78 lines
2.2 KiB
C++
78 lines
2.2 KiB
C++
#include <mutex>
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#include "AudioThread.h"
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#include "SharedState.h"
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#include <I2S.h>
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#include <math.h>
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#include "synth_engine.h"
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// I2S Pin definitions
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// You may need to change these to match your hardware setup (e.g., for a specific DAC).
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const int I2S_BCLK_PIN = 9; // Bit Clock (GP9)
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const int I2S_LRC_PIN = 10; // Left-Right Clock (GP10)
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const int I2S_DOUT_PIN = 11; // Data Out (GP11)
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// Audio parameters
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const int SAMPLE_RATE = 44100;
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const int16_t AMPLITUDE = 16383; // Use a lower amplitude to avoid clipping (max is 32767 for 16-bit)
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// Create an I2S output object
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I2S i2s(OUTPUT);
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extern SynthEngine* globalSynth;
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// --- Synthesizer State ---
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float currentFrequency = 440.0f;
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double phase = 0.0;
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unsigned long lastNoteChangeTime = 0;
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// ---
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void setupAudio() {
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// Configure I2S pins
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i2s.setBCLK(I2S_BCLK_PIN);
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i2s.setDATA(I2S_DOUT_PIN);
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// Set the sample rate and start I2S communication
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i2s.setFrequency(SAMPLE_RATE);
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if (!i2s.begin()) {
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Serial.println("Failed to initialize I2S!");
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while (1); // Halt on error
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}
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// Seed the random number generator from an unconnected analog pin
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randomSeed(analogRead(A0));
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// Initialize the portable synth engine
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globalSynth = new SynthEngine(SAMPLE_RATE);
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}
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void loopAudio() {
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unsigned long now = millis();
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// Every 500ms, pick a new random note to play
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if (now - lastNoteChangeTime > 500) {
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lastNoteChangeTime = now;
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int noteIndex = random(0, SCALES[currentScaleIndex].numNotes);
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// Calculate frequency based on key, scale, and octave
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const float baseFrequency = 261.63f; // C4
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float keyFrequency = baseFrequency * pow(2.0f, currentKeyIndex / 12.0f);
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int semitoneOffset = SCALES[currentScaleIndex].semitones[noteIndex];
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currentFrequency = keyFrequency * pow(2.0f, semitoneOffset / 12.0f);
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if (globalSynth) {
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globalSynth->setFrequency(currentFrequency);
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globalSynth->setGate(true); // Trigger envelope
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}
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Serial.println("Playing note: " + String(currentFrequency) + " Hz");
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}
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// Process a small batch of samples
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int16_t samples[32];
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if (globalSynth) globalSynth->process(samples, 32);
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else memset(samples, 0, sizeof(samples));
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for (int i = 0; i < 32; ++i) {
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i2s.write(samples[i]);
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i2s.write(samples[i]);
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}
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} |