2D Waverly audio reactive.
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Blaz Kristan
parent
922a3631ae
commit
cc995ecef8
@ -101,7 +101,7 @@ const uint16_t samples = 512; // This value MUST ALWAYS be a p
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//unsigned int sampling_period_us;
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//unsigned long microseconds;
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static AudioSource *audioSource;
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static AudioSource *audioSource = nullptr;
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static byte soundSquelch = 10; // default squelch value for volume reactive routines
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static byte sampleGain = 1; // default sample gain
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@ -162,7 +162,7 @@ void FFTcode(void * parameter) {
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// Only run the FFT computing code if we're not in Receive mode
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if (audioSyncEnabled & 0x02) continue;
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audioSource->getSamples(vReal, samplesFFT);
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if (audioSource) audioSource->getSamples(vReal, samplesFFT);
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// old code - Last sample in vReal is our current mic sample
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//micDataSm = (uint16_t)vReal[samples - 1]; // will do a this a bit later
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@ -739,7 +739,7 @@ class AudioReactive : public Usermod {
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// usermod exchangeable data
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// we will assign all usermod exportable data here as pointers to original variables or arrays and allocate memory for pointers
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um_data = new um_data_t;
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um_data->u_size = 8;
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um_data->u_size = 11;
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um_data->u_type = new um_types_t[um_data->u_size];
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um_data->u_data = new void*[um_data->u_size];
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um_data->u_data[0] = &maxVol;
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@ -758,25 +758,20 @@ class AudioReactive : public Usermod {
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um_data->u_type[6] = UMT_DOUBLE;
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um_data->u_data[7] = &FFT_Magnitude;
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um_data->u_type[7] = UMT_DOUBLE;
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um_data->u_data[8] = &sampleAvg;
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um_data->u_type[8] = UMT_FLOAT;
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um_data->u_data[9] = &soundAgc;
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um_data->u_type[9] = UMT_BYTE;
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um_data->u_data[10] = &sampleAgc;
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um_data->u_type[10] = UMT_FLOAT;
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//...
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// these are values used by effects in soundreactive fork
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//uint8_t *fftResult = um_data->;
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//float *fftAvg = um_data->;
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//float *fftBin = um_data->;
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//float *fftCalc = um_data->;
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//double FFT_MajorPeak = um_data->;
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//double FFT_Magnitude = um_data->;
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//float sampleAgc = um_data->;
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//float sampleReal = um_data->;
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//float multAgc = um_data->;
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//float sampleAvg = um_data->;
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//int16_t sample = um_data->;
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//int16_t rawSampleAgc = um_data->;
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//bool samplePeak = um_data->;
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//uint8_t squelch = um_data->;
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//uint8_t soundSquelch = um_data->;
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//uint8_t soundAgc = um_data->;
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//uint8_t maxVol = um_data->;
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//uint8_t binNum = um_data->;
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//uint16_t *myVals = um_data->;
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//int16_t sample = um_data->;
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@ -788,43 +783,43 @@ class AudioReactive : public Usermod {
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delay(100); // Give that poor microphone some time to setup.
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switch (dmType) {
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case 1:
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DEBUGSR_PRINTLN("AS: Generic I2S Microphone.");
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DEBUGSR_PRINTLN(F("AS: Generic I2S Microphone."));
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audioSource = new I2SSource(SAMPLE_RATE, BLOCK_SIZE, 0, 0xFFFFFFFF);
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delay(100);
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audioSource->initialize(i2swsPin, i2ssdPin, i2sckPin);
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if (audioSource) audioSource->initialize(i2swsPin, i2ssdPin, i2sckPin);
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break;
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case 2:
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DEBUGSR_PRINTLN("AS: ES7243 Microphone.");
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DEBUGSR_PRINTLN(F("AS: ES7243 Microphone."));
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audioSource = new ES7243(SAMPLE_RATE, BLOCK_SIZE, 0, 0xFFFFFFFF);
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delay(100);
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audioSource->initialize(sdaPin, sclPin, i2swsPin, i2ssdPin, i2sckPin);
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if (audioSource) audioSource->initialize(sdaPin, sclPin, i2swsPin, i2ssdPin, i2sckPin);
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break;
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case 3:
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DEBUGSR_PRINTLN("AS: SPH0645 Microphone");
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DEBUGSR_PRINTLN(F("AS: SPH0645 Microphone"));
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audioSource = new SPH0654(SAMPLE_RATE, BLOCK_SIZE, 0, 0xFFFFFFFF);
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delay(100);
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audioSource->initialize(i2swsPin, i2ssdPin, i2sckPin);
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break;
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case 4:
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DEBUGSR_PRINTLN("AS: Generic I2S Microphone with Master Clock");
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DEBUGSR_PRINTLN(F("AS: Generic I2S Microphone with Master Clock"));
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audioSource = new I2SSourceWithMasterClock(SAMPLE_RATE, BLOCK_SIZE, 0, 0xFFFFFFFF);
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delay(100);
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audioSource->initialize(mclkPin, i2swsPin, i2ssdPin, i2sckPin);
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if (audioSource) audioSource->initialize(mclkPin, i2swsPin, i2ssdPin, i2sckPin);
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break;
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case 5:
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DEBUGSR_PRINTLN("AS: I2S PDM Microphone");
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DEBUGSR_PRINTLN(F("AS: I2S PDM Microphone"));
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audioSource = new I2SPdmSource(SAMPLE_RATE, BLOCK_SIZE, 0, 0xFFFFFFFF);
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delay(100);
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audioSource->initialize(i2swsPin, i2ssdPin);
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if (audioSource) audioSource->initialize(i2swsPin, i2ssdPin);
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break;
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case 0:
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default:
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DEBUGSR_PRINTLN("AS: Analog Microphone.");
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DEBUGSR_PRINTLN(F("AS: Analog Microphone."));
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// we don't do the down-shift by 16bit any more
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//audioSource = new I2SAdcSource(SAMPLE_RATE, BLOCK_SIZE, -4, 0x0FFF); // request upscaling to 16bit - still produces too much noise
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audioSource = new I2SAdcSource(SAMPLE_RATE, BLOCK_SIZE, 0, 0x0FFF); // keep at 12bit - less noise
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delay(100);
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audioSource->initialize(audioPin);
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if (audioSource) audioSource->initialize(audioPin);
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break;
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}
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@ -5478,43 +5478,6 @@ uint16_t WS2812FX::mode_2Dtartan(void) { // By: Elliott Kember https:/
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static const char *_data_FX_MODE_TARTAN PROGMEM = "2D Tartan@X scale,Y scale;;!";
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/////////////////////////
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// * 2D Waverly //
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/////////////////////////
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uint16_t WS2812FX::mode_2DWaverly(void) { // By: Stepko, https://editor.soulmatelights.com/gallery/652-wave , modified by Andrew Tuline
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if (!isMatrix) return mode_static(); // not a 2D set-up
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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) fill_solid(leds, CRGB::Black);
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fadeToBlackBy(leds, SEGMENT.speed);
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long t = now / 2;
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for (uint16_t i = 0; i < cols; i++) {
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//uint8_t tmpSound = (soundAgc) ? sampleAgc : sampleAvg;
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uint16_t thisVal = /*tmpSound*/((SEGMENT.intensity>>2)+1) * inoise8(i * 45 , t , t)/64;
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uint16_t thisMax = map(thisVal, 0, 512, 0, rows);
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for (uint16_t j = 0; j < thisMax; j++) {
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leds[XY(i, j)] += ColorFromPalette(currentPalette, map(j, 0, thisMax, 250, 0), 255, LINEARBLEND);
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leds[XY((cols - 1) - i, (rows - 1) - j)] += ColorFromPalette(currentPalette, map(j, 0, thisMax, 250, 0), 255, LINEARBLEND);
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}
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}
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blur2d(leds, 16);
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setPixels(leds);
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return FRAMETIME;
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} // mode_2DWaverly()
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static const char *_data_FX_MODE_WAVERLY PROGMEM = "2D Waverly@Fade rate,Sensitivity;;!";
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/////////////////////////
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// 2D Akemi //
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/////////////////////////
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@ -6010,6 +5973,62 @@ uint16_t WS2812FX::mode_2Ddriftrose(void) {
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static const char *_data_FX_MODE_DRIFT_ROSE PROGMEM = "2D Drift Rose@Fade,Blur;;";
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///////////////////////////////////////////////////////////////////////////////
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//************************* audio routines **********************************
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/////////////////////////
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// * 2D Waverly //
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/////////////////////////
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// By: Stepko, https://editor.soulmatelights.com/gallery/652-wave , modified by Andrew Tuline
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uint16_t WS2812FX::mode_2DWaverly(void) {
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if (!isMatrix) return mode_static(); // not a 2D set-up
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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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fill_solid(leds, CRGB::Black);
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}
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um_data_t *um_data;
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uint8_t *soundAgc = nullptr;
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float *sampleAgc, *sampleAvg;
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if (usermods.getUMData(&um_data, USERMOD_ID_AUDIOREACTIVE)) {
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soundAgc = (uint8_t*)um_data->u_data[9];
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sampleAgc = (float*)um_data->u_data[10];
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sampleAvg = (float*)um_data->u_data[8];
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}
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fadeToBlackBy(leds, SEGMENT.speed);
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long t = millis() / 2;
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for (uint16_t i = 0; i < cols; i++) {
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uint16_t thisVal = (1 + SEGMENT.intensity/64) * inoise8(i * 45 , t , t)/2;
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// use audio if available
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if (um_data && soundAgc) {
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thisVal /= 32; // reduce intensity of inoise8()
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thisVal *= (*soundAgc) ? *sampleAgc : *sampleAvg;
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}
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uint16_t thisMax = map(thisVal, 0, 512, 0, rows);
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for (uint16_t j = 0; j < thisMax; j++) {
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leds[XY(i, j)] += ColorFromPalette(currentPalette, map(j, 0, thisMax, 250, 0), 255, LINEARBLEND);
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leds[XY((cols - 1) - i, (rows - 1) - j)] += ColorFromPalette(currentPalette, map(j, 0, thisMax, 250, 0), 255, LINEARBLEND);
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}
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}
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blur2d(leds, 16);
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setPixels(leds);
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return FRAMETIME;
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} // mode_2DWaverly()
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static const char *_data_FX_MODE_WAVERLY PROGMEM = " ♪ 2D Waverly@Amplification,Sensitivity=64;;!";
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//////////////////////////////////////////////////////////////////////////////////////////
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// mode data
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const char *WS2812FX::_modeData[MODE_COUNT] = {
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