// Plays a RAW (16-bit signed) PCM audio file at slower or faster rate // this example requires an uSD-card inserted to teensy 3.6 with a file called DEMO.RAW #include #include #include #include #define CSPIN 6 SerialFlashChip myfs; // GUItool: begin automatically generated code AudioPlaySerialFlashResmp playSerialFlash1(myfs); //xy=324,457 AudioOutputI2S i2s2; //xy=840.8571472167969,445.5714416503906 AudioConnection patchCord1(playSerialFlash1, 0, i2s2, 0); AudioConnection patchCord2(playSerialFlash1, 0, i2s2, 1); AudioControlSGTL5000 audioShield; // GUItool: end automatically generated code #define A14 10 const char* _filename = "DEMO.RAW"; const int analogInPin = A14; unsigned long lastSamplePlayed = 0; uint32_t diskSize; double getPlaybackRate(int16_t analog) { //analog: 0..1023 return (analog - 512.0) / 512.0; } void setup() { analogReference(0); pinMode(analogInPin, INPUT_DISABLE); // i.e. Analog if (!SerialFlash.begin(CSPIN)) { while (1) { Serial.println(F("Unable to access SPI Flash chip")); delay(1000); } } Serial.println("SerialFlash initialized."); audioShield.enable(); audioShield.volume(0.5); playSerialFlash1.enableInterpolation(true); int newsensorValue = analogRead(analogInPin); playSerialFlash1.setPlaybackRate(getPlaybackRate(newsensorValue)); AudioMemory(24); } void loop() { int newsensorValue = analogRead(analogInPin); playSerialFlash1.setPlaybackRate(getPlaybackRate(newsensorValue)); unsigned currentMillis = millis(); if (currentMillis > lastSamplePlayed + 500) { if (!playSerialFlash1.isPlaying()) { playSerialFlash1.playRaw(_filename, 1); lastSamplePlayed = currentMillis; Serial.print("Memory: "); Serial.print(AudioMemoryUsage()); Serial.print(","); Serial.print(AudioMemoryUsageMax()); Serial.println(); } } delay(10); } namespace std { void __throw_bad_function_call() {} void __throw_length_error(char const*) {} }