diff options
Diffstat (limited to 'titan/MNCC_Types.cc')
| -rw-r--r-- | titan/MNCC_Types.cc | 33991 |
1 files changed, 33991 insertions, 0 deletions
diff --git a/titan/MNCC_Types.cc b/titan/MNCC_Types.cc new file mode 100644 index 0000000..50a1018 --- /dev/null +++ b/titan/MNCC_Types.cc @@ -0,0 +1,33991 @@ +// This C++ source file was generated by the TTCN-3 compiler +// of the TTCN-3 Test Executor version CRL 113 200/6 R3B +// for Harald Welte (laforge@nataraja) on Sun Mar 25 21:50:30 2018 + +// Copyright (c) 2000-2017 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[] = { 0x23, 0x16, 0x8d, 0x81, 0x1d, 0x6b, 0x1a, 0x28, 0x1f, 0xc4, 0xac, 0x47, 0x8f, 0xb2, 0x62, 0x18 }; + +/* 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}; +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_JSONdescriptor_t int__json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +const TTCN_Typedescriptor_t int__descr_ = { "@MNCC_Types.int", &INTEGER_ber_, &int__raw_, &INTEGER_text_, &int__xer_, &int__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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +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_JSONdescriptor_t MNCC__bearer__cap__data_async_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__bearer__cap__data_async_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}; +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_JSONdescriptor_t MNCC__bearer__cap__data_nr__stop__bits_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__bearer__cap__data_nr__stop__bits_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}; +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_JSONdescriptor_t MNCC__bearer__cap__data_nr__data__bits_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__bearer__cap__data_nr__data__bits_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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +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_JSONdescriptor_t MNCC__speech__vers_0_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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.<oftype>", &INTEGER_ber_, &MNCC__speech__vers_0_raw_, &INTEGER_text_, &MNCC__speech__vers_0_xer_, &MNCC__speech__vers_0_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}; +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_JSONdescriptor_t MNCC__bearer__cap_transfer_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__bearer__cap_transfer_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}; +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_JSONdescriptor_t MNCC__bearer__cap_mode_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__bearer__cap_mode_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}; +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_JSONdescriptor_t MNCC__bearer__cap_coding_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__bearer__cap_coding_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}; +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_JSONdescriptor_t MNCC__bearer__cap_radio_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__bearer__cap_radio_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}; +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_JSONdescriptor_t MNCC__bearer__cap_speech__ctm_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__bearer__cap_speech__ctm_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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +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_JSONdescriptor_t MNCC__number_number_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +const TTCN_Typedescriptor_t MNCC__number_number_descr_ = { "@MNCC_Types.MNCC_number.number", NULL, &MNCC__number_number_raw_, &CHARSTRING_text_, &MNCC__number_number_xer_, &MNCC__number_number_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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +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_JSONdescriptor_t MNCC__cause_rec_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__cause_rec_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}; +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_JSONdescriptor_t MNCC__cause_rec__val_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__cause_rec__val_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}; +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_JSONdescriptor_t MNCC__cause_val_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__cause_val_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}; +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 TTCN_JSONdescriptor_t MNCC__cause_diag_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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, FALSE, -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_, &MNCC__cause_diag_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}; +// 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}; +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_JSONdescriptor_t MNCC__useruser_proto_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__useruser_proto_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}; +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_JSONdescriptor_t MNCC__useruser_info_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +const TTCN_Typedescriptor_t MNCC__useruser_info_descr_ = { "@MNCC_Types.MNCC_useruser.info", NULL, &MNCC__useruser_info_raw_, &CHARSTRING_text_, &MNCC__useruser_info_xer_, &MNCC__useruser_info_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}; +// 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}; +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_JSONdescriptor_t MNCC__progress_coding_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__progress_coding_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}; +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_JSONdescriptor_t MNCC__progress_location_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__progress_location_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}; +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_JSONdescriptor_t MNCC__progress_descr_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__progress_descr_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}; +// 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}; +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_JSONdescriptor_t MNCC__cccap_dtmf_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__cccap_dtmf_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}; +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_JSONdescriptor_t MNCC__cccap_pcp_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__cccap_pcp_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}; +// 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}; +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_JSONdescriptor_t MNCC__notify_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__notify_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}; +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_JSONdescriptor_t MNCC__keypad_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +const TTCN_Typedescriptor_t MNCC__keypad_descr_ = { "@MNCC_Types.MNCC_keypad", NULL, &MNCC__keypad_raw_, &CHARSTRING_text_, &MNCC__keypad_xer_, &MNCC__keypad_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}; +// 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}; +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_JSONdescriptor_t MNCC__PDU__Signal_callref_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_callref_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}; +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_JSONdescriptor_t MNCC__PDU__Signal_clir__sup_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_clir__sup_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}; +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_JSONdescriptor_t MNCC__PDU__Signal_clir__inv_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_clir__inv_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}; +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_JSONdescriptor_t MNCC__PDU__Signal_more_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_more_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}; +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_JSONdescriptor_t MNCC__PDU__Signal_notify_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_notify_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}; +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_JSONdescriptor_t MNCC__PDU__Signal_imsi_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_imsi_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}; +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_JSONdescriptor_t MNCC__PDU__Signal_lchan__type_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_lchan__type_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}; +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_JSONdescriptor_t MNCC__PDU__Signal_lchan__mode_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_lchan__mode_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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +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_JSONdescriptor_t MNCC__PDU__Signal_facility_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_facility_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}; +// 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}; +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_JSONdescriptor_t MNCC__PDU__Signal_ssversion_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_ssversion_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}; +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_JSONdescriptor_t MNCC__PDU__Signal_signal_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_signal_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}; +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_JSONdescriptor_t MNCC__PDU__Signal_keypad_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_keypad_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}; +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_JSONdescriptor_t MNCC__PDU__Signal_emergency_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Signal_emergency_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}; +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_JSONdescriptor_t MNCC__PDU__Data_callref_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Data_callref_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}; +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 TTCN_JSONdescriptor_t MNCC__PDU__Data_data_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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, FALSE, -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_, &MNCC__PDU__Data_data_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}; +// 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}; +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_JSONdescriptor_t MNCC__PDU__Rtp_callref_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Rtp_callref_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}; +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_JSONdescriptor_t MNCC__PDU__Rtp_ip_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Rtp_ip_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}; +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_JSONdescriptor_t MNCC__PDU__Rtp_rtp__port_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Rtp_rtp__port_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}; +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_JSONdescriptor_t MNCC__PDU__Rtp_payload__type_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Rtp_payload__type_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}; +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_JSONdescriptor_t MNCC__PDU__Rtp_payload__msg__type_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Rtp_payload__msg__type_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}; +// 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}; +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_JSONdescriptor_t MNCC__PDU__Hello_version_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Hello_version_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}; +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_JSONdescriptor_t MNCC__PDU__Hello_mncc__size_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Hello_mncc__size_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}; +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_JSONdescriptor_t MNCC__PDU__Hello_data__frame__size_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Hello_data__frame__size_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}; +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_JSONdescriptor_t MNCC__PDU__Hello_called__offset_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Hello_called__offset_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}; +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_JSONdescriptor_t MNCC__PDU__Hello_signal__offset_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Hello_signal__offset_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}; +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_JSONdescriptor_t MNCC__PDU__Hello_emergency__offset_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Hello_emergency__offset_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}; +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_JSONdescriptor_t MNCC__PDU__Hello_lchan__type__offset_json_ = { FALSE, NULL, FALSE, NULL, FALSE, FALSE }; +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_, &MNCC__PDU__Hello_lchan__type__offset_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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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}; +// 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); + +static const RuntimeVersionChecker ver_checker( current_runtime_version.requires_major_version_6, + current_runtime_version.requires_minor_version_3, + current_runtime_version.requires_patch_level_1, 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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__bcap__ra>& 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<GSM48__bcap__ra>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__bcap__ra_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__bcap__sig__access>& 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<GSM48__bcap__sig__access>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__bcap__sig__access_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__bcap__user__rate>& 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<GSM48__bcap__user__rate>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__bcap__user__rate_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__bcap__parity>& 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<GSM48__bcap__parity>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__bcap__parity_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__bcap__interm__rate>& 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<GSM48__bcap__interm__rate>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__bcap__interm__rate_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__bcap__transp>& 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<GSM48__bcap__transp>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__bcap__transp_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__bcap__modem__type>& 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<GSM48__bcap__modem__type>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__bcap__modem__type_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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__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 "<unknown>"; +} +} + +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_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 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) +{ + 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<MNCC__MsgType>& 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<MNCC__MsgType>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void MNCC__MsgType_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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__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_i<m_p->get_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(); +} + +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 (10<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_bearer_cap_data has 10 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_bearer_cap_data: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_rate__adaptation.RAW_decode(MNCC__bearer__cap__data_rate__adaptation_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_sig__access.RAW_decode(MNCC__bearer__cap__data_sig__access_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_async.RAW_decode(MNCC__bearer__cap__data_async_descr_, p_buf, limit, local_top_order, no_err); + 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()); + 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); + 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()); + 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); + 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()); + decoded_field_length = field_user__rate.RAW_decode(MNCC__bearer__cap__data_user__rate_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_parity.RAW_decode(MNCC__bearer__cap__data_parity_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_interm__rate.RAW_decode(MNCC__bearer__cap__data_interm__rate_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_transp.RAW_decode(MNCC__bearer__cap__data_transp_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_modem__type.RAW_decode(MNCC__bearer__cap__data_modem__type_descr_, p_buf, limit, local_top_order, no_err); + 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<MNCC__bearer__cap__data>& 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<MNCC__bearer__cap__data>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (10<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_bearer_cap_data has 10 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_bearer_cap_data: %s", param.get_elem(val_idx)->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<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +MNCC__bearer__cap::MNCC__bearer__cap() +{ +} + +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<MNCC__bearer__cap__data>& 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(); +} + +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 (7<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_bearer_cap has 7 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_bearer_cap: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_transfer.RAW_decode(MNCC__bearer__cap_transfer_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_mode.RAW_decode(MNCC__bearer__cap_mode_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_coding.RAW_decode(MNCC__bearer__cap_coding_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_radio.RAW_decode(MNCC__bearer__cap_radio_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_speech__ctm.RAW_decode(MNCC__bearer__cap_speech__ctm_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_speech__ver.RAW_decode(MNCC__bearer__cap_speech__ver_descr_, p_buf, limit, local_top_order, no_err); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_data().RAW_decode(MNCC__bearer__cap_data_descr_, p_buf, limit, local_top_order, TRUE); + 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<MNCC__bearer__cap>& 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<MNCC__bearer__cap>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (7<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_bearer_cap has 7 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_bearer_cap: %s", param.get_elem(val_idx)->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<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +GSM48__type__of__number::GSM48__type__of__number() +{ +enum_value = UNBOUND_VALUE; +} + +GSM48__type__of__number::GSM48__type__of__number(int other_value) +{ +if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_type_of_number with invalid numeric value %d.", other_value); +enum_value = (enum_type)other_value; +} + +GSM48__type__of__number::GSM48__type__of__number(enum_type other_value) +{ +enum_value = other_value; +} + +GSM48__type__of__number::GSM48__type__of__number(const GSM48__type__of__number& other_value) +: Base_Type() +{ +if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_type_of_number."); +enum_value = other_value.enum_value; +} + +GSM48__type__of__number& GSM48__type__of__number::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_type_of_number.", other_value); +enum_value = (enum_type)other_value; +return *this; +} + +GSM48__type__of__number& GSM48__type__of__number::operator=(enum_type other_value) +{ +enum_value = other_value; +return *this; +} + +GSM48__type__of__number& GSM48__type__of__number::operator=(const GSM48__type__of__number& other_value) +{ +if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_type_of_number."); +enum_value = other_value.enum_value; +return *this; +} + +boolean GSM48__type__of__number::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_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; +} + +boolean GSM48__type__of__number::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_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; +} + +boolean GSM48__type__of__number::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_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__type__of__number>& 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<GSM48__type__of__number>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__type__of__number_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__num__plan__ind>& 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<GSM48__num__plan__ind>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__num__plan__ind_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__present__ind>& 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<GSM48__present__ind>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__present__ind_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__screening__ind>& 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<GSM48__screening__ind>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__screening__ind_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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(); +} + +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 (5<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_number has 5 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_number: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_number__type.RAW_decode(MNCC__number_number__type_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_plan.RAW_decode(MNCC__number_plan_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_presence.RAW_decode(MNCC__number_presence_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_screen.RAW_decode(MNCC__number_screen_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_number.RAW_decode(MNCC__number_number_descr_, p_buf, limit, local_top_order, no_err); + 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<MNCC__number>& 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<MNCC__number>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (5<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_number has 5 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_number: %s", param.get_elem(val_idx)->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<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +GSM48__cause__coding::GSM48__cause__coding() +{ +enum_value = UNBOUND_VALUE; +} + +GSM48__cause__coding::GSM48__cause__coding(int other_value) +{ +if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.GSM48_cause_coding with invalid numeric value %d.", other_value); +enum_value = (enum_type)other_value; +} + +GSM48__cause__coding::GSM48__cause__coding(enum_type other_value) +{ +enum_value = other_value; +} + +GSM48__cause__coding::GSM48__cause__coding(const GSM48__cause__coding& other_value) +: Base_Type() +{ +if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.GSM48_cause_coding."); +enum_value = other_value.enum_value; +} + +GSM48__cause__coding& GSM48__cause__coding::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_coding.", other_value); +enum_value = (enum_type)other_value; +return *this; +} + +GSM48__cause__coding& GSM48__cause__coding::operator=(enum_type other_value) +{ +enum_value = other_value; +return *this; +} + +GSM48__cause__coding& GSM48__cause__coding::operator=(const GSM48__cause__coding& other_value) +{ +if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.GSM48_cause_coding."); +enum_value = other_value.enum_value; +return *this; +} + +boolean GSM48__cause__coding::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_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; +} + +boolean GSM48__cause__coding::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_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; +} + +boolean GSM48__cause__coding::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_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__cause__coding>& 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<GSM48__cause__coding>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__cause__coding_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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 "<unknown>"; +} +} + +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) +{ + 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<GSM48__cause__loc>& 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<GSM48__cause__loc>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void GSM48__cause__loc_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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: { + 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_i<m_p->get_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(); +} + +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 (6<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_cause has 6 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_cause: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_location.RAW_decode(MNCC__cause_location_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_coding.RAW_decode(MNCC__cause_coding_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_rec.RAW_decode(MNCC__cause_rec_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_rec__val.RAW_decode(MNCC__cause_rec__val_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_val.RAW_decode(MNCC__cause_val_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_diag.RAW_decode(MNCC__cause_diag_descr_, p_buf, limit, local_top_order, no_err); + 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<MNCC__cause>& 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<MNCC__cause>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (6<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_cause has 6 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_cause: %s", param.get_elem(val_idx)->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_idx<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +MNCC__useruser::MNCC__useruser() +{ +} + +MNCC__useruser::MNCC__useruser(const INTEGER& par_proto, + const CHARSTRING& par_info) + : field_proto(par_proto), + field_info(par_info) +{ +} + +MNCC__useruser::MNCC__useruser(const MNCC__useruser& other_value) +{ +if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_useruser."); +if (other_value.proto().is_bound()) field_proto = other_value.proto(); +else field_proto.clean_up(); +if (other_value.info().is_bound()) field_info = other_value.info(); +else field_info.clean_up(); +} + +void MNCC__useruser::clean_up() +{ +field_proto.clean_up(); +field_info.clean_up(); +} + +MNCC__useruser& MNCC__useruser::operator=(const MNCC__useruser& other_value) +{ +if (this != &other_value) { + if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_useruser."); + if (other_value.proto().is_bound()) field_proto = other_value.proto(); + else field_proto.clean_up(); + if (other_value.info().is_bound()) field_info = other_value.info(); + else field_info.clean_up(); +} +return *this; +} + +boolean MNCC__useruser::operator==(const MNCC__useruser& other_value) const +{ +return field_proto==other_value.field_proto + && field_info==other_value.field_info; +} + +boolean MNCC__useruser::is_bound() const +{ +if(field_proto.is_bound()) return TRUE; +if(field_info.is_bound()) return TRUE; +return FALSE; +} +boolean MNCC__useruser::is_value() const +{ +if(!field_proto.is_value()) return FALSE; +if(!field_info.is_value()) return FALSE; +return TRUE; +} +void MNCC__useruser::log() const +{ +if (!is_bound()) { +TTCN_Logger::log_event_unbound(); +return; +} +TTCN_Logger::log_event_str("{ proto := "); +field_proto.log(); +TTCN_Logger::log_event_str(", info := "); +field_info.log(); +TTCN_Logger::log_event_str(" }"); +} + +void MNCC__useruser::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 (2<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_useruser has 2 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_useruser: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_proto.RAW_decode(MNCC__useruser_proto_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_info.RAW_decode(MNCC__useruser_info_descr_, p_buf, limit, local_top_order, no_err); + 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<MNCC__useruser>& 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<MNCC__useruser>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (2<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_useruser has 2 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_useruser: %s", param.get_elem(val_idx)->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_idx<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +MNCC__progress::MNCC__progress() +{ +} + +MNCC__progress::MNCC__progress(const INTEGER& par_coding, + const INTEGER& par_location, + const INTEGER& par_descr) + : field_coding(par_coding), + field_location(par_location), + field_descr(par_descr) +{ +} + +MNCC__progress::MNCC__progress(const MNCC__progress& other_value) +{ +if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_progress."); +if (other_value.coding().is_bound()) field_coding = other_value.coding(); +else field_coding.clean_up(); +if (other_value.location().is_bound()) field_location = other_value.location(); +else field_location.clean_up(); +if (other_value.descr().is_bound()) field_descr = other_value.descr(); +else field_descr.clean_up(); +} + +void MNCC__progress::clean_up() +{ +field_coding.clean_up(); +field_location.clean_up(); +field_descr.clean_up(); +} + +MNCC__progress& MNCC__progress::operator=(const MNCC__progress& other_value) +{ +if (this != &other_value) { + if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_progress."); + if (other_value.coding().is_bound()) field_coding = other_value.coding(); + else field_coding.clean_up(); + if (other_value.location().is_bound()) field_location = other_value.location(); + else field_location.clean_up(); + if (other_value.descr().is_bound()) field_descr = other_value.descr(); + else field_descr.clean_up(); +} +return *this; +} + +boolean MNCC__progress::operator==(const MNCC__progress& other_value) const +{ +return field_coding==other_value.field_coding + && field_location==other_value.field_location + && field_descr==other_value.field_descr; +} + +boolean MNCC__progress::is_bound() const +{ +if(field_coding.is_bound()) return TRUE; +if(field_location.is_bound()) return TRUE; +if(field_descr.is_bound()) return TRUE; +return FALSE; +} +boolean MNCC__progress::is_value() const +{ +if(!field_coding.is_value()) return FALSE; +if(!field_location.is_value()) return FALSE; +if(!field_descr.is_value()) return FALSE; +return TRUE; +} +void MNCC__progress::log() const +{ +if (!is_bound()) { +TTCN_Logger::log_event_unbound(); +return; +} +TTCN_Logger::log_event_str("{ coding := "); +field_coding.log(); +TTCN_Logger::log_event_str(", location := "); +field_location.log(); +TTCN_Logger::log_event_str(", descr := "); +field_descr.log(); +TTCN_Logger::log_event_str(" }"); +} + +void MNCC__progress::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 (3<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_progress has 3 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_progress: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_coding.RAW_decode(MNCC__progress_coding_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_location.RAW_decode(MNCC__progress_location_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_descr.RAW_decode(MNCC__progress_descr_descr_, p_buf, limit, local_top_order, no_err); + 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<MNCC__progress>& 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<MNCC__progress>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (3<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_progress has 3 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_progress: %s", param.get_elem(val_idx)->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_idx<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +MNCC__cccap::MNCC__cccap() +{ +} + +MNCC__cccap::MNCC__cccap(const INTEGER& par_dtmf, + const INTEGER& par_pcp) + : field_dtmf(par_dtmf), + field_pcp(par_pcp) +{ +} + +MNCC__cccap::MNCC__cccap(const MNCC__cccap& other_value) +{ +if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_cccap."); +if (other_value.dtmf().is_bound()) field_dtmf = other_value.dtmf(); +else field_dtmf.clean_up(); +if (other_value.pcp().is_bound()) field_pcp = other_value.pcp(); +else field_pcp.clean_up(); +} + +void MNCC__cccap::clean_up() +{ +field_dtmf.clean_up(); +field_pcp.clean_up(); +} + +MNCC__cccap& MNCC__cccap::operator=(const MNCC__cccap& other_value) +{ +if (this != &other_value) { + if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_cccap."); + if (other_value.dtmf().is_bound()) field_dtmf = other_value.dtmf(); + else field_dtmf.clean_up(); + if (other_value.pcp().is_bound()) field_pcp = other_value.pcp(); + else field_pcp.clean_up(); +} +return *this; +} + +boolean MNCC__cccap::operator==(const MNCC__cccap& other_value) const +{ +return field_dtmf==other_value.field_dtmf + && field_pcp==other_value.field_pcp; +} + +boolean MNCC__cccap::is_bound() const +{ +if(field_dtmf.is_bound()) return TRUE; +if(field_pcp.is_bound()) return TRUE; +return FALSE; +} +boolean MNCC__cccap::is_value() const +{ +if(!field_dtmf.is_value()) return FALSE; +if(!field_pcp.is_value()) return FALSE; +return TRUE; +} +void MNCC__cccap::log() const +{ +if (!is_bound()) { +TTCN_Logger::log_event_unbound(); +return; +} +TTCN_Logger::log_event_str("{ dtmf := "); +field_dtmf.log(); +TTCN_Logger::log_event_str(", pcp := "); +field_pcp.log(); +TTCN_Logger::log_event_str(" }"); +} + +void MNCC__cccap::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 (2<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_cccap has 2 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_cccap: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_dtmf.RAW_decode(MNCC__cccap_dtmf_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_pcp.RAW_decode(MNCC__cccap_pcp_descr_, p_buf, limit, local_top_order, no_err); + 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<MNCC__cccap>& 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<MNCC__cccap>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (2<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_cccap has 2 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_cccap: %s", param.get_elem(val_idx)->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<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +MNCC__bcap::MNCC__bcap() +{ +enum_value = UNBOUND_VALUE; +} + +MNCC__bcap::MNCC__bcap(int other_value) +{ +if (!is_valid_enum(other_value)) TTCN_error("Initializing a variable of enumerated type @MNCC_Types.MNCC_bcap with invalid numeric value %d.", other_value); +enum_value = (enum_type)other_value; +} + +MNCC__bcap::MNCC__bcap(enum_type other_value) +{ +enum_value = other_value; +} + +MNCC__bcap::MNCC__bcap(const MNCC__bcap& other_value) +: Base_Type() +{ +if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Copying an unbound value of enumerated type @MNCC_Types.MNCC_bcap."); +enum_value = other_value.enum_value; +} + +MNCC__bcap& MNCC__bcap::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_bcap.", other_value); +enum_value = (enum_type)other_value; +return *this; +} + +MNCC__bcap& MNCC__bcap::operator=(enum_type other_value) +{ +enum_value = other_value; +return *this; +} + +MNCC__bcap& MNCC__bcap::operator=(const MNCC__bcap& other_value) +{ +if (other_value.enum_value == UNBOUND_VALUE) TTCN_error("Assignment of an unbound value of enumerated type @MNCC_Types.MNCC_bcap."); +enum_value = other_value.enum_value; +return *this; +} + +boolean MNCC__bcap::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_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; +} + +boolean MNCC__bcap::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_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; +} + +boolean MNCC__bcap::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_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 "<unknown>"; +} +} + +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) +{ + 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<MNCC__bcap>& 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<MNCC__bcap>& 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; i<value_list.n_values; i++) +if (value_list.list_value[i].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void MNCC__bcap_template::set_param(Module_Param& param) +{ + param.basic_check(Module_Param::BC_TEMPLATE, "enumerated 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__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_i<m_p->get_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<MNCC__bearer__cap>& par_bearer__cap, + const OPTIONAL<MNCC__number>& par_called, + const OPTIONAL<MNCC__number>& par_calling, + const OPTIONAL<MNCC__number>& par_redirecting, + const OPTIONAL<MNCC__number>& par_connected, + const OPTIONAL<MNCC__cause>& par_cause, + const OPTIONAL<MNCC__progress>& par_progress, + const OPTIONAL<MNCC__useruser>& par_useruser, + const OPTIONAL<CHARSTRING>& par_facility, + const OPTIONAL<MNCC__cccap>& par_cccap, + const OPTIONAL<CHARSTRING>& par_ssversion, + const INTEGER& par_clir__sup, + const INTEGER& par_clir__inv, + const OPTIONAL<INTEGER>& par_signal, + const OPTIONAL<CHARSTRING>& par_keypad, + const INTEGER& par_more, + const INTEGER& par_notify, + const OPTIONAL<INTEGER>& 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(); +} + +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 (22<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_PDU_Signal has 22 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_PDU_Signal: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_callref.RAW_decode(MNCC__PDU__Signal_callref_descr_, p_buf, limit, local_top_order, no_err); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_bearer__cap().RAW_decode(MNCC__PDU__Signal_bearer__cap_descr_, p_buf, limit, local_top_order, TRUE); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_called().RAW_decode(MNCC__PDU__Signal_called_descr_, p_buf, limit, local_top_order, TRUE); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_calling().RAW_decode(MNCC__PDU__Signal_calling_descr_, p_buf, limit, local_top_order, TRUE); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_redirecting().RAW_decode(MNCC__PDU__Signal_redirecting_descr_, p_buf, limit, local_top_order, TRUE); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_connected().RAW_decode(MNCC__PDU__Signal_connected_descr_, p_buf, limit, local_top_order, TRUE); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_cause().RAW_decode(MNCC__PDU__Signal_cause_descr_, p_buf, limit, local_top_order, TRUE); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_progress().RAW_decode(MNCC__PDU__Signal_progress_descr_, p_buf, limit, local_top_order, TRUE); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_useruser().RAW_decode(MNCC__PDU__Signal_useruser_descr_, p_buf, limit, local_top_order, TRUE); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_facility().RAW_decode(MNCC__PDU__Signal_facility_descr_, p_buf, limit, local_top_order, TRUE); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_cccap().RAW_decode(MNCC__PDU__Signal_cccap_descr_, p_buf, limit, local_top_order, TRUE); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_ssversion().RAW_decode(MNCC__PDU__Signal_ssversion_descr_, p_buf, limit, local_top_order, TRUE); + 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; + decoded_field_length = field_clir__sup.RAW_decode(MNCC__PDU__Signal_clir__sup_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_clir__inv.RAW_decode(MNCC__PDU__Signal_clir__inv_descr_, p_buf, limit, local_top_order, no_err); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_signal().RAW_decode(MNCC__PDU__Signal_signal_descr_, p_buf, limit, local_top_order, TRUE); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_keypad().RAW_decode(MNCC__PDU__Signal_keypad_descr_, p_buf, limit, local_top_order, TRUE); + 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; + decoded_field_length = field_more.RAW_decode(MNCC__PDU__Signal_more_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_notify.RAW_decode(MNCC__PDU__Signal_notify_descr_, p_buf, limit, local_top_order, no_err); + 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){ + size_t fl_start_pos = p_buf.get_pos_bit(); + decoded_field_length = field_emergency().RAW_decode(MNCC__PDU__Signal_emergency_descr_, p_buf, limit, local_top_order, TRUE); + 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; + decoded_field_length = field_imsi.RAW_decode(MNCC__PDU__Signal_imsi_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_lchan__type.RAW_decode(MNCC__PDU__Signal_lchan__type_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_lchan__mode.RAW_decode(MNCC__PDU__Signal_lchan__mode_descr_, p_buf, limit, local_top_order, no_err); + 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<MNCC__PDU__Signal>& 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<MNCC__PDU__Signal>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (22<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_PDU_Signal has 22 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_PDU_Signal: %s", param.get_elem(val_idx)->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_idx<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +MNCC__PDU__Data::MNCC__PDU__Data() +{ +} + +MNCC__PDU__Data::MNCC__PDU__Data(const INTEGER& par_callref, + const OCTETSTRING& par_data) + : field_callref(par_callref), + field_data(par_data) +{ +} + +MNCC__PDU__Data::MNCC__PDU__Data(const MNCC__PDU__Data& other_value) +{ +if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_PDU_Data."); +if (other_value.callref().is_bound()) field_callref = other_value.callref(); +else field_callref.clean_up(); +if (other_value.data().is_bound()) field_data = other_value.data(); +else field_data.clean_up(); +} + +void MNCC__PDU__Data::clean_up() +{ +field_callref.clean_up(); +field_data.clean_up(); +} + +MNCC__PDU__Data& MNCC__PDU__Data::operator=(const MNCC__PDU__Data& other_value) +{ +if (this != &other_value) { + if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_PDU_Data."); + if (other_value.callref().is_bound()) field_callref = other_value.callref(); + else field_callref.clean_up(); + if (other_value.data().is_bound()) field_data = other_value.data(); + else field_data.clean_up(); +} +return *this; +} + +boolean MNCC__PDU__Data::operator==(const MNCC__PDU__Data& other_value) const +{ +return field_callref==other_value.field_callref + && field_data==other_value.field_data; +} + +boolean MNCC__PDU__Data::is_bound() const +{ +if(field_callref.is_bound()) return TRUE; +if(field_data.is_bound()) return TRUE; +return FALSE; +} +boolean MNCC__PDU__Data::is_value() const +{ +if(!field_callref.is_value()) return FALSE; +if(!field_data.is_value()) return FALSE; +return TRUE; +} +void MNCC__PDU__Data::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(", data := "); +field_data.log(); +TTCN_Logger::log_event_str(" }"); +} + +void MNCC__PDU__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 (2<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_PDU_Data has 2 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_PDU_Data: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_callref.RAW_decode(MNCC__PDU__Data_callref_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_data.RAW_decode(MNCC__PDU__Data_data_descr_, p_buf, limit, local_top_order, no_err); + 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<MNCC__PDU__Data>& 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<MNCC__PDU__Data>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (2<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_PDU_Data has 2 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_PDU_Data: %s", param.get_elem(val_idx)->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_idx<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +MNCC__PDU__Rtp::MNCC__PDU__Rtp() +{ +} + +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) + : field_callref(par_callref), + field_ip(par_ip), + field_rtp__port(par_rtp__port), + field_payload__type(par_payload__type), + field_payload__msg__type(par_payload__msg__type) +{ +} + +MNCC__PDU__Rtp::MNCC__PDU__Rtp(const MNCC__PDU__Rtp& other_value) +{ +if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_PDU_Rtp."); +if (other_value.callref().is_bound()) field_callref = other_value.callref(); +else field_callref.clean_up(); +if (other_value.ip().is_bound()) field_ip = other_value.ip(); +else field_ip.clean_up(); +if (other_value.rtp__port().is_bound()) field_rtp__port = other_value.rtp__port(); +else field_rtp__port.clean_up(); +if (other_value.payload__type().is_bound()) field_payload__type = other_value.payload__type(); +else field_payload__type.clean_up(); +if (other_value.payload__msg__type().is_bound()) field_payload__msg__type = other_value.payload__msg__type(); +else field_payload__msg__type.clean_up(); +} + +void MNCC__PDU__Rtp::clean_up() +{ +field_callref.clean_up(); +field_ip.clean_up(); +field_rtp__port.clean_up(); +field_payload__type.clean_up(); +field_payload__msg__type.clean_up(); +} + +MNCC__PDU__Rtp& MNCC__PDU__Rtp::operator=(const MNCC__PDU__Rtp& other_value) +{ +if (this != &other_value) { + if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_PDU_Rtp."); + if (other_value.callref().is_bound()) field_callref = other_value.callref(); + else field_callref.clean_up(); + if (other_value.ip().is_bound()) field_ip = other_value.ip(); + else field_ip.clean_up(); + if (other_value.rtp__port().is_bound()) field_rtp__port = other_value.rtp__port(); + else field_rtp__port.clean_up(); + if (other_value.payload__type().is_bound()) field_payload__type = other_value.payload__type(); + else field_payload__type.clean_up(); + if (other_value.payload__msg__type().is_bound()) field_payload__msg__type = other_value.payload__msg__type(); + else field_payload__msg__type.clean_up(); +} +return *this; +} + +boolean MNCC__PDU__Rtp::operator==(const MNCC__PDU__Rtp& other_value) const +{ +return field_callref==other_value.field_callref + && field_ip==other_value.field_ip + && field_rtp__port==other_value.field_rtp__port + && field_payload__type==other_value.field_payload__type + && field_payload__msg__type==other_value.field_payload__msg__type; +} + +boolean MNCC__PDU__Rtp::is_bound() const +{ +if(field_callref.is_bound()) return TRUE; +if(field_ip.is_bound()) return TRUE; +if(field_rtp__port.is_bound()) return TRUE; +if(field_payload__type.is_bound()) return TRUE; +if(field_payload__msg__type.is_bound()) return TRUE; +return FALSE; +} +boolean MNCC__PDU__Rtp::is_value() const +{ +if(!field_callref.is_value()) return FALSE; +if(!field_ip.is_value()) return FALSE; +if(!field_rtp__port.is_value()) return FALSE; +if(!field_payload__type.is_value()) return FALSE; +if(!field_payload__msg__type.is_value()) return FALSE; +return TRUE; +} +void MNCC__PDU__Rtp::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(", ip := "); +field_ip.log(); +TTCN_Logger::log_event_str(", rtp_port := "); +field_rtp__port.log(); +TTCN_Logger::log_event_str(", payload_type := "); +field_payload__type.log(); +TTCN_Logger::log_event_str(", payload_msg_type := "); +field_payload__msg__type.log(); +TTCN_Logger::log_event_str(" }"); +} + +void MNCC__PDU__Rtp::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 (5<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_PDU_Rtp has 5 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_PDU_Rtp: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_callref.RAW_decode(MNCC__PDU__Rtp_callref_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_ip.RAW_decode(MNCC__PDU__Rtp_ip_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_rtp__port.RAW_decode(MNCC__PDU__Rtp_rtp__port_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_payload__type.RAW_decode(MNCC__PDU__Rtp_payload__type_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_payload__msg__type.RAW_decode(MNCC__PDU__Rtp_payload__msg__type_descr_, p_buf, limit, local_top_order, no_err); + 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<MNCC__PDU__Rtp>& 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<MNCC__PDU__Rtp>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (5<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_PDU_Rtp has 5 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_PDU_Rtp: %s", param.get_elem(val_idx)->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_idx<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +MNCC__PDU__Hello::MNCC__PDU__Hello() +{ +} + +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) + : field_version(par_version), + field_mncc__size(par_mncc__size), + field_data__frame__size(par_data__frame__size), + field_called__offset(par_called__offset), + field_signal__offset(par_signal__offset), + field_emergency__offset(par_emergency__offset), + field_lchan__type__offset(par_lchan__type__offset) +{ +} + +MNCC__PDU__Hello::MNCC__PDU__Hello(const MNCC__PDU__Hello& other_value) +{ +if(!other_value.is_bound()) TTCN_error("Copying an unbound value of type @MNCC_Types.MNCC_PDU_Hello."); +if (other_value.version().is_bound()) field_version = other_value.version(); +else field_version.clean_up(); +if (other_value.mncc__size().is_bound()) field_mncc__size = other_value.mncc__size(); +else field_mncc__size.clean_up(); +if (other_value.data__frame__size().is_bound()) field_data__frame__size = other_value.data__frame__size(); +else field_data__frame__size.clean_up(); +if (other_value.called__offset().is_bound()) field_called__offset = other_value.called__offset(); +else field_called__offset.clean_up(); +if (other_value.signal__offset().is_bound()) field_signal__offset = other_value.signal__offset(); +else field_signal__offset.clean_up(); +if (other_value.emergency__offset().is_bound()) field_emergency__offset = other_value.emergency__offset(); +else field_emergency__offset.clean_up(); +if (other_value.lchan__type__offset().is_bound()) field_lchan__type__offset = other_value.lchan__type__offset(); +else field_lchan__type__offset.clean_up(); +} + +void MNCC__PDU__Hello::clean_up() +{ +field_version.clean_up(); +field_mncc__size.clean_up(); +field_data__frame__size.clean_up(); +field_called__offset.clean_up(); +field_signal__offset.clean_up(); +field_emergency__offset.clean_up(); +field_lchan__type__offset.clean_up(); +} + +MNCC__PDU__Hello& MNCC__PDU__Hello::operator=(const MNCC__PDU__Hello& other_value) +{ +if (this != &other_value) { + if(!other_value.is_bound()) TTCN_error("Assignment of an unbound value of type @MNCC_Types.MNCC_PDU_Hello."); + if (other_value.version().is_bound()) field_version = other_value.version(); + else field_version.clean_up(); + if (other_value.mncc__size().is_bound()) field_mncc__size = other_value.mncc__size(); + else field_mncc__size.clean_up(); + if (other_value.data__frame__size().is_bound()) field_data__frame__size = other_value.data__frame__size(); + else field_data__frame__size.clean_up(); + if (other_value.called__offset().is_bound()) field_called__offset = other_value.called__offset(); + else field_called__offset.clean_up(); + if (other_value.signal__offset().is_bound()) field_signal__offset = other_value.signal__offset(); + else field_signal__offset.clean_up(); + if (other_value.emergency__offset().is_bound()) field_emergency__offset = other_value.emergency__offset(); + else field_emergency__offset.clean_up(); + if (other_value.lchan__type__offset().is_bound()) field_lchan__type__offset = other_value.lchan__type__offset(); + else field_lchan__type__offset.clean_up(); +} +return *this; +} + +boolean MNCC__PDU__Hello::operator==(const MNCC__PDU__Hello& other_value) const +{ +return field_version==other_value.field_version + && field_mncc__size==other_value.field_mncc__size + && field_data__frame__size==other_value.field_data__frame__size + && field_called__offset==other_value.field_called__offset + && field_signal__offset==other_value.field_signal__offset + && field_emergency__offset==other_value.field_emergency__offset + && field_lchan__type__offset==other_value.field_lchan__type__offset; +} + +boolean MNCC__PDU__Hello::is_bound() const +{ +if(field_version.is_bound()) return TRUE; +if(field_mncc__size.is_bound()) return TRUE; +if(field_data__frame__size.is_bound()) return TRUE; +if(field_called__offset.is_bound()) return TRUE; +if(field_signal__offset.is_bound()) return TRUE; +if(field_emergency__offset.is_bound()) return TRUE; +if(field_lchan__type__offset.is_bound()) return TRUE; +return FALSE; +} +boolean MNCC__PDU__Hello::is_value() const +{ +if(!field_version.is_value()) return FALSE; +if(!field_mncc__size.is_value()) return FALSE; +if(!field_data__frame__size.is_value()) return FALSE; +if(!field_called__offset.is_value()) return FALSE; +if(!field_signal__offset.is_value()) return FALSE; +if(!field_emergency__offset.is_value()) return FALSE; +if(!field_lchan__type__offset.is_value()) return FALSE; +return TRUE; +} +void MNCC__PDU__Hello::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(", mncc_size := "); +field_mncc__size.log(); +TTCN_Logger::log_event_str(", data_frame_size := "); +field_data__frame__size.log(); +TTCN_Logger::log_event_str(", called_offset := "); +field_called__offset.log(); +TTCN_Logger::log_event_str(", signal_offset := "); +field_signal__offset.log(); +TTCN_Logger::log_event_str(", emergency_offset := "); +field_emergency__offset.log(); +TTCN_Logger::log_event_str(", lchan_type_offset := "); +field_lchan__type__offset.log(); +TTCN_Logger::log_event_str(" }"); +} + +void MNCC__PDU__Hello::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 (7<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_PDU_Hello has 7 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_PDU_Hello: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_version.RAW_decode(MNCC__PDU__Hello_version_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_mncc__size.RAW_decode(MNCC__PDU__Hello_mncc__size_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_data__frame__size.RAW_decode(MNCC__PDU__Hello_data__frame__size_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_called__offset.RAW_decode(MNCC__PDU__Hello_called__offset_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_signal__offset.RAW_decode(MNCC__PDU__Hello_signal__offset_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_emergency__offset.RAW_decode(MNCC__PDU__Hello_emergency__offset_descr_, p_buf, limit, local_top_order, no_err); + 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()); + decoded_field_length = field_lchan__type__offset.RAW_decode(MNCC__PDU__Hello_lchan__type__offset_descr_, p_buf, limit, local_top_order, no_err); + 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<MNCC__PDU__Hello>& 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<MNCC__PDU__Hello>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (7<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_PDU_Hello has 7 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_PDU_Hello: %s", param.get_elem(val_idx)->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_idx<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void MNCC__MsgUnion::copy_value(const MNCC__MsgUnion& other_value) +{ +switch (other_value.union_selection) { +case ALT_signal: +field_signal = new MNCC__PDU__Signal(*other_value.field_signal); +break; +case ALT_data: +field_data = new MNCC__PDU__Data(*other_value.field_data); +break; +case ALT_rtp: +field_rtp = new MNCC__PDU__Rtp(*other_value.field_rtp); +break; +case ALT_hello: +field_hello = new MNCC__PDU__Hello(*other_value.field_hello); +break; +default: +TTCN_error("Assignment of an unbound union value of type @MNCC_Types.MNCC_MsgUnion."); +} +union_selection = other_value.union_selection; +} + +MNCC__MsgUnion::MNCC__MsgUnion() +{ +union_selection = UNBOUND_VALUE; +} + +MNCC__MsgUnion::MNCC__MsgUnion(const MNCC__MsgUnion& other_value) +: Base_Type(){ +copy_value(other_value); +} + +MNCC__MsgUnion::~MNCC__MsgUnion() +{ +clean_up(); +} + +MNCC__MsgUnion& MNCC__MsgUnion::operator=(const MNCC__MsgUnion& other_value) +{ +if (this != &other_value) { +clean_up(); +copy_value(other_value); +} +return *this; +} + +boolean MNCC__MsgUnion::operator==(const MNCC__MsgUnion& other_value) const +{ +if (union_selection == UNBOUND_VALUE) TTCN_error("The left operand of comparison is an unbound value of union type @MNCC_Types.MNCC_MsgUnion."); +if (other_value.union_selection == UNBOUND_VALUE) TTCN_error("The right operand of comparison is an unbound value of union type @MNCC_Types.MNCC_MsgUnion."); +if (union_selection != other_value.union_selection) return FALSE; +switch (union_selection) { +case ALT_signal: +return *field_signal == *other_value.field_signal; +case ALT_data: +return *field_data == *other_value.field_data; +case ALT_rtp: +return *field_rtp == *other_value.field_rtp; +case ALT_hello: +return *field_hello == *other_value.field_hello; +default: +return FALSE; +} +} + +MNCC__PDU__Signal& MNCC__MsgUnion::signal() +{ +if (union_selection != ALT_signal) { +clean_up(); +field_signal = new MNCC__PDU__Signal; +union_selection = ALT_signal; +} +return *field_signal; +} + +const MNCC__PDU__Signal& MNCC__MsgUnion::signal() const +{ +if (union_selection != ALT_signal) TTCN_error("Using non-selected field signal in a value of union type @MNCC_Types.MNCC_MsgUnion."); +return *field_signal; +} + +MNCC__PDU__Data& MNCC__MsgUnion::data() +{ +if (union_selection != ALT_data) { +clean_up(); +field_data = new MNCC__PDU__Data; +union_selection = ALT_data; +} +return *field_data; +} + +const MNCC__PDU__Data& MNCC__MsgUnion::data() const +{ +if (union_selection != ALT_data) TTCN_error("Using non-selected field data in a value of union type @MNCC_Types.MNCC_MsgUnion."); +return *field_data; +} + +MNCC__PDU__Rtp& MNCC__MsgUnion::rtp() +{ +if (union_selection != ALT_rtp) { +clean_up(); +field_rtp = new MNCC__PDU__Rtp; +union_selection = ALT_rtp; +} +return *field_rtp; +} + +const MNCC__PDU__Rtp& MNCC__MsgUnion::rtp() const +{ +if (union_selection != ALT_rtp) TTCN_error("Using non-selected field rtp in a value of union type @MNCC_Types.MNCC_MsgUnion."); +return *field_rtp; +} + +MNCC__PDU__Hello& MNCC__MsgUnion::hello() +{ +if (union_selection != ALT_hello) { +clean_up(); +field_hello = new MNCC__PDU__Hello; +union_selection = ALT_hello; +} +return *field_hello; +} + +const MNCC__PDU__Hello& MNCC__MsgUnion::hello() const +{ +if (union_selection != ALT_hello) TTCN_error("Using non-selected field hello in a value of union type @MNCC_Types.MNCC_MsgUnion."); +return *field_hello; +} + +boolean MNCC__MsgUnion::ischosen(union_selection_type checked_selection) const +{ +if (checked_selection == UNBOUND_VALUE) TTCN_error("Internal error: Performing ischosen() operation on an invalid field of union type @MNCC_Types.MNCC_MsgUnion."); +return union_selection == checked_selection; +} + +boolean MNCC__MsgUnion::is_bound() const +{ + return union_selection != UNBOUND_VALUE; +} + +boolean MNCC__MsgUnion::is_value() const +{ +switch (union_selection) { +case UNBOUND_VALUE: return FALSE; +case ALT_signal: return field_signal->is_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); + if (!strcmp(mp_last->get_id()->get_name(), "signal")) { + signal().set_param(*mp_last); + if (!signal().is_bound()) clean_up(); + return; + } + if (!strcmp(mp_last->get_id()->get_name(), "data")) { + data().set_param(*mp_last); + if (!data().is_bound()) clean_up(); + return; + } + if (!strcmp(mp_last->get_id()->get_name(), "rtp")) { + rtp().set_param(*mp_last); + if (!rtp().is_bound()) clean_up(); + return; + } + if (!strcmp(mp_last->get_id()->get_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.", mp_last->get_id()->get_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) +{ + 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: + decoded_length = signal().RAW_decode(MNCC__MsgUnion_signal_descr_, p_buf, limit, top_bit_ord, no_err); + break; + case 1: + decoded_length = data().RAW_decode(MNCC__MsgUnion_data_descr_, p_buf, limit, top_bit_ord, no_err); + break; + case 2: + decoded_length = rtp().RAW_decode(MNCC__MsgUnion_rtp_descr_, p_buf, limit, top_bit_ord, no_err); + break; + case 3: + decoded_length = hello().RAW_decode(MNCC__MsgUnion_hello_descr_, p_buf, limit, top_bit_ord, no_err); + break; + default: break; + } + return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; + } else { + p_buf.set_pos_bit(starting_pos); + decoded_length = signal().RAW_decode(MNCC__MsgUnion_signal_descr_, p_buf, limit, top_bit_ord, TRUE); + if (decoded_length >= 0) { + return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; + } + p_buf.set_pos_bit(starting_pos); + decoded_length = data().RAW_decode(MNCC__MsgUnion_data_descr_, p_buf, limit, top_bit_ord, TRUE); + if (decoded_length >= 0) { + return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; + } + p_buf.set_pos_bit(starting_pos); + decoded_length = rtp().RAW_decode(MNCC__MsgUnion_rtp_descr_, p_buf, limit, top_bit_ord, TRUE); + if (decoded_length >= 0) { + return decoded_length + p_buf.increase_pos_padd(p_td.raw->padding) + prepaddlength; + } + p_buf.set_pos_bit(starting_pos); + decoded_length = hello().RAW_decode(MNCC__MsgUnion_hello_descr_, p_buf, limit, top_bit_ord, TRUE); + 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<MNCC__MsgUnion>& 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<MNCC__MsgUnion>& 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("<invalid selector>"); +} +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("<invalid selector>"); +} +} 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<value_list.n_values; v_idx++) +if (value_list.list_value[v_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + +void MNCC__MsgUnion_template::set_param(Module_Param& param) +{ + if (dynamic_cast<Module_Param_Name*>(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_i<m_p->get_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); + if (!strcmp(mp_last->get_id()->get_name(), "signal")) { + signal().set_param(*mp_last); + break; + } + if (!strcmp(mp_last->get_id()->get_name(), "data")) { + data().set_param(*mp_last); + break; + } + if (!strcmp(mp_last->get_id()->get_name(), "rtp")) { + rtp().set_param(*mp_last); + break; + } + if (!strcmp(mp_last->get_id()->get_name(), "hello")) { + hello().set_param(*mp_last); + break; + } + mp_last->error("Field %s does not exist in type @MNCC_Types.MNCC_MsgUnion.", mp_last->get_id()->get_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(); +} + +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 (2<param.get_size()) { + param.error("record value of type @MNCC_Types.MNCC_PDU has 2 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_PDU: %s", param.get_elem(val_idx)->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) +{ (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; + decoded_field_length = field_msg__type.RAW_decode(MNCC__PDU_msg__type_descr_, p_buf, limit, local_top_order, no_err); + 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; + decoded_field_length = field_u.RAW_decode(MNCC__PDU_u_descr_, p_buf, limit, local_top_order, no_err, selected_field); + 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<MNCC__PDU>& 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<MNCC__PDU>& 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_i<param.get_size(); p_i++) { + new_temp.list_item(p_i).set_param(*param.get_elem(p_i)); + } + *this = new_temp; + break; } + case Module_Param::MP_Value_List: + if (2<param.get_size()) { + param.error("record template of type @MNCC_Types.MNCC_PDU has 2 fields but list value has %d fields", (int)param.get_size()); + } + if (param.get_size()>0 && 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<bool> value_used(param.get_size()); + value_used.resize(param.get_size(), FALSE); + for (size_t val_idx=0; val_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) { + Module_Param* const curr_param = param.get_elem(val_idx); + if (!strcmp(curr_param->get_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_idx<param.get_size(); val_idx++) if (!value_used[val_idx]) { + param.get_elem(val_idx)->error("Non existent field name in type @MNCC_Types.MNCC_PDU: %s", param.get_elem(val_idx)->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<value_list.n_values; l_idx++) +if (value_list.list_value[l_idx].match_omit()) +return template_selection==VALUE_LIST; +return template_selection==COMPLEMENTED_LIST; +} // else fall through +default: +return FALSE; +} +return FALSE; +} + + +/* Bodies of functions, altsteps and testcases */ + +void int__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(int__descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER int__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(int__descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__bcap__ra_encoder(const GSM48__bcap__ra& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_ra' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__bcap__ra_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__bcap__ra_decoder(OCTETSTRING& input_stream, GSM48__bcap__ra& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_ra' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__bcap__ra_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__bcap__sig__access_encoder(const GSM48__bcap__sig__access& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_sig_access' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__bcap__sig__access_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__bcap__sig__access_decoder(OCTETSTRING& input_stream, GSM48__bcap__sig__access& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_sig_access' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__bcap__sig__access_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__bcap__user__rate_encoder(const GSM48__bcap__user__rate& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_user_rate' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__bcap__user__rate_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__bcap__user__rate_decoder(OCTETSTRING& input_stream, GSM48__bcap__user__rate& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_user_rate' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__bcap__user__rate_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__bcap__parity_encoder(const GSM48__bcap__parity& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_parity' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__bcap__parity_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__bcap__parity_decoder(OCTETSTRING& input_stream, GSM48__bcap__parity& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_parity' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__bcap__parity_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__bcap__interm__rate_encoder(const GSM48__bcap__interm__rate& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_interm_rate' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__bcap__interm__rate_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__bcap__interm__rate_decoder(OCTETSTRING& input_stream, GSM48__bcap__interm__rate& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_interm_rate' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__bcap__interm__rate_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__bcap__transp_encoder(const GSM48__bcap__transp& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_transp' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__bcap__transp_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__bcap__transp_decoder(OCTETSTRING& input_stream, GSM48__bcap__transp& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_transp' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__bcap__transp_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__bcap__modem__type_encoder(const GSM48__bcap__modem__type& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_modem_type' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__bcap__modem__type_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__bcap__modem__type_decoder(OCTETSTRING& input_stream, GSM48__bcap__modem__type& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_modem_type' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__bcap__modem__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 MNCC__MsgType_encoder(const MNCC__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 `@MNCC_Types.MNCC_MsgType' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__MsgType_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__MsgType_decoder(OCTETSTRING& input_stream, MNCC__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 `@MNCC_Types.MNCC_MsgType' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__MsgType_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap__data_rate__adaptation_encoder(const GSM48__bcap__ra& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_ra' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bearer__cap__data_rate__adaptation_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap__data_rate__adaptation_decoder(OCTETSTRING& input_stream, GSM48__bcap__ra& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_ra' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bearer__cap__data_rate__adaptation_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap__data_sig__access_encoder(const GSM48__bcap__sig__access& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_sig_access' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bearer__cap__data_sig__access_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap__data_sig__access_decoder(OCTETSTRING& input_stream, GSM48__bcap__sig__access& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_sig_access' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bearer__cap__data_sig__access_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap__data_async_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(MNCC__bearer__cap__data_async_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap__data_async_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(MNCC__bearer__cap__data_async_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap__data_nr__stop__bits_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(MNCC__bearer__cap__data_nr__stop__bits_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap__data_nr__stop__bits_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(MNCC__bearer__cap__data_nr__stop__bits_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap__data_nr__data__bits_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(MNCC__bearer__cap__data_nr__data__bits_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap__data_nr__data__bits_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(MNCC__bearer__cap__data_nr__data__bits_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap__data_user__rate_encoder(const GSM48__bcap__user__rate& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_user_rate' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bearer__cap__data_user__rate_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap__data_user__rate_decoder(OCTETSTRING& input_stream, GSM48__bcap__user__rate& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_user_rate' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bearer__cap__data_user__rate_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap__data_parity_encoder(const GSM48__bcap__parity& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_parity' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bearer__cap__data_parity_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap__data_parity_decoder(OCTETSTRING& input_stream, GSM48__bcap__parity& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_parity' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bearer__cap__data_parity_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap__data_interm__rate_encoder(const GSM48__bcap__interm__rate& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_interm_rate' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bearer__cap__data_interm__rate_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap__data_interm__rate_decoder(OCTETSTRING& input_stream, GSM48__bcap__interm__rate& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_interm_rate' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bearer__cap__data_interm__rate_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap__data_transp_encoder(const GSM48__bcap__transp& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_transp' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bearer__cap__data_transp_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap__data_transp_decoder(OCTETSTRING& input_stream, GSM48__bcap__transp& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_transp' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bearer__cap__data_transp_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap__data_modem__type_encoder(const GSM48__bcap__modem__type& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_modem_type' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bearer__cap__data_modem__type_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap__data_modem__type_decoder(OCTETSTRING& input_stream, GSM48__bcap__modem__type& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_bcap_modem_type' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bearer__cap__data_modem__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 MNCC__bearer__cap__data_encoder(const MNCC__bearer__cap__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 `@MNCC_Types.MNCC_bearer_cap_data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bearer__cap__data_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap__data_decoder(OCTETSTRING& input_stream, MNCC__bearer__cap__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 `@MNCC_Types.MNCC_bearer_cap_data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bearer__cap__data_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__speech__vers_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(MNCC__speech__vers_0_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__speech__vers_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(MNCC__speech__vers_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 MNCC__speech__vers_encoder(const MNCC__speech__vers& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_speech_vers' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__speech__vers_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__speech__vers_decoder(OCTETSTRING& input_stream, MNCC__speech__vers& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_speech_vers' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__speech__vers_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap_transfer_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(MNCC__bearer__cap_transfer_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap_transfer_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(MNCC__bearer__cap_transfer_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap_mode_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(MNCC__bearer__cap_mode_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap_mode_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(MNCC__bearer__cap_mode_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap_coding_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(MNCC__bearer__cap_coding_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap_coding_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(MNCC__bearer__cap_coding_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap_radio_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(MNCC__bearer__cap_radio_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap_radio_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(MNCC__bearer__cap_radio_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap_speech__ctm_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(MNCC__bearer__cap_speech__ctm_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap_speech__ctm_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(MNCC__bearer__cap_speech__ctm_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap_speech__ver_encoder(const MNCC__speech__vers& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_speech_vers' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bearer__cap_speech__ver_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap_speech__ver_decoder(OCTETSTRING& input_stream, MNCC__speech__vers& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_speech_vers' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bearer__cap_speech__ver_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap_data_encoder(const MNCC__bearer__cap__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 `@MNCC_Types.MNCC_bearer_cap_data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bearer__cap_data_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap_data_decoder(OCTETSTRING& input_stream, MNCC__bearer__cap__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 `@MNCC_Types.MNCC_bearer_cap_data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bearer__cap_data_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bearer__cap_encoder(const MNCC__bearer__cap& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_bearer_cap' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bearer__cap_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bearer__cap_decoder(OCTETSTRING& input_stream, MNCC__bearer__cap& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_bearer_cap' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bearer__cap_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__type__of__number_encoder(const GSM48__type__of__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_type_of_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__type__of__number_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__type__of__number_decoder(OCTETSTRING& input_stream, GSM48__type__of__number& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_type_of_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__type__of__number_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__number_number__type_encoder(const GSM48__type__of__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_type_of_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__number_number__type_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__number_number__type_decoder(OCTETSTRING& input_stream, GSM48__type__of__number& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_type_of_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__number_number__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 GSM48__num__plan__ind_encoder(const GSM48__num__plan__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 `@MNCC_Types.GSM48_num_plan_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__num__plan__ind_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__num__plan__ind_decoder(OCTETSTRING& input_stream, GSM48__num__plan__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 `@MNCC_Types.GSM48_num_plan_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__num__plan__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 MNCC__number_plan_encoder(const GSM48__num__plan__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 `@MNCC_Types.GSM48_num_plan_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__number_plan_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__number_plan_decoder(OCTETSTRING& input_stream, GSM48__num__plan__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 `@MNCC_Types.GSM48_num_plan_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__number_plan_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__present__ind_encoder(const GSM48__present__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 `@MNCC_Types.GSM48_present_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__present__ind_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__present__ind_decoder(OCTETSTRING& input_stream, GSM48__present__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 `@MNCC_Types.GSM48_present_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__present__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 MNCC__number_presence_encoder(const GSM48__present__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 `@MNCC_Types.GSM48_present_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__number_presence_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__number_presence_decoder(OCTETSTRING& input_stream, GSM48__present__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 `@MNCC_Types.GSM48_present_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__number_presence_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__screening__ind_encoder(const GSM48__screening__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 `@MNCC_Types.GSM48_screening_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__screening__ind_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__screening__ind_decoder(OCTETSTRING& input_stream, GSM48__screening__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 `@MNCC_Types.GSM48_screening_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__screening__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 MNCC__number_screen_encoder(const GSM48__screening__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 `@MNCC_Types.GSM48_screening_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__number_screen_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__number_screen_decoder(OCTETSTRING& input_stream, GSM48__screening__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 `@MNCC_Types.GSM48_screening_ind' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__number_screen_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__number_number_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(MNCC__number_number_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__number_number_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(MNCC__number_number_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__number_encoder(const MNCC__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__number_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__number_decoder(OCTETSTRING& input_stream, MNCC__number& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__number_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__cause__coding_encoder(const GSM48__cause__coding& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_cause_coding' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__cause__coding_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__cause__coding_decoder(OCTETSTRING& input_stream, GSM48__cause__coding& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_cause_coding' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__cause__coding_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void GSM48__cause__loc_encoder(const GSM48__cause__loc& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_cause_loc' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(GSM48__cause__loc_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER GSM48__cause__loc_decoder(OCTETSTRING& input_stream, GSM48__cause__loc& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_cause_loc' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(GSM48__cause__loc_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 241, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_number"); +MNCC__number_template ret_val; +ret_val.number__type() = ton; +ret_val.plan() = npi; +ret_val.presence() = pres; +ret_val.screen() = screen; +ret_val.number() = number; +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 253, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_number"); +MNCC__number_template ret_val; +ret_val.number__type() = ton; +ret_val.plan() = npi; +ret_val.presence() = pres; +ret_val.screen() = screen; +ret_val.number() = number; +return ret_val; +} + +void MNCC__cause_location_encoder(const GSM48__cause__loc& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_cause_loc' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__cause_location_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__cause_location_decoder(OCTETSTRING& input_stream, GSM48__cause__loc& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_cause_loc' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__cause_location_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__cause_coding_encoder(const GSM48__cause__coding& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_cause_coding' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__cause_coding_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__cause_coding_decoder(OCTETSTRING& input_stream, GSM48__cause__coding& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.GSM48_cause_coding' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__cause_coding_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__cause_rec_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(MNCC__cause_rec_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__cause_rec_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(MNCC__cause_rec_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__cause_rec__val_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(MNCC__cause_rec__val_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__cause_rec__val_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(MNCC__cause_rec__val_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__cause_val_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(MNCC__cause_val_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__cause_val_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(MNCC__cause_val_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__cause_diag_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(MNCC__cause_diag_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__cause_diag_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(MNCC__cause_diag_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__cause_encoder(const MNCC__cause& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_cause' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__cause_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__cause_decoder(OCTETSTRING& input_stream, MNCC__cause& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_cause' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__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; +} +} + +MNCC__cause_template ts__MNCC__cause(const INTEGER& val, const GSM48__cause__loc& loc, const GSM48__cause__coding& coding, const OCTETSTRING& diag) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 277, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_cause"); +MNCC__cause_template ret_val; +ret_val.location() = loc; +ret_val.coding() = coding; +ret_val.rec() = 0; +ret_val.rec__val() = 0; +ret_val.val() = val; +ret_val.diag() = diag; +return ret_val; +} + +void MNCC__useruser_proto_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(MNCC__useruser_proto_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__useruser_proto_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(MNCC__useruser_proto_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__useruser_info_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(MNCC__useruser_info_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__useruser_info_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(MNCC__useruser_info_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__useruser_encoder(const MNCC__useruser& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_useruser' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__useruser_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__useruser_decoder(OCTETSTRING& input_stream, MNCC__useruser& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_useruser' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__useruser_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__progress_coding_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(MNCC__progress_coding_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__progress_coding_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(MNCC__progress_coding_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__progress_location_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(MNCC__progress_location_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__progress_location_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(MNCC__progress_location_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__progress_descr_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(MNCC__progress_descr_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__progress_descr_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(MNCC__progress_descr_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__progress_encoder(const MNCC__progress& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_progress' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__progress_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__progress_decoder(OCTETSTRING& input_stream, MNCC__progress& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_progress' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__progress_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__cccap_dtmf_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(MNCC__cccap_dtmf_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__cccap_dtmf_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(MNCC__cccap_dtmf_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__cccap_pcp_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(MNCC__cccap_pcp_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__cccap_pcp_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(MNCC__cccap_pcp_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__cccap_encoder(const MNCC__cccap& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_cccap' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__cccap_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__cccap_decoder(OCTETSTRING& input_stream, MNCC__cccap& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_cccap' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__cccap_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__notify_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(MNCC__notify_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__notify_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(MNCC__notify_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__keypad_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(MNCC__keypad_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__keypad_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(MNCC__keypad_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__bcap_encoder(const MNCC__bcap& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_bcap' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__bcap_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__bcap_decoder(OCTETSTRING& input_stream, MNCC__bcap& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_bcap' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__bcap_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_callref_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(MNCC__PDU__Signal_callref_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_callref_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(MNCC__PDU__Signal_callref_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_clir__sup_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(MNCC__PDU__Signal_clir__sup_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_clir__sup_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(MNCC__PDU__Signal_clir__sup_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_clir__inv_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(MNCC__PDU__Signal_clir__inv_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_clir__inv_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(MNCC__PDU__Signal_clir__inv_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_more_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(MNCC__PDU__Signal_more_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_more_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(MNCC__PDU__Signal_more_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_notify_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(MNCC__PDU__Signal_notify_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_notify_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(MNCC__PDU__Signal_notify_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_imsi_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(MNCC__PDU__Signal_imsi_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_imsi_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(MNCC__PDU__Signal_imsi_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_lchan__type_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(MNCC__PDU__Signal_lchan__type_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_lchan__type_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(MNCC__PDU__Signal_lchan__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 MNCC__PDU__Signal_lchan__mode_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(MNCC__PDU__Signal_lchan__mode_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_lchan__mode_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(MNCC__PDU__Signal_lchan__mode_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_bearer__cap_encoder(const MNCC__bearer__cap& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_bearer_cap' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Signal_bearer__cap_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_bearer__cap_decoder(OCTETSTRING& input_stream, MNCC__bearer__cap& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_bearer_cap' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Signal_bearer__cap_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_called_encoder(const MNCC__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Signal_called_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_called_decoder(OCTETSTRING& input_stream, MNCC__number& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Signal_called_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_calling_encoder(const MNCC__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Signal_calling_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_calling_decoder(OCTETSTRING& input_stream, MNCC__number& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Signal_calling_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_redirecting_encoder(const MNCC__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Signal_redirecting_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_redirecting_decoder(OCTETSTRING& input_stream, MNCC__number& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Signal_redirecting_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_connected_encoder(const MNCC__number& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Signal_connected_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_connected_decoder(OCTETSTRING& input_stream, MNCC__number& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_number' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Signal_connected_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_cause_encoder(const MNCC__cause& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_cause' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Signal_cause_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_cause_decoder(OCTETSTRING& input_stream, MNCC__cause& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_cause' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Signal_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 MNCC__PDU__Signal_progress_encoder(const MNCC__progress& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_progress' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Signal_progress_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_progress_decoder(OCTETSTRING& input_stream, MNCC__progress& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_progress' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Signal_progress_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_useruser_encoder(const MNCC__useruser& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_useruser' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Signal_useruser_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_useruser_decoder(OCTETSTRING& input_stream, MNCC__useruser& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_useruser' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Signal_useruser_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_facility_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(MNCC__PDU__Signal_facility_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_facility_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(MNCC__PDU__Signal_facility_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_cccap_encoder(const MNCC__cccap& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_cccap' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Signal_cccap_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_cccap_decoder(OCTETSTRING& input_stream, MNCC__cccap& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_cccap' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Signal_cccap_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_ssversion_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(MNCC__PDU__Signal_ssversion_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_ssversion_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(MNCC__PDU__Signal_ssversion_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_signal_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(MNCC__PDU__Signal_signal_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_signal_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(MNCC__PDU__Signal_signal_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_keypad_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(MNCC__PDU__Signal_keypad_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_keypad_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(MNCC__PDU__Signal_keypad_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_emergency_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(MNCC__PDU__Signal_emergency_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_emergency_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(MNCC__PDU__Signal_emergency_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Signal_encoder(const MNCC__PDU__Signal& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Signal' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Signal_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Signal_decoder(OCTETSTRING& input_stream, MNCC__PDU__Signal& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Signal' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Signal_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Data_callref_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(MNCC__PDU__Data_callref_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Data_callref_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(MNCC__PDU__Data_callref_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Data_data_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(MNCC__PDU__Data_data_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Data_data_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(MNCC__PDU__Data_data_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Data_encoder(const MNCC__PDU__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 `@MNCC_Types.MNCC_PDU_Data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Data_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Data_decoder(OCTETSTRING& input_stream, MNCC__PDU__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 `@MNCC_Types.MNCC_PDU_Data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Data_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Rtp_callref_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(MNCC__PDU__Rtp_callref_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Rtp_callref_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(MNCC__PDU__Rtp_callref_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Rtp_ip_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(MNCC__PDU__Rtp_ip_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Rtp_ip_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(MNCC__PDU__Rtp_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 MNCC__PDU__Rtp_rtp__port_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(MNCC__PDU__Rtp_rtp__port_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Rtp_rtp__port_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(MNCC__PDU__Rtp_rtp__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 MNCC__PDU__Rtp_payload__type_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(MNCC__PDU__Rtp_payload__type_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Rtp_payload__type_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(MNCC__PDU__Rtp_payload__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 MNCC__PDU__Rtp_payload__msg__type_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(MNCC__PDU__Rtp_payload__msg__type_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Rtp_payload__msg__type_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(MNCC__PDU__Rtp_payload__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 MNCC__PDU__Rtp_encoder(const MNCC__PDU__Rtp& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Rtp' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Rtp_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Rtp_decoder(OCTETSTRING& input_stream, MNCC__PDU__Rtp& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Rtp' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Rtp_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Hello_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(MNCC__PDU__Hello_version_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Hello_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(MNCC__PDU__Hello_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 MNCC__PDU__Hello_mncc__size_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(MNCC__PDU__Hello_mncc__size_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Hello_mncc__size_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(MNCC__PDU__Hello_mncc__size_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Hello_data__frame__size_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(MNCC__PDU__Hello_data__frame__size_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Hello_data__frame__size_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(MNCC__PDU__Hello_data__frame__size_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Hello_called__offset_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(MNCC__PDU__Hello_called__offset_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Hello_called__offset_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(MNCC__PDU__Hello_called__offset_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Hello_signal__offset_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(MNCC__PDU__Hello_signal__offset_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Hello_signal__offset_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(MNCC__PDU__Hello_signal__offset_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Hello_emergency__offset_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(MNCC__PDU__Hello_emergency__offset_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Hello_emergency__offset_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(MNCC__PDU__Hello_emergency__offset_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Hello_lchan__type__offset_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(MNCC__PDU__Hello_lchan__type__offset_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Hello_lchan__type__offset_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(MNCC__PDU__Hello_lchan__type__offset_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__PDU__Hello_encoder(const MNCC__PDU__Hello& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Hello' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU__Hello_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU__Hello_decoder(OCTETSTRING& input_stream, MNCC__PDU__Hello& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Hello' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU__Hello_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__MsgUnion_signal_encoder(const MNCC__PDU__Signal& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Signal' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__MsgUnion_signal_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__MsgUnion_signal_decoder(OCTETSTRING& input_stream, MNCC__PDU__Signal& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Signal' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__MsgUnion_signal_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__MsgUnion_data_encoder(const MNCC__PDU__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 `@MNCC_Types.MNCC_PDU_Data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__MsgUnion_data_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__MsgUnion_data_decoder(OCTETSTRING& input_stream, MNCC__PDU__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 `@MNCC_Types.MNCC_PDU_Data' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__MsgUnion_data_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__MsgUnion_rtp_encoder(const MNCC__PDU__Rtp& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Rtp' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__MsgUnion_rtp_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__MsgUnion_rtp_decoder(OCTETSTRING& input_stream, MNCC__PDU__Rtp& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Rtp' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__MsgUnion_rtp_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__MsgUnion_hello_encoder(const MNCC__PDU__Hello& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Hello' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__MsgUnion_hello_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__MsgUnion_hello_decoder(OCTETSTRING& input_stream, MNCC__PDU__Hello& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU_Hello' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__MsgUnion_hello_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +void MNCC__MsgUnion_encoder(const MNCC__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 `@MNCC_Types.MNCC_MsgUnion' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__MsgUnion_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__MsgUnion_decoder(OCTETSTRING& input_stream, MNCC__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 `@MNCC_Types.MNCC_MsgUnion' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__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 MNCC__PDU_msg__type_encoder(const MNCC__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 `@MNCC_Types.MNCC_MsgType' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU_msg__type_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU_msg__type_decoder(OCTETSTRING& input_stream, MNCC__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 `@MNCC_Types.MNCC_MsgType' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU_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 MNCC__PDU_u_encoder(const MNCC__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 `@MNCC_Types.MNCC_MsgUnion' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU_u_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU_u_decoder(OCTETSTRING& input_stream, MNCC__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 `@MNCC_Types.MNCC_MsgUnion' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU_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 MNCC__PDU_encoder(const MNCC__PDU& input_value, OCTETSTRING& output_stream, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, TRUE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf; +input_value.encode(MNCC__PDU_descr_, ttcn_buf, coding_type, extra_options); +ttcn_buf.get_string(output_stream); +} + +INTEGER MNCC__PDU_decoder(OCTETSTRING& input_stream, MNCC__PDU& output_value, const UNIVERSAL_CHARSTRING& coding_name) +{ +TTCN_EncDec::coding_t coding_type; +unsigned int extra_options = 0; +TTCN_EncDec::get_coding_from_str(coding_name, &coding_type, &extra_options, FALSE); +if (coding_type != TTCN_EncDec::CT_RAW) { +TTCN_Logger::begin_event_log2str(); +coding_name.log(); +TTCN_error("Type `@MNCC_Types.MNCC_PDU' does not support %s encoding", (const char*) TTCN_Logger::end_event_log2str()); +} +TTCN_Buffer ttcn_buf(input_stream); +output_value.decode(MNCC__PDU_descr_, ttcn_buf, coding_type, extra_options); +switch (TTCN_EncDec::get_last_error_type()) { +case TTCN_EncDec::ET_NONE: +ttcn_buf.cut(); +ttcn_buf.get_string(input_stream); +return 0; +case TTCN_EncDec::ET_INCOMPL_MSG: +case TTCN_EncDec::ET_LEN_ERR: +return 2; +default: +return 1; +} +} + +MNCC__PDU_template ts__MNCC__HELLO(const INTEGER& version) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 401, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_HELLO"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__SOCKET__HELLO; +{ +MNCC__PDU__Hello_template& tmp_1 = ret_val.u().hello(); +tmp_1.version() = version; +tmp_1.mncc__size() = 836; +tmp_1.data__frame__size() = 8; +tmp_1.called__offset() = 104; +tmp_1.signal__offset() = 796; +tmp_1.emergency__offset() = 812; +tmp_1.lchan__type__offset() = 0; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__Sign(const MNCC__MsgType& msg__type, const MNCC__PDU__Signal& sign) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 416, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_Sign"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = msg__type; +ret_val.u().signal() = sign; +return ret_val; +} + +MNCC__PDU_template ts__MNCC__SIMPLE(const MNCC__MsgType& msg__type, const INTEGER& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 423, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_SIMPLE"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = msg__type; +{ +MNCC__PDU__Signal_template& tmp_2 = ret_val.u().signal(); +tmp_2.callref() = call__id; +tmp_2.bearer__cap() = OMIT_VALUE; +tmp_2.called() = OMIT_VALUE; +tmp_2.calling() = OMIT_VALUE; +tmp_2.redirecting() = OMIT_VALUE; +tmp_2.connected() = OMIT_VALUE; +tmp_2.cause() = OMIT_VALUE; +tmp_2.progress() = OMIT_VALUE; +tmp_2.useruser() = OMIT_VALUE; +tmp_2.facility() = OMIT_VALUE; +tmp_2.cccap() = OMIT_VALUE; +tmp_2.ssversion() = OMIT_VALUE; +tmp_2.clir__sup() = 0; +tmp_2.clir__inv() = 0; +tmp_2.signal() = OMIT_VALUE; +tmp_2.keypad() = OMIT_VALUE; +tmp_2.more() = 0; +tmp_2.notify() = 0; +tmp_2.emergency() = OMIT_VALUE; +tmp_2.imsi() = cs_0; +tmp_2.lchan__type() = 0; +tmp_2.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__SIMPLE(const MNCC__MsgType_template& msg__type, const INTEGER_template& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 453, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_SIMPLE"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = msg__type; +{ +MNCC__PDU__Signal_template& tmp_3 = ret_val.u().signal(); +tmp_3.callref() = call__id; +tmp_3.bearer__cap() = OMIT_VALUE; +tmp_3.called() = OMIT_VALUE; +tmp_3.calling() = OMIT_VALUE; +tmp_3.redirecting() = OMIT_VALUE; +tmp_3.connected() = OMIT_VALUE; +tmp_3.cause() = OMIT_VALUE; +tmp_3.progress() = OMIT_VALUE; +tmp_3.useruser() = OMIT_VALUE; +tmp_3.facility() = OMIT_VALUE; +tmp_3.cccap() = OMIT_VALUE; +tmp_3.ssversion() = OMIT_VALUE; +tmp_3.clir__sup() = 0; +tmp_3.clir__inv() = 0; +tmp_3.signal() = OMIT_VALUE; +tmp_3.keypad() = OMIT_VALUE; +tmp_3.more() = 0; +tmp_3.notify() = 0; +tmp_3.emergency() = ANY_OR_OMIT; +tmp_3.imsi() = ANY_VALUE; +tmp_3.lchan__type() = ANY_VALUE; +tmp_3.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__SETUP__req(const INTEGER& call__id, const CHARSTRING& called, const CHARSTRING& calling, const CHARSTRING& imsi) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 486, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_SETUP_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__SETUP__REQ; +{ +MNCC__PDU__Signal_template& tmp_4 = ret_val.u().signal(); +tmp_4.callref() = call__id; +tmp_4.bearer__cap() = ts__MNCC__bcap__voice; +tmp_4.called() = ts__MNCC__number(called, ts__MNCC__number_ton_defval, ts__MNCC__number_npi_defval, ts__MNCC__number_pres_defval, ts__MNCC__number_screen_defval).valueof(); +tmp_4.calling() = ts__MNCC__number(calling, ts__MNCC__number_ton_defval, ts__MNCC__number_npi_defval, ts__MNCC__number_pres_defval, ts__MNCC__number_screen_defval).valueof(); +tmp_4.redirecting() = OMIT_VALUE; +tmp_4.connected() = OMIT_VALUE; +tmp_4.cause() = OMIT_VALUE; +tmp_4.progress() = OMIT_VALUE; +tmp_4.useruser() = OMIT_VALUE; +tmp_4.facility() = OMIT_VALUE; +tmp_4.cccap() = OMIT_VALUE; +tmp_4.ssversion() = OMIT_VALUE; +tmp_4.clir__sup() = 0; +tmp_4.clir__inv() = 0; +tmp_4.signal() = OMIT_VALUE; +tmp_4.keypad() = OMIT_VALUE; +tmp_4.more() = 0; +tmp_4.notify() = 0; +tmp_4.emergency() = OMIT_VALUE; +tmp_4.imsi() = imsi; +tmp_4.lchan__type() = 0; +tmp_4.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__SETUP__req(const INTEGER_template& call__id, const CHARSTRING_template& called, const CHARSTRING_template& calling, const CHARSTRING_template& imsi) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 515, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_SETUP_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__SETUP__REQ; +{ +MNCC__PDU__Signal_template& tmp_5 = ret_val.u().signal(); +tmp_5.callref() = call__id; +tmp_5.bearer__cap() = ANY_OR_OMIT; +tmp_5.called() = tr__MNCC__number(called, tr__MNCC__number_ton_defval, tr__MNCC__number_npi_defval, tr__MNCC__number_pres_defval, tr__MNCC__number_screen_defval); +tmp_5.calling() = tr__MNCC__number(calling, tr__MNCC__number_ton_defval, tr__MNCC__number_npi_defval, tr__MNCC__number_pres_defval, tr__MNCC__number_screen_defval); +tmp_5.redirecting() = ANY_OR_OMIT; +tmp_5.connected() = OMIT_VALUE; +tmp_5.cause() = OMIT_VALUE; +tmp_5.progress() = ANY_OR_OMIT; +tmp_5.useruser() = ANY_OR_OMIT; +tmp_5.facility() = ANY_OR_OMIT; +tmp_5.cccap() = OMIT_VALUE; +tmp_5.ssversion() = OMIT_VALUE; +tmp_5.clir__sup() = 0; +tmp_5.clir__inv() = 0; +tmp_5.signal() = ANY_OR_OMIT; +tmp_5.keypad() = OMIT_VALUE; +tmp_5.more() = 0; +tmp_5.notify() = 0; +tmp_5.emergency() = ANY_OR_OMIT; +tmp_5.imsi() = imsi; +tmp_5.lchan__type() = ANY_VALUE; +tmp_5.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__SETUP__rsp(const INTEGER& call__id, const CHARSTRING& imsi, const MNCC__number_template& connected) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 550, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_SETUP_rsp"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__SETUP__RSP; +{ +MNCC__PDU__Signal_template& tmp_6 = ret_val.u().signal(); +tmp_6.callref() = call__id; +tmp_6.bearer__cap() = OMIT_VALUE; +tmp_6.called() = OMIT_VALUE; +tmp_6.calling() = OMIT_VALUE; +tmp_6.redirecting() = OMIT_VALUE; +tmp_6.connected() = connected; +tmp_6.cause() = OMIT_VALUE; +tmp_6.progress() = OMIT_VALUE; +tmp_6.useruser() = OMIT_VALUE; +tmp_6.facility() = OMIT_VALUE; +tmp_6.cccap() = OMIT_VALUE; +tmp_6.ssversion() = OMIT_VALUE; +tmp_6.clir__sup() = 0; +tmp_6.clir__inv() = 0; +tmp_6.signal() = OMIT_VALUE; +tmp_6.keypad() = OMIT_VALUE; +tmp_6.more() = 0; +tmp_6.notify() = 0; +tmp_6.emergency() = OMIT_VALUE; +tmp_6.imsi() = imsi; +tmp_6.lchan__type() = 0; +tmp_6.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__SETUP__rsp(const INTEGER_template& call__id, const CHARSTRING_template& imsi, const MNCC__number_template& connected) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 580, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_SETUP_rsp"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__SETUP__RSP; +{ +MNCC__PDU__Signal_template& tmp_7 = ret_val.u().signal(); +tmp_7.callref() = call__id; +tmp_7.bearer__cap() = OMIT_VALUE; +tmp_7.called() = OMIT_VALUE; +tmp_7.calling() = OMIT_VALUE; +tmp_7.redirecting() = OMIT_VALUE; +tmp_7.connected() = connected; +tmp_7.cause() = OMIT_VALUE; +tmp_7.progress() = OMIT_VALUE; +tmp_7.useruser() = ANY_OR_OMIT; +tmp_7.facility() = ANY_OR_OMIT; +tmp_7.cccap() = OMIT_VALUE; +tmp_7.ssversion() = ANY_OR_OMIT; +tmp_7.clir__sup() = 0; +tmp_7.clir__inv() = 0; +tmp_7.signal() = OMIT_VALUE; +tmp_7.keypad() = OMIT_VALUE; +tmp_7.more() = 0; +tmp_7.notify() = 0; +tmp_7.emergency() = OMIT_VALUE; +tmp_7.imsi() = imsi; +tmp_7.lchan__type() = ANY_VALUE; +tmp_7.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 614, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_SETUP_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__SETUP__IND; +{ +MNCC__PDU__Signal_template& tmp_8 = ret_val.u().signal(); +tmp_8.callref() = call__id; +tmp_8.bearer__cap() = ANY_VALUE; +tmp_8.called() = called; +tmp_8.calling() = calling; +tmp_8.redirecting() = OMIT_VALUE; +tmp_8.connected() = OMIT_VALUE; +tmp_8.cause() = OMIT_VALUE; +tmp_8.progress() = OMIT_VALUE; +tmp_8.useruser() = ANY_OR_OMIT; +tmp_8.facility() = ANY_OR_OMIT; +tmp_8.cccap() = ANY_OR_OMIT; +tmp_8.ssversion() = ANY_OR_OMIT; +tmp_8.clir__sup() = ANY_VALUE; +tmp_8.clir__inv() = ANY_VALUE; +tmp_8.signal() = OMIT_VALUE; +tmp_8.keypad() = OMIT_VALUE; +tmp_8.more() = 0; +tmp_8.notify() = 0; +tmp_8.emergency() = ANY_OR_OMIT; +tmp_8.imsi() = imsi; +tmp_8.lchan__type() = ANY_VALUE; +tmp_8.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 644, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_SETUP_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__SETUP__IND; +{ +MNCC__PDU__Signal_template& tmp_9 = ret_val.u().signal(); +tmp_9.callref() = call__id; +tmp_9.bearer__cap() = bcap.valueof(); +tmp_9.called() = called; +tmp_9.calling() = calling; +tmp_9.redirecting() = OMIT_VALUE; +tmp_9.connected() = OMIT_VALUE; +tmp_9.cause() = OMIT_VALUE; +tmp_9.progress() = OMIT_VALUE; +tmp_9.useruser() = OMIT_VALUE; +tmp_9.facility() = OMIT_VALUE; +tmp_9.cccap() = OMIT_VALUE; +tmp_9.ssversion() = OMIT_VALUE; +tmp_9.clir__sup() = 0; +tmp_9.clir__inv() = 0; +tmp_9.signal() = OMIT_VALUE; +tmp_9.keypad() = OMIT_VALUE; +tmp_9.more() = 0; +tmp_9.notify() = 0; +tmp_9.emergency() = OMIT_VALUE; +tmp_9.imsi() = imsi; +tmp_9.lchan__type() = 0; +tmp_9.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__SETUP__CNF(const INTEGER& call__id, const MNCC__number_template& connected) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 678, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_SETUP_CNF"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__SETUP__CNF; +{ +MNCC__PDU__Signal_template& tmp_10 = ret_val.u().signal(); +tmp_10.callref() = call__id; +tmp_10.bearer__cap() = OMIT_VALUE; +tmp_10.called() = OMIT_VALUE; +tmp_10.calling() = OMIT_VALUE; +tmp_10.redirecting() = OMIT_VALUE; +tmp_10.connected() = connected; +tmp_10.cause() = OMIT_VALUE; +tmp_10.progress() = OMIT_VALUE; +tmp_10.useruser() = OMIT_VALUE; +tmp_10.facility() = OMIT_VALUE; +tmp_10.cccap() = OMIT_VALUE; +tmp_10.ssversion() = OMIT_VALUE; +tmp_10.clir__sup() = 0; +tmp_10.clir__inv() = 0; +tmp_10.signal() = OMIT_VALUE; +tmp_10.keypad() = OMIT_VALUE; +tmp_10.more() = 0; +tmp_10.notify() = 0; +tmp_10.emergency() = OMIT_VALUE; +tmp_10.imsi() = cs_0; +tmp_10.lchan__type() = 0; +tmp_10.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__SETUP__cnf(const INTEGER& call__id, const MNCC__number_template& connected) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 709, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_SETUP_cnf"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__SETUP__CNF; +{ +MNCC__PDU__Signal_template& tmp_11 = ret_val.u().signal(); +tmp_11.callref() = call__id; +tmp_11.bearer__cap() = OMIT_VALUE; +tmp_11.called() = OMIT_VALUE; +tmp_11.calling() = OMIT_VALUE; +tmp_11.redirecting() = OMIT_VALUE; +tmp_11.connected() = connected; +tmp_11.cause() = OMIT_VALUE; +tmp_11.progress() = ANY_OR_OMIT; +tmp_11.useruser() = ANY_OR_OMIT; +tmp_11.facility() = ANY_OR_OMIT; +tmp_11.cccap() = OMIT_VALUE; +tmp_11.ssversion() = OMIT_VALUE; +tmp_11.clir__sup() = 0; +tmp_11.clir__inv() = 0; +tmp_11.signal() = OMIT_VALUE; +tmp_11.keypad() = OMIT_VALUE; +tmp_11.more() = 0; +tmp_11.notify() = 0; +tmp_11.emergency() = ANY_OR_OMIT; +tmp_11.imsi() = ANY_VALUE; +tmp_11.lchan__type() = ANY_VALUE; +tmp_11.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__SETUP__COMPL__req(const INTEGER_template& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 740, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_SETUP_COMPL_req"); +MNCC__PDU_template ret_val; +ret_val = tr__MNCC__SIMPLE(MNCC__MsgType_template(MNCC__MsgType::MNCC__SETUP__COMPL__REQ), call__id); +return ret_val; +} + +MNCC__PDU_template tr__MNCC__SETUP__COMPL__ind(const INTEGER_template& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 744, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_SETUP_COMPL_ind"); +MNCC__PDU_template ret_val; +ret_val = tr__MNCC__SIMPLE(MNCC__MsgType_template(MNCC__MsgType::MNCC__SETUP__COMPL__IND), call__id); +return ret_val; +} + +MNCC__PDU_template ts__MNCC__SETUP__COMPL__ind(const INTEGER& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 746, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_SETUP_COMPL_ind"); +MNCC__PDU_template ret_val; +ret_val = ts__MNCC__SIMPLE(MNCC__MsgType::MNCC__SETUP__COMPL__IND, call__id); +return ret_val; +} + +MNCC__PDU_template tr__MNCC__REJ__req(const INTEGER_template& call__id, const MNCC__cause_template& cause) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 750, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_REJ_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__REJ__REQ; +{ +MNCC__PDU__Signal_template& tmp_12 = ret_val.u().signal(); +tmp_12.callref() = call__id; +tmp_12.bearer__cap() = OMIT_VALUE; +tmp_12.called() = OMIT_VALUE; +tmp_12.calling() = OMIT_VALUE; +tmp_12.redirecting() = OMIT_VALUE; +tmp_12.connected() = OMIT_VALUE; +tmp_12.cause() = cause; +tmp_12.progress() = OMIT_VALUE; +tmp_12.useruser() = ANY_OR_OMIT; +tmp_12.facility() = ANY_OR_OMIT; +tmp_12.cccap() = OMIT_VALUE; +tmp_12.ssversion() = OMIT_VALUE; +tmp_12.clir__sup() = 0; +tmp_12.clir__inv() = 0; +tmp_12.signal() = OMIT_VALUE; +tmp_12.keypad() = OMIT_VALUE; +tmp_12.more() = 0; +tmp_12.notify() = 0; +tmp_12.emergency() = OMIT_VALUE; +tmp_12.imsi() = ANY_VALUE; +tmp_12.lchan__type() = ANY_VALUE; +tmp_12.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__REJ__ind(const INTEGER& call__id, const MNCC__cause_template& cause) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 781, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_REJ_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__REJ__IND; +{ +MNCC__PDU__Signal_template& tmp_13 = ret_val.u().signal(); +tmp_13.callref() = call__id; +tmp_13.bearer__cap() = OMIT_VALUE; +tmp_13.called() = OMIT_VALUE; +tmp_13.calling() = OMIT_VALUE; +tmp_13.redirecting() = OMIT_VALUE; +tmp_13.connected() = OMIT_VALUE; +tmp_13.cause() = cause; +tmp_13.progress() = OMIT_VALUE; +tmp_13.useruser() = OMIT_VALUE; +tmp_13.facility() = OMIT_VALUE; +tmp_13.cccap() = OMIT_VALUE; +tmp_13.ssversion() = OMIT_VALUE; +tmp_13.clir__sup() = 0; +tmp_13.clir__inv() = 0; +tmp_13.signal() = OMIT_VALUE; +tmp_13.keypad() = OMIT_VALUE; +tmp_13.more() = 0; +tmp_13.notify() = 0; +tmp_13.emergency() = OMIT_VALUE; +tmp_13.imsi() = cs_0; +tmp_13.lchan__type() = 0; +tmp_13.lchan__mode() = 0; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 812, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_CALL_CONF_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__CALL__CONF__IND; +{ +MNCC__PDU__Signal_template& tmp_14 = ret_val.u().signal(); +tmp_14.callref() = call__id; +tmp_14.bearer__cap() = bcap; +tmp_14.called() = OMIT_VALUE; +tmp_14.calling() = OMIT_VALUE; +tmp_14.redirecting() = OMIT_VALUE; +tmp_14.connected() = OMIT_VALUE; +tmp_14.cause() = cause; +tmp_14.progress() = OMIT_VALUE; +tmp_14.useruser() = OMIT_VALUE; +tmp_14.facility() = OMIT_VALUE; +tmp_14.cccap() = cccap; +tmp_14.ssversion() = OMIT_VALUE; +tmp_14.clir__sup() = 0; +tmp_14.clir__inv() = 0; +tmp_14.signal() = OMIT_VALUE; +tmp_14.keypad() = OMIT_VALUE; +tmp_14.more() = 0; +tmp_14.notify() = 0; +tmp_14.emergency() = OMIT_VALUE; +tmp_14.imsi() = ANY_VALUE; +tmp_14.lchan__type() = ANY_VALUE; +tmp_14.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 843, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_CALL_CONF_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__CALL__CONF__IND; +{ +MNCC__PDU__Signal_template& tmp_15 = ret_val.u().signal(); +tmp_15.callref() = call__id; +tmp_15.bearer__cap() = bcap; +tmp_15.called() = OMIT_VALUE; +tmp_15.calling() = OMIT_VALUE; +tmp_15.redirecting() = OMIT_VALUE; +tmp_15.connected() = OMIT_VALUE; +tmp_15.cause() = cause; +tmp_15.progress() = OMIT_VALUE; +tmp_15.useruser() = OMIT_VALUE; +tmp_15.facility() = OMIT_VALUE; +tmp_15.cccap() = cccap; +tmp_15.ssversion() = OMIT_VALUE; +tmp_15.clir__sup() = 0; +tmp_15.clir__inv() = 0; +tmp_15.signal() = OMIT_VALUE; +tmp_15.keypad() = OMIT_VALUE; +tmp_15.more() = 0; +tmp_15.notify() = 0; +tmp_15.emergency() = OMIT_VALUE; +tmp_15.imsi() = cs_0; +tmp_15.lchan__type() = 0; +tmp_15.lchan__mode() = 0; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 878, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_CALL_PROC_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__CALL__PROC__REQ; +{ +MNCC__PDU__Signal_template& tmp_16 = ret_val.u().signal(); +tmp_16.callref() = call__id; +tmp_16.bearer__cap() = bcap; +tmp_16.called() = OMIT_VALUE; +tmp_16.calling() = OMIT_VALUE; +tmp_16.redirecting() = OMIT_VALUE; +tmp_16.connected() = OMIT_VALUE; +tmp_16.cause() = OMIT_VALUE; +tmp_16.progress() = prog; +tmp_16.useruser() = OMIT_VALUE; +tmp_16.facility() = fac; +tmp_16.cccap() = cccap; +tmp_16.ssversion() = OMIT_VALUE; +tmp_16.clir__sup() = 0; +tmp_16.clir__inv() = 0; +tmp_16.signal() = OMIT_VALUE; +tmp_16.keypad() = OMIT_VALUE; +tmp_16.more() = 0; +tmp_16.notify() = 0; +tmp_16.emergency() = OMIT_VALUE; +tmp_16.imsi() = cs_0; +tmp_16.lchan__type() = 0; +tmp_16.lchan__mode() = 0; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 910, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_CALL_PROC_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__CALL__PROC__REQ; +{ +MNCC__PDU__Signal_template& tmp_17 = ret_val.u().signal(); +tmp_17.callref() = call__id; +tmp_17.bearer__cap() = bcap; +tmp_17.called() = OMIT_VALUE; +tmp_17.calling() = OMIT_VALUE; +tmp_17.redirecting() = OMIT_VALUE; +tmp_17.connected() = OMIT_VALUE; +tmp_17.cause() = OMIT_VALUE; +tmp_17.progress() = prog; +tmp_17.useruser() = OMIT_VALUE; +tmp_17.facility() = fac; +tmp_17.cccap() = cccap; +tmp_17.ssversion() = OMIT_VALUE; +tmp_17.clir__sup() = 0; +tmp_17.clir__inv() = 0; +tmp_17.signal() = OMIT_VALUE; +tmp_17.keypad() = OMIT_VALUE; +tmp_17.more() = 0; +tmp_17.notify() = 0; +tmp_17.emergency() = OMIT_VALUE; +tmp_17.imsi() = ANY_VALUE; +tmp_17.lchan__type() = ANY_VALUE; +tmp_17.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__PROGRESS__req(const INTEGER& call__id, const MNCC__progress& prog, const MNCC__useruser_template& uu) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 946, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_PROGRESS_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__PROGRESS__REQ; +{ +MNCC__PDU__Signal_template& tmp_18 = ret_val.u().signal(); +tmp_18.callref() = call__id; +tmp_18.bearer__cap() = OMIT_VALUE; +tmp_18.called() = OMIT_VALUE; +tmp_18.calling() = OMIT_VALUE; +tmp_18.redirecting() = OMIT_VALUE; +tmp_18.connected() = OMIT_VALUE; +tmp_18.cause() = OMIT_VALUE; +tmp_18.progress() = prog; +tmp_18.useruser() = uu; +tmp_18.facility() = OMIT_VALUE; +tmp_18.cccap() = OMIT_VALUE; +tmp_18.ssversion() = OMIT_VALUE; +tmp_18.clir__sup() = 0; +tmp_18.clir__inv() = 0; +tmp_18.signal() = OMIT_VALUE; +tmp_18.keypad() = OMIT_VALUE; +tmp_18.more() = 0; +tmp_18.notify() = 0; +tmp_18.emergency() = OMIT_VALUE; +tmp_18.imsi() = cs_0; +tmp_18.lchan__type() = 0; +tmp_18.lchan__mode() = 0; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 978, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_ALERT_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__ALERT__REQ; +{ +MNCC__PDU__Signal_template& tmp_19 = ret_val.u().signal(); +tmp_19.callref() = call__id; +tmp_19.bearer__cap() = OMIT_VALUE; +tmp_19.called() = OMIT_VALUE; +tmp_19.calling() = OMIT_VALUE; +tmp_19.redirecting() = OMIT_VALUE; +tmp_19.connected() = OMIT_VALUE; +tmp_19.cause() = OMIT_VALUE; +tmp_19.progress() = prog; +tmp_19.useruser() = uu; +tmp_19.facility() = fac; +tmp_19.cccap() = OMIT_VALUE; +tmp_19.ssversion() = OMIT_VALUE; +tmp_19.clir__sup() = 0; +tmp_19.clir__inv() = 0; +tmp_19.signal() = OMIT_VALUE; +tmp_19.keypad() = OMIT_VALUE; +tmp_19.more() = 0; +tmp_19.notify() = 0; +tmp_19.emergency() = OMIT_VALUE; +tmp_19.imsi() = cs_0; +tmp_19.lchan__type() = 0; +tmp_19.lchan__mode() = 0; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1009, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_ALERT_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__ALERT__REQ; +{ +MNCC__PDU__Signal_template& tmp_20 = ret_val.u().signal(); +tmp_20.callref() = call__id; +tmp_20.bearer__cap() = OMIT_VALUE; +tmp_20.called() = OMIT_VALUE; +tmp_20.calling() = OMIT_VALUE; +tmp_20.redirecting() = OMIT_VALUE; +tmp_20.connected() = OMIT_VALUE; +tmp_20.cause() = OMIT_VALUE; +tmp_20.progress() = prog; +tmp_20.useruser() = uu; +tmp_20.facility() = fac; +tmp_20.cccap() = OMIT_VALUE; +tmp_20.ssversion() = OMIT_VALUE; +tmp_20.clir__sup() = 0; +tmp_20.clir__inv() = 0; +tmp_20.signal() = OMIT_VALUE; +tmp_20.keypad() = OMIT_VALUE; +tmp_20.more() = 0; +tmp_20.notify() = 0; +tmp_20.emergency() = OMIT_VALUE; +tmp_20.imsi() = ANY_VALUE; +tmp_20.lchan__type() = ANY_VALUE; +tmp_20.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1045, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_ALERT_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__ALERT__IND; +{ +MNCC__PDU__Signal_template& tmp_21 = ret_val.u().signal(); +tmp_21.callref() = call__id; +tmp_21.bearer__cap() = OMIT_VALUE; +tmp_21.called() = OMIT_VALUE; +tmp_21.calling() = OMIT_VALUE; +tmp_21.redirecting() = OMIT_VALUE; +tmp_21.connected() = OMIT_VALUE; +tmp_21.cause() = OMIT_VALUE; +tmp_21.progress() = prog; +tmp_21.useruser() = uu; +tmp_21.facility() = fac; +tmp_21.cccap() = OMIT_VALUE; +tmp_21.ssversion() = OMIT_VALUE; +tmp_21.clir__sup() = 0; +tmp_21.clir__inv() = 0; +tmp_21.signal() = OMIT_VALUE; +tmp_21.keypad() = OMIT_VALUE; +tmp_21.more() = 0; +tmp_21.notify() = 0; +tmp_21.emergency() = ANY_OR_OMIT; +tmp_21.imsi() = ANY_VALUE; +tmp_21.lchan__type() = ANY_VALUE; +tmp_21.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1076, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_ALERT_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__ALERT__IND; +{ +MNCC__PDU__Signal_template& tmp_22 = ret_val.u().signal(); +tmp_22.callref() = call__id; +tmp_22.bearer__cap() = OMIT_VALUE; +tmp_22.called() = OMIT_VALUE; +tmp_22.calling() = OMIT_VALUE; +tmp_22.redirecting() = OMIT_VALUE; +tmp_22.connected() = OMIT_VALUE; +tmp_22.cause() = OMIT_VALUE; +tmp_22.progress() = prog; +tmp_22.useruser() = uu; +tmp_22.facility() = fac; +tmp_22.cccap() = OMIT_VALUE; +tmp_22.ssversion() = OMIT_VALUE; +tmp_22.clir__sup() = 0; +tmp_22.clir__inv() = 0; +tmp_22.signal() = OMIT_VALUE; +tmp_22.keypad() = OMIT_VALUE; +tmp_22.more() = 0; +tmp_22.notify() = 0; +tmp_22.emergency() = OMIT_VALUE; +tmp_22.imsi() = cs_0; +tmp_22.lchan__type() = 0; +tmp_22.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__NOTIFY__req(const INTEGER& call__id, const INTEGER& notify) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1111, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_NOTIFY_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__NOTIFY__REQ; +{ +MNCC__PDU__Signal_template& tmp_23 = ret_val.u().signal(); +tmp_23.callref() = call__id; +tmp_23.bearer__cap() = OMIT_VALUE; +tmp_23.called() = OMIT_VALUE; +tmp_23.calling() = OMIT_VALUE; +tmp_23.redirecting() = OMIT_VALUE; +tmp_23.connected() = OMIT_VALUE; +tmp_23.cause() = OMIT_VALUE; +tmp_23.progress() = OMIT_VALUE; +tmp_23.useruser() = OMIT_VALUE; +tmp_23.facility() = OMIT_VALUE; +tmp_23.cccap() = OMIT_VALUE; +tmp_23.ssversion() = OMIT_VALUE; +tmp_23.clir__sup() = 0; +tmp_23.clir__inv() = 0; +tmp_23.signal() = OMIT_VALUE; +tmp_23.keypad() = OMIT_VALUE; +tmp_23.more() = 0; +tmp_23.notify() = notify; +tmp_23.emergency() = OMIT_VALUE; +tmp_23.imsi() = cs_0; +tmp_23.lchan__type() = 0; +tmp_23.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__NOTIFY__ind(const INTEGER_template& call__id, const INTEGER_template& notify) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1142, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_NOTIFY_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__NOTIFY__IND; +{ +MNCC__PDU__Signal_template& tmp_24 = ret_val.u().signal(); +tmp_24.callref() = call__id; +tmp_24.bearer__cap() = OMIT_VALUE; +tmp_24.called() = OMIT_VALUE; +tmp_24.calling() = OMIT_VALUE; +tmp_24.redirecting() = OMIT_VALUE; +tmp_24.connected() = OMIT_VALUE; +tmp_24.cause() = OMIT_VALUE; +tmp_24.progress() = OMIT_VALUE; +tmp_24.useruser() = OMIT_VALUE; +tmp_24.facility() = OMIT_VALUE; +tmp_24.cccap() = OMIT_VALUE; +tmp_24.ssversion() = OMIT_VALUE; +tmp_24.clir__sup() = 0; +tmp_24.clir__inv() = 0; +tmp_24.signal() = OMIT_VALUE; +tmp_24.keypad() = OMIT_VALUE; +tmp_24.more() = 0; +tmp_24.notify() = notify; +tmp_24.emergency() = ANY_OR_OMIT; +tmp_24.imsi() = ANY_VALUE; +tmp_24.lchan__type() = ANY_VALUE; +tmp_24.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1173, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_DISC_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__DISC__IND; +{ +MNCC__PDU__Signal_template& tmp_25 = ret_val.u().signal(); +tmp_25.callref() = call__id; +tmp_25.bearer__cap() = OMIT_VALUE; +tmp_25.called() = OMIT_VALUE; +tmp_25.calling() = OMIT_VALUE; +tmp_25.redirecting() = OMIT_VALUE; +tmp_25.connected() = OMIT_VALUE; +tmp_25.cause() = cause; +tmp_25.progress() = prog; +tmp_25.useruser() = uu; +tmp_25.facility() = fac; +tmp_25.cccap() = OMIT_VALUE; +tmp_25.ssversion() = OMIT_VALUE; +tmp_25.clir__sup() = 0; +tmp_25.clir__inv() = 0; +tmp_25.signal() = OMIT_VALUE; +tmp_25.keypad() = OMIT_VALUE; +tmp_25.more() = 0; +tmp_25.notify() = 0; +tmp_25.emergency() = ANY_OR_OMIT; +tmp_25.imsi() = ANY_VALUE; +tmp_25.lchan__type() = ANY_VALUE; +tmp_25.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1205, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_DISC_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__DISC__IND; +{ +MNCC__PDU__Signal_template& tmp_26 = ret_val.u().signal(); +tmp_26.callref() = call__id; +tmp_26.bearer__cap() = OMIT_VALUE; +tmp_26.called() = OMIT_VALUE; +tmp_26.calling() = OMIT_VALUE; +tmp_26.redirecting() = OMIT_VALUE; +tmp_26.connected() = OMIT_VALUE; +tmp_26.cause() = cause; +tmp_26.progress() = prog; +tmp_26.useruser() = uu; +tmp_26.facility() = fac; +tmp_26.cccap() = OMIT_VALUE; +tmp_26.ssversion() = OMIT_VALUE; +tmp_26.clir__sup() = 0; +tmp_26.clir__inv() = 0; +tmp_26.signal() = OMIT_VALUE; +tmp_26.keypad() = OMIT_VALUE; +tmp_26.more() = 0; +tmp_26.notify() = 0; +tmp_26.emergency() = OMIT_VALUE; +tmp_26.imsi() = cs_0; +tmp_26.lchan__type() = 0; +tmp_26.lchan__mode() = 0; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1239, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_DISC_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__DISC__REQ; +{ +MNCC__PDU__Signal_template& tmp_27 = ret_val.u().signal(); +tmp_27.callref() = call__id; +tmp_27.bearer__cap() = OMIT_VALUE; +tmp_27.called() = OMIT_VALUE; +tmp_27.calling() = OMIT_VALUE; +tmp_27.redirecting() = OMIT_VALUE; +tmp_27.connected() = OMIT_VALUE; +tmp_27.cause() = cause; +tmp_27.progress() = prog; +tmp_27.useruser() = uu; +tmp_27.facility() = fac; +tmp_27.cccap() = OMIT_VALUE; +tmp_27.ssversion() = OMIT_VALUE; +tmp_27.clir__sup() = 0; +tmp_27.clir__inv() = 0; +tmp_27.signal() = OMIT_VALUE; +tmp_27.keypad() = OMIT_VALUE; +tmp_27.more() = 0; +tmp_27.notify() = 0; +tmp_27.emergency() = OMIT_VALUE; +tmp_27.imsi() = cs_0; +tmp_27.lchan__type() = 0; +tmp_27.lchan__mode() = 0; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1271, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_DISC_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__DISC__REQ; +{ +MNCC__PDU__Signal_template& tmp_28 = ret_val.u().signal(); +tmp_28.callref() = call__id; +tmp_28.bearer__cap() = OMIT_VALUE; +tmp_28.called() = OMIT_VALUE; +tmp_28.calling() = OMIT_VALUE; +tmp_28.redirecting() = OMIT_VALUE; +tmp_28.connected() = OMIT_VALUE; +tmp_28.cause() = cause; +tmp_28.progress() = prog; +tmp_28.useruser() = uu; +tmp_28.facility() = fac; +tmp_28.cccap() = OMIT_VALUE; +tmp_28.ssversion() = OMIT_VALUE; +tmp_28.clir__sup() = 0; +tmp_28.clir__inv() = 0; +tmp_28.signal() = OMIT_VALUE; +tmp_28.keypad() = OMIT_VALUE; +tmp_28.more() = 0; +tmp_28.notify() = 0; +tmp_28.emergency() = ANY_OR_OMIT; +tmp_28.imsi() = ANY_VALUE; +tmp_28.lchan__type() = ANY_VALUE; +tmp_28.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1307, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_REL_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__REL__IND; +{ +MNCC__PDU__Signal_template& tmp_29 = ret_val.u().signal(); +tmp_29.callref() = call__id; +tmp_29.bearer__cap() = OMIT_VALUE; +tmp_29.called() = OMIT_VALUE; +tmp_29.calling() = OMIT_VALUE; +tmp_29.redirecting() = OMIT_VALUE; +tmp_29.connected() = OMIT_VALUE; +tmp_29.cause() = cause; +tmp_29.progress() = OMIT_VALUE; +tmp_29.useruser() = uu; +tmp_29.facility() = fac; +tmp_29.cccap() = OMIT_VALUE; +tmp_29.ssversion() = OMIT_VALUE; +tmp_29.clir__sup() = 0; +tmp_29.clir__inv() = 0; +tmp_29.signal() = OMIT_VALUE; +tmp_29.keypad() = OMIT_VALUE; +tmp_29.more() = 0; +tmp_29.notify() = 0; +tmp_29.emergency() = ANY_OR_OMIT; +tmp_29.imsi() = ANY_VALUE; +tmp_29.lchan__type() = ANY_VALUE; +tmp_29.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1337, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_REL_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__REL__IND; +{ +MNCC__PDU__Signal_template& tmp_30 = ret_val.u().signal(); +tmp_30.callref() = call__id; +tmp_30.bearer__cap() = OMIT_VALUE; +tmp_30.called() = OMIT_VALUE; +tmp_30.calling() = OMIT_VALUE; +tmp_30.redirecting() = OMIT_VALUE; +tmp_30.connected() = OMIT_VALUE; +tmp_30.cause() = cause; +tmp_30.progress() = OMIT_VALUE; +tmp_30.useruser() = uu; +tmp_30.facility() = fac; +tmp_30.cccap() = OMIT_VALUE; +tmp_30.ssversion() = OMIT_VALUE; +tmp_30.clir__sup() = 0; +tmp_30.clir__inv() = 0; +tmp_30.signal() = OMIT_VALUE; +tmp_30.keypad() = OMIT_VALUE; +tmp_30.more() = 0; +tmp_30.notify() = 0; +tmp_30.emergency() = OMIT_VALUE; +tmp_30.imsi() = cs_0; +tmp_30.lchan__type() = 0; +tmp_30.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__REL__req(const INTEGER& call__id, const MNCC__cause& cause, const CHARSTRING_template& fac, const MNCC__useruser_template& uu) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1371, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_REL_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__REL__REQ; +{ +MNCC__PDU__Signal_template& tmp_31 = ret_val.u().signal(); +tmp_31.callref() = call__id; +tmp_31.bearer__cap() = OMIT_VALUE; +tmp_31.called() = OMIT_VALUE; +tmp_31.calling() = OMIT_VALUE; +tmp_31.redirecting() = OMIT_VALUE; +tmp_31.connected() = OMIT_VALUE; +tmp_31.cause() = cause; +tmp_31.progress() = OMIT_VALUE; +tmp_31.useruser() = uu; +tmp_31.facility() = fac; +tmp_31.cccap() = OMIT_VALUE; +tmp_31.ssversion() = OMIT_VALUE; +tmp_31.clir__sup() = 0; +tmp_31.clir__inv() = 0; +tmp_31.signal() = OMIT_VALUE; +tmp_31.keypad() = OMIT_VALUE; +tmp_31.more() = 0; +tmp_31.notify() = 0; +tmp_31.emergency() = OMIT_VALUE; +tmp_31.imsi() = cs_0; +tmp_31.lchan__type() = 0; +tmp_31.lchan__mode() = 0; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1401, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_REL_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__REL__REQ; +{ +MNCC__PDU__Signal_template& tmp_32 = ret_val.u().signal(); +tmp_32.callref() = call__id; +tmp_32.bearer__cap() = OMIT_VALUE; +tmp_32.called() = ANY_OR_OMIT; +tmp_32.calling() = ANY_OR_OMIT; +tmp_32.redirecting() = ANY_OR_OMIT; +tmp_32.connected() = ANY_OR_OMIT; +tmp_32.cause() = cause; +tmp_32.progress() = OMIT_VALUE; +tmp_32.useruser() = uu; +tmp_32.facility() = fac; +tmp_32.cccap() = OMIT_VALUE; +tmp_32.ssversion() = OMIT_VALUE; +tmp_32.clir__sup() = 0; +tmp_32.clir__inv() = 0; +tmp_32.signal() = OMIT_VALUE; +tmp_32.keypad() = OMIT_VALUE; +tmp_32.more() = 0; +tmp_32.notify() = 0; +tmp_32.emergency() = OMIT_VALUE; +tmp_32.imsi() = ANY_VALUE; +tmp_32.lchan__type() = 0; +tmp_32.lchan__mode() = 0; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1434, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_REL_cnf"); +MNCC__PDU_template ret_val(tr__MNCC__REL__ind(call__id, cause, fac, uu)); +ret_val.msg__type() = MNCC__MsgType::MNCC__REL__CNF; +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1439, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_REL_cnf"); +MNCC__PDU_template ret_val(ts__MNCC__REL__ind(call__id, cause, fac, uu)); +ret_val.msg__type() = MNCC__MsgType::MNCC__REL__CNF; +return ret_val; +} + +MNCC__PDU_template ts__MNCC__FACILITY__req(const INTEGER& call__id, const CHARSTRING& fac) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1449, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_FACILITY_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__FACILITY__REQ; +{ +MNCC__PDU__Signal_template& tmp_33 = ret_val.u().signal(); +tmp_33.callref() = call__id; +tmp_33.bearer__cap() = OMIT_VALUE; +tmp_33.called() = OMIT_VALUE; +tmp_33.calling() = OMIT_VALUE; +tmp_33.redirecting() = OMIT_VALUE; +tmp_33.connected() = OMIT_VALUE; +tmp_33.cause() = OMIT_VALUE; +tmp_33.progress() = OMIT_VALUE; +tmp_33.useruser() = OMIT_VALUE; +tmp_33.facility() = fac; +tmp_33.cccap() = OMIT_VALUE; +tmp_33.ssversion() = OMIT_VALUE; +tmp_33.clir__sup() = 0; +tmp_33.clir__inv() = 0; +tmp_33.signal() = OMIT_VALUE; +tmp_33.keypad() = OMIT_VALUE; +tmp_33.more() = 0; +tmp_33.notify() = 0; +tmp_33.emergency() = OMIT_VALUE; +tmp_33.imsi() = cs_0; +tmp_33.lchan__type() = 0; +tmp_33.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__FACILITY__ind(const INTEGER_template& call__id, const CHARSTRING_template& fac) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1480, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_FACILITY_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__FACILITY__IND; +{ +MNCC__PDU__Signal_template& tmp_34 = ret_val.u().signal(); +tmp_34.callref() = call__id; +tmp_34.bearer__cap() = OMIT_VALUE; +tmp_34.called() = OMIT_VALUE; +tmp_34.calling() = OMIT_VALUE; +tmp_34.redirecting() = OMIT_VALUE; +tmp_34.connected() = OMIT_VALUE; +tmp_34.cause() = OMIT_VALUE; +tmp_34.progress() = OMIT_VALUE; +tmp_34.useruser() = OMIT_VALUE; +tmp_34.facility() = fac; +tmp_34.cccap() = OMIT_VALUE; +tmp_34.ssversion() = OMIT_VALUE; +tmp_34.clir__sup() = 0; +tmp_34.clir__inv() = 0; +tmp_34.signal() = OMIT_VALUE; +tmp_34.keypad() = OMIT_VALUE; +tmp_34.more() = 0; +tmp_34.notify() = 0; +tmp_34.emergency() = ANY_OR_OMIT; +tmp_34.imsi() = ANY_VALUE; +tmp_34.lchan__type() = ANY_VALUE; +tmp_34.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__START__DTMF__ind(const INTEGER_template& call__id, const CHARSTRING_template& keypad) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1511, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_START_DTMF_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__START__DTMF__IND; +{ +MNCC__PDU__Signal_template& tmp_35 = ret_val.u().signal(); +tmp_35.callref() = call__id; +tmp_35.bearer__cap() = OMIT_VALUE; +tmp_35.called() = OMIT_VALUE; +tmp_35.calling() = OMIT_VALUE; +tmp_35.redirecting() = OMIT_VALUE; +tmp_35.connected() = OMIT_VALUE; +tmp_35.cause() = OMIT_VALUE; +tmp_35.progress() = OMIT_VALUE; +tmp_35.useruser() = OMIT_VALUE; +tmp_35.facility() = OMIT_VALUE; +tmp_35.cccap() = OMIT_VALUE; +tmp_35.ssversion() = OMIT_VALUE; +tmp_35.clir__sup() = 0; +tmp_35.clir__inv() = 0; +tmp_35.signal() = OMIT_VALUE; +tmp_35.keypad() = keypad; +tmp_35.more() = 0; +tmp_35.notify() = 0; +tmp_35.emergency() = ANY_OR_OMIT; +tmp_35.imsi() = ANY_VALUE; +tmp_35.lchan__type() = ANY_VALUE; +tmp_35.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__START__DTMF__rsp(const INTEGER& call__id, const CHARSTRING& keypad) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1542, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_START_DTMF_rsp"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__START__DTMF__RSP; +{ +MNCC__PDU__Signal_template& tmp_36 = ret_val.u().signal(); +tmp_36.callref() = call__id; +tmp_36.bearer__cap() = OMIT_VALUE; +tmp_36.called() = OMIT_VALUE; +tmp_36.calling() = OMIT_VALUE; +tmp_36.redirecting() = OMIT_VALUE; +tmp_36.connected() = OMIT_VALUE; +tmp_36.cause() = OMIT_VALUE; +tmp_36.progress() = OMIT_VALUE; +tmp_36.useruser() = OMIT_VALUE; +tmp_36.facility() = OMIT_VALUE; +tmp_36.cccap() = OMIT_VALUE; +tmp_36.ssversion() = OMIT_VALUE; +tmp_36.clir__sup() = 0; +tmp_36.clir__inv() = 0; +tmp_36.signal() = OMIT_VALUE; +tmp_36.keypad() = keypad; +tmp_36.more() = 0; +tmp_36.notify() = 0; +tmp_36.emergency() = OMIT_VALUE; +tmp_36.imsi() = cs_0; +tmp_36.lchan__type() = 0; +tmp_36.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__START__DTMF__rej(const INTEGER& call__id, const MNCC__cause& cause) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1573, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_START_DTMF_rej"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__START__DTMF__REJ; +{ +MNCC__PDU__Signal_template& tmp_37 = ret_val.u().signal(); +tmp_37.callref() = call__id; +tmp_37.bearer__cap() = OMIT_VALUE; +tmp_37.called() = OMIT_VALUE; +tmp_37.calling() = OMIT_VALUE; +tmp_37.redirecting() = OMIT_VALUE; +tmp_37.connected() = OMIT_VALUE; +tmp_37.cause() = cause; +tmp_37.progress() = OMIT_VALUE; +tmp_37.useruser() = OMIT_VALUE; +tmp_37.facility() = OMIT_VALUE; +tmp_37.cccap() = OMIT_VALUE; +tmp_37.ssversion() = OMIT_VALUE; +tmp_37.clir__sup() = 0; +tmp_37.clir__inv() = 0; +tmp_37.signal() = OMIT_VALUE; +tmp_37.keypad() = OMIT_VALUE; +tmp_37.more() = 0; +tmp_37.notify() = 0; +tmp_37.emergency() = OMIT_VALUE; +tmp_37.imsi() = cs_0; +tmp_37.lchan__type() = 0; +tmp_37.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__STOP__DTMF__ind(const INTEGER_template& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1604, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_STOP_DTMF_ind"); +MNCC__PDU_template ret_val; +ret_val = tr__MNCC__SIMPLE(MNCC__MsgType_template(MNCC__MsgType::MNCC__STOP__DTMF__IND), call__id); +return ret_val; +} + +MNCC__PDU_template ts__MNCC__STOP__DTMF__rsp(const INTEGER& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1608, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_STOP_DTMF_rsp"); +MNCC__PDU_template ret_val; +ret_val = ts__MNCC__SIMPLE(MNCC__MsgType::MNCC__STOP__DTMF__RSP, call__id); +return ret_val; +} + +MNCC__PDU_template tr__MNCC__MODIFY__ind(const INTEGER_template& call__id, const MNCC__bearer__cap_template& bcap) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1612, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_MODIFY_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__MODIFY__IND; +{ +MNCC__PDU__Signal_template& tmp_38 = ret_val.u().signal(); +tmp_38.callref() = call__id; +tmp_38.bearer__cap() = bcap; +tmp_38.called() = OMIT_VALUE; +tmp_38.calling() = OMIT_VALUE; +tmp_38.redirecting() = OMIT_VALUE; +tmp_38.connected() = OMIT_VALUE; +tmp_38.cause() = OMIT_VALUE; +tmp_38.progress() = OMIT_VALUE; +tmp_38.useruser() = OMIT_VALUE; +tmp_38.facility() = OMIT_VALUE; +tmp_38.cccap() = OMIT_VALUE; +tmp_38.ssversion() = OMIT_VALUE; +tmp_38.clir__sup() = 0; +tmp_38.clir__inv() = 0; +tmp_38.signal() = OMIT_VALUE; +tmp_38.keypad() = OMIT_VALUE; +tmp_38.more() = 0; +tmp_38.notify() = 0; +tmp_38.emergency() = ANY_OR_OMIT; +tmp_38.imsi() = ANY_VALUE; +tmp_38.lchan__type() = ANY_VALUE; +tmp_38.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__MODIFY__rsp(const INTEGER& call__id, const MNCC__bearer__cap& bcap) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1643, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_MODIFY_rsp"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__MODIFY__RSP; +{ +MNCC__PDU__Signal_template& tmp_39 = ret_val.u().signal(); +tmp_39.callref() = call__id; +tmp_39.bearer__cap() = bcap; +tmp_39.called() = OMIT_VALUE; +tmp_39.calling() = OMIT_VALUE; +tmp_39.redirecting() = OMIT_VALUE; +tmp_39.connected() = OMIT_VALUE; +tmp_39.cause() = OMIT_VALUE; +tmp_39.progress() = OMIT_VALUE; +tmp_39.useruser() = OMIT_VALUE; +tmp_39.facility() = OMIT_VALUE; +tmp_39.cccap() = OMIT_VALUE; +tmp_39.ssversion() = OMIT_VALUE; +tmp_39.clir__sup() = 0; +tmp_39.clir__inv() = 0; +tmp_39.signal() = OMIT_VALUE; +tmp_39.keypad() = OMIT_VALUE; +tmp_39.more() = 0; +tmp_39.notify() = 0; +tmp_39.emergency() = OMIT_VALUE; +tmp_39.imsi() = cs_0; +tmp_39.lchan__type() = 0; +tmp_39.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__MODIFY__req(const INTEGER& call__id, const MNCC__bearer__cap& bcap) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1674, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_MODIFY_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__MODIFY__REQ; +{ +MNCC__PDU__Signal_template& tmp_40 = ret_val.u().signal(); +tmp_40.callref() = call__id; +tmp_40.bearer__cap() = bcap; +tmp_40.called() = OMIT_VALUE; +tmp_40.calling() = OMIT_VALUE; +tmp_40.redirecting() = OMIT_VALUE; +tmp_40.connected() = OMIT_VALUE; +tmp_40.cause() = OMIT_VALUE; +tmp_40.progress() = OMIT_VALUE; +tmp_40.useruser() = OMIT_VALUE; +tmp_40.facility() = OMIT_VALUE; +tmp_40.cccap() = OMIT_VALUE; +tmp_40.ssversion() = OMIT_VALUE; +tmp_40.clir__sup() = 0; +tmp_40.clir__inv() = 0; +tmp_40.signal() = OMIT_VALUE; +tmp_40.keypad() = OMIT_VALUE; +tmp_40.more() = 0; +tmp_40.notify() = 0; +tmp_40.emergency() = OMIT_VALUE; +tmp_40.imsi() = cs_0; +tmp_40.lchan__type() = 0; +tmp_40.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__MODIFY__cnf(const INTEGER_template& call__id, const MNCC__bearer__cap_template& bcap) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1705, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_MODIFY_cnf"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__MODIFY__CNF; +{ +MNCC__PDU__Signal_template& tmp_41 = ret_val.u().signal(); +tmp_41.callref() = call__id; +tmp_41.bearer__cap() = bcap; +tmp_41.called() = OMIT_VALUE; +tmp_41.calling() = OMIT_VALUE; +tmp_41.redirecting() = OMIT_VALUE; +tmp_41.connected() = OMIT_VALUE; +tmp_41.cause() = OMIT_VALUE; +tmp_41.progress() = OMIT_VALUE; +tmp_41.useruser() = OMIT_VALUE; +tmp_41.facility() = OMIT_VALUE; +tmp_41.cccap() = OMIT_VALUE; +tmp_41.ssversion() = OMIT_VALUE; +tmp_41.clir__sup() = 0; +tmp_41.clir__inv() = 0; +tmp_41.signal() = OMIT_VALUE; +tmp_41.keypad() = OMIT_VALUE; +tmp_41.more() = 0; +tmp_41.notify() = 0; +tmp_41.emergency() = ANY_OR_OMIT; +tmp_41.imsi() = ANY_VALUE; +tmp_41.lchan__type() = ANY_VALUE; +tmp_41.lchan__mode() = ANY_VALUE; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__USERINFO__req(const INTEGER& call__id, const MNCC__useruser& uu, const INTEGER& more) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1737, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_USERINFO_req"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__USERINFO__REQ; +{ +MNCC__PDU__Signal_template& tmp_42 = ret_val.u().signal(); +tmp_42.callref() = call__id; +tmp_42.bearer__cap() = OMIT_VALUE; +tmp_42.called() = OMIT_VALUE; +tmp_42.calling() = OMIT_VALUE; +tmp_42.redirecting() = OMIT_VALUE; +tmp_42.connected() = OMIT_VALUE; +tmp_42.cause() = OMIT_VALUE; +tmp_42.progress() = OMIT_VALUE; +tmp_42.useruser() = uu; +tmp_42.facility() = OMIT_VALUE; +tmp_42.cccap() = OMIT_VALUE; +tmp_42.ssversion() = OMIT_VALUE; +tmp_42.clir__sup() = 0; +tmp_42.clir__inv() = 0; +tmp_42.signal() = OMIT_VALUE; +tmp_42.keypad() = OMIT_VALUE; +tmp_42.more() = more; +tmp_42.notify() = 0; +tmp_42.emergency() = OMIT_VALUE; +tmp_42.imsi() = cs_0; +tmp_42.lchan__type() = 0; +tmp_42.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__USERINFO__ind(const INTEGER_template& call__id, const MNCC__useruser_template& uu, const INTEGER& more) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1768, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_USERINFO_ind"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__USERINFO__IND; +{ +MNCC__PDU__Signal_template& tmp_43 = ret_val.u().signal(); +tmp_43.callref() = call__id; +tmp_43.bearer__cap() = OMIT_VALUE; +tmp_43.called() = OMIT_VALUE; +tmp_43.calling() = OMIT_VALUE; +tmp_43.redirecting() = OMIT_VALUE; +tmp_43.connected() = OMIT_VALUE; +tmp_43.cause() = OMIT_VALUE; +tmp_43.progress() = OMIT_VALUE; +tmp_43.useruser() = uu; +tmp_43.facility() = OMIT_VALUE; +tmp_43.cccap() = OMIT_VALUE; +tmp_43.ssversion() = OMIT_VALUE; +tmp_43.clir__sup() = 0; +tmp_43.clir__inv() = 0; +tmp_43.signal() = OMIT_VALUE; +tmp_43.keypad() = OMIT_VALUE; +tmp_43.more() = more; +tmp_43.notify() = 0; +tmp_43.emergency() = OMIT_VALUE; +tmp_43.imsi() = cs_0; +tmp_43.lchan__type() = 0; +tmp_43.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__HOLD__ind(const INTEGER_template& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1800, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_HOLD_ind"); +MNCC__PDU_template ret_val; +ret_val = tr__MNCC__SIMPLE(MNCC__MsgType_template(MNCC__MsgType::MNCC__HOLD__IND), call__id); +return ret_val; +} + +MNCC__PDU_template ts__MNCC__HOLD__cnf(const INTEGER& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1804, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_HOLD_cnf"); +MNCC__PDU_template ret_val; +ret_val = ts__MNCC__SIMPLE(MNCC__MsgType::MNCC__HOLD__CNF, call__id); +return ret_val; +} + +MNCC__PDU_template ts__MNCC__HOLD__rej(const INTEGER& call__id, const MNCC__cause& cause) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1808, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_HOLD_rej"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__HOLD__REJ; +{ +MNCC__PDU__Signal_template& tmp_44 = ret_val.u().signal(); +tmp_44.callref() = call__id; +tmp_44.bearer__cap() = OMIT_VALUE; +tmp_44.called() = OMIT_VALUE; +tmp_44.calling() = OMIT_VALUE; +tmp_44.redirecting() = OMIT_VALUE; +tmp_44.connected() = OMIT_VALUE; +tmp_44.cause() = cause; +tmp_44.progress() = OMIT_VALUE; +tmp_44.useruser() = OMIT_VALUE; +tmp_44.facility() = OMIT_VALUE; +tmp_44.cccap() = OMIT_VALUE; +tmp_44.ssversion() = OMIT_VALUE; +tmp_44.clir__sup() = 0; +tmp_44.clir__inv() = 0; +tmp_44.signal() = OMIT_VALUE; +tmp_44.keypad() = OMIT_VALUE; +tmp_44.more() = 0; +tmp_44.notify() = 0; +tmp_44.emergency() = OMIT_VALUE; +tmp_44.imsi() = cs_0; +tmp_44.lchan__type() = 0; +tmp_44.lchan__mode() = 0; +} +return ret_val; +} + +MNCC__PDU_template tr__MNCC__RETRIEVE__ind(const INTEGER_template& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1839, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_RETRIEVE_ind"); +MNCC__PDU_template ret_val; +ret_val = tr__MNCC__SIMPLE(MNCC__MsgType_template(MNCC__MsgType::MNCC__RETRIEVE__IND), call__id); +return ret_val; +} + +MNCC__PDU_template ts__MNCC__RETRIEVE__cnf(const INTEGER& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1843, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_RETRIEVE_cnf"); +MNCC__PDU_template ret_val; +ret_val = ts__MNCC__SIMPLE(MNCC__MsgType::MNCC__RETRIEVE__CNF, call__id); +return ret_val; +} + +MNCC__PDU_template ts__MNCC__RETRIEVE__rej(const INTEGER& call__id, const MNCC__cause& cause) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1847, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_RETRIEVE_rej"); +MNCC__PDU_template ret_val(ts__MNCC__HOLD__rej(call__id, cause)); +ret_val.msg__type() = MNCC__MsgType::MNCC__RETRIEVE__REJ; +return ret_val; +} + +MNCC__PDU_template ts__MNCC__SIMPLE__RTP(const MNCC__MsgType& msg__type, const INTEGER& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1853, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_SIMPLE_RTP"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = msg__type; +{ +MNCC__PDU__Rtp_template& tmp_45 = ret_val.u().rtp(); +tmp_45.callref() = call__id; +tmp_45.ip() = 0; +tmp_45.rtp__port() = 0; +tmp_45.payload__type() = 0; +tmp_45.payload__msg__type() = 0; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__RTP__CREATE(const INTEGER& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1867, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_RTP_CREATE"); +MNCC__PDU_template ret_val; +ret_val = ts__MNCC__SIMPLE__RTP(MNCC__MsgType::MNCC__RTP__CREATE, call__id); +return ret_val; +} + +MNCC__PDU_template tr__MNCC__RTP__CREATE(const INTEGER_template& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1870, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_RTP_CREATE"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__RTP__CREATE; +{ +MNCC__PDU__Rtp_template& tmp_46 = ret_val.u().rtp(); +tmp_46.callref() = call__id; +tmp_46.ip() = ANY_VALUE; +tmp_46.rtp__port() = ANY_VALUE; +tmp_46.payload__type() = ANY_VALUE; +tmp_46.payload__msg__type() = ANY_VALUE; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__RTP__CONNECT(const INTEGER& call__id, const INTEGER& ip, const INTEGER& rtp__port, const INTEGER& pt) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1884, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_RTP_CONNECT"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__RTP__CONNECT; +{ +MNCC__PDU__Rtp_template& tmp_47 = ret_val.u().rtp(); +tmp_47.callref() = call__id; +tmp_47.ip() = ip; +tmp_47.rtp__port() = rtp__port; +tmp_47.payload__type() = pt; +tmp_47.payload__msg__type() = 0; +} +return ret_val; +} + +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) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1896, TTCN_Location::LOCATION_TEMPLATE, "tr_MNCC_RTP_CONNECT"); +MNCC__PDU_template ret_val; +ret_val.msg__type() = MNCC__MsgType::MNCC__RTP__CONNECT; +{ +MNCC__PDU__Rtp_template& tmp_48 = ret_val.u().rtp(); +tmp_48.callref() = call__id; +tmp_48.ip() = ip; +tmp_48.rtp__port() = rtp__port; +tmp_48.payload__type() = pt; +tmp_48.payload__msg__type() = 0; +} +return ret_val; +} + +MNCC__PDU_template ts__MNCC__RTP__FREE(const INTEGER& call__id) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1914, TTCN_Location::LOCATION_TEMPLATE, "ts_MNCC_RTP_FREE"); +MNCC__PDU_template ret_val; +ret_val = ts__MNCC__SIMPLE__RTP(MNCC__MsgType::MNCC__RTP__FREE, call__id); +return ret_val; +} + +INTEGER f__mncc__get__call__id(const MNCC__PDU& pdu) +{ +TTCN_Location current_location("MNCC_Types.ttcn", 1916, TTCN_Location::LOCATION_FUNCTION, "f_mncc_get_call_id"); +current_location.update_lineno(1917); +/* MNCC_Types.ttcn, line 1917 */ +{ +boolean tmp_52; +{ +boolean tmp_49 = pdu.is_bound(); +if(tmp_49) { +const MNCC__PDU& tmp_50 = pdu; +const MNCC__MsgUnion& tmp_51 = tmp_50.u(); +tmp_49 = tmp_51.is_bound(); +if(tmp_49) { +tmp_49 = tmp_51.ischosen(MNCC__MsgUnion::ALT_rtp); +} +} +tmp_52 = tmp_49; +} +if (tmp_52) { +current_location.update_lineno(1918); +/* MNCC_Types.ttcn, line 1918 */ +return const_cast< const MNCC__PDU&>(pdu).u().rtp().callref(); +} +else { +current_location.update_lineno(1919); +/* MNCC_Types.ttcn, line 1919 */ +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(1920); +/* MNCC_Types.ttcn, line 1920 */ +return const_cast< const MNCC__PDU&>(pdu).u().data().callref(); +} +else { +current_location.update_lineno(1921); +/* MNCC_Types.ttcn, line 1921 */ +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(1922); +/* MNCC_Types.ttcn, line 1922 */ +return const_cast< const MNCC__PDU&>(pdu).u().signal().callref(); +} +else { +current_location.update_lineno(1924); +/* MNCC_Types.ttcn, line 1924 */ +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(1925); +/* MNCC_Types.ttcn, line 1925 */ +TTCN_Runtime::stop_execution(); +} +} +} +} +} + + +/* 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(136); +/* MNCC_Types.ttcn, line 136 */ +const_GSM__MAX__FACILITY = 128; +current_location.update_lineno(137); +/* MNCC_Types.ttcn, line 137 */ +const_GSM__MAX__SSVERSION = 128; +current_location.update_lineno(138); +/* MNCC_Types.ttcn, line 138 */ +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(166); +/* MNCC_Types.ttcn, line 166 */ +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 */ |