clemente di caprio
MI0283QT Library Program demostration
Dependencies: mbed MI0283QTlib
main.cpp
- Committer:
- clemente
- Date:
- 2012-05-26
- Revision:
- 0:4c87cf4af8b5
File content as of revision 0:4c87cf4af8b5:
#include "mbed.h"
#include "Touchlib.h"
#include "MI0283QTlib.h"
#include "SDFileSystem.h"
//
#include "info.h"
//
#include "crocino.h"
unsigned char CheckRectangle (unsigned int X_up, unsigned int Y_up,unsigned int X_size, unsigned int Y_size, unsigned int X_point, unsigned int Y_point );
void test_touch( void) ;
DigitalOut DBG_LED(LED1);
DigitalOut myled(LED2);
DigitalOut TS_CS(p15);
DigitalIn MAKECAL( p30);
FILE *fp, *fpf;
TOUCHS ts( p11, p12, p13, p15, p29);
GLCD lcd( p11, p12, p13, p14, p17, p26);
SDFileSystem sd(p5, p6, p7, p8, "sd");
//
unsigned char imageLinebuffer[320*3];
unsigned char docalibration=0;
int main() {
_TS_COORD ts_coord[3];
TS_CS=1;
// I use the pin30 to force a calibration.
MAKECAL.mode( PullUp);
// is there an sdcard?
fp = fopen("/sd/mbed.txt", "w");
if ( fp == NULL) {
printf("Error opening file\r\n");
DBG_LED=1;
while(1);
}
fprintf( fp, "File mbed\n");
fclose( fp);
// lcd init
lcd.lcd_init();
lcd.backlightoff();
// some setup..
lcd.lcd_setfontsmall();
lcd.lcd_clear( LCD_WHITE);
lcd.backlighton();
// splash screen...
fp = fopen("/sd/images/mi0283qt.RGB", "rb");
if ( fp != NULL) {
lcd.lcd_drawimage( "/sd/images/mi0283qt.RGB");
fclose( fp);
wait(3);
}
//
lcd.lcd_clear( LCD_BLACK);
// touch init...
ts.init();
// 1. we check if there is a saved file with the calibration data...
fp = fopen("/sd/ts_mtx.bin", "rb");
if ( fp == NULL) {
// not found...
printf("ts_mtx.bin is not present.\r\n");
// next we must start the calibration process...
docalibration=1;
} else {
printf("ts_mtx.bin exist\r\n");
unsigned char *pmatrix;
/* we allocate memory to hold the saved caibration data. */
pmatrix=(unsigned char*)malloc( ts.gettsmatrixsize());
if( pmatrix==NULL) {
printf("Error allocating memory\r\n");
DBG_LED=1;
while(1);
}
/* read the calibration data. */
int mtxsize=fread( pmatrix, 1, ts.gettsmatrixsize(), fp);
fclose( fp);
printf("matrix_read: %d\r\n", mtxsize);
if ( mtxsize != ts.gettsmatrixsize()) {
printf("error reading the calibration data... force the calibration.\r\n");
/* error reading the calibration data... force the calibration.*/
docalibration=1;
free( pmatrix);
} else {
/* set the calibration data. */
ts.settsmatrix( pmatrix);
docalibration=0;
free( pmatrix);
}
}
//
while( docalibration || MAKECAL==0) {
printf("Starting the calibration...\r\n");
wait( 1);
/* reset the calibration flag. */
ts.ts_val.calibration_done=0;
lcd.lcd_drawstr( "TouchScreen Calibration... [1/3]", 0, 0, lcd.lcd_RGB( 0, 255, 0));
lcd.lcd_drawicon( &crocino[0], ts.getcrocino_x(0),ts.getcrocino_y(0), ts.crocino_size());
ts.ts_val.touched=0;
while( !ts.ts_val.touched) {
ts.do_tap();
}
//
lcd.lcd_clear( ts.getcrocino_x(0),ts.getcrocino_y(0), ts.crocino_size(), ts.crocino_size(), LCD_BLACK );
//
ts_coord[0].x=ts.ts_val.coord.x; ts_coord[0].y=ts.ts_val.coord.y;
//
wait( 0.5);
lcd.lcd_drawstr( "TouchScreen Calibration... [2/3]", 0, 0, lcd.lcd_RGB( 0, 255, 0));
lcd.lcd_drawicon( &crocino[0], ts.getcrocino_x(1),ts.getcrocino_y(1), ts.crocino_size());
ts.ts_val.touched=0;
while( !ts.ts_val.touched) {
ts.do_tap();
}
//
lcd.lcd_clear( ts.getcrocino_x(1),ts.getcrocino_y(1), ts.crocino_size(), ts.crocino_size(), LCD_BLACK );
//
ts_coord[1].x=ts.ts_val.coord.x; ts_coord[1].y=ts.ts_val.coord.y;
//
wait( 0.5);
lcd.lcd_drawstr( "TouchScreen Calibration... [3/3]", 0, 0, lcd.lcd_RGB( 0, 255, 0));
lcd.lcd_drawicon( &crocino[0], ts.getcrocino_x(2),ts.getcrocino_y(2), ts.crocino_size());
ts.ts_val.touched=0;
while( !ts.ts_val.touched) {
ts.do_tap();
}
//
lcd.lcd_clear( ts.getcrocino_x(2),ts.getcrocino_y(2), ts.crocino_size(), ts.crocino_size(), LCD_BLACK );
//
ts.ts_val.touched=0;
ts_coord[2].x=ts.ts_val.coord.x; ts_coord[2].y=ts.ts_val.coord.y;
//
lcd.lcd_clear( LCD_BLACK);
if ( ts.setcalibration( &ts_coord[0])) {
lcd.lcd_drawstr( "TouchScreen Calibration... Done!", 0, 0, lcd.lcd_RGB( 0, 255, 0));
wait( 3);
/* save the file with the calibration data. */
fp = fopen("/sd/ts_mtx.bin", "wb");
if ( fp == NULL) {
printf("Error opening file\r\n");
DBG_LED=1;
while(1);
}
/* we allocate memory to get the calibration data to save. */
unsigned char *pmatrix;
pmatrix=(unsigned char*)malloc( ts.gettsmatrixsize());
if( pmatrix==NULL) {
printf("Error allocating memory\r\n");
DBG_LED=1;
while(1);
}
/* get the calibration data. */
ts.gettsmatrix( pmatrix);
/* save the data to the file. */
int mtxsize=fwrite( pmatrix, 1, ts.gettsmatrixsize(), fp);
fflush( fp);
fclose( fp);
printf("matrix_size: %d\r\n", mtxsize);
/* */
if ( mtxsize != ts.gettsmatrixsize()) {
printf("Error writing calibration data \r\n");
docalibration=1;
free( pmatrix);
} else {
printf("ts_mtx.bin saved\r\n");
/* exit from the calibration loop.*/
docalibration=0;
free( pmatrix);
}
} else {
lcd.lcd_drawstr( "TouchScreen Calibration... ERROR!", 0, 0, lcd.lcd_RGB( 0, 255, 0));
wait( 3);
lcd.lcd_clear( LCD_BLACK);
docalibration=1;
}
}
char fnm[20];
int x_img=160, y_img=120;
unsigned char idx_pos=0;
char fname[4][64];
unsigned int idxf=20;
//
unsigned int changeImage=1;
unsigned int linepos=0;
unsigned int filepos=0;
unsigned int size;
unsigned int redraw_quad;
while( 1) {
// loop
idx_pos=0;
while( 1) {
// open the image files stored as NNNN.rgb
sprintf( fnm, "/sd/images/%04d.rgb\0", idxf);
while( (fpf=fopen( (char *)fnm, "r")) == NULL) {
DBG_LED=1;
printf( "Errore su file: %s\r\n", (char *)fnm);
if ( fpf)
fclose( fpf);
//
idxf++;
if ( idxf > 1700) // a huge images repository!
idxf=0;
//
sprintf( fnm, "/sd/images/%04d.rgb\0", idxf);
}
//
strcpy( &fname[idx_pos][0], fnm);
idxf++;
printf("Image: %s, idx_pos: %d, fname: %s\r\n", fnm, idx_pos, &fname[idx_pos][0]);
//
linepos=0;
while( feof( fpf)==0) {
// calculate the position inside the file to read the image...
filepos=( sizeof(imageLinebuffer)/sizeof(imageLinebuffer[0]) ) * linepos * SCALE_160x120;
fseek( fpf, filepos, SEEK_SET );
// read the entire line...
size=fread( &imageLinebuffer[0], sizeof(imageLinebuffer[0]), sizeof(imageLinebuffer)/sizeof(imageLinebuffer[0]), fpf);
// and draw it...
lcd.lcd_drawimagebyline( &imageLinebuffer[0], linepos, x_img*(idx_pos&0x1), y_img*((idx_pos>>1)&0x1), SCALE_160x120);
linepos++;
}
// close the file...
fclose( fpf);
printf("x_img= %d, y_img= %d\r\n", x_img*(idx_pos&0x1), y_img*((idx_pos>>1)&0x1));
// change the image position inside the quad
idx_pos++;
idx_pos%=4;
// check if the screen is full with 4 images...
if ( idx_pos==0)
break;
}
//
// at this point there are 4 images draw on the screen.
// just wait the user to press the TS.
//
idx_pos=0;
redraw_quad=0;
while( redraw_quad==0) {
// just loop waiting for a tap...
while( !ts.ts_val.touched) {
ts.do_tap();
}
ts.ts_val.touched=0;
// first check if the user tap on the bottom left
if ( CheckRectangle( 0, 180, 80, 60, ts.ts_val.coord.x, ts.ts_val.coord.y) ) {
// tap on left. Change the image index to go back.
idxf-=8;
break;
}
// ...or bottom right.
if ( CheckRectangle( 240, 180, 80, 60, ts.ts_val.coord.x, ts.ts_val.coord.y) ) {
// tap on right. Nothing to change, the index image is pointing the next four images.
break;
}
// ...or upper right.
if ( CheckRectangle( 240, 0, 80, 60, ts.ts_val.coord.x, ts.ts_val.coord.y) ) {
// tap on upper right. Lets movies...
// more big movie (160x120 pixel)
lcd.lcd_clear( LCD_WHITE);
if ( lcd.lcd_drawmoviebuff( "/sd/movies2/unicolcd.bin", 160-80, 120-60) == 0) {
printf("Errore apertura file\r\n");
DBG_LED=1;
}
wait( 1);
// small movie (80x60 pixel) at 15fs.
if ( lcd.lcd_drawmovie( "/sd/movies1/unico.bin", 160-40, 120-30) == 0) {
printf("Errore apertura file\r\n");
DBG_LED=1;
}
#if 0
//
// But now I can't continue! Please reset! :-)
// There is a bug in my code that, after the play of the big movie
// the screen area remain like the area of the movie. The LCD does not receive more area command.
// Sometimes it works sometimes not...
//
while( 1);
#endif
}
// ...or upper left.
if ( CheckRectangle( 0, 0, 80, 60, ts.ts_val.coord.x, ts.ts_val.coord.y) ) {
// tap on upper left. Display the TS test...
test_touch();
idxf-=4;
break;
}
// at this point we check which image is tapped
idx_pos=0;
while( idx_pos < 4) {
// we use the same index methodology to calculate the coordinate of the area tapped...
if ( CheckRectangle( x_img*(idx_pos&0x1), y_img*((idx_pos>>1)&0x1), 160, 120, ts.ts_val.coord.x, ts.ts_val.coord.y) ) {
// an image is selected so draw it at full screen
lcd.lcd_drawimagebuff( &fname[idx_pos][0]);
// wait for a tap to exit.
while( !ts.ts_val.touched) {
ts.do_tap();
}
ts.ts_val.touched=0;
// let stop the waiting loop to redraw the quad screen.
redraw_quad=1;
// change the image index to redraw the same images.
idxf-=4;
// exit the loop
break;
}
//
idx_pos++;
}
idx_pos=0;
}
}
}
void test_touch( void)
{
// test the TS capability...
// Please connect a serial cable to see the result...
//
lcd.lcd_clear( LCD_WHITE);
lcd.lcd_setbackgroundcolor( LCD_WHITE);
// four icons on the left.
lcd.lcd_drawicon( (unsigned char*)&info[0], 0, 24, 48); // icona 1
lcd.lcd_drawicon( (unsigned char*)&info[0], 0, 24+48, 48); // icona 2
lcd.lcd_drawicon( (unsigned char*)&info[0], 0, 24+48+48, 48); // icona 3
lcd.lcd_drawicon( (unsigned char*)&info[0], 0, 24+48+48+48, 48); // icona 4
// two icons at the bottom.
lcd.lcd_drawicon( (unsigned char*)&info[0], 136, 192, 48); // icona 5
lcd.lcd_drawicon( (unsigned char*)&info[0], 136+48, 192, 48); // icona 6
//
lcd.lcd_drawstr("Tap here to exit", 220, 20, LCD_BLACK);
// loop forever...
while( 1)
{
//
printf("Starting the loop...\n\r");
while( !ts.ts_val.touched) {
ts.do_tap();
}
ts.ts_val.touched=0;
//
lcd.lcd_drawstr("Out!!! ", 240, 10, LCD_BLACK);
//
if ( CheckRectangle( 0, 24, 48, 48, ts.ts_val.coord.x, ts.ts_val.coord.y) )
lcd.lcd_drawstr("Icona 1 ", 240, 10, LCD_BLACK);
if ( CheckRectangle( 0, 24+48, 48, 48, ts.ts_val.coord.x, ts.ts_val.coord.y) )
lcd.lcd_drawstr("Icona 2 ", 240, 10, LCD_BLACK);
if ( CheckRectangle( 0, 24+48+48, 48, 48, ts.ts_val.coord.x, ts.ts_val.coord.y) )
lcd.lcd_drawstr("Icona 3 ", 240, 10, LCD_BLACK);
if ( CheckRectangle( 0, 24+48+48+48, 48, 48, ts.ts_val.coord.x, ts.ts_val.coord.y) )
lcd.lcd_drawstr("Icona 4 ", 240, 10, LCD_BLACK);
if ( CheckRectangle( 136, 192, 48, 48, ts.ts_val.coord.x, ts.ts_val.coord.y) )
lcd.lcd_drawstr("Icona 5 ", 240, 10, LCD_BLACK);
if ( CheckRectangle( 136+48, 192, 48, 48, ts.ts_val.coord.x, ts.ts_val.coord.y) )
lcd.lcd_drawstr("Icona 6 ", 240, 10, LCD_BLACK);
// ...or upper right to exit.
if ( CheckRectangle( 240, 0, 80, 60, ts.ts_val.coord.x, ts.ts_val.coord.y) )
break;
printf("X:%5d\tY:%5d\tZ:%d\r\n", ts.ts_val.coord.x, ts.ts_val.coord.y, ts.ts_val.coord.z);
wait_ms( 250);
}
}
/*************************************************************************
* Function Name: CheckRectangle
* Parameters: Int32U X_up, Int32U Y_up - rectangle coordinate
* Int32U X_size, Int32U Y_size - rectangle size
* Int32U X_poin, Int32U Y_point - point coordinate
*
* Return: Boolean
* TRUE - the point is inside from the rectangle
* FALSE - the point is outside from the rectangle
*
* Description: Check whether the coordinate of point is inside from a rectangle
*
*************************************************************************/
unsigned char CheckRectangle (unsigned int X_up, unsigned int Y_up, unsigned int X_size, unsigned int Y_size, unsigned int X_point, unsigned int Y_point )
{
if((X_up <= X_point) && (X_point <= X_up+X_size) &&
(Y_up <= Y_point) && (Y_point <= Y_up+Y_size))
{
return ( 1);
}
return ( 0);
}