx_template(ANY_VALUE); -} else { -for (int elem_count = single_value.n_elements; elem_count < new_size; elem_count++) -single_value.value_elements[elem_count] = new PCUIF__InfoTrx_template; -} -single_value.n_elements = new_size; -} else if (new_size < single_value.n_elements) { -for (int elem_count = new_size; elem_count < single_value.n_elements; elem_count++) -delete single_value.value_elements[elem_count]; -single_value.value_elements = (PCUIF__InfoTrx_template**)reallocate_pointers((void**)single_value.value_elements, single_value.n_elements, new_size); -single_value.n_elements = new_size; -} -} - -int PCUIF__InfoTrxs_template::n_elem() const -{ - switch (template_selection) { - case SPECIFIC_VALUE: - return single_value.n_elements; - break; - case VALUE_LIST: - return value_list.n_values; - break; - default: - TTCN_error("Performing n_elem"); - } -} - -int PCUIF__InfoTrxs_template::size_of(boolean is_size) const -{ -const char* op_name = is_size ? "size" : "length"; -int min_size; -boolean has_any_or_none; -if (is_ifpresent) TTCN_error("Performing %sof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrxs which has an ifpresent attribute.", op_name); -switch (template_selection) -{ -case SPECIFIC_VALUE: { - min_size = 0; - has_any_or_none = FALSE; - int elem_count = single_value.n_elements; - if (!is_size) { while (elem_count>0 && !single_value.value_elements[elem_count-1]->is_bound()) elem_count--; } - for (int i=0; iget_selection()) { - case OMIT_VALUE: - TTCN_error("Performing %sof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrxs containing omit element.", op_name); - case ANY_OR_OMIT: - has_any_or_none = TRUE; - break; - default: - min_size++; - break; - } - } -} break; -case OMIT_VALUE: - TTCN_error("Performing %sof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrxs containing omit value.", op_name); -case ANY_VALUE: -case ANY_OR_OMIT: - min_size = 0; - has_any_or_none = TRUE; - break; -case VALUE_LIST: -{ - if (value_list.n_values<1) - TTCN_error("Performing %sof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrxs containing an empty list.", op_name); - int item_size = value_list.list_value[0].size_of(is_size); - for (unsigned int i = 1; i < value_list.n_values; i++) { - if (value_list.list_value[i].size_of(is_size)!=item_size) - TTCN_error("Performing %sof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrxs containing a value list with different sizes.", op_name); - } - min_size = item_size; - has_any_or_none = FALSE; - break; -} -case COMPLEMENTED_LIST: - TTCN_error("Performing %sof() operation on a template of type @PCUIF_Types.PCUIF_InfoTrxs containing complemented list.", op_name); -default: - TTCN_error("Performing %sof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_InfoTrxs.", op_name); -} -return check_section_is_single(min_size, has_any_or_none, op_name, "a", "template of type @PCUIF_Types.PCUIF_InfoTrxs"); -} - -boolean PCUIF__InfoTrxs_template::match(const PCUIF__InfoTrxs& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -int value_length = other_value.size_of(); -if (!match_length(value_length)) return FALSE; -switch (template_selection) { -case SPECIFIC_VALUE: -return match_record_of(&other_value, value_length, this, single_value.n_elements, match_function_specific, legacy); -case OMIT_VALUE: -return FALSE; -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching with an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_InfoTrxs."); -} -return FALSE; -} - -boolean PCUIF__InfoTrxs_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -if (!single_value.value_elements[elem_count]->is_value()) return FALSE; -return TRUE; -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_InfoTrxs."); -PCUIF__InfoTrxs ret_val; -ret_val.set_size(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -if (single_value.value_elements[elem_count]->is_bound()) { -ret_val[elem_count] = single_value.value_elements[elem_count]->valueof(); -} -return ret_val; -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs_template::substr(int index, int returncount) const -{ -if (!is_value()) TTCN_error("The first argument of function substr() is a template with non-specific value."); -return valueof().substr(index, returncount); -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs_template::replace(int index, int len, const PCUIF__InfoTrxs_template& repl) const -{ -if (!is_value()) TTCN_error("The first argument of function replace() is a template with non-specific value."); -if (!repl.is_value()) TTCN_error("The fourth argument of function replace() is a template with non-specific value."); -return valueof().replace(index, len, repl.valueof()); -} - -PCUIF__InfoTrxs PCUIF__InfoTrxs_template::replace(int index, int len, const PCUIF__InfoTrxs& repl) const -{ -if (!is_value()) TTCN_error("The first argument of function replace() is a template with non-specific value."); -return valueof().replace(index, len, repl); -} - -void PCUIF__InfoTrxs_template::set_type(template_sel template_type, unsigned int list_length) -{ -clean_up(); -switch (template_type) { -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = list_length; -value_list.list_value = new PCUIF__InfoTrxs_template[list_length]; -break; -default: -TTCN_error("Internal error: Setting an invalid type for a template of type @PCUIF_Types.PCUIF_InfoTrxs."); -} -set_selection(template_type); -} - -PCUIF__InfoTrxs_template& PCUIF__InfoTrxs_template::list_item(unsigned int list_index) -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Internal error: Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_InfoTrxs."); -if (list_index >= value_list.n_values) TTCN_error("Internal error: Index overflow in a value list template of type @PCUIF_Types.PCUIF_InfoTrxs."); -return value_list.list_value[list_index]; -} - -void PCUIF__InfoTrxs_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -if (single_value.n_elements > 0) { -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -if (permutation_starts_at(elem_count)) TTCN_Logger::log_event_str("permutation("); -single_value.value_elements[elem_count]->log(); -if (permutation_ends_at(elem_count)) TTCN_Logger::log_char(')'); -} -TTCN_Logger::log_event_str(" }"); -} else TTCN_Logger::log_event_str("{ }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_restricted(); -log_ifpresent(); -} - -void PCUIF__InfoTrxs_template::log_match(const PCUIF__InfoTrxs& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -}else{ -if (template_selection == SPECIFIC_VALUE && single_value.n_elements > 0 && get_number_of_permutations() == 0 && single_value.n_elements == match_value.size_of()) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if(!single_value.value_elements[elem_count]->match(match_value[elem_count], legacy)){ -TTCN_Logger::log_logmatch_info("[%d]", elem_count); -single_value.value_elements[elem_count]->log_match(match_value[elem_count], legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -} -log_match_length(single_value.n_elements); -} else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE && single_value.n_elements > 0 && get_number_of_permutations() == 0 && single_value.n_elements == match_value.size_of()) { -TTCN_Logger::log_event_str("{ "); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -if (elem_count > 0) TTCN_Logger::log_event_str(", "); -single_value.value_elements[elem_count]->log_match(match_value[elem_count], legacy); -} -TTCN_Logger::log_event_str(" }"); -log_match_length(single_value.n_elements); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__InfoTrxs_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_permutation(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) -single_value.value_elements[elem_count]->encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_InfoTrxs."); -} -} - -void PCUIF__InfoTrxs_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_permutation(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value.n_elements = text_buf.pull_int().get_val(); -if (single_value.n_elements < 0) TTCN_error("Text decoder: Negative size was received for a template of type @PCUIF_Types.PCUIF_InfoTrxs."); -single_value.value_elements = (PCUIF__InfoTrx_template**)allocate_pointers(single_value.n_elements); -for (int elem_count = 0; elem_count < single_value.n_elements; elem_count++) { -single_value.value_elements[elem_count] = new PCUIF__InfoTrx_template; -single_value.value_elements[elem_count]->decode_text(text_buf); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__InfoTrxs_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received for a template of type @PCUIF_Types.PCUIF_InfoTrxs."); -} -} - -boolean PCUIF__InfoTrxs_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__InfoTrxs_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int i=0; iget_id()->get_index())].set_param(*param.get_elem(p_i)); - } - break; - case Module_Param::MP_Value_List: { - set_size(param.get_size()); - int curr_idx = 0; - for (size_t p_i=0; p_iget_type()) { - case Module_Param::MP_NotUsed: - curr_idx++; - break; - case Module_Param::MP_Permutation_Template: { - int perm_start_idx = curr_idx; - Module_Param* param_i = param.get_elem(p_i); - for (size_t perm_i=0; perm_iget_size(); perm_i++) { - (*this)[curr_idx].set_param(*(param_i->get_elem(perm_i))); - curr_idx++; - } - int perm_end_idx = curr_idx - 1; - add_permutation(perm_start_idx, perm_end_idx); - } break; - default: - (*this)[curr_idx].set_param(*param.get_elem(p_i)); - curr_idx++; - } - } - } break; - default: - param.type_error("record of template", "@PCUIF_Types.PCUIF_InfoTrxs"); - } - is_ifpresent = param.get_ifpresent(); - set_length_range(param); -} - -void PCUIF__InfoTrxs_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -for (int i=0; icheck_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_InfoTrxs"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_InfoTrxs"); -} - -boolean PCUIF__InfoTrxs_template::get_istemplate_kind(const char* type) const { -if (!strcmp(type, "AnyElement")) { - if (template_selection != SPECIFIC_VALUE) { - return FALSE; - } - for (int i = 0; i < single_value.n_elements; i++) { - if (single_value.value_elements[i]->get_selection() == ANY_VALUE) { - return TRUE; - } - } - return FALSE; -} else if (!strcmp(type, "AnyElementsOrNone")) { - if (template_selection != SPECIFIC_VALUE) { - return FALSE; - } - for (int i = 0; i < single_value.n_elements; i++) { - if (single_value.value_elements[i]->get_selection() == ANY_OR_OMIT) { - return TRUE; - } - } - return FALSE; -} else if (!strcmp(type, "permutation")) { - return number_of_permutations; -} else if (!strcmp(type, "length")) { - return length_restriction_type != NO_LENGTH_RESTRICTION; -} else { - return Base_Template::get_istemplate_kind(type); -} -} -PCUIF__info__ind::PCUIF__info__ind() -{ -} - -PCUIF__info__ind::PCUIF__info__ind(const INTEGER& par_version, - const PCUIF__Flags& par_flags, - const PCUIF__InfoTrxs& par_trx, - const INTEGER& par_bsic, - const INTEGER& par_mcc, - const INTEGER& par_mnc, - const INTEGER& par_mnc__3__digits, - const INTEGER& par_lac, - const INTEGER& par_rac, - const INTEGER& par_nsei, - const PCUIF__info__ind_nse__timer& par_nse__timer, - const PCUIF__info__ind_cell__timer& par_cell__timer, - const INTEGER& par_cell__id, - const INTEGER& par_repeat__time, - const INTEGER& par_repeat__count, - const INTEGER& par_bvci, - const INTEGER& par_t3142, - const INTEGER& par_t3169, - const INTEGER& par_t3191, - const INTEGER& par_t3193__10ms, - const INTEGER& par_t3195, - const INTEGER& par_t3101, - const INTEGER& par_t3103, - const INTEGER& par_t3105, - const INTEGER& par_cv__countdown, - const INTEGER& par_dl__tbf__ext, - const INTEGER& par_ul__tbf__ext, - const INTEGER& par_initial__cs, - const INTEGER& par_initial__mcs, - const PCUIF__info__ind_nsvci& par_nsvci, - const PCUIF__info__ind_local__pprt& par_local__pprt, - const PCUIF__info__ind_remote__port& par_remote__port, - const PCUIF__info__ind_remote__ip& par_remote__ip) - : field_version(par_version), - field_flags(par_flags), - field_trx(par_trx), - field_bsic(par_bsic), - field_mcc(par_mcc), - field_mnc(par_mnc), - field_mnc__3__digits(par_mnc__3__digits), - field_lac(par_lac), - field_rac(par_rac), - field_nsei(par_nsei), - field_nse__timer(par_nse__timer), - field_cell__timer(par_cell__timer), - field_cell__id(par_cell__id), - field_repeat__time(par_repeat__time), - field_repeat__count(par_repeat__count), - field_bvci(par_bvci), - field_t3142(par_t3142), - field_t3169(par_t3169), - field_t3191(par_t3191), - field_t3193__10ms(par_t3193__10ms), - field_t3195(par_t3195), - field_t3101(par_t3101), - field_t3103(par_t3103), - field_t3105(par_t3105), - field_cv__countdown(par_cv__countdown), - field_dl__tbf__ext(par_dl__tbf__ext), - field_ul__tbf__ext(par_ul__tbf__ext), - field_initial__cs(par_initial__cs), - field_initial__mcs(par_initial__mcs), - field_nsvci(par_nsvci), - field_local__pprt(par_local__pprt), - field_remote__port(par_remote__port), - field_remote__ip(par_remote__ip) -{ -} - -PCUIF__info__ind::PCUIF__info__ind(const PCUIF__info__ind& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @PCUIF_Types.PCUIF_info_ind."); -if (other_value.version().is_bound()) field_version = other_value.version(); -else field_version.clean_up(); -if (other_value.flags().is_bound()) field_flags = other_value.flags(); -else field_flags.clean_up(); -if (other_value.trx().is_bound()) field_trx = other_value.trx(); -else field_trx.clean_up(); -if (other_value.bsic().is_bound()) field_bsic = other_value.bsic(); -else field_bsic.clean_up(); -if (other_value.mcc().is_bound()) field_mcc = other_value.mcc(); -else field_mcc.clean_up(); -if (other_value.mnc().is_bound()) field_mnc = other_value.mnc(); -else field_mnc.clean_up(); -if (other_value.mnc__3__digits().is_bound()) field_mnc__3__digits = other_value.mnc__3__digits(); -else field_mnc__3__digits.clean_up(); -if (other_value.lac().is_bound()) field_lac = other_value.lac(); -else field_lac.clean_up(); -if (other_value.rac().is_bound()) field_rac = other_value.rac(); -else field_rac.clean_up(); -if (other_value.nsei().is_bound()) field_nsei = other_value.nsei(); -else field_nsei.clean_up(); -if (other_value.nse__timer().is_bound()) field_nse__timer = other_value.nse__timer(); -else field_nse__timer.clean_up(); -if (other_value.cell__timer().is_bound()) field_cell__timer = other_value.cell__timer(); -else field_cell__timer.clean_up(); -if (other_value.cell__id().is_bound()) field_cell__id = other_value.cell__id(); -else field_cell__id.clean_up(); -if (other_value.repeat__time().is_bound()) field_repeat__time = other_value.repeat__time(); -else field_repeat__time.clean_up(); -if (other_value.repeat__count().is_bound()) field_repeat__count = other_value.repeat__count(); -else field_repeat__count.clean_up(); -if (other_value.bvci().is_bound()) field_bvci = other_value.bvci(); -else field_bvci.clean_up(); -if (other_value.t3142().is_bound()) field_t3142 = other_value.t3142(); -else field_t3142.clean_up(); -if (other_value.t3169().is_bound()) field_t3169 = other_value.t3169(); -else field_t3169.clean_up(); -if (other_value.t3191().is_bound()) field_t3191 = other_value.t3191(); -else field_t3191.clean_up(); -if (other_value.t3193__10ms().is_bound()) field_t3193__10ms = other_value.t3193__10ms(); -else field_t3193__10ms.clean_up(); -if (other_value.t3195().is_bound()) field_t3195 = other_value.t3195(); -else field_t3195.clean_up(); -if (other_value.t3101().is_bound()) field_t3101 = other_value.t3101(); -else field_t3101.clean_up(); -if (other_value.t3103().is_bound()) field_t3103 = other_value.t3103(); -else field_t3103.clean_up(); -if (other_value.t3105().is_bound()) field_t3105 = other_value.t3105(); -else field_t3105.clean_up(); -if (other_value.cv__countdown().is_bound()) field_cv__countdown = other_value.cv__countdown(); -else field_cv__countdown.clean_up(); -if (other_value.dl__tbf__ext().is_bound()) field_dl__tbf__ext = other_value.dl__tbf__ext(); -else field_dl__tbf__ext.clean_up(); -if (other_value.ul__tbf__ext().is_bound()) field_ul__tbf__ext = other_value.ul__tbf__ext(); -else field_ul__tbf__ext.clean_up(); -if (other_value.initial__cs().is_bound()) field_initial__cs = other_value.initial__cs(); -else field_initial__cs.clean_up(); -if (other_value.initial__mcs().is_bound()) field_initial__mcs = other_value.initial__mcs(); -else field_initial__mcs.clean_up(); -if (other_value.nsvci().is_bound()) field_nsvci = other_value.nsvci(); -else field_nsvci.clean_up(); -if (other_value.local__pprt().is_bound()) field_local__pprt = other_value.local__pprt(); -else field_local__pprt.clean_up(); -if (other_value.remote__port().is_bound()) field_remote__port = other_value.remote__port(); -else field_remote__port.clean_up(); -if (other_value.remote__ip().is_bound()) field_remote__ip = other_value.remote__ip(); -else field_remote__ip.clean_up(); -} - -void PCUIF__info__ind::clean_up() -{ -field_version.clean_up(); -field_flags.clean_up(); -field_trx.clean_up(); -field_bsic.clean_up(); -field_mcc.clean_up(); -field_mnc.clean_up(); -field_mnc__3__digits.clean_up(); -field_lac.clean_up(); -field_rac.clean_up(); -field_nsei.clean_up(); -field_nse__timer.clean_up(); -field_cell__timer.clean_up(); -field_cell__id.clean_up(); -field_repeat__time.clean_up(); -field_repeat__count.clean_up(); -field_bvci.clean_up(); -field_t3142.clean_up(); -field_t3169.clean_up(); -field_t3191.clean_up(); -field_t3193__10ms.clean_up(); -field_t3195.clean_up(); -field_t3101.clean_up(); -field_t3103.clean_up(); -field_t3105.clean_up(); -field_cv__countdown.clean_up(); -field_dl__tbf__ext.clean_up(); -field_ul__tbf__ext.clean_up(); -field_initial__cs.clean_up(); -field_initial__mcs.clean_up(); -field_nsvci.clean_up(); -field_local__pprt.clean_up(); -field_remote__port.clean_up(); -field_remote__ip.clean_up(); -} - -const TTCN_Typedescriptor_t* PCUIF__info__ind::get_descriptor() const { return &PCUIF__info__ind_descr_; } -PCUIF__info__ind& PCUIF__info__ind::operator=(const PCUIF__info__ind& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @PCUIF_Types.PCUIF_info_ind."); - if (other_value.version().is_bound()) field_version = other_value.version(); - else field_version.clean_up(); - if (other_value.flags().is_bound()) field_flags = other_value.flags(); - else field_flags.clean_up(); - if (other_value.trx().is_bound()) field_trx = other_value.trx(); - else field_trx.clean_up(); - if (other_value.bsic().is_bound()) field_bsic = other_value.bsic(); - else field_bsic.clean_up(); - if (other_value.mcc().is_bound()) field_mcc = other_value.mcc(); - else field_mcc.clean_up(); - if (other_value.mnc().is_bound()) field_mnc = other_value.mnc(); - else field_mnc.clean_up(); - if (other_value.mnc__3__digits().is_bound()) field_mnc__3__digits = other_value.mnc__3__digits(); - else field_mnc__3__digits.clean_up(); - if (other_value.lac().is_bound()) field_lac = other_value.lac(); - else field_lac.clean_up(); - if (other_value.rac().is_bound()) field_rac = other_value.rac(); - else field_rac.clean_up(); - if (other_value.nsei().is_bound()) field_nsei = other_value.nsei(); - else field_nsei.clean_up(); - if (other_value.nse__timer().is_bound()) field_nse__timer = other_value.nse__timer(); - else field_nse__timer.clean_up(); - if (other_value.cell__timer().is_bound()) field_cell__timer = other_value.cell__timer(); - else field_cell__timer.clean_up(); - if (other_value.cell__id().is_bound()) field_cell__id = other_value.cell__id(); - else field_cell__id.clean_up(); - if (other_value.repeat__time().is_bound()) field_repeat__time = other_value.repeat__time(); - else field_repeat__time.clean_up(); - if (other_value.repeat__count().is_bound()) field_repeat__count = other_value.repeat__count(); - else field_repeat__count.clean_up(); - if (other_value.bvci().is_bound()) field_bvci = other_value.bvci(); - else field_bvci.clean_up(); - if (other_value.t3142().is_bound()) field_t3142 = other_value.t3142(); - else field_t3142.clean_up(); - if (other_value.t3169().is_bound()) field_t3169 = other_value.t3169(); - else field_t3169.clean_up(); - if (other_value.t3191().is_bound()) field_t3191 = other_value.t3191(); - else field_t3191.clean_up(); - if (other_value.t3193__10ms().is_bound()) field_t3193__10ms = other_value.t3193__10ms(); - else field_t3193__10ms.clean_up(); - if (other_value.t3195().is_bound()) field_t3195 = other_value.t3195(); - else field_t3195.clean_up(); - if (other_value.t3101().is_bound()) field_t3101 = other_value.t3101(); - else field_t3101.clean_up(); - if (other_value.t3103().is_bound()) field_t3103 = other_value.t3103(); - else field_t3103.clean_up(); - if (other_value.t3105().is_bound()) field_t3105 = other_value.t3105(); - else field_t3105.clean_up(); - if (other_value.cv__countdown().is_bound()) field_cv__countdown = other_value.cv__countdown(); - else field_cv__countdown.clean_up(); - if (other_value.dl__tbf__ext().is_bound()) field_dl__tbf__ext = other_value.dl__tbf__ext(); - else field_dl__tbf__ext.clean_up(); - if (other_value.ul__tbf__ext().is_bound()) field_ul__tbf__ext = other_value.ul__tbf__ext(); - else field_ul__tbf__ext.clean_up(); - if (other_value.initial__cs().is_bound()) field_initial__cs = other_value.initial__cs(); - else field_initial__cs.clean_up(); - if (other_value.initial__mcs().is_bound()) field_initial__mcs = other_value.initial__mcs(); - else field_initial__mcs.clean_up(); - if (other_value.nsvci().is_bound()) field_nsvci = other_value.nsvci(); - else field_nsvci.clean_up(); - if (other_value.local__pprt().is_bound()) field_local__pprt = other_value.local__pprt(); - else field_local__pprt.clean_up(); - if (other_value.remote__port().is_bound()) field_remote__port = other_value.remote__port(); - else field_remote__port.clean_up(); - if (other_value.remote__ip().is_bound()) field_remote__ip = other_value.remote__ip(); - else field_remote__ip.clean_up(); -} -return *this; -} - -boolean PCUIF__info__ind::operator==(const PCUIF__info__ind& other_value) const -{ -return field_version==other_value.field_version - && field_flags==other_value.field_flags - && field_trx==other_value.field_trx - && field_bsic==other_value.field_bsic - && field_mcc==other_value.field_mcc - && field_mnc==other_value.field_mnc - && field_mnc__3__digits==other_value.field_mnc__3__digits - && field_lac==other_value.field_lac - && field_rac==other_value.field_rac - && field_nsei==other_value.field_nsei - && field_nse__timer==other_value.field_nse__timer - && field_cell__timer==other_value.field_cell__timer - && field_cell__id==other_value.field_cell__id - && field_repeat__time==other_value.field_repeat__time - && field_repeat__count==other_value.field_repeat__count - && field_bvci==other_value.field_bvci - && field_t3142==other_value.field_t3142 - && field_t3169==other_value.field_t3169 - && field_t3191==other_value.field_t3191 - && field_t3193__10ms==other_value.field_t3193__10ms - && field_t3195==other_value.field_t3195 - && field_t3101==other_value.field_t3101 - && field_t3103==other_value.field_t3103 - && field_t3105==other_value.field_t3105 - && field_cv__countdown==other_value.field_cv__countdown - && field_dl__tbf__ext==other_value.field_dl__tbf__ext - && field_ul__tbf__ext==other_value.field_ul__tbf__ext - && field_initial__cs==other_value.field_initial__cs - && field_initial__mcs==other_value.field_initial__mcs - && field_nsvci==other_value.field_nsvci - && field_local__pprt==other_value.field_local__pprt - && field_remote__port==other_value.field_remote__port - && field_remote__ip==other_value.field_remote__ip; -} - -boolean PCUIF__info__ind::is_bound() const -{ -if(field_version.is_bound()) return TRUE; -if(field_flags.is_bound()) return TRUE; -if(field_trx.is_bound()) return TRUE; -if(field_bsic.is_bound()) return TRUE; -if(field_mcc.is_bound()) return TRUE; -if(field_mnc.is_bound()) return TRUE; -if(field_mnc__3__digits.is_bound()) return TRUE; -if(field_lac.is_bound()) return TRUE; -if(field_rac.is_bound()) return TRUE; -if(field_nsei.is_bound()) return TRUE; -if(field_nse__timer.is_bound()) return TRUE; -if(field_cell__timer.is_bound()) return TRUE; -if(field_cell__id.is_bound()) return TRUE; -if(field_repeat__time.is_bound()) return TRUE; -if(field_repeat__count.is_bound()) return TRUE; -if(field_bvci.is_bound()) return TRUE; -if(field_t3142.is_bound()) return TRUE; -if(field_t3169.is_bound()) return TRUE; -if(field_t3191.is_bound()) return TRUE; -if(field_t3193__10ms.is_bound()) return TRUE; -if(field_t3195.is_bound()) return TRUE; -if(field_t3101.is_bound()) return TRUE; -if(field_t3103.is_bound()) return TRUE; -if(field_t3105.is_bound()) return TRUE; -if(field_cv__countdown.is_bound()) return TRUE; -if(field_dl__tbf__ext.is_bound()) return TRUE; -if(field_ul__tbf__ext.is_bound()) return TRUE; -if(field_initial__cs.is_bound()) return TRUE; -if(field_initial__mcs.is_bound()) return TRUE; -if(field_nsvci.is_bound()) return TRUE; -if(field_local__pprt.is_bound()) return TRUE; -if(field_remote__port.is_bound()) return TRUE; -if(field_remote__ip.is_bound()) return TRUE; -return FALSE; -} -boolean PCUIF__info__ind::is_value() const -{ -if(!field_version.is_value()) return FALSE; -if(!field_flags.is_value()) return FALSE; -if(!field_trx.is_value()) return FALSE; -if(!field_bsic.is_value()) return FALSE; -if(!field_mcc.is_value()) return FALSE; -if(!field_mnc.is_value()) return FALSE; -if(!field_mnc__3__digits.is_value()) return FALSE; -if(!field_lac.is_value()) return FALSE; -if(!field_rac.is_value()) return FALSE; -if(!field_nsei.is_value()) return FALSE; -if(!field_nse__timer.is_value()) return FALSE; -if(!field_cell__timer.is_value()) return FALSE; -if(!field_cell__id.is_value()) return FALSE; -if(!field_repeat__time.is_value()) return FALSE; -if(!field_repeat__count.is_value()) return FALSE; -if(!field_bvci.is_value()) return FALSE; -if(!field_t3142.is_value()) return FALSE; -if(!field_t3169.is_value()) return FALSE; -if(!field_t3191.is_value()) return FALSE; -if(!field_t3193__10ms.is_value()) return FALSE; -if(!field_t3195.is_value()) return FALSE; -if(!field_t3101.is_value()) return FALSE; -if(!field_t3103.is_value()) return FALSE; -if(!field_t3105.is_value()) return FALSE; -if(!field_cv__countdown.is_value()) return FALSE; -if(!field_dl__tbf__ext.is_value()) return FALSE; -if(!field_ul__tbf__ext.is_value()) return FALSE; -if(!field_initial__cs.is_value()) return FALSE; -if(!field_initial__mcs.is_value()) return FALSE; -if(!field_nsvci.is_value()) return FALSE; -if(!field_local__pprt.is_value()) return FALSE; -if(!field_remote__port.is_value()) return FALSE; -if(!field_remote__ip.is_value()) return FALSE; -return TRUE; -} -void PCUIF__info__ind::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ version := "); -field_version.log(); -TTCN_Logger::log_event_str(", flags := "); -field_flags.log(); -TTCN_Logger::log_event_str(", trx := "); -field_trx.log(); -TTCN_Logger::log_event_str(", bsic := "); -field_bsic.log(); -TTCN_Logger::log_event_str(", mcc := "); -field_mcc.log(); -TTCN_Logger::log_event_str(", mnc := "); -field_mnc.log(); -TTCN_Logger::log_event_str(", mnc_3_digits := "); -field_mnc__3__digits.log(); -TTCN_Logger::log_event_str(", lac := "); -field_lac.log(); -TTCN_Logger::log_event_str(", rac := "); -field_rac.log(); -TTCN_Logger::log_event_str(", nsei := "); -field_nsei.log(); -TTCN_Logger::log_event_str(", nse_timer := "); -field_nse__timer.log(); -TTCN_Logger::log_event_str(", cell_timer := "); -field_cell__timer.log(); -TTCN_Logger::log_event_str(", cell_id := "); -field_cell__id.log(); -TTCN_Logger::log_event_str(", repeat_time := "); -field_repeat__time.log(); -TTCN_Logger::log_event_str(", repeat_count := "); -field_repeat__count.log(); -TTCN_Logger::log_event_str(", bvci := "); -field_bvci.log(); -TTCN_Logger::log_event_str(", t3142 := "); -field_t3142.log(); -TTCN_Logger::log_event_str(", t3169 := "); -field_t3169.log(); -TTCN_Logger::log_event_str(", t3191 := "); -field_t3191.log(); -TTCN_Logger::log_event_str(", t3193_10ms := "); -field_t3193__10ms.log(); -TTCN_Logger::log_event_str(", t3195 := "); -field_t3195.log(); -TTCN_Logger::log_event_str(", t3101 := "); -field_t3101.log(); -TTCN_Logger::log_event_str(", t3103 := "); -field_t3103.log(); -TTCN_Logger::log_event_str(", t3105 := "); -field_t3105.log(); -TTCN_Logger::log_event_str(", cv_countdown := "); -field_cv__countdown.log(); -TTCN_Logger::log_event_str(", dl_tbf_ext := "); -field_dl__tbf__ext.log(); -TTCN_Logger::log_event_str(", ul_tbf_ext := "); -field_ul__tbf__ext.log(); -TTCN_Logger::log_event_str(", initial_cs := "); -field_initial__cs.log(); -TTCN_Logger::log_event_str(", initial_mcs := "); -field_initial__mcs.log(); -TTCN_Logger::log_event_str(", nsvci := "); -field_nsvci.log(); -TTCN_Logger::log_event_str(", local_pprt := "); -field_local__pprt.log(); -TTCN_Logger::log_event_str(", remote_port := "); -field_remote__port.log(); -TTCN_Logger::log_event_str(", remote_ip := "); -field_remote__ip.log(); -TTCN_Logger::log_event_str(" }"); -} - -void PCUIF__info__ind::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (330 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) version().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) flags().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) trx().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) bsic().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) mcc().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) mnc().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) mnc__3__digits().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) lac().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) rac().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) nsei().set_param(*param.get_elem(9)); - if (param.get_size()>10 && param.get_elem(10)->get_type()!=Module_Param::MP_NotUsed) nse__timer().set_param(*param.get_elem(10)); - if (param.get_size()>11 && param.get_elem(11)->get_type()!=Module_Param::MP_NotUsed) cell__timer().set_param(*param.get_elem(11)); - if (param.get_size()>12 && param.get_elem(12)->get_type()!=Module_Param::MP_NotUsed) cell__id().set_param(*param.get_elem(12)); - if (param.get_size()>13 && param.get_elem(13)->get_type()!=Module_Param::MP_NotUsed) repeat__time().set_param(*param.get_elem(13)); - if (param.get_size()>14 && param.get_elem(14)->get_type()!=Module_Param::MP_NotUsed) repeat__count().set_param(*param.get_elem(14)); - if (param.get_size()>15 && param.get_elem(15)->get_type()!=Module_Param::MP_NotUsed) bvci().set_param(*param.get_elem(15)); - if (param.get_size()>16 && param.get_elem(16)->get_type()!=Module_Param::MP_NotUsed) t3142().set_param(*param.get_elem(16)); - if (param.get_size()>17 && param.get_elem(17)->get_type()!=Module_Param::MP_NotUsed) t3169().set_param(*param.get_elem(17)); - if (param.get_size()>18 && param.get_elem(18)->get_type()!=Module_Param::MP_NotUsed) t3191().set_param(*param.get_elem(18)); - if (param.get_size()>19 && param.get_elem(19)->get_type()!=Module_Param::MP_NotUsed) t3193__10ms().set_param(*param.get_elem(19)); - if (param.get_size()>20 && param.get_elem(20)->get_type()!=Module_Param::MP_NotUsed) t3195().set_param(*param.get_elem(20)); - if (param.get_size()>21 && param.get_elem(21)->get_type()!=Module_Param::MP_NotUsed) t3101().set_param(*param.get_elem(21)); - if (param.get_size()>22 && param.get_elem(22)->get_type()!=Module_Param::MP_NotUsed) t3103().set_param(*param.get_elem(22)); - if (param.get_size()>23 && param.get_elem(23)->get_type()!=Module_Param::MP_NotUsed) t3105().set_param(*param.get_elem(23)); - if (param.get_size()>24 && param.get_elem(24)->get_type()!=Module_Param::MP_NotUsed) cv__countdown().set_param(*param.get_elem(24)); - if (param.get_size()>25 && param.get_elem(25)->get_type()!=Module_Param::MP_NotUsed) dl__tbf__ext().set_param(*param.get_elem(25)); - if (param.get_size()>26 && param.get_elem(26)->get_type()!=Module_Param::MP_NotUsed) ul__tbf__ext().set_param(*param.get_elem(26)); - if (param.get_size()>27 && param.get_elem(27)->get_type()!=Module_Param::MP_NotUsed) initial__cs().set_param(*param.get_elem(27)); - if (param.get_size()>28 && param.get_elem(28)->get_type()!=Module_Param::MP_NotUsed) initial__mcs().set_param(*param.get_elem(28)); - if (param.get_size()>29 && param.get_elem(29)->get_type()!=Module_Param::MP_NotUsed) nsvci().set_param(*param.get_elem(29)); - if (param.get_size()>30 && param.get_elem(30)->get_type()!=Module_Param::MP_NotUsed) local__pprt().set_param(*param.get_elem(30)); - if (param.get_size()>31 && param.get_elem(31)->get_type()!=Module_Param::MP_NotUsed) remote__port().set_param(*param.get_elem(31)); - if (param.get_size()>32 && param.get_elem(32)->get_type()!=Module_Param::MP_NotUsed) remote__ip().set_param(*param.get_elem(32)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "version")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - version().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "flags")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - flags().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "trx")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - trx().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "bsic")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - bsic().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcc")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcc().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mnc")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mnc().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mnc_3_digits")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mnc__3__digits().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lac")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lac().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rac")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rac().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "nsei")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - nsei().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "nse_timer")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - nse__timer().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cell_timer")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cell__timer().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cell_id")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cell__id().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "repeat_time")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - repeat__time().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "repeat_count")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - repeat__count().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "bvci")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - bvci().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3142")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3142().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3169")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3169().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3191")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3191().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3193_10ms")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3193__10ms().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3195")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3195().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3101")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3101().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3103")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3103().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3105")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3105().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cv_countdown")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cv__countdown().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "dl_tbf_ext")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - dl__tbf__ext().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ul_tbf_ext")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ul__tbf__ext().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "initial_cs")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - initial__cs().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "initial_mcs")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - initial__mcs().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "nsvci")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - nsvci().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "local_pprt")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - local__pprt().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "remote_port")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - remote__port().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "remote_ip")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - remote__ip().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_info_ind: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_info_ind"); - } -} - -void PCUIF__info__ind::set_implicit_omit() -{ -if (version().is_bound()) version().set_implicit_omit(); -if (flags().is_bound()) flags().set_implicit_omit(); -if (trx().is_bound()) trx().set_implicit_omit(); -if (bsic().is_bound()) bsic().set_implicit_omit(); -if (mcc().is_bound()) mcc().set_implicit_omit(); -if (mnc().is_bound()) mnc().set_implicit_omit(); -if (mnc__3__digits().is_bound()) mnc__3__digits().set_implicit_omit(); -if (lac().is_bound()) lac().set_implicit_omit(); -if (rac().is_bound()) rac().set_implicit_omit(); -if (nsei().is_bound()) nsei().set_implicit_omit(); -if (nse__timer().is_bound()) nse__timer().set_implicit_omit(); -if (cell__timer().is_bound()) cell__timer().set_implicit_omit(); -if (cell__id().is_bound()) cell__id().set_implicit_omit(); -if (repeat__time().is_bound()) repeat__time().set_implicit_omit(); -if (repeat__count().is_bound()) repeat__count().set_implicit_omit(); -if (bvci().is_bound()) bvci().set_implicit_omit(); -if (t3142().is_bound()) t3142().set_implicit_omit(); -if (t3169().is_bound()) t3169().set_implicit_omit(); -if (t3191().is_bound()) t3191().set_implicit_omit(); -if (t3193__10ms().is_bound()) t3193__10ms().set_implicit_omit(); -if (t3195().is_bound()) t3195().set_implicit_omit(); -if (t3101().is_bound()) t3101().set_implicit_omit(); -if (t3103().is_bound()) t3103().set_implicit_omit(); -if (t3105().is_bound()) t3105().set_implicit_omit(); -if (cv__countdown().is_bound()) cv__countdown().set_implicit_omit(); -if (dl__tbf__ext().is_bound()) dl__tbf__ext().set_implicit_omit(); -if (ul__tbf__ext().is_bound()) ul__tbf__ext().set_implicit_omit(); -if (initial__cs().is_bound()) initial__cs().set_implicit_omit(); -if (initial__mcs().is_bound()) initial__mcs().set_implicit_omit(); -if (nsvci().is_bound()) nsvci().set_implicit_omit(); -if (local__pprt().is_bound()) local__pprt().set_implicit_omit(); -if (remote__port().is_bound()) remote__port().set_implicit_omit(); -if (remote__ip().is_bound()) remote__ip().set_implicit_omit(); -} - -void PCUIF__info__ind::encode_text(Text_Buf& text_buf) const -{ -field_version.encode_text(text_buf); -field_flags.encode_text(text_buf); -field_trx.encode_text(text_buf); -field_bsic.encode_text(text_buf); -field_mcc.encode_text(text_buf); -field_mnc.encode_text(text_buf); -field_mnc__3__digits.encode_text(text_buf); -field_lac.encode_text(text_buf); -field_rac.encode_text(text_buf); -field_nsei.encode_text(text_buf); -field_nse__timer.encode_text(text_buf); -field_cell__timer.encode_text(text_buf); -field_cell__id.encode_text(text_buf); -field_repeat__time.encode_text(text_buf); -field_repeat__count.encode_text(text_buf); -field_bvci.encode_text(text_buf); -field_t3142.encode_text(text_buf); -field_t3169.encode_text(text_buf); -field_t3191.encode_text(text_buf); -field_t3193__10ms.encode_text(text_buf); -field_t3195.encode_text(text_buf); -field_t3101.encode_text(text_buf); -field_t3103.encode_text(text_buf); -field_t3105.encode_text(text_buf); -field_cv__countdown.encode_text(text_buf); -field_dl__tbf__ext.encode_text(text_buf); -field_ul__tbf__ext.encode_text(text_buf); -field_initial__cs.encode_text(text_buf); -field_initial__mcs.encode_text(text_buf); -field_nsvci.encode_text(text_buf); -field_local__pprt.encode_text(text_buf); -field_remote__port.encode_text(text_buf); -field_remote__ip.encode_text(text_buf); -} - -void PCUIF__info__ind::decode_text(Text_Buf& text_buf) -{ -field_version.decode_text(text_buf); -field_flags.decode_text(text_buf); -field_trx.decode_text(text_buf); -field_bsic.decode_text(text_buf); -field_mcc.decode_text(text_buf); -field_mnc.decode_text(text_buf); -field_mnc__3__digits.decode_text(text_buf); -field_lac.decode_text(text_buf); -field_rac.decode_text(text_buf); -field_nsei.decode_text(text_buf); -field_nse__timer.decode_text(text_buf); -field_cell__timer.decode_text(text_buf); -field_cell__id.decode_text(text_buf); -field_repeat__time.decode_text(text_buf); -field_repeat__count.decode_text(text_buf); -field_bvci.decode_text(text_buf); -field_t3142.decode_text(text_buf); -field_t3169.decode_text(text_buf); -field_t3191.decode_text(text_buf); -field_t3193__10ms.decode_text(text_buf); -field_t3195.decode_text(text_buf); -field_t3101.decode_text(text_buf); -field_t3103.decode_text(text_buf); -field_t3105.decode_text(text_buf); -field_cv__countdown.decode_text(text_buf); -field_dl__tbf__ext.decode_text(text_buf); -field_ul__tbf__ext.decode_text(text_buf); -field_initial__cs.decode_text(text_buf); -field_initial__mcs.decode_text(text_buf); -field_nsvci.decode_text(text_buf); -field_local__pprt.decode_text(text_buf); -field_remote__port.decode_text(text_buf); -field_remote__ip.decode_text(text_buf); -} - -void PCUIF__info__ind::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__info__ind::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__info__ind::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__info__ind_version_descr_.raw->forceomit); - decoded_field_length = field_version.RAW_decode(PCUIF__info__ind_version_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__info__ind_flags_descr_.raw->forceomit); - decoded_field_length = field_flags.RAW_decode(PCUIF__info__ind_flags_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__info__ind_trx_descr_.raw->forceomit); - decoded_field_length = field_trx.RAW_decode(PCUIF__info__ind_trx_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, PCUIF__info__ind_bsic_descr_.raw->forceomit); - decoded_field_length = field_bsic.RAW_decode(PCUIF__info__ind_bsic_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_4_force_omit(4, force_omit, PCUIF__info__ind_mcc_descr_.raw->forceomit); - decoded_field_length = field_mcc.RAW_decode(PCUIF__info__ind_mcc_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_4_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_5_force_omit(5, force_omit, PCUIF__info__ind_mnc_descr_.raw->forceomit); - decoded_field_length = field_mnc.RAW_decode(PCUIF__info__ind_mnc_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_5_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_6_force_omit(6, force_omit, PCUIF__info__ind_mnc__3__digits_descr_.raw->forceomit); - decoded_field_length = field_mnc__3__digits.RAW_decode(PCUIF__info__ind_mnc__3__digits_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_6_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_7_force_omit(7, force_omit, PCUIF__info__ind_lac_descr_.raw->forceomit); - decoded_field_length = field_lac.RAW_decode(PCUIF__info__ind_lac_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_7_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_8_force_omit(8, force_omit, PCUIF__info__ind_rac_descr_.raw->forceomit); - decoded_field_length = field_rac.RAW_decode(PCUIF__info__ind_rac_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_8_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_9_force_omit(9, force_omit, PCUIF__info__ind_nsei_descr_.raw->forceomit); - decoded_field_length = field_nsei.RAW_decode(PCUIF__info__ind_nsei_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_9_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_10_force_omit(10, force_omit, PCUIF__info__ind_nse__timer_descr_.raw->forceomit); - decoded_field_length = field_nse__timer.RAW_decode(PCUIF__info__ind_nse__timer_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_10_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_11_force_omit(11, force_omit, PCUIF__info__ind_cell__timer_descr_.raw->forceomit); - decoded_field_length = field_cell__timer.RAW_decode(PCUIF__info__ind_cell__timer_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_11_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_12_force_omit(12, force_omit, PCUIF__info__ind_cell__id_descr_.raw->forceomit); - decoded_field_length = field_cell__id.RAW_decode(PCUIF__info__ind_cell__id_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_12_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_13_force_omit(13, force_omit, PCUIF__info__ind_repeat__time_descr_.raw->forceomit); - decoded_field_length = field_repeat__time.RAW_decode(PCUIF__info__ind_repeat__time_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_13_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_14_force_omit(14, force_omit, PCUIF__info__ind_repeat__count_descr_.raw->forceomit); - decoded_field_length = field_repeat__count.RAW_decode(PCUIF__info__ind_repeat__count_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_14_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_15_force_omit(15, force_omit, PCUIF__info__ind_bvci_descr_.raw->forceomit); - decoded_field_length = field_bvci.RAW_decode(PCUIF__info__ind_bvci_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_15_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_16_force_omit(16, force_omit, PCUIF__info__ind_t3142_descr_.raw->forceomit); - decoded_field_length = field_t3142.RAW_decode(PCUIF__info__ind_t3142_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_16_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_17_force_omit(17, force_omit, PCUIF__info__ind_t3169_descr_.raw->forceomit); - decoded_field_length = field_t3169.RAW_decode(PCUIF__info__ind_t3169_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_17_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_18_force_omit(18, force_omit, PCUIF__info__ind_t3191_descr_.raw->forceomit); - decoded_field_length = field_t3191.RAW_decode(PCUIF__info__ind_t3191_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_18_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_19_force_omit(19, force_omit, PCUIF__info__ind_t3193__10ms_descr_.raw->forceomit); - decoded_field_length = field_t3193__10ms.RAW_decode(PCUIF__info__ind_t3193__10ms_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_19_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_20_force_omit(20, force_omit, PCUIF__info__ind_t3195_descr_.raw->forceomit); - decoded_field_length = field_t3195.RAW_decode(PCUIF__info__ind_t3195_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_20_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_21_force_omit(21, force_omit, PCUIF__info__ind_t3101_descr_.raw->forceomit); - decoded_field_length = field_t3101.RAW_decode(PCUIF__info__ind_t3101_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_21_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_22_force_omit(22, force_omit, PCUIF__info__ind_t3103_descr_.raw->forceomit); - decoded_field_length = field_t3103.RAW_decode(PCUIF__info__ind_t3103_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_22_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_23_force_omit(23, force_omit, PCUIF__info__ind_t3105_descr_.raw->forceomit); - decoded_field_length = field_t3105.RAW_decode(PCUIF__info__ind_t3105_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_23_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_24_force_omit(24, force_omit, PCUIF__info__ind_cv__countdown_descr_.raw->forceomit); - decoded_field_length = field_cv__countdown.RAW_decode(PCUIF__info__ind_cv__countdown_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_24_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_25_force_omit(25, force_omit, PCUIF__info__ind_dl__tbf__ext_descr_.raw->forceomit); - decoded_field_length = field_dl__tbf__ext.RAW_decode(PCUIF__info__ind_dl__tbf__ext_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_25_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_26_force_omit(26, force_omit, PCUIF__info__ind_ul__tbf__ext_descr_.raw->forceomit); - decoded_field_length = field_ul__tbf__ext.RAW_decode(PCUIF__info__ind_ul__tbf__ext_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_26_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_27_force_omit(27, force_omit, PCUIF__info__ind_initial__cs_descr_.raw->forceomit); - decoded_field_length = field_initial__cs.RAW_decode(PCUIF__info__ind_initial__cs_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_27_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_28_force_omit(28, force_omit, PCUIF__info__ind_initial__mcs_descr_.raw->forceomit); - decoded_field_length = field_initial__mcs.RAW_decode(PCUIF__info__ind_initial__mcs_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_28_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_29_force_omit(29, force_omit, PCUIF__info__ind_nsvci_descr_.raw->forceomit); - decoded_field_length = field_nsvci.RAW_decode(PCUIF__info__ind_nsvci_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_29_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_30_force_omit(30, force_omit, PCUIF__info__ind_local__pprt_descr_.raw->forceomit); - decoded_field_length = field_local__pprt.RAW_decode(PCUIF__info__ind_local__pprt_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_30_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_31_force_omit(31, force_omit, PCUIF__info__ind_remote__port_descr_.raw->forceomit); - decoded_field_length = field_remote__port.RAW_decode(PCUIF__info__ind_remote__port_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_31_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_32_force_omit(32, force_omit, PCUIF__info__ind_remote__ip_descr_.raw->forceomit); - decoded_field_length = field_remote__ip.RAW_decode(PCUIF__info__ind_remote__ip_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_32_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__info__ind::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 33; - myleaf.body.node.nodes = init_nodes_of_enc_tree(33); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__info__ind_version_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__info__ind_flags_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, PCUIF__info__ind_trx_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, PCUIF__info__ind_bsic_descr_.raw); - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 4, PCUIF__info__ind_mcc_descr_.raw); - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 5, PCUIF__info__ind_mnc_descr_.raw); - myleaf.body.node.nodes[6] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 6, PCUIF__info__ind_mnc__3__digits_descr_.raw); - myleaf.body.node.nodes[7] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 7, PCUIF__info__ind_lac_descr_.raw); - myleaf.body.node.nodes[8] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 8, PCUIF__info__ind_rac_descr_.raw); - myleaf.body.node.nodes[9] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 9, PCUIF__info__ind_nsei_descr_.raw); - myleaf.body.node.nodes[10] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 10, PCUIF__info__ind_nse__timer_descr_.raw); - myleaf.body.node.nodes[11] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 11, PCUIF__info__ind_cell__timer_descr_.raw); - myleaf.body.node.nodes[12] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 12, PCUIF__info__ind_cell__id_descr_.raw); - myleaf.body.node.nodes[13] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 13, PCUIF__info__ind_repeat__time_descr_.raw); - myleaf.body.node.nodes[14] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 14, PCUIF__info__ind_repeat__count_descr_.raw); - myleaf.body.node.nodes[15] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 15, PCUIF__info__ind_bvci_descr_.raw); - myleaf.body.node.nodes[16] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 16, PCUIF__info__ind_t3142_descr_.raw); - myleaf.body.node.nodes[17] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 17, PCUIF__info__ind_t3169_descr_.raw); - myleaf.body.node.nodes[18] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 18, PCUIF__info__ind_t3191_descr_.raw); - myleaf.body.node.nodes[19] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 19, PCUIF__info__ind_t3193__10ms_descr_.raw); - myleaf.body.node.nodes[20] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 20, PCUIF__info__ind_t3195_descr_.raw); - myleaf.body.node.nodes[21] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 21, PCUIF__info__ind_t3101_descr_.raw); - myleaf.body.node.nodes[22] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 22, PCUIF__info__ind_t3103_descr_.raw); - myleaf.body.node.nodes[23] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 23, PCUIF__info__ind_t3105_descr_.raw); - myleaf.body.node.nodes[24] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 24, PCUIF__info__ind_cv__countdown_descr_.raw); - myleaf.body.node.nodes[25] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 25, PCUIF__info__ind_dl__tbf__ext_descr_.raw); - myleaf.body.node.nodes[26] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 26, PCUIF__info__ind_ul__tbf__ext_descr_.raw); - myleaf.body.node.nodes[27] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 27, PCUIF__info__ind_initial__cs_descr_.raw); - myleaf.body.node.nodes[28] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 28, PCUIF__info__ind_initial__mcs_descr_.raw); - myleaf.body.node.nodes[29] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 29, PCUIF__info__ind_nsvci_descr_.raw); - myleaf.body.node.nodes[30] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 30, PCUIF__info__ind_local__pprt_descr_.raw); - myleaf.body.node.nodes[31] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 31, PCUIF__info__ind_remote__port_descr_.raw); - myleaf.body.node.nodes[32] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 32, PCUIF__info__ind_remote__ip_descr_.raw); - encoded_length += field_version.RAW_encode(PCUIF__info__ind_version_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_flags.RAW_encode(PCUIF__info__ind_flags_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_trx.RAW_encode(PCUIF__info__ind_trx_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_bsic.RAW_encode(PCUIF__info__ind_bsic_descr_, *myleaf.body.node.nodes[3]); - encoded_length += field_mcc.RAW_encode(PCUIF__info__ind_mcc_descr_, *myleaf.body.node.nodes[4]); - encoded_length += field_mnc.RAW_encode(PCUIF__info__ind_mnc_descr_, *myleaf.body.node.nodes[5]); - encoded_length += field_mnc__3__digits.RAW_encode(PCUIF__info__ind_mnc__3__digits_descr_, *myleaf.body.node.nodes[6]); - encoded_length += field_lac.RAW_encode(PCUIF__info__ind_lac_descr_, *myleaf.body.node.nodes[7]); - encoded_length += field_rac.RAW_encode(PCUIF__info__ind_rac_descr_, *myleaf.body.node.nodes[8]); - encoded_length += field_nsei.RAW_encode(PCUIF__info__ind_nsei_descr_, *myleaf.body.node.nodes[9]); - encoded_length += field_nse__timer.RAW_encode(PCUIF__info__ind_nse__timer_descr_, *myleaf.body.node.nodes[10]); - encoded_length += field_cell__timer.RAW_encode(PCUIF__info__ind_cell__timer_descr_, *myleaf.body.node.nodes[11]); - encoded_length += field_cell__id.RAW_encode(PCUIF__info__ind_cell__id_descr_, *myleaf.body.node.nodes[12]); - encoded_length += field_repeat__time.RAW_encode(PCUIF__info__ind_repeat__time_descr_, *myleaf.body.node.nodes[13]); - encoded_length += field_repeat__count.RAW_encode(PCUIF__info__ind_repeat__count_descr_, *myleaf.body.node.nodes[14]); - encoded_length += field_bvci.RAW_encode(PCUIF__info__ind_bvci_descr_, *myleaf.body.node.nodes[15]); - encoded_length += field_t3142.RAW_encode(PCUIF__info__ind_t3142_descr_, *myleaf.body.node.nodes[16]); - encoded_length += field_t3169.RAW_encode(PCUIF__info__ind_t3169_descr_, *myleaf.body.node.nodes[17]); - encoded_length += field_t3191.RAW_encode(PCUIF__info__ind_t3191_descr_, *myleaf.body.node.nodes[18]); - encoded_length += field_t3193__10ms.RAW_encode(PCUIF__info__ind_t3193__10ms_descr_, *myleaf.body.node.nodes[19]); - encoded_length += field_t3195.RAW_encode(PCUIF__info__ind_t3195_descr_, *myleaf.body.node.nodes[20]); - encoded_length += field_t3101.RAW_encode(PCUIF__info__ind_t3101_descr_, *myleaf.body.node.nodes[21]); - encoded_length += field_t3103.RAW_encode(PCUIF__info__ind_t3103_descr_, *myleaf.body.node.nodes[22]); - encoded_length += field_t3105.RAW_encode(PCUIF__info__ind_t3105_descr_, *myleaf.body.node.nodes[23]); - encoded_length += field_cv__countdown.RAW_encode(PCUIF__info__ind_cv__countdown_descr_, *myleaf.body.node.nodes[24]); - encoded_length += field_dl__tbf__ext.RAW_encode(PCUIF__info__ind_dl__tbf__ext_descr_, *myleaf.body.node.nodes[25]); - encoded_length += field_ul__tbf__ext.RAW_encode(PCUIF__info__ind_ul__tbf__ext_descr_, *myleaf.body.node.nodes[26]); - encoded_length += field_initial__cs.RAW_encode(PCUIF__info__ind_initial__cs_descr_, *myleaf.body.node.nodes[27]); - encoded_length += field_initial__mcs.RAW_encode(PCUIF__info__ind_initial__mcs_descr_, *myleaf.body.node.nodes[28]); - encoded_length += field_nsvci.RAW_encode(PCUIF__info__ind_nsvci_descr_, *myleaf.body.node.nodes[29]); - encoded_length += field_local__pprt.RAW_encode(PCUIF__info__ind_local__pprt_descr_, *myleaf.body.node.nodes[30]); - encoded_length += field_remote__port.RAW_encode(PCUIF__info__ind_remote__port_descr_, *myleaf.body.node.nodes[31]); - encoded_length += field_remote__ip.RAW_encode(PCUIF__info__ind_remote__ip_descr_, *myleaf.body.node.nodes[32]); - return myleaf.length = encoded_length; -} - -struct PCUIF__info__ind_template::single_value_struct { -INTEGER_template field_version; -PCUIF__Flags_template field_flags; -PCUIF__InfoTrxs_template field_trx; -INTEGER_template field_bsic; -INTEGER_template field_mcc; -INTEGER_template field_mnc; -INTEGER_template field_mnc__3__digits; -INTEGER_template field_lac; -INTEGER_template field_rac; -INTEGER_template field_nsei; -PCUIF__info__ind_nse__timer_template field_nse__timer; -PCUIF__info__ind_cell__timer_template field_cell__timer; -INTEGER_template field_cell__id; -INTEGER_template field_repeat__time; -INTEGER_template field_repeat__count; -INTEGER_template field_bvci; -INTEGER_template field_t3142; -INTEGER_template field_t3169; -INTEGER_template field_t3191; -INTEGER_template field_t3193__10ms; -INTEGER_template field_t3195; -INTEGER_template field_t3101; -INTEGER_template field_t3103; -INTEGER_template field_t3105; -INTEGER_template field_cv__countdown; -INTEGER_template field_dl__tbf__ext; -INTEGER_template field_ul__tbf__ext; -INTEGER_template field_initial__cs; -INTEGER_template field_initial__mcs; -PCUIF__info__ind_nsvci_template field_nsvci; -PCUIF__info__ind_local__pprt_template field_local__pprt; -PCUIF__info__ind_remote__port_template field_remote__port; -PCUIF__info__ind_remote__ip_template field_remote__ip; -}; - -void PCUIF__info__ind_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_version = ANY_VALUE; -single_value->field_flags = ANY_VALUE; -single_value->field_trx = ANY_VALUE; -single_value->field_bsic = ANY_VALUE; -single_value->field_mcc = ANY_VALUE; -single_value->field_mnc = ANY_VALUE; -single_value->field_mnc__3__digits = ANY_VALUE; -single_value->field_lac = ANY_VALUE; -single_value->field_rac = ANY_VALUE; -single_value->field_nsei = ANY_VALUE; -single_value->field_nse__timer = ANY_VALUE; -single_value->field_cell__timer = ANY_VALUE; -single_value->field_cell__id = ANY_VALUE; -single_value->field_repeat__time = ANY_VALUE; -single_value->field_repeat__count = ANY_VALUE; -single_value->field_bvci = ANY_VALUE; -single_value->field_t3142 = ANY_VALUE; -single_value->field_t3169 = ANY_VALUE; -single_value->field_t3191 = ANY_VALUE; -single_value->field_t3193__10ms = ANY_VALUE; -single_value->field_t3195 = ANY_VALUE; -single_value->field_t3101 = ANY_VALUE; -single_value->field_t3103 = ANY_VALUE; -single_value->field_t3105 = ANY_VALUE; -single_value->field_cv__countdown = ANY_VALUE; -single_value->field_dl__tbf__ext = ANY_VALUE; -single_value->field_ul__tbf__ext = ANY_VALUE; -single_value->field_initial__cs = ANY_VALUE; -single_value->field_initial__mcs = ANY_VALUE; -single_value->field_nsvci = ANY_VALUE; -single_value->field_local__pprt = ANY_VALUE; -single_value->field_remote__port = ANY_VALUE; -single_value->field_remote__ip = ANY_VALUE; -} -} -} - -void PCUIF__info__ind_template::copy_value(const PCUIF__info__ind& other_value) -{ -single_value = new single_value_struct; -if (other_value.version().is_bound()) { - single_value->field_version = other_value.version(); -} else { - single_value->field_version.clean_up(); -} -if (other_value.flags().is_bound()) { - single_value->field_flags = other_value.flags(); -} else { - single_value->field_flags.clean_up(); -} -if (other_value.trx().is_bound()) { - single_value->field_trx = other_value.trx(); -} else { - single_value->field_trx.clean_up(); -} -if (other_value.bsic().is_bound()) { - single_value->field_bsic = other_value.bsic(); -} else { - single_value->field_bsic.clean_up(); -} -if (other_value.mcc().is_bound()) { - single_value->field_mcc = other_value.mcc(); -} else { - single_value->field_mcc.clean_up(); -} -if (other_value.mnc().is_bound()) { - single_value->field_mnc = other_value.mnc(); -} else { - single_value->field_mnc.clean_up(); -} -if (other_value.mnc__3__digits().is_bound()) { - single_value->field_mnc__3__digits = other_value.mnc__3__digits(); -} else { - single_value->field_mnc__3__digits.clean_up(); -} -if (other_value.lac().is_bound()) { - single_value->field_lac = other_value.lac(); -} else { - single_value->field_lac.clean_up(); -} -if (other_value.rac().is_bound()) { - single_value->field_rac = other_value.rac(); -} else { - single_value->field_rac.clean_up(); -} -if (other_value.nsei().is_bound()) { - single_value->field_nsei = other_value.nsei(); -} else { - single_value->field_nsei.clean_up(); -} -if (other_value.nse__timer().is_bound()) { - single_value->field_nse__timer = other_value.nse__timer(); -} else { - single_value->field_nse__timer.clean_up(); -} -if (other_value.cell__timer().is_bound()) { - single_value->field_cell__timer = other_value.cell__timer(); -} else { - single_value->field_cell__timer.clean_up(); -} -if (other_value.cell__id().is_bound()) { - single_value->field_cell__id = other_value.cell__id(); -} else { - single_value->field_cell__id.clean_up(); -} -if (other_value.repeat__time().is_bound()) { - single_value->field_repeat__time = other_value.repeat__time(); -} else { - single_value->field_repeat__time.clean_up(); -} -if (other_value.repeat__count().is_bound()) { - single_value->field_repeat__count = other_value.repeat__count(); -} else { - single_value->field_repeat__count.clean_up(); -} -if (other_value.bvci().is_bound()) { - single_value->field_bvci = other_value.bvci(); -} else { - single_value->field_bvci.clean_up(); -} -if (other_value.t3142().is_bound()) { - single_value->field_t3142 = other_value.t3142(); -} else { - single_value->field_t3142.clean_up(); -} -if (other_value.t3169().is_bound()) { - single_value->field_t3169 = other_value.t3169(); -} else { - single_value->field_t3169.clean_up(); -} -if (other_value.t3191().is_bound()) { - single_value->field_t3191 = other_value.t3191(); -} else { - single_value->field_t3191.clean_up(); -} -if (other_value.t3193__10ms().is_bound()) { - single_value->field_t3193__10ms = other_value.t3193__10ms(); -} else { - single_value->field_t3193__10ms.clean_up(); -} -if (other_value.t3195().is_bound()) { - single_value->field_t3195 = other_value.t3195(); -} else { - single_value->field_t3195.clean_up(); -} -if (other_value.t3101().is_bound()) { - single_value->field_t3101 = other_value.t3101(); -} else { - single_value->field_t3101.clean_up(); -} -if (other_value.t3103().is_bound()) { - single_value->field_t3103 = other_value.t3103(); -} else { - single_value->field_t3103.clean_up(); -} -if (other_value.t3105().is_bound()) { - single_value->field_t3105 = other_value.t3105(); -} else { - single_value->field_t3105.clean_up(); -} -if (other_value.cv__countdown().is_bound()) { - single_value->field_cv__countdown = other_value.cv__countdown(); -} else { - single_value->field_cv__countdown.clean_up(); -} -if (other_value.dl__tbf__ext().is_bound()) { - single_value->field_dl__tbf__ext = other_value.dl__tbf__ext(); -} else { - single_value->field_dl__tbf__ext.clean_up(); -} -if (other_value.ul__tbf__ext().is_bound()) { - single_value->field_ul__tbf__ext = other_value.ul__tbf__ext(); -} else { - single_value->field_ul__tbf__ext.clean_up(); -} -if (other_value.initial__cs().is_bound()) { - single_value->field_initial__cs = other_value.initial__cs(); -} else { - single_value->field_initial__cs.clean_up(); -} -if (other_value.initial__mcs().is_bound()) { - single_value->field_initial__mcs = other_value.initial__mcs(); -} else { - single_value->field_initial__mcs.clean_up(); -} -if (other_value.nsvci().is_bound()) { - single_value->field_nsvci = other_value.nsvci(); -} else { - single_value->field_nsvci.clean_up(); -} -if (other_value.local__pprt().is_bound()) { - single_value->field_local__pprt = other_value.local__pprt(); -} else { - single_value->field_local__pprt.clean_up(); -} -if (other_value.remote__port().is_bound()) { - single_value->field_remote__port = other_value.remote__port(); -} else { - single_value->field_remote__port.clean_up(); -} -if (other_value.remote__ip().is_bound()) { - single_value->field_remote__ip = other_value.remote__ip(); -} else { - single_value->field_remote__ip.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__info__ind_template::copy_template(const PCUIF__info__ind_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.version().get_selection()) { -single_value->field_version = other_value.version(); -} else { -single_value->field_version.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.flags().get_selection()) { -single_value->field_flags = other_value.flags(); -} else { -single_value->field_flags.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.trx().get_selection()) { -single_value->field_trx = other_value.trx(); -} else { -single_value->field_trx.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.bsic().get_selection()) { -single_value->field_bsic = other_value.bsic(); -} else { -single_value->field_bsic.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mcc().get_selection()) { -single_value->field_mcc = other_value.mcc(); -} else { -single_value->field_mcc.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mnc().get_selection()) { -single_value->field_mnc = other_value.mnc(); -} else { -single_value->field_mnc.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.mnc__3__digits().get_selection()) { -single_value->field_mnc__3__digits = other_value.mnc__3__digits(); -} else { -single_value->field_mnc__3__digits.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.lac().get_selection()) { -single_value->field_lac = other_value.lac(); -} else { -single_value->field_lac.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.rac().get_selection()) { -single_value->field_rac = other_value.rac(); -} else { -single_value->field_rac.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.nsei().get_selection()) { -single_value->field_nsei = other_value.nsei(); -} else { -single_value->field_nsei.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.nse__timer().get_selection()) { -single_value->field_nse__timer = other_value.nse__timer(); -} else { -single_value->field_nse__timer.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.cell__timer().get_selection()) { -single_value->field_cell__timer = other_value.cell__timer(); -} else { -single_value->field_cell__timer.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.cell__id().get_selection()) { -single_value->field_cell__id = other_value.cell__id(); -} else { -single_value->field_cell__id.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.repeat__time().get_selection()) { -single_value->field_repeat__time = other_value.repeat__time(); -} else { -single_value->field_repeat__time.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.repeat__count().get_selection()) { -single_value->field_repeat__count = other_value.repeat__count(); -} else { -single_value->field_repeat__count.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.bvci().get_selection()) { -single_value->field_bvci = other_value.bvci(); -} else { -single_value->field_bvci.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.t3142().get_selection()) { -single_value->field_t3142 = other_value.t3142(); -} else { -single_value->field_t3142.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.t3169().get_selection()) { -single_value->field_t3169 = other_value.t3169(); -} else { -single_value->field_t3169.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.t3191().get_selection()) { -single_value->field_t3191 = other_value.t3191(); -} else { -single_value->field_t3191.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.t3193__10ms().get_selection()) { -single_value->field_t3193__10ms = other_value.t3193__10ms(); -} else { -single_value->field_t3193__10ms.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.t3195().get_selection()) { -single_value->field_t3195 = other_value.t3195(); -} else { -single_value->field_t3195.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.t3101().get_selection()) { -single_value->field_t3101 = other_value.t3101(); -} else { -single_value->field_t3101.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.t3103().get_selection()) { -single_value->field_t3103 = other_value.t3103(); -} else { -single_value->field_t3103.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.t3105().get_selection()) { -single_value->field_t3105 = other_value.t3105(); -} else { -single_value->field_t3105.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.cv__countdown().get_selection()) { -single_value->field_cv__countdown = other_value.cv__countdown(); -} else { -single_value->field_cv__countdown.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.dl__tbf__ext().get_selection()) { -single_value->field_dl__tbf__ext = other_value.dl__tbf__ext(); -} else { -single_value->field_dl__tbf__ext.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ul__tbf__ext().get_selection()) { -single_value->field_ul__tbf__ext = other_value.ul__tbf__ext(); -} else { -single_value->field_ul__tbf__ext.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.initial__cs().get_selection()) { -single_value->field_initial__cs = other_value.initial__cs(); -} else { -single_value->field_initial__cs.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.initial__mcs().get_selection()) { -single_value->field_initial__mcs = other_value.initial__mcs(); -} else { -single_value->field_initial__mcs.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.nsvci().get_selection()) { -single_value->field_nsvci = other_value.nsvci(); -} else { -single_value->field_nsvci.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.local__pprt().get_selection()) { -single_value->field_local__pprt = other_value.local__pprt(); -} else { -single_value->field_local__pprt.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.remote__port().get_selection()) { -single_value->field_remote__port = other_value.remote__port(); -} else { -single_value->field_remote__port.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.remote__ip().get_selection()) { -single_value->field_remote__ip = other_value.remote__ip(); -} else { -single_value->field_remote__ip.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__info__ind_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_info_ind."); -break; -} -set_selection(other_value); -} - -PCUIF__info__ind_template::PCUIF__info__ind_template() -{ -} - -PCUIF__info__ind_template::PCUIF__info__ind_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__info__ind_template::PCUIF__info__ind_template(const PCUIF__info__ind& other_value) -{ -copy_value(other_value); -} - -PCUIF__info__ind_template::PCUIF__info__ind_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__info__ind&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_info_ind from an unbound optional field."); -} -} - -PCUIF__info__ind_template::PCUIF__info__ind_template(const PCUIF__info__ind_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__info__ind_template::~PCUIF__info__ind_template() -{ -clean_up(); -} - -PCUIF__info__ind_template& PCUIF__info__ind_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__info__ind_template& PCUIF__info__ind_template::operator=(const PCUIF__info__ind& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__info__ind_template& PCUIF__info__ind_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__info__ind&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_info_ind."); -} -return *this; -} - -PCUIF__info__ind_template& PCUIF__info__ind_template::operator=(const PCUIF__info__ind_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__info__ind_template::match(const PCUIF__info__ind& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.version().is_bound()) return FALSE; -if(!single_value->field_version.match(other_value.version(), legacy))return FALSE; -if(!other_value.flags().is_bound()) return FALSE; -if(!single_value->field_flags.match(other_value.flags(), legacy))return FALSE; -if(!other_value.trx().is_bound()) return FALSE; -if(!single_value->field_trx.match(other_value.trx(), legacy))return FALSE; -if(!other_value.bsic().is_bound()) return FALSE; -if(!single_value->field_bsic.match(other_value.bsic(), legacy))return FALSE; -if(!other_value.mcc().is_bound()) return FALSE; -if(!single_value->field_mcc.match(other_value.mcc(), legacy))return FALSE; -if(!other_value.mnc().is_bound()) return FALSE; -if(!single_value->field_mnc.match(other_value.mnc(), legacy))return FALSE; -if(!other_value.mnc__3__digits().is_bound()) return FALSE; -if(!single_value->field_mnc__3__digits.match(other_value.mnc__3__digits(), legacy))return FALSE; -if(!other_value.lac().is_bound()) return FALSE; -if(!single_value->field_lac.match(other_value.lac(), legacy))return FALSE; -if(!other_value.rac().is_bound()) return FALSE; -if(!single_value->field_rac.match(other_value.rac(), legacy))return FALSE; -if(!other_value.nsei().is_bound()) return FALSE; -if(!single_value->field_nsei.match(other_value.nsei(), legacy))return FALSE; -if(!other_value.nse__timer().is_bound()) return FALSE; -if(!single_value->field_nse__timer.match(other_value.nse__timer(), legacy))return FALSE; -if(!other_value.cell__timer().is_bound()) return FALSE; -if(!single_value->field_cell__timer.match(other_value.cell__timer(), legacy))return FALSE; -if(!other_value.cell__id().is_bound()) return FALSE; -if(!single_value->field_cell__id.match(other_value.cell__id(), legacy))return FALSE; -if(!other_value.repeat__time().is_bound()) return FALSE; -if(!single_value->field_repeat__time.match(other_value.repeat__time(), legacy))return FALSE; -if(!other_value.repeat__count().is_bound()) return FALSE; -if(!single_value->field_repeat__count.match(other_value.repeat__count(), legacy))return FALSE; -if(!other_value.bvci().is_bound()) return FALSE; -if(!single_value->field_bvci.match(other_value.bvci(), legacy))return FALSE; -if(!other_value.t3142().is_bound()) return FALSE; -if(!single_value->field_t3142.match(other_value.t3142(), legacy))return FALSE; -if(!other_value.t3169().is_bound()) return FALSE; -if(!single_value->field_t3169.match(other_value.t3169(), legacy))return FALSE; -if(!other_value.t3191().is_bound()) return FALSE; -if(!single_value->field_t3191.match(other_value.t3191(), legacy))return FALSE; -if(!other_value.t3193__10ms().is_bound()) return FALSE; -if(!single_value->field_t3193__10ms.match(other_value.t3193__10ms(), legacy))return FALSE; -if(!other_value.t3195().is_bound()) return FALSE; -if(!single_value->field_t3195.match(other_value.t3195(), legacy))return FALSE; -if(!other_value.t3101().is_bound()) return FALSE; -if(!single_value->field_t3101.match(other_value.t3101(), legacy))return FALSE; -if(!other_value.t3103().is_bound()) return FALSE; -if(!single_value->field_t3103.match(other_value.t3103(), legacy))return FALSE; -if(!other_value.t3105().is_bound()) return FALSE; -if(!single_value->field_t3105.match(other_value.t3105(), legacy))return FALSE; -if(!other_value.cv__countdown().is_bound()) return FALSE; -if(!single_value->field_cv__countdown.match(other_value.cv__countdown(), legacy))return FALSE; -if(!other_value.dl__tbf__ext().is_bound()) return FALSE; -if(!single_value->field_dl__tbf__ext.match(other_value.dl__tbf__ext(), legacy))return FALSE; -if(!other_value.ul__tbf__ext().is_bound()) return FALSE; -if(!single_value->field_ul__tbf__ext.match(other_value.ul__tbf__ext(), legacy))return FALSE; -if(!other_value.initial__cs().is_bound()) return FALSE; -if(!single_value->field_initial__cs.match(other_value.initial__cs(), legacy))return FALSE; -if(!other_value.initial__mcs().is_bound()) return FALSE; -if(!single_value->field_initial__mcs.match(other_value.initial__mcs(), legacy))return FALSE; -if(!other_value.nsvci().is_bound()) return FALSE; -if(!single_value->field_nsvci.match(other_value.nsvci(), legacy))return FALSE; -if(!other_value.local__pprt().is_bound()) return FALSE; -if(!single_value->field_local__pprt.match(other_value.local__pprt(), legacy))return FALSE; -if(!other_value.remote__port().is_bound()) return FALSE; -if(!single_value->field_remote__port.match(other_value.remote__port(), legacy))return FALSE; -if(!other_value.remote__ip().is_bound()) return FALSE; -if(!single_value->field_remote__ip.match(other_value.remote__ip(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_info_ind."); -} -return FALSE; -} - -boolean PCUIF__info__ind_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_version.is_bound()) return TRUE; -if (single_value->field_flags.is_bound()) return TRUE; -if (single_value->field_trx.is_bound()) return TRUE; -if (single_value->field_bsic.is_bound()) return TRUE; -if (single_value->field_mcc.is_bound()) return TRUE; -if (single_value->field_mnc.is_bound()) return TRUE; -if (single_value->field_mnc__3__digits.is_bound()) return TRUE; -if (single_value->field_lac.is_bound()) return TRUE; -if (single_value->field_rac.is_bound()) return TRUE; -if (single_value->field_nsei.is_bound()) return TRUE; -if (single_value->field_nse__timer.is_bound()) return TRUE; -if (single_value->field_cell__timer.is_bound()) return TRUE; -if (single_value->field_cell__id.is_bound()) return TRUE; -if (single_value->field_repeat__time.is_bound()) return TRUE; -if (single_value->field_repeat__count.is_bound()) return TRUE; -if (single_value->field_bvci.is_bound()) return TRUE; -if (single_value->field_t3142.is_bound()) return TRUE; -if (single_value->field_t3169.is_bound()) return TRUE; -if (single_value->field_t3191.is_bound()) return TRUE; -if (single_value->field_t3193__10ms.is_bound()) return TRUE; -if (single_value->field_t3195.is_bound()) return TRUE; -if (single_value->field_t3101.is_bound()) return TRUE; -if (single_value->field_t3103.is_bound()) return TRUE; -if (single_value->field_t3105.is_bound()) return TRUE; -if (single_value->field_cv__countdown.is_bound()) return TRUE; -if (single_value->field_dl__tbf__ext.is_bound()) return TRUE; -if (single_value->field_ul__tbf__ext.is_bound()) return TRUE; -if (single_value->field_initial__cs.is_bound()) return TRUE; -if (single_value->field_initial__mcs.is_bound()) return TRUE; -if (single_value->field_nsvci.is_bound()) return TRUE; -if (single_value->field_local__pprt.is_bound()) return TRUE; -if (single_value->field_remote__port.is_bound()) return TRUE; -if (single_value->field_remote__ip.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__info__ind_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_version.is_value()) return FALSE; -if (!single_value->field_flags.is_value()) return FALSE; -if (!single_value->field_trx.is_value()) return FALSE; -if (!single_value->field_bsic.is_value()) return FALSE; -if (!single_value->field_mcc.is_value()) return FALSE; -if (!single_value->field_mnc.is_value()) return FALSE; -if (!single_value->field_mnc__3__digits.is_value()) return FALSE; -if (!single_value->field_lac.is_value()) return FALSE; -if (!single_value->field_rac.is_value()) return FALSE; -if (!single_value->field_nsei.is_value()) return FALSE; -if (!single_value->field_nse__timer.is_value()) return FALSE; -if (!single_value->field_cell__timer.is_value()) return FALSE; -if (!single_value->field_cell__id.is_value()) return FALSE; -if (!single_value->field_repeat__time.is_value()) return FALSE; -if (!single_value->field_repeat__count.is_value()) return FALSE; -if (!single_value->field_bvci.is_value()) return FALSE; -if (!single_value->field_t3142.is_value()) return FALSE; -if (!single_value->field_t3169.is_value()) return FALSE; -if (!single_value->field_t3191.is_value()) return FALSE; -if (!single_value->field_t3193__10ms.is_value()) return FALSE; -if (!single_value->field_t3195.is_value()) return FALSE; -if (!single_value->field_t3101.is_value()) return FALSE; -if (!single_value->field_t3103.is_value()) return FALSE; -if (!single_value->field_t3105.is_value()) return FALSE; -if (!single_value->field_cv__countdown.is_value()) return FALSE; -if (!single_value->field_dl__tbf__ext.is_value()) return FALSE; -if (!single_value->field_ul__tbf__ext.is_value()) return FALSE; -if (!single_value->field_initial__cs.is_value()) return FALSE; -if (!single_value->field_initial__mcs.is_value()) return FALSE; -if (!single_value->field_nsvci.is_value()) return FALSE; -if (!single_value->field_local__pprt.is_value()) return FALSE; -if (!single_value->field_remote__port.is_value()) return FALSE; -if (!single_value->field_remote__ip.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__info__ind_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__info__ind PCUIF__info__ind_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -PCUIF__info__ind ret_val; -if (single_value->field_version.is_bound()) { -ret_val.version() = single_value->field_version.valueof(); -} -if (single_value->field_flags.is_bound()) { -ret_val.flags() = single_value->field_flags.valueof(); -} -if (single_value->field_trx.is_bound()) { -ret_val.trx() = single_value->field_trx.valueof(); -} -if (single_value->field_bsic.is_bound()) { -ret_val.bsic() = single_value->field_bsic.valueof(); -} -if (single_value->field_mcc.is_bound()) { -ret_val.mcc() = single_value->field_mcc.valueof(); -} -if (single_value->field_mnc.is_bound()) { -ret_val.mnc() = single_value->field_mnc.valueof(); -} -if (single_value->field_mnc__3__digits.is_bound()) { -ret_val.mnc__3__digits() = single_value->field_mnc__3__digits.valueof(); -} -if (single_value->field_lac.is_bound()) { -ret_val.lac() = single_value->field_lac.valueof(); -} -if (single_value->field_rac.is_bound()) { -ret_val.rac() = single_value->field_rac.valueof(); -} -if (single_value->field_nsei.is_bound()) { -ret_val.nsei() = single_value->field_nsei.valueof(); -} -if (single_value->field_nse__timer.is_bound()) { -ret_val.nse__timer() = single_value->field_nse__timer.valueof(); -} -if (single_value->field_cell__timer.is_bound()) { -ret_val.cell__timer() = single_value->field_cell__timer.valueof(); -} -if (single_value->field_cell__id.is_bound()) { -ret_val.cell__id() = single_value->field_cell__id.valueof(); -} -if (single_value->field_repeat__time.is_bound()) { -ret_val.repeat__time() = single_value->field_repeat__time.valueof(); -} -if (single_value->field_repeat__count.is_bound()) { -ret_val.repeat__count() = single_value->field_repeat__count.valueof(); -} -if (single_value->field_bvci.is_bound()) { -ret_val.bvci() = single_value->field_bvci.valueof(); -} -if (single_value->field_t3142.is_bound()) { -ret_val.t3142() = single_value->field_t3142.valueof(); -} -if (single_value->field_t3169.is_bound()) { -ret_val.t3169() = single_value->field_t3169.valueof(); -} -if (single_value->field_t3191.is_bound()) { -ret_val.t3191() = single_value->field_t3191.valueof(); -} -if (single_value->field_t3193__10ms.is_bound()) { -ret_val.t3193__10ms() = single_value->field_t3193__10ms.valueof(); -} -if (single_value->field_t3195.is_bound()) { -ret_val.t3195() = single_value->field_t3195.valueof(); -} -if (single_value->field_t3101.is_bound()) { -ret_val.t3101() = single_value->field_t3101.valueof(); -} -if (single_value->field_t3103.is_bound()) { -ret_val.t3103() = single_value->field_t3103.valueof(); -} -if (single_value->field_t3105.is_bound()) { -ret_val.t3105() = single_value->field_t3105.valueof(); -} -if (single_value->field_cv__countdown.is_bound()) { -ret_val.cv__countdown() = single_value->field_cv__countdown.valueof(); -} -if (single_value->field_dl__tbf__ext.is_bound()) { -ret_val.dl__tbf__ext() = single_value->field_dl__tbf__ext.valueof(); -} -if (single_value->field_ul__tbf__ext.is_bound()) { -ret_val.ul__tbf__ext() = single_value->field_ul__tbf__ext.valueof(); -} -if (single_value->field_initial__cs.is_bound()) { -ret_val.initial__cs() = single_value->field_initial__cs.valueof(); -} -if (single_value->field_initial__mcs.is_bound()) { -ret_val.initial__mcs() = single_value->field_initial__mcs.valueof(); -} -if (single_value->field_nsvci.is_bound()) { -ret_val.nsvci() = single_value->field_nsvci.valueof(); -} -if (single_value->field_local__pprt.is_bound()) { -ret_val.local__pprt() = single_value->field_local__pprt.valueof(); -} -if (single_value->field_remote__port.is_bound()) { -ret_val.remote__port() = single_value->field_remote__port.valueof(); -} -if (single_value->field_remote__ip.is_bound()) { -ret_val.remote__ip() = single_value->field_remote__ip.valueof(); -} -return ret_val; -} - -void PCUIF__info__ind_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_info_ind."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__info__ind_template[list_length]; -} - -PCUIF__info__ind_template& PCUIF__info__ind_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_info_ind."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_info_ind."); -return value_list.list_value[list_index]; -} - -INTEGER_template& PCUIF__info__ind_template::version() -{ -set_specific(); -return single_value->field_version; -} - -const INTEGER_template& PCUIF__info__ind_template::version() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field version of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_version; -} - -PCUIF__Flags_template& PCUIF__info__ind_template::flags() -{ -set_specific(); -return single_value->field_flags; -} - -const PCUIF__Flags_template& PCUIF__info__ind_template::flags() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field flags of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_flags; -} - -PCUIF__InfoTrxs_template& PCUIF__info__ind_template::trx() -{ -set_specific(); -return single_value->field_trx; -} - -const PCUIF__InfoTrxs_template& PCUIF__info__ind_template::trx() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field trx of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_trx; -} - -INTEGER_template& PCUIF__info__ind_template::bsic() -{ -set_specific(); -return single_value->field_bsic; -} - -const INTEGER_template& PCUIF__info__ind_template::bsic() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field bsic of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_bsic; -} - -INTEGER_template& PCUIF__info__ind_template::mcc() -{ -set_specific(); -return single_value->field_mcc; -} - -const INTEGER_template& PCUIF__info__ind_template::mcc() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mcc of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_mcc; -} - -INTEGER_template& PCUIF__info__ind_template::mnc() -{ -set_specific(); -return single_value->field_mnc; -} - -const INTEGER_template& PCUIF__info__ind_template::mnc() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mnc of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_mnc; -} - -INTEGER_template& PCUIF__info__ind_template::mnc__3__digits() -{ -set_specific(); -return single_value->field_mnc__3__digits; -} - -const INTEGER_template& PCUIF__info__ind_template::mnc__3__digits() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field mnc_3_digits of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_mnc__3__digits; -} - -INTEGER_template& PCUIF__info__ind_template::lac() -{ -set_specific(); -return single_value->field_lac; -} - -const INTEGER_template& PCUIF__info__ind_template::lac() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field lac of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_lac; -} - -INTEGER_template& PCUIF__info__ind_template::rac() -{ -set_specific(); -return single_value->field_rac; -} - -const INTEGER_template& PCUIF__info__ind_template::rac() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field rac of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_rac; -} - -INTEGER_template& PCUIF__info__ind_template::nsei() -{ -set_specific(); -return single_value->field_nsei; -} - -const INTEGER_template& PCUIF__info__ind_template::nsei() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field nsei of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_nsei; -} - -PCUIF__info__ind_nse__timer_template& PCUIF__info__ind_template::nse__timer() -{ -set_specific(); -return single_value->field_nse__timer; -} - -const PCUIF__info__ind_nse__timer_template& PCUIF__info__ind_template::nse__timer() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field nse_timer of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_nse__timer; -} - -PCUIF__info__ind_cell__timer_template& PCUIF__info__ind_template::cell__timer() -{ -set_specific(); -return single_value->field_cell__timer; -} - -const PCUIF__info__ind_cell__timer_template& PCUIF__info__ind_template::cell__timer() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field cell_timer of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_cell__timer; -} - -INTEGER_template& PCUIF__info__ind_template::cell__id() -{ -set_specific(); -return single_value->field_cell__id; -} - -const INTEGER_template& PCUIF__info__ind_template::cell__id() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field cell_id of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_cell__id; -} - -INTEGER_template& PCUIF__info__ind_template::repeat__time() -{ -set_specific(); -return single_value->field_repeat__time; -} - -const INTEGER_template& PCUIF__info__ind_template::repeat__time() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field repeat_time of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_repeat__time; -} - -INTEGER_template& PCUIF__info__ind_template::repeat__count() -{ -set_specific(); -return single_value->field_repeat__count; -} - -const INTEGER_template& PCUIF__info__ind_template::repeat__count() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field repeat_count of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_repeat__count; -} - -INTEGER_template& PCUIF__info__ind_template::bvci() -{ -set_specific(); -return single_value->field_bvci; -} - -const INTEGER_template& PCUIF__info__ind_template::bvci() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field bvci of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_bvci; -} - -INTEGER_template& PCUIF__info__ind_template::t3142() -{ -set_specific(); -return single_value->field_t3142; -} - -const INTEGER_template& PCUIF__info__ind_template::t3142() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field t3142 of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_t3142; -} - -INTEGER_template& PCUIF__info__ind_template::t3169() -{ -set_specific(); -return single_value->field_t3169; -} - -const INTEGER_template& PCUIF__info__ind_template::t3169() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field t3169 of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_t3169; -} - -INTEGER_template& PCUIF__info__ind_template::t3191() -{ -set_specific(); -return single_value->field_t3191; -} - -const INTEGER_template& PCUIF__info__ind_template::t3191() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field t3191 of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_t3191; -} - -INTEGER_template& PCUIF__info__ind_template::t3193__10ms() -{ -set_specific(); -return single_value->field_t3193__10ms; -} - -const INTEGER_template& PCUIF__info__ind_template::t3193__10ms() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field t3193_10ms of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_t3193__10ms; -} - -INTEGER_template& PCUIF__info__ind_template::t3195() -{ -set_specific(); -return single_value->field_t3195; -} - -const INTEGER_template& PCUIF__info__ind_template::t3195() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field t3195 of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_t3195; -} - -INTEGER_template& PCUIF__info__ind_template::t3101() -{ -set_specific(); -return single_value->field_t3101; -} - -const INTEGER_template& PCUIF__info__ind_template::t3101() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field t3101 of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_t3101; -} - -INTEGER_template& PCUIF__info__ind_template::t3103() -{ -set_specific(); -return single_value->field_t3103; -} - -const INTEGER_template& PCUIF__info__ind_template::t3103() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field t3103 of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_t3103; -} - -INTEGER_template& PCUIF__info__ind_template::t3105() -{ -set_specific(); -return single_value->field_t3105; -} - -const INTEGER_template& PCUIF__info__ind_template::t3105() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field t3105 of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_t3105; -} - -INTEGER_template& PCUIF__info__ind_template::cv__countdown() -{ -set_specific(); -return single_value->field_cv__countdown; -} - -const INTEGER_template& PCUIF__info__ind_template::cv__countdown() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field cv_countdown of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_cv__countdown; -} - -INTEGER_template& PCUIF__info__ind_template::dl__tbf__ext() -{ -set_specific(); -return single_value->field_dl__tbf__ext; -} - -const INTEGER_template& PCUIF__info__ind_template::dl__tbf__ext() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field dl_tbf_ext of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_dl__tbf__ext; -} - -INTEGER_template& PCUIF__info__ind_template::ul__tbf__ext() -{ -set_specific(); -return single_value->field_ul__tbf__ext; -} - -const INTEGER_template& PCUIF__info__ind_template::ul__tbf__ext() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ul_tbf_ext of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_ul__tbf__ext; -} - -INTEGER_template& PCUIF__info__ind_template::initial__cs() -{ -set_specific(); -return single_value->field_initial__cs; -} - -const INTEGER_template& PCUIF__info__ind_template::initial__cs() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field initial_cs of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_initial__cs; -} - -INTEGER_template& PCUIF__info__ind_template::initial__mcs() -{ -set_specific(); -return single_value->field_initial__mcs; -} - -const INTEGER_template& PCUIF__info__ind_template::initial__mcs() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field initial_mcs of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_initial__mcs; -} - -PCUIF__info__ind_nsvci_template& PCUIF__info__ind_template::nsvci() -{ -set_specific(); -return single_value->field_nsvci; -} - -const PCUIF__info__ind_nsvci_template& PCUIF__info__ind_template::nsvci() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field nsvci of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_nsvci; -} - -PCUIF__info__ind_local__pprt_template& PCUIF__info__ind_template::local__pprt() -{ -set_specific(); -return single_value->field_local__pprt; -} - -const PCUIF__info__ind_local__pprt_template& PCUIF__info__ind_template::local__pprt() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field local_pprt of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_local__pprt; -} - -PCUIF__info__ind_remote__port_template& PCUIF__info__ind_template::remote__port() -{ -set_specific(); -return single_value->field_remote__port; -} - -const PCUIF__info__ind_remote__port_template& PCUIF__info__ind_template::remote__port() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field remote_port of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_remote__port; -} - -PCUIF__info__ind_remote__ip_template& PCUIF__info__ind_template::remote__ip() -{ -set_specific(); -return single_value->field_remote__ip; -} - -const PCUIF__info__ind_remote__ip_template& PCUIF__info__ind_template::remote__ip() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field remote_ip of a non-specific template of type @PCUIF_Types.PCUIF_info_ind."); -return single_value->field_remote__ip; -} - -int PCUIF__info__ind_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_info_ind which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 33; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_info_ind containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_info_ind containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_info_ind containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_info_ind containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_info_ind containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_info_ind."); - } - return 0; -} - -void PCUIF__info__ind_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ version := "); -single_value->field_version.log(); -TTCN_Logger::log_event_str(", flags := "); -single_value->field_flags.log(); -TTCN_Logger::log_event_str(", trx := "); -single_value->field_trx.log(); -TTCN_Logger::log_event_str(", bsic := "); -single_value->field_bsic.log(); -TTCN_Logger::log_event_str(", mcc := "); -single_value->field_mcc.log(); -TTCN_Logger::log_event_str(", mnc := "); -single_value->field_mnc.log(); -TTCN_Logger::log_event_str(", mnc_3_digits := "); -single_value->field_mnc__3__digits.log(); -TTCN_Logger::log_event_str(", lac := "); -single_value->field_lac.log(); -TTCN_Logger::log_event_str(", rac := "); -single_value->field_rac.log(); -TTCN_Logger::log_event_str(", nsei := "); -single_value->field_nsei.log(); -TTCN_Logger::log_event_str(", nse_timer := "); -single_value->field_nse__timer.log(); -TTCN_Logger::log_event_str(", cell_timer := "); -single_value->field_cell__timer.log(); -TTCN_Logger::log_event_str(", cell_id := "); -single_value->field_cell__id.log(); -TTCN_Logger::log_event_str(", repeat_time := "); -single_value->field_repeat__time.log(); -TTCN_Logger::log_event_str(", repeat_count := "); -single_value->field_repeat__count.log(); -TTCN_Logger::log_event_str(", bvci := "); -single_value->field_bvci.log(); -TTCN_Logger::log_event_str(", t3142 := "); -single_value->field_t3142.log(); -TTCN_Logger::log_event_str(", t3169 := "); -single_value->field_t3169.log(); -TTCN_Logger::log_event_str(", t3191 := "); -single_value->field_t3191.log(); -TTCN_Logger::log_event_str(", t3193_10ms := "); -single_value->field_t3193__10ms.log(); -TTCN_Logger::log_event_str(", t3195 := "); -single_value->field_t3195.log(); -TTCN_Logger::log_event_str(", t3101 := "); -single_value->field_t3101.log(); -TTCN_Logger::log_event_str(", t3103 := "); -single_value->field_t3103.log(); -TTCN_Logger::log_event_str(", t3105 := "); -single_value->field_t3105.log(); -TTCN_Logger::log_event_str(", cv_countdown := "); -single_value->field_cv__countdown.log(); -TTCN_Logger::log_event_str(", dl_tbf_ext := "); -single_value->field_dl__tbf__ext.log(); -TTCN_Logger::log_event_str(", ul_tbf_ext := "); -single_value->field_ul__tbf__ext.log(); -TTCN_Logger::log_event_str(", initial_cs := "); -single_value->field_initial__cs.log(); -TTCN_Logger::log_event_str(", initial_mcs := "); -single_value->field_initial__mcs.log(); -TTCN_Logger::log_event_str(", nsvci := "); -single_value->field_nsvci.log(); -TTCN_Logger::log_event_str(", local_pprt := "); -single_value->field_local__pprt.log(); -TTCN_Logger::log_event_str(", remote_port := "); -single_value->field_remote__port.log(); -TTCN_Logger::log_event_str(", remote_ip := "); -single_value->field_remote__ip.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__info__ind_template::log_match(const PCUIF__info__ind& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_version.match(match_value.version(), legacy)){ -TTCN_Logger::log_logmatch_info(".version"); -single_value->field_version.log_match(match_value.version(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_flags.match(match_value.flags(), legacy)){ -TTCN_Logger::log_logmatch_info(".flags"); -single_value->field_flags.log_match(match_value.flags(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_trx.match(match_value.trx(), legacy)){ -TTCN_Logger::log_logmatch_info(".trx"); -single_value->field_trx.log_match(match_value.trx(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_bsic.match(match_value.bsic(), legacy)){ -TTCN_Logger::log_logmatch_info(".bsic"); -single_value->field_bsic.log_match(match_value.bsic(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mcc.match(match_value.mcc(), legacy)){ -TTCN_Logger::log_logmatch_info(".mcc"); -single_value->field_mcc.log_match(match_value.mcc(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mnc.match(match_value.mnc(), legacy)){ -TTCN_Logger::log_logmatch_info(".mnc"); -single_value->field_mnc.log_match(match_value.mnc(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_mnc__3__digits.match(match_value.mnc__3__digits(), legacy)){ -TTCN_Logger::log_logmatch_info(".mnc_3_digits"); -single_value->field_mnc__3__digits.log_match(match_value.mnc__3__digits(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_lac.match(match_value.lac(), legacy)){ -TTCN_Logger::log_logmatch_info(".lac"); -single_value->field_lac.log_match(match_value.lac(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_rac.match(match_value.rac(), legacy)){ -TTCN_Logger::log_logmatch_info(".rac"); -single_value->field_rac.log_match(match_value.rac(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_nsei.match(match_value.nsei(), legacy)){ -TTCN_Logger::log_logmatch_info(".nsei"); -single_value->field_nsei.log_match(match_value.nsei(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_nse__timer.match(match_value.nse__timer(), legacy)){ -TTCN_Logger::log_logmatch_info(".nse_timer"); -single_value->field_nse__timer.log_match(match_value.nse__timer(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_cell__timer.match(match_value.cell__timer(), legacy)){ -TTCN_Logger::log_logmatch_info(".cell_timer"); -single_value->field_cell__timer.log_match(match_value.cell__timer(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_cell__id.match(match_value.cell__id(), legacy)){ -TTCN_Logger::log_logmatch_info(".cell_id"); -single_value->field_cell__id.log_match(match_value.cell__id(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_repeat__time.match(match_value.repeat__time(), legacy)){ -TTCN_Logger::log_logmatch_info(".repeat_time"); -single_value->field_repeat__time.log_match(match_value.repeat__time(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_repeat__count.match(match_value.repeat__count(), legacy)){ -TTCN_Logger::log_logmatch_info(".repeat_count"); -single_value->field_repeat__count.log_match(match_value.repeat__count(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_bvci.match(match_value.bvci(), legacy)){ -TTCN_Logger::log_logmatch_info(".bvci"); -single_value->field_bvci.log_match(match_value.bvci(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_t3142.match(match_value.t3142(), legacy)){ -TTCN_Logger::log_logmatch_info(".t3142"); -single_value->field_t3142.log_match(match_value.t3142(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_t3169.match(match_value.t3169(), legacy)){ -TTCN_Logger::log_logmatch_info(".t3169"); -single_value->field_t3169.log_match(match_value.t3169(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_t3191.match(match_value.t3191(), legacy)){ -TTCN_Logger::log_logmatch_info(".t3191"); -single_value->field_t3191.log_match(match_value.t3191(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_t3193__10ms.match(match_value.t3193__10ms(), legacy)){ -TTCN_Logger::log_logmatch_info(".t3193_10ms"); -single_value->field_t3193__10ms.log_match(match_value.t3193__10ms(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_t3195.match(match_value.t3195(), legacy)){ -TTCN_Logger::log_logmatch_info(".t3195"); -single_value->field_t3195.log_match(match_value.t3195(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_t3101.match(match_value.t3101(), legacy)){ -TTCN_Logger::log_logmatch_info(".t3101"); -single_value->field_t3101.log_match(match_value.t3101(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_t3103.match(match_value.t3103(), legacy)){ -TTCN_Logger::log_logmatch_info(".t3103"); -single_value->field_t3103.log_match(match_value.t3103(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_t3105.match(match_value.t3105(), legacy)){ -TTCN_Logger::log_logmatch_info(".t3105"); -single_value->field_t3105.log_match(match_value.t3105(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_cv__countdown.match(match_value.cv__countdown(), legacy)){ -TTCN_Logger::log_logmatch_info(".cv_countdown"); -single_value->field_cv__countdown.log_match(match_value.cv__countdown(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_dl__tbf__ext.match(match_value.dl__tbf__ext(), legacy)){ -TTCN_Logger::log_logmatch_info(".dl_tbf_ext"); -single_value->field_dl__tbf__ext.log_match(match_value.dl__tbf__ext(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ul__tbf__ext.match(match_value.ul__tbf__ext(), legacy)){ -TTCN_Logger::log_logmatch_info(".ul_tbf_ext"); -single_value->field_ul__tbf__ext.log_match(match_value.ul__tbf__ext(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_initial__cs.match(match_value.initial__cs(), legacy)){ -TTCN_Logger::log_logmatch_info(".initial_cs"); -single_value->field_initial__cs.log_match(match_value.initial__cs(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_initial__mcs.match(match_value.initial__mcs(), legacy)){ -TTCN_Logger::log_logmatch_info(".initial_mcs"); -single_value->field_initial__mcs.log_match(match_value.initial__mcs(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_nsvci.match(match_value.nsvci(), legacy)){ -TTCN_Logger::log_logmatch_info(".nsvci"); -single_value->field_nsvci.log_match(match_value.nsvci(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_local__pprt.match(match_value.local__pprt(), legacy)){ -TTCN_Logger::log_logmatch_info(".local_pprt"); -single_value->field_local__pprt.log_match(match_value.local__pprt(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_remote__port.match(match_value.remote__port(), legacy)){ -TTCN_Logger::log_logmatch_info(".remote_port"); -single_value->field_remote__port.log_match(match_value.remote__port(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_remote__ip.match(match_value.remote__ip(), legacy)){ -TTCN_Logger::log_logmatch_info(".remote_ip"); -single_value->field_remote__ip.log_match(match_value.remote__ip(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ version := "); -single_value->field_version.log_match(match_value.version(), legacy); -TTCN_Logger::log_event_str(", flags := "); -single_value->field_flags.log_match(match_value.flags(), legacy); -TTCN_Logger::log_event_str(", trx := "); -single_value->field_trx.log_match(match_value.trx(), legacy); -TTCN_Logger::log_event_str(", bsic := "); -single_value->field_bsic.log_match(match_value.bsic(), legacy); -TTCN_Logger::log_event_str(", mcc := "); -single_value->field_mcc.log_match(match_value.mcc(), legacy); -TTCN_Logger::log_event_str(", mnc := "); -single_value->field_mnc.log_match(match_value.mnc(), legacy); -TTCN_Logger::log_event_str(", mnc_3_digits := "); -single_value->field_mnc__3__digits.log_match(match_value.mnc__3__digits(), legacy); -TTCN_Logger::log_event_str(", lac := "); -single_value->field_lac.log_match(match_value.lac(), legacy); -TTCN_Logger::log_event_str(", rac := "); -single_value->field_rac.log_match(match_value.rac(), legacy); -TTCN_Logger::log_event_str(", nsei := "); -single_value->field_nsei.log_match(match_value.nsei(), legacy); -TTCN_Logger::log_event_str(", nse_timer := "); -single_value->field_nse__timer.log_match(match_value.nse__timer(), legacy); -TTCN_Logger::log_event_str(", cell_timer := "); -single_value->field_cell__timer.log_match(match_value.cell__timer(), legacy); -TTCN_Logger::log_event_str(", cell_id := "); -single_value->field_cell__id.log_match(match_value.cell__id(), legacy); -TTCN_Logger::log_event_str(", repeat_time := "); -single_value->field_repeat__time.log_match(match_value.repeat__time(), legacy); -TTCN_Logger::log_event_str(", repeat_count := "); -single_value->field_repeat__count.log_match(match_value.repeat__count(), legacy); -TTCN_Logger::log_event_str(", bvci := "); -single_value->field_bvci.log_match(match_value.bvci(), legacy); -TTCN_Logger::log_event_str(", t3142 := "); -single_value->field_t3142.log_match(match_value.t3142(), legacy); -TTCN_Logger::log_event_str(", t3169 := "); -single_value->field_t3169.log_match(match_value.t3169(), legacy); -TTCN_Logger::log_event_str(", t3191 := "); -single_value->field_t3191.log_match(match_value.t3191(), legacy); -TTCN_Logger::log_event_str(", t3193_10ms := "); -single_value->field_t3193__10ms.log_match(match_value.t3193__10ms(), legacy); -TTCN_Logger::log_event_str(", t3195 := "); -single_value->field_t3195.log_match(match_value.t3195(), legacy); -TTCN_Logger::log_event_str(", t3101 := "); -single_value->field_t3101.log_match(match_value.t3101(), legacy); -TTCN_Logger::log_event_str(", t3103 := "); -single_value->field_t3103.log_match(match_value.t3103(), legacy); -TTCN_Logger::log_event_str(", t3105 := "); -single_value->field_t3105.log_match(match_value.t3105(), legacy); -TTCN_Logger::log_event_str(", cv_countdown := "); -single_value->field_cv__countdown.log_match(match_value.cv__countdown(), legacy); -TTCN_Logger::log_event_str(", dl_tbf_ext := "); -single_value->field_dl__tbf__ext.log_match(match_value.dl__tbf__ext(), legacy); -TTCN_Logger::log_event_str(", ul_tbf_ext := "); -single_value->field_ul__tbf__ext.log_match(match_value.ul__tbf__ext(), legacy); -TTCN_Logger::log_event_str(", initial_cs := "); -single_value->field_initial__cs.log_match(match_value.initial__cs(), legacy); -TTCN_Logger::log_event_str(", initial_mcs := "); -single_value->field_initial__mcs.log_match(match_value.initial__mcs(), legacy); -TTCN_Logger::log_event_str(", nsvci := "); -single_value->field_nsvci.log_match(match_value.nsvci(), legacy); -TTCN_Logger::log_event_str(", local_pprt := "); -single_value->field_local__pprt.log_match(match_value.local__pprt(), legacy); -TTCN_Logger::log_event_str(", remote_port := "); -single_value->field_remote__port.log_match(match_value.remote__port(), legacy); -TTCN_Logger::log_event_str(", remote_ip := "); -single_value->field_remote__ip.log_match(match_value.remote__ip(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__info__ind_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_version.encode_text(text_buf); -single_value->field_flags.encode_text(text_buf); -single_value->field_trx.encode_text(text_buf); -single_value->field_bsic.encode_text(text_buf); -single_value->field_mcc.encode_text(text_buf); -single_value->field_mnc.encode_text(text_buf); -single_value->field_mnc__3__digits.encode_text(text_buf); -single_value->field_lac.encode_text(text_buf); -single_value->field_rac.encode_text(text_buf); -single_value->field_nsei.encode_text(text_buf); -single_value->field_nse__timer.encode_text(text_buf); -single_value->field_cell__timer.encode_text(text_buf); -single_value->field_cell__id.encode_text(text_buf); -single_value->field_repeat__time.encode_text(text_buf); -single_value->field_repeat__count.encode_text(text_buf); -single_value->field_bvci.encode_text(text_buf); -single_value->field_t3142.encode_text(text_buf); -single_value->field_t3169.encode_text(text_buf); -single_value->field_t3191.encode_text(text_buf); -single_value->field_t3193__10ms.encode_text(text_buf); -single_value->field_t3195.encode_text(text_buf); -single_value->field_t3101.encode_text(text_buf); -single_value->field_t3103.encode_text(text_buf); -single_value->field_t3105.encode_text(text_buf); -single_value->field_cv__countdown.encode_text(text_buf); -single_value->field_dl__tbf__ext.encode_text(text_buf); -single_value->field_ul__tbf__ext.encode_text(text_buf); -single_value->field_initial__cs.encode_text(text_buf); -single_value->field_initial__mcs.encode_text(text_buf); -single_value->field_nsvci.encode_text(text_buf); -single_value->field_local__pprt.encode_text(text_buf); -single_value->field_remote__port.encode_text(text_buf); -single_value->field_remote__ip.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_info_ind."); -} -} - -void PCUIF__info__ind_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_version.decode_text(text_buf); -single_value->field_flags.decode_text(text_buf); -single_value->field_trx.decode_text(text_buf); -single_value->field_bsic.decode_text(text_buf); -single_value->field_mcc.decode_text(text_buf); -single_value->field_mnc.decode_text(text_buf); -single_value->field_mnc__3__digits.decode_text(text_buf); -single_value->field_lac.decode_text(text_buf); -single_value->field_rac.decode_text(text_buf); -single_value->field_nsei.decode_text(text_buf); -single_value->field_nse__timer.decode_text(text_buf); -single_value->field_cell__timer.decode_text(text_buf); -single_value->field_cell__id.decode_text(text_buf); -single_value->field_repeat__time.decode_text(text_buf); -single_value->field_repeat__count.decode_text(text_buf); -single_value->field_bvci.decode_text(text_buf); -single_value->field_t3142.decode_text(text_buf); -single_value->field_t3169.decode_text(text_buf); -single_value->field_t3191.decode_text(text_buf); -single_value->field_t3193__10ms.decode_text(text_buf); -single_value->field_t3195.decode_text(text_buf); -single_value->field_t3101.decode_text(text_buf); -single_value->field_t3103.decode_text(text_buf); -single_value->field_t3105.decode_text(text_buf); -single_value->field_cv__countdown.decode_text(text_buf); -single_value->field_dl__tbf__ext.decode_text(text_buf); -single_value->field_ul__tbf__ext.decode_text(text_buf); -single_value->field_initial__cs.decode_text(text_buf); -single_value->field_initial__mcs.decode_text(text_buf); -single_value->field_nsvci.decode_text(text_buf); -single_value->field_local__pprt.decode_text(text_buf); -single_value->field_remote__port.decode_text(text_buf); -single_value->field_remote__ip.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__info__ind_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_info_ind."); -} -} - -void PCUIF__info__ind_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__info__ind_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) version().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) flags().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) trx().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) bsic().set_param(*param.get_elem(3)); - if (param.get_size()>4 && param.get_elem(4)->get_type()!=Module_Param::MP_NotUsed) mcc().set_param(*param.get_elem(4)); - if (param.get_size()>5 && param.get_elem(5)->get_type()!=Module_Param::MP_NotUsed) mnc().set_param(*param.get_elem(5)); - if (param.get_size()>6 && param.get_elem(6)->get_type()!=Module_Param::MP_NotUsed) mnc__3__digits().set_param(*param.get_elem(6)); - if (param.get_size()>7 && param.get_elem(7)->get_type()!=Module_Param::MP_NotUsed) lac().set_param(*param.get_elem(7)); - if (param.get_size()>8 && param.get_elem(8)->get_type()!=Module_Param::MP_NotUsed) rac().set_param(*param.get_elem(8)); - if (param.get_size()>9 && param.get_elem(9)->get_type()!=Module_Param::MP_NotUsed) nsei().set_param(*param.get_elem(9)); - if (param.get_size()>10 && param.get_elem(10)->get_type()!=Module_Param::MP_NotUsed) nse__timer().set_param(*param.get_elem(10)); - if (param.get_size()>11 && param.get_elem(11)->get_type()!=Module_Param::MP_NotUsed) cell__timer().set_param(*param.get_elem(11)); - if (param.get_size()>12 && param.get_elem(12)->get_type()!=Module_Param::MP_NotUsed) cell__id().set_param(*param.get_elem(12)); - if (param.get_size()>13 && param.get_elem(13)->get_type()!=Module_Param::MP_NotUsed) repeat__time().set_param(*param.get_elem(13)); - if (param.get_size()>14 && param.get_elem(14)->get_type()!=Module_Param::MP_NotUsed) repeat__count().set_param(*param.get_elem(14)); - if (param.get_size()>15 && param.get_elem(15)->get_type()!=Module_Param::MP_NotUsed) bvci().set_param(*param.get_elem(15)); - if (param.get_size()>16 && param.get_elem(16)->get_type()!=Module_Param::MP_NotUsed) t3142().set_param(*param.get_elem(16)); - if (param.get_size()>17 && param.get_elem(17)->get_type()!=Module_Param::MP_NotUsed) t3169().set_param(*param.get_elem(17)); - if (param.get_size()>18 && param.get_elem(18)->get_type()!=Module_Param::MP_NotUsed) t3191().set_param(*param.get_elem(18)); - if (param.get_size()>19 && param.get_elem(19)->get_type()!=Module_Param::MP_NotUsed) t3193__10ms().set_param(*param.get_elem(19)); - if (param.get_size()>20 && param.get_elem(20)->get_type()!=Module_Param::MP_NotUsed) t3195().set_param(*param.get_elem(20)); - if (param.get_size()>21 && param.get_elem(21)->get_type()!=Module_Param::MP_NotUsed) t3101().set_param(*param.get_elem(21)); - if (param.get_size()>22 && param.get_elem(22)->get_type()!=Module_Param::MP_NotUsed) t3103().set_param(*param.get_elem(22)); - if (param.get_size()>23 && param.get_elem(23)->get_type()!=Module_Param::MP_NotUsed) t3105().set_param(*param.get_elem(23)); - if (param.get_size()>24 && param.get_elem(24)->get_type()!=Module_Param::MP_NotUsed) cv__countdown().set_param(*param.get_elem(24)); - if (param.get_size()>25 && param.get_elem(25)->get_type()!=Module_Param::MP_NotUsed) dl__tbf__ext().set_param(*param.get_elem(25)); - if (param.get_size()>26 && param.get_elem(26)->get_type()!=Module_Param::MP_NotUsed) ul__tbf__ext().set_param(*param.get_elem(26)); - if (param.get_size()>27 && param.get_elem(27)->get_type()!=Module_Param::MP_NotUsed) initial__cs().set_param(*param.get_elem(27)); - if (param.get_size()>28 && param.get_elem(28)->get_type()!=Module_Param::MP_NotUsed) initial__mcs().set_param(*param.get_elem(28)); - if (param.get_size()>29 && param.get_elem(29)->get_type()!=Module_Param::MP_NotUsed) nsvci().set_param(*param.get_elem(29)); - if (param.get_size()>30 && param.get_elem(30)->get_type()!=Module_Param::MP_NotUsed) local__pprt().set_param(*param.get_elem(30)); - if (param.get_size()>31 && param.get_elem(31)->get_type()!=Module_Param::MP_NotUsed) remote__port().set_param(*param.get_elem(31)); - if (param.get_size()>32 && param.get_elem(32)->get_type()!=Module_Param::MP_NotUsed) remote__ip().set_param(*param.get_elem(32)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "version")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - version().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "flags")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - flags().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "trx")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - trx().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "bsic")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - bsic().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mcc")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mcc().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mnc")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mnc().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "mnc_3_digits")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - mnc__3__digits().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "lac")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - lac().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "rac")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - rac().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "nsei")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - nsei().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "nse_timer")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - nse__timer().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cell_timer")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cell__timer().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cell_id")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cell__id().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "repeat_time")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - repeat__time().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "repeat_count")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - repeat__count().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "bvci")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - bvci().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3142")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3142().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3169")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3169().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3191")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3191().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3193_10ms")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3193__10ms().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3195")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3195().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3101")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3101().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3103")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3103().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "t3105")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - t3105().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cv_countdown")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cv__countdown().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "dl_tbf_ext")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - dl__tbf__ext().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ul_tbf_ext")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ul__tbf__ext().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "initial_cs")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - initial__cs().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "initial_mcs")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - initial__mcs().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "nsvci")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - nsvci().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "local_pprt")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - local__pprt().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "remote_port")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - remote__port().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "remote_ip")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - remote__ip().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_info_ind: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_info_ind"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__info__ind_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_version.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_flags.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_trx.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_bsic.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_mcc.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_mnc.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_mnc__3__digits.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_lac.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_rac.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_nsei.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_nse__timer.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_cell__timer.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_cell__id.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_repeat__time.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_repeat__count.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_bvci.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_t3142.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_t3169.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_t3191.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_t3193__10ms.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_t3195.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_t3101.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_t3103.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_t3105.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_cv__countdown.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_dl__tbf__ext.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_ul__tbf__ext.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_initial__cs.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_initial__mcs.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_nsvci.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_local__pprt.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_remote__port.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -single_value->field_remote__ip.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_info_ind"); -} - -boolean PCUIF__info__ind_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__info__ind_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) is__activate().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) trx__nr().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) ts__nr().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) spare().set_param(*param.get_elem(3)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "is_activate")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - is__activate().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "trx_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - trx__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ts_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ts__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_act_req: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_act_req"); - } -} - -void PCUIF__act__req::set_implicit_omit() -{ -if (is__activate().is_bound()) is__activate().set_implicit_omit(); -if (trx__nr().is_bound()) trx__nr().set_implicit_omit(); -if (ts__nr().is_bound()) ts__nr().set_implicit_omit(); -if (spare().is_bound()) spare().set_implicit_omit(); -} - -void PCUIF__act__req::encode_text(Text_Buf& text_buf) const -{ -field_is__activate.encode_text(text_buf); -field_trx__nr.encode_text(text_buf); -field_ts__nr.encode_text(text_buf); -field_spare.encode_text(text_buf); -} - -void PCUIF__act__req::decode_text(Text_Buf& text_buf) -{ -field_is__activate.decode_text(text_buf); -field_trx__nr.decode_text(text_buf); -field_ts__nr.decode_text(text_buf); -field_spare.decode_text(text_buf); -} - -void PCUIF__act__req::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__act__req::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__act__req::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__act__req_is__activate_descr_.raw->forceomit); - decoded_field_length = field_is__activate.RAW_decode(PCUIF__act__req_is__activate_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__act__req_trx__nr_descr_.raw->forceomit); - decoded_field_length = field_trx__nr.RAW_decode(PCUIF__act__req_trx__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__act__req_ts__nr_descr_.raw->forceomit); - decoded_field_length = field_ts__nr.RAW_decode(PCUIF__act__req_ts__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_3_force_omit(3, force_omit, PCUIF__act__req_spare_descr_.raw->forceomit); - decoded_field_length = field_spare.RAW_decode(PCUIF__act__req_spare_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__act__req::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 4; - myleaf.body.node.nodes = init_nodes_of_enc_tree(4); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__act__req_is__activate_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__act__req_trx__nr_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, PCUIF__act__req_ts__nr_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, PCUIF__act__req_spare_descr_.raw); - encoded_length += field_is__activate.RAW_encode(PCUIF__act__req_is__activate_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_trx__nr.RAW_encode(PCUIF__act__req_trx__nr_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_ts__nr.RAW_encode(PCUIF__act__req_ts__nr_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_spare.RAW_encode(PCUIF__act__req_spare_descr_, *myleaf.body.node.nodes[3]); - return myleaf.length = encoded_length; -} - -struct PCUIF__act__req_template::single_value_struct { -INTEGER_template field_is__activate; -INTEGER_template field_trx__nr; -INTEGER_template field_ts__nr; -OCTETSTRING_template field_spare; -}; - -void PCUIF__act__req_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_is__activate = ANY_VALUE; -single_value->field_trx__nr = ANY_VALUE; -single_value->field_ts__nr = ANY_VALUE; -single_value->field_spare = ANY_VALUE; -} -} -} - -void PCUIF__act__req_template::copy_value(const PCUIF__act__req& other_value) -{ -single_value = new single_value_struct; -if (other_value.is__activate().is_bound()) { - single_value->field_is__activate = other_value.is__activate(); -} else { - single_value->field_is__activate.clean_up(); -} -if (other_value.trx__nr().is_bound()) { - single_value->field_trx__nr = other_value.trx__nr(); -} else { - single_value->field_trx__nr.clean_up(); -} -if (other_value.ts__nr().is_bound()) { - single_value->field_ts__nr = other_value.ts__nr(); -} else { - single_value->field_ts__nr.clean_up(); -} -if (other_value.spare().is_bound()) { - single_value->field_spare = other_value.spare(); -} else { - single_value->field_spare.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__act__req_template::copy_template(const PCUIF__act__req_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.is__activate().get_selection()) { -single_value->field_is__activate = other_value.is__activate(); -} else { -single_value->field_is__activate.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.trx__nr().get_selection()) { -single_value->field_trx__nr = other_value.trx__nr(); -} else { -single_value->field_trx__nr.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ts__nr().get_selection()) { -single_value->field_ts__nr = other_value.ts__nr(); -} else { -single_value->field_ts__nr.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.spare().get_selection()) { -single_value->field_spare = other_value.spare(); -} else { -single_value->field_spare.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__act__req_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_act_req."); -break; -} -set_selection(other_value); -} - -PCUIF__act__req_template::PCUIF__act__req_template() -{ -} - -PCUIF__act__req_template::PCUIF__act__req_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__act__req_template::PCUIF__act__req_template(const PCUIF__act__req& other_value) -{ -copy_value(other_value); -} - -PCUIF__act__req_template::PCUIF__act__req_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__act__req&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_act_req from an unbound optional field."); -} -} - -PCUIF__act__req_template::PCUIF__act__req_template(const PCUIF__act__req_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__act__req_template::~PCUIF__act__req_template() -{ -clean_up(); -} - -PCUIF__act__req_template& PCUIF__act__req_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__act__req_template& PCUIF__act__req_template::operator=(const PCUIF__act__req& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__act__req_template& PCUIF__act__req_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__act__req&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_act_req."); -} -return *this; -} - -PCUIF__act__req_template& PCUIF__act__req_template::operator=(const PCUIF__act__req_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__act__req_template::match(const PCUIF__act__req& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.is__activate().is_bound()) return FALSE; -if(!single_value->field_is__activate.match(other_value.is__activate(), legacy))return FALSE; -if(!other_value.trx__nr().is_bound()) return FALSE; -if(!single_value->field_trx__nr.match(other_value.trx__nr(), legacy))return FALSE; -if(!other_value.ts__nr().is_bound()) return FALSE; -if(!single_value->field_ts__nr.match(other_value.ts__nr(), legacy))return FALSE; -if(!other_value.spare().is_bound()) return FALSE; -if(!single_value->field_spare.match(other_value.spare(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_act_req."); -} -return FALSE; -} - -boolean PCUIF__act__req_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_is__activate.is_bound()) return TRUE; -if (single_value->field_trx__nr.is_bound()) return TRUE; -if (single_value->field_ts__nr.is_bound()) return TRUE; -if (single_value->field_spare.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__act__req_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_is__activate.is_value()) return FALSE; -if (!single_value->field_trx__nr.is_value()) return FALSE; -if (!single_value->field_ts__nr.is_value()) return FALSE; -if (!single_value->field_spare.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__act__req_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__act__req PCUIF__act__req_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_act_req."); -PCUIF__act__req ret_val; -if (single_value->field_is__activate.is_bound()) { -ret_val.is__activate() = single_value->field_is__activate.valueof(); -} -if (single_value->field_trx__nr.is_bound()) { -ret_val.trx__nr() = single_value->field_trx__nr.valueof(); -} -if (single_value->field_ts__nr.is_bound()) { -ret_val.ts__nr() = single_value->field_ts__nr.valueof(); -} -if (single_value->field_spare.is_bound()) { -ret_val.spare() = single_value->field_spare.valueof(); -} -return ret_val; -} - -void PCUIF__act__req_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_act_req."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__act__req_template[list_length]; -} - -PCUIF__act__req_template& PCUIF__act__req_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_act_req."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_act_req."); -return value_list.list_value[list_index]; -} - -INTEGER_template& PCUIF__act__req_template::is__activate() -{ -set_specific(); -return single_value->field_is__activate; -} - -const INTEGER_template& PCUIF__act__req_template::is__activate() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field is_activate of a non-specific template of type @PCUIF_Types.PCUIF_act_req."); -return single_value->field_is__activate; -} - -INTEGER_template& PCUIF__act__req_template::trx__nr() -{ -set_specific(); -return single_value->field_trx__nr; -} - -const INTEGER_template& PCUIF__act__req_template::trx__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field trx_nr of a non-specific template of type @PCUIF_Types.PCUIF_act_req."); -return single_value->field_trx__nr; -} - -INTEGER_template& PCUIF__act__req_template::ts__nr() -{ -set_specific(); -return single_value->field_ts__nr; -} - -const INTEGER_template& PCUIF__act__req_template::ts__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ts_nr of a non-specific template of type @PCUIF_Types.PCUIF_act_req."); -return single_value->field_ts__nr; -} - -OCTETSTRING_template& PCUIF__act__req_template::spare() -{ -set_specific(); -return single_value->field_spare; -} - -const OCTETSTRING_template& PCUIF__act__req_template::spare() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field spare of a non-specific template of type @PCUIF_Types.PCUIF_act_req."); -return single_value->field_spare; -} - -int PCUIF__act__req_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_act_req which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 4; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_act_req containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_act_req containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_act_req containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_act_req containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_act_req containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_act_req."); - } - return 0; -} - -void PCUIF__act__req_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ is_activate := "); -single_value->field_is__activate.log(); -TTCN_Logger::log_event_str(", trx_nr := "); -single_value->field_trx__nr.log(); -TTCN_Logger::log_event_str(", ts_nr := "); -single_value->field_ts__nr.log(); -TTCN_Logger::log_event_str(", spare := "); -single_value->field_spare.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__act__req_template::log_match(const PCUIF__act__req& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_is__activate.match(match_value.is__activate(), legacy)){ -TTCN_Logger::log_logmatch_info(".is_activate"); -single_value->field_is__activate.log_match(match_value.is__activate(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_trx__nr.match(match_value.trx__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".trx_nr"); -single_value->field_trx__nr.log_match(match_value.trx__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ts__nr.match(match_value.ts__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".ts_nr"); -single_value->field_ts__nr.log_match(match_value.ts__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_spare.match(match_value.spare(), legacy)){ -TTCN_Logger::log_logmatch_info(".spare"); -single_value->field_spare.log_match(match_value.spare(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ is_activate := "); -single_value->field_is__activate.log_match(match_value.is__activate(), legacy); -TTCN_Logger::log_event_str(", trx_nr := "); -single_value->field_trx__nr.log_match(match_value.trx__nr(), legacy); -TTCN_Logger::log_event_str(", ts_nr := "); -single_value->field_ts__nr.log_match(match_value.ts__nr(), legacy); -TTCN_Logger::log_event_str(", spare := "); -single_value->field_spare.log_match(match_value.spare(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__act__req_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_is__activate.encode_text(text_buf); -single_value->field_trx__nr.encode_text(text_buf); -single_value->field_ts__nr.encode_text(text_buf); -single_value->field_spare.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_act_req."); -} -} - -void PCUIF__act__req_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_is__activate.decode_text(text_buf); -single_value->field_trx__nr.decode_text(text_buf); -single_value->field_ts__nr.decode_text(text_buf); -single_value->field_spare.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__act__req_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_act_req."); -} -} - -void PCUIF__act__req_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__act__req_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) is__activate().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) trx__nr().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) ts__nr().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) spare().set_param(*param.get_elem(3)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "is_activate")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - is__activate().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "trx_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - trx__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ts_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ts__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_act_req: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_act_req"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__act__req_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_is__activate.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_act_req"); -single_value->field_trx__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_act_req"); -single_value->field_ts__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_act_req"); -single_value->field_spare.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_act_req"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_act_req"); -} - -boolean PCUIF__act__req_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__act__req_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) fn().set_param(*param.get_elem(0)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "fn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - fn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_time_ind: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_time_ind"); - } -} - -void PCUIF__time__ind::set_implicit_omit() -{ -if (fn().is_bound()) fn().set_implicit_omit(); -} - -void PCUIF__time__ind::encode_text(Text_Buf& text_buf) const -{ -field_fn.encode_text(text_buf); -} - -void PCUIF__time__ind::decode_text(Text_Buf& text_buf) -{ -field_fn.decode_text(text_buf); -} - -void PCUIF__time__ind::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__time__ind::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__time__ind::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__time__ind_fn_descr_.raw->forceomit); - decoded_field_length = field_fn.RAW_decode(PCUIF__time__ind_fn_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__time__ind::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 1; - myleaf.body.node.nodes = init_nodes_of_enc_tree(1); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__time__ind_fn_descr_.raw); - encoded_length += field_fn.RAW_encode(PCUIF__time__ind_fn_descr_, *myleaf.body.node.nodes[0]); - return myleaf.length = encoded_length; -} - -struct PCUIF__time__ind_template::single_value_struct { -INTEGER_template field_fn; -}; - -void PCUIF__time__ind_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_fn = ANY_VALUE; -} -} -} - -void PCUIF__time__ind_template::copy_value(const PCUIF__time__ind& other_value) -{ -single_value = new single_value_struct; -if (other_value.fn().is_bound()) { - single_value->field_fn = other_value.fn(); -} else { - single_value->field_fn.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__time__ind_template::copy_template(const PCUIF__time__ind_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.fn().get_selection()) { -single_value->field_fn = other_value.fn(); -} else { -single_value->field_fn.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__time__ind_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_time_ind."); -break; -} -set_selection(other_value); -} - -PCUIF__time__ind_template::PCUIF__time__ind_template() -{ -} - -PCUIF__time__ind_template::PCUIF__time__ind_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__time__ind_template::PCUIF__time__ind_template(const PCUIF__time__ind& other_value) -{ -copy_value(other_value); -} - -PCUIF__time__ind_template::PCUIF__time__ind_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__time__ind&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_time_ind from an unbound optional field."); -} -} - -PCUIF__time__ind_template::PCUIF__time__ind_template(const PCUIF__time__ind_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__time__ind_template::~PCUIF__time__ind_template() -{ -clean_up(); -} - -PCUIF__time__ind_template& PCUIF__time__ind_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__time__ind_template& PCUIF__time__ind_template::operator=(const PCUIF__time__ind& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__time__ind_template& PCUIF__time__ind_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__time__ind&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_time_ind."); -} -return *this; -} - -PCUIF__time__ind_template& PCUIF__time__ind_template::operator=(const PCUIF__time__ind_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__time__ind_template::match(const PCUIF__time__ind& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.fn().is_bound()) return FALSE; -if(!single_value->field_fn.match(other_value.fn(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_time_ind."); -} -return FALSE; -} - -boolean PCUIF__time__ind_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_fn.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__time__ind_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_fn.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__time__ind_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__time__ind PCUIF__time__ind_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_time_ind."); -PCUIF__time__ind ret_val; -if (single_value->field_fn.is_bound()) { -ret_val.fn() = single_value->field_fn.valueof(); -} -return ret_val; -} - -void PCUIF__time__ind_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_time_ind."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__time__ind_template[list_length]; -} - -PCUIF__time__ind_template& PCUIF__time__ind_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_time_ind."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_time_ind."); -return value_list.list_value[list_index]; -} - -INTEGER_template& PCUIF__time__ind_template::fn() -{ -set_specific(); -return single_value->field_fn; -} - -const INTEGER_template& PCUIF__time__ind_template::fn() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field fn of a non-specific template of type @PCUIF_Types.PCUIF_time_ind."); -return single_value->field_fn; -} - -int PCUIF__time__ind_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_time_ind which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 1; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_time_ind containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_time_ind containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_time_ind containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_time_ind containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_time_ind containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_time_ind."); - } - return 0; -} - -void PCUIF__time__ind_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ fn := "); -single_value->field_fn.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__time__ind_template::log_match(const PCUIF__time__ind& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_fn.match(match_value.fn(), legacy)){ -TTCN_Logger::log_logmatch_info(".fn"); -single_value->field_fn.log_match(match_value.fn(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ fn := "); -single_value->field_fn.log_match(match_value.fn(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__time__ind_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_fn.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_time_ind."); -} -} - -void PCUIF__time__ind_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_fn.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__time__ind_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_time_ind."); -} -} - -void PCUIF__time__ind_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__time__ind_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) fn().set_param(*param.get_elem(0)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "fn")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - fn().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_time_ind: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_time_ind"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__time__ind_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_fn.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_time_ind"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_time_ind"); -} - -boolean PCUIF__time__ind_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__time__ind_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) sapi().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) chan__needed().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) identity__lv().set_param(*param.get_elem(2)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "sapi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sapi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "chan_needed")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - chan__needed().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "identity_lv")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - identity__lv().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_pag_req: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_pag_req"); - } -} - -void PCUIF__pag__req::set_implicit_omit() -{ -if (sapi().is_bound()) sapi().set_implicit_omit(); -if (chan__needed().is_bound()) chan__needed().set_implicit_omit(); -if (identity__lv().is_bound()) identity__lv().set_implicit_omit(); -} - -void PCUIF__pag__req::encode_text(Text_Buf& text_buf) const -{ -field_sapi.encode_text(text_buf); -field_chan__needed.encode_text(text_buf); -field_identity__lv.encode_text(text_buf); -} - -void PCUIF__pag__req::decode_text(Text_Buf& text_buf) -{ -field_sapi.decode_text(text_buf); -field_chan__needed.decode_text(text_buf); -field_identity__lv.decode_text(text_buf); -} - -void PCUIF__pag__req::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__pag__req::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__pag__req::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__pag__req_sapi_descr_.raw->forceomit); - decoded_field_length = field_sapi.RAW_decode(PCUIF__pag__req_sapi_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__pag__req_chan__needed_descr_.raw->forceomit); - decoded_field_length = field_chan__needed.RAW_decode(PCUIF__pag__req_chan__needed_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__pag__req_identity__lv_descr_.raw->forceomit); - decoded_field_length = field_identity__lv.RAW_decode(PCUIF__pag__req_identity__lv_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__pag__req::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 3; - myleaf.body.node.nodes = init_nodes_of_enc_tree(3); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__pag__req_sapi_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__pag__req_chan__needed_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, PCUIF__pag__req_identity__lv_descr_.raw); - encoded_length += field_sapi.RAW_encode(PCUIF__pag__req_sapi_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_chan__needed.RAW_encode(PCUIF__pag__req_chan__needed_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_identity__lv.RAW_encode(PCUIF__pag__req_identity__lv_descr_, *myleaf.body.node.nodes[2]); - return myleaf.length = encoded_length; -} - -struct PCUIF__pag__req_template::single_value_struct { -PCUIF__Sapi_template field_sapi; -INTEGER_template field_chan__needed; -OCTETSTRING_template field_identity__lv; -}; - -void PCUIF__pag__req_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_sapi = ANY_VALUE; -single_value->field_chan__needed = ANY_VALUE; -single_value->field_identity__lv = ANY_VALUE; -} -} -} - -void PCUIF__pag__req_template::copy_value(const PCUIF__pag__req& other_value) -{ -single_value = new single_value_struct; -if (other_value.sapi().is_bound()) { - single_value->field_sapi = other_value.sapi(); -} else { - single_value->field_sapi.clean_up(); -} -if (other_value.chan__needed().is_bound()) { - single_value->field_chan__needed = other_value.chan__needed(); -} else { - single_value->field_chan__needed.clean_up(); -} -if (other_value.identity__lv().is_bound()) { - single_value->field_identity__lv = other_value.identity__lv(); -} else { - single_value->field_identity__lv.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__pag__req_template::copy_template(const PCUIF__pag__req_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.sapi().get_selection()) { -single_value->field_sapi = other_value.sapi(); -} else { -single_value->field_sapi.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.chan__needed().get_selection()) { -single_value->field_chan__needed = other_value.chan__needed(); -} else { -single_value->field_chan__needed.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.identity__lv().get_selection()) { -single_value->field_identity__lv = other_value.identity__lv(); -} else { -single_value->field_identity__lv.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__pag__req_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_pag_req."); -break; -} -set_selection(other_value); -} - -PCUIF__pag__req_template::PCUIF__pag__req_template() -{ -} - -PCUIF__pag__req_template::PCUIF__pag__req_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__pag__req_template::PCUIF__pag__req_template(const PCUIF__pag__req& other_value) -{ -copy_value(other_value); -} - -PCUIF__pag__req_template::PCUIF__pag__req_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__pag__req&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_pag_req from an unbound optional field."); -} -} - -PCUIF__pag__req_template::PCUIF__pag__req_template(const PCUIF__pag__req_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__pag__req_template::~PCUIF__pag__req_template() -{ -clean_up(); -} - -PCUIF__pag__req_template& PCUIF__pag__req_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__pag__req_template& PCUIF__pag__req_template::operator=(const PCUIF__pag__req& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__pag__req_template& PCUIF__pag__req_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__pag__req&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_pag_req."); -} -return *this; -} - -PCUIF__pag__req_template& PCUIF__pag__req_template::operator=(const PCUIF__pag__req_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__pag__req_template::match(const PCUIF__pag__req& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.sapi().is_bound()) return FALSE; -if(!single_value->field_sapi.match(other_value.sapi(), legacy))return FALSE; -if(!other_value.chan__needed().is_bound()) return FALSE; -if(!single_value->field_chan__needed.match(other_value.chan__needed(), legacy))return FALSE; -if(!other_value.identity__lv().is_bound()) return FALSE; -if(!single_value->field_identity__lv.match(other_value.identity__lv(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_pag_req."); -} -return FALSE; -} - -boolean PCUIF__pag__req_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_sapi.is_bound()) return TRUE; -if (single_value->field_chan__needed.is_bound()) return TRUE; -if (single_value->field_identity__lv.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__pag__req_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_sapi.is_value()) return FALSE; -if (!single_value->field_chan__needed.is_value()) return FALSE; -if (!single_value->field_identity__lv.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__pag__req_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__pag__req PCUIF__pag__req_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_pag_req."); -PCUIF__pag__req ret_val; -if (single_value->field_sapi.is_bound()) { -ret_val.sapi() = single_value->field_sapi.valueof(); -} -if (single_value->field_chan__needed.is_bound()) { -ret_val.chan__needed() = single_value->field_chan__needed.valueof(); -} -if (single_value->field_identity__lv.is_bound()) { -ret_val.identity__lv() = single_value->field_identity__lv.valueof(); -} -return ret_val; -} - -void PCUIF__pag__req_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_pag_req."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__pag__req_template[list_length]; -} - -PCUIF__pag__req_template& PCUIF__pag__req_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_pag_req."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_pag_req."); -return value_list.list_value[list_index]; -} - -PCUIF__Sapi_template& PCUIF__pag__req_template::sapi() -{ -set_specific(); -return single_value->field_sapi; -} - -const PCUIF__Sapi_template& PCUIF__pag__req_template::sapi() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field sapi of a non-specific template of type @PCUIF_Types.PCUIF_pag_req."); -return single_value->field_sapi; -} - -INTEGER_template& PCUIF__pag__req_template::chan__needed() -{ -set_specific(); -return single_value->field_chan__needed; -} - -const INTEGER_template& PCUIF__pag__req_template::chan__needed() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field chan_needed of a non-specific template of type @PCUIF_Types.PCUIF_pag_req."); -return single_value->field_chan__needed; -} - -OCTETSTRING_template& PCUIF__pag__req_template::identity__lv() -{ -set_specific(); -return single_value->field_identity__lv; -} - -const OCTETSTRING_template& PCUIF__pag__req_template::identity__lv() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field identity_lv of a non-specific template of type @PCUIF_Types.PCUIF_pag_req."); -return single_value->field_identity__lv; -} - -int PCUIF__pag__req_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_pag_req which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 3; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_pag_req containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_pag_req containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_pag_req containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_pag_req containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_pag_req containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_pag_req."); - } - return 0; -} - -void PCUIF__pag__req_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ sapi := "); -single_value->field_sapi.log(); -TTCN_Logger::log_event_str(", chan_needed := "); -single_value->field_chan__needed.log(); -TTCN_Logger::log_event_str(", identity_lv := "); -single_value->field_identity__lv.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__pag__req_template::log_match(const PCUIF__pag__req& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_sapi.match(match_value.sapi(), legacy)){ -TTCN_Logger::log_logmatch_info(".sapi"); -single_value->field_sapi.log_match(match_value.sapi(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_chan__needed.match(match_value.chan__needed(), legacy)){ -TTCN_Logger::log_logmatch_info(".chan_needed"); -single_value->field_chan__needed.log_match(match_value.chan__needed(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_identity__lv.match(match_value.identity__lv(), legacy)){ -TTCN_Logger::log_logmatch_info(".identity_lv"); -single_value->field_identity__lv.log_match(match_value.identity__lv(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ sapi := "); -single_value->field_sapi.log_match(match_value.sapi(), legacy); -TTCN_Logger::log_event_str(", chan_needed := "); -single_value->field_chan__needed.log_match(match_value.chan__needed(), legacy); -TTCN_Logger::log_event_str(", identity_lv := "); -single_value->field_identity__lv.log_match(match_value.identity__lv(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__pag__req_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_sapi.encode_text(text_buf); -single_value->field_chan__needed.encode_text(text_buf); -single_value->field_identity__lv.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_pag_req."); -} -} - -void PCUIF__pag__req_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_sapi.decode_text(text_buf); -single_value->field_chan__needed.decode_text(text_buf); -single_value->field_identity__lv.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__pag__req_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_pag_req."); -} -} - -void PCUIF__pag__req_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__pag__req_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) sapi().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) chan__needed().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) identity__lv().set_param(*param.get_elem(2)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "sapi")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - sapi().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "chan_needed")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - chan__needed().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "identity_lv")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - identity__lv().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_pag_req: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_pag_req"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__pag__req_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_sapi.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_pag_req"); -single_value->field_chan__needed.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_pag_req"); -single_value->field_identity__lv.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_pag_req"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_pag_req"); -} - -boolean PCUIF__pag__req_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__pag__req_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idx0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) tlli().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) ra__id().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) cause().set_param(*param.get_elem(2)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "tlli")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - tlli().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ra_id")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ra__id().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cause")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cause().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_susp_req: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_susp_req"); - } -} - -void PCUIF__susp__req::set_implicit_omit() -{ -if (tlli().is_bound()) tlli().set_implicit_omit(); -if (ra__id().is_bound()) ra__id().set_implicit_omit(); -if (cause().is_bound()) cause().set_implicit_omit(); -} - -void PCUIF__susp__req::encode_text(Text_Buf& text_buf) const -{ -field_tlli.encode_text(text_buf); -field_ra__id.encode_text(text_buf); -field_cause.encode_text(text_buf); -} - -void PCUIF__susp__req::decode_text(Text_Buf& text_buf) -{ -field_tlli.decode_text(text_buf); -field_ra__id.decode_text(text_buf); -field_cause.decode_text(text_buf); -} - -void PCUIF__susp__req::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__susp__req::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__susp__req::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__susp__req_tlli_descr_.raw->forceomit); - decoded_field_length = field_tlli.RAW_decode(PCUIF__susp__req_tlli_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__susp__req_ra__id_descr_.raw->forceomit); - decoded_field_length = field_ra__id.RAW_decode(PCUIF__susp__req_ra__id_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__susp__req_cause_descr_.raw->forceomit); - decoded_field_length = field_cause.RAW_decode(PCUIF__susp__req_cause_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__susp__req::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 3; - myleaf.body.node.nodes = init_nodes_of_enc_tree(3); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__susp__req_tlli_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__susp__req_ra__id_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, PCUIF__susp__req_cause_descr_.raw); - encoded_length += field_tlli.RAW_encode(PCUIF__susp__req_tlli_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_ra__id.RAW_encode(PCUIF__susp__req_ra__id_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_cause.RAW_encode(PCUIF__susp__req_cause_descr_, *myleaf.body.node.nodes[2]); - return myleaf.length = encoded_length; -} - -struct PCUIF__susp__req_template::single_value_struct { -OCTETSTRING_template field_tlli; -OCTETSTRING_template field_ra__id; -INTEGER_template field_cause; -}; - -void PCUIF__susp__req_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_tlli = ANY_VALUE; -single_value->field_ra__id = ANY_VALUE; -single_value->field_cause = ANY_VALUE; -} -} -} - -void PCUIF__susp__req_template::copy_value(const PCUIF__susp__req& other_value) -{ -single_value = new single_value_struct; -if (other_value.tlli().is_bound()) { - single_value->field_tlli = other_value.tlli(); -} else { - single_value->field_tlli.clean_up(); -} -if (other_value.ra__id().is_bound()) { - single_value->field_ra__id = other_value.ra__id(); -} else { - single_value->field_ra__id.clean_up(); -} -if (other_value.cause().is_bound()) { - single_value->field_cause = other_value.cause(); -} else { - single_value->field_cause.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__susp__req_template::copy_template(const PCUIF__susp__req_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.tlli().get_selection()) { -single_value->field_tlli = other_value.tlli(); -} else { -single_value->field_tlli.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.ra__id().get_selection()) { -single_value->field_ra__id = other_value.ra__id(); -} else { -single_value->field_ra__id.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.cause().get_selection()) { -single_value->field_cause = other_value.cause(); -} else { -single_value->field_cause.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__susp__req_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_susp_req."); -break; -} -set_selection(other_value); -} - -PCUIF__susp__req_template::PCUIF__susp__req_template() -{ -} - -PCUIF__susp__req_template::PCUIF__susp__req_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__susp__req_template::PCUIF__susp__req_template(const PCUIF__susp__req& other_value) -{ -copy_value(other_value); -} - -PCUIF__susp__req_template::PCUIF__susp__req_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__susp__req&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_susp_req from an unbound optional field."); -} -} - -PCUIF__susp__req_template::PCUIF__susp__req_template(const PCUIF__susp__req_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__susp__req_template::~PCUIF__susp__req_template() -{ -clean_up(); -} - -PCUIF__susp__req_template& PCUIF__susp__req_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__susp__req_template& PCUIF__susp__req_template::operator=(const PCUIF__susp__req& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__susp__req_template& PCUIF__susp__req_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__susp__req&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_susp_req."); -} -return *this; -} - -PCUIF__susp__req_template& PCUIF__susp__req_template::operator=(const PCUIF__susp__req_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__susp__req_template::match(const PCUIF__susp__req& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.tlli().is_bound()) return FALSE; -if(!single_value->field_tlli.match(other_value.tlli(), legacy))return FALSE; -if(!other_value.ra__id().is_bound()) return FALSE; -if(!single_value->field_ra__id.match(other_value.ra__id(), legacy))return FALSE; -if(!other_value.cause().is_bound()) return FALSE; -if(!single_value->field_cause.match(other_value.cause(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_susp_req."); -} -return FALSE; -} - -boolean PCUIF__susp__req_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_tlli.is_bound()) return TRUE; -if (single_value->field_ra__id.is_bound()) return TRUE; -if (single_value->field_cause.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__susp__req_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_tlli.is_value()) return FALSE; -if (!single_value->field_ra__id.is_value()) return FALSE; -if (!single_value->field_cause.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__susp__req_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__susp__req PCUIF__susp__req_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_susp_req."); -PCUIF__susp__req ret_val; -if (single_value->field_tlli.is_bound()) { -ret_val.tlli() = single_value->field_tlli.valueof(); -} -if (single_value->field_ra__id.is_bound()) { -ret_val.ra__id() = single_value->field_ra__id.valueof(); -} -if (single_value->field_cause.is_bound()) { -ret_val.cause() = single_value->field_cause.valueof(); -} -return ret_val; -} - -void PCUIF__susp__req_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_susp_req."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__susp__req_template[list_length]; -} - -PCUIF__susp__req_template& PCUIF__susp__req_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_susp_req."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_susp_req."); -return value_list.list_value[list_index]; -} - -OCTETSTRING_template& PCUIF__susp__req_template::tlli() -{ -set_specific(); -return single_value->field_tlli; -} - -const OCTETSTRING_template& PCUIF__susp__req_template::tlli() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field tlli of a non-specific template of type @PCUIF_Types.PCUIF_susp_req."); -return single_value->field_tlli; -} - -OCTETSTRING_template& PCUIF__susp__req_template::ra__id() -{ -set_specific(); -return single_value->field_ra__id; -} - -const OCTETSTRING_template& PCUIF__susp__req_template::ra__id() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field ra_id of a non-specific template of type @PCUIF_Types.PCUIF_susp_req."); -return single_value->field_ra__id; -} - -INTEGER_template& PCUIF__susp__req_template::cause() -{ -set_specific(); -return single_value->field_cause; -} - -const INTEGER_template& PCUIF__susp__req_template::cause() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field cause of a non-specific template of type @PCUIF_Types.PCUIF_susp_req."); -return single_value->field_cause; -} - -int PCUIF__susp__req_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_susp_req which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 3; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_susp_req containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_susp_req containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_susp_req containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_susp_req containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_susp_req containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_susp_req."); - } - return 0; -} - -void PCUIF__susp__req_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ tlli := "); -single_value->field_tlli.log(); -TTCN_Logger::log_event_str(", ra_id := "); -single_value->field_ra__id.log(); -TTCN_Logger::log_event_str(", cause := "); -single_value->field_cause.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__susp__req_template::log_match(const PCUIF__susp__req& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_tlli.match(match_value.tlli(), legacy)){ -TTCN_Logger::log_logmatch_info(".tlli"); -single_value->field_tlli.log_match(match_value.tlli(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_ra__id.match(match_value.ra__id(), legacy)){ -TTCN_Logger::log_logmatch_info(".ra_id"); -single_value->field_ra__id.log_match(match_value.ra__id(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_cause.match(match_value.cause(), legacy)){ -TTCN_Logger::log_logmatch_info(".cause"); -single_value->field_cause.log_match(match_value.cause(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ tlli := "); -single_value->field_tlli.log_match(match_value.tlli(), legacy); -TTCN_Logger::log_event_str(", ra_id := "); -single_value->field_ra__id.log_match(match_value.ra__id(), legacy); -TTCN_Logger::log_event_str(", cause := "); -single_value->field_cause.log_match(match_value.cause(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__susp__req_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_tlli.encode_text(text_buf); -single_value->field_ra__id.encode_text(text_buf); -single_value->field_cause.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_susp_req."); -} -} - -void PCUIF__susp__req_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_tlli.decode_text(text_buf); -single_value->field_ra__id.decode_text(text_buf); -single_value->field_cause.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__susp__req_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_susp_req."); -} -} - -void PCUIF__susp__req_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__susp__req_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) tlli().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) ra__id().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) cause().set_param(*param.get_elem(2)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "tlli")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - tlli().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "ra_id")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - ra__id().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "cause")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - cause().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_susp_req: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_susp_req"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__susp__req_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_tlli.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_susp_req"); -single_value->field_ra__id.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_susp_req"); -single_value->field_cause.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_susp_req"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_susp_req"); -} - -boolean PCUIF__susp__req_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__susp__req_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idxis_value(); -case ALT_data__cnf: return field_data__cnf->is_value(); -case ALT_data__cnf__dt: return field_data__cnf__dt->is_value(); -case ALT_data__ind: return field_data__ind->is_value(); -case ALT_susp__req: return field_susp__req->is_value(); -case ALT_rts__req: return field_rts__req->is_value(); -case ALT_rach__ind: return field_rach__ind->is_value(); -case ALT_txt__ind: return field_txt__ind->is_value(); -case ALT_info__ind: return field_info__ind->is_value(); -case ALT_act__req: return field_act__req->is_value(); -case ALT_time__ind: return field_time__ind->is_value(); -case ALT_pag__req: return field_pag__req->is_value(); -default: TTCN_error("Invalid selection in union is_bound");} -} - -void PCUIF__MsgUnion::clean_up() -{ -switch (union_selection) { -case ALT_data__req: - delete field_data__req; - break; -case ALT_data__cnf: - delete field_data__cnf; - break; -case ALT_data__cnf__dt: - delete field_data__cnf__dt; - break; -case ALT_data__ind: - delete field_data__ind; - break; -case ALT_susp__req: - delete field_susp__req; - break; -case ALT_rts__req: - delete field_rts__req; - break; -case ALT_rach__ind: - delete field_rach__ind; - break; -case ALT_txt__ind: - delete field_txt__ind; - break; -case ALT_info__ind: - delete field_info__ind; - break; -case ALT_act__req: - delete field_act__req; - break; -case ALT_time__ind: - delete field_time__ind; - break; -case ALT_pag__req: - delete field_pag__req; - break; -default: - break; -} -union_selection = UNBOUND_VALUE; -} - -void PCUIF__MsgUnion::log() const -{ -switch (union_selection) { -case ALT_data__req: -TTCN_Logger::log_event_str("{ data_req := "); -field_data__req->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_data__cnf: -TTCN_Logger::log_event_str("{ data_cnf := "); -field_data__cnf->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_data__cnf__dt: -TTCN_Logger::log_event_str("{ data_cnf_dt := "); -field_data__cnf__dt->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_data__ind: -TTCN_Logger::log_event_str("{ data_ind := "); -field_data__ind->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_susp__req: -TTCN_Logger::log_event_str("{ susp_req := "); -field_susp__req->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_rts__req: -TTCN_Logger::log_event_str("{ rts_req := "); -field_rts__req->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_rach__ind: -TTCN_Logger::log_event_str("{ rach_ind := "); -field_rach__ind->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_txt__ind: -TTCN_Logger::log_event_str("{ txt_ind := "); -field_txt__ind->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_info__ind: -TTCN_Logger::log_event_str("{ info_ind := "); -field_info__ind->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_act__req: -TTCN_Logger::log_event_str("{ act_req := "); -field_act__req->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_time__ind: -TTCN_Logger::log_event_str("{ time_ind := "); -field_time__ind->log(); -TTCN_Logger::log_event_str(" }"); -break; -case ALT_pag__req: -TTCN_Logger::log_event_str("{ pag_req := "); -field_pag__req->log(); -TTCN_Logger::log_event_str(" }"); -break; -default: -TTCN_Logger::log_event_unbound(); -} -} - -void PCUIF__MsgUnion::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "union value"); - Module_Param_Ptr m_p = ¶m; - if (m_p->get_type()==Module_Param::MP_Value_List && m_p->get_size()==0) return; - if (m_p->get_type()!=Module_Param::MP_Assignment_List) { - param.error("union value with field name was expected"); - } - Module_Param* mp_last = m_p->get_elem(m_p->get_size()-1); - char* last_name = mp_last->get_id()->get_name(); - if (!strcmp(last_name, "data_req")) { - data__req().set_param(*mp_last); - if (!data__req().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "data_cnf")) { - data__cnf().set_param(*mp_last); - if (!data__cnf().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "data_cnf_dt")) { - data__cnf__dt().set_param(*mp_last); - if (!data__cnf__dt().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "data_ind")) { - data__ind().set_param(*mp_last); - if (!data__ind().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "susp_req")) { - susp__req().set_param(*mp_last); - if (!susp__req().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "rts_req")) { - rts__req().set_param(*mp_last); - if (!rts__req().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "rach_ind")) { - rach__ind().set_param(*mp_last); - if (!rach__ind().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "txt_ind")) { - txt__ind().set_param(*mp_last); - if (!txt__ind().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "info_ind")) { - info__ind().set_param(*mp_last); - if (!info__ind().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "act_req")) { - act__req().set_param(*mp_last); - if (!act__req().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "time_ind")) { - time__ind().set_param(*mp_last); - if (!time__ind().is_bound()) clean_up(); - return; - } - if (!strcmp(last_name, "pag_req")) { - pag__req().set_param(*mp_last); - if (!pag__req().is_bound()) clean_up(); - return; - } - mp_last->error("Field %s does not exist in type @PCUIF_Types.PCUIF_MsgUnion.", last_name); -} - -void PCUIF__MsgUnion::set_implicit_omit() -{ -switch (union_selection) { -case ALT_data__req: -field_data__req->set_implicit_omit(); break; -case ALT_data__cnf: -field_data__cnf->set_implicit_omit(); break; -case ALT_data__cnf__dt: -field_data__cnf__dt->set_implicit_omit(); break; -case ALT_data__ind: -field_data__ind->set_implicit_omit(); break; -case ALT_susp__req: -field_susp__req->set_implicit_omit(); break; -case ALT_rts__req: -field_rts__req->set_implicit_omit(); break; -case ALT_rach__ind: -field_rach__ind->set_implicit_omit(); break; -case ALT_txt__ind: -field_txt__ind->set_implicit_omit(); break; -case ALT_info__ind: -field_info__ind->set_implicit_omit(); break; -case ALT_act__req: -field_act__req->set_implicit_omit(); break; -case ALT_time__ind: -field_time__ind->set_implicit_omit(); break; -case ALT_pag__req: -field_pag__req->set_implicit_omit(); break; -default: break; -} -} - -void PCUIF__MsgUnion::encode_text(Text_Buf& text_buf) const -{ -text_buf.push_int(union_selection); -switch (union_selection) { -case ALT_data__req: -field_data__req->encode_text(text_buf); -break; -case ALT_data__cnf: -field_data__cnf->encode_text(text_buf); -break; -case ALT_data__cnf__dt: -field_data__cnf__dt->encode_text(text_buf); -break; -case ALT_data__ind: -field_data__ind->encode_text(text_buf); -break; -case ALT_susp__req: -field_susp__req->encode_text(text_buf); -break; -case ALT_rts__req: -field_rts__req->encode_text(text_buf); -break; -case ALT_rach__ind: -field_rach__ind->encode_text(text_buf); -break; -case ALT_txt__ind: -field_txt__ind->encode_text(text_buf); -break; -case ALT_info__ind: -field_info__ind->encode_text(text_buf); -break; -case ALT_act__req: -field_act__req->encode_text(text_buf); -break; -case ALT_time__ind: -field_time__ind->encode_text(text_buf); -break; -case ALT_pag__req: -field_pag__req->encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an unbound value of union type @PCUIF_Types.PCUIF_MsgUnion."); -} -} - -void PCUIF__MsgUnion::decode_text(Text_Buf& text_buf) -{ -switch ((union_selection_type)text_buf.pull_int().get_val()) { -case ALT_data__req: -data__req().decode_text(text_buf); -break; -case ALT_data__cnf: -data__cnf().decode_text(text_buf); -break; -case ALT_data__cnf__dt: -data__cnf__dt().decode_text(text_buf); -break; -case ALT_data__ind: -data__ind().decode_text(text_buf); -break; -case ALT_susp__req: -susp__req().decode_text(text_buf); -break; -case ALT_rts__req: -rts__req().decode_text(text_buf); -break; -case ALT_rach__ind: -rach__ind().decode_text(text_buf); -break; -case ALT_txt__ind: -txt__ind().decode_text(text_buf); -break; -case ALT_info__ind: -info__ind().decode_text(text_buf); -break; -case ALT_act__req: -act__req().decode_text(text_buf); -break; -case ALT_time__ind: -time__ind().decode_text(text_buf); -break; -case ALT_pag__req: -pag__req().decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: Unrecognized union selector was received for type @PCUIF_Types.PCUIF_MsgUnion."); -} -} - -void PCUIF__MsgUnion::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(TRUE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__MsgUnion::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__MsgUnion::RAW_decode( -const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, -raw_order_t top_bit_ord, boolean no_err, int sel_field, boolean, const RAW_Force_Omit* force_omit) -{ - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - int decoded_length=0; - int starting_pos=p_buf.get_pos_bit(); - if(sel_field!=-1){ - switch(sel_field){ - case 0: { - RAW_Force_Omit field_force_omit(0, force_omit, PCUIF__MsgUnion_data__req_descr_.raw->forceomit); - decoded_length = data__req().RAW_decode(PCUIF__MsgUnion_data__req_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 1: { - RAW_Force_Omit field_force_omit(1, force_omit, PCUIF__MsgUnion_data__cnf_descr_.raw->forceomit); - decoded_length = data__cnf().RAW_decode(PCUIF__MsgUnion_data__cnf_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 2: { - RAW_Force_Omit field_force_omit(2, force_omit, PCUIF__MsgUnion_data__cnf__dt_descr_.raw->forceomit); - decoded_length = data__cnf__dt().RAW_decode(PCUIF__MsgUnion_data__cnf__dt_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 3: { - RAW_Force_Omit field_force_omit(3, force_omit, PCUIF__MsgUnion_data__ind_descr_.raw->forceomit); - decoded_length = data__ind().RAW_decode(PCUIF__MsgUnion_data__ind_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 4: { - RAW_Force_Omit field_force_omit(4, force_omit, PCUIF__MsgUnion_susp__req_descr_.raw->forceomit); - decoded_length = susp__req().RAW_decode(PCUIF__MsgUnion_susp__req_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 5: { - RAW_Force_Omit field_force_omit(5, force_omit, PCUIF__MsgUnion_rts__req_descr_.raw->forceomit); - decoded_length = rts__req().RAW_decode(PCUIF__MsgUnion_rts__req_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 6: { - RAW_Force_Omit field_force_omit(6, force_omit, PCUIF__MsgUnion_rach__ind_descr_.raw->forceomit); - decoded_length = rach__ind().RAW_decode(PCUIF__MsgUnion_rach__ind_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 7: { - RAW_Force_Omit field_force_omit(7, force_omit, PCUIF__MsgUnion_txt__ind_descr_.raw->forceomit); - decoded_length = txt__ind().RAW_decode(PCUIF__MsgUnion_txt__ind_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 8: { - RAW_Force_Omit field_force_omit(8, force_omit, PCUIF__MsgUnion_info__ind_descr_.raw->forceomit); - decoded_length = info__ind().RAW_decode(PCUIF__MsgUnion_info__ind_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 9: { - RAW_Force_Omit field_force_omit(9, force_omit, PCUIF__MsgUnion_act__req_descr_.raw->forceomit); - decoded_length = act__req().RAW_decode(PCUIF__MsgUnion_act__req_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 10: { - RAW_Force_Omit field_force_omit(10, force_omit, PCUIF__MsgUnion_time__ind_descr_.raw->forceomit); - decoded_length = time__ind().RAW_decode(PCUIF__MsgUnion_time__ind_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - case 11: { - RAW_Force_Omit field_force_omit(11, force_omit, PCUIF__MsgUnion_pag__req_descr_.raw->forceomit); - decoded_length = pag__req().RAW_decode(PCUIF__MsgUnion_pag__req_descr_, p_buf, limit, top_bit_ord, no_err, -1, TRUE, &field_force_omit); - break; } - default: break; - } - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } else { - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__MsgUnion_data__req_descr_.raw->forceomit); - decoded_length = data__req().RAW_decode(PCUIF__MsgUnion_data__req_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_0_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__MsgUnion_data__cnf_descr_.raw->forceomit); - decoded_length = data__cnf().RAW_decode(PCUIF__MsgUnion_data__cnf_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_1_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__MsgUnion_data__cnf__dt_descr_.raw->forceomit); - decoded_length = data__cnf__dt().RAW_decode(PCUIF__MsgUnion_data__cnf__dt_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_2_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_3_force_omit(3, force_omit, PCUIF__MsgUnion_data__ind_descr_.raw->forceomit); - decoded_length = data__ind().RAW_decode(PCUIF__MsgUnion_data__ind_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_3_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_4_force_omit(4, force_omit, PCUIF__MsgUnion_susp__req_descr_.raw->forceomit); - decoded_length = susp__req().RAW_decode(PCUIF__MsgUnion_susp__req_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_4_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_5_force_omit(5, force_omit, PCUIF__MsgUnion_rts__req_descr_.raw->forceomit); - decoded_length = rts__req().RAW_decode(PCUIF__MsgUnion_rts__req_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_5_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_6_force_omit(6, force_omit, PCUIF__MsgUnion_rach__ind_descr_.raw->forceomit); - decoded_length = rach__ind().RAW_decode(PCUIF__MsgUnion_rach__ind_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_6_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_7_force_omit(7, force_omit, PCUIF__MsgUnion_txt__ind_descr_.raw->forceomit); - decoded_length = txt__ind().RAW_decode(PCUIF__MsgUnion_txt__ind_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_7_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_8_force_omit(8, force_omit, PCUIF__MsgUnion_info__ind_descr_.raw->forceomit); - decoded_length = info__ind().RAW_decode(PCUIF__MsgUnion_info__ind_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_8_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_9_force_omit(9, force_omit, PCUIF__MsgUnion_act__req_descr_.raw->forceomit); - decoded_length = act__req().RAW_decode(PCUIF__MsgUnion_act__req_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_9_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_10_force_omit(10, force_omit, PCUIF__MsgUnion_time__ind_descr_.raw->forceomit); - decoded_length = time__ind().RAW_decode(PCUIF__MsgUnion_time__ind_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_10_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - p_buf.set_pos_bit(starting_pos); - RAW_Force_Omit field_11_force_omit(11, force_omit, PCUIF__MsgUnion_pag__req_descr_.raw->forceomit); - decoded_length = pag__req().RAW_decode(PCUIF__MsgUnion_pag__req_descr_, p_buf, limit, top_bit_ord, TRUE, -1, TRUE, &field_11_force_omit); - if (decoded_length >= 0) { - return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; - } - } - clean_up(); - return -1; -} - -int PCUIF__MsgUnion::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const -{ - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 12; myleaf.body.node.nodes = init_nodes_of_enc_tree(12); - memset(myleaf.body.node.nodes, 0, 12 * sizeof(RAW_enc_tree *)); - switch (union_selection) { - case ALT_data__req: - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 0, PCUIF__MsgUnion_data__req_descr_.raw); - encoded_length = field_data__req->RAW_encode(PCUIF__MsgUnion_data__req_descr_, *myleaf.body.node.nodes[0]); - myleaf.body.node.nodes[0]->coding_descr = &PCUIF__MsgUnion_data__req_descr_; - break; - case ALT_data__cnf: - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 1, PCUIF__MsgUnion_data__cnf_descr_.raw); - encoded_length = field_data__cnf->RAW_encode(PCUIF__MsgUnion_data__cnf_descr_, *myleaf.body.node.nodes[1]); - myleaf.body.node.nodes[1]->coding_descr = &PCUIF__MsgUnion_data__cnf_descr_; - break; - case ALT_data__cnf__dt: - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 2, PCUIF__MsgUnion_data__cnf__dt_descr_.raw); - encoded_length = field_data__cnf__dt->RAW_encode(PCUIF__MsgUnion_data__cnf__dt_descr_, *myleaf.body.node.nodes[2]); - myleaf.body.node.nodes[2]->coding_descr = &PCUIF__MsgUnion_data__cnf__dt_descr_; - break; - case ALT_data__ind: - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 3, PCUIF__MsgUnion_data__ind_descr_.raw); - encoded_length = field_data__ind->RAW_encode(PCUIF__MsgUnion_data__ind_descr_, *myleaf.body.node.nodes[3]); - myleaf.body.node.nodes[3]->coding_descr = &PCUIF__MsgUnion_data__ind_descr_; - break; - case ALT_susp__req: - myleaf.body.node.nodes[4] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 4, PCUIF__MsgUnion_susp__req_descr_.raw); - encoded_length = field_susp__req->RAW_encode(PCUIF__MsgUnion_susp__req_descr_, *myleaf.body.node.nodes[4]); - myleaf.body.node.nodes[4]->coding_descr = &PCUIF__MsgUnion_susp__req_descr_; - break; - case ALT_rts__req: - myleaf.body.node.nodes[5] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 5, PCUIF__MsgUnion_rts__req_descr_.raw); - encoded_length = field_rts__req->RAW_encode(PCUIF__MsgUnion_rts__req_descr_, *myleaf.body.node.nodes[5]); - myleaf.body.node.nodes[5]->coding_descr = &PCUIF__MsgUnion_rts__req_descr_; - break; - case ALT_rach__ind: - myleaf.body.node.nodes[6] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 6, PCUIF__MsgUnion_rach__ind_descr_.raw); - encoded_length = field_rach__ind->RAW_encode(PCUIF__MsgUnion_rach__ind_descr_, *myleaf.body.node.nodes[6]); - myleaf.body.node.nodes[6]->coding_descr = &PCUIF__MsgUnion_rach__ind_descr_; - break; - case ALT_txt__ind: - myleaf.body.node.nodes[7] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 7, PCUIF__MsgUnion_txt__ind_descr_.raw); - encoded_length = field_txt__ind->RAW_encode(PCUIF__MsgUnion_txt__ind_descr_, *myleaf.body.node.nodes[7]); - myleaf.body.node.nodes[7]->coding_descr = &PCUIF__MsgUnion_txt__ind_descr_; - break; - case ALT_info__ind: - myleaf.body.node.nodes[8] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 8, PCUIF__MsgUnion_info__ind_descr_.raw); - encoded_length = field_info__ind->RAW_encode(PCUIF__MsgUnion_info__ind_descr_, *myleaf.body.node.nodes[8]); - myleaf.body.node.nodes[8]->coding_descr = &PCUIF__MsgUnion_info__ind_descr_; - break; - case ALT_act__req: - myleaf.body.node.nodes[9] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 9, PCUIF__MsgUnion_act__req_descr_.raw); - encoded_length = field_act__req->RAW_encode(PCUIF__MsgUnion_act__req_descr_, *myleaf.body.node.nodes[9]); - myleaf.body.node.nodes[9]->coding_descr = &PCUIF__MsgUnion_act__req_descr_; - break; - case ALT_time__ind: - myleaf.body.node.nodes[10] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 10, PCUIF__MsgUnion_time__ind_descr_.raw); - encoded_length = field_time__ind->RAW_encode(PCUIF__MsgUnion_time__ind_descr_, *myleaf.body.node.nodes[10]); - myleaf.body.node.nodes[10]->coding_descr = &PCUIF__MsgUnion_time__ind_descr_; - break; - case ALT_pag__req: - myleaf.body.node.nodes[11] = new RAW_enc_tree(TRUE, &myleaf, &myleaf.curr_pos, 11, PCUIF__MsgUnion_pag__req_descr_.raw); - encoded_length = field_pag__req->RAW_encode(PCUIF__MsgUnion_pag__req_descr_, *myleaf.body.node.nodes[11]); - myleaf.body.node.nodes[11]->coding_descr = &PCUIF__MsgUnion_pag__req_descr_; - break; - default: - TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - } - return encoded_length; -} - -void PCUIF__MsgUnion_template::copy_value(const PCUIF__MsgUnion& other_value) -{ -single_value.union_selection = other_value.get_selection(); -switch (single_value.union_selection) { -case PCUIF__MsgUnion::ALT_data__req: -single_value.field_data__req = new PCUIF__data_template(other_value.data__req()); -break; -case PCUIF__MsgUnion::ALT_data__cnf: -single_value.field_data__cnf = new PCUIF__data_template(other_value.data__cnf()); -break; -case PCUIF__MsgUnion::ALT_data__cnf__dt: -single_value.field_data__cnf__dt = new PCUIF__data__cnf__dt_template(other_value.data__cnf__dt()); -break; -case PCUIF__MsgUnion::ALT_data__ind: -single_value.field_data__ind = new PCUIF__data_template(other_value.data__ind()); -break; -case PCUIF__MsgUnion::ALT_susp__req: -single_value.field_susp__req = new PCUIF__susp__req_template(other_value.susp__req()); -break; -case PCUIF__MsgUnion::ALT_rts__req: -single_value.field_rts__req = new PCUIF__rts__req_template(other_value.rts__req()); -break; -case PCUIF__MsgUnion::ALT_rach__ind: -single_value.field_rach__ind = new PCUIF__rach__ind_template(other_value.rach__ind()); -break; -case PCUIF__MsgUnion::ALT_txt__ind: -single_value.field_txt__ind = new PCUIF__txt__ind_template(other_value.txt__ind()); -break; -case PCUIF__MsgUnion::ALT_info__ind: -single_value.field_info__ind = new PCUIF__info__ind_template(other_value.info__ind()); -break; -case PCUIF__MsgUnion::ALT_act__req: -single_value.field_act__req = new PCUIF__act__req_template(other_value.act__req()); -break; -case PCUIF__MsgUnion::ALT_time__ind: -single_value.field_time__ind = new PCUIF__time__ind_template(other_value.time__ind()); -break; -case PCUIF__MsgUnion::ALT_pag__req: -single_value.field_pag__req = new PCUIF__pag__req_template(other_value.pag__req()); -break; -default: -TTCN_error("Initializing a template with an unbound value of type @PCUIF_Types.PCUIF_MsgUnion."); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__MsgUnion_template::copy_template(const PCUIF__MsgUnion_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value.union_selection = other_value.single_value.union_selection; -switch (single_value.union_selection) { -case PCUIF__MsgUnion::ALT_data__req: -single_value.field_data__req = new PCUIF__data_template(*other_value.single_value.field_data__req); -break; -case PCUIF__MsgUnion::ALT_data__cnf: -single_value.field_data__cnf = new PCUIF__data_template(*other_value.single_value.field_data__cnf); -break; -case PCUIF__MsgUnion::ALT_data__cnf__dt: -single_value.field_data__cnf__dt = new PCUIF__data__cnf__dt_template(*other_value.single_value.field_data__cnf__dt); -break; -case PCUIF__MsgUnion::ALT_data__ind: -single_value.field_data__ind = new PCUIF__data_template(*other_value.single_value.field_data__ind); -break; -case PCUIF__MsgUnion::ALT_susp__req: -single_value.field_susp__req = new PCUIF__susp__req_template(*other_value.single_value.field_susp__req); -break; -case PCUIF__MsgUnion::ALT_rts__req: -single_value.field_rts__req = new PCUIF__rts__req_template(*other_value.single_value.field_rts__req); -break; -case PCUIF__MsgUnion::ALT_rach__ind: -single_value.field_rach__ind = new PCUIF__rach__ind_template(*other_value.single_value.field_rach__ind); -break; -case PCUIF__MsgUnion::ALT_txt__ind: -single_value.field_txt__ind = new PCUIF__txt__ind_template(*other_value.single_value.field_txt__ind); -break; -case PCUIF__MsgUnion::ALT_info__ind: -single_value.field_info__ind = new PCUIF__info__ind_template(*other_value.single_value.field_info__ind); -break; -case PCUIF__MsgUnion::ALT_act__req: -single_value.field_act__req = new PCUIF__act__req_template(*other_value.single_value.field_act__req); -break; -case PCUIF__MsgUnion::ALT_time__ind: -single_value.field_time__ind = new PCUIF__time__ind_template(*other_value.single_value.field_time__ind); -break; -case PCUIF__MsgUnion::ALT_pag__req: -single_value.field_pag__req = new PCUIF__pag__req_template(*other_value.single_value.field_pag__req); -break; -default: -TTCN_error("Internal error: Invalid union selector in a specific value when copying a template of type @PCUIF_Types.PCUIF_MsgUnion."); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__MsgUnion_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized template of union type @PCUIF_Types.PCUIF_MsgUnion."); -} -set_selection(other_value); -} - -PCUIF__MsgUnion_template::PCUIF__MsgUnion_template() -{ -} - -PCUIF__MsgUnion_template::PCUIF__MsgUnion_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__MsgUnion_template::PCUIF__MsgUnion_template(const PCUIF__MsgUnion& other_value) -{ -copy_value(other_value); -} - -PCUIF__MsgUnion_template::PCUIF__MsgUnion_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__MsgUnion&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of union type @PCUIF_Types.PCUIF_MsgUnion from an unbound optional field."); -} -} - -PCUIF__MsgUnion_template::PCUIF__MsgUnion_template(const PCUIF__MsgUnion_template& other_value) -: Base_Template(){ -copy_template(other_value); -} - -PCUIF__MsgUnion_template::~PCUIF__MsgUnion_template() -{ -clean_up(); -} - -void PCUIF__MsgUnion_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -switch (single_value.union_selection) { -case PCUIF__MsgUnion::ALT_data__req: -delete single_value.field_data__req; -break; -case PCUIF__MsgUnion::ALT_data__cnf: -delete single_value.field_data__cnf; -break; -case PCUIF__MsgUnion::ALT_data__cnf__dt: -delete single_value.field_data__cnf__dt; -break; -case PCUIF__MsgUnion::ALT_data__ind: -delete single_value.field_data__ind; -break; -case PCUIF__MsgUnion::ALT_susp__req: -delete single_value.field_susp__req; -break; -case PCUIF__MsgUnion::ALT_rts__req: -delete single_value.field_rts__req; -break; -case PCUIF__MsgUnion::ALT_rach__ind: -delete single_value.field_rach__ind; -break; -case PCUIF__MsgUnion::ALT_txt__ind: -delete single_value.field_txt__ind; -break; -case PCUIF__MsgUnion::ALT_info__ind: -delete single_value.field_info__ind; -break; -case PCUIF__MsgUnion::ALT_act__req: -delete single_value.field_act__req; -break; -case PCUIF__MsgUnion::ALT_time__ind: -delete single_value.field_time__ind; -break; -case PCUIF__MsgUnion::ALT_pag__req: -delete single_value.field_pag__req; -default: -break; -} -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__MsgUnion_template& PCUIF__MsgUnion_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__MsgUnion_template& PCUIF__MsgUnion_template::operator=(const PCUIF__MsgUnion& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__MsgUnion_template& PCUIF__MsgUnion_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__MsgUnion&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -} -return *this; -} - -PCUIF__MsgUnion_template& PCUIF__MsgUnion_template::operator=(const PCUIF__MsgUnion_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__MsgUnion_template::match(const PCUIF__MsgUnion& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -{ -PCUIF__MsgUnion::union_selection_type value_selection = other_value.get_selection(); -if (value_selection == PCUIF__MsgUnion::UNBOUND_VALUE) return FALSE; -if (value_selection != single_value.union_selection) return FALSE; -switch (value_selection) { -case PCUIF__MsgUnion::ALT_data__req: -return single_value.field_data__req->match(other_value.data__req(), legacy); -case PCUIF__MsgUnion::ALT_data__cnf: -return single_value.field_data__cnf->match(other_value.data__cnf(), legacy); -case PCUIF__MsgUnion::ALT_data__cnf__dt: -return single_value.field_data__cnf__dt->match(other_value.data__cnf__dt(), legacy); -case PCUIF__MsgUnion::ALT_data__ind: -return single_value.field_data__ind->match(other_value.data__ind(), legacy); -case PCUIF__MsgUnion::ALT_susp__req: -return single_value.field_susp__req->match(other_value.susp__req(), legacy); -case PCUIF__MsgUnion::ALT_rts__req: -return single_value.field_rts__req->match(other_value.rts__req(), legacy); -case PCUIF__MsgUnion::ALT_rach__ind: -return single_value.field_rach__ind->match(other_value.rach__ind(), legacy); -case PCUIF__MsgUnion::ALT_txt__ind: -return single_value.field_txt__ind->match(other_value.txt__ind(), legacy); -case PCUIF__MsgUnion::ALT_info__ind: -return single_value.field_info__ind->match(other_value.info__ind(), legacy); -case PCUIF__MsgUnion::ALT_act__req: -return single_value.field_act__req->match(other_value.act__req(), legacy); -case PCUIF__MsgUnion::ALT_time__ind: -return single_value.field_time__ind->match(other_value.time__ind(), legacy); -case PCUIF__MsgUnion::ALT_pag__req: -return single_value.field_pag__req->match(other_value.pag__req(), legacy); -default: -TTCN_error("Internal error: Invalid selector in a specific value when matching a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -} -} -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error ("Matching an uninitialized template of union type @PCUIF_Types.PCUIF_MsgUnion."); -} -return FALSE; -} - -boolean PCUIF__MsgUnion_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -switch (single_value.union_selection) { -case PCUIF__MsgUnion::ALT_data__req: -return single_value.field_data__req->is_value(); -case PCUIF__MsgUnion::ALT_data__cnf: -return single_value.field_data__cnf->is_value(); -case PCUIF__MsgUnion::ALT_data__cnf__dt: -return single_value.field_data__cnf__dt->is_value(); -case PCUIF__MsgUnion::ALT_data__ind: -return single_value.field_data__ind->is_value(); -case PCUIF__MsgUnion::ALT_susp__req: -return single_value.field_susp__req->is_value(); -case PCUIF__MsgUnion::ALT_rts__req: -return single_value.field_rts__req->is_value(); -case PCUIF__MsgUnion::ALT_rach__ind: -return single_value.field_rach__ind->is_value(); -case PCUIF__MsgUnion::ALT_txt__ind: -return single_value.field_txt__ind->is_value(); -case PCUIF__MsgUnion::ALT_info__ind: -return single_value.field_info__ind->is_value(); -case PCUIF__MsgUnion::ALT_act__req: -return single_value.field_act__req->is_value(); -case PCUIF__MsgUnion::ALT_time__ind: -return single_value.field_time__ind->is_value(); -case PCUIF__MsgUnion::ALT_pag__req: -return single_value.field_pag__req->is_value(); -default: -TTCN_error("Internal error: Invalid selector in a specific value when performing is_value operation on a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -} -} - -PCUIF__MsgUnion PCUIF__MsgUnion_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -PCUIF__MsgUnion ret_val; -switch (single_value.union_selection) { -case PCUIF__MsgUnion::ALT_data__req: -ret_val.data__req() = single_value.field_data__req->valueof(); -break; -case PCUIF__MsgUnion::ALT_data__cnf: -ret_val.data__cnf() = single_value.field_data__cnf->valueof(); -break; -case PCUIF__MsgUnion::ALT_data__cnf__dt: -ret_val.data__cnf__dt() = single_value.field_data__cnf__dt->valueof(); -break; -case PCUIF__MsgUnion::ALT_data__ind: -ret_val.data__ind() = single_value.field_data__ind->valueof(); -break; -case PCUIF__MsgUnion::ALT_susp__req: -ret_val.susp__req() = single_value.field_susp__req->valueof(); -break; -case PCUIF__MsgUnion::ALT_rts__req: -ret_val.rts__req() = single_value.field_rts__req->valueof(); -break; -case PCUIF__MsgUnion::ALT_rach__ind: -ret_val.rach__ind() = single_value.field_rach__ind->valueof(); -break; -case PCUIF__MsgUnion::ALT_txt__ind: -ret_val.txt__ind() = single_value.field_txt__ind->valueof(); -break; -case PCUIF__MsgUnion::ALT_info__ind: -ret_val.info__ind() = single_value.field_info__ind->valueof(); -break; -case PCUIF__MsgUnion::ALT_act__req: -ret_val.act__req() = single_value.field_act__req->valueof(); -break; -case PCUIF__MsgUnion::ALT_time__ind: -ret_val.time__ind() = single_value.field_time__ind->valueof(); -break; -case PCUIF__MsgUnion::ALT_pag__req: -ret_val.pag__req() = single_value.field_pag__req->valueof(); -break; -default: -TTCN_error("Internal error: Invalid selector in a specific value when performing valueof operation on a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -} -return ret_val; -} - -PCUIF__MsgUnion_template& PCUIF__MsgUnion_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) TTCN_error("Internal error: Accessing a list element of a non-list template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (list_index >= value_list.n_values) TTCN_error("Internal error: Index overflow in a value list template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return value_list.list_value[list_index]; -} -void PCUIF__MsgUnion_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) TTCN_error ("Internal error: Setting an invalid list for a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__MsgUnion_template[list_length]; -} - -PCUIF__data_template& PCUIF__MsgUnion_template::data__req() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_data__req) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_data__req = new PCUIF__data_template(ANY_VALUE); -else single_value.field_data__req = new PCUIF__data_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_data__req; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_data__req; -} - -const PCUIF__data_template& PCUIF__MsgUnion_template::data__req() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field data_req in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_data__req) TTCN_error("Accessing non-selected field data_req in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_data__req; -} - -PCUIF__data_template& PCUIF__MsgUnion_template::data__cnf() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_data__cnf) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_data__cnf = new PCUIF__data_template(ANY_VALUE); -else single_value.field_data__cnf = new PCUIF__data_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_data__cnf; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_data__cnf; -} - -const PCUIF__data_template& PCUIF__MsgUnion_template::data__cnf() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field data_cnf in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_data__cnf) TTCN_error("Accessing non-selected field data_cnf in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_data__cnf; -} - -PCUIF__data__cnf__dt_template& PCUIF__MsgUnion_template::data__cnf__dt() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_data__cnf__dt) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_data__cnf__dt = new PCUIF__data__cnf__dt_template(ANY_VALUE); -else single_value.field_data__cnf__dt = new PCUIF__data__cnf__dt_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_data__cnf__dt; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_data__cnf__dt; -} - -const PCUIF__data__cnf__dt_template& PCUIF__MsgUnion_template::data__cnf__dt() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field data_cnf_dt in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_data__cnf__dt) TTCN_error("Accessing non-selected field data_cnf_dt in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_data__cnf__dt; -} - -PCUIF__data_template& PCUIF__MsgUnion_template::data__ind() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_data__ind) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_data__ind = new PCUIF__data_template(ANY_VALUE); -else single_value.field_data__ind = new PCUIF__data_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_data__ind; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_data__ind; -} - -const PCUIF__data_template& PCUIF__MsgUnion_template::data__ind() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field data_ind in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_data__ind) TTCN_error("Accessing non-selected field data_ind in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_data__ind; -} - -PCUIF__susp__req_template& PCUIF__MsgUnion_template::susp__req() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_susp__req) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_susp__req = new PCUIF__susp__req_template(ANY_VALUE); -else single_value.field_susp__req = new PCUIF__susp__req_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_susp__req; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_susp__req; -} - -const PCUIF__susp__req_template& PCUIF__MsgUnion_template::susp__req() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field susp_req in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_susp__req) TTCN_error("Accessing non-selected field susp_req in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_susp__req; -} - -PCUIF__rts__req_template& PCUIF__MsgUnion_template::rts__req() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_rts__req) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_rts__req = new PCUIF__rts__req_template(ANY_VALUE); -else single_value.field_rts__req = new PCUIF__rts__req_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_rts__req; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_rts__req; -} - -const PCUIF__rts__req_template& PCUIF__MsgUnion_template::rts__req() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field rts_req in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_rts__req) TTCN_error("Accessing non-selected field rts_req in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_rts__req; -} - -PCUIF__rach__ind_template& PCUIF__MsgUnion_template::rach__ind() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_rach__ind) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_rach__ind = new PCUIF__rach__ind_template(ANY_VALUE); -else single_value.field_rach__ind = new PCUIF__rach__ind_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_rach__ind; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_rach__ind; -} - -const PCUIF__rach__ind_template& PCUIF__MsgUnion_template::rach__ind() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field rach_ind in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_rach__ind) TTCN_error("Accessing non-selected field rach_ind in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_rach__ind; -} - -PCUIF__txt__ind_template& PCUIF__MsgUnion_template::txt__ind() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_txt__ind) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_txt__ind = new PCUIF__txt__ind_template(ANY_VALUE); -else single_value.field_txt__ind = new PCUIF__txt__ind_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_txt__ind; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_txt__ind; -} - -const PCUIF__txt__ind_template& PCUIF__MsgUnion_template::txt__ind() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field txt_ind in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_txt__ind) TTCN_error("Accessing non-selected field txt_ind in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_txt__ind; -} - -PCUIF__info__ind_template& PCUIF__MsgUnion_template::info__ind() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_info__ind) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_info__ind = new PCUIF__info__ind_template(ANY_VALUE); -else single_value.field_info__ind = new PCUIF__info__ind_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_info__ind; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_info__ind; -} - -const PCUIF__info__ind_template& PCUIF__MsgUnion_template::info__ind() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field info_ind in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_info__ind) TTCN_error("Accessing non-selected field info_ind in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_info__ind; -} - -PCUIF__act__req_template& PCUIF__MsgUnion_template::act__req() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_act__req) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_act__req = new PCUIF__act__req_template(ANY_VALUE); -else single_value.field_act__req = new PCUIF__act__req_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_act__req; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_act__req; -} - -const PCUIF__act__req_template& PCUIF__MsgUnion_template::act__req() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field act_req in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_act__req) TTCN_error("Accessing non-selected field act_req in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_act__req; -} - -PCUIF__time__ind_template& PCUIF__MsgUnion_template::time__ind() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_time__ind) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_time__ind = new PCUIF__time__ind_template(ANY_VALUE); -else single_value.field_time__ind = new PCUIF__time__ind_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_time__ind; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_time__ind; -} - -const PCUIF__time__ind_template& PCUIF__MsgUnion_template::time__ind() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field time_ind in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_time__ind) TTCN_error("Accessing non-selected field time_ind in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_time__ind; -} - -PCUIF__pag__req_template& PCUIF__MsgUnion_template::pag__req() -{ -if (template_selection != SPECIFIC_VALUE || single_value.union_selection != PCUIF__MsgUnion::ALT_pag__req) { -template_sel old_selection = template_selection; -clean_up(); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) single_value.field_pag__req = new PCUIF__pag__req_template(ANY_VALUE); -else single_value.field_pag__req = new PCUIF__pag__req_template; -single_value.union_selection = PCUIF__MsgUnion::ALT_pag__req; -set_selection(SPECIFIC_VALUE); -} -return *single_value.field_pag__req; -} - -const PCUIF__pag__req_template& PCUIF__MsgUnion_template::pag__req() const -{ -if (template_selection != SPECIFIC_VALUE) TTCN_error("Accessing field pag_req in a non-specific template of union type @PCUIF_Types.PCUIF_MsgUnion."); -if (single_value.union_selection != PCUIF__MsgUnion::ALT_pag__req) TTCN_error("Accessing non-selected field pag_req in a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return *single_value.field_pag__req; -} - -boolean PCUIF__MsgUnion_template::ischosen(PCUIF__MsgUnion::union_selection_type checked_selection) const -{ -if (checked_selection == PCUIF__MsgUnion::UNBOUND_VALUE) TTCN_error("Internal error: Performing ischosen() operation on an invalid field of union type @PCUIF_Types.PCUIF_MsgUnion."); -switch (template_selection) { -case SPECIFIC_VALUE: -if (single_value.union_selection == PCUIF__MsgUnion::UNBOUND_VALUE) TTCN_error("Internal error: Invalid selector in a specific value when performing ischosen() operation on a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -return single_value.union_selection == checked_selection; -case VALUE_LIST: -{ -if (value_list.n_values < 1) -TTCN_error("Internal error: Performing ischosen() operation on a template of union type @PCUIF_Types.PCUIF_MsgUnion containing an empty list."); -boolean ret_val = value_list.list_value[0].ischosen(checked_selection); -for (unsigned int list_count = 1; ret_val == TRUE && list_count < value_list.n_values; list_count++) { -ret_val = value_list.list_value[list_count].ischosen(checked_selection); -} -return ret_val; -} -default: -return FALSE; -} -return FALSE; -} - -void PCUIF__MsgUnion_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -switch (single_value.union_selection) { -case PCUIF__MsgUnion::ALT_data__req: -TTCN_Logger::log_event_str("{ data_req := "); -single_value.field_data__req->log(); -TTCN_Logger::log_event_str(" }"); -break; -case PCUIF__MsgUnion::ALT_data__cnf: -TTCN_Logger::log_event_str("{ data_cnf := "); -single_value.field_data__cnf->log(); -TTCN_Logger::log_event_str(" }"); -break; -case PCUIF__MsgUnion::ALT_data__cnf__dt: -TTCN_Logger::log_event_str("{ data_cnf_dt := "); -single_value.field_data__cnf__dt->log(); -TTCN_Logger::log_event_str(" }"); -break; -case PCUIF__MsgUnion::ALT_data__ind: -TTCN_Logger::log_event_str("{ data_ind := "); -single_value.field_data__ind->log(); -TTCN_Logger::log_event_str(" }"); -break; -case PCUIF__MsgUnion::ALT_susp__req: -TTCN_Logger::log_event_str("{ susp_req := "); -single_value.field_susp__req->log(); -TTCN_Logger::log_event_str(" }"); -break; -case PCUIF__MsgUnion::ALT_rts__req: -TTCN_Logger::log_event_str("{ rts_req := "); -single_value.field_rts__req->log(); -TTCN_Logger::log_event_str(" }"); -break; -case PCUIF__MsgUnion::ALT_rach__ind: -TTCN_Logger::log_event_str("{ rach_ind := "); -single_value.field_rach__ind->log(); -TTCN_Logger::log_event_str(" }"); -break; -case PCUIF__MsgUnion::ALT_txt__ind: -TTCN_Logger::log_event_str("{ txt_ind := "); -single_value.field_txt__ind->log(); -TTCN_Logger::log_event_str(" }"); -break; -case PCUIF__MsgUnion::ALT_info__ind: -TTCN_Logger::log_event_str("{ info_ind := "); -single_value.field_info__ind->log(); -TTCN_Logger::log_event_str(" }"); -break; -case PCUIF__MsgUnion::ALT_act__req: -TTCN_Logger::log_event_str("{ act_req := "); -single_value.field_act__req->log(); -TTCN_Logger::log_event_str(" }"); -break; -case PCUIF__MsgUnion::ALT_time__ind: -TTCN_Logger::log_event_str("{ time_ind := "); -single_value.field_time__ind->log(); -TTCN_Logger::log_event_str(" }"); -break; -case PCUIF__MsgUnion::ALT_pag__req: -TTCN_Logger::log_event_str("{ pag_req := "); -single_value.field_pag__req->log(); -TTCN_Logger::log_event_str(" }"); -break; -default: -TTCN_Logger::log_event_str(""); -} -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__MsgUnion_template::log_match(const PCUIF__MsgUnion& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity() && match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -return; -} -if (template_selection == SPECIFIC_VALUE && single_value.union_selection == match_value.get_selection()) { -switch (single_value.union_selection) { -case PCUIF__MsgUnion::ALT_data__req: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".data_req"); -single_value.field_data__req->log_match(match_value.data__req(), legacy); -} else { -TTCN_Logger::log_event_str("{ data_req := "); -single_value.field_data__req->log_match(match_value.data__req(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case PCUIF__MsgUnion::ALT_data__cnf: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".data_cnf"); -single_value.field_data__cnf->log_match(match_value.data__cnf(), legacy); -} else { -TTCN_Logger::log_event_str("{ data_cnf := "); -single_value.field_data__cnf->log_match(match_value.data__cnf(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case PCUIF__MsgUnion::ALT_data__cnf__dt: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".data_cnf_dt"); -single_value.field_data__cnf__dt->log_match(match_value.data__cnf__dt(), legacy); -} else { -TTCN_Logger::log_event_str("{ data_cnf_dt := "); -single_value.field_data__cnf__dt->log_match(match_value.data__cnf__dt(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case PCUIF__MsgUnion::ALT_data__ind: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".data_ind"); -single_value.field_data__ind->log_match(match_value.data__ind(), legacy); -} else { -TTCN_Logger::log_event_str("{ data_ind := "); -single_value.field_data__ind->log_match(match_value.data__ind(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case PCUIF__MsgUnion::ALT_susp__req: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".susp_req"); -single_value.field_susp__req->log_match(match_value.susp__req(), legacy); -} else { -TTCN_Logger::log_event_str("{ susp_req := "); -single_value.field_susp__req->log_match(match_value.susp__req(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case PCUIF__MsgUnion::ALT_rts__req: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".rts_req"); -single_value.field_rts__req->log_match(match_value.rts__req(), legacy); -} else { -TTCN_Logger::log_event_str("{ rts_req := "); -single_value.field_rts__req->log_match(match_value.rts__req(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case PCUIF__MsgUnion::ALT_rach__ind: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".rach_ind"); -single_value.field_rach__ind->log_match(match_value.rach__ind(), legacy); -} else { -TTCN_Logger::log_event_str("{ rach_ind := "); -single_value.field_rach__ind->log_match(match_value.rach__ind(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case PCUIF__MsgUnion::ALT_txt__ind: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".txt_ind"); -single_value.field_txt__ind->log_match(match_value.txt__ind(), legacy); -} else { -TTCN_Logger::log_event_str("{ txt_ind := "); -single_value.field_txt__ind->log_match(match_value.txt__ind(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case PCUIF__MsgUnion::ALT_info__ind: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".info_ind"); -single_value.field_info__ind->log_match(match_value.info__ind(), legacy); -} else { -TTCN_Logger::log_event_str("{ info_ind := "); -single_value.field_info__ind->log_match(match_value.info__ind(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case PCUIF__MsgUnion::ALT_act__req: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".act_req"); -single_value.field_act__req->log_match(match_value.act__req(), legacy); -} else { -TTCN_Logger::log_event_str("{ act_req := "); -single_value.field_act__req->log_match(match_value.act__req(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case PCUIF__MsgUnion::ALT_time__ind: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".time_ind"); -single_value.field_time__ind->log_match(match_value.time__ind(), legacy); -} else { -TTCN_Logger::log_event_str("{ time_ind := "); -single_value.field_time__ind->log_match(match_value.time__ind(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -case PCUIF__MsgUnion::ALT_pag__req: -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -TTCN_Logger::log_logmatch_info(".pag_req"); -single_value.field_pag__req->log_match(match_value.pag__req(), legacy); -} else { -TTCN_Logger::log_event_str("{ pag_req := "); -single_value.field_pag__req->log_match(match_value.pag__req(), legacy); -TTCN_Logger::log_event_str(" }"); -} -break; -default: -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(""); -} -} else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__MsgUnion_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -text_buf.push_int(single_value.union_selection); -switch (single_value.union_selection) { -case PCUIF__MsgUnion::ALT_data__req: -single_value.field_data__req->encode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_data__cnf: -single_value.field_data__cnf->encode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_data__cnf__dt: -single_value.field_data__cnf__dt->encode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_data__ind: -single_value.field_data__ind->encode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_susp__req: -single_value.field_susp__req->encode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_rts__req: -single_value.field_rts__req->encode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_rach__ind: -single_value.field_rach__ind->encode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_txt__ind: -single_value.field_txt__ind->encode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_info__ind: -single_value.field_info__ind->encode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_act__req: -single_value.field_act__req->encode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_time__ind: -single_value.field_time__ind->encode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_pag__req: -single_value.field_pag__req->encode_text(text_buf); -break; -default: -TTCN_error("Internal error: Invalid selector in a specific value when encoding a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized template of type @PCUIF_Types.PCUIF_MsgUnion."); -} -} - -void PCUIF__MsgUnion_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -{ -single_value.union_selection = PCUIF__MsgUnion::UNBOUND_VALUE; -PCUIF__MsgUnion::union_selection_type new_selection = (PCUIF__MsgUnion::union_selection_type)text_buf.pull_int().get_val(); -switch (new_selection) { -case PCUIF__MsgUnion::ALT_data__req: -single_value.field_data__req = new PCUIF__data_template; -single_value.field_data__req->decode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_data__cnf: -single_value.field_data__cnf = new PCUIF__data_template; -single_value.field_data__cnf->decode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_data__cnf__dt: -single_value.field_data__cnf__dt = new PCUIF__data__cnf__dt_template; -single_value.field_data__cnf__dt->decode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_data__ind: -single_value.field_data__ind = new PCUIF__data_template; -single_value.field_data__ind->decode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_susp__req: -single_value.field_susp__req = new PCUIF__susp__req_template; -single_value.field_susp__req->decode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_rts__req: -single_value.field_rts__req = new PCUIF__rts__req_template; -single_value.field_rts__req->decode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_rach__ind: -single_value.field_rach__ind = new PCUIF__rach__ind_template; -single_value.field_rach__ind->decode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_txt__ind: -single_value.field_txt__ind = new PCUIF__txt__ind_template; -single_value.field_txt__ind->decode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_info__ind: -single_value.field_info__ind = new PCUIF__info__ind_template; -single_value.field_info__ind->decode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_act__req: -single_value.field_act__req = new PCUIF__act__req_template; -single_value.field_act__req->decode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_time__ind: -single_value.field_time__ind = new PCUIF__time__ind_template; -single_value.field_time__ind->decode_text(text_buf); -break; -case PCUIF__MsgUnion::ALT_pag__req: -single_value.field_pag__req = new PCUIF__pag__req_template; -single_value.field_pag__req->decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: Unrecognized union selector was received for a template of type @PCUIF_Types.PCUIF_MsgUnion."); -} -single_value.union_selection = new_selection; -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__MsgUnion_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: Unrecognized selector was received in a template of type @PCUIF_Types.PCUIF_MsgUnion."); -} -} - -boolean PCUIF__MsgUnion_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__MsgUnion_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int v_idx=0; v_idx(param.get_id()) != NULL && - param.get_id()->next_name()) { - char* param_field = param.get_id()->get_current_name(); - if (param_field[0] >= '0' && param_field[0] <= '9') { - param.error("Unexpected array index in module parameter, expected a valid field" - " name for union template type `@PCUIF_Types.PCUIF_MsgUnion'"); - } - if (strcmp("data_req", param_field) == 0) { - data__req().set_param(param); - return; - } else if (strcmp("data_cnf", param_field) == 0) { - data__cnf().set_param(param); - return; - } else if (strcmp("data_cnf_dt", param_field) == 0) { - data__cnf__dt().set_param(param); - return; - } else if (strcmp("data_ind", param_field) == 0) { - data__ind().set_param(param); - return; - } else if (strcmp("susp_req", param_field) == 0) { - susp__req().set_param(param); - return; - } else if (strcmp("rts_req", param_field) == 0) { - rts__req().set_param(param); - return; - } else if (strcmp("rach_ind", param_field) == 0) { - rach__ind().set_param(param); - return; - } else if (strcmp("txt_ind", param_field) == 0) { - txt__ind().set_param(param); - return; - } else if (strcmp("info_ind", param_field) == 0) { - info__ind().set_param(param); - return; - } else if (strcmp("act_req", param_field) == 0) { - act__req().set_param(param); - return; - } else if (strcmp("time_ind", param_field) == 0) { - time__ind().set_param(param); - return; - } else if (strcmp("pag_req", param_field) == 0) { - pag__req().set_param(param); - return; - } else param.error("Field `%s' not found in union template type `@PCUIF_Types.PCUIF_MsgUnion'", param_field); - } - param.basic_check(Module_Param::BC_TEMPLATE, "union template"); - Module_Param_Ptr m_p = ¶m; - switch (m_p->get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__MsgUnion_template new_temp; - new_temp.set_type(m_p->get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, m_p->get_size()); - for (size_t p_i=0; p_iget_size(); p_i++) { - new_temp.list_item(p_i).set_param(*m_p->get_elem(p_i)); - } - *this = new_temp; - break; } - case Module_Param::MP_Value_List: - if (m_p->get_size()==0) break; - param.type_error("union template", "@PCUIF_Types.PCUIF_MsgUnion"); - break; - case Module_Param::MP_Assignment_List: { - Module_Param* mp_last = m_p->get_elem(m_p->get_size()-1); - char* last_name = mp_last->get_id()->get_name(); - if (!strcmp(last_name, "data_req")) { - data__req().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "data_cnf")) { - data__cnf().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "data_cnf_dt")) { - data__cnf__dt().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "data_ind")) { - data__ind().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "susp_req")) { - susp__req().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "rts_req")) { - rts__req().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "rach_ind")) { - rach__ind().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "txt_ind")) { - txt__ind().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "info_ind")) { - info__ind().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "act_req")) { - act__req().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "time_ind")) { - time__ind().set_param(*mp_last); - break; - } - if (!strcmp(last_name, "pag_req")) { - pag__req().set_param(*mp_last); - break; - } - mp_last->error("Field %s does not exist in type @PCUIF_Types.PCUIF_MsgUnion.", last_name); - } break; - default: - param.type_error("union template", "@PCUIF_Types.PCUIF_MsgUnion"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__MsgUnion_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -switch (single_value.union_selection) { -case PCUIF__MsgUnion::ALT_data__req: -single_value.field_data__req->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -case PCUIF__MsgUnion::ALT_data__cnf: -single_value.field_data__cnf->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -case PCUIF__MsgUnion::ALT_data__cnf__dt: -single_value.field_data__cnf__dt->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -case PCUIF__MsgUnion::ALT_data__ind: -single_value.field_data__ind->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -case PCUIF__MsgUnion::ALT_susp__req: -single_value.field_susp__req->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -case PCUIF__MsgUnion::ALT_rts__req: -single_value.field_rts__req->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -case PCUIF__MsgUnion::ALT_rach__ind: -single_value.field_rach__ind->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -case PCUIF__MsgUnion::ALT_txt__ind: -single_value.field_txt__ind->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -case PCUIF__MsgUnion::ALT_info__ind: -single_value.field_info__ind->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -case PCUIF__MsgUnion::ALT_act__req: -single_value.field_act__req->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -case PCUIF__MsgUnion::ALT_time__ind: -single_value.field_time__ind->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -case PCUIF__MsgUnion::ALT_pag__req: -single_value.field_pag__req->check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -return; -default: -TTCN_error("Internal error: Invalid selector in a specific value when performing check_restriction operation on a template of union type @PCUIF_Types.PCUIF_MsgUnion."); -} -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_MsgUnion"); -} - -PCUIF__Message::PCUIF__Message() -{ -} - -PCUIF__Message::PCUIF__Message(const PCUIF__MsgType& par_msg__type, - const INTEGER& par_bts__nr, - const OCTETSTRING& par_spare, - const PCUIF__MsgUnion& par_u) - : field_msg__type(par_msg__type), - field_bts__nr(par_bts__nr), - field_spare(par_spare), - field_u(par_u) -{ -} - -PCUIF__Message::PCUIF__Message(const PCUIF__Message& other_value) -{ -if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @PCUIF_Types.PCUIF_Message."); -if (other_value.msg__type().is_bound()) field_msg__type = other_value.msg__type(); -else field_msg__type.clean_up(); -if (other_value.bts__nr().is_bound()) field_bts__nr = other_value.bts__nr(); -else field_bts__nr.clean_up(); -if (other_value.spare().is_bound()) field_spare = other_value.spare(); -else field_spare.clean_up(); -if (other_value.u().is_bound()) field_u = other_value.u(); -else field_u.clean_up(); -} - -void PCUIF__Message::clean_up() -{ -field_msg__type.clean_up(); -field_bts__nr.clean_up(); -field_spare.clean_up(); -field_u.clean_up(); -} - -const TTCN_Typedescriptor_t* PCUIF__Message::get_descriptor() const { return &PCUIF__Message_descr_; } -PCUIF__Message& PCUIF__Message::operator=(const PCUIF__Message& other_value) -{ -if (this != &other_value) { - if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @PCUIF_Types.PCUIF_Message."); - if (other_value.msg__type().is_bound()) field_msg__type = other_value.msg__type(); - else field_msg__type.clean_up(); - if (other_value.bts__nr().is_bound()) field_bts__nr = other_value.bts__nr(); - else field_bts__nr.clean_up(); - if (other_value.spare().is_bound()) field_spare = other_value.spare(); - else field_spare.clean_up(); - if (other_value.u().is_bound()) field_u = other_value.u(); - else field_u.clean_up(); -} -return *this; -} - -boolean PCUIF__Message::operator==(const PCUIF__Message& other_value) const -{ -return field_msg__type==other_value.field_msg__type - && field_bts__nr==other_value.field_bts__nr - && field_spare==other_value.field_spare - && field_u==other_value.field_u; -} - -boolean PCUIF__Message::is_bound() const -{ -if(field_msg__type.is_bound()) return TRUE; -if(field_bts__nr.is_bound()) return TRUE; -if(field_spare.is_bound()) return TRUE; -if(field_u.is_bound()) return TRUE; -return FALSE; -} -boolean PCUIF__Message::is_value() const -{ -if(!field_msg__type.is_value()) return FALSE; -if(!field_bts__nr.is_value()) return FALSE; -if(!field_spare.is_value()) return FALSE; -if(!field_u.is_value()) return FALSE; -return TRUE; -} -void PCUIF__Message::log() const -{ -if (!is_bound()) { -TTCN_Logger::log_event_unbound(); -return; -} -TTCN_Logger::log_event_str("{ msg_type := "); -field_msg__type.log(); -TTCN_Logger::log_event_str(", bts_nr := "); -field_bts__nr.log(); -TTCN_Logger::log_event_str(", spare := "); -field_spare.log(); -TTCN_Logger::log_event_str(", u := "); -field_u.log(); -TTCN_Logger::log_event_str(" }"); -} - -void PCUIF__Message::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_VALUE, "record value"); - switch (param.get_type()) { - case Module_Param::MP_Value_List: - if (40 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) msg__type().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) bts__nr().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) spare().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) u().set_param(*param.get_elem(3)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "msg_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - msg__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "bts_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - bts__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "u")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - u().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_Message: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record value", "@PCUIF_Types.PCUIF_Message"); - } -} - -void PCUIF__Message::set_implicit_omit() -{ -if (msg__type().is_bound()) msg__type().set_implicit_omit(); -if (bts__nr().is_bound()) bts__nr().set_implicit_omit(); -if (spare().is_bound()) spare().set_implicit_omit(); -if (u().is_bound()) u().set_implicit_omit(); -} - -void PCUIF__Message::encode_text(Text_Buf& text_buf) const -{ -field_msg__type.encode_text(text_buf); -field_bts__nr.encode_text(text_buf); -field_spare.encode_text(text_buf); -field_u.encode_text(text_buf); -} - -void PCUIF__Message::decode_text(Text_Buf& text_buf) -{ -field_msg__type.decode_text(text_buf); -field_bts__nr.decode_text(text_buf); -field_spare.decode_text(text_buf); -field_u.decode_text(text_buf); -} - -void PCUIF__Message::encode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) const -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-encoding type '%s': ", p_td.name); - unsigned BER_coding=va_arg(pvar, unsigned); - BER_encode_chk_coding(BER_coding); - ASN_BER_TLV_t *tlv=BER_encode_TLV(p_td, BER_coding); - tlv->put_in_buffer(p_buf); - ASN_BER_TLV_t::destruct(tlv); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-encoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - RAW_enc_tr_pos rp; - rp.level=0; - rp.pos=NULL; - RAW_enc_tree root(FALSE, NULL, &rp, 1, p_td.raw); - RAW_encode(p_td, root); - root.put_to_buf(p_buf); - break;} - case TTCN_EncDec::CT_TEXT: { - TTCN_EncDec_ErrorContext ec("While TEXT-encoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - TEXT_encode(p_td,p_buf); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-encoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XER_encode(*(p_td.xer),p_buf, XER_coding, 0, 0, 0); - p_buf.put_c('\n'); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-encoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok(va_arg(pvar, int) != 0); - JSON_encode(p_td, tok); - p_buf.put_s(tok.get_buffer_length(), (const unsigned char*)tok.get_buffer()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-encoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_encode(p_td, p_buf); - break;} - default: - TTCN_error("Unknown coding method requested to encode type '%s'", p_td.name); - } - va_end(pvar); -} - -void PCUIF__Message::decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, TTCN_EncDec::coding_t p_coding, ...) -{ - va_list pvar; - va_start(pvar, p_coding); - switch(p_coding) { - case TTCN_EncDec::CT_BER: { - TTCN_EncDec_ErrorContext ec("While BER-decoding type '%s': ", p_td.name); - unsigned L_form=va_arg(pvar, unsigned); - ASN_BER_TLV_t tlv; - BER_decode_str2TLV(p_buf, tlv, L_form); - BER_decode_TLV(p_td, tlv, L_form); - if(tlv.isComplete) p_buf.increase_pos(tlv.get_len()); - break;} - case TTCN_EncDec::CT_RAW: { - TTCN_EncDec_ErrorContext ec("While RAW-decoding type '%s': ", p_td.name); - if(!p_td.raw) - TTCN_EncDec_ErrorContext::error_internal - ("No RAW descriptor available for type '%s'.", p_td.name); - raw_order_t r_order; - switch(p_td.raw->top_bit_order) { - case TOP_BIT_LEFT: - r_order=ORDER_LSB; - break; - case TOP_BIT_RIGHT: - default: - r_order=ORDER_MSB; - } - int rawr = RAW_decode(p_td, p_buf, p_buf.get_len()*8, r_order); - if(rawr<0) switch (-rawr) { - case TTCN_EncDec::ET_INCOMPL_MSG: - case TTCN_EncDec::ET_LEN_ERR: - ec.error((TTCN_EncDec::error_type_t)-rawr, "Can not decode type '%s', because incomplete message was received", p_td.name); - break; - case 1: - default: - ec.error(TTCN_EncDec::ET_INVAL_MSG, "Can not decode type '%s', because invalid message was received", p_td.name); - break; - } - break;} - case TTCN_EncDec::CT_TEXT: { - Limit_Token_List limit; - TTCN_EncDec_ErrorContext ec("While TEXT-decoding type '%s': ", p_td.name); - if(!p_td.text) - TTCN_EncDec_ErrorContext::error_internal - ("No TEXT descriptor available for type '%s'.", p_td.name); - const unsigned char *b_data=p_buf.get_data(); - if(b_data[p_buf.get_len()-1]!='\0'){ - p_buf.set_pos(p_buf.get_len()); - p_buf.put_zero(8,ORDER_LSB); - p_buf.rewind(); - } - if(TEXT_decode(p_td,p_buf,limit)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - break;} - case TTCN_EncDec::CT_XER: { - TTCN_EncDec_ErrorContext ec("While XER-decoding type '%s': ", p_td.name); - unsigned XER_coding=va_arg(pvar, unsigned); - XER_encode_chk_coding(XER_coding, p_td); - XmlReaderWrap reader(p_buf); - for (int rd_ok=reader.Read(); rd_ok==1; rd_ok=reader.Read()) { - if (reader.NodeType() == XML_READER_TYPE_ELEMENT) break; - } - XER_decode(*(p_td.xer), reader, XER_coding | XER_TOPLEVEL, XER_NONE, 0); - size_t bytes = reader.ByteConsumed(); - p_buf.set_pos(bytes); - break;} - case TTCN_EncDec::CT_JSON: { - TTCN_EncDec_ErrorContext ec("While JSON-decoding type '%s': ", p_td.name); - if(!p_td.json) - TTCN_EncDec_ErrorContext::error_internal - ("No JSON descriptor available for type '%s'.", p_td.name); - JSON_Tokenizer tok((const char*)p_buf.get_data(), p_buf.get_len()); - if(JSON_decode(p_td, tok, FALSE)<0) - ec.error(TTCN_EncDec::ET_INCOMPL_MSG,"Can not decode type '%s', because invalid or incomplete message was received", p_td.name); - p_buf.set_pos(tok.get_buf_pos()); - break;} - case TTCN_EncDec::CT_OER: { - TTCN_EncDec_ErrorContext ec("While OER-decoding type '%s': ", p_td.name); - if(!p_td.oer) - TTCN_EncDec_ErrorContext::error_internal - ("No OER descriptor available for type '%s'.", p_td.name); - OER_struct p_oer; - OER_decode(p_td, p_buf, p_oer); - break;} - default: - TTCN_error("Unknown coding method requested to decode type '%s'", p_td.name); - } - va_end(pvar); -} - -int PCUIF__Message::RAW_decode(const TTCN_Typedescriptor_t& p_td, TTCN_Buffer& p_buf, int limit, raw_order_t top_bit_ord, boolean no_err, int, boolean, const RAW_Force_Omit* force_omit) -{ (void)no_err; - int prepaddlength=p_buf.increase_pos_padd(p_td.raw->prepadding); - limit-=prepaddlength; - size_t last_decoded_pos = p_buf.get_pos_bit(); - int decoded_length = 0; - int decoded_field_length = 0; - raw_order_t local_top_order; - int selected_field = -1; - if(p_td.raw->top_bit_order==TOP_BIT_INHERITED)local_top_order=top_bit_ord; - else if(p_td.raw->top_bit_order==TOP_BIT_RIGHT)local_top_order=ORDER_MSB; - else local_top_order=ORDER_LSB; - RAW_Force_Omit field_0_force_omit(0, force_omit, PCUIF__Message_msg__type_descr_.raw->forceomit); - decoded_field_length = field_msg__type.RAW_decode(PCUIF__Message_msg__type_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_0_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_1_force_omit(1, force_omit, PCUIF__Message_bts__nr_descr_.raw->forceomit); - decoded_field_length = field_bts__nr.RAW_decode(PCUIF__Message_bts__nr_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_1_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - RAW_Force_Omit field_2_force_omit(2, force_omit, PCUIF__Message_spare_descr_.raw->forceomit); - decoded_field_length = field_spare.RAW_decode(PCUIF__Message_spare_descr_, p_buf, limit, local_top_order, no_err, -1, TRUE, &field_2_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__DATA__REQ) selected_field = 0; - else if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__DATA__CNF) selected_field = 1; - else if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__DATA__CNF__DT) selected_field = 2; - else if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__DATA__IND) selected_field = 3; - else if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__SUSP__REQ) selected_field = 4; - else if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__RTS__REQ) selected_field = 5; - else if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__RACH__IND) selected_field = 6; - else if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__TXT__IND) selected_field = 7; - else if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__INFO__IND) selected_field = 8; - else if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__ACT__REQ) selected_field = 9; - else if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__TIME__IND) selected_field = 10; - else if (field_msg__type == PCUIF__MsgType::PCU__IF__MSG__PAG__REQ) selected_field = 11; - else selected_field = -1; - RAW_Force_Omit field_3_force_omit(3, force_omit, PCUIF__Message_u_descr_.raw->forceomit); - decoded_field_length = field_u.RAW_decode(PCUIF__Message_u_descr_, p_buf, limit, local_top_order, no_err, selected_field, TRUE, &field_3_force_omit); - if (decoded_field_length < 0) return decoded_field_length; - decoded_length+=decoded_field_length; - limit-=decoded_field_length; - last_decoded_pos=bigger(last_decoded_pos, p_buf.get_pos_bit()); - p_buf.set_pos_bit(last_decoded_pos); - return decoded_length+prepaddlength+p_buf.increase_pos_padd(p_td.raw->padding); -} - -int PCUIF__Message::RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree& myleaf) const { - if (!is_bound()) TTCN_EncDec_ErrorContext::error(TTCN_EncDec::ET_UNBOUND, "Encoding an unbound value."); - int encoded_length = 0; - myleaf.isleaf = FALSE; - myleaf.body.node.num_of_nodes = 4; - myleaf.body.node.nodes = init_nodes_of_enc_tree(4); - myleaf.body.node.nodes[0] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 0, PCUIF__Message_msg__type_descr_.raw); - myleaf.body.node.nodes[1] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 1, PCUIF__Message_bts__nr_descr_.raw); - myleaf.body.node.nodes[2] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 2, PCUIF__Message_spare_descr_.raw); - myleaf.body.node.nodes[3] = new RAW_enc_tree(TRUE, &myleaf, &(myleaf.curr_pos), 3, PCUIF__Message_u_descr_.raw); - encoded_length += field_msg__type.RAW_encode(PCUIF__Message_msg__type_descr_, *myleaf.body.node.nodes[0]); - encoded_length += field_bts__nr.RAW_encode(PCUIF__Message_bts__nr_descr_, *myleaf.body.node.nodes[1]); - encoded_length += field_spare.RAW_encode(PCUIF__Message_spare_descr_, *myleaf.body.node.nodes[2]); - encoded_length += field_u.RAW_encode(PCUIF__Message_u_descr_, *myleaf.body.node.nodes[3]); - switch (field_u.get_selection()) { - case PCUIF__MsgUnion::ALT_data__req: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__DATA__REQ) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__DATA__REQ); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case PCUIF__MsgUnion::ALT_data__cnf: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__DATA__CNF) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__DATA__CNF); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case PCUIF__MsgUnion::ALT_data__cnf__dt: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__DATA__CNF__DT) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__DATA__CNF__DT); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case PCUIF__MsgUnion::ALT_data__ind: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__DATA__IND) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__DATA__IND); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case PCUIF__MsgUnion::ALT_susp__req: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__SUSP__REQ) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__SUSP__REQ); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case PCUIF__MsgUnion::ALT_rts__req: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__RTS__REQ) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__RTS__REQ); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case PCUIF__MsgUnion::ALT_rach__ind: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__RACH__IND) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__RACH__IND); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case PCUIF__MsgUnion::ALT_txt__ind: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__TXT__IND) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__TXT__IND); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case PCUIF__MsgUnion::ALT_info__ind: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__INFO__IND) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__INFO__IND); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case PCUIF__MsgUnion::ALT_act__req: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__ACT__REQ) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__ACT__REQ); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case PCUIF__MsgUnion::ALT_time__ind: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__TIME__IND) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__TIME__IND); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - case PCUIF__MsgUnion::ALT_pag__req: - if (field_msg__type != PCUIF__MsgType::PCU__IF__MSG__PAG__REQ) { - RAW_enc_tr_pos pr_pos; - pr_pos.level = myleaf.curr_pos.level + 1; - int new_pos[] = { 0 }; - pr_pos.pos = init_new_tree_pos(myleaf.curr_pos, 1, new_pos); - PCUIF__MsgType new_val(PCUIF__MsgType::PCU__IF__MSG__PAG__REQ); - RAW_enc_tree* temp_leaf = myleaf.get_node(pr_pos); - if (temp_leaf != NULL) - new_val.RAW_encode(PCUIF__Message_msg__type_descr_,*temp_leaf); - else - TTCN_EncDec_ErrorContext::error - (TTCN_EncDec::ET_OMITTED_TAG, "Encoding a tagged, but omitted value."); - free_tree_pos(pr_pos.pos); - } - break; - default:; - } - return myleaf.length = encoded_length; -} - -struct PCUIF__Message_template::single_value_struct { -PCUIF__MsgType_template field_msg__type; -INTEGER_template field_bts__nr; -OCTETSTRING_template field_spare; -PCUIF__MsgUnion_template field_u; -}; - -void PCUIF__Message_template::set_specific() -{ -if (template_selection != SPECIFIC_VALUE) { -template_sel old_selection = template_selection; -clean_up(); -single_value = new single_value_struct; -set_selection(SPECIFIC_VALUE); -if (old_selection == ANY_VALUE || old_selection == ANY_OR_OMIT) { -single_value->field_msg__type = ANY_VALUE; -single_value->field_bts__nr = ANY_VALUE; -single_value->field_spare = ANY_VALUE; -single_value->field_u = ANY_VALUE; -} -} -} - -void PCUIF__Message_template::copy_value(const PCUIF__Message& other_value) -{ -single_value = new single_value_struct; -if (other_value.msg__type().is_bound()) { - single_value->field_msg__type = other_value.msg__type(); -} else { - single_value->field_msg__type.clean_up(); -} -if (other_value.bts__nr().is_bound()) { - single_value->field_bts__nr = other_value.bts__nr(); -} else { - single_value->field_bts__nr.clean_up(); -} -if (other_value.spare().is_bound()) { - single_value->field_spare = other_value.spare(); -} else { - single_value->field_spare.clean_up(); -} -if (other_value.u().is_bound()) { - single_value->field_u = other_value.u(); -} else { - single_value->field_u.clean_up(); -} -set_selection(SPECIFIC_VALUE); -} - -void PCUIF__Message_template::copy_template(const PCUIF__Message_template& other_value) -{ -switch (other_value.template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -if (UNINITIALIZED_TEMPLATE != other_value.msg__type().get_selection()) { -single_value->field_msg__type = other_value.msg__type(); -} else { -single_value->field_msg__type.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.bts__nr().get_selection()) { -single_value->field_bts__nr = other_value.bts__nr(); -} else { -single_value->field_bts__nr.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.spare().get_selection()) { -single_value->field_spare = other_value.spare(); -} else { -single_value->field_spare.clean_up(); -} -if (UNINITIALIZED_TEMPLATE != other_value.u().get_selection()) { -single_value->field_u = other_value.u(); -} else { -single_value->field_u.clean_up(); -} -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = other_value.value_list.n_values; -value_list.list_value = new PCUIF__Message_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].copy_template(other_value.value_list.list_value[list_count]); -break; -default: -TTCN_error("Copying an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_Message."); -break; -} -set_selection(other_value); -} - -PCUIF__Message_template::PCUIF__Message_template() -{ -} - -PCUIF__Message_template::PCUIF__Message_template(template_sel other_value) - : Base_Template(other_value) -{ -check_single_selection(other_value); -} - -PCUIF__Message_template::PCUIF__Message_template(const PCUIF__Message& other_value) -{ -copy_value(other_value); -} - -PCUIF__Message_template::PCUIF__Message_template(const OPTIONAL& other_value) -{ -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__Message&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Creating a template of type @PCUIF_Types.PCUIF_Message from an unbound optional field."); -} -} - -PCUIF__Message_template::PCUIF__Message_template(const PCUIF__Message_template& other_value) -: Base_Template() -{ -copy_template(other_value); -} - -PCUIF__Message_template::~PCUIF__Message_template() -{ -clean_up(); -} - -PCUIF__Message_template& PCUIF__Message_template::operator=(template_sel other_value) -{ -check_single_selection(other_value); -clean_up(); -set_selection(other_value); -return *this; -} - -PCUIF__Message_template& PCUIF__Message_template::operator=(const PCUIF__Message& other_value) -{ -clean_up(); -copy_value(other_value); -return *this; -} - -PCUIF__Message_template& PCUIF__Message_template::operator=(const OPTIONAL& other_value) -{ -clean_up(); -switch (other_value.get_selection()) { -case OPTIONAL_PRESENT: -copy_value((const PCUIF__Message&)other_value); -break; -case OPTIONAL_OMIT: -set_selection(OMIT_VALUE); -break; -default: -TTCN_error("Assignment of an unbound optional field to a template of type @PCUIF_Types.PCUIF_Message."); -} -return *this; -} - -PCUIF__Message_template& PCUIF__Message_template::operator=(const PCUIF__Message_template& other_value) -{ -if (&other_value != this) { -clean_up(); -copy_template(other_value); -} -return *this; -} - -boolean PCUIF__Message_template::match(const PCUIF__Message& other_value, boolean legacy) const -{ -if (!other_value.is_bound()) return FALSE; -switch (template_selection) { -case ANY_VALUE: -case ANY_OR_OMIT: -return TRUE; -case OMIT_VALUE: -return FALSE; -case SPECIFIC_VALUE: -if(!other_value.msg__type().is_bound()) return FALSE; -if(!single_value->field_msg__type.match(other_value.msg__type(), legacy))return FALSE; -if(!other_value.bts__nr().is_bound()) return FALSE; -if(!single_value->field_bts__nr.match(other_value.bts__nr(), legacy))return FALSE; -if(!other_value.spare().is_bound()) return FALSE; -if(!single_value->field_spare.match(other_value.spare(), legacy))return FALSE; -if(!other_value.u().is_bound()) return FALSE; -if(!single_value->field_u.match(other_value.u(), legacy))return FALSE; -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -if (value_list.list_value[list_count].match(other_value, legacy)) return template_selection == VALUE_LIST; -return template_selection == COMPLEMENTED_LIST; -default: -TTCN_error("Matching an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_Message."); -} -return FALSE; -} - -boolean PCUIF__Message_template::is_bound() const -{ -if (template_selection == UNINITIALIZED_TEMPLATE && !is_ifpresent) return FALSE; -if (template_selection != SPECIFIC_VALUE) return TRUE; -if (single_value->field_msg__type.is_bound()) return TRUE; -if (single_value->field_bts__nr.is_bound()) return TRUE; -if (single_value->field_spare.is_bound()) return TRUE; -if (single_value->field_u.is_bound()) return TRUE; -return FALSE; -} - -boolean PCUIF__Message_template::is_value() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) return FALSE; -if (!single_value->field_msg__type.is_value()) return FALSE; -if (!single_value->field_bts__nr.is_value()) return FALSE; -if (!single_value->field_spare.is_value()) return FALSE; -if (!single_value->field_u.is_value()) return FALSE; -return TRUE; -} - -void PCUIF__Message_template::clean_up() -{ -switch (template_selection) { -case SPECIFIC_VALUE: -delete single_value; -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -delete [] value_list.list_value; -default: -break; -} -template_selection = UNINITIALIZED_TEMPLATE; -} - -PCUIF__Message PCUIF__Message_template::valueof() const -{ -if (template_selection != SPECIFIC_VALUE || is_ifpresent) -TTCN_error("Performing a valueof or send operation on a non-specific template of type @PCUIF_Types.PCUIF_Message."); -PCUIF__Message ret_val; -if (single_value->field_msg__type.is_bound()) { -ret_val.msg__type() = single_value->field_msg__type.valueof(); -} -if (single_value->field_bts__nr.is_bound()) { -ret_val.bts__nr() = single_value->field_bts__nr.valueof(); -} -if (single_value->field_spare.is_bound()) { -ret_val.spare() = single_value->field_spare.valueof(); -} -if (single_value->field_u.is_bound()) { -ret_val.u() = single_value->field_u.valueof(); -} -return ret_val; -} - -void PCUIF__Message_template::set_type(template_sel template_type, unsigned int list_length) -{ -if (template_type != VALUE_LIST && template_type != COMPLEMENTED_LIST) -TTCN_error("Setting an invalid list for a template of type @PCUIF_Types.PCUIF_Message."); -clean_up(); -set_selection(template_type); -value_list.n_values = list_length; -value_list.list_value = new PCUIF__Message_template[list_length]; -} - -PCUIF__Message_template& PCUIF__Message_template::list_item(unsigned int list_index) const -{ -if (template_selection != VALUE_LIST && template_selection != COMPLEMENTED_LIST) -TTCN_error("Accessing a list element of a non-list template of type @PCUIF_Types.PCUIF_Message."); -if (list_index >= value_list.n_values) -TTCN_error("Index overflow in a value list template of type @PCUIF_Types.PCUIF_Message."); -return value_list.list_value[list_index]; -} - -PCUIF__MsgType_template& PCUIF__Message_template::msg__type() -{ -set_specific(); -return single_value->field_msg__type; -} - -const PCUIF__MsgType_template& PCUIF__Message_template::msg__type() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field msg_type of a non-specific template of type @PCUIF_Types.PCUIF_Message."); -return single_value->field_msg__type; -} - -INTEGER_template& PCUIF__Message_template::bts__nr() -{ -set_specific(); -return single_value->field_bts__nr; -} - -const INTEGER_template& PCUIF__Message_template::bts__nr() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field bts_nr of a non-specific template of type @PCUIF_Types.PCUIF_Message."); -return single_value->field_bts__nr; -} - -OCTETSTRING_template& PCUIF__Message_template::spare() -{ -set_specific(); -return single_value->field_spare; -} - -const OCTETSTRING_template& PCUIF__Message_template::spare() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field spare of a non-specific template of type @PCUIF_Types.PCUIF_Message."); -return single_value->field_spare; -} - -PCUIF__MsgUnion_template& PCUIF__Message_template::u() -{ -set_specific(); -return single_value->field_u; -} - -const PCUIF__MsgUnion_template& PCUIF__Message_template::u() const -{ -if (template_selection != SPECIFIC_VALUE) -TTCN_error("Accessing field u of a non-specific template of type @PCUIF_Types.PCUIF_Message."); -return single_value->field_u; -} - -int PCUIF__Message_template::size_of() const -{ - if (is_ifpresent) TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Message which has an ifpresent attribute."); - switch (template_selection) - { - case SPECIFIC_VALUE: - return 4; - case VALUE_LIST: - { - if (value_list.n_values<1) - TTCN_error("Internal error: Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Message containing an empty list."); - int item_size = value_list.list_value[0].size_of(); - for (unsigned int l_idx = 1; l_idx < value_list.n_values; l_idx++) - { - if (value_list.list_value[l_idx].size_of()!=item_size) - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Message containing a value list with different sizes."); - } - return item_size; - } - case OMIT_VALUE: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Message containing omit value."); - case ANY_VALUE: - case ANY_OR_OMIT: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Message containing */? value."); - case COMPLEMENTED_LIST: - TTCN_error("Performing sizeof() operation on a template of type @PCUIF_Types.PCUIF_Message containing complemented list."); - default: - TTCN_error("Performing sizeof() operation on an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_Message."); - } - return 0; -} - -void PCUIF__Message_template::log() const -{ -switch (template_selection) { -case SPECIFIC_VALUE: -TTCN_Logger::log_event_str("{ msg_type := "); -single_value->field_msg__type.log(); -TTCN_Logger::log_event_str(", bts_nr := "); -single_value->field_bts__nr.log(); -TTCN_Logger::log_event_str(", spare := "); -single_value->field_spare.log(); -TTCN_Logger::log_event_str(", u := "); -single_value->field_u.log(); -TTCN_Logger::log_event_str(" }"); -break; -case COMPLEMENTED_LIST: -TTCN_Logger::log_event_str("complement"); -case VALUE_LIST: -TTCN_Logger::log_char('('); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) { -if (list_count > 0) TTCN_Logger::log_event_str(", "); -value_list.list_value[list_count].log(); -} -TTCN_Logger::log_char(')'); -break; -default: -log_generic(); -} -log_ifpresent(); -} - -void PCUIF__Message_template::log_match(const PCUIF__Message& match_value, boolean legacy) const -{ -if(TTCN_Logger::VERBOSITY_COMPACT == TTCN_Logger::get_matching_verbosity()){ -if(match(match_value, legacy)){ -TTCN_Logger::print_logmatch_buffer(); -TTCN_Logger::log_event_str(" matched"); -} else{ -if (template_selection == SPECIFIC_VALUE) { -size_t previous_size = TTCN_Logger::get_logmatch_buffer_len(); -if(!single_value->field_msg__type.match(match_value.msg__type(), legacy)){ -TTCN_Logger::log_logmatch_info(".msg_type"); -single_value->field_msg__type.log_match(match_value.msg__type(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_bts__nr.match(match_value.bts__nr(), legacy)){ -TTCN_Logger::log_logmatch_info(".bts_nr"); -single_value->field_bts__nr.log_match(match_value.bts__nr(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_spare.match(match_value.spare(), legacy)){ -TTCN_Logger::log_logmatch_info(".spare"); -single_value->field_spare.log_match(match_value.spare(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -if(!single_value->field_u.match(match_value.u(), legacy)){ -TTCN_Logger::log_logmatch_info(".u"); -single_value->field_u.log_match(match_value.u(), legacy); -TTCN_Logger::set_logmatch_buffer_len(previous_size); -} -}else { -TTCN_Logger::print_logmatch_buffer(); -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -TTCN_Logger::log_event_str(" unmatched"); -} -} -return; -} -if (template_selection == SPECIFIC_VALUE) { -TTCN_Logger::log_event_str("{ msg_type := "); -single_value->field_msg__type.log_match(match_value.msg__type(), legacy); -TTCN_Logger::log_event_str(", bts_nr := "); -single_value->field_bts__nr.log_match(match_value.bts__nr(), legacy); -TTCN_Logger::log_event_str(", spare := "); -single_value->field_spare.log_match(match_value.spare(), legacy); -TTCN_Logger::log_event_str(", u := "); -single_value->field_u.log_match(match_value.u(), legacy); -TTCN_Logger::log_event_str(" }"); -} else { -match_value.log(); -TTCN_Logger::log_event_str(" with "); -log(); -if (match(match_value, legacy)) TTCN_Logger::log_event_str(" matched"); -else TTCN_Logger::log_event_str(" unmatched"); -} -} - -void PCUIF__Message_template::encode_text(Text_Buf& text_buf) const -{ -encode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value->field_msg__type.encode_text(text_buf); -single_value->field_bts__nr.encode_text(text_buf); -single_value->field_spare.encode_text(text_buf); -single_value->field_u.encode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -text_buf.push_int(value_list.n_values); -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].encode_text(text_buf); -break; -default: -TTCN_error("Text encoder: Encoding an uninitialized/unsupported template of type @PCUIF_Types.PCUIF_Message."); -} -} - -void PCUIF__Message_template::decode_text(Text_Buf& text_buf) -{ -clean_up(); -decode_text_base(text_buf); -switch (template_selection) { -case SPECIFIC_VALUE: -single_value = new single_value_struct; -single_value->field_msg__type.decode_text(text_buf); -single_value->field_bts__nr.decode_text(text_buf); -single_value->field_spare.decode_text(text_buf); -single_value->field_u.decode_text(text_buf); -case OMIT_VALUE: -case ANY_VALUE: -case ANY_OR_OMIT: -break; -case VALUE_LIST: -case COMPLEMENTED_LIST: -value_list.n_values = text_buf.pull_int().get_val(); -value_list.list_value = new PCUIF__Message_template[value_list.n_values]; -for (unsigned int list_count = 0; list_count < value_list.n_values; list_count++) -value_list.list_value[list_count].decode_text(text_buf); -break; -default: -TTCN_error("Text decoder: An unknown/unsupported selection was received in a template of type @PCUIF_Types.PCUIF_Message."); -} -} - -void PCUIF__Message_template::set_param(Module_Param& param) -{ - param.basic_check(Module_Param::BC_TEMPLATE, "record template"); - switch (param.get_type()) { - case Module_Param::MP_Omit: - *this = OMIT_VALUE; - break; - case Module_Param::MP_Any: - *this = ANY_VALUE; - break; - case Module_Param::MP_AnyOrNone: - *this = ANY_OR_OMIT; - break; - case Module_Param::MP_List_Template: - case Module_Param::MP_ComplementList_Template: { - PCUIF__Message_template new_temp; - new_temp.set_type(param.get_type()==Module_Param::MP_List_Template ? VALUE_LIST : COMPLEMENTED_LIST, param.get_size()); - for (size_t p_i=0; p_i0 && param.get_elem(0)->get_type()!=Module_Param::MP_NotUsed) msg__type().set_param(*param.get_elem(0)); - if (param.get_size()>1 && param.get_elem(1)->get_type()!=Module_Param::MP_NotUsed) bts__nr().set_param(*param.get_elem(1)); - if (param.get_size()>2 && param.get_elem(2)->get_type()!=Module_Param::MP_NotUsed) spare().set_param(*param.get_elem(2)); - if (param.get_size()>3 && param.get_elem(3)->get_type()!=Module_Param::MP_NotUsed) u().set_param(*param.get_elem(3)); - break; - case Module_Param::MP_Assignment_List: { - Vector value_used(param.get_size()); - value_used.resize(param.get_size(), FALSE); - for (size_t val_idx=0; val_idxget_id()->get_name(), "msg_type")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - msg__type().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "bts_nr")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - bts__nr().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "spare")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - spare().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxget_id()->get_name(), "u")) { - if (curr_param->get_type()!=Module_Param::MP_NotUsed) { - u().set_param(*curr_param); - } - value_used[val_idx]=TRUE; - } - } - for (size_t val_idx=0; val_idxerror("Non existent field name in type @PCUIF_Types.PCUIF_Message: %s", curr_param->get_id()->get_name()); - break; - } - } break; - default: - param.type_error("record template", "@PCUIF_Types.PCUIF_Message"); - } - is_ifpresent = param.get_ifpresent(); -} - -void PCUIF__Message_template::check_restriction(template_res t_res, const char* t_name, boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return; -switch ((t_name&&(t_res==TR_VALUE))?TR_OMIT:t_res) { -case TR_OMIT: -if (template_selection==OMIT_VALUE) return; -case TR_VALUE: -if (template_selection!=SPECIFIC_VALUE || is_ifpresent) break; -single_value->field_msg__type.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Message"); -single_value->field_bts__nr.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Message"); -single_value->field_spare.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Message"); -single_value->field_u.check_restriction(t_res, t_name ? t_name : "@PCUIF_Types.PCUIF_Message"); -return; -case TR_PRESENT: -if (!match_omit(legacy)) return; -break; -default: -return; -} -TTCN_error("Restriction `%s' on template of type %s violated.", get_res_name(t_res), t_name ? t_name : "@PCUIF_Types.PCUIF_Message"); -} - -boolean PCUIF__Message_template::is_present(boolean legacy) const -{ -if (template_selection==UNINITIALIZED_TEMPLATE) return FALSE; -return !match_omit(legacy); -} - -boolean PCUIF__Message_template::match_omit(boolean legacy) const -{ -if (is_ifpresent) return TRUE; -switch (template_selection) { -case OMIT_VALUE: -case ANY_OR_OMIT: -return TRUE; -case VALUE_LIST: -case COMPLEMENTED_LIST: -if (legacy) { -for (unsigned int l_idx=0; l_idxn_elements == 0; -} - -void PCUIF__InfoTrxs_0_encoder(const PCUIF__InfoTrx& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_InfoTrx' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__InfoTrxs_0_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__InfoTrxs_0_decoder(OCTETSTRING& input_stream, PCUIF__InfoTrx& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_InfoTrx' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__InfoTrxs_0_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__InfoTrxs_encoder(const PCUIF__InfoTrxs& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_InfoTrxs' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__InfoTrxs_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__InfoTrxs_decoder(OCTETSTRING& input_stream, PCUIF__InfoTrxs& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_InfoTrxs' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__InfoTrxs_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_version_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_version_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_version_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_version_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_flags_encoder(const PCUIF__Flags& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_Flags' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_flags_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_flags_decoder(OCTETSTRING& input_stream, PCUIF__Flags& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_Flags' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_flags_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_trx_encoder(const PCUIF__InfoTrxs& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_InfoTrxs' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_trx_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_trx_decoder(OCTETSTRING& input_stream, PCUIF__InfoTrxs& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_InfoTrxs' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_trx_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_bsic_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_bsic_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_bsic_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_bsic_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_mcc_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_mcc_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_mcc_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_mcc_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_mnc_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_mnc_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_mnc_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_mnc_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_mnc__3__digits_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_mnc__3__digits_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_mnc__3__digits_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_mnc__3__digits_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_lac_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_lac_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_lac_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_lac_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_rac_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_rac_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_rac_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_rac_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_nsei_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_nsei_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_nsei_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_nsei_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_nse__timer_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_nse__timer_0_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_nse__timer_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_nse__timer_0_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_nse__timer_encoder(const PCUIF__info__ind_nse__timer& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.nse_timer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_nse__timer_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_nse__timer_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_nse__timer& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.nse_timer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_nse__timer_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_cell__timer_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_cell__timer_0_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_cell__timer_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_cell__timer_0_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_cell__timer_encoder(const PCUIF__info__ind_cell__timer& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.cell_timer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_cell__timer_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_cell__timer_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_cell__timer& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.cell_timer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_cell__timer_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_cell__id_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_cell__id_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_cell__id_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_cell__id_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_repeat__time_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_repeat__time_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_repeat__time_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_repeat__time_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_repeat__count_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_repeat__count_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_repeat__count_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_repeat__count_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_bvci_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_bvci_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_bvci_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_bvci_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_t3142_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_t3142_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_t3142_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_t3142_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_t3169_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_t3169_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_t3169_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_t3169_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_t3191_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_t3191_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_t3191_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_t3191_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_t3193__10ms_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_t3193__10ms_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_t3193__10ms_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_t3193__10ms_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_t3195_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_t3195_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_t3195_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_t3195_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_t3101_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_t3101_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_t3101_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_t3101_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_t3103_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_t3103_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_t3103_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_t3103_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_t3105_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_t3105_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_t3105_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_t3105_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_cv__countdown_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_cv__countdown_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_cv__countdown_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_cv__countdown_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_dl__tbf__ext_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_dl__tbf__ext_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_dl__tbf__ext_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_dl__tbf__ext_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_ul__tbf__ext_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_ul__tbf__ext_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_ul__tbf__ext_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_ul__tbf__ext_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_initial__cs_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_initial__cs_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_initial__cs_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_initial__cs_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_initial__mcs_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_initial__mcs_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_initial__mcs_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_initial__mcs_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_nsvci_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_nsvci_0_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_nsvci_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_nsvci_0_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_nsvci_encoder(const PCUIF__info__ind_nsvci& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.nsvci' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_nsvci_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_nsvci_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_nsvci& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.nsvci' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_nsvci_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_local__pprt_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_local__pprt_0_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_local__pprt_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_local__pprt_0_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_local__pprt_encoder(const PCUIF__info__ind_local__pprt& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.local_pprt' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_local__pprt_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_local__pprt_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_local__pprt& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.local_pprt' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_local__pprt_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_remote__port_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_remote__port_0_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_remote__port_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_remote__port_0_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_remote__port_encoder(const PCUIF__info__ind_remote__port& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.remote_port' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_remote__port_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_remote__port_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_remote__port& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.remote_port' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_remote__port_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_remote__ip_0_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_remote__ip_0_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_remote__ip_0_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_remote__ip_0_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_remote__ip_encoder(const PCUIF__info__ind_remote__ip& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.remote_ip' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_remote__ip_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_remote__ip_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_remote__ip& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind.remote_ip' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_remote__ip_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__info__ind_encoder(const PCUIF__info__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__info__ind_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__info__ind_decoder(OCTETSTRING& input_stream, PCUIF__info__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__info__ind_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__act__req_is__activate_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__act__req_is__activate_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__act__req_is__activate_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__act__req_is__activate_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__act__req_trx__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__act__req_trx__nr_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__act__req_trx__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__act__req_trx__nr_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__act__req_ts__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__act__req_ts__nr_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__act__req_ts__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__act__req_ts__nr_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__act__req_spare_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__act__req_spare_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__act__req_spare_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__act__req_spare_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__act__req_encoder(const PCUIF__act__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_act_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__act__req_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__act__req_decoder(OCTETSTRING& input_stream, PCUIF__act__req& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_act_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__act__req_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__time__ind_fn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__time__ind_fn_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__time__ind_fn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__time__ind_fn_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__time__ind_encoder(const PCUIF__time__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_time_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__time__ind_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__time__ind_decoder(OCTETSTRING& input_stream, PCUIF__time__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_time_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__time__ind_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__pag__req_sapi_encoder(const PCUIF__Sapi& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_Sapi' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__pag__req_sapi_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__pag__req_sapi_decoder(OCTETSTRING& input_stream, PCUIF__Sapi& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_Sapi' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__pag__req_sapi_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__pag__req_chan__needed_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__pag__req_chan__needed_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__pag__req_chan__needed_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__pag__req_chan__needed_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__pag__req_identity__lv_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__pag__req_identity__lv_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__pag__req_identity__lv_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__pag__req_identity__lv_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__pag__req_encoder(const PCUIF__pag__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_pag_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__pag__req_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__pag__req_decoder(OCTETSTRING& input_stream, PCUIF__pag__req& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_pag_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__pag__req_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__susp__req_tlli_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__susp__req_tlli_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__susp__req_tlli_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__susp__req_tlli_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__susp__req_ra__id_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__susp__req_ra__id_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__susp__req_ra__id_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__susp__req_ra__id_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__susp__req_cause_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__susp__req_cause_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__susp__req_cause_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__susp__req_cause_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__susp__req_encoder(const PCUIF__susp__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_susp_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__susp__req_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__susp__req_decoder(OCTETSTRING& input_stream, PCUIF__susp__req& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_susp_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__susp__req_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_data__req_encoder(const PCUIF__data& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_data__req_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_data__req_decoder(OCTETSTRING& input_stream, PCUIF__data& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_data__req_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_data__cnf_encoder(const PCUIF__data& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_data__cnf_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_data__cnf_decoder(OCTETSTRING& input_stream, PCUIF__data& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_data__cnf_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_data__cnf__dt_encoder(const PCUIF__data__cnf__dt& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_data_cnf_dt' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_data__cnf__dt_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_data__cnf__dt_decoder(OCTETSTRING& input_stream, PCUIF__data__cnf__dt& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_data_cnf_dt' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_data__cnf__dt_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_data__ind_encoder(const PCUIF__data& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_data__ind_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_data__ind_decoder(OCTETSTRING& input_stream, PCUIF__data& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_data__ind_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_susp__req_encoder(const PCUIF__susp__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_susp_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_susp__req_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_susp__req_decoder(OCTETSTRING& input_stream, PCUIF__susp__req& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_susp_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_susp__req_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_rts__req_encoder(const PCUIF__rts__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_rts_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_rts__req_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_rts__req_decoder(OCTETSTRING& input_stream, PCUIF__rts__req& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_rts_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_rts__req_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_rach__ind_encoder(const PCUIF__rach__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_rach_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_rach__ind_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_rach__ind_decoder(OCTETSTRING& input_stream, PCUIF__rach__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_rach_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_rach__ind_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_txt__ind_encoder(const PCUIF__txt__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_txt_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_txt__ind_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_txt__ind_decoder(OCTETSTRING& input_stream, PCUIF__txt__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_txt_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_txt__ind_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_info__ind_encoder(const PCUIF__info__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_info__ind_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_info__ind_decoder(OCTETSTRING& input_stream, PCUIF__info__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_info_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_info__ind_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_act__req_encoder(const PCUIF__act__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_act_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_act__req_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_act__req_decoder(OCTETSTRING& input_stream, PCUIF__act__req& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_act_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_act__req_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_time__ind_encoder(const PCUIF__time__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_time_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_time__ind_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_time__ind_decoder(OCTETSTRING& input_stream, PCUIF__time__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_time_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_time__ind_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_pag__req_encoder(const PCUIF__pag__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_pag_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_pag__req_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_pag__req_decoder(OCTETSTRING& input_stream, PCUIF__pag__req& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_pag_req' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_pag__req_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__MsgUnion_encoder(const PCUIF__MsgUnion& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_MsgUnion' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__MsgUnion_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__MsgUnion_decoder(OCTETSTRING& input_stream, PCUIF__MsgUnion& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_MsgUnion' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__MsgUnion_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__Message_msg__type_encoder(const PCUIF__MsgType& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_MsgType' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__Message_msg__type_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__Message_msg__type_decoder(OCTETSTRING& input_stream, PCUIF__MsgType& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_MsgType' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__Message_msg__type_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__Message_bts__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__Message_bts__nr_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__Message_bts__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `integer' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__Message_bts__nr_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__Message_spare_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__Message_spare_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__Message_spare_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `octetstring' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__Message_spare_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__Message_u_encoder(const PCUIF__MsgUnion& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_MsgUnion' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__Message_u_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__Message_u_decoder(OCTETSTRING& input_stream, PCUIF__MsgUnion& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_MsgUnion' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__Message_u_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -void PCUIF__Message_encoder(const PCUIF__Message& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_Message' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf; -input_value.encode(PCUIF__Message_descr_, ttcn_buf, coding_type, extra_options); -ttcn_buf.get_string(output_stream); -} - -INTEGER PCUIF__Message_decoder(OCTETSTRING& input_stream, PCUIF__Message& output_value, const UNIVERSAL_CHARSTRING& coding_name) -{ -TTCN_EncDec::coding_t coding_type; -unsigned int extra_options = 0; -TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); -if (coding_type != TTCN_EncDec::CT_RAW) { -TTCN_Logger::begin_event_log2str(); -coding_name.log(); -TTCN_error("Type `@PCUIF_Types.PCUIF_Message' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); -} -TTCN_Buffer ttcn_buf(input_stream); -output_value.decode(PCUIF__Message_descr_, ttcn_buf, coding_type, extra_options); -switch (TTCN_EncDec::get_last_error_type()) { -case TTCN_EncDec::ET_NONE: -ttcn_buf.cut(); -ttcn_buf.get_string(input_stream); -return 0; -case TTCN_EncDec::ET_INCOMPL_MSG: -case TTCN_EncDec::ET_LEN_ERR: -return 2; -default: -return 1; -} -} - -OCTETSTRING enc__PCUIF__Message(const PCUIF__Message& pdu) -{ -if (TTCN_Logger::log_this_event(TTCN_Logger::DEBUG_ENCDEC)) { -TTCN_Logger::begin_event(TTCN_Logger::DEBUG_ENCDEC); -TTCN_Logger::log_event_str("enc_PCUIF_Message(): Encoding @PCUIF_Types.PCUIF_Message: "); -pdu.log(); -TTCN_Logger::end_event(); -} -TTCN_EncDec::set_error_behavior(TTCN_EncDec::ET_ALL, TTCN_EncDec::EB_DEFAULT); -TTCN_Buffer ttcn_buffer; -pdu.encode(PCUIF__Message_descr_, ttcn_buffer, TTCN_EncDec::CT_RAW, 0); -OCTETSTRING ret_val; -ttcn_buffer.get_string(ret_val); -if (TTCN_Logger::log_this_event(TTCN_Logger::DEBUG_ENCDEC)) { -TTCN_Logger::begin_event(TTCN_Logger::DEBUG_ENCDEC); -TTCN_Logger::log_event_str("enc_PCUIF_Message(): Stream after encoding: "); -ret_val.log(); -TTCN_Logger::end_event(); -} -return ret_val; -} - -PCUIF__Message dec__PCUIF__Message(const OCTETSTRING& stream) -{ -if (TTCN_Logger::log_this_event(TTCN_Logger::DEBUG_ENCDEC)) { -TTCN_Logger::begin_event(TTCN_Logger::DEBUG_ENCDEC); -TTCN_Logger::log_event_str("dec_PCUIF_Message(): Stream before decoding: "); -stream.log(); -TTCN_Logger::end_event(); -} -TTCN_EncDec::set_error_behavior(TTCN_EncDec::ET_ALL, TTCN_EncDec::EB_DEFAULT); -TTCN_EncDec::clear_error(); -TTCN_Buffer ttcn_buffer(stream); -PCUIF__Message ret_val; -ret_val.decode(PCUIF__Message_descr_, ttcn_buffer, TTCN_EncDec::CT_RAW); -if (TTCN_Logger::log_this_event(TTCN_Logger::DEBUG_ENCDEC)) { -TTCN_Logger::begin_event(TTCN_Logger::DEBUG_ENCDEC); -TTCN_Logger::log_event_str("dec_PCUIF_Message(): Decoded @PCUIF_Types.PCUIF_Message: "); -ret_val.log(); -TTCN_Logger::end_event(); -} -if (TTCN_EncDec::get_last_error_type() == TTCN_EncDec::ET_NONE) { -if (ttcn_buffer.get_pos() < ttcn_buffer.get_len() && TTCN_Logger::log_this_event(TTCN_WARNING)) { -ttcn_buffer.cut(); -OCTETSTRING remaining_stream; -ttcn_buffer.get_string(remaining_stream); -TTCN_Logger::begin_event(TTCN_WARNING); -TTCN_Logger::log_event_str("dec_PCUIF_Message(): Warning: Data remained at the end of the stream after successful decoding: "); -remaining_stream.log(); -TTCN_Logger::end_event(); -} -} -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__RTS__REQ(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const PCUIF__Sapi_template& sapi, const INTEGER_template& fn, const INTEGER_template& arfcn, const INTEGER_template& block__nr) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 243, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_RTS_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__RTS__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__rts__req_template& tmp_0 = ret_val.u().rts__req(); -tmp_0.sapi() = sapi; -tmp_0.spare() = os_1; -tmp_0.fn() = fn; -tmp_0.arfcn() = arfcn; -tmp_0.trx__nr() = trx__nr; -tmp_0.ts__nr() = ts__nr; -tmp_0.block__nr() = block__nr; -} -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__RTS__REQ(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const PCUIF__Sapi_template& sapi, const INTEGER_template& fn, const INTEGER_template& block__nr) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 266, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_RTS_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__RTS__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = ANY_VALUE; -{ -PCUIF__rts__req_template& tmp_1 = ret_val.u().rts__req(); -tmp_1.sapi() = sapi; -tmp_1.spare() = ANY_VALUE; -tmp_1.fn() = fn; -tmp_1.arfcn() = ANY_VALUE; -tmp_1.trx__nr() = trx__nr; -tmp_1.ts__nr() = ts__nr; -tmp_1.block__nr() = block__nr; -} -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__TXT__IND(const INTEGER& bts__nr, const PCUIF__TextType& tt, const CHARSTRING& text) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 289, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_TXT_IND"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__TXT__IND; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__txt__ind_template& tmp_2 = ret_val.u().txt__ind(); -tmp_2.txt__type() = tt; -tmp_2.text() = text; -} -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__TXT__IND(const INTEGER_template& bts__nr, const PCUIF__TextType_template& tt, const CHARSTRING_template& text) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 300, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_TXT_IND"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__TXT__IND; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__txt__ind_template& tmp_3 = ret_val.u().txt__ind(); -tmp_3.txt__type() = tt; -tmp_3.text() = text; -} -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__ACT__REQ(const INTEGER& bts__nr, const INTEGER& trx__nr, const INTEGER& ts__nr) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 315, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_ACT_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__ACT__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__act__req_template& tmp_4 = ret_val.u().act__req(); -tmp_4.is__activate() = 1; -tmp_4.trx__nr() = trx__nr; -tmp_4.ts__nr() = ts__nr; -tmp_4.spare() = os_2; -} -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__ACT__REQ(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 328, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_ACT_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__ACT__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__act__req_template& tmp_5 = ret_val.u().act__req(); -tmp_5.is__activate() = 1; -tmp_5.trx__nr() = trx__nr; -tmp_5.ts__nr() = ts__nr; -tmp_5.spare() = os_2; -} -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__DEACT__REQ(const INTEGER& bts__nr, const INTEGER& trx__nr, const INTEGER& ts__nr) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 343, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_DEACT_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__ACT__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__act__req_template& tmp_6 = ret_val.u().act__req(); -tmp_6.is__activate() = 0; -tmp_6.trx__nr() = trx__nr; -tmp_6.ts__nr() = ts__nr; -tmp_6.spare() = os_2; -} -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__DEACT__REQ(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 356, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_DEACT_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__ACT__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__act__req_template& tmp_7 = ret_val.u().act__req(); -tmp_7.is__activate() = 0; -tmp_7.trx__nr() = trx__nr; -tmp_7.ts__nr() = ts__nr; -tmp_7.spare() = os_2; -} -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__DATA__IND(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const INTEGER_template& block__nr, const PCUIF__Sapi_template& sapi, const OCTETSTRING_template& data, const INTEGER_template& fn, const INTEGER_template& arfcn, const INTEGER_template& rssi, const INTEGER_template& ber10k, const INTEGER_template& ta__offs__qbits, const INTEGER_template& lqual__cb) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 371, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_DATA_IND"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__DATA__IND; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__data_template& tmp_8 = ret_val.u().data__ind(); -tmp_8.sapi() = sapi; -tmp_8.len() = data.valueof().lengthof(); -tmp_8.data() = data; -tmp_8.fn() = fn; -tmp_8.arfcn() = arfcn; -tmp_8.trx__nr() = trx__nr; -tmp_8.ts__nr() = ts__nr; -tmp_8.block__nr() = block__nr; -tmp_8.rssi() = rssi; -tmp_8.ber10k() = ber10k; -tmp_8.ta__offs__qbits() = ta__offs__qbits; -tmp_8.lqual__cb() = lqual__cb; -} -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__DATA__IND(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const INTEGER_template& block__nr, const PCUIF__Sapi_template& sapi, const OCTETSTRING_template& data) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 403, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_DATA_IND"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__DATA__IND; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = ANY_VALUE; -{ -PCUIF__data_template& tmp_9 = ret_val.u().data__ind(); -tmp_9.sapi() = sapi; -tmp_9.len() = ANY_VALUE; -tmp_9.data() = data; -tmp_9.fn() = ANY_VALUE; -tmp_9.arfcn() = ANY_VALUE; -tmp_9.trx__nr() = trx__nr; -tmp_9.ts__nr() = ts__nr; -tmp_9.block__nr() = block__nr; -tmp_9.rssi() = ANY_VALUE; -tmp_9.ber10k() = ANY_VALUE; -tmp_9.ta__offs__qbits() = ANY_VALUE; -tmp_9.lqual__cb() = ANY_VALUE; -} -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__DATA__REQ(const INTEGER& bts__nr, const INTEGER& trx__nr, const INTEGER& ts__nr, const INTEGER& block__nr, const INTEGER& fn, const PCUIF__Sapi& sapi, const OCTETSTRING& data) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 430, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_DATA_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__DATA__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__data_template& tmp_10 = ret_val.u().data__req(); -tmp_10.sapi() = sapi; -tmp_10.len() = data.lengthof(); -tmp_10.data() = data; -tmp_10.fn() = fn; -tmp_10.arfcn() = 0; -tmp_10.trx__nr() = trx__nr; -tmp_10.ts__nr() = ts__nr; -tmp_10.block__nr() = block__nr; -tmp_10.rssi() = 0; -tmp_10.ber10k() = 0; -tmp_10.ta__offs__qbits() = 0; -tmp_10.lqual__cb() = 0; -} -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__DATA__REQ(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const INTEGER_template& block__nr, const INTEGER_template& fn, const PCUIF__Sapi_template& sapi, const OCTETSTRING_template& data) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 455, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_DATA_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__DATA__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__data_template& tmp_11 = ret_val.u().data__req(); -tmp_11.sapi() = sapi; -tmp_11.len() = ANY_VALUE; -tmp_11.data() = data; -tmp_11.fn() = fn; -tmp_11.arfcn() = ANY_VALUE; -tmp_11.trx__nr() = trx__nr; -tmp_11.ts__nr() = ts__nr; -tmp_11.block__nr() = block__nr; -tmp_11.rssi() = 0; -tmp_11.ber10k() = 0; -tmp_11.ta__offs__qbits() = 0; -tmp_11.lqual__cb() = 0; -} -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__DATA__CNF(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const INTEGER_template& block__nr, const INTEGER_template& fn, const INTEGER_template& arfcn, const PCUIF__Sapi_template& sapi, const OCTETSTRING_template& data) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 484, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_DATA_CNF"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__DATA__CNF; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__data_template& tmp_12 = ret_val.u().data__cnf(); -tmp_12.sapi() = sapi; -tmp_12.len() = 0; -tmp_12.data() = data; -tmp_12.fn() = fn; -tmp_12.arfcn() = arfcn; -tmp_12.trx__nr() = trx__nr; -tmp_12.ts__nr() = ts__nr; -tmp_12.block__nr() = block__nr; -tmp_12.rssi() = 0; -tmp_12.ber10k() = 0; -tmp_12.ta__offs__qbits() = 0; -tmp_12.lqual__cb() = 0; -} -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__DATA__CNF(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const PCUIF__Sapi_template& sapi, const OCTETSTRING_template& data) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 512, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_DATA_CNF"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__DATA__CNF; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = ANY_VALUE; -{ -PCUIF__data_template& tmp_13 = ret_val.u().data__cnf(); -tmp_13.sapi() = sapi; -tmp_13.len() = ANY_VALUE; -tmp_13.data() = data; -tmp_13.fn() = ANY_VALUE; -tmp_13.arfcn() = ANY_VALUE; -tmp_13.trx__nr() = trx__nr; -tmp_13.ts__nr() = ts__nr; -tmp_13.block__nr() = ANY_VALUE; -tmp_13.rssi() = ANY_VALUE; -tmp_13.ber10k() = ANY_VALUE; -tmp_13.ta__offs__qbits() = ANY_VALUE; -tmp_13.lqual__cb() = ANY_VALUE; -} -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__RACH__IND(const INTEGER_template& bts__nr, const INTEGER_template& ra, const INTEGER_template& is__11bit, const PCUIF__BurstType_template& burst__type, const INTEGER_template& fn, const INTEGER_template& arfcn, const INTEGER_template& qta) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 538, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_RACH_IND"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__RACH__IND; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__rach__ind_template& tmp_14 = ret_val.u().rach__ind(); -tmp_14.sapi() = PCUIF__Sapi::PCU__IF__SAPI__RACH; -tmp_14.ra() = ra; -tmp_14.qta() = qta; -tmp_14.fn() = fn; -tmp_14.arfcn() = arfcn; -tmp_14.is__11bit() = is__11bit; -tmp_14.burst__type() = burst__type; -} -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__RACH__IND(const INTEGER_template& bts__nr, const INTEGER_template& ra, const INTEGER_template& is__11bit, const PCUIF__BurstType_template& burst__type, const INTEGER_template& fn) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 561, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_RACH_IND"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__RACH__IND; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = ANY_VALUE; -{ -PCUIF__rach__ind_template& tmp_15 = ret_val.u().rach__ind(); -tmp_15.sapi() = PCUIF__Sapi::PCU__IF__SAPI__RACH; -tmp_15.ra() = ra; -tmp_15.qta() = ANY_VALUE; -tmp_15.fn() = fn; -tmp_15.arfcn() = ANY_VALUE; -tmp_15.is__11bit() = is__11bit; -tmp_15.burst__type() = burst__type; -} -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__PAG__REQ(const INTEGER_template& bts__nr, const OCTETSTRING_template& id__lv, const INTEGER_template& chan__needed, const PCUIF__Sapi_template& sapi) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 582, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_PAG_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__PAG__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__pag__req_template& tmp_16 = ret_val.u().pag__req(); -tmp_16.sapi() = sapi; -tmp_16.chan__needed() = chan__needed; -tmp_16.identity__lv() = id__lv; -} -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__PAG__REQ(const INTEGER_template& bts__nr, const OCTETSTRING_template& id__lv, const INTEGER_template& chan__needed, const PCUIF__Sapi_template& ) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 597, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_PAG_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__PAG__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = ANY_VALUE; -{ -PCUIF__pag__req_template& tmp_17 = ret_val.u().pag__req(); -tmp_17.sapi() = ANY_VALUE; -tmp_17.chan__needed() = chan__needed; -tmp_17.identity__lv() = id__lv; -} -return ret_val; -} - -PCUIF__InfoTrx_template ts__PCUIF__InfoTrx(const INTEGER_template& arfcn, const BITSTRING_template& pdch__mask, const OCTETSTRING& tsc) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 633, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_InfoTrx"); -PCUIF__InfoTrx_template ret_val; -ret_val.arfcn() = arfcn; -ret_val.pdch__mask() = pdch__mask; -ret_val.spare() = os_2; -ret_val.tsc() = (((((((tsc + tsc) + tsc) + tsc) + tsc) + tsc) + tsc) + tsc); -ret_val.hLayer1() = 0; -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__INFO__IND(const INTEGER_template& bts__nr, const INTEGER_template& nsei, const INTEGER_template& nsvci, const INTEGER_template& bvci, const INTEGER_template& local__port, const INTEGER_template& remote__port, const OCTETSTRING_template& remote__ip, const PCUIF__Flags_template& flags, const INTEGER_template& mcc, const INTEGER_template& mnc, const INTEGER_template& lac, const INTEGER_template& rac, const INTEGER_template& cell__id, const INTEGER_template& bsic, const PCUIF__InfoTrxs_template& trx, const INTEGER_template& version) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 650, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_INFO_IND"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__INFO__IND; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__info__ind_template& tmp_18 = ret_val.u().info__ind(); -tmp_18.version() = version; -tmp_18.flags() = flags; -tmp_18.trx() = trx; -tmp_18.bsic() = bsic; -tmp_18.mcc() = mcc; -tmp_18.mnc() = mnc; -tmp_18.mnc__3__digits() = 0; -tmp_18.lac() = lac; -tmp_18.rac() = rac; -tmp_18.nsei() = nsei; -{ -PCUIF__info__ind_nse__timer_template& tmp_19 = tmp_18.nse__timer(); -tmp_19.set_size(7); -tmp_19[0] = 3; -tmp_19[1] = 3; -tmp_19[2] = 3; -tmp_19[3] = 3; -tmp_19[4] = 30; -tmp_19[5] = 3; -tmp_19[6] = 10; -} -{ -PCUIF__info__ind_cell__timer_template& tmp_20 = tmp_18.cell__timer(); -tmp_20.set_size(11); -tmp_20[0] = 3; -tmp_20[1] = 3; -tmp_20[2] = 3; -tmp_20[3] = 3; -tmp_20[4] = 3; -tmp_20[5] = 10; -tmp_20[6] = 3; -tmp_20[7] = 10; -tmp_20[8] = 3; -tmp_20[9] = 10; -tmp_20[10] = 3; -} -tmp_18.cell__id() = cell__id; -tmp_18.repeat__time() = 250; -tmp_18.repeat__count() = 3; -tmp_18.bvci() = bvci; -tmp_18.t3142() = 20; -tmp_18.t3169() = 5; -tmp_18.t3191() = 5; -tmp_18.t3193__10ms() = 160; -tmp_18.t3195() = 5; -tmp_18.t3101() = 10; -tmp_18.t3103() = 4; -tmp_18.t3105() = 8; -tmp_18.cv__countdown() = 15; -tmp_18.dl__tbf__ext() = 2500; -tmp_18.ul__tbf__ext() = 2500; -tmp_18.initial__cs() = 2; -tmp_18.initial__mcs() = 6; -{ -PCUIF__info__ind_nsvci_template& tmp_21 = tmp_18.nsvci(); -tmp_21.set_size(2); -tmp_21[0] = nsvci; -tmp_21[1] = 0; -} -{ -PCUIF__info__ind_local__pprt_template& tmp_22 = tmp_18.local__pprt(); -tmp_22.set_size(2); -tmp_22[0] = local__port; -tmp_22[1] = 0; -} -{ -PCUIF__info__ind_remote__port_template& tmp_23 = tmp_18.remote__port(); -tmp_23.set_size(2); -tmp_23[0] = remote__port; -tmp_23[1] = 0; -} -{ -PCUIF__info__ind_remote__ip_template& tmp_24 = tmp_18.remote__ip(); -tmp_24.set_size(2); -tmp_24[0] = remote__ip; -tmp_24[1] = os_4; -} -} -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__INFO__IND(const INTEGER_template& bts__nr, const PCUIF__Flags_template& flags, const INTEGER_template& version) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 707, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_INFO_IND"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__INFO__IND; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = ANY_VALUE; -{ -PCUIF__info__ind_template& tmp_25 = ret_val.u().info__ind(); -tmp_25.version() = version; -tmp_25.flags() = flags; -tmp_25.trx() = ANY_VALUE; -tmp_25.bsic() = ANY_VALUE; -tmp_25.mcc() = ANY_VALUE; -tmp_25.mnc() = ANY_VALUE; -tmp_25.mnc__3__digits() = ANY_VALUE; -tmp_25.lac() = ANY_VALUE; -tmp_25.rac() = ANY_VALUE; -tmp_25.nsei() = ANY_VALUE; -tmp_25.nse__timer() = ANY_VALUE; -tmp_25.cell__timer() = ANY_VALUE; -tmp_25.cell__id() = ANY_VALUE; -tmp_25.repeat__time() = ANY_VALUE; -tmp_25.repeat__count() = ANY_VALUE; -tmp_25.bvci() = ANY_VALUE; -tmp_25.t3142() = ANY_VALUE; -tmp_25.t3169() = ANY_VALUE; -tmp_25.t3191() = ANY_VALUE; -tmp_25.t3193__10ms() = ANY_VALUE; -tmp_25.t3195() = ANY_VALUE; -tmp_25.t3101() = ANY_VALUE; -tmp_25.t3103() = ANY_VALUE; -tmp_25.t3105() = ANY_VALUE; -tmp_25.cv__countdown() = ANY_VALUE; -tmp_25.dl__tbf__ext() = ANY_VALUE; -tmp_25.ul__tbf__ext() = ANY_VALUE; -tmp_25.initial__cs() = ANY_VALUE; -tmp_25.initial__mcs() = ANY_VALUE; -tmp_25.nsvci() = ANY_VALUE; -tmp_25.local__pprt() = ANY_VALUE; -tmp_25.remote__port() = ANY_VALUE; -tmp_25.remote__ip() = ANY_VALUE; -} -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__TIME__IND(const INTEGER_template& bts__nr, const INTEGER_template& fn) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 752, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_TIME_IND"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__TIME__IND; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -ret_val.u().time__ind().fn() = fn; -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__TIME__IND(const INTEGER_template& bts__nr, const INTEGER_template& fn) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 763, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_TIME_IND"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__TIME__IND; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = ANY_VALUE; -ret_val.u().time__ind().fn() = fn; -return ret_val; -} - -PCUIF__Message_template ts__PCUIF__SUSP__REQ(const INTEGER_template& bts__nr, const OCTETSTRING_template& tlli, const OCTETSTRING_template& ra__id, const INTEGER_template& cause) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 775, TTCN_Location::LOCATION_TEMPLATE, "ts_PCUIF_SUSP_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__SUSP__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__susp__req_template& tmp_26 = ret_val.u().susp__req(); -tmp_26.tlli() = tlli; -tmp_26.ra__id() = ra__id; -tmp_26.cause() = cause; -} -return ret_val; -} - -PCUIF__Message_template tr__PCUIF__SUSP__REQ(const INTEGER_template& bts__nr, const OCTETSTRING_template& tlli, const OCTETSTRING_template& ra__id, const INTEGER_template& cause) -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 790, TTCN_Location::LOCATION_TEMPLATE, "tr_PCUIF_SUSP_REQ"); -PCUIF__Message_template ret_val; -ret_val.msg__type() = PCUIF__MsgType::PCU__IF__MSG__SUSP__REQ; -ret_val.bts__nr() = bts__nr; -ret_val.spare() = os_0; -{ -PCUIF__susp__req_template& tmp_27 = ret_val.u().susp__req(); -tmp_27.tlli() = tlli; -tmp_27.ra__id() = ra__id; -tmp_27.cause() = cause; -} -return ret_val; -} - - -/* Bodies of static functions */ - -static void pre_init_module() -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 0, TTCN_Location::LOCATION_UNKNOWN, "PCUIF_Types"); -Osmocom__Types::module_object.pre_init_module(); -current_location.update_lineno(8); -/* PCUIF_Types.ttcn, line 8 */ -const_PCU__SOCK__DEFAULT = cs_0; -current_location.update_lineno(9); -/* PCUIF_Types.ttcn, line 9 */ -const_PCU__IF__VERSION = 9; -module_object.add_function("enc_PCUIF_Message", (genericfunc_t)&enc__PCUIF__Message, NULL); -module_object.add_function("dec_PCUIF_Message", (genericfunc_t)&dec__PCUIF__Message, NULL); -current_location.update_lineno(613); -/* PCUIF_Types.ttcn, line 613 */ -const_c__PCUIF__Flags__default.bts__active() = TRUE; -const_c__PCUIF__Flags__default.sysmo__direct__dsp() = FALSE; -const_c__PCUIF__Flags__default.spare() = bs_0; -const_c__PCUIF__Flags__default.cs1() = TRUE; -const_c__PCUIF__Flags__default.cs2() = TRUE; -const_c__PCUIF__Flags__default.cs3() = TRUE; -const_c__PCUIF__Flags__default.cs4() = TRUE; -const_c__PCUIF__Flags__default.mcs1() = TRUE; -const_c__PCUIF__Flags__default.mcs2() = TRUE; -const_c__PCUIF__Flags__default.mcs3() = TRUE; -const_c__PCUIF__Flags__default.mcs4() = TRUE; -const_c__PCUIF__Flags__default.mcs5() = TRUE; -const_c__PCUIF__Flags__default.mcs6() = TRUE; -const_c__PCUIF__Flags__default.mcs7() = TRUE; -const_c__PCUIF__Flags__default.mcs8() = TRUE; -const_c__PCUIF__Flags__default.mcs9() = TRUE; -const_c__PCUIF__Flags__default.spare2() = bs_1; -} - -static void post_init_module() -{ -TTCN_Location current_location("PCUIF_Types.ttcn", 0, TTCN_Location::LOCATION_UNKNOWN, "PCUIF_Types"); -Osmocom__Types::module_object.post_init_module(); -template_tr__PCUIF__RTS__REQ_bts__nr_defval = ANY_VALUE; -template_tr__PCUIF__RTS__REQ_trx__nr_defval = ANY_VALUE; -template_tr__PCUIF__RTS__REQ_ts__nr_defval = ANY_VALUE; -template_tr__PCUIF__RTS__REQ_sapi_defval = ANY_VALUE; -template_tr__PCUIF__RTS__REQ_fn_defval = ANY_VALUE; -template_tr__PCUIF__RTS__REQ_block__nr_defval = ANY_VALUE; -template_tr__PCUIF__TXT__IND_text_defval = ANY_VALUE; -template_ts__PCUIF__DATA__IND_rssi_defval = -80; -template_ts__PCUIF__DATA__IND_ber10k_defval = 0; -template_ts__PCUIF__DATA__IND_ta__offs__qbits_defval = 0; -template_ts__PCUIF__DATA__IND_lqual__cb_defval = 10; -template_tr__PCUIF__DATA__IND_bts__nr_defval = ANY_VALUE; -template_tr__PCUIF__DATA__IND_trx__nr_defval = ANY_VALUE; -template_tr__PCUIF__DATA__IND_ts__nr_defval = ANY_VALUE; -template_tr__PCUIF__DATA__IND_block__nr_defval = ANY_VALUE; -template_tr__PCUIF__DATA__IND_sapi_defval = ANY_VALUE; -template_tr__PCUIF__DATA__IND_data_defval = ANY_VALUE; -template_tr__PCUIF__DATA__REQ_block__nr_defval = ANY_VALUE; -template_tr__PCUIF__DATA__REQ_fn_defval = ANY_VALUE; -template_tr__PCUIF__DATA__REQ_sapi_defval = ANY_VALUE; -template_tr__PCUIF__DATA__REQ_data_defval = ANY_VALUE; -template_tr__PCUIF__DATA__CNF_bts__nr_defval = ANY_VALUE; -template_tr__PCUIF__DATA__CNF_trx__nr_defval = ANY_VALUE; -template_tr__PCUIF__DATA__CNF_ts__nr_defval = ANY_VALUE; -template_tr__PCUIF__DATA__CNF_sapi_defval = ANY_VALUE; -template_tr__PCUIF__DATA__CNF_data_defval = ANY_VALUE; -template_ts__PCUIF__RACH__IND_qta_defval = 0; -template_tr__PCUIF__RACH__IND_bts__nr_defval = ANY_VALUE; -template_tr__PCUIF__RACH__IND_ra_defval = ANY_VALUE; -template_tr__PCUIF__RACH__IND_is__11bit_defval = ANY_VALUE; -template_tr__PCUIF__RACH__IND_burst__type_defval = ANY_VALUE; -template_tr__PCUIF__RACH__IND_fn_defval = ANY_VALUE; -template_tr__PCUIF__PAG__REQ_bts__nr_defval = ANY_VALUE; -template_tr__PCUIF__PAG__REQ_id__lv_defval = ANY_VALUE; -template_tr__PCUIF__PAG__REQ_chan__needed_defval = ANY_VALUE; -template_tr__PCUIF__PAG__REQ_sapi_defval = ANY_VALUE; -template_ts__PCUIF__InfoTrx_arfcn_defval = 871; -template_ts__PCUIF__InfoTrx_pdch__mask_defval = bs_2; -const_ts__PCUIF__InfoTrx_tsc_defval = os_3; -current_location.update_lineno(643); -/* PCUIF_Types.ttcn, line 643 */ -template_ts__PCUIF__InfoTrxNULL = ts__PCUIF__InfoTrx(INTEGER_template(0), BITSTRING_template(bs_3), os_2); -current_location.update_lineno(645); -/* PCUIF_Types.ttcn, line 645 */ -template_ts__PCUIF__InfoTrxs__def.set_size(8); -template_ts__PCUIF__InfoTrxs__def[0] = ts__PCUIF__InfoTrx(ts__PCUIF__InfoTrx_arfcn_defval, ts__PCUIF__InfoTrx_pdch__mask_defval, ts__PCUIF__InfoTrx_tsc_defval); -template_ts__PCUIF__InfoTrxs__def[1] = ts__PCUIF__InfoTrxNULL; -template_ts__PCUIF__InfoTrxs__def[2] = ts__PCUIF__InfoTrxNULL; -template_ts__PCUIF__InfoTrxs__def[3] = ts__PCUIF__InfoTrxNULL; -template_ts__PCUIF__InfoTrxs__def[4] = ts__PCUIF__InfoTrxNULL; -template_ts__PCUIF__InfoTrxs__def[5] = ts__PCUIF__InfoTrxNULL; -template_ts__PCUIF__InfoTrxs__def[6] = ts__PCUIF__InfoTrxNULL; -template_ts__PCUIF__InfoTrxs__def[7] = ts__PCUIF__InfoTrxNULL; -template_ts__PCUIF__INFO__IND_flags_defval = c__PCUIF__Flags__default; -template_ts__PCUIF__INFO__IND_mcc_defval = 262; -template_ts__PCUIF__INFO__IND_mnc_defval = 42; -template_ts__PCUIF__INFO__IND_lac_defval = 13135; -template_ts__PCUIF__INFO__IND_rac_defval = 0; -template_ts__PCUIF__INFO__IND_cell__id_defval = 20960; -template_ts__PCUIF__INFO__IND_bsic_defval = 7; -template_ts__PCUIF__INFO__IND_trx_defval = ts__PCUIF__InfoTrxs__def; -template_ts__PCUIF__INFO__IND_version_defval = 9; -template_tr__PCUIF__INFO__IND_bts__nr_defval = ANY_VALUE; -template_tr__PCUIF__INFO__IND_flags_defval = ANY_VALUE; -template_tr__PCUIF__INFO__IND_version_defval = 9; -} - - -} /* end of namespace */ diff --git a/titan/PCUIF_Types.hh b/titan/PCUIF_Types.hh deleted file mode 100644 index 4774138..0000000 --- a/titan/PCUIF_Types.hh +++ /dev/null @@ -1,3638 +0,0 @@ -// This C++ header file was generated by the TTCN-3 compiler -// of the TTCN-3 Test Executor version CRL 113 200/6 R5A -// The generation of user and time information were disabled by the -D flag. - -// Copyright (c) 2000-2018 Ericsson Telecom AB - -// Do not edit this file unless you know what you are doing. - -#ifndef PCUIF__Types_HH -#define PCUIF__Types_HH - -#ifdef TITAN_RUNTIME_2 -#error Generated code does not match with used runtime.\ - Code was generated without -R option but -DTITAN_RUNTIME_2 was used. -#endif - -/* Header file includes */ - -#include -#include "Osmocom_Types.hh" - -#if TTCN3_VERSION != 60500 -#error Version mismatch detected.\ - Please check the version of the TTCN-3 compiler and the base library.\ - Run make clean and rebuild the project if the version of the compiler changed recently. -#endif - -#ifndef LINUX -#error This file should be compiled on LINUX -#endif - -#undef PCUIF__Types_HH -#endif - -namespace PCUIF__Types { - -/* Forward declarations of classes */ - -class PCUIF__MsgType; -class PCUIF__MsgType_template; -class PCUIF__Sapi; -class PCUIF__Sapi_template; -class PCUIF__Flags; -class PCUIF__Flags_template; -class PCUIF__TextType; -class PCUIF__TextType_template; -class PCUIF__txt__ind; -class PCUIF__txt__ind_template; -class PCUIF__data; -class PCUIF__data_template; -class PCUIF__data__cnf__dt; -class PCUIF__data__cnf__dt_template; -class PCUIF__rts__req; -class PCUIF__rts__req_template; -class PCUIF__BurstType; -class PCUIF__BurstType_template; -class PCUIF__rach__ind; -class PCUIF__rach__ind_template; -class PCUIF__InfoTrx; -class PCUIF__InfoTrx_template; -class PCUIF__InfoTrxs; -class PCUIF__InfoTrxs_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER PCUIF__info__ind_nse__timer; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER_template PCUIF__info__ind_nse__timer_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER PCUIF__info__ind_cell__timer; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER_template PCUIF__info__ind_cell__timer_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER PCUIF__info__ind_nsvci; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER_template PCUIF__info__ind_nsvci_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER PCUIF__info__ind_local__pprt; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER_template PCUIF__info__ind_local__pprt_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER PCUIF__info__ind_remote__port; -typedef PreGenRecordOf::PREGEN__RECORD__OF__INTEGER_template PCUIF__info__ind_remote__port_template; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING PCUIF__info__ind_remote__ip; -typedef PreGenRecordOf::PREGEN__RECORD__OF__OCTETSTRING_template PCUIF__info__ind_remote__ip_template; -class PCUIF__info__ind; -class PCUIF__info__ind_template; -class PCUIF__act__req; -class PCUIF__act__req_template; -class PCUIF__time__ind; -class PCUIF__time__ind_template; -class PCUIF__pag__req; -class PCUIF__pag__req_template; -class PCUIF__susp__req; -class PCUIF__susp__req_template; -class PCUIF__MsgUnion; -class PCUIF__MsgUnion_template; -class PCUIF__Message; -class PCUIF__Message_template; - -} /* end of namespace */ - -#ifndef PCUIF__Types_HH -#define PCUIF__Types_HH - -namespace PCUIF__Types { - -/* Type definitions */ - -typedef CHARSTRING PCUIF__Text; -typedef CHARSTRING_template PCUIF__Text_template; -typedef OCTETSTRING OCT162; -typedef OCTETSTRING_template OCT162_template; - -/* Class definitions */ - -class PCUIF__MsgType : public Base_Type { // enum -friend class PCUIF__MsgType_template; -public: -enum enum_type { PCU__IF__MSG__DATA__REQ = 0, PCU__IF__MSG__DATA__CNF = 1, PCU__IF__MSG__DATA__IND = 2, PCU__IF__MSG__SUSP__REQ = 3, PCU__IF__MSG__RTS__REQ = 16, PCU__IF__MSG__DATA__CNF__DT = 17, PCU__IF__MSG__RACH__IND = 34, PCU__IF__MSG__INFO__IND = 50, PCU__IF__MSG__ACT__REQ = 64, PCU__IF__MSG__TIME__IND = 82, PCU__IF__MSG__PAG__REQ = 96, PCU__IF__MSG__TXT__IND = 112, UNKNOWN_VALUE = 4, UNBOUND_VALUE = 5 }; -private: -enum_type enum_value; - -public: -PCUIF__MsgType(); -PCUIF__MsgType(int other_value); -PCUIF__MsgType(enum_type other_value); -PCUIF__MsgType(const PCUIF__MsgType& other_value); - -PCUIF__MsgType& operator=(int other_value); -PCUIF__MsgType& operator=(enum_type other_value); -PCUIF__MsgType& operator=(const PCUIF__MsgType& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const PCUIF__MsgType& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const PCUIF__MsgType& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const PCUIF__MsgType& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const PCUIF__MsgType& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const PCUIF__MsgType& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const PCUIF__MsgType& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const PCUIF__MsgType& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__MsgType_template : public Base_Template { -union { -PCUIF__MsgType::enum_type single_value; -struct { -unsigned int n_values; -PCUIF__MsgType_template *list_value; -} value_list; -}; - -void copy_template(const PCUIF__MsgType_template& other_value); - -public: -PCUIF__MsgType_template(); -PCUIF__MsgType_template(template_sel other_value); -PCUIF__MsgType_template(int other_value); -PCUIF__MsgType_template(PCUIF__MsgType::enum_type other_value); -PCUIF__MsgType_template(const PCUIF__MsgType& other_value); -PCUIF__MsgType_template(const OPTIONAL& other_value); -PCUIF__MsgType_template(const PCUIF__MsgType_template& other_value); -~PCUIF__MsgType_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__MsgType_template& operator=(template_sel other_value); -PCUIF__MsgType_template& operator=(int other_value); -PCUIF__MsgType_template& operator=(PCUIF__MsgType::enum_type other_value); -PCUIF__MsgType_template& operator=(const PCUIF__MsgType& other_value); -PCUIF__MsgType_template& operator=(const OPTIONAL& other_value); -PCUIF__MsgType_template& operator=(const PCUIF__MsgType_template& other_value); - -boolean match(PCUIF__MsgType::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const PCUIF__MsgType& other_value, boolean legacy = FALSE) const; -PCUIF__MsgType::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__MsgType_template& list_item(unsigned int list_index); -void log() const; -void log_match(const PCUIF__MsgType& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class PCUIF__Sapi : public Base_Type { // enum -friend class PCUIF__Sapi_template; -public: -enum enum_type { PCU__IF__SAPI__UNKNOWN = 0, PCU__IF__SAPI__RACH = 1, PCU__IF__SAPI__AGCH = 2, PCU__IF__SAPI__PCH = 3, PCU__IF__SAPI__BCCH = 4, PCU__IF__SAPI__PDTCH = 5, PCU__IF__SAPI__PRACH = 6, PCU__IF__SAPI__PTCCH = 7, PCU__IF__SAPI__AGCH__DT = 8, UNKNOWN_VALUE = 9, UNBOUND_VALUE = 10 }; -private: -enum_type enum_value; - -public: -PCUIF__Sapi(); -PCUIF__Sapi(int other_value); -PCUIF__Sapi(enum_type other_value); -PCUIF__Sapi(const PCUIF__Sapi& other_value); - -PCUIF__Sapi& operator=(int other_value); -PCUIF__Sapi& operator=(enum_type other_value); -PCUIF__Sapi& operator=(const PCUIF__Sapi& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const PCUIF__Sapi& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const PCUIF__Sapi& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const PCUIF__Sapi& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const PCUIF__Sapi& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const PCUIF__Sapi& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const PCUIF__Sapi& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const PCUIF__Sapi& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__Sapi_template : public Base_Template { -union { -PCUIF__Sapi::enum_type single_value; -struct { -unsigned int n_values; -PCUIF__Sapi_template *list_value; -} value_list; -}; - -void copy_template(const PCUIF__Sapi_template& other_value); - -public: -PCUIF__Sapi_template(); -PCUIF__Sapi_template(template_sel other_value); -PCUIF__Sapi_template(int other_value); -PCUIF__Sapi_template(PCUIF__Sapi::enum_type other_value); -PCUIF__Sapi_template(const PCUIF__Sapi& other_value); -PCUIF__Sapi_template(const OPTIONAL& other_value); -PCUIF__Sapi_template(const PCUIF__Sapi_template& other_value); -~PCUIF__Sapi_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__Sapi_template& operator=(template_sel other_value); -PCUIF__Sapi_template& operator=(int other_value); -PCUIF__Sapi_template& operator=(PCUIF__Sapi::enum_type other_value); -PCUIF__Sapi_template& operator=(const PCUIF__Sapi& other_value); -PCUIF__Sapi_template& operator=(const OPTIONAL& other_value); -PCUIF__Sapi_template& operator=(const PCUIF__Sapi_template& other_value); - -boolean match(PCUIF__Sapi::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const PCUIF__Sapi& other_value, boolean legacy = FALSE) const; -PCUIF__Sapi::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__Sapi_template& list_item(unsigned int list_index); -void log() const; -void log_match(const PCUIF__Sapi& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class PCUIF__Flags : public Base_Type { - BOOLEAN field_bts__active; - BOOLEAN field_sysmo__direct__dsp; - BITSTRING field_spare; - BOOLEAN field_cs1; - BOOLEAN field_cs2; - BOOLEAN field_cs3; - BOOLEAN field_cs4; - BOOLEAN field_mcs1; - BOOLEAN field_mcs2; - BOOLEAN field_mcs3; - BOOLEAN field_mcs4; - BOOLEAN field_mcs5; - BOOLEAN field_mcs6; - BOOLEAN field_mcs7; - BOOLEAN field_mcs8; - BOOLEAN field_mcs9; - BITSTRING field_spare2; -public: - PCUIF__Flags(); - PCUIF__Flags(const BOOLEAN& par_bts__active, - const BOOLEAN& par_sysmo__direct__dsp, - const BITSTRING& par_spare, - const BOOLEAN& par_cs1, - const BOOLEAN& par_cs2, - const BOOLEAN& par_cs3, - const BOOLEAN& par_cs4, - const BOOLEAN& par_mcs1, - const BOOLEAN& par_mcs2, - const BOOLEAN& par_mcs3, - const BOOLEAN& par_mcs4, - const BOOLEAN& par_mcs5, - const BOOLEAN& par_mcs6, - const BOOLEAN& par_mcs7, - const BOOLEAN& par_mcs8, - const BOOLEAN& par_mcs9, - const BITSTRING& par_spare2); - PCUIF__Flags(const PCUIF__Flags& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__Flags& operator=(const PCUIF__Flags& other_value); - boolean operator==(const PCUIF__Flags& other_value) const; - inline boolean operator!=(const PCUIF__Flags& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline BOOLEAN& bts__active() - {return field_bts__active;} - inline const BOOLEAN& bts__active() const - {return field_bts__active;} - inline BOOLEAN& sysmo__direct__dsp() - {return field_sysmo__direct__dsp;} - inline const BOOLEAN& sysmo__direct__dsp() const - {return field_sysmo__direct__dsp;} - inline BITSTRING& spare() - {return field_spare;} - inline const BITSTRING& spare() const - {return field_spare;} - inline BOOLEAN& cs1() - {return field_cs1;} - inline const BOOLEAN& cs1() const - {return field_cs1;} - inline BOOLEAN& cs2() - {return field_cs2;} - inline const BOOLEAN& cs2() const - {return field_cs2;} - inline BOOLEAN& cs3() - {return field_cs3;} - inline const BOOLEAN& cs3() const - {return field_cs3;} - inline BOOLEAN& cs4() - {return field_cs4;} - inline const BOOLEAN& cs4() const - {return field_cs4;} - inline BOOLEAN& mcs1() - {return field_mcs1;} - inline const BOOLEAN& mcs1() const - {return field_mcs1;} - inline BOOLEAN& mcs2() - {return field_mcs2;} - inline const BOOLEAN& mcs2() const - {return field_mcs2;} - inline BOOLEAN& mcs3() - {return field_mcs3;} - inline const BOOLEAN& mcs3() const - {return field_mcs3;} - inline BOOLEAN& mcs4() - {return field_mcs4;} - inline const BOOLEAN& mcs4() const - {return field_mcs4;} - inline BOOLEAN& mcs5() - {return field_mcs5;} - inline const BOOLEAN& mcs5() const - {return field_mcs5;} - inline BOOLEAN& mcs6() - {return field_mcs6;} - inline const BOOLEAN& mcs6() const - {return field_mcs6;} - inline BOOLEAN& mcs7() - {return field_mcs7;} - inline const BOOLEAN& mcs7() const - {return field_mcs7;} - inline BOOLEAN& mcs8() - {return field_mcs8;} - inline const BOOLEAN& mcs8() const - {return field_mcs8;} - inline BOOLEAN& mcs9() - {return field_mcs9;} - inline const BOOLEAN& mcs9() const - {return field_mcs9;} - inline BITSTRING& spare2() - {return field_spare2;} - inline const BITSTRING& spare2() const - {return field_spare2;} - inline int size_of() const - {return 17;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__Flags_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__Flags_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__Flags& other_value); -void copy_template(const PCUIF__Flags_template& other_value); - -public: -PCUIF__Flags_template(); -PCUIF__Flags_template(template_sel other_value); -PCUIF__Flags_template(const PCUIF__Flags& other_value); -PCUIF__Flags_template(const OPTIONAL& other_value); -PCUIF__Flags_template(const PCUIF__Flags_template& other_value); -~PCUIF__Flags_template(); -PCUIF__Flags_template& operator=(template_sel other_value); -PCUIF__Flags_template& operator=(const PCUIF__Flags& other_value); -PCUIF__Flags_template& operator=(const OPTIONAL& other_value); -PCUIF__Flags_template& operator=(const PCUIF__Flags_template& other_value); -boolean match(const PCUIF__Flags& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__Flags valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__Flags_template& list_item(unsigned int list_index) const; -BOOLEAN_template& bts__active(); -const BOOLEAN_template& bts__active() const; -BOOLEAN_template& sysmo__direct__dsp(); -const BOOLEAN_template& sysmo__direct__dsp() const; -BITSTRING_template& spare(); -const BITSTRING_template& spare() const; -BOOLEAN_template& cs1(); -const BOOLEAN_template& cs1() const; -BOOLEAN_template& cs2(); -const BOOLEAN_template& cs2() const; -BOOLEAN_template& cs3(); -const BOOLEAN_template& cs3() const; -BOOLEAN_template& cs4(); -const BOOLEAN_template& cs4() const; -BOOLEAN_template& mcs1(); -const BOOLEAN_template& mcs1() const; -BOOLEAN_template& mcs2(); -const BOOLEAN_template& mcs2() const; -BOOLEAN_template& mcs3(); -const BOOLEAN_template& mcs3() const; -BOOLEAN_template& mcs4(); -const BOOLEAN_template& mcs4() const; -BOOLEAN_template& mcs5(); -const BOOLEAN_template& mcs5() const; -BOOLEAN_template& mcs6(); -const BOOLEAN_template& mcs6() const; -BOOLEAN_template& mcs7(); -const BOOLEAN_template& mcs7() const; -BOOLEAN_template& mcs8(); -const BOOLEAN_template& mcs8() const; -BOOLEAN_template& mcs9(); -const BOOLEAN_template& mcs9() const; -BITSTRING_template& spare2(); -const BITSTRING_template& spare2() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__Flags& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__TextType : public Base_Type { // enum -friend class PCUIF__TextType_template; -public: -enum enum_type { PCU__VERSION = 0, PCU__OML__ALERT = 1, UNKNOWN_VALUE = 2, UNBOUND_VALUE = 3 }; -private: -enum_type enum_value; - -public: -PCUIF__TextType(); -PCUIF__TextType(int other_value); -PCUIF__TextType(enum_type other_value); -PCUIF__TextType(const PCUIF__TextType& other_value); - -PCUIF__TextType& operator=(int other_value); -PCUIF__TextType& operator=(enum_type other_value); -PCUIF__TextType& operator=(const PCUIF__TextType& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const PCUIF__TextType& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const PCUIF__TextType& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const PCUIF__TextType& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const PCUIF__TextType& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const PCUIF__TextType& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const PCUIF__TextType& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const PCUIF__TextType& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__TextType_template : public Base_Template { -union { -PCUIF__TextType::enum_type single_value; -struct { -unsigned int n_values; -PCUIF__TextType_template *list_value; -} value_list; -}; - -void copy_template(const PCUIF__TextType_template& other_value); - -public: -PCUIF__TextType_template(); -PCUIF__TextType_template(template_sel other_value); -PCUIF__TextType_template(int other_value); -PCUIF__TextType_template(PCUIF__TextType::enum_type other_value); -PCUIF__TextType_template(const PCUIF__TextType& other_value); -PCUIF__TextType_template(const OPTIONAL& other_value); -PCUIF__TextType_template(const PCUIF__TextType_template& other_value); -~PCUIF__TextType_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__TextType_template& operator=(template_sel other_value); -PCUIF__TextType_template& operator=(int other_value); -PCUIF__TextType_template& operator=(PCUIF__TextType::enum_type other_value); -PCUIF__TextType_template& operator=(const PCUIF__TextType& other_value); -PCUIF__TextType_template& operator=(const OPTIONAL& other_value); -PCUIF__TextType_template& operator=(const PCUIF__TextType_template& other_value); - -boolean match(PCUIF__TextType::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const PCUIF__TextType& other_value, boolean legacy = FALSE) const; -PCUIF__TextType::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__TextType_template& list_item(unsigned int list_index); -void log() const; -void log_match(const PCUIF__TextType& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class PCUIF__txt__ind : public Base_Type { - PCUIF__TextType field_txt__type; - CHARSTRING field_text; -public: - PCUIF__txt__ind(); - PCUIF__txt__ind(const PCUIF__TextType& par_txt__type, - const CHARSTRING& par_text); - PCUIF__txt__ind(const PCUIF__txt__ind& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__txt__ind& operator=(const PCUIF__txt__ind& other_value); - boolean operator==(const PCUIF__txt__ind& other_value) const; - inline boolean operator!=(const PCUIF__txt__ind& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline PCUIF__TextType& txt__type() - {return field_txt__type;} - inline const PCUIF__TextType& txt__type() const - {return field_txt__type;} - inline CHARSTRING& text() - {return field_text;} - inline const CHARSTRING& text() const - {return field_text;} - inline int size_of() const - {return 2;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__txt__ind_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__txt__ind_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__txt__ind& other_value); -void copy_template(const PCUIF__txt__ind_template& other_value); - -public: -PCUIF__txt__ind_template(); -PCUIF__txt__ind_template(template_sel other_value); -PCUIF__txt__ind_template(const PCUIF__txt__ind& other_value); -PCUIF__txt__ind_template(const OPTIONAL& other_value); -PCUIF__txt__ind_template(const PCUIF__txt__ind_template& other_value); -~PCUIF__txt__ind_template(); -PCUIF__txt__ind_template& operator=(template_sel other_value); -PCUIF__txt__ind_template& operator=(const PCUIF__txt__ind& other_value); -PCUIF__txt__ind_template& operator=(const OPTIONAL& other_value); -PCUIF__txt__ind_template& operator=(const PCUIF__txt__ind_template& other_value); -boolean match(const PCUIF__txt__ind& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__txt__ind valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__txt__ind_template& list_item(unsigned int list_index) const; -PCUIF__TextType_template& txt__type(); -const PCUIF__TextType_template& txt__type() const; -CHARSTRING_template& text(); -const CHARSTRING_template& text() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__txt__ind& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__data : public Base_Type { - PCUIF__Sapi field_sapi; - INTEGER field_len; - OCTETSTRING field_data; - INTEGER field_fn; - INTEGER field_arfcn; - INTEGER field_trx__nr; - INTEGER field_ts__nr; - INTEGER field_block__nr; - INTEGER field_rssi; - INTEGER field_ber10k; - INTEGER field_ta__offs__qbits; - INTEGER field_lqual__cb; -public: - PCUIF__data(); - PCUIF__data(const PCUIF__Sapi& par_sapi, - const INTEGER& par_len, - const OCTETSTRING& par_data, - const INTEGER& par_fn, - const INTEGER& par_arfcn, - const INTEGER& par_trx__nr, - const INTEGER& par_ts__nr, - const INTEGER& par_block__nr, - const INTEGER& par_rssi, - const INTEGER& par_ber10k, - const INTEGER& par_ta__offs__qbits, - const INTEGER& par_lqual__cb); - PCUIF__data(const PCUIF__data& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__data& operator=(const PCUIF__data& other_value); - boolean operator==(const PCUIF__data& other_value) const; - inline boolean operator!=(const PCUIF__data& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline PCUIF__Sapi& sapi() - {return field_sapi;} - inline const PCUIF__Sapi& sapi() const - {return field_sapi;} - inline INTEGER& len() - {return field_len;} - inline const INTEGER& len() const - {return field_len;} - inline OCTETSTRING& data() - {return field_data;} - inline const OCTETSTRING& data() const - {return field_data;} - inline INTEGER& fn() - {return field_fn;} - inline const INTEGER& fn() const - {return field_fn;} - inline INTEGER& arfcn() - {return field_arfcn;} - inline const INTEGER& arfcn() const - {return field_arfcn;} - inline INTEGER& trx__nr() - {return field_trx__nr;} - inline const INTEGER& trx__nr() const - {return field_trx__nr;} - inline INTEGER& ts__nr() - {return field_ts__nr;} - inline const INTEGER& ts__nr() const - {return field_ts__nr;} - inline INTEGER& block__nr() - {return field_block__nr;} - inline const INTEGER& block__nr() const - {return field_block__nr;} - inline INTEGER& rssi() - {return field_rssi;} - inline const INTEGER& rssi() const - {return field_rssi;} - inline INTEGER& ber10k() - {return field_ber10k;} - inline const INTEGER& ber10k() const - {return field_ber10k;} - inline INTEGER& ta__offs__qbits() - {return field_ta__offs__qbits;} - inline const INTEGER& ta__offs__qbits() const - {return field_ta__offs__qbits;} - inline INTEGER& lqual__cb() - {return field_lqual__cb;} - inline const INTEGER& lqual__cb() const - {return field_lqual__cb;} - inline int size_of() const - {return 12;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__data_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__data_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__data& other_value); -void copy_template(const PCUIF__data_template& other_value); - -public: -PCUIF__data_template(); -PCUIF__data_template(template_sel other_value); -PCUIF__data_template(const PCUIF__data& other_value); -PCUIF__data_template(const OPTIONAL& other_value); -PCUIF__data_template(const PCUIF__data_template& other_value); -~PCUIF__data_template(); -PCUIF__data_template& operator=(template_sel other_value); -PCUIF__data_template& operator=(const PCUIF__data& other_value); -PCUIF__data_template& operator=(const OPTIONAL& other_value); -PCUIF__data_template& operator=(const PCUIF__data_template& other_value); -boolean match(const PCUIF__data& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__data valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__data_template& list_item(unsigned int list_index) const; -PCUIF__Sapi_template& sapi(); -const PCUIF__Sapi_template& sapi() const; -INTEGER_template& len(); -const INTEGER_template& len() const; -OCTETSTRING_template& data(); -const OCTETSTRING_template& data() const; -INTEGER_template& fn(); -const INTEGER_template& fn() const; -INTEGER_template& arfcn(); -const INTEGER_template& arfcn() const; -INTEGER_template& trx__nr(); -const INTEGER_template& trx__nr() const; -INTEGER_template& ts__nr(); -const INTEGER_template& ts__nr() const; -INTEGER_template& block__nr(); -const INTEGER_template& block__nr() const; -INTEGER_template& rssi(); -const INTEGER_template& rssi() const; -INTEGER_template& ber10k(); -const INTEGER_template& ber10k() const; -INTEGER_template& ta__offs__qbits(); -const INTEGER_template& ta__offs__qbits() const; -INTEGER_template& lqual__cb(); -const INTEGER_template& lqual__cb() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__data& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__data__cnf__dt : public Base_Type { - PCUIF__Sapi field_sapi; - OCTETSTRING field_tlli; - INTEGER field_fn; - INTEGER field_arfcn; - INTEGER field_trx__nr; - INTEGER field_ts__nr; - INTEGER field_block__nr; - INTEGER field_rssi; - INTEGER field_ber10k; - INTEGER field_ta__offs__qbits; - INTEGER field_lqual__cb; -public: - PCUIF__data__cnf__dt(); - PCUIF__data__cnf__dt(const PCUIF__Sapi& par_sapi, - const OCTETSTRING& par_tlli, - const INTEGER& par_fn, - const INTEGER& par_arfcn, - const INTEGER& par_trx__nr, - const INTEGER& par_ts__nr, - const INTEGER& par_block__nr, - const INTEGER& par_rssi, - const INTEGER& par_ber10k, - const INTEGER& par_ta__offs__qbits, - const INTEGER& par_lqual__cb); - PCUIF__data__cnf__dt(const PCUIF__data__cnf__dt& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__data__cnf__dt& operator=(const PCUIF__data__cnf__dt& other_value); - boolean operator==(const PCUIF__data__cnf__dt& other_value) const; - inline boolean operator!=(const PCUIF__data__cnf__dt& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline PCUIF__Sapi& sapi() - {return field_sapi;} - inline const PCUIF__Sapi& sapi() const - {return field_sapi;} - inline OCTETSTRING& tlli() - {return field_tlli;} - inline const OCTETSTRING& tlli() const - {return field_tlli;} - inline INTEGER& fn() - {return field_fn;} - inline const INTEGER& fn() const - {return field_fn;} - inline INTEGER& arfcn() - {return field_arfcn;} - inline const INTEGER& arfcn() const - {return field_arfcn;} - inline INTEGER& trx__nr() - {return field_trx__nr;} - inline const INTEGER& trx__nr() const - {return field_trx__nr;} - inline INTEGER& ts__nr() - {return field_ts__nr;} - inline const INTEGER& ts__nr() const - {return field_ts__nr;} - inline INTEGER& block__nr() - {return field_block__nr;} - inline const INTEGER& block__nr() const - {return field_block__nr;} - inline INTEGER& rssi() - {return field_rssi;} - inline const INTEGER& rssi() const - {return field_rssi;} - inline INTEGER& ber10k() - {return field_ber10k;} - inline const INTEGER& ber10k() const - {return field_ber10k;} - inline INTEGER& ta__offs__qbits() - {return field_ta__offs__qbits;} - inline const INTEGER& ta__offs__qbits() const - {return field_ta__offs__qbits;} - inline INTEGER& lqual__cb() - {return field_lqual__cb;} - inline const INTEGER& lqual__cb() const - {return field_lqual__cb;} - inline int size_of() const - {return 11;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__data__cnf__dt_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__data__cnf__dt_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__data__cnf__dt& other_value); -void copy_template(const PCUIF__data__cnf__dt_template& other_value); - -public: -PCUIF__data__cnf__dt_template(); -PCUIF__data__cnf__dt_template(template_sel other_value); -PCUIF__data__cnf__dt_template(const PCUIF__data__cnf__dt& other_value); -PCUIF__data__cnf__dt_template(const OPTIONAL& other_value); -PCUIF__data__cnf__dt_template(const PCUIF__data__cnf__dt_template& other_value); -~PCUIF__data__cnf__dt_template(); -PCUIF__data__cnf__dt_template& operator=(template_sel other_value); -PCUIF__data__cnf__dt_template& operator=(const PCUIF__data__cnf__dt& other_value); -PCUIF__data__cnf__dt_template& operator=(const OPTIONAL& other_value); -PCUIF__data__cnf__dt_template& operator=(const PCUIF__data__cnf__dt_template& other_value); -boolean match(const PCUIF__data__cnf__dt& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__data__cnf__dt valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__data__cnf__dt_template& list_item(unsigned int list_index) const; -PCUIF__Sapi_template& sapi(); -const PCUIF__Sapi_template& sapi() const; -OCTETSTRING_template& tlli(); -const OCTETSTRING_template& tlli() const; -INTEGER_template& fn(); -const INTEGER_template& fn() const; -INTEGER_template& arfcn(); -const INTEGER_template& arfcn() const; -INTEGER_template& trx__nr(); -const INTEGER_template& trx__nr() const; -INTEGER_template& ts__nr(); -const INTEGER_template& ts__nr() const; -INTEGER_template& block__nr(); -const INTEGER_template& block__nr() const; -INTEGER_template& rssi(); -const INTEGER_template& rssi() const; -INTEGER_template& ber10k(); -const INTEGER_template& ber10k() const; -INTEGER_template& ta__offs__qbits(); -const INTEGER_template& ta__offs__qbits() const; -INTEGER_template& lqual__cb(); -const INTEGER_template& lqual__cb() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__data__cnf__dt& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__rts__req : public Base_Type { - PCUIF__Sapi field_sapi; - OCTETSTRING field_spare; - INTEGER field_fn; - INTEGER field_arfcn; - INTEGER field_trx__nr; - INTEGER field_ts__nr; - INTEGER field_block__nr; -public: - PCUIF__rts__req(); - PCUIF__rts__req(const PCUIF__Sapi& par_sapi, - const OCTETSTRING& par_spare, - const INTEGER& par_fn, - const INTEGER& par_arfcn, - const INTEGER& par_trx__nr, - const INTEGER& par_ts__nr, - const INTEGER& par_block__nr); - PCUIF__rts__req(const PCUIF__rts__req& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__rts__req& operator=(const PCUIF__rts__req& other_value); - boolean operator==(const PCUIF__rts__req& other_value) const; - inline boolean operator!=(const PCUIF__rts__req& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline PCUIF__Sapi& sapi() - {return field_sapi;} - inline const PCUIF__Sapi& sapi() const - {return field_sapi;} - inline OCTETSTRING& spare() - {return field_spare;} - inline const OCTETSTRING& spare() const - {return field_spare;} - inline INTEGER& fn() - {return field_fn;} - inline const INTEGER& fn() const - {return field_fn;} - inline INTEGER& arfcn() - {return field_arfcn;} - inline const INTEGER& arfcn() const - {return field_arfcn;} - inline INTEGER& trx__nr() - {return field_trx__nr;} - inline const INTEGER& trx__nr() const - {return field_trx__nr;} - inline INTEGER& ts__nr() - {return field_ts__nr;} - inline const INTEGER& ts__nr() const - {return field_ts__nr;} - inline INTEGER& block__nr() - {return field_block__nr;} - inline const INTEGER& block__nr() const - {return field_block__nr;} - inline int size_of() const - {return 7;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__rts__req_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__rts__req_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__rts__req& other_value); -void copy_template(const PCUIF__rts__req_template& other_value); - -public: -PCUIF__rts__req_template(); -PCUIF__rts__req_template(template_sel other_value); -PCUIF__rts__req_template(const PCUIF__rts__req& other_value); -PCUIF__rts__req_template(const OPTIONAL& other_value); -PCUIF__rts__req_template(const PCUIF__rts__req_template& other_value); -~PCUIF__rts__req_template(); -PCUIF__rts__req_template& operator=(template_sel other_value); -PCUIF__rts__req_template& operator=(const PCUIF__rts__req& other_value); -PCUIF__rts__req_template& operator=(const OPTIONAL& other_value); -PCUIF__rts__req_template& operator=(const PCUIF__rts__req_template& other_value); -boolean match(const PCUIF__rts__req& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__rts__req valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__rts__req_template& list_item(unsigned int list_index) const; -PCUIF__Sapi_template& sapi(); -const PCUIF__Sapi_template& sapi() const; -OCTETSTRING_template& spare(); -const OCTETSTRING_template& spare() const; -INTEGER_template& fn(); -const INTEGER_template& fn() const; -INTEGER_template& arfcn(); -const INTEGER_template& arfcn() const; -INTEGER_template& trx__nr(); -const INTEGER_template& trx__nr() const; -INTEGER_template& ts__nr(); -const INTEGER_template& ts__nr() const; -INTEGER_template& block__nr(); -const INTEGER_template& block__nr() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__rts__req& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__BurstType : public Base_Type { // enum -friend class PCUIF__BurstType_template; -public: -enum enum_type { BURST__TYPE__NONE = 0, BURST__TYPE__0 = 1, BURST__TYPE__1 = 2, BURST__TYPE__2 = 3, UNKNOWN_VALUE = 4, UNBOUND_VALUE = 5 }; -private: -enum_type enum_value; - -public: -PCUIF__BurstType(); -PCUIF__BurstType(int other_value); -PCUIF__BurstType(enum_type other_value); -PCUIF__BurstType(const PCUIF__BurstType& other_value); - -PCUIF__BurstType& operator=(int other_value); -PCUIF__BurstType& operator=(enum_type other_value); -PCUIF__BurstType& operator=(const PCUIF__BurstType& other_value); - -boolean operator==(enum_type other_value) const; -boolean operator==(const PCUIF__BurstType& other_value) const; -inline boolean operator!=(enum_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const PCUIF__BurstType& other_value) const { return !(*this == other_value); } -boolean operator<(enum_type other_value) const; -boolean operator<(const PCUIF__BurstType& other_value) const; -boolean operator>(enum_type other_value) const; -boolean operator>(const PCUIF__BurstType& other_value) const; -inline boolean operator<=(enum_type other_value) const { return !(*this > other_value); } -inline boolean operator<=(const PCUIF__BurstType& other_value) const { return !(*this > other_value); } -inline boolean operator>=(enum_type other_value) const { return !(*this < other_value); } -inline boolean operator>=(const PCUIF__BurstType& other_value) const { return !(*this < other_value); } - -static const char *enum_to_str(enum_type enum_par); -static enum_type str_to_enum(const char *str_par); -static boolean is_valid_enum(int int_par); - -static int enum2int(enum_type enum_par); -static int enum2int(const PCUIF__BurstType& enum_par); -int as_int() const { return enum2int(enum_value); } -void from_int(int p_val) { *this = p_val; } -void int2enum(int int_val); -operator enum_type() const; -inline boolean is_bound() const { return enum_value != UNBOUND_VALUE; } -inline boolean is_value() const { return enum_value != UNBOUND_VALUE; } -inline void clean_up(){ enum_value = UNBOUND_VALUE; } -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__BurstType_template : public Base_Template { -union { -PCUIF__BurstType::enum_type single_value; -struct { -unsigned int n_values; -PCUIF__BurstType_template *list_value; -} value_list; -}; - -void copy_template(const PCUIF__BurstType_template& other_value); - -public: -PCUIF__BurstType_template(); -PCUIF__BurstType_template(template_sel other_value); -PCUIF__BurstType_template(int other_value); -PCUIF__BurstType_template(PCUIF__BurstType::enum_type other_value); -PCUIF__BurstType_template(const PCUIF__BurstType& other_value); -PCUIF__BurstType_template(const OPTIONAL& other_value); -PCUIF__BurstType_template(const PCUIF__BurstType_template& other_value); -~PCUIF__BurstType_template(); - -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__BurstType_template& operator=(template_sel other_value); -PCUIF__BurstType_template& operator=(int other_value); -PCUIF__BurstType_template& operator=(PCUIF__BurstType::enum_type other_value); -PCUIF__BurstType_template& operator=(const PCUIF__BurstType& other_value); -PCUIF__BurstType_template& operator=(const OPTIONAL& other_value); -PCUIF__BurstType_template& operator=(const PCUIF__BurstType_template& other_value); - -boolean match(PCUIF__BurstType::enum_type other_value, boolean legacy = FALSE) const; -boolean match(const PCUIF__BurstType& other_value, boolean legacy = FALSE) const; -PCUIF__BurstType::enum_type valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__BurstType_template& list_item(unsigned int list_index); -void log() const; -void log_match(const PCUIF__BurstType& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class PCUIF__rach__ind : public Base_Type { - PCUIF__Sapi field_sapi; - INTEGER field_ra; - INTEGER field_qta; - INTEGER field_fn; - INTEGER field_arfcn; - INTEGER field_is__11bit; - PCUIF__BurstType field_burst__type; -public: - PCUIF__rach__ind(); - PCUIF__rach__ind(const PCUIF__Sapi& par_sapi, - const INTEGER& par_ra, - const INTEGER& par_qta, - const INTEGER& par_fn, - const INTEGER& par_arfcn, - const INTEGER& par_is__11bit, - const PCUIF__BurstType& par_burst__type); - PCUIF__rach__ind(const PCUIF__rach__ind& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__rach__ind& operator=(const PCUIF__rach__ind& other_value); - boolean operator==(const PCUIF__rach__ind& other_value) const; - inline boolean operator!=(const PCUIF__rach__ind& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline PCUIF__Sapi& sapi() - {return field_sapi;} - inline const PCUIF__Sapi& sapi() const - {return field_sapi;} - inline INTEGER& ra() - {return field_ra;} - inline const INTEGER& ra() const - {return field_ra;} - inline INTEGER& qta() - {return field_qta;} - inline const INTEGER& qta() const - {return field_qta;} - inline INTEGER& fn() - {return field_fn;} - inline const INTEGER& fn() const - {return field_fn;} - inline INTEGER& arfcn() - {return field_arfcn;} - inline const INTEGER& arfcn() const - {return field_arfcn;} - inline INTEGER& is__11bit() - {return field_is__11bit;} - inline const INTEGER& is__11bit() const - {return field_is__11bit;} - inline PCUIF__BurstType& burst__type() - {return field_burst__type;} - inline const PCUIF__BurstType& burst__type() const - {return field_burst__type;} - inline int size_of() const - {return 7;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__rach__ind_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__rach__ind_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__rach__ind& other_value); -void copy_template(const PCUIF__rach__ind_template& other_value); - -public: -PCUIF__rach__ind_template(); -PCUIF__rach__ind_template(template_sel other_value); -PCUIF__rach__ind_template(const PCUIF__rach__ind& other_value); -PCUIF__rach__ind_template(const OPTIONAL& other_value); -PCUIF__rach__ind_template(const PCUIF__rach__ind_template& other_value); -~PCUIF__rach__ind_template(); -PCUIF__rach__ind_template& operator=(template_sel other_value); -PCUIF__rach__ind_template& operator=(const PCUIF__rach__ind& other_value); -PCUIF__rach__ind_template& operator=(const OPTIONAL& other_value); -PCUIF__rach__ind_template& operator=(const PCUIF__rach__ind_template& other_value); -boolean match(const PCUIF__rach__ind& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__rach__ind valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__rach__ind_template& list_item(unsigned int list_index) const; -PCUIF__Sapi_template& sapi(); -const PCUIF__Sapi_template& sapi() const; -INTEGER_template& ra(); -const INTEGER_template& ra() const; -INTEGER_template& qta(); -const INTEGER_template& qta() const; -INTEGER_template& fn(); -const INTEGER_template& fn() const; -INTEGER_template& arfcn(); -const INTEGER_template& arfcn() const; -INTEGER_template& is__11bit(); -const INTEGER_template& is__11bit() const; -PCUIF__BurstType_template& burst__type(); -const PCUIF__BurstType_template& burst__type() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__rach__ind& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__InfoTrx : public Base_Type { - INTEGER field_arfcn; - BITSTRING field_pdch__mask; - OCTETSTRING field_spare; - OCTETSTRING field_tsc; - INTEGER field_hLayer1; -public: - PCUIF__InfoTrx(); - PCUIF__InfoTrx(const INTEGER& par_arfcn, - const BITSTRING& par_pdch__mask, - const OCTETSTRING& par_spare, - const OCTETSTRING& par_tsc, - const INTEGER& par_hLayer1); - PCUIF__InfoTrx(const PCUIF__InfoTrx& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__InfoTrx& operator=(const PCUIF__InfoTrx& other_value); - boolean operator==(const PCUIF__InfoTrx& other_value) const; - inline boolean operator!=(const PCUIF__InfoTrx& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& arfcn() - {return field_arfcn;} - inline const INTEGER& arfcn() const - {return field_arfcn;} - inline BITSTRING& pdch__mask() - {return field_pdch__mask;} - inline const BITSTRING& pdch__mask() const - {return field_pdch__mask;} - inline OCTETSTRING& spare() - {return field_spare;} - inline const OCTETSTRING& spare() const - {return field_spare;} - inline OCTETSTRING& tsc() - {return field_tsc;} - inline const OCTETSTRING& tsc() const - {return field_tsc;} - inline INTEGER& hLayer1() - {return field_hLayer1;} - inline const INTEGER& hLayer1() const - {return field_hLayer1;} - inline int size_of() const - {return 5;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__InfoTrx_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__InfoTrx_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__InfoTrx& other_value); -void copy_template(const PCUIF__InfoTrx_template& other_value); - -public: -PCUIF__InfoTrx_template(); -PCUIF__InfoTrx_template(template_sel other_value); -PCUIF__InfoTrx_template(const PCUIF__InfoTrx& other_value); -PCUIF__InfoTrx_template(const OPTIONAL& other_value); -PCUIF__InfoTrx_template(const PCUIF__InfoTrx_template& other_value); -~PCUIF__InfoTrx_template(); -PCUIF__InfoTrx_template& operator=(template_sel other_value); -PCUIF__InfoTrx_template& operator=(const PCUIF__InfoTrx& other_value); -PCUIF__InfoTrx_template& operator=(const OPTIONAL& other_value); -PCUIF__InfoTrx_template& operator=(const PCUIF__InfoTrx_template& other_value); -boolean match(const PCUIF__InfoTrx& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__InfoTrx valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__InfoTrx_template& list_item(unsigned int list_index) const; -INTEGER_template& arfcn(); -const INTEGER_template& arfcn() const; -BITSTRING_template& pdch__mask(); -const BITSTRING_template& pdch__mask() const; -OCTETSTRING_template& spare(); -const OCTETSTRING_template& spare() const; -OCTETSTRING_template& tsc(); -const OCTETSTRING_template& tsc() const; -INTEGER_template& hLayer1(); -const INTEGER_template& hLayer1() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__InfoTrx& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__InfoTrxs : public Base_Type { -struct recordof_setof_struct { -int ref_count; -int n_elements; -PCUIF__InfoTrx **value_elements; -} *val_ptr; - -static const PCUIF__InfoTrx UNBOUND_ELEM; -private: -friend boolean operator==(null_type null_value, const PCUIF__InfoTrxs& other_value); - -public: - typedef PCUIF__InfoTrx of_type; -PCUIF__InfoTrxs(); -PCUIF__InfoTrxs(null_type other_value); -PCUIF__InfoTrxs(const PCUIF__InfoTrxs& other_value); -~PCUIF__InfoTrxs(); - -void clean_up(); -PCUIF__InfoTrxs& operator=(null_type other_value); -PCUIF__InfoTrxs& operator=(const PCUIF__InfoTrxs& other_value); - -boolean operator==(null_type other_value) const; -boolean operator==(const PCUIF__InfoTrxs& other_value) const; -inline boolean operator!=(null_type other_value) const { return !(*this == other_value); } -inline boolean operator!=(const PCUIF__InfoTrxs& other_value) const { return !(*this == other_value); } - -PCUIF__InfoTrx& operator[](int index_value); -PCUIF__InfoTrx& operator[](const INTEGER& index_value); -const PCUIF__InfoTrx& operator[](int index_value) const; -const PCUIF__InfoTrx& operator[](const INTEGER& index_value) const; - -PCUIF__InfoTrxs operator<<=(int rotate_count) const; -PCUIF__InfoTrxs operator<<=(const INTEGER& rotate_count) const; -PCUIF__InfoTrxs operator>>=(int rotate_count) const; -PCUIF__InfoTrxs operator>>=(const INTEGER& rotate_count) const; - -PCUIF__InfoTrxs operator+(const PCUIF__InfoTrxs& other_value) const; - -PCUIF__InfoTrxs substr(int index, int returncount) const; - -PCUIF__InfoTrxs replace(int index, int len, const PCUIF__InfoTrxs& repl) const; - -PCUIF__InfoTrxs replace(int index, int len, const PCUIF__InfoTrxs_template& repl) const; - -void set_size(int new_size); -inline boolean is_bound() const {return val_ptr != NULL; } -inline boolean is_present() const { return is_bound(); } -boolean is_value() const; -int size_of() const; -int n_elem() const { return size_of(); } -int lengthof() const; -void log() const; -void set_param(Module_Param& param); - void set_implicit_omit(); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__InfoTrxs_template : public Record_Of_Template { -union { -struct { -int n_elements; -PCUIF__InfoTrx_template **value_elements; -} single_value; -struct { -unsigned int n_values; -PCUIF__InfoTrxs_template *list_value; -} value_list; -}; -void copy_value(const PCUIF__InfoTrxs& other_value); -void copy_template(const PCUIF__InfoTrxs_template& other_value); -static boolean match_function_specific(const Base_Type *value_ptr, int value_index, const Restricted_Length_Template *template_ptr, int template_index, boolean legacy); - -public: -PCUIF__InfoTrxs_template(); -PCUIF__InfoTrxs_template(template_sel other_value); -PCUIF__InfoTrxs_template(null_type other_value); -PCUIF__InfoTrxs_template(const PCUIF__InfoTrxs& other_value); -PCUIF__InfoTrxs_template(const OPTIONAL& other_value); -PCUIF__InfoTrxs_template(const PCUIF__InfoTrxs_template& other_value); -~PCUIF__InfoTrxs_template(); - -void clean_up(); -PCUIF__InfoTrxs_template& operator=(template_sel other_value); -PCUIF__InfoTrxs_template& operator=(null_type other_value); -PCUIF__InfoTrxs_template& operator=(const PCUIF__InfoTrxs& other_value); -PCUIF__InfoTrxs_template& operator=(const OPTIONAL& other_value); -PCUIF__InfoTrxs_template& operator=(const PCUIF__InfoTrxs_template& other_value); - -PCUIF__InfoTrx_template& operator[](int index_value); -PCUIF__InfoTrx_template& operator[](const INTEGER& index_value); -const PCUIF__InfoTrx_template& operator[](int index_value) const; -const PCUIF__InfoTrx_template& operator[](const INTEGER& index_value) const; - -void set_size(int new_size); -int n_elem() const; -int size_of(boolean is_size) const; -inline int size_of() const { return size_of(TRUE); } -inline int lengthof() const { return size_of(FALSE); } -boolean match(const PCUIF__InfoTrxs& other_value, boolean legacy = FALSE) const; -inline boolean is_bound() const - {return template_selection != UNINITIALIZED_TEMPLATE; } -boolean is_value() const; -PCUIF__InfoTrxs valueof() const; -PCUIF__InfoTrxs substr(int index, int returncount) const; - -PCUIF__InfoTrxs replace(int index, int len, const PCUIF__InfoTrxs_template& repl) const; - -PCUIF__InfoTrxs replace(int index, int len, const PCUIF__InfoTrxs& repl) const; - -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__InfoTrxs_template& list_item(unsigned int list_index); -void log() const; -void log_match(const PCUIF__InfoTrxs& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean get_istemplate_kind(const char* type) const; -}; - -class PCUIF__info__ind : public Base_Type { - INTEGER field_version; - PCUIF__Flags field_flags; - PCUIF__InfoTrxs field_trx; - INTEGER field_bsic; - INTEGER field_mcc; - INTEGER field_mnc; - INTEGER field_mnc__3__digits; - INTEGER field_lac; - INTEGER field_rac; - INTEGER field_nsei; - PCUIF__info__ind_nse__timer field_nse__timer; - PCUIF__info__ind_cell__timer field_cell__timer; - INTEGER field_cell__id; - INTEGER field_repeat__time; - INTEGER field_repeat__count; - INTEGER field_bvci; - INTEGER field_t3142; - INTEGER field_t3169; - INTEGER field_t3191; - INTEGER field_t3193__10ms; - INTEGER field_t3195; - INTEGER field_t3101; - INTEGER field_t3103; - INTEGER field_t3105; - INTEGER field_cv__countdown; - INTEGER field_dl__tbf__ext; - INTEGER field_ul__tbf__ext; - INTEGER field_initial__cs; - INTEGER field_initial__mcs; - PCUIF__info__ind_nsvci field_nsvci; - PCUIF__info__ind_local__pprt field_local__pprt; - PCUIF__info__ind_remote__port field_remote__port; - PCUIF__info__ind_remote__ip field_remote__ip; -public: - PCUIF__info__ind(); - PCUIF__info__ind(const INTEGER& par_version, - const PCUIF__Flags& par_flags, - const PCUIF__InfoTrxs& par_trx, - const INTEGER& par_bsic, - const INTEGER& par_mcc, - const INTEGER& par_mnc, - const INTEGER& par_mnc__3__digits, - const INTEGER& par_lac, - const INTEGER& par_rac, - const INTEGER& par_nsei, - const PCUIF__info__ind_nse__timer& par_nse__timer, - const PCUIF__info__ind_cell__timer& par_cell__timer, - const INTEGER& par_cell__id, - const INTEGER& par_repeat__time, - const INTEGER& par_repeat__count, - const INTEGER& par_bvci, - const INTEGER& par_t3142, - const INTEGER& par_t3169, - const INTEGER& par_t3191, - const INTEGER& par_t3193__10ms, - const INTEGER& par_t3195, - const INTEGER& par_t3101, - const INTEGER& par_t3103, - const INTEGER& par_t3105, - const INTEGER& par_cv__countdown, - const INTEGER& par_dl__tbf__ext, - const INTEGER& par_ul__tbf__ext, - const INTEGER& par_initial__cs, - const INTEGER& par_initial__mcs, - const PCUIF__info__ind_nsvci& par_nsvci, - const PCUIF__info__ind_local__pprt& par_local__pprt, - const PCUIF__info__ind_remote__port& par_remote__port, - const PCUIF__info__ind_remote__ip& par_remote__ip); - PCUIF__info__ind(const PCUIF__info__ind& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__info__ind& operator=(const PCUIF__info__ind& other_value); - boolean operator==(const PCUIF__info__ind& other_value) const; - inline boolean operator!=(const PCUIF__info__ind& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& version() - {return field_version;} - inline const INTEGER& version() const - {return field_version;} - inline PCUIF__Flags& flags() - {return field_flags;} - inline const PCUIF__Flags& flags() const - {return field_flags;} - inline PCUIF__InfoTrxs& trx() - {return field_trx;} - inline const PCUIF__InfoTrxs& trx() const - {return field_trx;} - inline INTEGER& bsic() - {return field_bsic;} - inline const INTEGER& bsic() const - {return field_bsic;} - inline INTEGER& mcc() - {return field_mcc;} - inline const INTEGER& mcc() const - {return field_mcc;} - inline INTEGER& mnc() - {return field_mnc;} - inline const INTEGER& mnc() const - {return field_mnc;} - inline INTEGER& mnc__3__digits() - {return field_mnc__3__digits;} - inline const INTEGER& mnc__3__digits() const - {return field_mnc__3__digits;} - inline INTEGER& lac() - {return field_lac;} - inline const INTEGER& lac() const - {return field_lac;} - inline INTEGER& rac() - {return field_rac;} - inline const INTEGER& rac() const - {return field_rac;} - inline INTEGER& nsei() - {return field_nsei;} - inline const INTEGER& nsei() const - {return field_nsei;} - inline PCUIF__info__ind_nse__timer& nse__timer() - {return field_nse__timer;} - inline const PCUIF__info__ind_nse__timer& nse__timer() const - {return field_nse__timer;} - inline PCUIF__info__ind_cell__timer& cell__timer() - {return field_cell__timer;} - inline const PCUIF__info__ind_cell__timer& cell__timer() const - {return field_cell__timer;} - inline INTEGER& cell__id() - {return field_cell__id;} - inline const INTEGER& cell__id() const - {return field_cell__id;} - inline INTEGER& repeat__time() - {return field_repeat__time;} - inline const INTEGER& repeat__time() const - {return field_repeat__time;} - inline INTEGER& repeat__count() - {return field_repeat__count;} - inline const INTEGER& repeat__count() const - {return field_repeat__count;} - inline INTEGER& bvci() - {return field_bvci;} - inline const INTEGER& bvci() const - {return field_bvci;} - inline INTEGER& t3142() - {return field_t3142;} - inline const INTEGER& t3142() const - {return field_t3142;} - inline INTEGER& t3169() - {return field_t3169;} - inline const INTEGER& t3169() const - {return field_t3169;} - inline INTEGER& t3191() - {return field_t3191;} - inline const INTEGER& t3191() const - {return field_t3191;} - inline INTEGER& t3193__10ms() - {return field_t3193__10ms;} - inline const INTEGER& t3193__10ms() const - {return field_t3193__10ms;} - inline INTEGER& t3195() - {return field_t3195;} - inline const INTEGER& t3195() const - {return field_t3195;} - inline INTEGER& t3101() - {return field_t3101;} - inline const INTEGER& t3101() const - {return field_t3101;} - inline INTEGER& t3103() - {return field_t3103;} - inline const INTEGER& t3103() const - {return field_t3103;} - inline INTEGER& t3105() - {return field_t3105;} - inline const INTEGER& t3105() const - {return field_t3105;} - inline INTEGER& cv__countdown() - {return field_cv__countdown;} - inline const INTEGER& cv__countdown() const - {return field_cv__countdown;} - inline INTEGER& dl__tbf__ext() - {return field_dl__tbf__ext;} - inline const INTEGER& dl__tbf__ext() const - {return field_dl__tbf__ext;} - inline INTEGER& ul__tbf__ext() - {return field_ul__tbf__ext;} - inline const INTEGER& ul__tbf__ext() const - {return field_ul__tbf__ext;} - inline INTEGER& initial__cs() - {return field_initial__cs;} - inline const INTEGER& initial__cs() const - {return field_initial__cs;} - inline INTEGER& initial__mcs() - {return field_initial__mcs;} - inline const INTEGER& initial__mcs() const - {return field_initial__mcs;} - inline PCUIF__info__ind_nsvci& nsvci() - {return field_nsvci;} - inline const PCUIF__info__ind_nsvci& nsvci() const - {return field_nsvci;} - inline PCUIF__info__ind_local__pprt& local__pprt() - {return field_local__pprt;} - inline const PCUIF__info__ind_local__pprt& local__pprt() const - {return field_local__pprt;} - inline PCUIF__info__ind_remote__port& remote__port() - {return field_remote__port;} - inline const PCUIF__info__ind_remote__port& remote__port() const - {return field_remote__port;} - inline PCUIF__info__ind_remote__ip& remote__ip() - {return field_remote__ip;} - inline const PCUIF__info__ind_remote__ip& remote__ip() const - {return field_remote__ip;} - inline int size_of() const - {return 33;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__info__ind_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__info__ind_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__info__ind& other_value); -void copy_template(const PCUIF__info__ind_template& other_value); - -public: -PCUIF__info__ind_template(); -PCUIF__info__ind_template(template_sel other_value); -PCUIF__info__ind_template(const PCUIF__info__ind& other_value); -PCUIF__info__ind_template(const OPTIONAL& other_value); -PCUIF__info__ind_template(const PCUIF__info__ind_template& other_value); -~PCUIF__info__ind_template(); -PCUIF__info__ind_template& operator=(template_sel other_value); -PCUIF__info__ind_template& operator=(const PCUIF__info__ind& other_value); -PCUIF__info__ind_template& operator=(const OPTIONAL& other_value); -PCUIF__info__ind_template& operator=(const PCUIF__info__ind_template& other_value); -boolean match(const PCUIF__info__ind& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__info__ind valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__info__ind_template& list_item(unsigned int list_index) const; -INTEGER_template& version(); -const INTEGER_template& version() const; -PCUIF__Flags_template& flags(); -const PCUIF__Flags_template& flags() const; -PCUIF__InfoTrxs_template& trx(); -const PCUIF__InfoTrxs_template& trx() const; -INTEGER_template& bsic(); -const INTEGER_template& bsic() const; -INTEGER_template& mcc(); -const INTEGER_template& mcc() const; -INTEGER_template& mnc(); -const INTEGER_template& mnc() const; -INTEGER_template& mnc__3__digits(); -const INTEGER_template& mnc__3__digits() const; -INTEGER_template& lac(); -const INTEGER_template& lac() const; -INTEGER_template& rac(); -const INTEGER_template& rac() const; -INTEGER_template& nsei(); -const INTEGER_template& nsei() const; -PCUIF__info__ind_nse__timer_template& nse__timer(); -const PCUIF__info__ind_nse__timer_template& nse__timer() const; -PCUIF__info__ind_cell__timer_template& cell__timer(); -const PCUIF__info__ind_cell__timer_template& cell__timer() const; -INTEGER_template& cell__id(); -const INTEGER_template& cell__id() const; -INTEGER_template& repeat__time(); -const INTEGER_template& repeat__time() const; -INTEGER_template& repeat__count(); -const INTEGER_template& repeat__count() const; -INTEGER_template& bvci(); -const INTEGER_template& bvci() const; -INTEGER_template& t3142(); -const INTEGER_template& t3142() const; -INTEGER_template& t3169(); -const INTEGER_template& t3169() const; -INTEGER_template& t3191(); -const INTEGER_template& t3191() const; -INTEGER_template& t3193__10ms(); -const INTEGER_template& t3193__10ms() const; -INTEGER_template& t3195(); -const INTEGER_template& t3195() const; -INTEGER_template& t3101(); -const INTEGER_template& t3101() const; -INTEGER_template& t3103(); -const INTEGER_template& t3103() const; -INTEGER_template& t3105(); -const INTEGER_template& t3105() const; -INTEGER_template& cv__countdown(); -const INTEGER_template& cv__countdown() const; -INTEGER_template& dl__tbf__ext(); -const INTEGER_template& dl__tbf__ext() const; -INTEGER_template& ul__tbf__ext(); -const INTEGER_template& ul__tbf__ext() const; -INTEGER_template& initial__cs(); -const INTEGER_template& initial__cs() const; -INTEGER_template& initial__mcs(); -const INTEGER_template& initial__mcs() const; -PCUIF__info__ind_nsvci_template& nsvci(); -const PCUIF__info__ind_nsvci_template& nsvci() const; -PCUIF__info__ind_local__pprt_template& local__pprt(); -const PCUIF__info__ind_local__pprt_template& local__pprt() const; -PCUIF__info__ind_remote__port_template& remote__port(); -const PCUIF__info__ind_remote__port_template& remote__port() const; -PCUIF__info__ind_remote__ip_template& remote__ip(); -const PCUIF__info__ind_remote__ip_template& remote__ip() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__info__ind& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__act__req : public Base_Type { - INTEGER field_is__activate; - INTEGER field_trx__nr; - INTEGER field_ts__nr; - OCTETSTRING field_spare; -public: - PCUIF__act__req(); - PCUIF__act__req(const INTEGER& par_is__activate, - const INTEGER& par_trx__nr, - const INTEGER& par_ts__nr, - const OCTETSTRING& par_spare); - PCUIF__act__req(const PCUIF__act__req& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__act__req& operator=(const PCUIF__act__req& other_value); - boolean operator==(const PCUIF__act__req& other_value) const; - inline boolean operator!=(const PCUIF__act__req& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& is__activate() - {return field_is__activate;} - inline const INTEGER& is__activate() const - {return field_is__activate;} - inline INTEGER& trx__nr() - {return field_trx__nr;} - inline const INTEGER& trx__nr() const - {return field_trx__nr;} - inline INTEGER& ts__nr() - {return field_ts__nr;} - inline const INTEGER& ts__nr() const - {return field_ts__nr;} - inline OCTETSTRING& spare() - {return field_spare;} - inline const OCTETSTRING& spare() const - {return field_spare;} - inline int size_of() const - {return 4;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__act__req_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__act__req_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__act__req& other_value); -void copy_template(const PCUIF__act__req_template& other_value); - -public: -PCUIF__act__req_template(); -PCUIF__act__req_template(template_sel other_value); -PCUIF__act__req_template(const PCUIF__act__req& other_value); -PCUIF__act__req_template(const OPTIONAL& other_value); -PCUIF__act__req_template(const PCUIF__act__req_template& other_value); -~PCUIF__act__req_template(); -PCUIF__act__req_template& operator=(template_sel other_value); -PCUIF__act__req_template& operator=(const PCUIF__act__req& other_value); -PCUIF__act__req_template& operator=(const OPTIONAL& other_value); -PCUIF__act__req_template& operator=(const PCUIF__act__req_template& other_value); -boolean match(const PCUIF__act__req& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__act__req valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__act__req_template& list_item(unsigned int list_index) const; -INTEGER_template& is__activate(); -const INTEGER_template& is__activate() const; -INTEGER_template& trx__nr(); -const INTEGER_template& trx__nr() const; -INTEGER_template& ts__nr(); -const INTEGER_template& ts__nr() const; -OCTETSTRING_template& spare(); -const OCTETSTRING_template& spare() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__act__req& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__time__ind : public Base_Type { - INTEGER field_fn; -public: - PCUIF__time__ind(); - PCUIF__time__ind(const INTEGER& par_fn); - PCUIF__time__ind(const PCUIF__time__ind& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__time__ind& operator=(const PCUIF__time__ind& other_value); - boolean operator==(const PCUIF__time__ind& other_value) const; - inline boolean operator!=(const PCUIF__time__ind& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline INTEGER& fn() - {return field_fn;} - inline const INTEGER& fn() const - {return field_fn;} - inline int size_of() const - {return 1;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__time__ind_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__time__ind_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__time__ind& other_value); -void copy_template(const PCUIF__time__ind_template& other_value); - -public: -PCUIF__time__ind_template(); -PCUIF__time__ind_template(template_sel other_value); -PCUIF__time__ind_template(const PCUIF__time__ind& other_value); -PCUIF__time__ind_template(const OPTIONAL& other_value); -PCUIF__time__ind_template(const PCUIF__time__ind_template& other_value); -~PCUIF__time__ind_template(); -PCUIF__time__ind_template& operator=(template_sel other_value); -PCUIF__time__ind_template& operator=(const PCUIF__time__ind& other_value); -PCUIF__time__ind_template& operator=(const OPTIONAL& other_value); -PCUIF__time__ind_template& operator=(const PCUIF__time__ind_template& other_value); -boolean match(const PCUIF__time__ind& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__time__ind valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__time__ind_template& list_item(unsigned int list_index) const; -INTEGER_template& fn(); -const INTEGER_template& fn() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__time__ind& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__pag__req : public Base_Type { - PCUIF__Sapi field_sapi; - INTEGER field_chan__needed; - OCTETSTRING field_identity__lv; -public: - PCUIF__pag__req(); - PCUIF__pag__req(const PCUIF__Sapi& par_sapi, - const INTEGER& par_chan__needed, - const OCTETSTRING& par_identity__lv); - PCUIF__pag__req(const PCUIF__pag__req& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__pag__req& operator=(const PCUIF__pag__req& other_value); - boolean operator==(const PCUIF__pag__req& other_value) const; - inline boolean operator!=(const PCUIF__pag__req& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline PCUIF__Sapi& sapi() - {return field_sapi;} - inline const PCUIF__Sapi& sapi() const - {return field_sapi;} - inline INTEGER& chan__needed() - {return field_chan__needed;} - inline const INTEGER& chan__needed() const - {return field_chan__needed;} - inline OCTETSTRING& identity__lv() - {return field_identity__lv;} - inline const OCTETSTRING& identity__lv() const - {return field_identity__lv;} - inline int size_of() const - {return 3;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__pag__req_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__pag__req_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__pag__req& other_value); -void copy_template(const PCUIF__pag__req_template& other_value); - -public: -PCUIF__pag__req_template(); -PCUIF__pag__req_template(template_sel other_value); -PCUIF__pag__req_template(const PCUIF__pag__req& other_value); -PCUIF__pag__req_template(const OPTIONAL& other_value); -PCUIF__pag__req_template(const PCUIF__pag__req_template& other_value); -~PCUIF__pag__req_template(); -PCUIF__pag__req_template& operator=(template_sel other_value); -PCUIF__pag__req_template& operator=(const PCUIF__pag__req& other_value); -PCUIF__pag__req_template& operator=(const OPTIONAL& other_value); -PCUIF__pag__req_template& operator=(const PCUIF__pag__req_template& other_value); -boolean match(const PCUIF__pag__req& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__pag__req valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__pag__req_template& list_item(unsigned int list_index) const; -PCUIF__Sapi_template& sapi(); -const PCUIF__Sapi_template& sapi() const; -INTEGER_template& chan__needed(); -const INTEGER_template& chan__needed() const; -OCTETSTRING_template& identity__lv(); -const OCTETSTRING_template& identity__lv() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__pag__req& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__susp__req : public Base_Type { - OCTETSTRING field_tlli; - OCTETSTRING field_ra__id; - INTEGER field_cause; -public: - PCUIF__susp__req(); - PCUIF__susp__req(const OCTETSTRING& par_tlli, - const OCTETSTRING& par_ra__id, - const INTEGER& par_cause); - PCUIF__susp__req(const PCUIF__susp__req& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__susp__req& operator=(const PCUIF__susp__req& other_value); - boolean operator==(const PCUIF__susp__req& other_value) const; - inline boolean operator!=(const PCUIF__susp__req& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline OCTETSTRING& tlli() - {return field_tlli;} - inline const OCTETSTRING& tlli() const - {return field_tlli;} - inline OCTETSTRING& ra__id() - {return field_ra__id;} - inline const OCTETSTRING& ra__id() const - {return field_ra__id;} - inline INTEGER& cause() - {return field_cause;} - inline const INTEGER& cause() const - {return field_cause;} - inline int size_of() const - {return 3;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__susp__req_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__susp__req_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__susp__req& other_value); -void copy_template(const PCUIF__susp__req_template& other_value); - -public: -PCUIF__susp__req_template(); -PCUIF__susp__req_template(template_sel other_value); -PCUIF__susp__req_template(const PCUIF__susp__req& other_value); -PCUIF__susp__req_template(const OPTIONAL& other_value); -PCUIF__susp__req_template(const PCUIF__susp__req_template& other_value); -~PCUIF__susp__req_template(); -PCUIF__susp__req_template& operator=(template_sel other_value); -PCUIF__susp__req_template& operator=(const PCUIF__susp__req& other_value); -PCUIF__susp__req_template& operator=(const OPTIONAL& other_value); -PCUIF__susp__req_template& operator=(const PCUIF__susp__req_template& other_value); -boolean match(const PCUIF__susp__req& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__susp__req valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__susp__req_template& list_item(unsigned int list_index) const; -OCTETSTRING_template& tlli(); -const OCTETSTRING_template& tlli() const; -OCTETSTRING_template& ra__id(); -const OCTETSTRING_template& ra__id() const; -INTEGER_template& cause(); -const INTEGER_template& cause() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__susp__req& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - -class PCUIF__MsgUnion : public Base_Type { -public: -enum union_selection_type { UNBOUND_VALUE = 0, ALT_data__req = 1, ALT_data__cnf = 2, ALT_data__cnf__dt = 3, ALT_data__ind = 4, ALT_susp__req = 5, ALT_rts__req = 6, ALT_rach__ind = 7, ALT_txt__ind = 8, ALT_info__ind = 9, ALT_act__req = 10, ALT_time__ind = 11, ALT_pag__req = 12 }; -private: -union_selection_type union_selection; -union { -PCUIF__data *field_data__req; -PCUIF__data *field_data__cnf; -PCUIF__data__cnf__dt *field_data__cnf__dt; -PCUIF__data *field_data__ind; -PCUIF__susp__req *field_susp__req; -PCUIF__rts__req *field_rts__req; -PCUIF__rach__ind *field_rach__ind; -PCUIF__txt__ind *field_txt__ind; -PCUIF__info__ind *field_info__ind; -PCUIF__act__req *field_act__req; -PCUIF__time__ind *field_time__ind; -PCUIF__pag__req *field_pag__req; -}; -void copy_value(const PCUIF__MsgUnion& other_value); - -public: -PCUIF__MsgUnion(); -PCUIF__MsgUnion(const PCUIF__MsgUnion& other_value); -~PCUIF__MsgUnion(); -PCUIF__MsgUnion& operator=(const PCUIF__MsgUnion& other_value); -boolean operator==(const PCUIF__MsgUnion& other_value) const; -inline boolean operator!=(const PCUIF__MsgUnion& other_value) const { return !(*this == other_value); } -PCUIF__data& data__req(); -const PCUIF__data& data__req() const; -PCUIF__data& data__cnf(); -const PCUIF__data& data__cnf() const; -PCUIF__data__cnf__dt& data__cnf__dt(); -const PCUIF__data__cnf__dt& data__cnf__dt() const; -PCUIF__data& data__ind(); -const PCUIF__data& data__ind() const; -PCUIF__susp__req& susp__req(); -const PCUIF__susp__req& susp__req() const; -PCUIF__rts__req& rts__req(); -const PCUIF__rts__req& rts__req() const; -PCUIF__rach__ind& rach__ind(); -const PCUIF__rach__ind& rach__ind() const; -PCUIF__txt__ind& txt__ind(); -const PCUIF__txt__ind& txt__ind() const; -PCUIF__info__ind& info__ind(); -const PCUIF__info__ind& info__ind() const; -PCUIF__act__req& act__req(); -const PCUIF__act__req& act__req() const; -PCUIF__time__ind& time__ind(); -const PCUIF__time__ind& time__ind() const; -PCUIF__pag__req& pag__req(); -const PCUIF__pag__req& pag__req() const; -inline union_selection_type get_selection() const { return union_selection; } -boolean ischosen(union_selection_type checked_selection) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -inline boolean is_present() const { return is_bound(); } -void log() const; -void set_param(Module_Param& param); - void set_implicit_omit(); -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__MsgUnion_template : public Base_Template { -union { -struct { -PCUIF__MsgUnion::union_selection_type union_selection; -union { -PCUIF__data_template *field_data__req; -PCUIF__data_template *field_data__cnf; -PCUIF__data__cnf__dt_template *field_data__cnf__dt; -PCUIF__data_template *field_data__ind; -PCUIF__susp__req_template *field_susp__req; -PCUIF__rts__req_template *field_rts__req; -PCUIF__rach__ind_template *field_rach__ind; -PCUIF__txt__ind_template *field_txt__ind; -PCUIF__info__ind_template *field_info__ind; -PCUIF__act__req_template *field_act__req; -PCUIF__time__ind_template *field_time__ind; -PCUIF__pag__req_template *field_pag__req; -}; -} single_value; -struct { -unsigned int n_values; -PCUIF__MsgUnion_template *list_value; -} value_list; -}; -void copy_value(const PCUIF__MsgUnion& other_value); - -void copy_template(const PCUIF__MsgUnion_template& other_value); - -public: -PCUIF__MsgUnion_template(); -PCUIF__MsgUnion_template(template_sel other_value); -PCUIF__MsgUnion_template(const PCUIF__MsgUnion& other_value); -PCUIF__MsgUnion_template(const OPTIONAL& other_value); -PCUIF__MsgUnion_template(const PCUIF__MsgUnion_template& other_value); -~PCUIF__MsgUnion_template(); -void clean_up(); -PCUIF__MsgUnion_template& operator=(template_sel other_value); -PCUIF__MsgUnion_template& operator=(const PCUIF__MsgUnion& other_value); -PCUIF__MsgUnion_template& operator=(const OPTIONAL& other_value); -PCUIF__MsgUnion_template& operator=(const PCUIF__MsgUnion_template& other_value); -boolean match(const PCUIF__MsgUnion& other_value, boolean legacy = FALSE) const; -boolean is_value() const;PCUIF__MsgUnion valueof() const; -PCUIF__MsgUnion_template& list_item(unsigned int list_index) const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__data_template& data__req(); -const PCUIF__data_template& data__req() const; -PCUIF__data_template& data__cnf(); -const PCUIF__data_template& data__cnf() const; -PCUIF__data__cnf__dt_template& data__cnf__dt(); -const PCUIF__data__cnf__dt_template& data__cnf__dt() const; -PCUIF__data_template& data__ind(); -const PCUIF__data_template& data__ind() const; -PCUIF__susp__req_template& susp__req(); -const PCUIF__susp__req_template& susp__req() const; -PCUIF__rts__req_template& rts__req(); -const PCUIF__rts__req_template& rts__req() const; -PCUIF__rach__ind_template& rach__ind(); -const PCUIF__rach__ind_template& rach__ind() const; -PCUIF__txt__ind_template& txt__ind(); -const PCUIF__txt__ind_template& txt__ind() const; -PCUIF__info__ind_template& info__ind(); -const PCUIF__info__ind_template& info__ind() const; -PCUIF__act__req_template& act__req(); -const PCUIF__act__req_template& act__req() const; -PCUIF__time__ind_template& time__ind(); -const PCUIF__time__ind_template& time__ind() const; -PCUIF__pag__req_template& pag__req(); -const PCUIF__pag__req_template& pag__req() const; -boolean ischosen(PCUIF__MsgUnion::union_selection_type checked_selection) const; -void log() const; -void log_match(const PCUIF__MsgUnion& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -}; - -class PCUIF__Message : public Base_Type { - PCUIF__MsgType field_msg__type; - INTEGER field_bts__nr; - OCTETSTRING field_spare; - PCUIF__MsgUnion field_u; -public: - PCUIF__Message(); - PCUIF__Message(const PCUIF__MsgType& par_msg__type, - const INTEGER& par_bts__nr, - const OCTETSTRING& par_spare, - const PCUIF__MsgUnion& par_u); - PCUIF__Message(const PCUIF__Message& other_value); - inline boolean is_component() { return FALSE; } - void clean_up(); -const TTCN_Typedescriptor_t* get_descriptor() const; - PCUIF__Message& operator=(const PCUIF__Message& other_value); - boolean operator==(const PCUIF__Message& other_value) const; - inline boolean operator!=(const PCUIF__Message& other_value) const - { return !(*this == other_value); } - - boolean is_bound() const; - -inline boolean is_present() const { return is_bound(); } - boolean is_value() const; - - inline PCUIF__MsgType& msg__type() - {return field_msg__type;} - inline const PCUIF__MsgType& msg__type() const - {return field_msg__type;} - inline INTEGER& bts__nr() - {return field_bts__nr;} - inline const INTEGER& bts__nr() const - {return field_bts__nr;} - inline OCTETSTRING& spare() - {return field_spare;} - inline const OCTETSTRING& spare() const - {return field_spare;} - inline PCUIF__MsgUnion& u() - {return field_u;} - inline const PCUIF__MsgUnion& u() const - {return field_u;} - inline int size_of() const - {return 4;} - void log() const; - void set_param(Module_Param& param); - void set_implicit_omit(); - void encode_text(Text_Buf& text_buf) const; - void decode_text(Text_Buf& text_buf); -void encode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...) const; -void decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, TTCN_EncDec::coding_t, ...); -int RAW_encode(const TTCN_Typedescriptor_t&, RAW_enc_tree&) const; -int RAW_decode(const TTCN_Typedescriptor_t&, TTCN_Buffer&, int, raw_order_t, boolean no_err=FALSE,int sel_field=-1, boolean first_call=TRUE, const RAW_Force_Omit* force_omit = NULL); -}; - -class PCUIF__Message_template : public Base_Template { -struct single_value_struct; -union { -single_value_struct *single_value; -struct { -unsigned int n_values; -PCUIF__Message_template *list_value; -} value_list; -}; - -void set_specific(); -void copy_value(const PCUIF__Message& other_value); -void copy_template(const PCUIF__Message_template& other_value); - -public: -PCUIF__Message_template(); -PCUIF__Message_template(template_sel other_value); -PCUIF__Message_template(const PCUIF__Message& other_value); -PCUIF__Message_template(const OPTIONAL& other_value); -PCUIF__Message_template(const PCUIF__Message_template& other_value); -~PCUIF__Message_template(); -PCUIF__Message_template& operator=(template_sel other_value); -PCUIF__Message_template& operator=(const PCUIF__Message& other_value); -PCUIF__Message_template& operator=(const OPTIONAL& other_value); -PCUIF__Message_template& operator=(const PCUIF__Message_template& other_value); -boolean match(const PCUIF__Message& other_value, boolean legacy = FALSE) const; -boolean is_bound() const; -boolean is_value() const; -void clean_up(); -PCUIF__Message valueof() const; -void set_type(template_sel template_type, unsigned int list_length); -PCUIF__Message_template& list_item(unsigned int list_index) const; -PCUIF__MsgType_template& msg__type(); -const PCUIF__MsgType_template& msg__type() const; -INTEGER_template& bts__nr(); -const INTEGER_template& bts__nr() const; -OCTETSTRING_template& spare(); -const OCTETSTRING_template& spare() const; -PCUIF__MsgUnion_template& u(); -const PCUIF__MsgUnion_template& u() const; -int size_of() const; -void log() const; -void log_match(const PCUIF__Message& match_value, boolean legacy = FALSE) const; -void encode_text(Text_Buf& text_buf) const; -void decode_text(Text_Buf& text_buf); -void set_param(Module_Param& param); -void check_restriction(template_res t_res, const char* t_name=NULL, boolean legacy = FALSE) const; -boolean is_present(boolean legacy = FALSE) const; -boolean match_omit(boolean legacy = FALSE) const; -}; - - -/* Function prototypes */ - -extern void PCUIF__MsgType_encoder(const PCUIF__MsgType& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgType_decoder(OCTETSTRING& input_stream, PCUIF__MsgType& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Sapi_encoder(const PCUIF__Sapi& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Sapi_decoder(OCTETSTRING& input_stream, PCUIF__Sapi& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_bts__active_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_bts__active_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_sysmo__direct__dsp_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_sysmo__direct__dsp_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_spare_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_spare_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_cs1_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_cs1_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_cs2_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_cs2_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_cs3_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_cs3_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_cs4_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_cs4_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_mcs1_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_mcs1_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_mcs2_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_mcs2_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_mcs3_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_mcs3_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_mcs4_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_mcs4_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_mcs5_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_mcs5_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_mcs6_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_mcs6_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_mcs7_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_mcs7_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_mcs8_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_mcs8_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_mcs9_encoder(const BOOLEAN& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_mcs9_decoder(OCTETSTRING& input_stream, BOOLEAN& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_spare2_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_spare2_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Flags_encoder(const PCUIF__Flags& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Flags_decoder(OCTETSTRING& input_stream, PCUIF__Flags& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__TextType_encoder(const PCUIF__TextType& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__TextType_decoder(OCTETSTRING& input_stream, PCUIF__TextType& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Text_encoder(const CHARSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Text_decoder(OCTETSTRING& input_stream, CHARSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__txt__ind_txt__type_encoder(const PCUIF__TextType& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__txt__ind_txt__type_decoder(OCTETSTRING& input_stream, PCUIF__TextType& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__txt__ind_text_encoder(const CHARSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__txt__ind_text_decoder(OCTETSTRING& input_stream, CHARSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__txt__ind_encoder(const PCUIF__txt__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__txt__ind_decoder(OCTETSTRING& input_stream, PCUIF__txt__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void OCT162_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER OCT162_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_sapi_encoder(const PCUIF__Sapi& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_sapi_decoder(OCTETSTRING& input_stream, PCUIF__Sapi& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_len_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_len_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_data_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_data_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_fn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_fn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_arfcn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_arfcn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_trx__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_trx__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_ts__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_ts__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_block__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_block__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_rssi_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_rssi_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_ber10k_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_ber10k_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_ta__offs__qbits_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_ta__offs__qbits_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_lqual__cb_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_lqual__cb_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data_encoder(const PCUIF__data& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data_decoder(OCTETSTRING& input_stream, PCUIF__data& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_sapi_encoder(const PCUIF__Sapi& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_sapi_decoder(OCTETSTRING& input_stream, PCUIF__Sapi& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_tlli_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_tlli_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_fn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_fn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_arfcn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_arfcn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_trx__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_trx__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_ts__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_ts__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_block__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_block__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_rssi_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_rssi_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_ber10k_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_ber10k_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_ta__offs__qbits_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_ta__offs__qbits_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_lqual__cb_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_lqual__cb_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__data__cnf__dt_encoder(const PCUIF__data__cnf__dt& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__data__cnf__dt_decoder(OCTETSTRING& input_stream, PCUIF__data__cnf__dt& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rts__req_sapi_encoder(const PCUIF__Sapi& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rts__req_sapi_decoder(OCTETSTRING& input_stream, PCUIF__Sapi& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rts__req_spare_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rts__req_spare_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rts__req_fn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rts__req_fn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rts__req_arfcn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rts__req_arfcn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rts__req_trx__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rts__req_trx__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rts__req_ts__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rts__req_ts__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rts__req_block__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rts__req_block__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rts__req_encoder(const PCUIF__rts__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rts__req_decoder(OCTETSTRING& input_stream, PCUIF__rts__req& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__BurstType_encoder(const PCUIF__BurstType& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__BurstType_decoder(OCTETSTRING& input_stream, PCUIF__BurstType& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rach__ind_sapi_encoder(const PCUIF__Sapi& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rach__ind_sapi_decoder(OCTETSTRING& input_stream, PCUIF__Sapi& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rach__ind_ra_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rach__ind_ra_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rach__ind_qta_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rach__ind_qta_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rach__ind_fn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rach__ind_fn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rach__ind_arfcn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rach__ind_arfcn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rach__ind_is__11bit_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rach__ind_is__11bit_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rach__ind_burst__type_encoder(const PCUIF__BurstType& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rach__ind_burst__type_decoder(OCTETSTRING& input_stream, PCUIF__BurstType& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__rach__ind_encoder(const PCUIF__rach__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__rach__ind_decoder(OCTETSTRING& input_stream, PCUIF__rach__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__InfoTrx_arfcn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__InfoTrx_arfcn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__InfoTrx_pdch__mask_encoder(const BITSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__InfoTrx_pdch__mask_decoder(OCTETSTRING& input_stream, BITSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__InfoTrx_spare_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__InfoTrx_spare_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__InfoTrx_tsc_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__InfoTrx_tsc_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__InfoTrx_hLayer1_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__InfoTrx_hLayer1_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__InfoTrx_encoder(const PCUIF__InfoTrx& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__InfoTrx_decoder(OCTETSTRING& input_stream, PCUIF__InfoTrx& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern boolean operator==(null_type null_value, const PCUIF__InfoTrxs& other_value); -inline boolean operator!=(null_type null_value, const PCUIF__InfoTrxs& other_value) { return !(null_value == other_value); } -extern void PCUIF__InfoTrxs_0_encoder(const PCUIF__InfoTrx& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__InfoTrxs_0_decoder(OCTETSTRING& input_stream, PCUIF__InfoTrx& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__InfoTrxs_encoder(const PCUIF__InfoTrxs& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__InfoTrxs_decoder(OCTETSTRING& input_stream, PCUIF__InfoTrxs& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_version_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_version_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_flags_encoder(const PCUIF__Flags& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_flags_decoder(OCTETSTRING& input_stream, PCUIF__Flags& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_trx_encoder(const PCUIF__InfoTrxs& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_trx_decoder(OCTETSTRING& input_stream, PCUIF__InfoTrxs& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_bsic_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_bsic_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_mcc_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_mcc_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_mnc_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_mnc_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_mnc__3__digits_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_mnc__3__digits_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_lac_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_lac_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_rac_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_rac_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_nsei_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_nsei_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_nse__timer_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_nse__timer_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_nse__timer_encoder(const PCUIF__info__ind_nse__timer& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_nse__timer_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_nse__timer& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_cell__timer_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_cell__timer_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_cell__timer_encoder(const PCUIF__info__ind_cell__timer& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_cell__timer_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_cell__timer& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_cell__id_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_cell__id_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_repeat__time_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_repeat__time_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_repeat__count_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_repeat__count_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_bvci_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_bvci_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_t3142_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_t3142_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_t3169_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_t3169_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_t3191_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_t3191_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_t3193__10ms_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_t3193__10ms_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_t3195_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_t3195_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_t3101_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_t3101_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_t3103_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_t3103_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_t3105_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_t3105_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_cv__countdown_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_cv__countdown_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_dl__tbf__ext_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_dl__tbf__ext_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_ul__tbf__ext_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_ul__tbf__ext_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_initial__cs_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_initial__cs_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_initial__mcs_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_initial__mcs_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_nsvci_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_nsvci_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_nsvci_encoder(const PCUIF__info__ind_nsvci& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_nsvci_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_nsvci& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_local__pprt_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_local__pprt_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_local__pprt_encoder(const PCUIF__info__ind_local__pprt& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_local__pprt_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_local__pprt& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_remote__port_0_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_remote__port_0_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_remote__port_encoder(const PCUIF__info__ind_remote__port& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_remote__port_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_remote__port& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_remote__ip_0_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_remote__ip_0_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_remote__ip_encoder(const PCUIF__info__ind_remote__ip& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_remote__ip_decoder(OCTETSTRING& input_stream, PCUIF__info__ind_remote__ip& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__info__ind_encoder(const PCUIF__info__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__info__ind_decoder(OCTETSTRING& input_stream, PCUIF__info__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__act__req_is__activate_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__act__req_is__activate_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__act__req_trx__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__act__req_trx__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__act__req_ts__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__act__req_ts__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__act__req_spare_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__act__req_spare_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__act__req_encoder(const PCUIF__act__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__act__req_decoder(OCTETSTRING& input_stream, PCUIF__act__req& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__time__ind_fn_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__time__ind_fn_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__time__ind_encoder(const PCUIF__time__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__time__ind_decoder(OCTETSTRING& input_stream, PCUIF__time__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__pag__req_sapi_encoder(const PCUIF__Sapi& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__pag__req_sapi_decoder(OCTETSTRING& input_stream, PCUIF__Sapi& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__pag__req_chan__needed_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__pag__req_chan__needed_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__pag__req_identity__lv_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__pag__req_identity__lv_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__pag__req_encoder(const PCUIF__pag__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__pag__req_decoder(OCTETSTRING& input_stream, PCUIF__pag__req& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__susp__req_tlli_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__susp__req_tlli_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__susp__req_ra__id_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__susp__req_ra__id_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__susp__req_cause_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__susp__req_cause_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__susp__req_encoder(const PCUIF__susp__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__susp__req_decoder(OCTETSTRING& input_stream, PCUIF__susp__req& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_data__req_encoder(const PCUIF__data& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_data__req_decoder(OCTETSTRING& input_stream, PCUIF__data& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_data__cnf_encoder(const PCUIF__data& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_data__cnf_decoder(OCTETSTRING& input_stream, PCUIF__data& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_data__cnf__dt_encoder(const PCUIF__data__cnf__dt& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_data__cnf__dt_decoder(OCTETSTRING& input_stream, PCUIF__data__cnf__dt& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_data__ind_encoder(const PCUIF__data& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_data__ind_decoder(OCTETSTRING& input_stream, PCUIF__data& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_susp__req_encoder(const PCUIF__susp__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_susp__req_decoder(OCTETSTRING& input_stream, PCUIF__susp__req& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_rts__req_encoder(const PCUIF__rts__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_rts__req_decoder(OCTETSTRING& input_stream, PCUIF__rts__req& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_rach__ind_encoder(const PCUIF__rach__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_rach__ind_decoder(OCTETSTRING& input_stream, PCUIF__rach__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_txt__ind_encoder(const PCUIF__txt__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_txt__ind_decoder(OCTETSTRING& input_stream, PCUIF__txt__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_info__ind_encoder(const PCUIF__info__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_info__ind_decoder(OCTETSTRING& input_stream, PCUIF__info__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_act__req_encoder(const PCUIF__act__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_act__req_decoder(OCTETSTRING& input_stream, PCUIF__act__req& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_time__ind_encoder(const PCUIF__time__ind& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_time__ind_decoder(OCTETSTRING& input_stream, PCUIF__time__ind& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_pag__req_encoder(const PCUIF__pag__req& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_pag__req_decoder(OCTETSTRING& input_stream, PCUIF__pag__req& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__MsgUnion_encoder(const PCUIF__MsgUnion& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__MsgUnion_decoder(OCTETSTRING& input_stream, PCUIF__MsgUnion& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Message_msg__type_encoder(const PCUIF__MsgType& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Message_msg__type_decoder(OCTETSTRING& input_stream, PCUIF__MsgType& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Message_bts__nr_encoder(const INTEGER& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Message_bts__nr_decoder(OCTETSTRING& input_stream, INTEGER& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Message_spare_encoder(const OCTETSTRING& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Message_spare_decoder(OCTETSTRING& input_stream, OCTETSTRING& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Message_u_encoder(const PCUIF__MsgUnion& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Message_u_decoder(OCTETSTRING& input_stream, PCUIF__MsgUnion& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern void PCUIF__Message_encoder(const PCUIF__Message& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name); -extern INTEGER PCUIF__Message_decoder(OCTETSTRING& input_stream, PCUIF__Message& output_value, const UNIVERSAL_CHARSTRING& coding_name); -extern OCTETSTRING enc__PCUIF__Message(const PCUIF__Message& pdu); -extern PCUIF__Message dec__PCUIF__Message(const OCTETSTRING& stream); -extern PCUIF__Message_template ts__PCUIF__RTS__REQ(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const PCUIF__Sapi_template& sapi, const INTEGER_template& fn, const INTEGER_template& arfcn, const INTEGER_template& block__nr); -extern PCUIF__Message_template tr__PCUIF__RTS__REQ(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const PCUIF__Sapi_template& sapi, const INTEGER_template& fn, const INTEGER_template& block__nr); -extern PCUIF__Message_template ts__PCUIF__TXT__IND(const INTEGER& bts__nr, const PCUIF__TextType& tt, const CHARSTRING& text); -extern PCUIF__Message_template tr__PCUIF__TXT__IND(const INTEGER_template& bts__nr, const PCUIF__TextType_template& tt, const CHARSTRING_template& text); -extern PCUIF__Message_template ts__PCUIF__ACT__REQ(const INTEGER& bts__nr, const INTEGER& trx__nr, const INTEGER& ts__nr); -extern PCUIF__Message_template tr__PCUIF__ACT__REQ(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr); -extern PCUIF__Message_template ts__PCUIF__DEACT__REQ(const INTEGER& bts__nr, const INTEGER& trx__nr, const INTEGER& ts__nr); -extern PCUIF__Message_template tr__PCUIF__DEACT__REQ(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr); -extern PCUIF__Message_template ts__PCUIF__DATA__IND(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const INTEGER_template& block__nr, const PCUIF__Sapi_template& sapi, const OCTETSTRING_template& data, const INTEGER_template& fn, const INTEGER_template& arfcn, const INTEGER_template& rssi, const INTEGER_template& ber10k, const INTEGER_template& ta__offs__qbits, const INTEGER_template& lqual__cb); -extern PCUIF__Message_template tr__PCUIF__DATA__IND(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const INTEGER_template& block__nr, const PCUIF__Sapi_template& sapi, const OCTETSTRING_template& data); -extern PCUIF__Message_template ts__PCUIF__DATA__REQ(const INTEGER& bts__nr, const INTEGER& trx__nr, const INTEGER& ts__nr, const INTEGER& block__nr, const INTEGER& fn, const PCUIF__Sapi& sapi, const OCTETSTRING& data); -extern PCUIF__Message_template tr__PCUIF__DATA__REQ(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const INTEGER_template& block__nr, const INTEGER_template& fn, const PCUIF__Sapi_template& sapi, const OCTETSTRING_template& data); -extern PCUIF__Message_template ts__PCUIF__DATA__CNF(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const INTEGER_template& block__nr, const INTEGER_template& fn, const INTEGER_template& arfcn, const PCUIF__Sapi_template& sapi, const OCTETSTRING_template& data); -extern PCUIF__Message_template tr__PCUIF__DATA__CNF(const INTEGER_template& bts__nr, const INTEGER_template& trx__nr, const INTEGER_template& ts__nr, const PCUIF__Sapi_template& sapi, const OCTETSTRING_template& data); -extern PCUIF__Message_template ts__PCUIF__RACH__IND(const INTEGER_template& bts__nr, const INTEGER_template& ra, const INTEGER_template& is__11bit, const PCUIF__BurstType_template& burst__type, const INTEGER_template& fn, const INTEGER_template& arfcn, const INTEGER_template& qta); -extern PCUIF__Message_template tr__PCUIF__RACH__IND(const INTEGER_template& bts__nr, const INTEGER_template& ra, const INTEGER_template& is__11bit, const PCUIF__BurstType_template& burst__type, const INTEGER_template& fn); -extern PCUIF__Message_template ts__PCUIF__PAG__REQ(const INTEGER_template& bts__nr, const OCTETSTRING_template& id__lv, const INTEGER_template& chan__needed, const PCUIF__Sapi_template& sapi); -extern PCUIF__Message_template tr__PCUIF__PAG__REQ(const INTEGER_template& bts__nr, const OCTETSTRING_template& id__lv, const INTEGER_template& chan__needed, const PCUIF__Sapi_template& ); -extern PCUIF__InfoTrx_template ts__PCUIF__InfoTrx(const INTEGER_template& arfcn, const BITSTRING_template& pdch__mask, const OCTETSTRING& tsc); -extern PCUIF__Message_template ts__PCUIF__INFO__IND(const INTEGER_template& bts__nr, const INTEGER_template& nsei, const INTEGER_template& nsvci, const INTEGER_template& bvci, const INTEGER_template& local__port, const INTEGER_template& remote__port, const OCTETSTRING_template& remote__ip, const PCUIF__Flags_template& flags, const INTEGER_template& mcc, const INTEGER_template& mnc, const INTEGER_template& lac, const INTEGER_template& rac, const INTEGER_template& cell__id, const INTEGER_template& bsic, const PCUIF__InfoTrxs_template& trx, const INTEGER_template& version); -extern PCUIF__Message_template tr__PCUIF__INFO__IND(const INTEGER_template& bts__nr, const PCUIF__Flags_template& flags, const INTEGER_template& version); -extern PCUIF__Message_template ts__PCUIF__TIME__IND(const INTEGER_template& bts__nr, const INTEGER_template& fn); -extern PCUIF__Message_template tr__PCUIF__TIME__IND(const INTEGER_template& bts__nr, const INTEGER_template& fn); -extern PCUIF__Message_template ts__PCUIF__SUSP__REQ(const INTEGER_template& bts__nr, const OCTETSTRING_template& tlli, const OCTETSTRING_template& ra__id, const INTEGER_template& cause); -extern PCUIF__Message_template tr__PCUIF__SUSP__REQ(const INTEGER_template& bts__nr, const OCTETSTRING_template& tlli, const OCTETSTRING_template& ra__id, const INTEGER_template& cause); - -/* Global variable declarations */ - -extern const CHARSTRING& PCU__SOCK__DEFAULT; -extern const INTEGER& PCU__IF__VERSION; -extern const TTCN_RAWdescriptor_t PCUIF__MsgType_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgType_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgType_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Sapi_raw_; -extern const TTCN_Typedescriptor_t PCUIF__Sapi_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Sapi_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_bts__active_raw_; -extern const XERdescriptor_t PCUIF__Flags_bts__active_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_bts__active_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_bts__active_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_bts__active_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_sysmo__direct__dsp_raw_; -extern const XERdescriptor_t PCUIF__Flags_sysmo__direct__dsp_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_sysmo__direct__dsp_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_sysmo__direct__dsp_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_sysmo__direct__dsp_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_spare_raw_; -extern const XERdescriptor_t PCUIF__Flags_spare_xer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_spare_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_spare_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_cs1_raw_; -extern const XERdescriptor_t PCUIF__Flags_cs1_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_cs1_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_cs1_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_cs1_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_cs2_raw_; -extern const XERdescriptor_t PCUIF__Flags_cs2_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_cs2_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_cs2_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_cs2_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_cs3_raw_; -extern const XERdescriptor_t PCUIF__Flags_cs3_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_cs3_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_cs3_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_cs3_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_cs4_raw_; -extern const XERdescriptor_t PCUIF__Flags_cs4_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_cs4_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_cs4_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_cs4_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_mcs1_raw_; -extern const XERdescriptor_t PCUIF__Flags_mcs1_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_mcs1_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_mcs1_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_mcs1_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_mcs2_raw_; -extern const XERdescriptor_t PCUIF__Flags_mcs2_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_mcs2_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_mcs2_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_mcs2_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_mcs3_raw_; -extern const XERdescriptor_t PCUIF__Flags_mcs3_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_mcs3_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_mcs3_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_mcs3_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_mcs4_raw_; -extern const XERdescriptor_t PCUIF__Flags_mcs4_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_mcs4_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_mcs4_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_mcs4_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_mcs5_raw_; -extern const XERdescriptor_t PCUIF__Flags_mcs5_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_mcs5_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_mcs5_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_mcs5_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_mcs6_raw_; -extern const XERdescriptor_t PCUIF__Flags_mcs6_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_mcs6_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_mcs6_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_mcs6_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_mcs7_raw_; -extern const XERdescriptor_t PCUIF__Flags_mcs7_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_mcs7_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_mcs7_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_mcs7_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_mcs8_raw_; -extern const XERdescriptor_t PCUIF__Flags_mcs8_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_mcs8_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_mcs8_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_mcs8_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_mcs9_raw_; -extern const XERdescriptor_t PCUIF__Flags_mcs9_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Flags_mcs9_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_mcs9_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_mcs9_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_spare2_raw_; -extern const XERdescriptor_t PCUIF__Flags_spare2_xer_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_spare2_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_spare2_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Flags_raw_; -extern const TTCN_Typedescriptor_t PCUIF__Flags_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Flags_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__TextType_raw_; -extern const TTCN_Typedescriptor_t PCUIF__TextType_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__TextType_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Text_raw_; -extern const XERdescriptor_t PCUIF__Text_xer_; -extern const TTCN_Typedescriptor_t PCUIF__Text_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Text_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__txt__ind_txt__type_raw_; -extern const TTCN_Typedescriptor_t PCUIF__txt__ind_txt__type_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__txt__ind_txt__type_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__txt__ind_text_raw_; -extern const XERdescriptor_t PCUIF__txt__ind_text_xer_; -extern const TTCN_Typedescriptor_t PCUIF__txt__ind_text_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__txt__ind_text_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__txt__ind_raw_; -extern const TTCN_Typedescriptor_t PCUIF__txt__ind_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__txt__ind_default_coding; -extern const TTCN_RAWdescriptor_t OCT162_raw_; -extern const XERdescriptor_t OCT162_xer_; -extern const TTCN_OERdescriptor_t OCT162_oer_; -extern const TTCN_Typedescriptor_t OCT162_descr_; -extern UNIVERSAL_CHARSTRING OCT162_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_sapi_raw_; -extern const TTCN_Typedescriptor_t PCUIF__data_sapi_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_sapi_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_len_raw_; -extern const XERdescriptor_t PCUIF__data_len_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data_len_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data_len_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_len_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_data_raw_; -extern const XERdescriptor_t PCUIF__data_data_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data_data_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data_data_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_data_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_fn_raw_; -extern const XERdescriptor_t PCUIF__data_fn_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data_fn_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data_fn_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_fn_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_arfcn_raw_; -extern const XERdescriptor_t PCUIF__data_arfcn_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data_arfcn_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data_arfcn_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_arfcn_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_trx__nr_raw_; -extern const XERdescriptor_t PCUIF__data_trx__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data_trx__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data_trx__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_trx__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_ts__nr_raw_; -extern const XERdescriptor_t PCUIF__data_ts__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data_ts__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data_ts__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_ts__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_block__nr_raw_; -extern const XERdescriptor_t PCUIF__data_block__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data_block__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data_block__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_block__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_rssi_raw_; -extern const XERdescriptor_t PCUIF__data_rssi_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data_rssi_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data_rssi_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_rssi_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_ber10k_raw_; -extern const XERdescriptor_t PCUIF__data_ber10k_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data_ber10k_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data_ber10k_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_ber10k_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_ta__offs__qbits_raw_; -extern const XERdescriptor_t PCUIF__data_ta__offs__qbits_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data_ta__offs__qbits_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data_ta__offs__qbits_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_ta__offs__qbits_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_lqual__cb_raw_; -extern const XERdescriptor_t PCUIF__data_lqual__cb_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data_lqual__cb_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data_lqual__cb_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_lqual__cb_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data_raw_; -extern const TTCN_Typedescriptor_t PCUIF__data_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_sapi_raw_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_sapi_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_sapi_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_tlli_raw_; -extern const XERdescriptor_t PCUIF__data__cnf__dt_tlli_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_tlli_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_tlli_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_tlli_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_fn_raw_; -extern const XERdescriptor_t PCUIF__data__cnf__dt_fn_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_fn_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_fn_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_fn_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_arfcn_raw_; -extern const XERdescriptor_t PCUIF__data__cnf__dt_arfcn_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_arfcn_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_arfcn_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_arfcn_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_trx__nr_raw_; -extern const XERdescriptor_t PCUIF__data__cnf__dt_trx__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_trx__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_trx__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_trx__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_ts__nr_raw_; -extern const XERdescriptor_t PCUIF__data__cnf__dt_ts__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_ts__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_ts__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_ts__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_block__nr_raw_; -extern const XERdescriptor_t PCUIF__data__cnf__dt_block__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_block__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_block__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_block__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_rssi_raw_; -extern const XERdescriptor_t PCUIF__data__cnf__dt_rssi_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_rssi_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_rssi_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_rssi_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_ber10k_raw_; -extern const XERdescriptor_t PCUIF__data__cnf__dt_ber10k_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_ber10k_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_ber10k_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_ber10k_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_ta__offs__qbits_raw_; -extern const XERdescriptor_t PCUIF__data__cnf__dt_ta__offs__qbits_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_ta__offs__qbits_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_ta__offs__qbits_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_ta__offs__qbits_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_lqual__cb_raw_; -extern const XERdescriptor_t PCUIF__data__cnf__dt_lqual__cb_xer_; -extern const TTCN_OERdescriptor_t PCUIF__data__cnf__dt_lqual__cb_oer_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_lqual__cb_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_lqual__cb_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__data__cnf__dt_raw_; -extern const TTCN_Typedescriptor_t PCUIF__data__cnf__dt_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__data__cnf__dt_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rts__req_sapi_raw_; -extern const TTCN_Typedescriptor_t PCUIF__rts__req_sapi_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rts__req_sapi_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rts__req_spare_raw_; -extern const XERdescriptor_t PCUIF__rts__req_spare_xer_; -extern const TTCN_OERdescriptor_t PCUIF__rts__req_spare_oer_; -extern const TTCN_Typedescriptor_t PCUIF__rts__req_spare_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rts__req_spare_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rts__req_fn_raw_; -extern const XERdescriptor_t PCUIF__rts__req_fn_xer_; -extern const TTCN_OERdescriptor_t PCUIF__rts__req_fn_oer_; -extern const TTCN_Typedescriptor_t PCUIF__rts__req_fn_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rts__req_fn_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rts__req_arfcn_raw_; -extern const XERdescriptor_t PCUIF__rts__req_arfcn_xer_; -extern const TTCN_OERdescriptor_t PCUIF__rts__req_arfcn_oer_; -extern const TTCN_Typedescriptor_t PCUIF__rts__req_arfcn_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rts__req_arfcn_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rts__req_trx__nr_raw_; -extern const XERdescriptor_t PCUIF__rts__req_trx__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__rts__req_trx__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__rts__req_trx__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rts__req_trx__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rts__req_ts__nr_raw_; -extern const XERdescriptor_t PCUIF__rts__req_ts__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__rts__req_ts__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__rts__req_ts__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rts__req_ts__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rts__req_block__nr_raw_; -extern const XERdescriptor_t PCUIF__rts__req_block__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__rts__req_block__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__rts__req_block__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rts__req_block__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rts__req_raw_; -extern const TTCN_Typedescriptor_t PCUIF__rts__req_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rts__req_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__BurstType_raw_; -extern const TTCN_Typedescriptor_t PCUIF__BurstType_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__BurstType_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rach__ind_sapi_raw_; -extern const TTCN_Typedescriptor_t PCUIF__rach__ind_sapi_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rach__ind_sapi_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rach__ind_ra_raw_; -extern const XERdescriptor_t PCUIF__rach__ind_ra_xer_; -extern const TTCN_OERdescriptor_t PCUIF__rach__ind_ra_oer_; -extern const TTCN_Typedescriptor_t PCUIF__rach__ind_ra_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rach__ind_ra_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rach__ind_qta_raw_; -extern const XERdescriptor_t PCUIF__rach__ind_qta_xer_; -extern const TTCN_OERdescriptor_t PCUIF__rach__ind_qta_oer_; -extern const TTCN_Typedescriptor_t PCUIF__rach__ind_qta_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rach__ind_qta_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rach__ind_fn_raw_; -extern const XERdescriptor_t PCUIF__rach__ind_fn_xer_; -extern const TTCN_OERdescriptor_t PCUIF__rach__ind_fn_oer_; -extern const TTCN_Typedescriptor_t PCUIF__rach__ind_fn_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rach__ind_fn_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rach__ind_arfcn_raw_; -extern const XERdescriptor_t PCUIF__rach__ind_arfcn_xer_; -extern const TTCN_OERdescriptor_t PCUIF__rach__ind_arfcn_oer_; -extern const TTCN_Typedescriptor_t PCUIF__rach__ind_arfcn_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rach__ind_arfcn_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rach__ind_is__11bit_raw_; -extern const XERdescriptor_t PCUIF__rach__ind_is__11bit_xer_; -extern const TTCN_OERdescriptor_t PCUIF__rach__ind_is__11bit_oer_; -extern const TTCN_Typedescriptor_t PCUIF__rach__ind_is__11bit_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rach__ind_is__11bit_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rach__ind_burst__type_raw_; -extern const TTCN_Typedescriptor_t PCUIF__rach__ind_burst__type_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rach__ind_burst__type_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__rach__ind_raw_; -extern const TTCN_Typedescriptor_t PCUIF__rach__ind_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__rach__ind_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__InfoTrx_arfcn_raw_; -extern const XERdescriptor_t PCUIF__InfoTrx_arfcn_xer_; -extern const TTCN_OERdescriptor_t PCUIF__InfoTrx_arfcn_oer_; -extern const TTCN_Typedescriptor_t PCUIF__InfoTrx_arfcn_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__InfoTrx_arfcn_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__InfoTrx_pdch__mask_raw_; -extern const XERdescriptor_t PCUIF__InfoTrx_pdch__mask_xer_; -extern const TTCN_Typedescriptor_t PCUIF__InfoTrx_pdch__mask_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__InfoTrx_pdch__mask_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__InfoTrx_spare_raw_; -extern const XERdescriptor_t PCUIF__InfoTrx_spare_xer_; -extern const TTCN_OERdescriptor_t PCUIF__InfoTrx_spare_oer_; -extern const TTCN_Typedescriptor_t PCUIF__InfoTrx_spare_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__InfoTrx_spare_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__InfoTrx_tsc_raw_; -extern const XERdescriptor_t PCUIF__InfoTrx_tsc_xer_; -extern const TTCN_OERdescriptor_t PCUIF__InfoTrx_tsc_oer_; -extern const TTCN_Typedescriptor_t PCUIF__InfoTrx_tsc_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__InfoTrx_tsc_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__InfoTrx_hLayer1_raw_; -extern const XERdescriptor_t PCUIF__InfoTrx_hLayer1_xer_; -extern const TTCN_OERdescriptor_t PCUIF__InfoTrx_hLayer1_oer_; -extern const TTCN_Typedescriptor_t PCUIF__InfoTrx_hLayer1_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__InfoTrx_hLayer1_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__InfoTrx_raw_; -extern const TTCN_Typedescriptor_t PCUIF__InfoTrx_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__InfoTrx_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__InfoTrxs_raw_; -extern const TTCN_Typedescriptor_t PCUIF__InfoTrxs_descr_; -extern const TTCN_RAWdescriptor_t PCUIF__InfoTrxs_0_raw_; -extern const TTCN_Typedescriptor_t PCUIF__InfoTrxs_0_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__InfoTrxs_0_default_coding; -extern UNIVERSAL_CHARSTRING PCUIF__InfoTrxs_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_version_raw_; -extern const XERdescriptor_t PCUIF__info__ind_version_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_version_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_version_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_version_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_flags_raw_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_flags_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_flags_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_trx_raw_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_trx_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_trx_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_bsic_raw_; -extern const XERdescriptor_t PCUIF__info__ind_bsic_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_bsic_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_bsic_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_bsic_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_mcc_raw_; -extern const XERdescriptor_t PCUIF__info__ind_mcc_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_mcc_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_mcc_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_mcc_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_mnc_raw_; -extern const XERdescriptor_t PCUIF__info__ind_mnc_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_mnc_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_mnc_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_mnc_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_mnc__3__digits_raw_; -extern const XERdescriptor_t PCUIF__info__ind_mnc__3__digits_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_mnc__3__digits_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_mnc__3__digits_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_mnc__3__digits_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_lac_raw_; -extern const XERdescriptor_t PCUIF__info__ind_lac_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_lac_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_lac_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_lac_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_rac_raw_; -extern const XERdescriptor_t PCUIF__info__ind_rac_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_rac_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_rac_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_rac_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_nsei_raw_; -extern const XERdescriptor_t PCUIF__info__ind_nsei_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_nsei_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_nsei_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_nsei_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_nse__timer_raw_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_nse__timer_descr_; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_nse__timer_0_raw_; -extern const XERdescriptor_t PCUIF__info__ind_nse__timer_0_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_nse__timer_0_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_nse__timer_0_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_nse__timer_0_default_coding; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_nse__timer_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_cell__timer_raw_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_cell__timer_descr_; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_cell__timer_0_raw_; -extern const XERdescriptor_t PCUIF__info__ind_cell__timer_0_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_cell__timer_0_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_cell__timer_0_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_cell__timer_0_default_coding; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_cell__timer_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_cell__id_raw_; -extern const XERdescriptor_t PCUIF__info__ind_cell__id_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_cell__id_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_cell__id_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_cell__id_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_repeat__time_raw_; -extern const XERdescriptor_t PCUIF__info__ind_repeat__time_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_repeat__time_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_repeat__time_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_repeat__time_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_repeat__count_raw_; -extern const XERdescriptor_t PCUIF__info__ind_repeat__count_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_repeat__count_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_repeat__count_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_repeat__count_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_bvci_raw_; -extern const XERdescriptor_t PCUIF__info__ind_bvci_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_bvci_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_bvci_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_bvci_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_t3142_raw_; -extern const XERdescriptor_t PCUIF__info__ind_t3142_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_t3142_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_t3142_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_t3142_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_t3169_raw_; -extern const XERdescriptor_t PCUIF__info__ind_t3169_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_t3169_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_t3169_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_t3169_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_t3191_raw_; -extern const XERdescriptor_t PCUIF__info__ind_t3191_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_t3191_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_t3191_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_t3191_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_t3193__10ms_raw_; -extern const XERdescriptor_t PCUIF__info__ind_t3193__10ms_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_t3193__10ms_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_t3193__10ms_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_t3193__10ms_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_t3195_raw_; -extern const XERdescriptor_t PCUIF__info__ind_t3195_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_t3195_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_t3195_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_t3195_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_t3101_raw_; -extern const XERdescriptor_t PCUIF__info__ind_t3101_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_t3101_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_t3101_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_t3101_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_t3103_raw_; -extern const XERdescriptor_t PCUIF__info__ind_t3103_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_t3103_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_t3103_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_t3103_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_t3105_raw_; -extern const XERdescriptor_t PCUIF__info__ind_t3105_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_t3105_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_t3105_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_t3105_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_cv__countdown_raw_; -extern const XERdescriptor_t PCUIF__info__ind_cv__countdown_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_cv__countdown_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_cv__countdown_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_cv__countdown_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_dl__tbf__ext_raw_; -extern const XERdescriptor_t PCUIF__info__ind_dl__tbf__ext_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_dl__tbf__ext_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_dl__tbf__ext_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_dl__tbf__ext_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_ul__tbf__ext_raw_; -extern const XERdescriptor_t PCUIF__info__ind_ul__tbf__ext_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_ul__tbf__ext_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_ul__tbf__ext_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_ul__tbf__ext_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_initial__cs_raw_; -extern const XERdescriptor_t PCUIF__info__ind_initial__cs_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_initial__cs_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_initial__cs_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_initial__cs_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_initial__mcs_raw_; -extern const XERdescriptor_t PCUIF__info__ind_initial__mcs_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_initial__mcs_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_initial__mcs_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_initial__mcs_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_nsvci_raw_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_nsvci_descr_; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_nsvci_0_raw_; -extern const XERdescriptor_t PCUIF__info__ind_nsvci_0_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_nsvci_0_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_nsvci_0_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_nsvci_0_default_coding; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_nsvci_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_local__pprt_raw_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_local__pprt_descr_; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_local__pprt_0_raw_; -extern const XERdescriptor_t PCUIF__info__ind_local__pprt_0_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_local__pprt_0_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_local__pprt_0_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_local__pprt_0_default_coding; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_local__pprt_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_remote__port_raw_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_remote__port_descr_; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_remote__port_0_raw_; -extern const XERdescriptor_t PCUIF__info__ind_remote__port_0_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_remote__port_0_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_remote__port_0_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_remote__port_0_default_coding; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_remote__port_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_remote__ip_raw_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_remote__ip_descr_; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_remote__ip_0_raw_; -extern const XERdescriptor_t PCUIF__info__ind_remote__ip_0_xer_; -extern const TTCN_OERdescriptor_t PCUIF__info__ind_remote__ip_0_oer_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_remote__ip_0_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_remote__ip_0_default_coding; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_remote__ip_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__info__ind_raw_; -extern const TTCN_Typedescriptor_t PCUIF__info__ind_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__info__ind_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__act__req_is__activate_raw_; -extern const XERdescriptor_t PCUIF__act__req_is__activate_xer_; -extern const TTCN_OERdescriptor_t PCUIF__act__req_is__activate_oer_; -extern const TTCN_Typedescriptor_t PCUIF__act__req_is__activate_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__act__req_is__activate_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__act__req_trx__nr_raw_; -extern const XERdescriptor_t PCUIF__act__req_trx__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__act__req_trx__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__act__req_trx__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__act__req_trx__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__act__req_ts__nr_raw_; -extern const XERdescriptor_t PCUIF__act__req_ts__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__act__req_ts__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__act__req_ts__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__act__req_ts__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__act__req_spare_raw_; -extern const XERdescriptor_t PCUIF__act__req_spare_xer_; -extern const TTCN_OERdescriptor_t PCUIF__act__req_spare_oer_; -extern const TTCN_Typedescriptor_t PCUIF__act__req_spare_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__act__req_spare_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__act__req_raw_; -extern const TTCN_Typedescriptor_t PCUIF__act__req_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__act__req_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__time__ind_fn_raw_; -extern const XERdescriptor_t PCUIF__time__ind_fn_xer_; -extern const TTCN_OERdescriptor_t PCUIF__time__ind_fn_oer_; -extern const TTCN_Typedescriptor_t PCUIF__time__ind_fn_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__time__ind_fn_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__time__ind_raw_; -extern const TTCN_Typedescriptor_t PCUIF__time__ind_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__time__ind_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__pag__req_sapi_raw_; -extern const TTCN_Typedescriptor_t PCUIF__pag__req_sapi_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__pag__req_sapi_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__pag__req_chan__needed_raw_; -extern const XERdescriptor_t PCUIF__pag__req_chan__needed_xer_; -extern const TTCN_OERdescriptor_t PCUIF__pag__req_chan__needed_oer_; -extern const TTCN_Typedescriptor_t PCUIF__pag__req_chan__needed_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__pag__req_chan__needed_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__pag__req_identity__lv_raw_; -extern const XERdescriptor_t PCUIF__pag__req_identity__lv_xer_; -extern const TTCN_OERdescriptor_t PCUIF__pag__req_identity__lv_oer_; -extern const TTCN_Typedescriptor_t PCUIF__pag__req_identity__lv_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__pag__req_identity__lv_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__pag__req_raw_; -extern const TTCN_Typedescriptor_t PCUIF__pag__req_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__pag__req_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__susp__req_tlli_raw_; -extern const XERdescriptor_t PCUIF__susp__req_tlli_xer_; -extern const TTCN_OERdescriptor_t PCUIF__susp__req_tlli_oer_; -extern const TTCN_Typedescriptor_t PCUIF__susp__req_tlli_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__susp__req_tlli_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__susp__req_ra__id_raw_; -extern const XERdescriptor_t PCUIF__susp__req_ra__id_xer_; -extern const TTCN_OERdescriptor_t PCUIF__susp__req_ra__id_oer_; -extern const TTCN_Typedescriptor_t PCUIF__susp__req_ra__id_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__susp__req_ra__id_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__susp__req_cause_raw_; -extern const XERdescriptor_t PCUIF__susp__req_cause_xer_; -extern const TTCN_OERdescriptor_t PCUIF__susp__req_cause_oer_; -extern const TTCN_Typedescriptor_t PCUIF__susp__req_cause_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__susp__req_cause_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__susp__req_raw_; -extern const TTCN_Typedescriptor_t PCUIF__susp__req_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__susp__req_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_descr_; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_data__req_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_data__req_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_data__req_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_data__cnf_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_data__cnf_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_data__cnf_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_data__cnf__dt_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_data__cnf__dt_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_data__cnf__dt_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_data__ind_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_data__ind_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_data__ind_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_susp__req_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_susp__req_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_susp__req_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_rts__req_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_rts__req_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_rts__req_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_rach__ind_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_rach__ind_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_rach__ind_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_txt__ind_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_txt__ind_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_txt__ind_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_info__ind_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_info__ind_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_info__ind_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_act__req_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_act__req_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_act__req_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_time__ind_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_time__ind_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_time__ind_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__MsgUnion_pag__req_raw_; -extern const TTCN_Typedescriptor_t PCUIF__MsgUnion_pag__req_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_pag__req_default_coding; -extern UNIVERSAL_CHARSTRING PCUIF__MsgUnion_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Message_msg__type_raw_; -extern const TTCN_Typedescriptor_t PCUIF__Message_msg__type_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Message_msg__type_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Message_bts__nr_raw_; -extern const XERdescriptor_t PCUIF__Message_bts__nr_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Message_bts__nr_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Message_bts__nr_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Message_bts__nr_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Message_spare_raw_; -extern const XERdescriptor_t PCUIF__Message_spare_xer_; -extern const TTCN_OERdescriptor_t PCUIF__Message_spare_oer_; -extern const TTCN_Typedescriptor_t PCUIF__Message_spare_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Message_spare_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Message_u_raw_; -extern const TTCN_Typedescriptor_t PCUIF__Message_u_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Message_u_default_coding; -extern const TTCN_RAWdescriptor_t PCUIF__Message_raw_; -extern const TTCN_Typedescriptor_t PCUIF__Message_descr_; -extern UNIVERSAL_CHARSTRING PCUIF__Message_default_coding; -extern const INTEGER_template& tr__PCUIF__RTS__REQ_bts__nr_defval; -extern const INTEGER_template& tr__PCUIF__RTS__REQ_trx__nr_defval; -extern const INTEGER_template& tr__PCUIF__RTS__REQ_ts__nr_defval; -extern const PCUIF__Sapi_template& tr__PCUIF__RTS__REQ_sapi_defval; -extern const INTEGER_template& tr__PCUIF__RTS__REQ_fn_defval; -extern const INTEGER_template& tr__PCUIF__RTS__REQ_block__nr_defval; -extern const CHARSTRING_template& tr__PCUIF__TXT__IND_text_defval; -extern const INTEGER_template& ts__PCUIF__DATA__IND_rssi_defval; -extern const INTEGER_template& ts__PCUIF__DATA__IND_ber10k_defval; -extern const INTEGER_template& ts__PCUIF__DATA__IND_ta__offs__qbits_defval; -extern const INTEGER_template& ts__PCUIF__DATA__IND_lqual__cb_defval; -extern const INTEGER_template& tr__PCUIF__DATA__IND_bts__nr_defval; -extern const INTEGER_template& tr__PCUIF__DATA__IND_trx__nr_defval; -extern const INTEGER_template& tr__PCUIF__DATA__IND_ts__nr_defval; -extern const INTEGER_template& tr__PCUIF__DATA__IND_block__nr_defval; -extern const PCUIF__Sapi_template& tr__PCUIF__DATA__IND_sapi_defval; -extern const OCTETSTRING_template& tr__PCUIF__DATA__IND_data_defval; -extern const INTEGER_template& tr__PCUIF__DATA__REQ_block__nr_defval; -extern const INTEGER_template& tr__PCUIF__DATA__REQ_fn_defval; -extern const PCUIF__Sapi_template& tr__PCUIF__DATA__REQ_sapi_defval; -extern const OCTETSTRING_template& tr__PCUIF__DATA__REQ_data_defval; -extern const INTEGER_template& tr__PCUIF__DATA__CNF_bts__nr_defval; -extern const INTEGER_template& tr__PCUIF__DATA__CNF_trx__nr_defval; -extern const INTEGER_template& tr__PCUIF__DATA__CNF_ts__nr_defval; -extern const PCUIF__Sapi_template& tr__PCUIF__DATA__CNF_sapi_defval; -extern const OCTETSTRING_template& tr__PCUIF__DATA__CNF_data_defval; -extern const INTEGER_template& ts__PCUIF__RACH__IND_qta_defval; -extern const INTEGER_template& tr__PCUIF__RACH__IND_bts__nr_defval; -extern const INTEGER_template& tr__PCUIF__RACH__IND_ra_defval; -extern const INTEGER_template& tr__PCUIF__RACH__IND_is__11bit_defval; -extern const PCUIF__BurstType_template& tr__PCUIF__RACH__IND_burst__type_defval; -extern const INTEGER_template& tr__PCUIF__RACH__IND_fn_defval; -extern const INTEGER_template& tr__PCUIF__PAG__REQ_bts__nr_defval; -extern const OCTETSTRING_template& tr__PCUIF__PAG__REQ_id__lv_defval; -extern const INTEGER_template& tr__PCUIF__PAG__REQ_chan__needed_defval; -extern const PCUIF__Sapi_template& tr__PCUIF__PAG__REQ_sapi_defval; -extern const PCUIF__Flags& c__PCUIF__Flags__default; -extern const INTEGER_template& ts__PCUIF__InfoTrx_arfcn_defval; -extern const BITSTRING_template& ts__PCUIF__InfoTrx_pdch__mask_defval; -extern const OCTETSTRING& ts__PCUIF__InfoTrx_tsc_defval; -extern const PCUIF__InfoTrx_template& ts__PCUIF__InfoTrxNULL; -extern const PCUIF__InfoTrxs_template& ts__PCUIF__InfoTrxs__def; -extern const PCUIF__Flags_template& ts__PCUIF__INFO__IND_flags_defval; -extern const INTEGER_template& ts__PCUIF__INFO__IND_mcc_defval; -extern const INTEGER_template& ts__PCUIF__INFO__IND_mnc_defval; -extern const INTEGER_template& ts__PCUIF__INFO__IND_lac_defval; -extern const INTEGER_template& ts__PCUIF__INFO__IND_rac_defval; -extern const INTEGER_template& ts__PCUIF__INFO__IND_cell__id_defval; -extern const INTEGER_template& ts__PCUIF__INFO__IND_bsic_defval; -extern const PCUIF__InfoTrxs_template& ts__PCUIF__INFO__IND_trx_defval; -extern const INTEGER_template& ts__PCUIF__INFO__IND_version_defval; -extern const INTEGER_template& tr__PCUIF__INFO__IND_bts__nr_defval; -extern const PCUIF__Flags_template& tr__PCUIF__INFO__IND_flags_defval; -extern const INTEGER_template& tr__PCUIF__INFO__IND_version_defval; -extern TTCN_Module module_object; - -} /* end of namespace */ - -#endif diff --git a/titan/PCUIF_Types.ttcn b/titan/PCUIF_Types.ttcn new file mode 100644 index 0000000..750e0b4 --- /dev/null +++ b/titan/PCUIF_Types.ttcn @@ -0,0 +1,805 @@ +module PCUIF_Types { + +import from General_Types all; +import from Osmocom_Types all; + +/* Osmocom PCU Interface Types, as per osmo-pcu/include/osmocom/pcu/pcuif_proto.h */ + +const charstring PCU_SOCK_DEFAULT := "/tmp/pcu_bts"; +const uint32_t PCU_IF_VERSION := 9; + +type enumerated PCUIF_MsgType { + PCU_IF_MSG_DATA_REQ ('00'O), + PCU_IF_MSG_DATA_CNF ('01'O), + PCU_IF_MSG_DATA_IND ('02'O), + PCU_IF_MSG_SUSP_REQ ('03'O), + PCU_IF_MSG_RTS_REQ ('10'O), + PCU_IF_MSG_DATA_CNF_DT ('11'O), + PCU_IF_MSG_RACH_IND ('22'O), + PCU_IF_MSG_INFO_IND ('32'O), + PCU_IF_MSG_ACT_REQ ('40'O), + PCU_IF_MSG_TIME_IND ('52'O), + PCU_IF_MSG_PAG_REQ ('60'O), + PCU_IF_MSG_TXT_IND ('70'O) +} with { variant "FIELDLENGTH(8)" }; + +type enumerated PCUIF_Sapi { + PCU_IF_SAPI_UNKNOWN ('00'O), + PCU_IF_SAPI_RACH ('01'O), + PCU_IF_SAPI_AGCH ('02'O), + PCU_IF_SAPI_PCH ('03'O), + PCU_IF_SAPI_BCCH ('04'O), + PCU_IF_SAPI_PDTCH ('05'O), + PCU_IF_SAPI_PRACH ('06'O), + PCU_IF_SAPI_PTCCH ('07'O), + PCU_IF_SAPI_AGCH_DT ('08'O) +} with { variant "FIELDLENGTH(8)" }; + +type record PCUIF_Flags { + boolean bts_active, + boolean sysmo_direct_dsp, + BIT14 spare, + boolean cs1, + boolean cs2, + boolean cs3, + boolean cs4, + boolean mcs1, + boolean mcs2, + boolean mcs3, + boolean mcs4, + boolean mcs5, + boolean mcs6, + boolean mcs7, + boolean mcs8, + boolean mcs9, + BIT3 spare2 +} with { variant "" }; + +type enumerated PCUIF_TextType { + PCU_VERSION (0), + PCU_OML_ALERT (1) +} with { variant "FIELDLENGTH(8)" }; + +type charstring PCUIF_Text length(128) with { variant "FIELDLENGTH(128)" }; + +type record PCUIF_txt_ind { + PCUIF_TextType txt_type, + PCUIF_Text text +} with { variant "" }; + +type record PCUIF_data { + PCUIF_Sapi sapi, + uint8_t len, + octetstring data length(162), + uint32_t fn, + uint16_t arfcn, + uint8_t trx_nr, + uint8_t ts_nr, + uint8_t block_nr, + int8_t rssi, + uint16_t ber10k, + int16_t ta_offs_qbits, + int16_t lqual_cb +} with { variant (data) "FIELDLENGTH(162), ALIGN(left)" }; + +type record PCUIF_data_cnf_dt { + PCUIF_Sapi sapi, + OCT4 tlli, + uint32_t fn, + uint16_t arfcn, + uint8_t trx_nr, + uint8_t ts_nr, + uint8_t block_nr, + int8_t rssi, + uint16_t ber10k, + int16_t ta_offs_qbits, + int16_t lqual_cb +} with { variant "" }; + +type record PCUIF_rts_req { + PCUIF_Sapi sapi, + OCT3 spare, + uint32_t fn, + uint16_t arfcn, + uint8_t trx_nr, + uint8_t ts_nr, + uint8_t block_nr +} with { variant "" }; + +type enumerated PCUIF_BurstType { + BURST_TYPE_NONE (0), + BURST_TYPE_0 (1), + BURST_TYPE_1 (2), + BURST_TYPE_2 (3) +} with { variant "FIELDLENGTH(8)" }; + +type record PCUIF_rach_ind { + PCUIF_Sapi sapi, + uint16_t ra, + int16_t qta, + uint32_t fn, + uint16_t arfcn, + uint8_t is_11bit, + PCUIF_BurstType burst_type +} with { variant "" }; + +type record PCUIF_InfoTrx { + uint16_t arfcn, + BIT8 pdch_mask, + OCT1 spare, + OCT8 tsc, + uint32_t hLayer1 +} with { variant (pdch_mask) "BITORDER(msb)" }; +type record length(8) of PCUIF_InfoTrx PCUIF_InfoTrxs; + +type record PCUIF_info_ind { + uint32_t version, + PCUIF_Flags flags, + PCUIF_InfoTrxs trx, + uint8_t bsic, + + uint16_t mcc, + uint16_t mnc, + uint8_t mnc_3_digits, + uint16_t lac, + uint16_t rac, + + uint16_t nsei, + record length(7) of uint8_t nse_timer, + record length(11) of uint8_t cell_timer, + + uint16_t cell_id, + uint16_t repeat_time, + uint8_t repeat_count, + uint16_t bvci, + uint8_t t3142, + uint8_t t3169, + uint8_t t3191, + uint8_t t3193_10ms, + uint8_t t3195, + uint8_t t3101, + uint8_t t3103, + uint8_t t3105, + uint8_t cv_countdown, + uint16_t dl_tbf_ext, + uint16_t ul_tbf_ext, + uint8_t initial_cs, + uint8_t initial_mcs, + + record length(2) of uint16_t nsvci, + record length(2) of uint16_t local_pprt, + record length(2) of uint16_t remote_port, + record length(2) of OCT4 remote_ip +} with { variant "" } + +type record PCUIF_act_req { + uint8_t is_activate, + uint8_t trx_nr, + uint8_t ts_nr, + OCT1 spare +} with { variant "" }; + +type record PCUIF_time_ind { + uint32_t fn +} with { variant "" }; + +type record PCUIF_pag_req { + PCUIF_Sapi sapi, + uint8_t chan_needed, + OCT9 identity_lv +} with { variant "" }; + +type record PCUIF_susp_req { + OCT4 tlli, + OCT6 ra_id, + uint8_t cause +} with { variant "" }; + + +type union PCUIF_MsgUnion { + PCUIF_data data_req, + PCUIF_data data_cnf, + PCUIF_data_cnf_dt data_cnf_dt, + PCUIF_data data_ind, + PCUIF_susp_req susp_req, + PCUIF_rts_req rts_req, + PCUIF_rach_ind rach_ind, + PCUIF_txt_ind txt_ind, + PCUIF_info_ind info_ind, + PCUIF_act_req act_req, + PCUIF_time_ind time_ind, + PCUIF_pag_req pag_req +} with { variant "" }; + +type record PCUIF_Message { + PCUIF_MsgType msg_type, + uint8_t bts_nr, + OCT2 spare, + PCUIF_MsgUnion u +} with { variant (u) "CROSSTAG( + data_req, msg_type = PCU_IF_MSG_DATA_REQ; + data_cnf, msg_type = PCU_IF_MSG_DATA_CNF; + data_cnf_dt, msg_type = PCU_IF_MSG_DATA_CNF_DT; + data_ind, msg_type = PCU_IF_MSG_DATA_IND; + susp_req, msg_type = PCU_IF_MSG_SUSP_REQ; + rts_req, msg_type = PCU_IF_MSG_RTS_REQ; + rach_ind, msg_type = PCU_IF_MSG_RACH_IND; + txt_ind, msg_type = PCU_IF_MSG_TXT_IND; + info_ind, msg_type = PCU_IF_MSG_INFO_IND; + act_req, msg_type = PCU_IF_MSG_ACT_REQ; + time_ind, msg_type = PCU_IF_MSG_TIME_IND; + pag_req, msg_type = PCU_IF_MSG_PAG_REQ)" + variant "PADDING(1696)" /* 212 * 8 */ +}; + +external function enc_PCUIF_Message(in PCUIF_Message pdu) return octetstring + with { extension "prototype(convert) encode(RAW)" }; +external function dec_PCUIF_Message(in octetstring stream) return PCUIF_Message + with { extension "prototype(convert) decode(RAW)" }; + + +template (value) PCUIF_Message ts_PCUIF_RTS_REQ(template (value) uint8_t bts_nr, + template (value) uint8_t trx_nr, + template (value) uint8_t ts_nr, + template (value) PCUIF_Sapi sapi, + template (value) uint32_t fn, + template (value) uint16_t arfcn, + template (value) uint8_t block_nr + ) := { + msg_type := PCU_IF_MSG_RTS_REQ, + bts_nr := bts_nr, + spare := '0000'O, + u := { + rts_req := { + sapi := sapi, + spare := '000000'O, + fn := fn, + arfcn := arfcn, + trx_nr := trx_nr, + ts_nr := ts_nr, + block_nr := block_nr + } + } +} +template PCUIF_Message tr_PCUIF_RTS_REQ(template uint8_t bts_nr := ?, + template uint8_t trx_nr := ?, + template uint8_t ts_nr := ?, + template PCUIF_Sapi sapi := ?, + template uint32_t fn := ?, + template uint8_t block_nr := ? + ) := { + msg_type := PCU_IF_MSG_RTS_REQ, + bts_nr := bts_nr, + spare := ?, + u := { + rts_req := { + sapi := sapi, + spare := ?, + fn := fn, + arfcn := ?, + trx_nr := trx_nr, + ts_nr := ts_nr, + block_nr := block_nr + } + } +} + +template (value) PCUIF_Message ts_PCUIF_TXT_IND(uint8_t bts_nr, PCUIF_TextType tt, charstring text) := { + msg_type := PCU_IF_MSG_TXT_IND, + bts_nr := bts_nr, + spare := '0000'O, + u := { + txt_ind := { + txt_type := tt, + text := text + } + } +} +template PCUIF_Message tr_PCUIF_TXT_IND(template uint8_t bts_nr, template PCUIF_TextType tt, + template charstring text := ?) := { + msg_type := PCU_IF_MSG_TXT_IND, + bts_nr := bts_nr, + spare := '0000'O, + u := { + txt_ind := { + txt_type := tt, + text := text + } + } +} + + + +template (value) PCUIF_Message ts_PCUIF_ACT_REQ(uint8_t bts_nr, uint8_t trx_nr, uint8_t ts_nr) := { + msg_type := PCU_IF_MSG_ACT_REQ, + bts_nr := bts_nr, + spare := '0000'O, + u := { + act_req := { + is_activate := 1, + trx_nr := trx_nr, + ts_nr := ts_nr, + spare := '00'O + } + } +} +template PCUIF_Message tr_PCUIF_ACT_REQ(template uint8_t bts_nr, template uint8_t trx_nr, + template uint8_t ts_nr) := { + msg_type := PCU_IF_MSG_ACT_REQ, + bts_nr := bts_nr, + spare := '0000'O, + u := { + act_req := { + is_activate := 1, + trx_nr := trx_nr, + ts_nr := ts_nr, + spare := '00'O + } + } +} + +template (value) PCUIF_Message ts_PCUIF_DEACT_REQ(uint8_t bts_nr, uint8_t trx_nr, uint8_t ts_nr) := { + msg_type := PCU_IF_MSG_ACT_REQ, + bts_nr := bts_nr, + spare := '0000'O, + u := { + act_req := { + is_activate := 0, + trx_nr := trx_nr, + ts_nr := ts_nr, + spare := '00'O + } + } +} +template PCUIF_Message tr_PCUIF_DEACT_REQ(template uint8_t bts_nr, template uint8_t trx_nr, + template uint8_t ts_nr) := { + msg_type := PCU_IF_MSG_ACT_REQ, + bts_nr := bts_nr, + spare := '0000'O, + u := { + act_req := { + is_activate := 0, + trx_nr := trx_nr, + ts_nr := ts_nr, + spare := '00'O + } + } +} + +template (value) PCUIF_Message ts_PCUIF_DATA_IND(template (value) uint8_t bts_nr, + template (value) uint8_t trx_nr, + template (value) uint8_t ts_nr, + template (value) uint8_t block_nr, + template (value) PCUIF_Sapi sapi, + template (value) octetstring data, + template (value) uint32_t fn, + template (value) uint16_t arfcn, + template (value) int8_t rssi := -80, + template (value) uint16_t ber10k := 0, + template (value) int16_t ta_offs_qbits := 0, + template (value) uint16_t lqual_cb := 10) := { + msg_type := PCU_IF_MSG_DATA_IND, + bts_nr := bts_nr, + spare := '0000'O, + u := { + data_ind := { + sapi := sapi, + len := lengthof(valueof(data)), + data := data, + fn := fn, + arfcn := arfcn, + trx_nr := trx_nr, + ts_nr := ts_nr, + block_nr := block_nr, + rssi := rssi, + ber10k := ber10k, + ta_offs_qbits := ta_offs_qbits, + lqual_cb := lqual_cb + } + } +} +template PCUIF_Message tr_PCUIF_DATA_IND(template uint8_t bts_nr := ?, + template uint8_t trx_nr := ?, + template uint8_t ts_nr := ?, + template uint8_t block_nr := ?, + template PCUIF_Sapi sapi := ?, + template octetstring data := ?) := { + msg_type := PCU_IF_MSG_DATA_IND, + bts_nr := bts_nr, + spare := ?, + u := { + data_ind := { + sapi := sapi, + len := ?, + data := data, + fn := ?, + arfcn := ?, + trx_nr := trx_nr, + ts_nr := ts_nr, + block_nr := block_nr, + rssi := ?, + ber10k := ?, + ta_offs_qbits := ?, + lqual_cb := ? + } + } +} + +template (value) PCUIF_Message ts_PCUIF_DATA_REQ(uint8_t bts_nr, uint8_t trx_nr, + uint8_t ts_nr, uint8_t block_nr, + uint32_t fn, PCUIF_Sapi sapi, + octetstring data) := { + msg_type := PCU_IF_MSG_DATA_REQ, + bts_nr := bts_nr, + spare := '0000'O, + u := { + data_req := { + sapi := sapi, + len := lengthof(data), + data := data, + fn := fn, + arfcn := 0, /* unused in BTS */ + trx_nr := trx_nr, + ts_nr := ts_nr, + block_nr := block_nr, + /* measurement parameters below unused on Tx */ + rssi := 0, + ber10k := 0, + ta_offs_qbits := 0, + lqual_cb := 0 + } + } +} +template PCUIF_Message tr_PCUIF_DATA_REQ(template uint8_t bts_nr, + template uint8_t trx_nr, + template uint8_t ts_nr, + template uint8_t block_nr := ?, + template uint32_t fn := ?, + template PCUIF_Sapi sapi := ?, + template octetstring data := ?) := { + msg_type := PCU_IF_MSG_DATA_REQ, + bts_nr := bts_nr, + spare := '0000'O, + u := { + data_req := { + sapi := sapi, + len := ?, + data := data, + fn := fn, + arfcn := ?, /* unused in BTS */ + trx_nr := trx_nr, + ts_nr := ts_nr, + block_nr := block_nr, + /* measurement parameters below unused on Tx */ + rssi := 0, + ber10k := 0, + ta_offs_qbits := 0, + lqual_cb := 0 + } + } +} + +template (value) PCUIF_Message ts_PCUIF_DATA_CNF(template (value) uint8_t bts_nr, + template (value) uint8_t trx_nr, + template (value) uint8_t ts_nr, + template (value) uint8_t block_nr, + template (value) uint32_t fn, + template (value) uint16_t arfcn, + template (value) PCUIF_Sapi sapi, + template (value) octetstring data) := { + msg_type := PCU_IF_MSG_DATA_CNF, + bts_nr := bts_nr, + spare := '0000'O, + u := { + data_cnf := { + sapi := sapi, + len := 0, /* overwritten */ + data := data, + fn := fn, + arfcn := arfcn, + trx_nr := trx_nr, + ts_nr := ts_nr, + block_nr := block_nr, + rssi := 0, + ber10k := 0, + ta_offs_qbits := 0, + lqual_cb := 0 + } + } +} +template PCUIF_Message tr_PCUIF_DATA_CNF(template uint8_t bts_nr := ?, + template uint8_t trx_nr := ?, + template uint8_t ts_nr := ?, + template PCUIF_Sapi sapi := ?, + template octetstring data := ?) := { + msg_type := PCU_IF_MSG_DATA_CNF, + bts_nr := bts_nr, + spare := ?, + u := { + data_cnf := { + sapi := sapi, + len := ?, + data := data, + fn := ?, + arfcn := ?, + trx_nr := trx_nr, + ts_nr := ts_nr, + block_nr := ?, + rssi := ?, + ber10k := ?, + ta_offs_qbits := ?, + lqual_cb := ? + } + } +} + +template (value) PCUIF_Message ts_PCUIF_RACH_IND(template (value) uint8_t bts_nr, + template (value) uint16_t ra, + template (value) uint8_t is_11bit, + template (value) PCUIF_BurstType burst_type, + template (value) uint32_t fn, + template (value) uint16_t arfcn, + template (value) int16_t qta := 0 +) := { + msg_type := PCU_IF_MSG_RACH_IND, + bts_nr := bts_nr, + spare := '0000'O, + u := { + rach_ind := { + sapi := PCU_IF_SAPI_RACH, + ra := ra, + qta := qta, + fn := fn, + arfcn := arfcn, + is_11bit := is_11bit, + burst_type := burst_type + } + } +} +template PCUIF_Message tr_PCUIF_RACH_IND(template uint8_t bts_nr := ?, + template uint16_t ra := ?, + template uint8_t is_11bit := ?, + template PCUIF_BurstType burst_type := ?, + template uint32_t fn := ?) := { + msg_type := PCU_IF_MSG_RACH_IND, + bts_nr := bts_nr, + spare := ?, + u := { + rach_ind := { + sapi := PCU_IF_SAPI_RACH, + ra := ra, + qta := ?, + fn := fn, + arfcn := ?, + is_11bit := is_11bit, + burst_type := burst_type + } + } +} + +template (value) PCUIF_Message ts_PCUIF_PAG_REQ(template (value) uint8_t bts_nr, + template (value) OCT9 id_lv, + template (value) uint8_t chan_needed, + template (value) PCUIF_Sapi sapi) := { + msg_type := PCU_IF_MSG_PAG_REQ, + bts_nr := bts_nr, + spare := '0000'O, + u := { + pag_req := { + sapi := sapi, + chan_needed := chan_needed, + identity_lv := id_lv + } + } +} +template PCUIF_Message tr_PCUIF_PAG_REQ(template uint8_t bts_nr := ?, + template OCT9 id_lv := ?, + template uint8_t chan_needed := ?, + template PCUIF_Sapi sapi := ?) := { + msg_type := PCU_IF_MSG_PAG_REQ, + bts_nr := bts_nr, + spare := ?, + u := { + pag_req := { + sapi := ?, + chan_needed := chan_needed, + identity_lv := id_lv + } + } +} + +const PCUIF_Flags c_PCUIF_Flags_default := { + bts_active := true, + sysmo_direct_dsp := false, + spare := '00000000000000'B, + cs1 := true, + cs2 := true, + cs3 := true, + cs4 := true, + mcs1 := true, + mcs2 := true, + mcs3 := true, + mcs4 := true, + mcs5 := true, + mcs6 := true, + mcs7 := true, + mcs8 := true, + mcs9 := true, + spare2 := '000'B +}; + +template (value) PCUIF_InfoTrx ts_PCUIF_InfoTrx(template (value) uint16_t arfcn := 871, + template (value) BIT8 pdch_mask := '00000001'B, + OCT1 tsc := '07'O) := { + arfcn := arfcn, + pdch_mask := pdch_mask, + spare := '00'O, + tsc := tsc & tsc & tsc & tsc & tsc & tsc & tsc & tsc, + hLayer1 := 0 +} + +template (value) PCUIF_InfoTrx ts_PCUIF_InfoTrxNULL := ts_PCUIF_InfoTrx(0, '00000000'B, '00'O); + +template (value) PCUIF_InfoTrxs ts_PCUIF_InfoTrxs_def := { + ts_PCUIF_InfoTrx, ts_PCUIF_InfoTrxNULL, ts_PCUIF_InfoTrxNULL, ts_PCUIF_InfoTrxNULL, + ts_PCUIF_InfoTrxNULL, ts_PCUIF_InfoTrxNULL, ts_PCUIF_InfoTrxNULL, ts_PCUIF_InfoTrxNULL }; + + +template (value) PCUIF_Message ts_PCUIF_INFO_IND(template (value) uint8_t bts_nr, + template (value) uint16_t nsei, + template (value) uint16_t nsvci, + template (value) uint16_t bvci, + template (value) uint16_t local_port, + template (value) uint16_t remote_port, + template (value) OCT4 remote_ip, + template (value) PCUIF_Flags flags := c_PCUIF_Flags_default, + template (value) uint16_t mcc := 262, + template (value) uint16_t mnc := 42, + template (value) uint16_t lac := 13135, + template (value) uint8_t rac := 0, + template (value) uint16_t cell_id := 20960, + template (value) uint8_t bsic := 7, + template (value) PCUIF_InfoTrxs trx := ts_PCUIF_InfoTrxs_def, + template (value) uint32_t version := PCU_IF_VERSION) := { + msg_type := PCU_IF_MSG_INFO_IND, + bts_nr := bts_nr, + spare := '0000'O, + u := { + info_ind := { + version := version, + flags := flags, + trx := trx, + bsic := bsic, + mcc := mcc, + mnc := mnc, + mnc_3_digits := 0, + lac := lac, + rac := rac, + nsei := nsei, + nse_timer := { 3, 3, 3, 3, 30, 3, 10 }, + cell_timer := { 3, 3, 3, 3, 3, 10, 3, 10, 3, 10, 3 }, + cell_id := cell_id, + repeat_time := 5 * 50, + repeat_count := 3, + bvci := bvci, + t3142 := 20, + t3169 := 5, + t3191 := 5, + t3193_10ms := 160, + t3195 := 5, + t3101 := 10, + t3103 := 4, + t3105 := 8, + cv_countdown := 15, + dl_tbf_ext := 250 * 10, /* ms */ + ul_tbf_ext := 250 * 10, /* ms */ + initial_cs := 2, + initial_mcs := 6, + nsvci := { nsvci, 0 }, + local_pprt := { local_port, 0 }, + remote_port := { remote_port, 0 }, + remote_ip := { remote_ip , '00000000'O } + } + } +} +template PCUIF_Message tr_PCUIF_INFO_IND(template uint8_t bts_nr := ?, + template PCUIF_Flags flags := ?, + template uint32_t version := PCU_IF_VERSION) := { + msg_type := PCU_IF_MSG_INFO_IND, + bts_nr := bts_nr, + spare := ?, + u := { + info_ind := { + version := version, + flags := flags, + trx := ?, + bsic := ?, + mcc := ?, + mnc :=?, + mnc_3_digits := ?, + lac := ?, + rac := ?, + nsei := ?, + nse_timer := ?, + cell_timer := ?, + cell_id := ?, + repeat_time := ?, + repeat_count := ?, + bvci := ?, + t3142 := ?, + t3169 := ?, + t3191 := ?, + t3193_10ms := ?, + t3195 := ?, + t3101 := ?, + t3103 := ?, + t3105 := ?, + cv_countdown := ?, + dl_tbf_ext := ?, + ul_tbf_ext := ?, + initial_cs := ?, + initial_mcs := ?, + nsvci := ?, + local_pprt := ?, + remote_port := ?, + remote_ip := ? + } + } +} + +template (value) PCUIF_Message ts_PCUIF_TIME_IND(template (value) uint8_t bts_nr, + template (value) uint32_t fn) := { + msg_type := PCU_IF_MSG_TIME_IND, + bts_nr := bts_nr, + spare := '0000'O, + u := { + time_ind := { + fn := fn + } + } +} +template PCUIF_Message tr_PCUIF_TIME_IND(template uint8_t bts_nr, + template uint32_t fn) := { + msg_type := PCU_IF_MSG_TIME_IND, + bts_nr := bts_nr, + spare := ?, + u := { + time_ind := { + fn := fn + } + } +} + +template (value) PCUIF_Message ts_PCUIF_SUSP_REQ(template (value) uint8_t bts_nr, + template (value) OCT4 tlli, + template (value) OCT6 ra_id, + template (value) uint8_t cause) := { + msg_type := PCU_IF_MSG_SUSP_REQ, + bts_nr := bts_nr, + spare := '0000'O, + u := { + susp_req := { + tlli := tlli, + ra_id := ra_id, + cause := cause + } + } +} +template PCUIF_Message tr_PCUIF_SUSP_REQ(template uint8_t bts_nr, + template OCT4 tlli, + template OCT6 ra_id, + template uint8_t cause) := { + msg_type := PCU_IF_MSG_SUSP_REQ, + bts_nr := bts_nr, + spare := '0000'O, + u := { + susp_req := { + tlli := tlli, + ra_id := ra_id, + cause := cause + } + } +} + + +} with { encode "RAW" variant "BYTEORDER(first)" }; -- cgit v1.2.3