make MIC_LOGGER work again
- EVERY_N_MILLIS somehow does not work. Replaced it, - make sure that WLED_DEBUG does not report "fake FFT times" whrn FFT code was not running
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@ -197,6 +197,7 @@ void FFTcode(void * parameter)
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#if defined(WLED_DEBUG) || defined(SR_DEBUG)
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uint64_t start = esp_timer_get_time();
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bool haveDoneFFT = false; // indicates if second measurement (FFT time) is valid
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#endif
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// get a fresh batch of samples from I2S
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@ -204,9 +205,10 @@ void FFTcode(void * parameter)
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#if defined(WLED_DEBUG) || defined(SR_DEBUG)
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if (start < esp_timer_get_time()) { // filter out overflows
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unsigned long sampleTimeInMillis = (esp_timer_get_time() - start +5ULL) / 10ULL; // "+5" to ensure proper rounding
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uint64_t sampleTimeInMillis = (esp_timer_get_time() - start +5ULL) / 10ULL; // "+5" to ensure proper rounding
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sampleTime = (sampleTimeInMillis*3 + sampleTime*7)/10; // smooth
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}
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start = esp_timer_get_time(); // start measuring FFT time
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#endif
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xLastWakeTime = xTaskGetTickCount(); // update "last unblocked time" for vTaskDelay
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@ -255,6 +257,10 @@ void FFTcode(void * parameter)
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#endif
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FFT_MajorPeak = constrain(FFT_MajorPeak, 1.0f, 11025.0f); // restrict value to range expected by effects
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#if defined(WLED_DEBUG) || defined(SR_DEBUG)
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haveDoneFFT = true;
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#endif
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} else { // noise gate closed - only clear results as FFT was skipped. MIC samples are still valid when we do this.
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memset(vReal, 0, sizeof(vReal));
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FFT_MajorPeak = 1;
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@ -397,8 +403,8 @@ void FFTcode(void * parameter)
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}
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#if defined(WLED_DEBUG) || defined(SR_DEBUG)
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if (start < esp_timer_get_time()) { // filter out overflows
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unsigned long fftTimeInMillis = ((esp_timer_get_time() - start) +5ULL) / 10ULL; // "+5" to ensure proper rounding
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if (haveDoneFFT && (start < esp_timer_get_time())) { // filter out overflows
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uint64_t fftTimeInMillis = ((esp_timer_get_time() - start) +5ULL) / 10ULL; // "+5" to ensure proper rounding
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fftTime = (fftTimeInMillis*3 + fftTime*7)/10; // smooth
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}
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#endif
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@ -563,21 +569,21 @@ class AudioReactive : public Usermod {
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////////////////////
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void logAudio()
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{
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if (disableSoundProcessing && (!udpSyncConnected || ((audioSyncEnabled & 0x02) == 0))) return; // no audio availeable
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#ifdef MIC_LOGGER
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// Debugging functions for audio input and sound processing. Comment out the values you want to see
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Serial.print("micReal:"); Serial.print(micDataReal); Serial.print("\t");
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//Serial.print("micIn:"); Serial.print(micIn); Serial.print("\t");
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//Serial.print("micLev:"); Serial.print(micLev); Serial.print("\t");
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//Serial.print("sampleReal:"); Serial.print(sampleReal); Serial.print("\t");
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//Serial.print("sample:"); Serial.print(sample); Serial.print("\t");
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Serial.print("volumeSmth:"); Serial.print(volumeSmth); Serial.print("\t");
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//Serial.print("volumeRaw:"); Serial.print(volumeRaw); Serial.print("\t");
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//Serial.print("DC_Level:"); Serial.print(micLev); Serial.print("\t");
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//Serial.print("sampleAgc:"); Serial.print(sampleAgc); Serial.print("\t");
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//Serial.print("sampleAvg:"); Serial.print(sampleAvg); Serial.print("\t");
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//Serial.print("sampleReal:"); Serial.print(sampleReal); Serial.print("\t");
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//Serial.print("micIn:"); Serial.print(micIn); Serial.print("\t");
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//Serial.print("sample:"); Serial.print(sample); Serial.print("\t");
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//Serial.print("sampleMax:"); Serial.print(sampleMax); Serial.print("\t");
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//Serial.print("samplePeak:"); Serial.print((samplePeak!=0) ? 128:0); Serial.print("\t");
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//Serial.print("multAgc:"); Serial.print(multAgc, 4); Serial.print("\t");
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Serial.print("sampleAgc:"); Serial.print(sampleAgc); Serial.print("\t");
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//Serial.print("volumeRaw:"); Serial.print(volumeRaw); Serial.print("\t");
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//Serial.print("volumeSmth:"); Serial.print(volumeSmth); Serial.print("\t");
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Serial.println();
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#endif
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@ -1170,9 +1176,11 @@ class AudioReactive : public Usermod {
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}
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#if defined(MIC_LOGGER) || defined(MIC_SAMPLING_LOG) || defined(FFT_SAMPLING_LOG)
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EVERY_N_MILLIS(20) {
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logAudio();
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}
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static unsigned long lastMicLoggerTime = 0;
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if (millis()-lastMicLoggerTime > 20) {
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lastMicLoggerTime = millis();
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logAudio();
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}
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#endif
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// Info Page: keep max sample from last 5 seconds
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@ -1392,11 +1400,18 @@ class AudioReactive : public Usermod {
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infoArr = user.createNestedArray(F("Sampling time"));
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infoArr.add(float(sampleTime)/100.0f);
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infoArr.add(" ms");
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infoArr = user.createNestedArray(F("FFT time"));
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infoArr.add(float(fftTime-sampleTime)/100.0f);
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infoArr.add(" ms");
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infoArr.add(float(fftTime)/100.0f);
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if ((fftTime/100) >= FFT_MIN_CYCLE) // FFT time over budget -> I2S buffer will overflow
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infoArr.add("<b style=\"color:red;\">! ms</b>");
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else if ((fftTime/80 + sampleTime/80) >= FFT_MIN_CYCLE) // FFT time >75% of budget -> risk of instability
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infoArr.add("<b style=\"color:orange;\"> ms!</b>");
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else
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infoArr.add(" ms");
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DEBUGSR_PRINTF("AR Sampling time: %5.2f ms\n", float(sampleTime)/100.0f);
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DEBUGSR_PRINTF("AR FFT time : %5.2f ms\n", float(fftTime-sampleTime)/100.0f);
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DEBUGSR_PRINTF("AR FFT time : %5.2f ms\n", float(fftTime)/100.0f);
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#endif
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}
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}
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