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TFT 2x-3x scale, Anycubic, TronXY TFT support (#18224)

vanilla_fb_2.0.x
Victor 5 years ago
committed by GitHub
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265ab19ed2
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  1. 68
      Marlin/src/lcd/dogm/u8g_dev_tft_320x240_upscale_from_128x64.cpp
  2. 8
      Marlin/src/lcd/dogm/ultralcd_DOGM.h

68
Marlin/src/lcd/dogm/u8g_dev_tft_320x240_upscale_from_128x64.cpp

@ -73,14 +73,18 @@
extern void LCD_IO_WriteMultiple(uint16_t color, uint32_t count);
#endif
#ifndef FSMC_UPSCALE
#define FSMC_UPSCALE 2
#endif
#define WIDTH LCD_PIXEL_WIDTH
#define HEIGHT LCD_PIXEL_HEIGHT
#define PAGE_HEIGHT 8
#define X_LO LCD_PIXEL_OFFSET_X
#define Y_LO LCD_PIXEL_OFFSET_Y
#define X_HI (X_LO + 2 * WIDTH - 1)
#define Y_HI (Y_LO + 2 * HEIGHT - 1)
#define X_HI (X_LO + (FSMC_UPSCALE) * WIDTH - 1)
#define Y_HI (Y_LO + (FSMC_UPSCALE) * HEIGHT - 1)
// see https://ee-programming-notepad.blogspot.com/2016/10/16-bit-color-generator-picker.html
@ -526,8 +530,27 @@ static const uint16_t ili9341_init[] = {
B01111111,B11111111,B11111111,B11111110,
};
#define BUTTON_SIZE_X 32
#define BUTTON_SIZE_Y 20
// 14, 90, 166, 242, 185 are the original values upscaled 2x.
#define BUTTOND_X_LO (14 / 2) * (FSMC_UPSCALE)
#define BUTTOND_X_HI (BUTTOND_X_LO + (FSMC_UPSCALE) * BUTTON_SIZE_X - 1)
#define BUTTONA_X_LO (90 / 2) * (FSMC_UPSCALE)
#define BUTTONA_X_HI (BUTTONA_X_LO + (FSMC_UPSCALE) * BUTTON_SIZE_X - 1)
#define BUTTONB_X_LO (166 / 2) * (FSMC_UPSCALE)
#define BUTTONB_X_HI (BUTTONB_X_LO + (FSMC_UPSCALE) * BUTTON_SIZE_X - 1)
#define BUTTONC_X_LO (242 / 2) * (FSMC_UPSCALE)
#define BUTTONC_X_HI (BUTTONC_X_LO + (FSMC_UPSCALE) * BUTTON_SIZE_X - 1)
#define BUTTON_Y_LO (170 / 2) * (FSMC_UPSCALE)
#define BUTTON_Y_HI (BUTTON_Y_LO + (FSMC_UPSCALE) * BUTTON_SIZE_Y - 1)
void drawImage(const uint8_t *data, u8g_t *u8g, u8g_dev_t *dev, uint16_t length, uint16_t height, uint16_t color) {
uint16_t buffer[128];
uint16_t buffer[BUTTON_SIZE_X * sq(FSMC_UPSCALE)];
for (uint16_t i = 0; i < height; i++) {
uint16_t k = 0;
@ -537,17 +560,14 @@ static const uint16_t ili9341_init[] = {
v = color;
else
v = TFT_MARLINBG_COLOR;
buffer[k++] = v; buffer[k++] = v;
LOOP_L_N(n, FSMC_UPSCALE) buffer[k++] = v;
}
#ifdef LCD_USE_DMA_FSMC
if (k <= 80) { // generally is... for our buttons
memcpy(&buffer[k], &buffer[0], k * sizeof(uint16_t));
LCD_IO_WriteSequence(buffer, k * sizeof(uint16_t));
}
else {
LCD_IO_WriteSequence(buffer, k);
LCD_IO_WriteSequence(buffer, k);
}
LOOP_S_L_N(n, 1, FSMC_UPSCALE)
for (uint16_t l = 0; l < length * (FSMC_UPSCALE); l++)
buffer[l + (length * (FSMC_UPSCALE) * n)] = buffer[l];
LCD_IO_WriteSequence(buffer, COUNT(buffer));
#else
u8g_WriteSequence(u8g, dev, k << 1, (uint8_t*)buffer);
u8g_WriteSequence(u8g, dev, k << 1, (uint8_t*)buffer);
@ -569,7 +589,7 @@ static uint8_t page;
uint8_t u8g_dev_tft_320x240_upscale_from_128x64_fn(u8g_t *u8g, u8g_dev_t *dev, uint8_t msg, void *arg) {
u8g_pb_t *pb = (u8g_pb_t *)(dev->dev_mem);
#ifdef LCD_USE_DMA_FSMC
static uint16_t bufferA[512], bufferB[512];
static uint16_t bufferA[WIDTH * sq(FSMC_UPSCALE)], bufferB[WIDTH * sq(FSMC_UPSCALE)];
uint16_t* buffer = &bufferA[0];
bool allow_async = true;
#else
@ -597,6 +617,7 @@ uint8_t u8g_dev_tft_320x240_upscale_from_128x64_fn(u8g_t *u8g, u8g_dev_t *dev, u
setWindow = setWindow_ili9328;
break;
case 0x9341: // ILI9341
case 0x8066: // ILI9341 Anycubic / TronXY TFTs
#ifdef LCD_USE_DMA_FSMC
writeEscSequence(ili9341_init);
#else
@ -645,16 +666,16 @@ uint8_t u8g_dev_tft_320x240_upscale_from_128x64_fn(u8g_t *u8g, u8g_dev_t *dev, u
u8g_WriteSequence(u8g, dev, 150, (uint8_t *)buffer);
#endif
setWindow(u8g, dev, 14, 185, 77, 224);
setWindow(u8g, dev, BUTTOND_X_LO, BUTTON_Y_LO, BUTTOND_X_HI, BUTTON_Y_HI);
drawImage(buttonD, u8g, dev, 32, 20, TFT_BTCANCEL_COLOR);
setWindow(u8g, dev, 90, 185, 153, 224);
setWindow(u8g, dev, BUTTONA_X_LO, BUTTON_Y_LO, BUTTONA_X_HI, BUTTON_Y_HI);
drawImage(buttonA, u8g, dev, 32, 20, TFT_BTARROWS_COLOR);
setWindow(u8g, dev, 166, 185, 229, 224);
setWindow(u8g, dev, BUTTONB_X_LO, BUTTON_Y_LO, BUTTONB_X_HI, BUTTON_Y_HI);
drawImage(buttonB, u8g, dev, 32, 20, TFT_BTARROWS_COLOR);
setWindow(u8g, dev, 242, 185, 305, 224);
setWindow(u8g, dev, BUTTONC_X_LO, BUTTON_Y_LO, BUTTONC_X_HI, BUTTON_Y_HI);
drawImage(buttonC, u8g, dev, 32, 20, TFT_BTOKMENU_COLOR);
#endif // TOUCH_BUTTONS
@ -678,19 +699,22 @@ uint8_t u8g_dev_tft_320x240_upscale_from_128x64_fn(u8g_t *u8g, u8g_dev_t *dev, u
for (uint16_t i = 0; i < (uint32_t)pb->width; i++) {
const uint8_t b = *(((uint8_t *)pb->buf) + i);
const uint16_t c = TEST(b, y) ? TFT_MARLINUI_COLOR : TFT_MARLINBG_COLOR;
buffer[k++] = c; buffer[k++] = c;
LOOP_L_N(n, FSMC_UPSCALE) buffer[k++] = c;
}
#ifdef LCD_USE_DMA_FSMC
memcpy(&buffer[256], &buffer[0], 512);
LOOP_S_L_N(n, 1, FSMC_UPSCALE)
for (uint16_t l = 0; l < WIDTH * (FSMC_UPSCALE); l++)
buffer[l + WIDTH * (FSMC_UPSCALE) * n] = buffer[l];
if (allow_async) {
if (y > 0 || page > 1) LCD_IO_WaitSequence_Async();
if (y == 7 && page == 8)
LCD_IO_WriteSequence(buffer, 512); // last line of last page
LCD_IO_WriteSequence(buffer, COUNT(bufferA)); // last line of last page
else
LCD_IO_WriteSequence_Async(buffer, 512);
LCD_IO_WriteSequence_Async(buffer, COUNT(bufferA));
}
else
LCD_IO_WriteSequence(buffer, 512);
LCD_IO_WriteSequence(buffer, COUNT(bufferA));
#else
uint8_t* bufptr = (uint8_t*) buffer;
for (uint8_t i = 2; i--;) {

8
Marlin/src/lcd/dogm/ultralcd_DOGM.h

@ -199,11 +199,19 @@
// LCD_FULL_PIXEL_WIDTH =
// LCD_PIXEL_OFFSET_X + (LCD_PIXEL_WIDTH * 2) + LCD_PIXEL_OFFSET_X
#if ENABLED(FSMC_GRAPHICAL_TFT)
#ifndef LCD_FULL_PIXEL_WIDTH
#define LCD_FULL_PIXEL_WIDTH 320
#endif
#ifndef LCD_PIXEL_OFFSET_X
#define LCD_PIXEL_OFFSET_X 32
#endif
#ifndef LCD_FULL_PIXEL_HEIGHT
#define LCD_FULL_PIXEL_HEIGHT 240
#endif
#ifndef LCD_PIXEL_OFFSET_Y
#define LCD_PIXEL_OFFSET_Y 32
#endif
#endif
// For selective rendering within a Y range
#define PAGE_OVER(ya) ((ya) <= u8g.getU8g()->current_page.y1) // Does the current page follow a region top?

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