ad301fd087
Coloring of grayscale images Dimming control from configurable segment
380 lines
11 KiB
C++
380 lines
11 KiB
C++
#ifndef TFTS_H
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#define TFTS_H
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#include "wled.h"
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#include <FS.h>
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#include <TFT_eSPI.h>
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#include "Hardware.h"
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#include "ChipSelect.h"
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class TFTs : public TFT_eSPI {
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private:
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uint8_t digits[NUM_DIGITS];
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// These read 16- and 32-bit types from the SD card file.
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// BMP data is stored little-endian, Arduino is little-endian too.
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// May need to reverse subscript order if porting elsewhere.
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uint16_t read16(fs::File &f) {
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uint16_t result;
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((uint8_t *)&result)[0] = f.read(); // LSB
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((uint8_t *)&result)[1] = f.read(); // MSB
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return result;
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}
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uint32_t read32(fs::File &f) {
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uint32_t result;
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((uint8_t *)&result)[0] = f.read(); // LSB
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((uint8_t *)&result)[1] = f.read();
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((uint8_t *)&result)[2] = f.read();
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((uint8_t *)&result)[3] = f.read(); // MSB
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return result;
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}
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uint16_t output_buffer[TFT_HEIGHT][TFT_WIDTH];
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int16_t w = 135, h = 240, x = 0, y = 0, bufferedDigit = 255;
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uint16_t digitR, digitG, digitB, dimming = 255;
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uint32_t digitColor = 0;
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void drawBuffer() {
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bool oldSwapBytes = getSwapBytes();
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setSwapBytes(true);
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pushImage(x, y, w, h, (uint16_t *)output_buffer);
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setSwapBytes(oldSwapBytes);
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}
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// These BMP functions are stolen directly from the TFT_SPIFFS_BMP example in the TFT_eSPI library.
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// Unfortunately, they aren't part of the library itself, so I had to copy them.
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// I've modified drawBmp to buffer the whole image at once instead of doing it line-by-line.
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//// BEGIN STOLEN CODE
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// Draw directly from file stored in RGB565 format. Fastest
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bool drawBin(const char *filename) {
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fs::File bmpFS;
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// Open requested file on SD card
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bmpFS = WLED_FS.open(filename, "r");
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size_t sz = bmpFS.size();
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if (sz > 64800) {
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bmpFS.close();
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return false;
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}
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uint16_t r, g, b, dimming = 255;
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int16_t row, col;
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//draw img that is shorter than 240pix into the center
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w = 135;
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h = sz / (w * 2);
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x = 0;
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y = (height() - h) /2;
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uint8_t lineBuffer[w * 2];
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if (!realtimeMode || realtimeOverride) strip.service();
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// 0,0 coordinates are top left
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for (row = 0; row < h; row++) {
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bmpFS.read(lineBuffer, sizeof(lineBuffer));
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uint8_t PixM, PixL;
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// Colors are already in 16-bit R5, G6, B5 format
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for (col = 0; col < w; col++)
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{
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if (dimming == 255 && !digitColor) { // not needed, copy directly
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output_buffer[row][col] = (lineBuffer[col*2+1] << 8) | (lineBuffer[col*2]);
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} else {
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// 16 BPP pixel format: R5, G6, B5 ; bin: RRRR RGGG GGGB BBBB
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PixM = lineBuffer[col*2+1];
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PixL = lineBuffer[col*2];
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// align to 8-bit value (MSB left aligned)
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r = (PixM) & 0xF8;
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g = ((PixM << 5) | (PixL >> 3)) & 0xFC;
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b = (PixL << 3) & 0xF8;
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r *= dimming; g *= dimming; b *= dimming;
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r = r >> 8; g = g >> 8; b = b >> 8;
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if (digitColor) { // grayscale pixel coloring
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uint8_t l = (r > g) ? ((r > b) ? r:b) : ((g > b) ? g:b);
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r = g = b = l;
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r *= digitR; g *= digitG; b *= digitB;
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r = r >> 8; g = g >> 8; b = b >> 8;
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}
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output_buffer[row][col] = ((r & 0xF8) << 8) | ((g & 0xFC) << 3) | (b >> 3);
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}
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}
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}
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drawBuffer();
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bmpFS.close();
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return true;
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}
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bool drawBmp(const char *filename) {
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fs::File bmpFS;
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// Open requested file on SD card
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bmpFS = WLED_FS.open(filename, "r");
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uint32_t seekOffset, headerSize, paletteSize = 0;
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int16_t row;
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uint16_t r, g, b, dimming = 255, bitDepth;
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uint16_t magic = read16(bmpFS);
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if (magic != ('B' | ('M' << 8))) { // File not found or not a BMP
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Serial.println(F("BMP not found!"));
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bmpFS.close();
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return false;
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}
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read32(bmpFS); // filesize in bytes
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read32(bmpFS); // reserved
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seekOffset = read32(bmpFS); // start of bitmap
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headerSize = read32(bmpFS); // header size
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w = read32(bmpFS); // width
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h = read32(bmpFS); // height
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read16(bmpFS); // color planes (must be 1)
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bitDepth = read16(bmpFS);
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if (read32(bmpFS) != 0 || (bitDepth != 24 && bitDepth != 1 && bitDepth != 4 && bitDepth != 8)) {
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Serial.println(F("BMP format not recognized."));
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bmpFS.close();
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return false;
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}
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uint32_t palette[256];
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if (bitDepth <= 8) // 1,4,8 bit bitmap: read color palette
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{
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read32(bmpFS); read32(bmpFS); read32(bmpFS); // size, w resolution, h resolution
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paletteSize = read32(bmpFS);
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if (paletteSize == 0) paletteSize = bitDepth * bitDepth; //if 0, size is 2^bitDepth
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bmpFS.seek(14 + headerSize); // start of color palette
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for (uint16_t i = 0; i < paletteSize; i++) {
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palette[i] = read32(bmpFS);
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}
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}
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// draw img that is shorter than 240pix into the center
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x = (width() - w) /2;
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y = (height() - h) /2;
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bmpFS.seek(seekOffset);
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uint32_t lineSize = ((bitDepth * w +31) >> 5) * 4;
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uint8_t lineBuffer[lineSize];
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uint8_t serviceStrip = (!realtimeMode || realtimeOverride) ? 7 : 0;
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// row is decremented as the BMP image is drawn bottom up
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for (row = h-1; row >= 0; row--) {
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if ((row & 0b00000111) == serviceStrip) strip.service(); //still refresh backlight to mitigate stutter every few rows
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bmpFS.read(lineBuffer, sizeof(lineBuffer));
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uint8_t* bptr = lineBuffer;
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// Convert 24 to 16 bit colors while copying to output buffer.
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for (uint16_t col = 0; col < w; col++)
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{
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if (bitDepth == 24) {
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b = *bptr++;
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g = *bptr++;
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r = *bptr++;
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} else {
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uint32_t c = 0;
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if (bitDepth == 8) {
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c = palette[*bptr++];
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}
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else if (bitDepth == 4) {
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c = palette[(*bptr >> ((col & 0x01)?0:4)) & 0x0F];
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if (col & 0x01) bptr++;
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}
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else { // bitDepth == 1
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c = palette[(*bptr >> (7 - (col & 0x07))) & 0x01];
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if ((col & 0x07) == 0x07) bptr++;
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}
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b = c; g = c >> 8; r = c >> 16;
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}
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if (dimming != 255) { // only dimm when needed
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r *= dimming; g *= dimming; b *= dimming;
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r = r >> 8; g = g >> 8; b = b >> 8;
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}
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if (digitColor) { // grayscale pixel coloring
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uint8_t l = (r > g) ? ((r > b) ? r:b) : ((g > b) ? g:b);
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r = g = b = l;
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r *= digitR; g *= digitG; b *= digitB;
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r = r >> 8; g = g >> 8; b = b >> 8;
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}
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output_buffer[row][col] = ((r & 0xF8) << 8) | ((g & 0xFC) << 3) | ((b & 0xFF) >> 3);
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}
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}
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drawBuffer();
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bmpFS.close();
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return true;
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}
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bool drawClk(const char *filename) {
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fs::File bmpFS;
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// Open requested file on SD card
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bmpFS = WLED_FS.open(filename, "r");
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if (!bmpFS)
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{
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Serial.print("File not found: ");
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Serial.println(filename);
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return false;
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}
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uint16_t r, g, b, dimming = 255, magic;
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int16_t row, col;
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magic = read16(bmpFS);
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if (magic != 0x4B43) { // look for "CK" header
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Serial.print(F("File not a CLK. Magic: "));
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Serial.println(magic);
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bmpFS.close();
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return false;
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}
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w = read16(bmpFS);
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h = read16(bmpFS);
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x = (width() - w) / 2;
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y = (height() - h) / 2;
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uint8_t lineBuffer[w * 2];
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if (!realtimeMode || realtimeOverride) strip.service();
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// 0,0 coordinates are top left
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for (row = 0; row < h; row++) {
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bmpFS.read(lineBuffer, sizeof(lineBuffer));
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uint8_t PixM, PixL;
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// Colors are already in 16-bit R5, G6, B5 format
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for (col = 0; col < w; col++)
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{
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if (dimming == 255 && !digitColor) { // not needed, copy directly
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output_buffer[row][col+x] = (lineBuffer[col*2+1] << 8) | (lineBuffer[col*2]);
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} else {
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// 16 BPP pixel format: R5, G6, B5 ; bin: RRRR RGGG GGGB BBBB
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PixM = lineBuffer[col*2+1];
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PixL = lineBuffer[col*2];
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// align to 8-bit value (MSB left aligned)
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r = (PixM) & 0xF8;
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g = ((PixM << 5) | (PixL >> 3)) & 0xFC;
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b = (PixL << 3) & 0xF8;
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r *= dimming; g *= dimming; b *= dimming;
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r = r >> 8; g = g >> 8; b = b >> 8;
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if (digitColor) { // grayscale pixel coloring
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uint8_t l = (r > g) ? ((r > b) ? r:b) : ((g > b) ? g:b);
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r = g = b = l;
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r *= digitR; g *= digitG; b *= digitB;
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r = r >> 8; g = g >> 8; b = b >> 8;
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}
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output_buffer[row][col+x] = ((r & 0xF8) << 8) | ((g & 0xFC) << 3) | (b >> 3);
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}
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}
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}
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drawBuffer();
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bmpFS.close();
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return true;
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}
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public:
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TFTs() : TFT_eSPI(), chip_select()
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{ for (uint8_t digit=0; digit < NUM_DIGITS; digit++) digits[digit] = 0; }
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// no == Do not send to TFT. yes == Send to TFT if changed. force == Send to TFT.
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enum show_t { no, yes, force };
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// A digit of 0xFF means blank the screen.
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const static uint8_t blanked = 255;
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uint8_t tubeSegment = 1;
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uint8_t digitOffset = 0;
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void begin() {
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pinMode(TFT_ENABLE_PIN, OUTPUT);
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digitalWrite(TFT_ENABLE_PIN, HIGH); //enable displays on boot
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// Start with all displays selected.
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chip_select.begin();
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chip_select.setAll();
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// Initialize the super class.
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init();
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}
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void showDigit(uint8_t digit) {
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chip_select.setDigit(digit);
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uint8_t digitToDraw = digits[digit];
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if (digitToDraw < 10) digitToDraw += digitOffset;
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if (digitToDraw == blanked) {
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fillScreen(TFT_BLACK); return;
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}
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// if last digit was the same, skip loading from FS to buffer
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if (!digitColor && digitToDraw == bufferedDigit) drawBuffer();
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digitR = R(digitColor); digitG = G(digitColor); digitB = B(digitColor);
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// Filenames are no bigger than "254.bmp\0"
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char file_name[10];
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// Fastest, raw RGB565
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sprintf(file_name, "/%d.bin", digitToDraw);
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if (WLED_FS.exists(file_name)) {
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if (drawBin(file_name)) bufferedDigit = digitToDraw;
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return;
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}
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// Fast, raw RGB565, see https://github.com/aly-fly/EleksTubeHAX on how to create this clk format
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sprintf(file_name, "/%d.clk", digitToDraw);
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if (WLED_FS.exists(file_name)) {
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if (drawClk(file_name)) bufferedDigit = digitToDraw;
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return;
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}
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// Slow, regular RGB888 or 1,4,8 bit palette BMP
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sprintf(file_name, "/%d.bmp", digitToDraw);
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if (drawBmp(file_name)) bufferedDigit = digitToDraw;
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return;
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}
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void setDigit(uint8_t digit, uint8_t value, show_t show=yes) {
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uint8_t old_value = digits[digit];
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digits[digit] = value;
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// Color in grayscale bitmaps if Segment 1 exists
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// TODO If secondary and tertiary are black, color all in primary,
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// else color first three from Seg 1 color slots and last three from Seg 2 color slots
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WS2812FX::Segment& seg1 = strip.getSegment(tubeSegment);
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if (seg1.isActive()) {
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digitColor = strip.getPixelColor(seg1.start + digit);
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dimming = seg1.opacity;
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} else {
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digitColor = 0;
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dimming = 255;
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}
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if (show != no && (old_value != value || show == force)) {
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showDigit(digit);
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}
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}
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uint8_t getDigit(uint8_t digit) {return digits[digit];}
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void showAllDigits() {for (uint8_t digit=0; digit < NUM_DIGITS; digit++) showDigit(digit);}
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// Making chip_select public so we don't have to proxy all methods, and the caller can just use it directly.
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ChipSelect chip_select;
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};
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#endif // TFTS_H
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