Bonjour à tous ,
Je tests actuellement un écran Shield écran tactile 2,8'' TF028 basé sur un ILI9341 avec une carte Arduino uno. Le bouclier lcd est fourni avec des sketch exemples dont l'un permet de faire défiler des images BMP à partir d'une carte sd . ( Shield écran tactile 2,8'' TF028 - Shields afficheurs graphiques | GO TRONIC)
J'ai formaté ma carte sd en FAT32 et copier les images du dossier exemple , ça fonctionne. Par contre, j'essaie de créer mes propres images et impossible de trouver le bon format. Je formate mes image sur photoshop en BMP 24 bits avec une taille de 320x240 rés. 72. J'ai essayé d'autre type de format BMP mais rien n'y fait.
J'ai un message d'erreur sur l'écran lcd :
" Load bmp
didn't find BMP image"
Par contre, si je prends une image du dossier exemple et que je l'"enregistre sous" au format BMP 24 bits , elle fonctionne ...
Je passe peut être à coté de quelque chose ...Quelqu'un a t'il une idée ? Merci
// IMPORTANT: Adafruit_TFTLCD LIBRARY MUST BE SPECIFICALLY
// CONFIGURED FOR EITHER THE TFT SHIELD OR THE BREAKOUT BOARD.
// SEE RELEVANT COMMENTS IN Adafruit_TFTLCD.h FOR SETUP.
#include <Adafruit_GFX.h> // Core graphics library
#include <Adafruit_TFTLCD.h> // Hardware-specific library
#include <SD.h>
#include <SPI.h>
// The control pins for the LCD can be assigned to any digital or
// analog pins...but we'll use the analog pins as this allows us to
// double up the pins with the touch screen (see the TFT paint example).
#define LCD_CS A3 // Chip Select goes to Analog 3
#define LCD_CD A2 // Command/Data goes to Analog 2
#define LCD_WR A1 // LCD Write goes to Analog 1
#define LCD_RD A0 // LCD Read goes to Analog 0
#define PIN_SD_CS 10 // Adafruit SD shields and modules: pin 10
#define LCD_RESET A4 // Can alternately just connect to Arduino's reset pin
// When using the BREAKOUT BOARD only, use these 8 data lines to the LCD:
// For the Arduino Uno, Duemilanove, Diecimila, etc.:
// D0 connects to digital pin 8 (Notice these are
// D1 connects to digital pin 9 NOT in order!)
// D2 connects to digital pin 2
// D3 connects to digital pin 3
// D4 connects to digital pin 4
// D5 connects to digital pin 5
// D6 connects to digital pin 6
// D7 connects to digital pin 7
// For the Arduino Mega, use digital pins 22 through 29
// (on the 2-row header at the end of the board).
// Assign human-readable names to some common 16-bit color values:
#define BLACK 0x0000
#define BLUE 0x001F
#define RED 0xF800
#define GREEN 0x07E0
#define CYAN 0x07FF
#define MAGENTA 0xF81F
#define YELLOW 0xFFE0
#define WHITE 0xFFFF
Adafruit_TFTLCD tft(LCD_CS, LCD_CD, LCD_WR, LCD_RD, LCD_RESET);
// If using the shield, all control and data lines are fixed, and
// a simpler declaration can optionally be used:
// Adafruit_TFTLCD tft;
#define MAX_BMP 10 // bmp file num
#define FILENAME_LEN 20 // max file name length
const int __Gnbmp_height = 320; // bmp hight
const int __Gnbmp_width = 240; // bmp width
unsigned char __Gnbmp_image_offset = 0; // offset
int __Gnfile_num = 4; // num of file
char __Gsbmp_files[4][FILENAME_LEN] = // add file name here
{
"flower.bmp",
"tiger.bmp",
"tree.bmp",
"RedRose.bmp",
};
File bmpFile;
/*********************************************/
// This procedure reads a bitmap and draws it to the screen
// its sped up by reading many pixels worth of data at a time
// instead of just one pixel at a time. increading the buffer takes
// more RAM but makes the drawing a little faster. 20 pixels' worth
// is probably a good place
#define BUFFPIXEL 60 // must be a divisor of 240
#define BUFFPIXEL_X3 180 // BUFFPIXELx3
void bmpdraw(File f, int x, int y)
{
bmpFile.seek(__Gnbmp_image_offset);
uint32_t time = millis();
uint8_t sdbuffer[BUFFPIXEL_X3]; // 3 * pixels to buffer
for (int i=0; i< __Gnbmp_height; i++) {
for(int j=0; j<(240/BUFFPIXEL); j++) {
bmpFile.read(sdbuffer, BUFFPIXEL_X3);
uint8_t buffidx = 0;
int offset_x = j*BUFFPIXEL;
unsigned int __color[BUFFPIXEL];
for(int k=0; k<BUFFPIXEL; k++) {
__color[k] = sdbuffer[buffidx+2]>>3; // read
__color[k] = __color[k]<<6 | (sdbuffer[buffidx+1]>>2); // green
__color[k] = __color[k]<<5 | (sdbuffer[buffidx+0]>>3); // blue
buffidx += 3;
}
for (int m = 0; m < BUFFPIXEL; m ++) {
tft.drawPixel(m+offset_x, i,__color[m]);
}
}
}
Serial.print(millis() - time, DEC);
Serial.println(" ms");
}
/*********************************************/
// These read data from the SD card file and convert them to big endian
// (the data is stored in little endian format!)
// LITTLE ENDIAN!
uint16_t read16(File f)
{
uint16_t d;
uint8_t b;
b = f.read();
d = f.read();
d <<= 8;
d |= b;
return d;
}
// LITTLE ENDIAN!
uint32_t read32(File f)
{
uint32_t d;
uint16_t b;
b = read16(f);
d = read16(f);
d <<= 16;
d |= b;
return d;
}
boolean bmpReadHeader(File f)
{
// read header
uint32_t tmp;
uint8_t bmpDepth;
if (read16(f) != 0x4D42) {
// magic bytes missing
return false;
}
// read file size
tmp = read32(f);
Serial.print("size 0x");
Serial.println(tmp, HEX);
// read and ignore creator bytes
read32(f);
__Gnbmp_image_offset = read32(f);
Serial.print("offset ");
Serial.println(__Gnbmp_image_offset, DEC);
// read DIB header
tmp = read32(f);
Serial.print("header size ");
Serial.println(tmp, DEC);
int bmp_width = read32(f);
int bmp_height = read32(f);
if(bmp_width != __Gnbmp_width || bmp_height != __Gnbmp_height) { // if image is not 320x240, return false
return false;
}
if (read16(f) != 1)
return false;
bmpDepth = read16(f);
Serial.print("bitdepth ");
Serial.println(bmpDepth, DEC);
if (read32(f) != 0) {
// compression not supported!
return false;
}
Serial.print("compression ");
Serial.println(tmp, DEC);
return true;
}
void setup(void) {
Serial.begin(9600);
Serial.println(F("TFT LCD test"));
#ifdef USE_ADAFRUIT_SHIELD_PINOUT
Serial.println(F("Using Adafruit 2.4\" TFT Arduino Shield Pinout"));
#else
Serial.println(F("Using Adafruit 2.4\" TFT Breakout Board Pinout"));
#endif
Serial.print("TFT size is "); Serial.print(tft.width()); Serial.print("x"); Serial.println(tft.height());
tft.reset();
uint16_t identifier = tft.readID();
if(identifier == 0x9325) {
Serial.println(F("Found ILI9325 LCD driver"));
} else if(identifier == 0x9328) {
Serial.println(F("Found ILI9328 LCD driver"));
} else if(identifier == 0x4535) {
Serial.println(F("Found LGDP4535 LCD driver"));
}else if(identifier == 0x7575) {
Serial.println(F("Found HX8347G LCD driver"));
} else if(identifier == 0x9341) {
Serial.println(F("Found ILI9341 LCD driver"));
} else if(identifier == 0x8357) {
Serial.println(F("Found HX8357D LCD driver"));
} else if(identifier==0x0101)
{
identifier=0x9341;
Serial.println(F("Found 0x9341 LCD driver"));
}else {
Serial.print(F("Unknown LCD driver chip: "));
Serial.println(identifier, HEX);
Serial.println(F("If using the Adafruit 2.8\" TFT Arduino shield, the line:"));
Serial.println(F(" #define USE_ADAFRUIT_SHIELD_PINOUT"));
Serial.println(F("should appear in the library header (Adafruit_TFT.h)."));
Serial.println(F("If using the breakout board, it should NOT be #defined!"));
Serial.println(F("Also if using the breakout, double-check that all wiring"));
Serial.println(F("matches the tutorial."));
identifier=0x9341;
}
tft.begin(identifier);
tft.fillScreen(BLUE);
//Init SD_Card
pinMode(10, OUTPUT);
if (!SD.begin(10)) {
Serial.println("initialization failed!");
tft.setCursor(0, 0);
tft.setTextColor(WHITE);
tft.setTextSize(1);
tft.println("SD Card Init fail.");
}else
Serial.println("initialization done.");
}
void loop(void) {
for(unsigned char i=0; i<__Gnfile_num; i++) {
bmpFile = SD.open(__Gsbmp_files[i]);
if (! bmpFile) {
Serial.println("didnt find image");
tft.setTextColor(WHITE); tft.setTextSize(1);
tft.println("didnt find BMPimage");
while (1);
}
if(! bmpReadHeader(bmpFile)) {
Serial.println("bad bmp");
tft.setTextColor(WHITE); tft.setTextSize(1);
tft.println("bad bmp");
return;
}
bmpdraw(bmpFile, 0, 0);
bmpFile.close();
delay(1000);
delay(1000);
}
}