All effects use strip.leds, refactor XY
- remove leds out of SEGMENT.data (remove if no other use of data) - use strip.leds - refactor XY to make segment relative to the whole matrix - use RGBW32 - in case of 1D also use XY in leds[]: XY(i%width, i/width)] - add ps_malloc
This commit is contained in:
parent
69f9a484ca
commit
004c2920f5
406
wled00/FX.cpp
406
wled00/FX.cpp
@ -1816,7 +1816,7 @@ static const char *_data_FX_MODE_OSCILLATE PROGMEM = "Oscillate";
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uint16_t mode_lightning(void)
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{
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uint16_t ledstart = random16(SEGLEN); // Determine starting location of flash
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uint16_t ledlen = 1 + random16(SEGLEN -ledstart); // Determine length of flash (not to go beyond NUM_LEDS-1)
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uint16_t ledlen = 1 + random16(SEGLEN -ledstart); // Determine length of flash (not to go beyond SEGLEN-1)
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uint8_t bri = 255/random8(1, 3);
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if (SEGENV.aux1 == 0) //init, leader flash
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@ -1958,7 +1958,7 @@ static const char *_data_FX_MODE_PALETTE PROGMEM = "Palette@!,;1,2,3;!";
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//
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// Temperature is in arbitrary units from 0 (cold black) to 255 (white hot).
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//
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// This simulation scales it self a bit depending on NUM_LEDS; it should look
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// This simulation scales it self a bit depending on SEGLEN; it should look
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// "OK" on anywhere from 20 to 100 LEDs without too much tweaking.
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//
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// I recommend running this simulation at anywhere from 30-100 frames per second,
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@ -4565,10 +4565,6 @@ uint16_t mode_2DBlackHole(void) { // By: Stepko https://editor.soulma
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const uint16_t cols = SEGMENT.virtualWidth();
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const uint16_t rows = SEGMENT.virtualHeight();
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// const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
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// if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
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// CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
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uint16_t x, y;
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@ -4613,13 +4609,9 @@ uint16_t mode_2DColoredBursts() { // By: ldirko https://editor.so
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const uint16_t cols = SEGMENT.virtualWidth();
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const uint16_t rows = SEGMENT.virtualHeight();
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const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
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if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
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CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
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if (SEGENV.call == 0) {
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SEGMENT.fill_solid(leds, CRGB::Black);
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SEGMENT.fill_solid(strip.leds, CRGB::Black);
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//for (uint16_t i = 0; i < w*h; i++) leds[i] = CRGB::Black;
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SEGENV.aux0 = 0; // start with red hue
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}
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@ -4630,7 +4622,7 @@ uint16_t mode_2DColoredBursts() { // By: ldirko https://editor.so
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byte numLines = SEGMENT.intensity/16 + 1;
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SEGENV.aux0++; // hue
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SEGMENT.fadeToBlackBy(leds, 40);
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SEGMENT.fadeToBlackBy(strip.leds, 40);
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for (size_t i = 0; i < numLines; i++) {
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byte x1 = beatsin8(2 + SEGMENT.speed/16, 0, (cols - 1));
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@ -4647,18 +4639,18 @@ uint16_t mode_2DColoredBursts() { // By: ldirko https://editor.so
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byte dx = lerp8by8(x1, y1, i * 255 / steps);
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byte dy = lerp8by8(x2, y2, i * 255 / steps);
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int index = XY(dx, dy);
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leds[index] += color; // change to += for brightness look
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if (grad) leds[index] %= (i * 255 / steps); //Draw gradient line
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strip.leds[index] += color; // change to += for brightness look
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if (grad) strip.leds[index] %= (i * 255 / steps); //Draw gradient line
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}
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if (dot) { //add white point at the ends of line
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leds[XY(x1, x2)] += CRGB::White;
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leds[XY(y1, y2)] += CRGB::White;
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strip.leds[XY(x1, x2)] += CRGB::White;
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strip.leds[XY(y1, y2)] += CRGB::White;
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}
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}
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SEGMENT.blur2d(leds, 4);
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SEGMENT.blur2d(strip.leds, 4);
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SEGMENT.setPixels(leds); // Use this ONLY if we're going to display via leds[x] method.
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SEGMENT.setPixels(strip.leds); // Use this ONLY if we're going to display via leds[x] method.
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return FRAMETIME;
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} // mode_2DColoredBursts()
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static const char *_data_FX_MODE_2DCOLOREDBURSTS PROGMEM = "2D Colored Bursts@Speed,# of lines;;!";
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@ -4672,22 +4664,18 @@ uint16_t mode_2Ddna(void) { // dna originally by by ldirko at https://pa
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const uint16_t cols = SEGMENT.virtualWidth();
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const uint16_t rows = SEGMENT.virtualHeight();
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const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
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if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
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CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
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if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
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if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
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SEGMENT.fadeToBlackBy(leds, 64);
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SEGMENT.fadeToBlackBy(strip.leds, 64);
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for(int i = 0; i < cols; i++) {
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leds[XY(i, beatsin8(SEGMENT.speed/8, 0, rows-1, 0, i*4))] = ColorFromPalette(SEGPALETTE, i*5+millis()/17, beatsin8(5, 55, 255, 0, i*10), LINEARBLEND);
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leds[XY(i, beatsin8(SEGMENT.speed/8, 0, rows-1, 0, i*4+128))] = ColorFromPalette(SEGPALETTE,i*5+128+millis()/17, beatsin8(5, 55, 255, 0, i*10+128), LINEARBLEND); // 180 degrees (128) out of phase
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strip.leds[XY(i, beatsin8(SEGMENT.speed/8, 0, rows-1, 0, i*4))] = ColorFromPalette(SEGPALETTE, i*5+millis()/17, beatsin8(5, 55, 255, 0, i*10), LINEARBLEND);
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strip.leds[XY(i, beatsin8(SEGMENT.speed/8, 0, rows-1, 0, i*4+128))] = ColorFromPalette(SEGPALETTE,i*5+128+millis()/17, beatsin8(5, 55, 255, 0, i*10+128), LINEARBLEND); // 180 degrees (128) out of phase
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}
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SEGMENT.blur2d(leds, SEGMENT.intensity/8);
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SEGMENT.blur2d(strip.leds, SEGMENT.intensity/8);
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SEGMENT.setPixels(leds);
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SEGMENT.setPixels(strip.leds);
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return FRAMETIME;
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} // mode_2Ddna()
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static const char *_data_FX_MODE_2DDNA PROGMEM = "2D DNA@Scroll speed,Blur;1,2,3;!";
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@ -4701,13 +4689,9 @@ uint16_t mode_2DDNASpiral() { // By: ldirko https://editor.soulma
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const uint16_t cols = SEGMENT.virtualWidth();
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const uint16_t rows = SEGMENT.virtualHeight();
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const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
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if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
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CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
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if (SEGENV.call == 0) {
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SEGMENT.fill_solid(leds, CRGB::Black);
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SEGMENT.fill_solid(strip.leds, CRGB::Black);
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SEGENV.aux0 = 0; // hue
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}
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@ -4715,7 +4699,7 @@ uint16_t mode_2DDNASpiral() { // By: ldirko https://editor.soulma
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uint8_t freq = SEGMENT.intensity/8;
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uint32_t ms = millis() / 20;
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SEGMENT.nscale8(leds, 120);
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SEGMENT.nscale8(strip.leds, 120);
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for (uint16_t i = 0; i < rows; i++) {
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uint16_t x = beatsin8(speeds, 0, cols - 1, 0, i * freq) + beatsin8(speeds - 7, 0, cols - 1, 0, i * freq + 128);
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@ -4727,15 +4711,15 @@ uint16_t mode_2DDNASpiral() { // By: ldirko https://editor.soulma
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for (size_t k = 1; k <= steps; k++) {
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byte dx = lerp8by8(x, x1, k * 255 / steps);
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uint16_t index = XY(dx, i);
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leds[index] += ColorFromPalette(SEGPALETTE, SEGENV.aux0, 255, LINEARBLEND);
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leds[index] %= (k * 255 / steps); //for draw gradient line
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strip.leds[index] += ColorFromPalette(SEGPALETTE, SEGENV.aux0, 255, LINEARBLEND);
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strip.leds[index] %= (k * 255 / steps); //for draw gradient line
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}
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leds[XY(x, i)] += CRGB::DarkSlateGray;
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leds[XY(x1, i)] += CRGB::White;
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strip.leds[XY(x, i)] += CRGB::DarkSlateGray;
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strip.leds[XY(x1, i)] += CRGB::White;
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}
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}
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SEGMENT.setPixels(leds); // Use this ONLY if we're going to display via leds[x] method.
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SEGMENT.setPixels(strip.leds); // Use this ONLY if we're going to display via leds[x] method.
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return FRAMETIME;
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} // mode_2DDNASpiral()
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static const char *_data_FX_MODE_2DDNASPIRAL PROGMEM = "2D DNA Spiral@Scroll speed,Blur;;!";
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@ -4749,16 +4733,12 @@ uint16_t mode_2DDrift() { // By: Stepko https://editor.soulmateli
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const uint16_t cols = SEGMENT.virtualWidth();
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const uint16_t rows = SEGMENT.virtualHeight();
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const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
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//if (cols<8 || rows<8) return mode_static(); // makes no sense to run on smaller than 8x8
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if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
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CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
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if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
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if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
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SEGMENT.fadeToBlackBy(leds, 128);
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SEGMENT.fadeToBlackBy(strip.leds, 128);
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const uint16_t maxDim = MAX(cols, rows)/2;
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unsigned long t = millis() / (32 - (SEGMENT.speed>>3));
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@ -4766,11 +4746,11 @@ uint16_t mode_2DDrift() { // By: Stepko https://editor.soulmateli
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float angle = radians(t * (maxDim - i));
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uint16_t myX = (cols>>1) + (uint16_t)(sin_t(angle) * i) + (cols%2);
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uint16_t myY = (rows>>1) + (uint16_t)(cos_t(angle) * i) + (rows%2);
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leds[XY(myX,myY)] = ColorFromPalette(SEGPALETTE, (i * 20) + (t / 20), 255, LINEARBLEND);
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strip.leds[XY(myX,myY)] = ColorFromPalette(SEGPALETTE, (i * 20) + (t / 20), 255, LINEARBLEND);
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}
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SEGMENT.blur2d(leds, SEGMENT.intensity>>3);
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SEGMENT.blur2d(strip.leds, SEGMENT.intensity>>3);
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SEGMENT.setPixels(leds);
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SEGMENT.setPixels(strip.leds);
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return FRAMETIME;
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} // mode_2DDrift()
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static const char *_data_FX_MODE_2DDRIFT PROGMEM = "2D Drift@Rotation speed,Blur amount;;!";
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@ -4784,12 +4764,8 @@ uint16_t mode_2Dfirenoise(void) { // firenoise2d. By Andrew Tuline
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const uint16_t cols = SEGMENT.virtualWidth();
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const uint16_t rows = SEGMENT.virtualHeight();
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const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
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if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
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CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
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if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
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if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
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uint16_t xscale = SEGMENT.intensity*4;
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uint32_t yscale = SEGMENT.speed*8;
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@ -4803,11 +4779,11 @@ uint16_t mode_2Dfirenoise(void) { // firenoise2d. By Andrew Tuline
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for (uint16_t j=0; j < cols; j++) {
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for (uint16_t i=0; i < rows; i++) {
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indexx = inoise8(j*yscale*rows/255, i*xscale+millis()/4); // We're moving along our Perlin map.
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leds[XY(j,i)] = ColorFromPalette(SEGPALETTE, min(i*(indexx)>>4, 255), i*255/cols, LINEARBLEND); // With that value, look up the 8 bit colour palette value and assign it to the current LED.
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strip.leds[XY(j,i)] = ColorFromPalette(SEGPALETTE, min(i*(indexx)>>4, 255), i*255/cols, LINEARBLEND); // With that value, look up the 8 bit colour palette value and assign it to the current LED.
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} // for i
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} // for j
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SEGMENT.setPixels(leds);
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SEGMENT.setPixels(strip.leds);
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return FRAMETIME;
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} // mode_2Dfirenoise()
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static const char *_data_FX_MODE_2DFIRENOISE PROGMEM = "2D Firenoise@X scale,Y scale;;";
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@ -4821,20 +4797,16 @@ uint16_t mode_2DFrizzles(void) { // By: Stepko https://editor.so
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const uint16_t cols = SEGMENT.virtualWidth();
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const uint16_t rows = SEGMENT.virtualHeight();
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const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
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if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
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CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
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if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
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if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
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SEGMENT.fadeToBlackBy(leds, 16);
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SEGMENT.fadeToBlackBy(strip.leds, 16);
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for (size_t i = 8; i > 0; i--) {
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leds[XY(beatsin8(SEGMENT.speed/8 + i, 0, cols - 1), beatsin8(SEGMENT.intensity/8 - i, 0, rows - 1))] += ColorFromPalette(SEGPALETTE, beatsin8(12, 0, 255), 255, LINEARBLEND);
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strip.leds[XY(beatsin8(SEGMENT.speed/8 + i, 0, cols - 1), beatsin8(SEGMENT.intensity/8 - i, 0, rows - 1))] += ColorFromPalette(SEGPALETTE, beatsin8(12, 0, 255), 255, LINEARBLEND);
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}
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SEGMENT.blur2d(leds, 16);
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SEGMENT.blur2d(strip.leds, 16);
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SEGMENT.setPixels(leds);
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SEGMENT.setPixels(strip.leds);
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return FRAMETIME;
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} // mode_2DFrizzles()
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static const char *_data_FX_MODE_2DFRIZZLES PROGMEM = "2D Frizzles@X frequency,Y frequency;;!";
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@ -4853,12 +4825,12 @@ uint16_t mode_2Dgameoflife(void) { // Written by Ewoud Wijma, inspired by https:
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const uint16_t cols = SEGMENT.virtualWidth();
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const uint16_t rows = SEGMENT.virtualHeight();
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const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
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const uint16_t dataSize = sizeof(CRGB) * strip.matrixWidth * strip.matrixHeight; // using width*height prevents reallocation if mirroring is enabled
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// use matrixWidth and Height as leds is also on whole matrix
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if (!SEGENV.allocateData(dataSize*2 + sizeof(unsigned long))) return mode_static(); //allocation failed
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CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
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CRGB *prevLeds = reinterpret_cast<CRGB*>(SEGENV.data + dataSize);
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unsigned long *resetMillis = reinterpret_cast<unsigned long*>(SEGENV.data + 2*dataSize); // triggers reset
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if (!SEGENV.allocateData(dataSize + sizeof(unsigned long))) return mode_static(); //allocation failed
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CRGB *prevLeds = reinterpret_cast<CRGB*>(SEGENV.data);
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unsigned long *resetMillis = reinterpret_cast<unsigned long*>(SEGENV.data + dataSize); // triggers reset
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CRGB backgroundColor = SEGCOLOR(1);
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@ -4871,9 +4843,9 @@ uint16_t mode_2Dgameoflife(void) { // Written by Ewoud Wijma, inspired by https:
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for (int x = 0; x < cols; x++) for (int y = 0; y < rows; y++) {
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uint8_t state = random8()%2;
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if (state == 0)
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leds[XY(x,y)] = backgroundColor;
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strip.leds[XY(x,y)] = backgroundColor;
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else
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leds[XY(x,y)] = (CRGB)SEGMENT.color_from_palette(random8(), false, PALETTE_SOLID_WRAP, 0);
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strip.leds[XY(x,y)] = (CRGB)SEGMENT.color_from_palette(random8(), false, PALETTE_SOLID_WRAP, 0);
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}
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SEGMENT.fill_solid(prevLeds, CRGB::Black);
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@ -4883,7 +4855,7 @@ uint16_t mode_2Dgameoflife(void) { // Written by Ewoud Wijma, inspired by https:
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}
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//copy previous leds (save previous generation)
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for (int x = 0; x < cols; x++) for (int y = 0; y < rows; y++) prevLeds[XY(x,y)] = leds[XY(x,y)];
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for (int x = 0; x < cols; x++) for (int y = 0; y < rows; y++) prevLeds[XY(x,y)] = strip.leds[XY(x,y)];
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//calculate new leds
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for (int x = 0; x < cols; x++) for (int y = 0; y < rows; y++) {
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@ -4915,29 +4887,29 @@ uint16_t mode_2Dgameoflife(void) { // Written by Ewoud Wijma, inspired by https:
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} // i,j
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// Rules of Life
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if ((leds[XY(x,y)] != backgroundColor) && (neighbors < 2)) leds[XY(x,y)] = backgroundColor; // Loneliness
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else if ((leds[XY(x,y)] != backgroundColor) && (neighbors > 3)) leds[XY(x,y)] = backgroundColor; // Overpopulation
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else if ((leds[XY(x,y)] == backgroundColor) && (neighbors == 3)) { // Reproduction
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if ((strip.leds[XY(x,y)] != backgroundColor) && (neighbors < 2)) strip.leds[XY(x,y)] = backgroundColor; // Loneliness
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else if ((strip.leds[XY(x,y)] != backgroundColor) && (neighbors > 3)) strip.leds[XY(x,y)] = backgroundColor; // Overpopulation
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else if ((strip.leds[XY(x,y)] == backgroundColor) && (neighbors == 3)) { // Reproduction
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//find dominantcolor and assign to cell
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colorCount dominantColorCount = {backgroundColor, 0};
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for (int i=0; i<9 && colorsCount[i].count != 0; i++)
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if (colorsCount[i].count > dominantColorCount.count) dominantColorCount = colorsCount[i];
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if (dominantColorCount.count > 0) leds[XY(x,y)] = dominantColorCount.color; //assign the dominant color
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||||
if (dominantColorCount.count > 0) strip.leds[XY(x,y)] = dominantColorCount.color; //assign the dominant color
|
||||
}
|
||||
// else do nothing!
|
||||
} //x,y
|
||||
|
||||
// calculate CRC16 of leds[]
|
||||
uint16_t crc = crc16((const unsigned char*)leds, dataSize-1);
|
||||
uint16_t crc = crc16((const unsigned char*)strip.leds, dataSize-1);
|
||||
|
||||
// check if we had same CRC and reset if needed
|
||||
// same CRC would mean image did not change or was repeating itself
|
||||
if (!(crc == SEGENV.aux0 || crc == SEGENV.aux1)) *resetMillis = strip.now; //if no repetition avoid reset
|
||||
// remeber last two
|
||||
// remember last two
|
||||
SEGENV.aux1 = SEGENV.aux0;
|
||||
SEGENV.aux0 = crc;
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return (SEGMENT.getOption(SEG_OPTION_TRANSITIONAL)) ? FRAMETIME : FRAMETIME_FIXED * (128-(SEGMENT.speed>>1)); // update only when appropriate time passes (in 42 FPS slots)
|
||||
} // mode_2Dgameoflife()
|
||||
static const char *_data_FX_MODE_2DGAMEOFLIFE PROGMEM = "2D Game Of Life@!,;!,!;!";
|
||||
@ -5117,12 +5089,8 @@ uint16_t mode_2Dmatrix(void) { // Matrix2D. By Jeremy Williams.
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
|
||||
uint8_t fade = map(SEGMENT.custom1, 0, 255, 50, 250); // equals trail size
|
||||
uint8_t speed = (256-SEGMENT.speed) >> map(MIN(rows, 150), 0, 150, 0, 3); // slower speeds for small displays
|
||||
@ -5141,22 +5109,22 @@ uint16_t mode_2Dmatrix(void) { // Matrix2D. By Jeremy Williams.
|
||||
SEGENV.step = strip.now;
|
||||
for (int16_t row=rows-1; row>=0; row--) {
|
||||
for (int16_t col=0; col<cols; col++) {
|
||||
if (leds[XY(col, row)] == spawnColor) {
|
||||
leds[XY(col, row)] = trailColor; // create trail
|
||||
if (row < rows-1) leds[XY(col, row+1)] = spawnColor;
|
||||
if (strip.leds[XY(col, row)] == spawnColor) {
|
||||
strip.leds[XY(col, row)] = trailColor; // create trail
|
||||
if (row < rows-1) strip.leds[XY(col, row+1)] = spawnColor;
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// fade all leds
|
||||
for (int x=0; x<cols; x++) for (int y=0; y<rows; y++) {
|
||||
if (leds[XY(x,y)] != spawnColor) leds[XY(x,y)].nscale8(fade); // only fade trail
|
||||
if (strip.leds[XY(x,y)] != spawnColor) strip.leds[XY(x,y)].nscale8(fade); // only fade trail
|
||||
}
|
||||
|
||||
// check for empty screen to ensure code spawn
|
||||
bool emptyScreen = true;
|
||||
for (uint16_t x=0; x<cols; x++) for (uint16_t y=0; y<rows; y++) {
|
||||
if (leds[XY(x,y)]) {
|
||||
if (strip.leds[XY(x,y)]) {
|
||||
emptyScreen = false;
|
||||
break;
|
||||
}
|
||||
@ -5165,10 +5133,10 @@ uint16_t mode_2Dmatrix(void) { // Matrix2D. By Jeremy Williams.
|
||||
// spawn new falling code
|
||||
if (random8() < SEGMENT.intensity || emptyScreen) {
|
||||
uint8_t spawnX = random8(cols);
|
||||
leds[XY(spawnX, 0)] = spawnColor;
|
||||
strip.leds[XY(spawnX, 0)] = spawnColor;
|
||||
}
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
} // if millis
|
||||
|
||||
return FRAMETIME;
|
||||
@ -5267,14 +5235,10 @@ uint16_t mode_2DPlasmaball(void) { // By: Stepko https://edito
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
|
||||
SEGMENT.fadeToBlackBy(leds, 64);
|
||||
SEGMENT.fadeToBlackBy(strip.leds, 64);
|
||||
float t = millis() / (33 - SEGMENT.speed/8);
|
||||
for (uint16_t i = 0; i < cols; i++) {
|
||||
uint16_t thisVal = inoise8(i * 30, t, t);
|
||||
@ -5287,7 +5251,7 @@ uint16_t mode_2DPlasmaball(void) { // By: Stepko https://edito
|
||||
uint16_t cx = (i + thisMax_);
|
||||
uint16_t cy = (j + thisMax);
|
||||
|
||||
leds[XY(i, j)] += ((x - y > -2) && (x - y < 2)) ||
|
||||
strip.leds[XY(i, j)] += ((x - y > -2) && (x - y < 2)) ||
|
||||
((cols - 1 - x - y) > -2 && (cols - 1 - x - y < 2)) ||
|
||||
(cols - cx == 0) ||
|
||||
(cols - 1 - cx == 0) ||
|
||||
@ -5295,9 +5259,9 @@ uint16_t mode_2DPlasmaball(void) { // By: Stepko https://edito
|
||||
(rows - 1 - cy == 0)) ? ColorFromPalette(SEGPALETTE, beat8(5), thisVal, LINEARBLEND) : CRGB::Black;
|
||||
}
|
||||
}
|
||||
SEGMENT.blur2d(leds, 4);
|
||||
SEGMENT.blur2d(strip.leds, 4);
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return FRAMETIME;
|
||||
} // mode_2DPlasmaball()
|
||||
static const char *_data_FX_MODE_2DPLASMABALL PROGMEM = "2D Plasma Ball@Speed;!,!,!;!";
|
||||
@ -5314,16 +5278,12 @@ uint16_t mode_2DPolarLights(void) { // By: Kostyantyn Matviyevskyy https
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
|
||||
CRGBPalette16 auroraPalette = {0x000000, 0x003300, 0x006600, 0x009900, 0x00cc00, 0x00ff00, 0x33ff00, 0x66ff00, 0x99ff00, 0xccff00, 0xffff00, 0xffcc00, 0xff9900, 0xff6600, 0xff3300, 0xff0000};
|
||||
|
||||
if (SEGENV.call == 0) {
|
||||
SEGENV.step = 0;
|
||||
SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
}
|
||||
|
||||
float adjustHeight = (float)map(rows, 8, 32, 28, 12);
|
||||
@ -5349,14 +5309,14 @@ uint16_t mode_2DPolarLights(void) { // By: Kostyantyn Matviyevskyy https
|
||||
for (uint16_t x = 0; x < cols; x++) {
|
||||
for (uint16_t y = 0; y < rows; y++) {
|
||||
SEGENV.step++;
|
||||
leds[XY(x, y)] = ColorFromPalette(auroraPalette,
|
||||
strip.leds[XY(x, y)] = ColorFromPalette(auroraPalette,
|
||||
qsub8(
|
||||
inoise8((SEGENV.step%2) + x * _scale, y * 16 + SEGENV.step % 16, SEGENV.step / _speed),
|
||||
fabs((float)rows / 2 - (float)y) * adjustHeight));
|
||||
}
|
||||
}
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return FRAMETIME;
|
||||
} // mode_2DPolarLights()
|
||||
static const char *_data_FX_MODE_2DPOLARLIGHTS PROGMEM = "2D Polar Lights@Speed,Scale;;";
|
||||
@ -5370,24 +5330,20 @@ uint16_t mode_2DPulser(void) { // By: ldirko https://edi
|
||||
|
||||
//const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
|
||||
SEGMENT.fadeToBlackBy(leds, 8 - (SEGMENT.intensity>>5));
|
||||
SEGMENT.fadeToBlackBy(strip.leds, 8 - (SEGMENT.intensity>>5));
|
||||
|
||||
uint16_t a = strip.now / (18 - SEGMENT.speed / 16);
|
||||
uint16_t x = (a / 14);
|
||||
uint16_t y = map((sin8(a * 5) + sin8(a * 4) + sin8(a * 2)), 0, 765, rows-1, 0);
|
||||
uint16_t index = XY(x, y); // XY() will wrap x or y
|
||||
leds[index] = ColorFromPalette(SEGPALETTE, map(y, 0, rows-1, 0, 255), 255, LINEARBLEND);
|
||||
strip.leds[index] = ColorFromPalette(SEGPALETTE, map(y, 0, rows-1, 0, 255), 255, LINEARBLEND);
|
||||
|
||||
SEGMENT.blur2d(leds, 1 + (SEGMENT.intensity>>4));
|
||||
SEGMENT.blur2d(strip.leds, 1 + (SEGMENT.intensity>>4));
|
||||
|
||||
SEGMENT.setPixels(leds); // Use this ONLY if we're going to display via leds[x] method.
|
||||
SEGMENT.setPixels(strip.leds); // Use this ONLY if we're going to display via leds[x] method.
|
||||
return FRAMETIME;
|
||||
} // mode_2DPulser()
|
||||
static const char *_data_FX_MODE_2DPULSER PROGMEM = "2D Pulser@Speed,Blur;;!";
|
||||
@ -5401,24 +5357,20 @@ uint16_t mode_2DSindots(void) { // By: ldirko http
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
|
||||
SEGMENT.fadeToBlackBy(leds, 15);
|
||||
SEGMENT.fadeToBlackBy(strip.leds, 15);
|
||||
byte t1 = millis() / (257 - SEGMENT.speed); // 20;
|
||||
byte t2 = sin8(t1) / 4 * 2;
|
||||
for (uint16_t i = 0; i < 13; i++) {
|
||||
byte x = sin8(t1 + i * SEGMENT.intensity/8)*(cols-1)/255; // max index now 255x15/255=15!
|
||||
byte y = sin8(t2 + i * SEGMENT.intensity/8)*(rows-1)/255; // max index now 255x15/255=15!
|
||||
leds[XY(x, y)] = ColorFromPalette(SEGPALETTE, i * 255 / 13, 255, LINEARBLEND);
|
||||
strip.leds[XY(x, y)] = ColorFromPalette(SEGPALETTE, i * 255 / 13, 255, LINEARBLEND);
|
||||
}
|
||||
SEGMENT.blur2d(leds, 16);
|
||||
SEGMENT.blur2d(strip.leds, 16);
|
||||
|
||||
SEGMENT.setPixels(leds); // Use this ONLY if we're going to display via leds[x] method.
|
||||
SEGMENT.setPixels(strip.leds); // Use this ONLY if we're going to display via leds[x] method.
|
||||
return FRAMETIME;
|
||||
} // mode_2DSindots()
|
||||
static const char *_data_FX_MODE_2DSINDOTS PROGMEM = "2D Sindots@Speed,Dot distance;;!";
|
||||
@ -5434,18 +5386,14 @@ uint16_t mode_2Dsquaredswirl(void) { // By: Mark Kriegsman. https://g
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
|
||||
const uint8_t kBorderWidth = 2;
|
||||
|
||||
SEGMENT.fadeToBlackBy(leds, 24);
|
||||
SEGMENT.fadeToBlackBy(strip.leds, 24);
|
||||
uint8_t blurAmount = SEGMENT.custom3>>4;
|
||||
SEGMENT.blur2d(leds, blurAmount);
|
||||
SEGMENT.blur2d(strip.leds, blurAmount);
|
||||
|
||||
// Use two out-of-sync sine waves
|
||||
uint8_t i = beatsin8(19, kBorderWidth, cols-kBorderWidth);
|
||||
@ -5457,11 +5405,11 @@ uint16_t mode_2Dsquaredswirl(void) { // By: Mark Kriegsman. https://g
|
||||
|
||||
uint16_t ms = millis();
|
||||
|
||||
leds[XY(i, m)] += ColorFromPalette(SEGPALETTE, ms/29, 255, LINEARBLEND);
|
||||
leds[XY(j, n)] += ColorFromPalette(SEGPALETTE, ms/41, 255, LINEARBLEND);
|
||||
leds[XY(k, p)] += ColorFromPalette(SEGPALETTE, ms/73, 255, LINEARBLEND);
|
||||
strip.leds[XY(i, m)] += ColorFromPalette(SEGPALETTE, ms/29, 255, LINEARBLEND);
|
||||
strip.leds[XY(j, n)] += ColorFromPalette(SEGPALETTE, ms/41, 255, LINEARBLEND);
|
||||
strip.leds[XY(k, p)] += ColorFromPalette(SEGPALETTE, ms/73, 255, LINEARBLEND);
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return FRAMETIME;
|
||||
} // mode_2Dsquaredswirl()
|
||||
static const char *_data_FX_MODE_2DSQUAREDSWIRL PROGMEM = "2D Squared Swirl@,,,,Blur;,,;!";
|
||||
@ -5475,13 +5423,11 @@ uint16_t mode_2DSunradiation(void) { // By: ldirko https://edi
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
if (!SEGENV.allocateData(dataSize + (sizeof(byte)*(cols+2)*(rows+2)))) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
byte *bump = reinterpret_cast<byte*>(SEGENV.data + dataSize);
|
||||
if (!SEGENV.allocateData(sizeof(byte)*(cols+2)*(rows+2))) return mode_static(); //allocation failed
|
||||
byte *bump = reinterpret_cast<byte*>(SEGENV.data);
|
||||
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
|
||||
unsigned long t = millis() / 4;
|
||||
int index = 0;
|
||||
@ -5507,12 +5453,12 @@ uint16_t mode_2DSunradiation(void) { // By: ldirko https://edi
|
||||
int temp = difx * difx + dify * dify;
|
||||
int col = 255 - temp / 8; //8 its a size of effect
|
||||
if (col < 0) col = 0;
|
||||
leds[XY(x, y)] = HeatColor(col / (3.0f-(float)(SEGMENT.intensity)/128.f));
|
||||
strip.leds[XY(x, y)] = HeatColor(col / (3.0f-(float)(SEGMENT.intensity)/128.f));
|
||||
}
|
||||
yindex += (cols + 2);
|
||||
}
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return FRAMETIME;
|
||||
} // mode_2DSunradiation()
|
||||
static const char *_data_FX_MODE_2DSUNRADIATION PROGMEM = "2D Sun Radiation@Variance,Brightness;;";
|
||||
@ -5526,12 +5472,8 @@ uint16_t mode_2Dtartan(void) { // By: Elliott Kember https://editor.so
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
|
||||
uint8_t hue;
|
||||
int offsetX = beatsin16(3, -360, 360);
|
||||
@ -5541,13 +5483,13 @@ uint16_t mode_2Dtartan(void) { // By: Elliott Kember https://editor.so
|
||||
for (uint16_t y = 0; y < rows; y++) {
|
||||
uint16_t index = XY(x, y);
|
||||
hue = x * beatsin16(10, 1, 10) + offsetY;
|
||||
leds[index] = ColorFromPalette(SEGPALETTE, hue, sin8(x * SEGMENT.speed + offsetX) * sin8(x * SEGMENT.speed + offsetX) / 255, LINEARBLEND);
|
||||
strip.leds[index] = ColorFromPalette(SEGPALETTE, hue, sin8(x * SEGMENT.speed + offsetX) * sin8(x * SEGMENT.speed + offsetX) / 255, LINEARBLEND);
|
||||
hue = y * 3 + offsetX;
|
||||
leds[index] += ColorFromPalette(SEGPALETTE, hue, sin8(y * SEGMENT.intensity + offsetY) * sin8(y * SEGMENT.intensity + offsetY) / 255, LINEARBLEND);
|
||||
strip.leds[index] += ColorFromPalette(SEGPALETTE, hue, sin8(y * SEGMENT.intensity + offsetY) * sin8(y * SEGMENT.intensity + offsetY) / 255, LINEARBLEND);
|
||||
}
|
||||
}
|
||||
|
||||
SEGMENT.setPixels(leds); // Use this ONLY if we're going to display via leds[x] method.
|
||||
SEGMENT.setPixels(strip.leds); // Use this ONLY if we're going to display via leds[x] method.
|
||||
return FRAMETIME;
|
||||
} // mode_2DTartan()
|
||||
static const char *_data_FX_MODE_2DTARTAN PROGMEM = "2D Tartan@X scale,Y scale;;!";
|
||||
@ -5561,12 +5503,8 @@ uint16_t mode_2Dspaceships(void) { //// Space ships by stepko (c)05.02.21 [ht
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
|
||||
uint32_t tb = strip.now >> 12; // every ~4s
|
||||
if (tb > SEGENV.step) {
|
||||
@ -5578,23 +5516,23 @@ uint16_t mode_2Dspaceships(void) { //// Space ships by stepko (c)05.02.21 [ht
|
||||
SEGENV.step = tb + random8(4);
|
||||
}
|
||||
|
||||
SEGMENT.fadeToBlackBy(leds, map(SEGMENT.speed, 0, 255, 248, 16));
|
||||
SEGMENT.move(SEGENV.aux0, 1, leds);
|
||||
SEGMENT.fadeToBlackBy(strip.leds, map(SEGMENT.speed, 0, 255, 248, 16));
|
||||
SEGMENT.move(SEGENV.aux0, 1, strip.leds);
|
||||
for (size_t i = 0; i < 8; i++) {
|
||||
byte x = beatsin8(12 + i, 2, cols - 3);
|
||||
byte y = beatsin8(15 + i, 2, rows - 3);
|
||||
CRGB color = ColorFromPalette(SEGPALETTE, beatsin8(12 + i, 0, 255), 255);
|
||||
leds[XY(x, y)] += color;
|
||||
strip.leds[XY(x, y)] += color;
|
||||
if (cols > 24 || rows > 24) {
|
||||
leds[XY(x + 1, y)] += color;
|
||||
leds[XY(x - 1, y)] += color;
|
||||
leds[XY(x, y + 1)] += color;
|
||||
leds[XY(x, y - 1)] += color;
|
||||
strip.leds[XY(x + 1, y)] += color;
|
||||
strip.leds[XY(x - 1, y)] += color;
|
||||
strip.leds[XY(x, y + 1)] += color;
|
||||
strip.leds[XY(x, y - 1)] += color;
|
||||
}
|
||||
}
|
||||
SEGMENT.blur2d(leds, SEGMENT.intensity>>3);
|
||||
SEGMENT.blur2d(strip.leds, SEGMENT.intensity>>3);
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return FRAMETIME;
|
||||
}
|
||||
static const char *_data_FX_MODE_2DSPACESHIPS PROGMEM = "2D Spaceships@!,Blur;!,!,!;!";
|
||||
@ -5610,7 +5548,6 @@ uint16_t mode_2Dcrazybees(void) {
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
byte n = MIN(MAX_BEES, (rows * cols) / 256 + 1);
|
||||
|
||||
@ -5630,12 +5567,11 @@ uint16_t mode_2Dcrazybees(void) {
|
||||
};
|
||||
} bee_t;
|
||||
|
||||
if (!SEGENV.allocateData(dataSize + sizeof(bee_t)*MAX_BEES)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
bee_t *bee = reinterpret_cast<bee_t*>(SEGENV.data + dataSize);
|
||||
if (!SEGENV.allocateData(sizeof(bee_t)*MAX_BEES)) return mode_static(); //allocation failed
|
||||
bee_t *bee = reinterpret_cast<bee_t*>(SEGENV.data);
|
||||
|
||||
if (SEGENV.call == 0) {
|
||||
SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
for (size_t i = 0; i < n; i++) {
|
||||
bee[i].posX = random8(0, cols);
|
||||
bee[i].posY = random8(0, rows);
|
||||
@ -5646,15 +5582,15 @@ uint16_t mode_2Dcrazybees(void) {
|
||||
if (millis() > SEGENV.step) {
|
||||
SEGENV.step = millis() + (FRAMETIME * 8 / ((SEGMENT.speed>>5)+1));
|
||||
|
||||
SEGMENT.fadeToBlackBy(leds, 32);
|
||||
SEGMENT.fadeToBlackBy(strip.leds, 32);
|
||||
|
||||
for (size_t i = 0; i < n; i++) {
|
||||
leds[XY(bee[i].aimX + 1, bee[i].aimY)] += CHSV(bee[i].hue, 255, 255);
|
||||
leds[XY(bee[i].aimX, bee[i].aimY + 1)] += CHSV(bee[i].hue, 255, 255);
|
||||
leds[XY(bee[i].aimX - 1, bee[i].aimY)] += CHSV(bee[i].hue, 255, 255);
|
||||
leds[XY(bee[i].aimX, bee[i].aimY - 1)] += CHSV(bee[i].hue, 255, 255);
|
||||
strip.leds[XY(bee[i].aimX + 1, bee[i].aimY)] += CHSV(bee[i].hue, 255, 255);
|
||||
strip.leds[XY(bee[i].aimX, bee[i].aimY + 1)] += CHSV(bee[i].hue, 255, 255);
|
||||
strip.leds[XY(bee[i].aimX - 1, bee[i].aimY)] += CHSV(bee[i].hue, 255, 255);
|
||||
strip.leds[XY(bee[i].aimX, bee[i].aimY - 1)] += CHSV(bee[i].hue, 255, 255);
|
||||
if (bee[i].posX != bee[i].aimX || bee[i].posY != bee[i].aimY) {
|
||||
leds[XY(bee[i].posX, bee[i].posY)] = CHSV(bee[i].hue, 60, 255);
|
||||
strip.leds[XY(bee[i].posX, bee[i].posY)] = CHSV(bee[i].hue, 60, 255);
|
||||
int8_t error2 = bee[i].error * 2;
|
||||
if (error2 > -bee[i].deltaY) {
|
||||
bee[i].error -= bee[i].deltaY;
|
||||
@ -5668,9 +5604,9 @@ uint16_t mode_2Dcrazybees(void) {
|
||||
bee[i].aimed(cols, rows);
|
||||
}
|
||||
}
|
||||
SEGMENT.blur2d(leds, SEGMENT.intensity>>4);
|
||||
SEGMENT.blur2d(strip.leds, SEGMENT.intensity>>4);
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
}
|
||||
return FRAMETIME;
|
||||
}
|
||||
@ -5687,7 +5623,6 @@ uint16_t mode_2Dghostrider(void) {
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
typedef struct Lighter {
|
||||
int16_t gPosX;
|
||||
@ -5702,16 +5637,15 @@ uint16_t mode_2Dghostrider(void) {
|
||||
int8_t Vspeed;
|
||||
} lighter_t;
|
||||
|
||||
if (!SEGENV.allocateData(dataSize + sizeof(lighter_t))) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
lighter_t *lighter = reinterpret_cast<lighter_t*>(SEGENV.data + dataSize);
|
||||
if (!SEGENV.allocateData(sizeof(lighter_t))) return mode_static(); //allocation failed
|
||||
lighter_t *lighter = reinterpret_cast<lighter_t*>(SEGENV.data);
|
||||
|
||||
const size_t maxLighters = min(cols + rows, LIGHTERS_AM);
|
||||
|
||||
if (SEGENV.call == 0 || SEGENV.aux0 != cols || SEGENV.aux1 != rows) {
|
||||
SEGENV.aux0 = cols;
|
||||
SEGENV.aux1 = rows;
|
||||
SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
random16_set_seed(strip.now);
|
||||
lighter->angleSpeed = random8(0,20) - 10;
|
||||
lighter->Vspeed = 5;
|
||||
@ -5727,10 +5661,10 @@ uint16_t mode_2Dghostrider(void) {
|
||||
if (millis() > SEGENV.step) {
|
||||
SEGENV.step = millis() + 1024 / (cols+rows);
|
||||
|
||||
SEGMENT.fadeToBlackBy(leds, (SEGMENT.speed>>2)+64);
|
||||
SEGMENT.fadeToBlackBy(strip.leds, (SEGMENT.speed>>2)+64);
|
||||
|
||||
CRGB color = CRGB::White;
|
||||
SEGMENT.wu_pixel(leds, lighter->gPosX * 256 / 10, lighter->gPosY * 256 / 10, color);
|
||||
SEGMENT.wu_pixel(strip.leds, lighter->gPosX * 256 / 10, lighter->gPosY * 256 / 10, color);
|
||||
|
||||
lighter->gPosX += lighter->Vspeed * sin_t(radians(lighter->gAngle));
|
||||
lighter->gPosY += lighter->Vspeed * cos_t(radians(lighter->gAngle));
|
||||
@ -5758,12 +5692,12 @@ uint16_t mode_2Dghostrider(void) {
|
||||
lighter->lightersPosX[i] += -7 * sin_t(radians(lighter->Angle[i]));
|
||||
lighter->lightersPosY[i] += -7 * cos_t(radians(lighter->Angle[i]));
|
||||
}
|
||||
SEGMENT.wu_pixel(leds, lighter->lightersPosX[i] * 256 / 10, lighter->lightersPosY[i] * 256 / 10, ColorFromPalette(SEGPALETTE, (256 - lighter->time[i])));
|
||||
SEGMENT.wu_pixel(strip.leds, lighter->lightersPosX[i] * 256 / 10, lighter->lightersPosY[i] * 256 / 10, ColorFromPalette(SEGPALETTE, (256 - lighter->time[i])));
|
||||
}
|
||||
SEGMENT.blur2d(leds, SEGMENT.intensity>>3);
|
||||
SEGMENT.blur2d(strip.leds, SEGMENT.intensity>>3);
|
||||
}
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return FRAMETIME;
|
||||
}
|
||||
static const char *_data_FX_MODE_2DGHOSTRIDER PROGMEM = "2D Ghost Rider@Fade rate,Blur;!,!,!;!";
|
||||
@ -5779,7 +5713,6 @@ uint16_t mode_2Dfloatingblobs(void) {
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
typedef struct Blob {
|
||||
float x[MAX_BLOBS], y[MAX_BLOBS];
|
||||
@ -5791,14 +5724,13 @@ uint16_t mode_2Dfloatingblobs(void) {
|
||||
|
||||
uint8_t Amount = (SEGMENT.intensity>>5) + 1; // NOTE: be sure to update MAX_BLOBS if you change this
|
||||
|
||||
if (!SEGENV.allocateData(dataSize + sizeof(blob_t))) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
blob_t *blob = reinterpret_cast<blob_t*>(SEGENV.data + dataSize);
|
||||
if (!SEGENV.allocateData(sizeof(blob_t))) return mode_static(); //allocation failed
|
||||
blob_t *blob = reinterpret_cast<blob_t*>(SEGENV.data);
|
||||
|
||||
if (SEGENV.call == 0 || SEGENV.aux0 != cols || SEGENV.aux1 != rows) {
|
||||
SEGENV.aux0 = cols;
|
||||
SEGENV.aux1 = rows;
|
||||
SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
for (size_t i = 0; i < MAX_BLOBS; i++) {
|
||||
blob->r[i] = cols>15 ? random8(1, cols/8.f) : 1;
|
||||
blob->sX[i] = (float) random8(3, cols) / (float)(256 - SEGMENT.speed); // speed x
|
||||
@ -5812,7 +5744,7 @@ uint16_t mode_2Dfloatingblobs(void) {
|
||||
}
|
||||
}
|
||||
|
||||
SEGMENT.fadeToBlackBy(leds, 20);
|
||||
SEGMENT.fadeToBlackBy(strip.leds, 20);
|
||||
|
||||
// Bounce balls around
|
||||
for (size_t i = 0; i < Amount; i++) {
|
||||
@ -5833,8 +5765,8 @@ uint16_t mode_2Dfloatingblobs(void) {
|
||||
}
|
||||
CRGB c = ColorFromPalette(SEGPALETTE, blob->color[i]);
|
||||
//if (!SEGMENT.palette) c = SEGCOLOR(0);
|
||||
if (blob->r[i] > 1.f) SEGMENT.fill_circle(leds, blob->y[i], blob->x[i], blob->r[i], c);
|
||||
else leds[XY(blob->y[i], blob->x[i])] += c;
|
||||
if (blob->r[i] > 1.f) SEGMENT.fill_circle(strip.leds, blob->y[i], blob->x[i], blob->r[i], c);
|
||||
else strip.leds[XY(blob->y[i], blob->x[i])] += c;
|
||||
// move x
|
||||
if (blob->x[i] + blob->r[i] >= cols - 1) blob->x[i] += (blob->sX[i] * ((cols - 1 - blob->x[i]) / blob->r[i] + 0.005f));
|
||||
else if (blob->x[i] - blob->r[i] <= 0) blob->x[i] += (blob->sX[i] * (blob->x[i] / blob->r[i] + 0.005f));
|
||||
@ -5862,11 +5794,11 @@ uint16_t mode_2Dfloatingblobs(void) {
|
||||
blob->y[i] = rows - 1.01f;
|
||||
}
|
||||
}
|
||||
SEGMENT.blur2d(leds, cols+rows);
|
||||
SEGMENT.blur2d(strip.leds, cols+rows);
|
||||
|
||||
if (SEGENV.step < millis()) SEGENV.step = millis() + 2000; // change colors every 2 seconds
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return FRAMETIME;
|
||||
}
|
||||
#undef MAX_BLOBS
|
||||
@ -5932,28 +5864,24 @@ uint16_t mode_2Ddriftrose(void) {
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
const float CX = cols/2.f - .5f;
|
||||
const float CY = rows/2.f - .5f;
|
||||
const float L = min(cols, rows) / 2.f;
|
||||
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
|
||||
if (SEGENV.call == 0) {
|
||||
SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
}
|
||||
|
||||
SEGMENT.fadeToBlackBy(leds, 32+(SEGMENT.speed>>3));
|
||||
SEGMENT.fadeToBlackBy(strip.leds, 32+(SEGMENT.speed>>3));
|
||||
for (size_t i = 1; i < 37; i++) {
|
||||
uint32_t x = (CX + (sin_t(radians(i * 10)) * (beatsin8(i, 0, L*2)-L))) * 255.f;
|
||||
uint32_t y = (CY + (cos_t(radians(i * 10)) * (beatsin8(i, 0, L*2)-L))) * 255.f;
|
||||
SEGMENT.wu_pixel(leds, x, y, CHSV(i * 10, 255, 255));
|
||||
SEGMENT.wu_pixel(strip.leds, x, y, CHSV(i * 10, 255, 255));
|
||||
}
|
||||
SEGMENT.blur2d(leds, (SEGMENT.intensity>>4)+1);
|
||||
SEGMENT.blur2d(strip.leds, (SEGMENT.intensity>>4)+1);
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return FRAMETIME;
|
||||
}
|
||||
static const char *_data_FX_MODE_2DDRIFTROSE PROGMEM = "2D Drift Rose@Fade,Blur;;";
|
||||
@ -6078,16 +6006,12 @@ uint16_t mode_2DSwirl(void) {
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
if (SEGENV.call == 0) SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
|
||||
const uint8_t borderWidth = 2;
|
||||
|
||||
SEGMENT.blur2d(leds, SEGMENT.custom1);
|
||||
SEGMENT.blur2d(strip.leds, SEGMENT.custom1);
|
||||
|
||||
uint8_t i = beatsin8( 27*SEGMENT.speed/255, borderWidth, cols - borderWidth);
|
||||
uint8_t j = beatsin8( 41*SEGMENT.speed/255, borderWidth, rows - borderWidth);
|
||||
@ -6105,14 +6029,14 @@ uint16_t mode_2DSwirl(void) {
|
||||
|
||||
// printUmData();
|
||||
|
||||
leds[XY( i, j)] += ColorFromPalette(SEGPALETTE, (ms / 11 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 11, 200, 255);
|
||||
leds[XY( j, i)] += ColorFromPalette(SEGPALETTE, (ms / 13 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 13, 200, 255);
|
||||
leds[XY(ni, nj)] += ColorFromPalette(SEGPALETTE, (ms / 17 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 17, 200, 255);
|
||||
leds[XY(nj, ni)] += ColorFromPalette(SEGPALETTE, (ms / 29 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 29, 200, 255);
|
||||
leds[XY( i, nj)] += ColorFromPalette(SEGPALETTE, (ms / 37 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 37, 200, 255);
|
||||
leds[XY(ni, j)] += ColorFromPalette(SEGPALETTE, (ms / 41 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 41, 200, 255);
|
||||
strip.leds[XY( i, j)] += ColorFromPalette(SEGPALETTE, (ms / 11 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 11, 200, 255);
|
||||
strip.leds[XY( j, i)] += ColorFromPalette(SEGPALETTE, (ms / 13 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 13, 200, 255);
|
||||
strip.leds[XY(ni, nj)] += ColorFromPalette(SEGPALETTE, (ms / 17 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 17, 200, 255);
|
||||
strip.leds[XY(nj, ni)] += ColorFromPalette(SEGPALETTE, (ms / 29 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 29, 200, 255);
|
||||
strip.leds[XY( i, nj)] += ColorFromPalette(SEGPALETTE, (ms / 37 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 37, 200, 255);
|
||||
strip.leds[XY(ni, j)] += ColorFromPalette(SEGPALETTE, (ms / 41 + volumeSmth*4), volumeRaw * SEGMENT.intensity / 64, LINEARBLEND); //CHSV( ms / 41, 200, 255);
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return FRAMETIME;
|
||||
} // mode_2DSwirl()
|
||||
static const char *_data_FX_MODE_2DSWIRL PROGMEM = "2D Swirl ♪@!,Sensitivity=64,Blur;,Bg Swirl;!;ssim=0"; // Beatsin
|
||||
@ -6127,13 +6051,9 @@ uint16_t mode_2DWaverly(void) {
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
|
||||
if (SEGENV.call == 0) {
|
||||
SEGMENT.fill_solid(leds, CRGB::Black);
|
||||
SEGMENT.fill_solid(strip.leds, CRGB::Black);
|
||||
}
|
||||
|
||||
um_data_t *um_data;
|
||||
@ -6143,7 +6063,7 @@ uint16_t mode_2DWaverly(void) {
|
||||
}
|
||||
float volumeSmth = *(float*) um_data->u_data[0];
|
||||
|
||||
SEGMENT.fadeToBlackBy(leds, SEGMENT.speed);
|
||||
SEGMENT.fadeToBlackBy(strip.leds, SEGMENT.speed);
|
||||
|
||||
long t = millis() / 2;
|
||||
for (uint16_t i = 0; i < cols; i++) {
|
||||
@ -6156,13 +6076,13 @@ uint16_t mode_2DWaverly(void) {
|
||||
uint16_t thisMax = map(thisVal, 0, 512, 0, rows);
|
||||
|
||||
for (uint16_t j = 0; j < thisMax; j++) {
|
||||
leds[XY(i, j)] += ColorFromPalette(SEGPALETTE, map(j, 0, thisMax, 250, 0), 255, LINEARBLEND);
|
||||
leds[XY((cols - 1) - i, (rows - 1) - j)] += ColorFromPalette(SEGPALETTE, map(j, 0, thisMax, 250, 0), 255, LINEARBLEND);
|
||||
strip.leds[XY(i, j)] += ColorFromPalette(SEGPALETTE, map(j, 0, thisMax, 250, 0), 255, LINEARBLEND);
|
||||
strip.leds[XY((cols - 1) - i, (rows - 1) - j)] += ColorFromPalette(SEGPALETTE, map(j, 0, thisMax, 250, 0), 255, LINEARBLEND);
|
||||
}
|
||||
}
|
||||
SEGMENT.blur2d(leds, 16);
|
||||
SEGMENT.blur2d(strip.leds, 16);
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return FRAMETIME;
|
||||
} // mode_2DWaverly()
|
||||
static const char *_data_FX_MODE_2DWAVERLY PROGMEM = "2D Waverly ♪@Amplification,Sensitivity=64;;!;ssim=0"; // Beatsin
|
||||
@ -6767,12 +6687,7 @@ static const char *_data_FX_MODE_BLURZ PROGMEM = "Blurz ♫@Fade rate,Blur amoun
|
||||
// ** DJLight //
|
||||
/////////////////////////
|
||||
uint16_t mode_DJLight(void) { // Written by ??? Adapted by Will Tatam.
|
||||
const int NUM_LEDS = SEGLEN; // aka SEGLEN
|
||||
const int mid = NUM_LEDS / 2;
|
||||
|
||||
const uint16_t dataSize = SEGLEN*sizeof(CRGB);
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
const int mid = SEGLEN / 2;
|
||||
|
||||
um_data_t *um_data;
|
||||
if (!usermods.getUMData(&um_data, USERMOD_ID_AUDIOREACTIVE)) {
|
||||
@ -6786,13 +6701,13 @@ uint16_t mode_DJLight(void) { // Written by ??? Adapted by Wil
|
||||
if (SEGENV.aux0 != secondHand) { // Triggered millis timing.
|
||||
SEGENV.aux0 = secondHand;
|
||||
|
||||
leds[mid] = CRGB(fftResult[15]/2, fftResult[5]/2, fftResult[0]/2); // 16-> 15 as 16 is out of bounds
|
||||
leds[mid].fadeToBlackBy(map(fftResult[1*4], 0, 255, 255, 10)); // TODO - Update
|
||||
strip.leds[XY(mid%SEGMENT.virtualWidth(), mid/SEGMENT.virtualWidth())] = CRGB(fftResult[15]/2, fftResult[5]/2, fftResult[0]/2); // 16-> 15 as 16 is out of bounds
|
||||
strip.leds[XY(mid%SEGMENT.virtualWidth(), mid/SEGMENT.virtualWidth())].fadeToBlackBy(map(fftResult[1*4], 0, 255, 255, 10)); // TODO - Update
|
||||
|
||||
for (int i = NUM_LEDS - 1; i > mid; i--) leds[i] = leds[i - 1]; //move to the left
|
||||
for (int i = 0; i < mid; i++) leds[i] = leds[i + 1]; // move to the right
|
||||
for (int i = SEGLEN - 1; i > mid; i--) strip.leds[XY(i%SEGMENT.virtualWidth(), i/SEGMENT.virtualWidth())] = strip.leds[XY((i-1)%SEGMENT.virtualWidth(), (i-1)/SEGMENT.virtualWidth())]; //move to the left
|
||||
for (int i = 0; i < mid; i++) strip.leds[XY(i%SEGMENT.virtualWidth(), i/SEGMENT.virtualWidth())] = strip.leds[XY((i+1)%SEGMENT.virtualWidth(), (i+1)/SEGMENT.virtualWidth())]; // move to the right
|
||||
|
||||
for (uint16_t i=0; i<SEGLEN; i++) SEGMENT.setPixelColor(i, leds[i]);
|
||||
for (uint16_t i=0; i<SEGLEN; i++) SEGMENT.setPixelColor(i, strip.leds[XY(i%SEGMENT.virtualWidth(), i/SEGMENT.virtualWidth())]);
|
||||
}
|
||||
|
||||
return FRAMETIME;
|
||||
@ -7201,9 +7116,6 @@ uint16_t mode_2DFunkyPlank(void) { // Written by ??? Adapted by Wil
|
||||
|
||||
const uint16_t cols = SEGMENT.virtualWidth();
|
||||
const uint16_t rows = SEGMENT.virtualHeight();
|
||||
const uint16_t dataSize = sizeof(CRGB) * SEGMENT.width() * SEGMENT.height(); // using width*height prevents reallocation if mirroring is enabled
|
||||
if (!SEGENV.allocateData(dataSize)) return mode_static(); //allocation failed
|
||||
CRGB *leds = reinterpret_cast<CRGB*>(SEGENV.data);
|
||||
|
||||
int NUMB_BANDS = map(SEGMENT.custom1, 0, 255, 1, 16);
|
||||
int barWidth = (cols / NUMB_BANDS);
|
||||
@ -7233,7 +7145,7 @@ uint16_t mode_2DFunkyPlank(void) { // Written by ??? Adapted by Wil
|
||||
int v = map(fftResult[band], 0, 255, 10, 255);
|
||||
for (int w = 0; w < barWidth; w++) {
|
||||
int xpos = (barWidth * b) + w;
|
||||
leds[XY(xpos, 0)] = CHSV(hue, 255, v);
|
||||
strip.leds[XY(xpos, 0)] = CHSV(hue, 255, v);
|
||||
}
|
||||
}
|
||||
|
||||
@ -7242,12 +7154,12 @@ uint16_t mode_2DFunkyPlank(void) { // Written by ??? Adapted by Wil
|
||||
for (int j = (cols - 1); j >= 0; j--) {
|
||||
int src = XY(j, (i - 1));
|
||||
int dst = XY(j, i);
|
||||
leds[dst] = leds[src];
|
||||
strip.leds[dst] = strip.leds[src];
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
SEGMENT.setPixels(leds);
|
||||
SEGMENT.setPixels(strip.leds);
|
||||
return FRAMETIME;
|
||||
} // mode_2DFunkyPlank
|
||||
static const char *_data_FX_MODE_2DFUNKYPLANK PROGMEM = "2D Funky Plank ♫@Scroll speed,,# of bands;;;ssim=0"; // Beatsin
|
||||
|
@ -141,9 +141,9 @@ uint16_t IRAM_ATTR Segment::XY(uint16_t x, uint16_t y) {
|
||||
#ifndef WLED_DISABLE_2D
|
||||
uint16_t width = virtualWidth(); // segment width in logical pixels
|
||||
uint16_t height = virtualHeight(); // segment height in logical pixels
|
||||
return (x%width) + (y%height) * width;
|
||||
return (start + x%width) + (startY + y%height) * strip.matrixWidth;
|
||||
#else
|
||||
return 0;
|
||||
return start + x;
|
||||
#endif
|
||||
}
|
||||
|
||||
@ -176,7 +176,7 @@ void IRAM_ATTR Segment::setPixelColorXY(int x, int y, uint32_t col)
|
||||
if (xX >= width() || yY >= height()) continue; // we have reached one dimension's end
|
||||
|
||||
if (strip.useLedsArray)
|
||||
strip.leds[start + xX + (startY + yY) * strip.matrixWidth] = col;
|
||||
strip.leds[XY(xX, yY)] = col;
|
||||
strip.setPixelColorXY(start + xX, startY + yY, col);
|
||||
|
||||
if (getOption(SEG_OPTION_MIRROR)) { //set the corresponding horizontally mirrored pixel
|
||||
@ -251,8 +251,8 @@ uint32_t Segment::getPixelColorXY(uint16_t x, uint16_t y) {
|
||||
y *= groupLength(); // expand to physical pixels
|
||||
if (x >= width() || y >= height()) return 0;
|
||||
if (strip.useLedsArray) {
|
||||
CRGB led = strip.leds[start + x + (startY + y) * strip.matrixWidth];
|
||||
return led.r * 65536 + led.g * 256 + led.b;
|
||||
CRGB led = strip.leds[XY(x, y)];
|
||||
return RGBW32(led.r, led.g, led.b, 0);
|
||||
}
|
||||
return strip.getPixelColorXY(start + x, startY + y);
|
||||
#else
|
||||
|
@ -465,7 +465,7 @@ void IRAM_ATTR Segment::setPixelColor(int i, uint32_t col)
|
||||
indexSet += offset; // offset/phase
|
||||
if (indexSet >= stop) indexSet -= len; // wrap
|
||||
if (strip.useLedsArray)
|
||||
strip.leds[indexSet] = col;
|
||||
strip.leds[XY(indexSet%virtualWidth(), indexSet/virtualWidth())] = col;
|
||||
strip.setPixelColor(indexSet, col);
|
||||
}
|
||||
}
|
||||
@ -530,8 +530,8 @@ uint32_t Segment::getPixelColor(uint16_t i)
|
||||
i += offset;
|
||||
if (i >= stop) i -= length();
|
||||
if (strip.useLedsArray) {
|
||||
CRGB led = strip.leds[i];
|
||||
return led.r * 65536 + led.g * 256 + led.b;
|
||||
CRGB led = strip.leds[XY(i%virtualWidth(), i/virtualWidth())];
|
||||
return RGBW32(led.r, led.g, led.b, 0);
|
||||
}
|
||||
else
|
||||
return strip.getPixelColor(i);
|
||||
@ -833,15 +833,20 @@ void WS2812FX::service() {
|
||||
bool doShow = false;
|
||||
|
||||
//initialize leds array. Move to better place then service??? TBD: realloc if nr of leds change
|
||||
if (useLedsArray) {
|
||||
// if (useLedsArray) {
|
||||
// if (leds != nullptr && sizeof(leds) / sizeof(uint32_t) != _length) {
|
||||
// free(leds);
|
||||
// leds = nullptr;
|
||||
// }
|
||||
if (leds == nullptr) {
|
||||
leds = (CRGB*) malloc(sizeof(CRGB) * _length);
|
||||
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_USE_PSRAM)
|
||||
if (psramFound())
|
||||
leds = (CRGB*) ps_malloc(sizeof(CRGB) * _length);
|
||||
else
|
||||
#endif
|
||||
leds = (CRGB*) malloc(sizeof(CRGB) * _length);
|
||||
}
|
||||
}
|
||||
// }
|
||||
|
||||
_isServicing = true;
|
||||
_segment_index = 0;
|
||||
|
Loading…
Reference in New Issue
Block a user