acid-drop/lib/TFT_eSPI/examples/PNG Images/Flash_PNG/Flash_PNG.ino


// This example renders a png file that is stored in a FLASH array
// using the PNGdec library (available via library manager).

// Image files can be converted to arrays using the tool here:
// https://notisrac.github.io/FileToCArray/
// To use this tool:
//   1. Drag and drop file on "Browse..." button
//   2. Tick box "Treat as binary"
//   3. Click "Convert"
//   4. Click "Save as file" and move the header file to sketch folder
//   5. Open the sketch in IDE
//   6. Include the header file containing the array (panda.h in this example)

// Include the PNG decoder library
#include <PNGdec.h>
#include "panda.h" // Image is stored here in an 8 bit array

PNG png; // PNG decoder inatance

#define MAX_IMAGE_WIDTH 240 // Adjust for your images

int16_t xpos = 0;
int16_t ypos = 0;

// Include the TFT library https://github.com/Bodmer/TFT_eSPI
#include "SPI.h"
#include <TFT_eSPI.h>              // Hardware-specific library
TFT_eSPI tft = TFT_eSPI();         // Invoke custom library

//====================================================================================
//                                    Setup
//====================================================================================
void setup()
{
  Serial.begin(115200);
  Serial.println("\n\n Using the PNGdec library");

  // Initialise the TFT
  tft.begin();
  tft.fillScreen(TFT_BLACK);

  Serial.println("\r\nInitialisation done.");
}

//====================================================================================
//                                    Loop
//====================================================================================
void loop()
{
  int16_t rc = png.openFLASH((uint8_t *)panda, sizeof(panda), pngDraw);
  if (rc == PNG_SUCCESS) {
    Serial.println("Successfully opened png file");
    Serial.printf("image specs: (%d x %d), %d bpp, pixel type: %d\n", png.getWidth(), png.getHeight(), png.getBpp(), png.getPixelType());
    tft.startWrite();
    uint32_t dt = millis();
    rc = png.decode(NULL, 0);
    Serial.print(millis() - dt); Serial.println("ms");
    tft.endWrite();
    // png.close(); // not needed for memory->memory decode
  }
  delay(3000);
  tft.fillScreen(random(0x10000));
}


//=========================================v==========================================
//                                      pngDraw
//====================================================================================
// This next function will be called during decoding of the png file to
// render each image line to the TFT.  If you use a different TFT library
// you will need to adapt this function to suit.
// Callback function to draw pixels to the display
void pngDraw(PNGDRAW *pDraw) {
  uint16_t lineBuffer[MAX_IMAGE_WIDTH];
  png.getLineAsRGB565(pDraw, lineBuffer, PNG_RGB565_BIG_ENDIAN, 0xffffffff);
  tft.pushImage(xpos, ypos + pDraw->y, pDraw->iWidth, 1, lineBuffer);
}
Initial commit 2024-05-23 18:42:03 -04:00
			`// This example renders a png file that is stored in a FLASH array`
			`// using the PNGdec library (available via library manager).`

			`// Image files can be converted to arrays using the tool here:`
			`// https://notisrac.github.io/FileToCArray/`
			`// To use this tool:`
			`// 1. Drag and drop file on "Browse..." button`
			`// 2. Tick box "Treat as binary"`
			`// 3. Click "Convert"`
			`// 4. Click "Save as file" and move the header file to sketch folder`
			`// 5. Open the sketch in IDE`
			`// 6. Include the header file containing the array (panda.h in this example)`

			`// Include the PNG decoder library`
			`#include <PNGdec.h>`
			`#include "panda.h" // Image is stored here in an 8 bit array`

			`PNG png; // PNG decoder inatance`

			`#define MAX_IMAGE_WIDTH 240 // Adjust for your images`

			`int16_t xpos = 0;`
			`int16_t ypos = 0;`

			`// Include the TFT library https://github.com/Bodmer/TFT_eSPI`
			`#include "SPI.h"`
			`#include <TFT_eSPI.h> // Hardware-specific library`
			`TFT_eSPI tft = TFT_eSPI(); // Invoke custom library`

			`//====================================================================================`
			`// Setup`
			`//====================================================================================`
			`void setup()`
			`{`
			`Serial.begin(115200);`
			`Serial.println("\n\n Using the PNGdec library");`

			`// Initialise the TFT`
			`tft.begin();`
			`tft.fillScreen(TFT_BLACK);`

			`Serial.println("\r\nInitialisation done.");`
			`}`

			`//====================================================================================`
			`// Loop`
			`//====================================================================================`
			`void loop()`
			`{`
			`int16_t rc = png.openFLASH((uint8_t *)panda, sizeof(panda), pngDraw);`
			`if (rc == PNG_SUCCESS) {`
			`Serial.println("Successfully opened png file");`
			`Serial.printf("image specs: (%d x %d), %d bpp, pixel type: %d\n", png.getWidth(), png.getHeight(), png.getBpp(), png.getPixelType());`
			`tft.startWrite();`
			`uint32_t dt = millis();`
			`rc = png.decode(NULL, 0);`
			`Serial.print(millis() - dt); Serial.println("ms");`
			`tft.endWrite();`
			`// png.close(); // not needed for memory->memory decode`
			`}`
			`delay(3000);`
			`tft.fillScreen(random(0x10000));`
			`}`


			`//=========================================v==========================================`
			`// pngDraw`
			`//====================================================================================`
			`// This next function will be called during decoding of the png file to`
			`// render each image line to the TFT. If you use a different TFT library`
			`// you will need to adapt this function to suit.`
			`// Callback function to draw pixels to the display`
			`void pngDraw(PNGDRAW *pDraw) {`
			`uint16_t lineBuffer[MAX_IMAGE_WIDTH];`
			`png.getLineAsRGB565(pDraw, lineBuffer, PNG_RGB565_BIG_ENDIAN, 0xffffffff);`
			`tft.pushImage(xpos, ypos + pDraw->y, pDraw->iWidth, 1, lineBuffer);`
			`}`