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|
/* ----------------------------------------------------------------------------
* ATMEL Microcontroller Software Support
* ----------------------------------------------------------------------------
* Copyright (c) 2008, Atmel Corporation
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the disclaimer below.
*
* Atmel's name may not be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
* DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
* OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
* ----------------------------------------------------------------------------
*/
#include <board.h>
#include <board_memories.h>
#include <utility/trace.h>
#include <utility/bmp.h>
#include <systick/systick.h>
#include <lcd/color.h>
#include <lcd/draw.h>
#include <lcd/lcdd.h>
#include <hx8347/hx8347.h>
#include <tsd/tsd.h>
#include <flash/flashd.h>
#include "dfm_cmd.h"
#include "dfm_lcd_tsd.h"
#include "dfm_dispboxmgr.h"
#include "dfm_config.h"
#include "dfm_it.h"
#include "dfm_init.h"
#include "dfm_fatfs.h"
#include "dfm_entry.h"
#include "dfm_varloc.h"
//global LCD prompt display register entry variable
TInputEntry gLCDEntry = {0, {NULL,NULL},LCD_ShowPrompt, TSD_CommandIsReady, TSD_GetCommand, NULL};
#define GLOBALSLIDEINFO
#if defined(GLOBALSLIDEINFO)
///active for slide information
RLOC_OBJ SlideINFOHeader gActiveSlideHeader _AT(ACTIVESLIDE_INFOHEAD_ADDR);
#endif
///lcd refresh show flag
unsigned int gLcdRefreshFlag = 0;
///current slide index shown on LCD
///the init value is the first slide after program start up.
unsigned short gActiveSlideIndex = 0;
/// active demo bin max slides
static unsigned int gActiveBinSlideCount = 0xffffffff;
/// point to the active demo bin file name
const char * gpActiveBinFile = LCDSLIDEIMAGEFILE;
/// used in system tick count
volatile unsigned int gTimeStamp = 0;
/// Coordinates at which the pen was last pressed.
static volatile unsigned int gTSDxPressed;
static volatile unsigned int gTSDyPressed;
static volatile unsigned char gTSDPressed = 0;
/// link string index for hot zone hitted, starting from 1, 0 means not hitted
static unsigned int gLinkIndex = 0;
///Flash1 start address to store demo bin in at91sam3u4
#define gDemoBinAddrInFlash 0x108000
//file buffer used to read bitmap data
#if defined(__CC_ARM) || defined(__ICCARM__)//up to now, KEIL AND IAR supported
RLOC_OBJ static unsigned char gpFileBuffer[FILE_BUF_SIZE] _AT(FILE_BUFFER_ADDR);
#endif
#if defined(BOARD_PSRAM_PINS)
#if defined(__GNUC__) && !defined(__CC_ARM)
static unsigned char *gpFileBuffer = (unsigned char *) (BOARD_EBI_PSRAM + 0xa0000);
#endif
//PSRAM init entry
int Psram_Init(void)
{
printf("\n\r Init Psram");
BOARD_ConfigurePsram();
return 0;
}
//init psram in level 5
//lvl5_init(Psram_Init);
DFM_INIT(5, Psram_Init);
#elif defined(PINS_SDRAM)
#if defined(__GNUC__) && !defined(__CC_ARM)
static unsigned char *gpFileBuffer = (unsigned char *) (AT91C_EBI_SDRAM+ 0xa0000);
#endif
//SDRAM init entry
int Sdram_Init(void)
{
printf("\n\r Init Sdram");
BOARD_ConfigureSdram(BOARD_SDRAM_BUSWIDTH);
}
//init sdram in level 5
//lvl5_init(Psram_Init);
DFM_INIT(5, Sdram_Init);
#elif defined(PINGS_DDRAM)
#if defined(__GNUC__) && !defined(__CC_ARM)
static unsigned char *gpFileBuffer = (unsigned char *) (AT91C_EBI_SDRAM);
#endif
//ddram init entry
int Ddram_Init(void)
{
printf("\n\r Init Ddram");
//configure DDRAM for use
BOARD_ConfigureDdram(0, BOARD_DDRAM_BUSWIDTH);
}
//init ddram in level 5
//lvl5_init(Psram_Init);
DFM_INIT(5, Ddram_Init);
#else
#define USE_SRAM_BUF
#define BUF_LEN_SRAM 1024
#endif
//////////////////////////
///LCD prompt display /
//////////////////////////
#if defined(USE_LCD_TSD)
#if defined(LCDC_HX8347) //USE hx8347 controller
//------------------------------------------------------------------------------
/// Handler for SysTick interrupt. Increments the timestamp counter.
//------------------------------------------------------------------------------
void SysTick_HandlerLcdTsd(void)
{
gTimeStamp++;
// Call TSD_TimerHandler per 10ms
if ((gTimeStamp % 10) == 0) {
TSD_TimerHandler();
}
}
#if defined(USE_IT_CHAIN_MGR)
TDFM_ItServList gSysTkItHandlerLcdTsd = {SysTick_IRQn, SysTick_HandlerLcdTsd, NULL};
#endif
//------------------------------------------------------
/// Init LCD controller of 8347
//------------------------------------------------------
int LCD_Init()
{
printf("\n\r LCD init in Level 5");
// 1ms tick, in driver, a wait is called.
SysTick_Configure(1, BOARD_MCK/1000, SysTick_HandlerLcdTsd);
#if defined(USE_IT_CHAIN_MGR)
DFM_RegisterItHandler(&gSysTkItHandlerLcdTsd);
#endif
// Initialize LCD
LCDD_Initialize();
LCDD_Fill((void *)BOARD_LCD_BASE, COLOR_WHITE);
LCDD_Start();
return 0;
}
#else //use internal LCD controller
//------------------------------------------------------
/// Init LCD controller of 8347
//------------------------------------------------------
int LCD_Init()
{
// Enable peripheral clock
AT91C_BASE_PMC->PMC_PCER = 1 << AT91C_ID_LCDC;
#if defined(at91sam9g10)||defined(at91sam9261)
AT91C_BASE_PMC->PMC_SCER = AT91C_PMC_HCK1;
#endif
// Disable the LCD and the DMA
LCD_DisableDma();
LCD_Disable(0);
// Configure the LCD controller
LCD_SetPixelClock(BOARD_MCK, BOARD_LCD_PIXELCLOCK);
LCD_SetDisplayType(BOARD_LCD_DISPLAYTYPE);
LCD_SetScanMode(AT91C_LCDC_SCANMOD_SINGLESCAN);
LCD_SetBitsPerPixel(BOARD_LCD_BPP);
LCD_SetPolarities(BOARD_LCD_POLARITY_INVVD,
BOARD_LCD_POLARITY_INVFRAME,
BOARD_LCD_POLARITY_INVLINE,
BOARD_LCD_POLARITY_INVCLK,
BOARD_LCD_POLARITY_INVDVAL);
LCD_SetClockMode(BOARD_LCD_CLOCKMODE);
LCD_SetMemoryFormat((unsigned int) AT91C_LCDC_MEMOR_LITTLEIND);
LCD_SetSize(BOARD_LCD_WIDTH, BOARD_LCD_HEIGHT);
// Configure timings
LCD_SetVerticalTimings(BOARD_LCD_TIMING_VFP,
BOARD_LCD_TIMING_VBP,
BOARD_LCD_TIMING_VPW,
BOARD_LCD_TIMING_VHDLY);
LCD_SetHorizontalTimings(BOARD_LCD_TIMING_HBP,
BOARD_LCD_TIMING_HPW,
BOARD_LCD_TIMING_HFP);
// Configure contrast (TODO functions)
LCD_SetContrastPrescaler(AT91C_LCDC_PS_NOTDIVIDED);
LCD_SetContrastPolarity(AT91C_LCDC_POL_POSITIVEPULSE);
LCD_SetContrastValue(0x80);
LCD_EnableContrast();
// Configure DMA
LCD_SetFrameSize(BOARD_LCD_FRAMESIZE);
LCD_SetBurstLength(4);
// Set frame buffer
LCD_SetFrameBufferAddress(images[0]);
// Enable DMA and LCD
LCD_EnableDma();
LCD_Enable(0x0C);
}
#endif
//lvl5_init(LCD_Init);
DFM_INIT(5, LCD_Init);
//------------------------------------------------------------------------------
/// Delay millisecond. Use SysTick interrupt for function implement, so ensure
/// the SysTick interrupt is enabled before using this function.
/// \param ms millisecond to be delay
//------------------------------------------------------------------------------
void DelayMS(unsigned int ms)
{
unsigned int st = gTimeStamp;
while (gTimeStamp - st < ms);
}
//------------------------------------------------------------------------------
/// Callback called when the pen is pressed on the touchscreen
/// /param horizontal position (in pixel if ts calibrated)
/// /param vertical position (in pixel if ts calibrated)
//------------------------------------------------------------------------------
void TSD_PenPressed(unsigned int x, unsigned int y)
{
//printf("Pen pressed at (%03u, %03u)\n\r", x, y);
// Save the coordinates for use by TSD_PenReleased
gTSDxPressed = x;
gTSDyPressed = y;
TSD_SetTouched();
}
//------------------------------------------------------------------------------
/// Callback called when the pen is moved on the touchscreen
/// /param horizontal position (in pixel if ts calibrated)
/// /param vertical position (in pixel if ts calibrated)
//------------------------------------------------------------------------------
void TSD_PenMoved(unsigned int x, unsigned int y)
{
// printf("Pen moved at (%03u, %03u)\n\r", x, y);
}
//------------------------------------------------------------------------------
/// Callback called when the touchscreen is released on the touchscreen
/// /param horizontal position (in pixel if ts calibrated)
/// /param vertical position (in pixel if ts calibrated)
//------------------------------------------------------------------------------
void TSD_PenReleased(unsigned int x, unsigned int y)
{
}
//------------------------------------------------------------------------------
/// Get last pen press position
/// /param point to horizontal position (in pixel if ts calibrated)
/// /param point vertical position (in pixel if ts calibrated)
//------------------------------------------------------------------------------
void TSD_GetPenLastPosition(unsigned int *pX, unsigned int *pY)
{
*pX = gTSDxPressed;
*pY = gTSDyPressed;
}
//---------------------------------------------
/// init touchscreen
//---------------------------------------------
int TSD_Init()
{
printf("\n\r Init TouchScreen");
gTSDxPressed = gTSDyPressed = 0;
#if defined(at91sam3u4)
// Internal Flash1
#define IFLASH1 (0x100000)
#define IFLASH1_SIZE (0x20000)
#define IFLASH1_PAGE_SIZE (256) // Internal FLASH 1 Page Size: 256 bytes
#define IFLASH1_NB_OF_PAGES (512) // Internal FLASH 1 Number of Pages: 512
#define IFLASH1_LOCK_REGION_SIZE (8192) // Internal FLASH 1 Lock Region Size: 8 Kbytes
#define IFLASH1_NB_OF_LOCK_BITS (16) // Internal FLASH 1 Number of Lock Bits: 16
unsigned char error;
unsigned int pBuffer[IFLASH1_PAGE_SIZE / 4];
unsigned int lastPageAddress;
volatile unsigned int *pLastPageData;
// Read touch screen calibration data
// Initialize flash driver
FLASHD_Initialize(BOARD_MCK);
// Calibration data are stored on last page
lastPageAddress = IFLASH1 + IFLASH1_SIZE - IFLASH1_PAGE_SIZE;
pLastPageData = (volatile unsigned int *) lastPageAddress;
TSDCom_RestoreCalibrateData((void *)pLastPageData, IFLASH1_PAGE_SIZE);
// Initialize touchscreen
TSD_Initialize((void *)BOARD_LCD_BASE);
// Save touch screen calibration data
// Unlock whole flash
error = FLASHD_Unlock(IFLASH1, IFLASH1 + IFLASH1_SIZE, 0, 0);
if(error) {
printf(" Unlock flash fail.\n\r");
} else {
TSDCom_ReadCalibrateData(pBuffer, sizeof(pBuffer));
error = FLASHD_Write(lastPageAddress, pBuffer, IFLASH1_PAGE_SIZE);
if(error) {
printf(" Fail to write touch srceen calibration data.\n\r");
}
}
#endif
return 0;
}
//TouchScreen init in level 5
DFM_INIT(5, TSD_Init);
#endif
///////////////////////////////////////////////////
/// following is dealling with show slide on slide/
///////////////////////////////////////////////////
//-----------------------------------------------------------------------------
/// Displays the given image on the LCD.
/// The image should be same size as the LCD.
/// TODO: this display interface should be generalized to consider other LCD properties
/// \param pImage point to image buffer
/// \param width image width in pixels.
/// \param height image height in pixels.
//------------------------------------------------------------------------------
static void LCDD_DrawImageRGB565(
unsigned short *pImage,
unsigned int width,
unsigned int height)
{
unsigned int i;
if ((width != BOARD_LCD_WIDTH) || (height != BOARD_LCD_HEIGHT)) {
printf("LCDD_DrawImageRGB565: Image size is not fit the LCD");
return;
}
if(LCDD_IsBusy()) return;
LCDD_SetBusy();
LCD_SetCursor((void *)BOARD_LCD_BASE, 0, 0);
LCD_WriteRAM_Prepare((void *)BOARD_LCD_BASE);
for (i = 0; i < (width * height); i++) {
LCD_WriteRAM((void *)BOARD_LCD_BASE, *(pImage));
pImage++;
}
LCDD_ClearBusy();
}
//------------------------------------------------------------------------------
///Get slide info header from fatfs file interface
//------------------------------------------------------------------------------
static unsigned int GetSlideInfoHeaderFromFile(
//fatfs file pointer to demo bin file
FIL *pFile,
//slide index for get info
unsigned int slideIdx,
//store read slide info
SlideINFOHeader *pSlideheader,
//to return actual slide index been read
unsigned int *realSlideIdx)
{
DemoBINHeader binheader;
FRESULT res;
unsigned int i, offset;
if(!pSlideheader) {
TRACE_ERROR(" No slide info returned for null pointer!\n\r");
return 1;
}
//seek to start point of file
res = f_lseek(pFile, 0);
if(res != FR_OK) {
TRACE_ERROR(" Operation demo bin file fail! \n\r");
return 1;
}
//Read demo bin header information
res = f_read(pFile, &binheader, sizeof(DemoBINHeader), &i);
if(res != FR_OK ) {
TRACE_ERROR(" Fail to read demo bin! \n\r");
return 1;
}
TRACE_DEBUG(" demo bin tag is %x \n\r", binheader.tag);
TRACE_DEBUG(" demo bin has %u slides \n\r", binheader.slidecount);
//Check if it is atmel demo bin
if( i != sizeof(DemoBINHeader) || binheader.tag != ATMLBINTAG) {
TRACE_ERROR(" Not expected demo bin file! \n\r");
return 1;
}
//save max slide count of active demo bin file
gActiveBinSlideCount = binheader.slidecount;
//requested slide index larger than available one in current demo bin
if(slideIdx >= binheader.slidecount) {
TRACE_WARNING(" Reach max slide count! \n\r");
if(realSlideIdx)
*realSlideIdx = binheader.slidecount - 1;
slideIdx = binheader.slidecount - 1;
}
//seek the offset to the 'slideindex'th bit map data
offset = sizeof(DemoBINHeader) + slideIdx * sizeof(SlideINFOHeader);
TRACE_DEBUG("\n\r slide header offset is %u", offset);
//Seek to the position of slide information field
res = f_lseek(pFile, offset);
if(res != FR_OK) {
TRACE_ERROR(" Operation demo bin file fail! \n\r");
return 1;
}
//read slide information
res = f_read(pFile, pSlideheader, sizeof(SlideINFOHeader), &i);
if(res != FR_OK || i != sizeof(SlideINFOHeader)) {
TRACE_ERROR(" Read demo bin file fail! \n\r");
return 1;
}
return 0;
}
//------------------------------------------------------------------------------
/// read slide information from SDCARD, and Show
/// \param slideIdx, slidex index for reading slide and show
/// \return 0 succeed, other fail
//------------------------------------------------------------------------------
static int ProcessBinFromSDcard(unsigned int slideIdx, const char *pFileWithPath)
{
// DemoBINHeader binheader;
SlideINFOHeader slideheader;
unsigned int offset;
TRACE_DEBUG(" file name is %s \n\r", pFileWithPath);
FIL demoBinFile;
FRESULT res;
unsigned int i;
// strcpy(pFile,SDCARD_ROOT_DIRECTORY);
// strncat(pFile, pFileWithPath, 256-1-strlen(SDCARD_ROOT_DIRECTORY));
//Open demo bin file
res = f_open(&demoBinFile, pFileWithPath, FA_OPEN_EXISTING | FA_READ);
if(res != FR_OK) {
TRACE_ERROR(" Open demo bin file fail! \n\r");
f_close(&demoBinFile);
return 1;
}
//get slide info from file
if(GetSlideInfoHeaderFromFile(\
&demoBinFile,\
slideIdx,\
&slideheader,\
&slideIdx))
{
TRACE_ERROR(" Read slide header fail!\n\r");
f_close(&demoBinFile);
return 1;
}
//set real slide index as active
gActiveSlideIndex = slideIdx;
//get the 'slideindex'th slide bit map data offset
offset = slideheader.slideoffset;
TRACE_DEBUG(" slide %u bitmap data at %u \n\r", slideIdx, offset);
#if defined(GLOBALSLIDEINFO)
//copy current active slide information to global variable
memcpy(&gActiveSlideHeader, &slideheader, sizeof(SlideINFOHeader));
#endif
//print the link box information
TRACE_DEBUG(" slide has link %u\n\r", gActiveSlideHeader.linkcount);
if(slideheader.linkcount) {
unsigned int j;
for(j = 0; j < slideheader.linkcount; ++j) {
TRACE_DEBUG(" link bottom %u, left %u, width %u, height %u \n\r", \
slideheader.linkinfo[j].linkboxbottom,\
slideheader.linkinfo[j].linkboxleft,\
slideheader.linkinfo[j].linkboxwidth,\
slideheader.linkinfo[j].linkboxheight);
}
}
//seek to offset of the 'slideindex'th slide bit map data
res = f_lseek(&demoBinFile, offset);
if(res != FR_OK) {
TRACE_DEBUG(" Operation demo bin file fail! \n\r");
f_close(&demoBinFile);
return 1;
}
#if !defined(USE_SRAM_BUF)
//Read all single slide bitmap data into PSRAM buffer, then write to LCD
TRACE_DEBUG(" Ready to read bit map data len %u \n\r", slideheader.slidedatalength);
//read slide bit map data
res = f_read(&demoBinFile, gpFileBuffer, slideheader.slidedatalength, &i);
TRACE_DEBUG(" Data read len is %u \n\r", i);
if(res != FR_OK || i != slideheader.slidedatalength) {
TRACE_ERROR(" Read bitmap data fail! \n\r");
f_close(&demoBinFile);
return 1;
}
f_close(&demoBinFile);
//Define a pointer to cast bmp header
struct BMPHeader *header = (struct BMPHeader *)gpFileBuffer;
offset = header->offset;
//Show slide bitmap header information
TRACE_DEBUG("============bmp header outside calling============== \n\r");
TRACE_DEBUG(" bmp.type is %x \n\r", header->type);
TRACE_DEBUG(" bmp.filesize is %u \n\r", header->fileSize);
TRACE_DEBUG(" bmp.width is %u \n\r", header->width);
TRACE_DEBUG(" bmp.height is %u \n\r", header->height);
TRACE_DEBUG(" bmp.compressed is %u \n\r", header->compression);
TRACE_DEBUG(" bmp.bitdepth is %d \n\r", header->bits);
TRACE_DEBUG(" bmp.offset is %u \n\r", header->offset);
//LCDD_DrawImageRGB565((unsigned short *)(pLcdBuffer),BOARD_LCD_WIDTH, BOARD_LCD_HEIGHT);
LCDD_DrawImageRGB565((unsigned short *)(gpFileBuffer + offset),BOARD_LCD_WIDTH, BOARD_LCD_HEIGHT);
#else //USE_SRAM_BUF defined
//USE sram buffer to read bitmap data and then write to LCD
unsigned int k;
char srambuf[BUF_LEN_SRAM];
unsigned short *lcddata;
//buffer len is not even.
if(BUF_LEN_SRAM % 2 != 0) {
TRACE_ERROR("SRAM buffer size must be even! \n\r");
f_close(&demofilebin);
return 1;
}
//buffer len is too short to fit a bmp file header
if(BUF_LEN_SRAM < sizeof(struct BMPHeader)) {
TRACE_ERROR("SRAM buffer size is too short, Add it large than %u \n\r", sizeof(struct BMPHeader));
f_close(&demofilebin);
return 1;
}
//read slide bit map header
res = f_read(&demofilebin, srambuf, sizeof(struct BMPHeader), &i);
struct BMPHeader *header = (struct BMPHeader *)&srambuf[0];
//Get BMP bitmap data offset
offset = header->offset + slideheader.slideoffset;
//seek to the bitmap data offset
res = f_lseek(&demofilebin, offset);
if(res != FR_OK) {
TRACE_DEBUG(" Can't find BMP bitmap Data in bin file! \n\r");
f_close(&demofilebin);
return 1;
}
//prepare to write lcd
LCD_SetCursor((void *)BOARD_LCD_BASE, 0, 0);
LCD_WriteRAM_Prepare((void *)BOARD_LCD_BASE);
for(k = 0; k < slideheader.slidedatalength && k < LCD16BITDATALEN; k += BUF_LEN_SRAM) {
lcddata = (unsigned short *)&srambuf[0];
//read data to buffer
res = f_read(&demofilebin, srambuf, \
(k + BUF_LEN_SRAM)> slideheader.slidedatalength ? (slideheader.slidedatalength - k): BUF_LEN_SRAM, &i);
if(res != FR_OK) {
TRACE_ERROR(" Read bitmap data fail! \n\r");
f_close(&demofilebin);
return 1;
}
//write the data to LCD base address
while(i>0) {
LCD_WriteRAM((void *)BOARD_LCD_BASE, *(lcddata++));
i-=2;
}
}
f_close(&demofilebin);
#endif//end of USE_SRAM_BUF
unsigned int k;
if(slideheader.dispboxcount) {
for(k = 0; k < slideheader.dispboxcount; ++k) {
//conversion rule based on SAM3U current setting.
unsigned int top = slideheader.dispboxinfo[k].dispboxleft;
unsigned int left = DEMOSLIDEHEIGHT - slideheader.dispboxinfo[k].dispboxbottom;
unsigned int width = slideheader.dispboxinfo[k].dispboxheight;
unsigned int height = slideheader.dispboxinfo[k].dispboxwidth;
SetDispBoxPos(k+1, DISPBOX_ENABLE, \
top, left, width, height);
EnableDispBox(k);
}
} else {
for(k = 0; k < MAX_DISPBOX_PER_SLIDE; ++k) {
DisableDispBox(k);
}
}
return 0;
}
//------------------------------------------------------------------------------
///read slide information from External NandFlash, and Show
//------------------------------------------------------------------------------
static int ProcessBinFromNandFlash(unsigned int slideIdx, const char *pFileWithPath)
{
unsigned int iRet;
//fatfs mounted on NAND FLASH also, so reuse SDCard code
iRet = ProcessBinFromSDcard(slideIdx, pFileWithPath);
return iRet;
}
//------------------------------------------------------------------------------
///read slide information from Internal flash, and Show
//------------------------------------------------------------------------------
static int ProcessBinFromInternalFlash(unsigned int binStartAddr, unsigned int slideIdx)
{
DemoBINHeader binheader;
SlideINFOHeader slideheader;
unsigned int offset;
//get demo bin header information
binheader = *(DemoBINHeader*)binStartAddr;
TRACE_DEBUG(" bin tag is %x\n\r", binheader.tag);
TRACE_DEBUG(" filesize is %u\n\r", binheader.filesize);
TRACE_DEBUG(" headersize is %u\n\r", binheader.headersize);
TRACE_DEBUG(" bin has %u slide\n\r", binheader.slidecount);
//check if it has atmel demo bin header tag
if(binheader.tag != ATMLBINTAG) {
TRACE_ERROR(" Not Atmel demo bin in FLASH1!\n\r");
return 1;
}
//check if slide index reachs max
if(slideIdx >= binheader.slidecount) {
slideIdx = binheader.slidecount - 1;
TRACE_WARNING(" Reach max slides!\n\r");
}
//set real slide index as active
gActiveSlideIndex = slideIdx;
//offset of slide info header
offset = sizeof(DemoBINHeader) + slideIdx * sizeof(SlideINFOHeader);
#if defined(GLOBALSLIDEINFO)
memcpy(&gActiveSlideHeader, (void*)(binStartAddr+offset), sizeof(SlideINFOHeader));
#endif
slideheader = *(SlideINFOHeader *)(binStartAddr+offset);
TRACE_DEBUG(" slide has dispbox?%s\n\r",slideheader.dispboxyes?"yes":"no");
TRACE_DEBUG(" slideoffset is %u\n\r", slideheader.slideoffset);
TRACE_DEBUG(" slidedatalength is %u\n\r", slideheader.slidedatalength);
TRACE_DEBUG(" slidewidth is %u\n\r", slideheader.slidewidth);
TRACE_DEBUG(" slideheight is %u\n\r", slideheader.slideheight);
TRACE_DEBUG(" slide has %u links\n\r", slideheader.linkcount);
if(slideheader.linkcount) {
TRACE_DEBUG(" link 0'addr is %s\n\r", slideheader.linkinfo[0].linkstring);
}
//offset of slide bmp file
offset = slideheader.slideoffset;
BMP_displayHeader((unsigned int*)binStartAddr+offset);
//Get slide bmp file header
struct BMPHeader *bmpheader = (struct BMPHeader*)(binStartAddr+offset);
if(bmpheader->type != 0x4d42) {
TRACE_ERROR(" Slide bitmap file is not correct!\n\r");
return 1;
}
//check bitdepth if it is 8. 1,4bitdepth is not supported for complicate
//pixel color conversion. 16,24bitdepth bitmap data length too big.
//TODO: Care more case of IFlash of some EK board less than 8bit bmp file size, 77k
if(bmpheader->bits !=8) {
TRACE_ERROR(" Slide bitmap color bitdepth %d is not supported!", bmpheader->bits);
return 1;
}
BMP_Decode((void *)(binStartAddr + offset), gpFileBuffer, \
bmpheader->width, bmpheader->height, 24);
unsigned int i;
unsigned int color24;
unsigned short color16;
LCD_SetCursor((void *)BOARD_LCD_BASE, 0, 0);
LCD_WriteRAM_Prepare((void *)BOARD_LCD_BASE);
unsigned char * pImage = gpFileBuffer;
for (i = 0; i < (BOARD_LCD_WIDTH * BOARD_LCD_HEIGHT); i++) {
color24 = (*pImage << 16) | (*(pImage+1) << 8) | (*(pImage+2));
pImage += 3;
color16 = RGB24ToRGB16(color24);
LCD_WriteRAM((void *)BOARD_LCD_BASE, color16);
}
unsigned int k;
if(slideheader.dispboxcount) {
for(k = 0; k < slideheader.dispboxcount; ++k) {
//conversion rule based on SAM3U current setting.
unsigned int top = slideheader.dispboxinfo[k].dispboxleft;
unsigned int left = DEMOSLIDEHEIGHT - slideheader.dispboxinfo[k].dispboxbottom;
unsigned int width = slideheader.dispboxinfo[k].dispboxheight;
unsigned int height = slideheader.dispboxinfo[k].dispboxwidth;
SetDispBoxPos(k+1, DISPBOX_ENABLE, \
top, left, width, height);
EnableDispBox(k);
}
} else {
for(k = 0; k < MAX_DISPBOX_PER_SLIDE; ++k) {
DisableDispBox(k);
}
}
return 0;
}
//------------------------------------------------------------------------------
/// Show LCD prompt information, normally it is slide from demo bin
/// \param pFileName, demo bin file name without designated drive path
//------------------------------------------------------------------------------
int ReadSlideInfoAndShow(const char * pFileName)
{
int iRet;
char pFile[256];
strcpy(pFile,SDCARD_ROOT_DIRECTORY);
strncat(pFile, pFileName, 256-1-strlen(SDCARD_ROOT_DIRECTORY));
//gpActiveBinFile = "sam3demo.bin";//fname;
iRet = ProcessBinFromSDcard(gActiveSlideIndex, pFile);
//read from SDCard fail
if(iRet) {
strcpy(pFile, NAND_ROOT_DIRECTORY);
strncat(pFile, pFileName, 256-1-strlen(NAND_ROOT_DIRECTORY));
iRet = ProcessBinFromNandFlash(gActiveSlideIndex, pFile);
if(iRet){
iRet = ProcessBinFromInternalFlash(gDemoBinAddrInFlash, 0);
}
}
//both reading from sdcard and nand flash fail!
if(iRet) {
TRACE_ERROR("\n\r Read LCD prompt slide information fail!");
}
return iRet;
}
//------------------------------------------------------------------------------
/// Check the hit point if it is in hyperlink zone of active slide
/// \param slideIdx slide index to check the hyperlink on the slide
/// \return 0 means not in hot zone; other values is the link index start from 1
//------------------------------------------------------------------------------
static unsigned int CheckHitLink()
{
unsigned int bottom, left, width, height;
unsigned int linkcnt;
#if !defined(GLOBALSLIDEINFO)
SlideINFOHeader gActiveSlideHeader;//to consistent with global one
if(GetActiveSlideInfoHeader(gActiveSlideIndex,\
&gActiveSlideHeader,\
0))
{
//can't get active slide info, Consider as not hit
return 0;
}
#endif
linkcnt = gActiveSlideHeader.linkcount;
unsigned int i;
for(i = 0; i < linkcnt; ++i) {
bottom = gActiveSlideHeader.linkinfo[i].linkboxbottom;
left = gActiveSlideHeader.linkinfo[i].linkboxleft;
width = gActiveSlideHeader.linkinfo[i].linkboxwidth;
height = gActiveSlideHeader.linkinfo[i].linkboxheight;
//inside the link box?
if((gTSDxPressed > left) && (gTSDxPressed < (left + width)) && \
(gTSDyPressed < bottom) && (gTSDyPressed > (bottom - height)))
return i+1;
}
return 0;
}
//------------------------------------------------------------------------------
/// Get link string from link index on active slide
/// \param linkIdx link index on active slide, start from 1
/// \return NULL means no link string; otherwise, link string
//------------------------------------------------------------------------------
char * GetLinkStrFromActiveSlide(unsigned int linkIdx)
{
#if !defined(GLOBALSLIDEINFO)
SlideINFOHeader gActiveSlideHeader;//to consistent with global one
if(GetActiveSlideInfoHeader(gActiveSlideIndex,\
&gActiveSlideHeader,\
0))
{
//can't get active slide info, Consider as NULL
return NULL;
}
#endif
return gActiveSlideHeader.linkinfo[linkIdx-1].linkstring;
}
//////////////////////////////////////////////////////
/// exported function /
//////////////////////////////////////////////////////
//-------------------------------------------------------------------------
/// Set Touch screen is touched
//-------------------------------------------------------------------------
void TSD_SetTouched(void)
{
gTSDPressed = 1;
}
//-------------------------------------------------------------------------
/// Clear Touch screen is touched
//-------------------------------------------------------------------------
void TSD_ClearTouched(void)
{
gTSDPressed = 0;
}
//-------------------------------------------------------------------------
/// Get Touch screen is touched
//-------------------------------------------------------------------------
unsigned char TSD_GetTouched(void)
{
return gTSDPressed;
}
//-------------------------------------------------------------------------
/// Check if touchscreen hit in a hot zone
/// \return 0 means no, other values mean yes
//-------------------------------------------------------------------------
unsigned int TSD_CommandIsReady()
{
unsigned int ret;
if(0 == gTSDxPressed && 0 == gTSDyPressed) {
return 0;
}
ret = CheckHitLink();
//set global variable for link index
gLinkIndex = ret;
gTSDxPressed = gTSDyPressed = 0;
return ret;
}
//----------------------------------------------------------
/// Get ready command
/// \return string pointer to link string
//----------------------------------------------------------
const char * TSD_GetCommand()
{
char *pStr;
//get link string from index
pStr = GetLinkStrFromActiveSlide(gLinkIndex);
//clear
gLinkIndex = 0;
return pStr;
}
//------------------------------------------------------------------------------
/// Set LCD fresh show flag, this will cause next call to LCD_ShowPrompt reload
/// slide page data any way.
//------------------------------------------------------------------------------
void LCD_SetRefreshFlag()
{
gLcdRefreshFlag = 1;
}
//------------------------------------------------------------------------------
/// Clear LCD fresh show flag
//------------------------------------------------------------------------------
void LCD_ClearRefreshFlag()
{
gLcdRefreshFlag = 0;
}
//------------------------------------------------------------------------------
/// Show LCD prompt information, normally it is slide from demo bin
//------------------------------------------------------------------------------
int LCD_ShowPrompt()
{
static unsigned int slideIndexLoaded = 0xffffffff;
int ret;
if(gActiveSlideHeader.propyes) {
if(slideIndexLoaded != gActiveSlideIndex && slideIndexLoaded != 0xffffffff) {
ParseAndRunMultiCmds(gActiveSlideHeader.propinfo.onCloseCmds);
}
}
//reload show only slide index changed or fresh flag is set
if(slideIndexLoaded != gActiveSlideIndex || gLcdRefreshFlag) {
ret = ReadSlideInfoAndShow(gpActiveBinFile);
if(gActiveSlideHeader.propyes && slideIndexLoaded != gActiveSlideIndex) {
ParseAndRunMultiCmds(gActiveSlideHeader.propinfo.onInitCmds);
}
slideIndexLoaded = gActiveSlideIndex;
gLcdRefreshFlag = 0;
}
if(gActiveSlideHeader.propyes) {
ParseAndRunMultiCmds(gActiveSlideHeader.propinfo.onRefreshCmds);
}
return ret;
}
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