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initial port of MoonModules/WLED/pull/60 and related commit

pull/3962/head
gaaat 2024-05-08 15:33:51 +02:00
rodzic c8a7d44f55
commit 0ac53d8353
2 zmienionych plików z 179 dodań i 51 usunięć
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1
platformio.ini
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@ -195,6 +195,7 @@ build_flags =
; decrease code cache size and increase IRAM to fit all pixel functions
-D PIO_FRAMEWORK_ARDUINO_MMU_CACHE16_IRAM48 ;; in case of linker errors like "section `.text1' will not fit in region `iram1_0_seg'"
; -D PIO_FRAMEWORK_ARDUINO_MMU_CACHE16_IRAM48_SECHEAP_SHARED ;; (experimental) adds some extra heap, but may cause slowdown
-D USERMOD_AUDIOREACTIVE
lib_deps =
#https://github.com/lorol/LITTLEFS.git

229
usermods/audioreactive/audio_reactive.h
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@ -1,6 +1,9 @@
#pragma once
#include "wled.h"
#ifdef ARDUINO_ARCH_ESP32
#include <driver/i2s.h>
#include <driver/adc.h>
@ -8,11 +11,9 @@
#error This audio reactive usermod is not compatible with DMX Out.
#endif
#ifndef ARDUINO_ARCH_ESP32
#error This audio reactive usermod does not support the ESP8266.
#endif
#if defined(WLED_DEBUG) || defined(SR_DEBUG)
#if defined(ARDUINO_ARCH_ESP32) && (defined(WLED_DEBUG) || defined(SR_DEBUG))
#include <esp_timer.h>
#endif
@ -57,6 +58,50 @@
#define MAX_PALETTES 3
static volatile bool disableSoundProcessing = false; // if true, sound processing (FFT, filters, AGC) will be suspended. "volatile" as its shared between tasks.
static uint8_t audioSyncEnabled = 0; // bit field: bit 0 - send, bit 1 - receive (config value)
static bool udpSyncConnected = false; // UDP connection status -> true if connected to multicast group
#define NUM_GEQ_CHANNELS 16 // number of frequency channels. Don't change !!
// audioreactive variables
#ifdef ARDUINO_ARCH_ESP32
static float micDataReal = 0.0f; // MicIn data with full 24bit resolution - lowest 8bit after decimal point
static float multAgc = 1.0f; // sample * multAgc = sampleAgc. Our AGC multiplier
static float sampleAvg = 0.0f; // Smoothed Average sample - sampleAvg < 1 means "quiet" (simple noise gate)
static float sampleAgc = 0.0f; // Smoothed AGC sample
static uint8_t soundAgc = 0; // Automagic gain control: 0 - none, 1 - normal, 2 - vivid, 3 - lazy (config value)
#endif
//static float volumeSmth = 0.0f; // either sampleAvg or sampleAgc depending on soundAgc; smoothed sample
static float FFT_MajorPeak = 1.0f; // FFT: strongest (peak) frequency
static float FFT_Magnitude = 0.0f; // FFT: volume (magnitude) of peak frequency
static bool samplePeak = false; // Boolean flag for peak - used in effects. Responding routine may reset this flag. Auto-reset after strip.getMinShowDelay()
static bool udpSamplePeak = false; // Boolean flag for peak. Set at the same tiem as samplePeak, but reset by transmitAudioData
static unsigned long timeOfPeak = 0; // time of last sample peak detection.
static uint8_t fftResult[NUM_GEQ_CHANNELS]= {0};// Our calculated freq. channel result table to be used by effects
// TODO: probably best not used by receive nodes
//static float agcSensitivity = 128; // AGC sensitivity estimation, based on agc gain (multAgc). calculated by getSensitivity(). range 0..255
// user settable parameters for limitSoundDynamics()
#ifdef UM_AUDIOREACTIVE_DYNAMICS_LIMITER_OFF
static bool limiterOn = false; // bool: enable / disable dynamics limiter
#else
static bool limiterOn = true;
#endif
static uint16_t attackTime = 80; // int: attack time in milliseconds. Default 0.08sec
static uint16_t decayTime = 1400; // int: decay time in milliseconds. Default 1.40sec
// peak detection
#ifdef ARDUINO_ARCH_ESP32
static void detectSamplePeak(void); // peak detection function (needs scaled FFT reasults in vReal[]) - no used for 8266 receive-only mode
#endif
static void autoResetPeak(void); // peak auto-reset function
static uint8_t maxVol = 31; // (was 10) Reasonable value for constant volume for 'peak detector', as it won't always trigger (deprecated)
static uint8_t binNum = 8; // Used to select the bin for FFT based beat detection (deprecated)
#ifdef ARDUINO_ARCH_ESP32
// use audio source class (ESP32 specific)
#include "audio_source.h"
constexpr i2s_port_t I2S_PORT = I2S_NUM_0; // I2S port to use (do not change !)
@ -74,18 +119,10 @@ static uint8_t inputLevel = 128; // UI slider value
#else
uint8_t sampleGain = SR_GAIN; // sample gain (config value)
#endif
static uint8_t soundAgc = 1; // Automagic gain control: 0 - none, 1 - normal, 2 - vivid, 3 - lazy (config value)
static uint8_t audioSyncEnabled = 0; // bit field: bit 0 - send, bit 1 - receive (config value)
static bool udpSyncConnected = false; // UDP connection status -> true if connected to multicast group
//static uint8_t soundAgc = 1; // Automagic gain control: 0 - none, 1 - normal, 2 - vivid, 3 - lazy (config value)
//static uint8_t audioSyncEnabled = 0; // bit field: bit 0 - send, bit 1 - receive (config value)
//static bool udpSyncConnected = false; // UDP connection status -> true if connected to multicast group
// user settable parameters for limitSoundDynamics()
#ifdef UM_AUDIOREACTIVE_DYNAMICS_LIMITER_OFF
static bool limiterOn = false; // bool: enable / disable dynamics limiter
#else
static bool limiterOn = true;
#endif
static uint16_t attackTime = 80; // int: attack time in milliseconds. Default 0.08sec
static uint16_t decayTime = 1400; // int: decay time in milliseconds. Default 1.40sec
// user settable options for FFTResult scaling
static uint8_t FFTScalingMode = 3; // 0 none; 1 optimized logarithmic; 2 optimized linear; 3 optimized square root
@ -109,23 +146,23 @@ const float agcSampleSmooth[AGC_NUM_PRESETS] = { 1/12.f, 1/6.f, 1/16.f}; //
// AGC presets end
static AudioSource *audioSource = nullptr;
static volatile bool disableSoundProcessing = false; // if true, sound processing (FFT, filters, AGC) will be suspended. "volatile" as its shared between tasks.
//static volatile bool disableSoundProcessing = false; // if true, sound processing (FFT, filters, AGC) will be suspended. "volatile" as its shared between tasks.
static bool useBandPassFilter = false; // if true, enables a bandpass filter 80Hz-16Khz to remove noise. Applies before FFT.
// audioreactive variables shared with FFT task
static float micDataReal = 0.0f; // MicIn data with full 24bit resolution - lowest 8bit after decimal point
static float multAgc = 1.0f; // sample * multAgc = sampleAgc. Our AGC multiplier
static float sampleAvg = 0.0f; // Smoothed Average sample - sampleAvg < 1 means "quiet" (simple noise gate)
static float sampleAgc = 0.0f; // Smoothed AGC sample
// static float micDataReal = 0.0f; // MicIn data with full 24bit resolution - lowest 8bit after decimal point
// static float multAgc = 1.0f; // sample * multAgc = sampleAgc. Our AGC multiplier
// static float sampleAvg = 0.0f; // Smoothed Average sample - sampleAvg < 1 means "quiet" (simple noise gate)
// static float sampleAgc = 0.0f; // Smoothed AGC sample
// peak detection
static bool samplePeak = false; // Boolean flag for peak - used in effects. Responding routine may reset this flag. Auto-reset after strip.getMinShowDelay()
static uint8_t maxVol = 31; // Reasonable value for constant volume for 'peak detector', as it won't always trigger (deprecated)
static uint8_t binNum = 8; // Used to select the bin for FFT based beat detection (deprecated)
static bool udpSamplePeak = false; // Boolean flag for peak. Set at the same time as samplePeak, but reset by transmitAudioData
static unsigned long timeOfPeak = 0; // time of last sample peak detection.
static void detectSamplePeak(void); // peak detection function (needs scaled FFT results in vReal[])
static void autoResetPeak(void); // peak auto-reset function
// static bool samplePeak = false; // Boolean flag for peak - used in effects. Responding routine may reset this flag. Auto-reset after strip.getMinShowDelay()
// static uint8_t maxVol = 31; // Reasonable value for constant volume for 'peak detector', as it won't always trigger (deprecated)
// static uint8_t binNum = 8; // Used to select the bin for FFT based beat detection (deprecated)
// static bool udpSamplePeak = false; // Boolean flag for peak. Set at the same time as samplePeak, but reset by transmitAudioData
// static unsigned long timeOfPeak = 0; // time of last sample peak detection.
// static void detectSamplePeak(void); // peak detection function (needs scaled FFT results in vReal[])
// static void autoResetPeak(void); // peak auto-reset function
////////////////////
@ -139,7 +176,7 @@ void FFTcode(void * parameter); // audio processing task: read samples, run
static void runMicFilter(uint16_t numSamples, float *sampleBuffer); // pre-filtering of raw samples (band-pass)
static void postProcessFFTResults(bool noiseGateOpen, int numberOfChannels); // post-processing and post-amp of GEQ channels
#define NUM_GEQ_CHANNELS 16 // number of frequency channels. Don't change !!
//#define NUM_GEQ_CHANNELS 16 // number of frequency channels. Don't change !!
static TaskHandle_t FFT_Task = nullptr;
@ -147,9 +184,9 @@ static TaskHandle_t FFT_Task = nullptr;
static float fftResultPink[NUM_GEQ_CHANNELS] = { 1.70f, 1.71f, 1.73f, 1.78f, 1.68f, 1.56f, 1.55f, 1.63f, 1.79f, 1.62f, 1.80f, 2.06f, 2.47f, 3.35f, 6.83f, 9.55f };
// globals and FFT Output variables shared with animations
static float FFT_MajorPeak = 1.0f; // FFT: strongest (peak) frequency
static float FFT_Magnitude = 0.0f; // FFT: volume (magnitude) of peak frequency
static uint8_t fftResult[NUM_GEQ_CHANNELS]= {0};// Our calculated freq. channel result table to be used by effects
//static float FFT_MajorPeak = 1.0f; // FFT: strongest (peak) frequency
//static float FFT_Magnitude = 0.0f; // FFT: volume (magnitude) of peak frequency
//static uint8_t fftResult[NUM_GEQ_CHANNELS]= {0};// Our calculated freq. channel result table to be used by effects
#if defined(WLED_DEBUG) || defined(SR_DEBUG)
static uint64_t fftTime = 0;
static uint64_t sampleTime = 0;
@ -521,6 +558,8 @@ static void detectSamplePeak(void) {
}
}
#endif
static void autoResetPeak(void) {
uint16_t MinShowDelay = MAX(50, strip.getMinShowDelay()); // Fixes private class variable compiler error. Unsure if this is the correct way of fixing the root problem. -THATDONFC
if (millis() - timeOfPeak > MinShowDelay) { // Auto-reset of samplePeak after a complete frame has passed.
@ -538,6 +577,8 @@ static void autoResetPeak(void) {
class AudioReactive : public Usermod {
private:
#ifdef ARDUINO_ARCH_ESP32
#ifndef AUDIOPIN
int8_t audioPin = -1;
#else
@ -569,6 +610,7 @@ class AudioReactive : public Usermod {
#else
int8_t mclkPin = MCLK_PIN;
#endif
#endif
// new "V2" audiosync struct - 40 Bytes
struct audioSyncPacket {
@ -612,10 +654,14 @@ class AudioReactive : public Usermod {
const uint16_t delayMs = 10; // I don't want to sample too often and overload WLED
uint16_t audioSyncPort= 11988;// default port for UDP sound sync
bool updateIsRunning = false; // true during OTA.
#ifdef ARDUINO_ARCH_ESP32
// used for AGC
int last_soundAgc = -1; // used to detect AGC mode change (for resetting AGC internal error buffers)
double control_integrated = 0.0; // persistent across calls to agcAvg(); "integrator control" = accumulated error
// variables used by getSample() and agcAvg()
int16_t micIn = 0; // Current sample starts with negative values and large values, which is why it's 16 bit signed
double sampleMax = 0.0; // Max sample over a few seconds. Needed for AGC controller.
@ -624,6 +670,7 @@ class AudioReactive : public Usermod {
float sampleReal = 0.0f; // "sampleRaw" as float, to provide bits that are lost otherwise (before amplification by sampleGain or inputLevel). Needed for AGC.
int16_t sampleRaw = 0; // Current sample. Must only be updated ONCE!!! (amplified mic value by sampleGain and inputLevel)
int16_t rawSampleAgc = 0; // not smoothed AGC sample
#endif
// variables used in effects
float volumeSmth = 0.0f; // either sampleAvg or sampleAgc depending on soundAgc; smoothed sample
@ -644,7 +691,9 @@ class AudioReactive : public Usermod {
static const char _dynamics[];
static const char _frequency[];
static const char _inputLvl[];
#if defined(ARDUINO_ARCH_ESP32) && !defined(CONFIG_IDF_TARGET_ESP32S2) && !defined(CONFIG_IDF_TARGET_ESP32C3) && !defined(CONFIG_IDF_TARGET_ESP32S3)
static const char _analogmic[];
#endif
static const char _digitalmic[];
static const char _addPalettes[];
static const char UDP_SYNC_HEADER[];
@ -671,11 +720,13 @@ class AudioReactive : public Usermod {
//PLOT_PRINT("sampleAgc:"); PLOT_PRINT(sampleAgc); PLOT_PRINT("\t");
//PLOT_PRINT("sampleAvg:"); PLOT_PRINT(sampleAvg); PLOT_PRINT("\t");
//PLOT_PRINT("sampleReal:"); PLOT_PRINT(sampleReal); PLOT_PRINT("\t");
#ifdef ARDUINO_ARCH_ESP32
//PLOT_PRINT("micIn:"); PLOT_PRINT(micIn); PLOT_PRINT("\t");
//PLOT_PRINT("sample:"); PLOT_PRINT(sample); PLOT_PRINT("\t");
//PLOT_PRINT("sampleMax:"); PLOT_PRINT(sampleMax); PLOT_PRINT("\t");
//PLOT_PRINT("samplePeak:"); PLOT_PRINT((samplePeak!=0) ? 128:0); PLOT_PRINT("\t");
//PLOT_PRINT("multAgc:"); PLOT_PRINT(multAgc, 4); PLOT_PRINT("\t");
#endif
PLOT_PRINTLN();
#endif
@ -731,6 +782,7 @@ class AudioReactive : public Usermod {
} // logAudio()
#ifdef ARDUINO_ARCH_ESP32
//////////////////////
// Audio Processing //
//////////////////////
@ -901,6 +953,7 @@ class AudioReactive : public Usermod {
sampleAvg = fabsf(sampleAvg); // make sure we have a positive value
} // getSample()
#endif
/* Limits the dynamics of volumeSmth (= sampleAvg or sampleAgc).
* does not affect FFTResult[] or volumeRaw ( = sample or rawSampleAgc)
@ -947,12 +1000,14 @@ class AudioReactive : public Usermod {
if (udpSyncConnected) return; // already connected
if (!(apActive || interfacesInited)) return; // neither AP nor other connections availeable
if (millis() - last_connection_attempt < 15000) return; // only try once in 15 seconds
if (updateIsRunning) return;
// if we arrive here, we need a UDP connection but don't have one
last_connection_attempt = millis();
connected(); // try to start UDP
}
#ifdef ARDUINO_ARCH_ESP32
void transmitAudioData()
{
if (!udpSyncConnected) return;
@ -983,11 +1038,13 @@ class AudioReactive : public Usermod {
return;
} // transmitAudioData()
#endif
static bool isValidUdpSyncVersion(const char *header) {
return strncmp_P(header, PSTR(UDP_SYNC_HEADER), 6) == 0;
return strncmp_P(header, UDP_SYNC_HEADER, 6) == 0;
}
static bool isValidUdpSyncVersion_v1(const char *header) {
return strncmp_P(header, PSTR(UDP_SYNC_HEADER_v1), 6) == 0;
return strncmp_P(header, UDP_SYNC_HEADER_v1, 6) == 0;
}
void decodeAudioData(int packetSize, uint8_t *fftBuff) {
@ -995,12 +1052,14 @@ class AudioReactive : public Usermod {
// update samples for effects
volumeSmth = fmaxf(receivedPacket->sampleSmth, 0.0f);
volumeRaw = fmaxf(receivedPacket->sampleRaw, 0.0f);
#ifdef ARDUINO_ARCH_ESP32
// update internal samples
sampleRaw = volumeRaw;
sampleAvg = volumeSmth;
rawSampleAgc = volumeRaw;
sampleAgc = volumeSmth;
multAgc = 1.0f;
#endif
// Only change samplePeak IF it's currently false.
// If it's true already, then the animation still needs to respond.
autoResetPeak();
@ -1009,7 +1068,7 @@ class AudioReactive : public Usermod {
if (samplePeak) timeOfPeak = millis();
//userVar1 = samplePeak;
}
//These values are only available on the ESP32
//These values are only computed by ESP32
for (int i = 0; i < NUM_GEQ_CHANNELS; i++) fftResult[i] = receivedPacket->fftResult[i];
my_magnitude = fmaxf(receivedPacket->FFT_Magnitude, 0.0f);
FFT_Magnitude = my_magnitude;
@ -1021,12 +1080,14 @@ class AudioReactive : public Usermod {
// update samples for effects
volumeSmth = fmaxf(receivedPacket->sampleAgc, 0.0f);
volumeRaw = volumeSmth; // V1 format does not have "raw" AGC sample
#ifdef ARDUINO_ARCH_ESP32
// update internal samples
sampleRaw = fmaxf(receivedPacket->sampleRaw, 0.0f);
sampleAvg = fmaxf(receivedPacket->sampleAvg, 0.0f);;
sampleAgc = volumeSmth;
rawSampleAgc = volumeRaw;
multAgc = 1.0f;
multAgc = 1.0f;
#endif
// Only change samplePeak IF it's currently false.
// If it's true already, then the animation still needs to respond.
autoResetPeak();
@ -1112,6 +1173,9 @@ class AudioReactive : public Usermod {
um_data->u_type[7] = UMT_BYTE;
}
#ifdef ARDUINO_ARCH_ESP32
// Reset I2S peripheral for good measure
i2s_driver_uninstall(I2S_NUM_0); // E (696) I2S: i2s_driver_uninstall(2006): I2S port 0 has not installed
#if !defined(CONFIG_IDF_TARGET_ESP32C3)
@ -1189,10 +1253,12 @@ class AudioReactive : public Usermod {
delay(250); // give microphone enough time to initialise
if (!audioSource) enabled = false; // audio failed to initialise
if (enabled) onUpdateBegin(false); // create FFT task
if (FFT_Task == nullptr) enabled = false; // FFT task creation failed
if (enabled) disableSoundProcessing = false; // all good - enable audio processing
#endif
if (enabled) onUpdateBegin(false); // create FFT task, and initailize network
#ifdef ARDUINO_ARCH_ESP32
if (FFT_Task == nullptr) enabled = false; // FFT task creation failed
if((!audioSource) || (!audioSource->isInitialized())) { // audio source failed to initialize. Still stay "enabled", as there might be input arriving via UDP Sound Sync
#ifdef WLED_DEBUG
DEBUG_PRINTLN(F("AR: Failed to initialize sound input driver. Please check input PIN settings."));
@ -1201,7 +1267,8 @@ class AudioReactive : public Usermod {
#endif
disableSoundProcessing = true;
}
#endif
if (enabled) disableSoundProcessing = false; // all good - enable audio processing
if (enabled) connectUDPSoundSync();
if (enabled && addPalettes) createAudioPalettes();
initDone = true;
@ -1220,7 +1287,7 @@ class AudioReactive : public Usermod {
}
if (audioSyncPort > 0 && (audioSyncEnabled & 0x03)) {
#ifndef ESP8266
#ifdef ARDUINO_ARCH_ESP32
udpSyncConnected = fftUdp.beginMulticast(IPAddress(239, 0, 0, 1), audioSyncPort);
#else
udpSyncConnected = fftUdp.beginMulticast(WiFi.localIP(), IPAddress(239, 0, 0, 1), audioSyncPort);
@ -1259,7 +1326,7 @@ class AudioReactive : public Usermod {
||(realtimeMode == REALTIME_MODE_ADALIGHT)
||(realtimeMode == REALTIME_MODE_ARTNET) ) ) // please add other modes here if needed
{
#ifdef WLED_DEBUG
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_DEBUG)
if ((disableSoundProcessing == false) && (audioSyncEnabled == 0)) { // we just switched to "disabled"
DEBUG_PRINTLN(F("[AR userLoop] realtime mode active - audio processing suspended."));
DEBUG_PRINTF_P(PSTR(" RealtimeMode = %d; RealtimeOverride = %d\n"), int(realtimeMode), int(realtimeOverride));
@ -1267,7 +1334,7 @@ class AudioReactive : public Usermod {
#endif
disableSoundProcessing = true;
} else {
#ifdef WLED_DEBUG
#if defined(ARDUINO_ARCH_ESP32) && defined(WLED_DEBUG)
if ((disableSoundProcessing == true) && (audioSyncEnabled == 0) && audioSource->isInitialized()) { // we just switched to "enabled"
DEBUG_PRINTLN(F("[AR userLoop] realtime mode ended - audio processing resumed."));
DEBUG_PRINTF_P(PSTR(" RealtimeMode = %d; RealtimeOverride = %d\n"), int(realtimeMode), int(realtimeOverride));
@ -1279,6 +1346,7 @@ class AudioReactive : public Usermod {
if (audioSyncEnabled & 0x02) disableSoundProcessing = true; // make sure everything is disabled IF in audio Receive mode
if (audioSyncEnabled & 0x01) disableSoundProcessing = false; // keep running audio IF we're in audio Transmit mode
#ifdef ARDUINO_ARCH_ESP32
if (!audioSource->isInitialized()) disableSoundProcessing = true; // no audio source
@ -1318,6 +1386,7 @@ class AudioReactive : public Usermod {
limitSampleDynamics();
} // if (!disableSoundProcessing)
#endif
autoResetPeak(); // auto-reset sample peak after strip minShowDelay
if (!udpSyncConnected) udpSamplePeak = false; // reset UDP samplePeak while UDP is unconnected
@ -1351,6 +1420,7 @@ class AudioReactive : public Usermod {
#endif
// Info Page: keep max sample from last 5 seconds
#ifdef ARDUINO_ARCH_ESP32
if ((millis() - sampleMaxTimer) > CYCLE_SAMPLEMAX) {
sampleMaxTimer = millis();
maxSample5sec = (0.15f * maxSample5sec) + 0.85f *((soundAgc) ? sampleAgc : sampleAvg); // reset, and start with some smoothing
@ -1358,13 +1428,25 @@ class AudioReactive : public Usermod {
} else {
if ((sampleAvg >= 1)) maxSample5sec = fmaxf(maxSample5sec, (soundAgc) ? rawSampleAgc : sampleRaw); // follow maximum volume
}
#else // similar functionality for 8266 receive only - use VolumeSmth instead of raw sample data
if ((millis() - sampleMaxTimer) > CYCLE_SAMPLEMAX) {
sampleMaxTimer = millis();
maxSample5sec = (0.15 * maxSample5sec) + 0.85 * volumeSmth; // reset, and start with some smoothing
if (volumeSmth < 1.0f) maxSample5sec = 0; // noise gate
if (maxSample5sec < 0.0f) maxSample5sec = 0; // avoid negative values
} else {
if (volumeSmth >= 1.0f) maxSample5sec = fmaxf(maxSample5sec, volumeRaw); // follow maximum volume
}
#endif
#ifdef ARDUINO_ARCH_ESP32
//UDP Microphone Sync - transmit mode
if ((audioSyncEnabled & 0x01) && (millis() - lastTime > 20)) {
// Only run the transmit code IF we're in Transmit mode
transmitAudioData();
lastTime = millis();
}
#endif
fillAudioPalettes();
}
@ -1377,7 +1459,7 @@ class AudioReactive : public Usermod {
return true;
}
#ifdef ARDUINO_ARCH_ESP32
void onUpdateBegin(bool init) override
{
#ifdef WLED_DEBUG
@ -1426,9 +1508,32 @@ class AudioReactive : public Usermod {
}
micDataReal = 0.0f; // just to be sure
if (enabled) disableSoundProcessing = false;
updateIsRunning = init;
}
#else // reduced function for 8266
void onUpdateBegin(bool init)
{
// gracefully suspend audio (if running)
disableSoundProcessing = true;
// reset sound data
volumeRaw = 0; volumeSmth = 0;
for(int i=(init?0:1); i<NUM_GEQ_CHANNELS; i+=2) fftResult[i] = 16; // make a tiny pattern
autoResetPeak();
if (init) {
if (udpSyncConnected) { // close UDP sync connection (if open)
udpSyncConnected = false;
fftUdp.stop();
DEBUGSR_PRINTLN(F("AR onUpdateBegin(true): UDP connection closed."));
receivedFormat = 0;
}
}
if (enabled) disableSoundProcessing = init; // init = true means that OTA is just starting --> don't process audio
updateIsRunning = init;
}
#endif
#ifdef ARDUINO_ARCH_ESP32
/**
* handleButton() can be used to override default button behaviour. Returning true
* will prevent button working in a default way.
@ -1446,7 +1551,7 @@ class AudioReactive : public Usermod {
return false;
}
#endif
////////////////////////////
// Settings and Info Page //
////////////////////////////
@ -1458,7 +1563,9 @@ class AudioReactive : public Usermod {
*/
void addToJsonInfo(JsonObject& root) override
{
char myStringBuffer[16]; // buffer for snprintf()
#ifdef ARDUINO_ARCH_ESP32
char myStringBuffer[16]; // buffer for snprintf() - not used yet on 8266
#endif
JsonObject user = root["u"];
if (user.isNull()) user = root.createNestedObject("u");
@ -1476,6 +1583,7 @@ class AudioReactive : public Usermod {
infoArr.add(uiDomString);
if (enabled) {
#ifdef ARDUINO_ARCH_ESP32
// Input Level Slider
if (disableSoundProcessing == false) { // only show slider when audio processing is running
if (soundAgc > 0) {
@ -1492,7 +1600,7 @@ class AudioReactive : public Usermod {
uiDomString += F(" /><div class=\"sliderdisplay\"></div></div></div>"); //<output class=\"sliderbubble\"></output>
infoArr.add(uiDomString);
}
#endif
// The following can be used for troubleshooting user errors and is so not enclosed in #ifdef WLED_DEBUG
// current Audio input
@ -1508,6 +1616,11 @@ class AudioReactive : public Usermod {
} else {
infoArr.add(F(" - no connection"));
}
#ifndef ARDUINO_ARCH_ESP32 // substitute for 8266
} else {
infoArr.add(F("sound sync Off"));
}
#else // ESP32 only
} else {
// Analog or I2S digital input
if (audioSource && (audioSource->isInitialized())) {
@ -1552,7 +1665,7 @@ class AudioReactive : public Usermod {
infoArr.add(roundf(multAgc*100.0f) / 100.0f);
infoArr.add("x");
}
#endif
// UDP Sound Sync status
infoArr = user.createNestedArray(F("UDP Sound Sync"));
if (audioSyncEnabled) {
@ -1571,6 +1684,7 @@ class AudioReactive : public Usermod {
}
#if defined(WLED_DEBUG) || defined(SR_DEBUG)
#ifdef ARDUINO_ARCH_ESP32
infoArr = user.createNestedArray(F("Sampling time"));
infoArr.add(float(sampleTime)/100.0f);
infoArr.add(" ms");
@ -1587,6 +1701,7 @@ class AudioReactive : public Usermod {
DEBUGSR_PRINTF("AR Sampling time: %5.2f ms\n", float(sampleTime)/100.0f);
DEBUGSR_PRINTF("AR FFT time : %5.2f ms\n", float(fftTime)/100.0f);
#endif
#endif
}
}
@ -1625,9 +1740,11 @@ class AudioReactive : public Usermod {
if (!prevEnabled && enabled) createAudioPalettes();
}
}
#ifdef ARDUINO_ARCH_ESP32
if (usermod[FPSTR(_inputLvl)].is<int>()) {
inputLevel = min(255,max(0,usermod[FPSTR(_inputLvl)].as<int>()));
}
#endif
}
if (root.containsKey(F("rmcpal")) && root[F("rmcpal")].as<bool>()) {
// handle removal of custom palettes from JSON call so we don't break things
@ -1683,6 +1800,7 @@ class AudioReactive : public Usermod {
top[FPSTR(_enabled)] = enabled;
top[FPSTR(_addPalettes)] = addPalettes;
#ifdef ARDUINO_ARCH_ESP32
#if !defined(CONFIG_IDF_TARGET_ESP32S2) && !defined(CONFIG_IDF_TARGET_ESP32C3) && !defined(CONFIG_IDF_TARGET_ESP32S3)
JsonObject amic = top.createNestedObject(FPSTR(_analogmic));
amic["pin"] = audioPin;
@ -1701,13 +1819,15 @@ class AudioReactive : public Usermod {
cfg[F("gain")] = sampleGain;
cfg[F("AGC")] = soundAgc;
JsonObject freqScale = top.createNestedObject(FPSTR(_frequency));
freqScale[F("scale")] = FFTScalingMode;
#endif
JsonObject dynLim = top.createNestedObject(FPSTR(_dynamics));
dynLim[F("limiter")] = limiterOn;
dynLim[F("rise")] = attackTime;
dynLim[F("fall")] = decayTime;
JsonObject freqScale = top.createNestedObject(FPSTR(_frequency));
freqScale[F("scale")] = FFTScalingMode;
JsonObject sync = top.createNestedObject("sync");
sync["port"] = audioSyncPort;
@ -1740,6 +1860,7 @@ class AudioReactive : public Usermod {
configComplete &= getJsonValue(top[FPSTR(_enabled)], enabled);
configComplete &= getJsonValue(top[FPSTR(_addPalettes)], addPalettes);
#ifdef ARDUINO_ARCH_ESP32
#if !defined(CONFIG_IDF_TARGET_ESP32S2) && !defined(CONFIG_IDF_TARGET_ESP32C3) && !defined(CONFIG_IDF_TARGET_ESP32S3)
configComplete &= getJsonValue(top[FPSTR(_analogmic)]["pin"], audioPin);
#else
@ -1763,12 +1884,12 @@ class AudioReactive : public Usermod {
configComplete &= getJsonValue(top[FPSTR(_config)][F("gain")], sampleGain);
configComplete &= getJsonValue(top[FPSTR(_config)][F("AGC")], soundAgc);
configComplete &= getJsonValue(top[FPSTR(_frequency)][F("scale")], FFTScalingMode);
configComplete &= getJsonValue(top[FPSTR(_dynamics)][F("limiter")], limiterOn);
configComplete &= getJsonValue(top[FPSTR(_dynamics)][F("rise")], attackTime);
configComplete &= getJsonValue(top[FPSTR(_dynamics)][F("fall")], decayTime);
configComplete &= getJsonValue(top[FPSTR(_frequency)][F("scale")], FFTScalingMode);
#endif
configComplete &= getJsonValue(top["sync"]["port"], audioSyncPort);
configComplete &= getJsonValue(top["sync"]["mode"], audioSyncEnabled);
@ -1783,6 +1904,7 @@ class AudioReactive : public Usermod {
void appendConfigData() override
{
#ifdef ARDUINO_ARCH_ESP32
oappend(SET_F("dd=addDropdown('AudioReactive','digitalmic:type');"));
#if !defined(CONFIG_IDF_TARGET_ESP32S2) && !defined(CONFIG_IDF_TARGET_ESP32C3) && !defined(CONFIG_IDF_TARGET_ESP32S3)
oappend(SET_F("addOption(dd,'Generic Analog',0);"));
@ -1814,11 +1936,15 @@ class AudioReactive : public Usermod {
oappend(SET_F("addOption(dd,'Linear (Amplitude)',2);"));
oappend(SET_F("addOption(dd,'Square Root (Energy)',3);"));
oappend(SET_F("addOption(dd,'Logarithmic (Loudness)',1);"));
#endif
oappend(SET_F("dd=addDropdown('AudioReactive','sync:mode');"));
oappend(SET_F("addOption(dd,'Off',0);"));
#ifdef ARDUINO_ARCH_ESP32
oappend(SET_F("addOption(dd,'Send',1);"));
#endif
oappend(SET_F("addOption(dd,'Receive',2);"));
#ifdef ARDUINO_ARCH_ESP32
oappend(SET_F("addInfo('AudioReactive:digitalmic:type',1,'<i>requires reboot!</i>');")); // 0 is field type, 1 is actual field
oappend(SET_F("addInfo('AudioReactive:digitalmic:pin[]',0,'<i>sd/data/dout</i>','I2S SD');"));
oappend(SET_F("addInfo('AudioReactive:digitalmic:pin[]',1,'<i>ws/clk/lrck</i>','I2S WS');"));
@ -1828,6 +1954,7 @@ class AudioReactive : public Usermod {
#else
oappend(SET_F("addInfo('AudioReactive:digitalmic:pin[]',3,'<i>master clock</i>','I2S MCLK');"));
#endif
#endif
}