Mercurial > hg > beaglert
view examples/10-Instruments/d-box/FeedbackOscillator.cpp @ 464:8fcfbfb32aa0 prerelease
Examples reorder with subdirectories. Added header to each project. Moved Doxygen to bottom of render.cpp.
| author | Robert Jack <robert.h.jack@gmail.com> |
|---|---|
| date | Mon, 20 Jun 2016 16:20:38 +0100 |
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/* * FeedbackOscillator.cpp * * Recursive phase-shift oscillator implemented * on the matrix * * Andrew McPherson 2014 */ #include "FeedbackOscillator.h" #include <cstdlib> #include <cmath> #define COEFF_B0 0 #define COEFF_B1 1 #define COEFF_A1 2 FeedbackOscillator::FeedbackOscillator() : wavetable1(0), wavetable2(0) { } FeedbackOscillator::~FeedbackOscillator() { if(wavetable1 != 0) free(wavetable1); if(wavetable2 != 0) free(wavetable2); } // Initialise the settings for the feedback oscillator void FeedbackOscillator::initialise(int maxTableSize, float hpfCutoffFrequency, float matrixSampleRate) { wavetableMaxLength = maxTableSize; if(wavetable1 != 0) free(wavetable1); if(wavetable2 != 0) free(wavetable2); wavetable1 = (float *)malloc(maxTableSize * sizeof(float)); wavetable2 = (float *)malloc(maxTableSize * sizeof(float)); float omega = tan(M_PI * hpfCutoffFrequency / matrixSampleRate); float n = 1.0f / (1.0f + omega); coeffs[COEFF_A1] = (omega - 1.0f) * n; coeffs[COEFF_B0] = n; coeffs[COEFF_B1] = -n; for(int n = 0; n < maxTableSize; n++) wavetable1[n] = wavetable2[n] = 0; wavetableRead = wavetable1; wavetableWrite = wavetable2; wavetableWritePointer = 0; sampleCount = lastTriggerCount = 0; } // Process one sample and store the output value // Returns true if the wavetable needs rendering int FeedbackOscillator::process(float input, float *output) { float outFloat = coeffs[COEFF_B0] * input + coeffs[COEFF_B1] * lastInput - coeffs[COEFF_A1] * lastOutput; int requestRenderLength = 0; if(outFloat < -0.5) *output = 0; else if(outFloat > 0.5) *output = 1; else *output = outFloat + 0.5; if(canTrigger && outFloat > 0 && lastOutput <= 0) { triggered = true; requestRenderLength = wavetableWritePointer; // How many samples stored thus far? if(requestRenderLength < 4) requestRenderLength = 0; // Ignore anything with fewer than 4 points lastTriggerCount = sampleCount; canTrigger = false; wavetableWritePointer = 0; // Swap buffers float *temp = wavetableWrite; wavetableWrite = wavetableRead; wavetableRead = temp; } if(triggered) { wavetableWrite[wavetableWritePointer] = outFloat; if(++wavetableWritePointer >= wavetableMaxLength) { triggered = false; wavetableWritePointer = 0; } } if(sampleCount - lastTriggerCount > 40) canTrigger = true; sampleCount++; lastOutput = outFloat; lastInput = input; return requestRenderLength; }