ref: fcda8e4a7dca01b8ac73219d7cc38aee6d3de318
dir: /TestPlugin/Source/MyTest.cpp/
/*
==============================================================================
FM.c
Created: 23 Jan 2017 9:39:38am
Author: Michael R Mulshine
==============================================================================
*/
#include "LEAFTest.h"
#include "MyTest.h"
static void leaf_pool_report(void);
static void leaf_pool_dump(void);
static void run_pool_test(void);
tNoise noise;
tSVF bp1;
tSVF bp2;
tFormantShifter fs;
tSampler samp;
tBuffer buff;
tEnvelope env;
tAutotune at;
tPhasor phasor;
tHighpass hipass;
tMBSaw bsaw;
tMBTriangle btri;
tMBPulse bpulse;
tPitchDetector detector;
tPeriodDetection pd;
tZeroCrossing zc;
tEnvelopeFollower ef;
float gain;
float dtime;
bool buttonState;
int ratio = 2;
float x = 0.0f;
float y = 0.0f;
float a, b, c, d;
float* bufIn;
float* bufOut;
#define MSIZE 500000
char memory[MSIZE];
void LEAFTest_init (float sampleRate, int blockSize)
{
LEAF_init(sampleRate, blockSize, memory, MSIZE, &getRandomFloat);
tMBSaw_init(&bsaw);
tMBTriangle_init(&btri);
tMBPulse_init(&bpulse);
bufIn = (float*) leaf_alloc(sizeof(float) * 4096);
bufOut = (float*) leaf_alloc(sizeof(float) * 4096);
// lowestFreq, highestFreq, hysteresis (width of hysteresis region around 0.0 for zero crossing detection)
tPitchDetector_init(&detector, mtof(48), mtof(84), 0.01f);
tPeriodDetection_init(&pd, bufIn, bufOut, 4096, 1024);
tZeroCrossing_init(&zc, 128);
tEnvelopeFollower_init(&ef, 0.02f, 0.9999f);
}
inline double getSawFall(double angle) {
angle = fmod(angle + double_Pi, 2*double_Pi); // shift x
double sample = angle/double_Pi - double(1); // computer as remainder
return sample;
}
float LEAFTest_tick (float input)
{
// tMBSaw_setFreq(&bsaw, x);
// tMBTriangle_setFreq(&btri, x);
// tMBPulse_setFreq(&bpulse, x);
//
// tMBTriangle_setWidth(&btri, y);
// tMBPulse_setWidth(&bpulse, y);
//
//// return tMBSaw_tick(&bsaw);
//// return tMBTriangle_tick(&btri);
// return tMBPulse_tick(&bpulse);
if (x > 0.5)
{
tPitchDetector_tick(&detector, input);
if (tPitchDetector_getPeriodicity(&detector) > 0.99 && (tZeroCrossing_tick(&zc, input) < 0.05))
{
float freq = tPitchDetector_getFrequency(&detector);
if (freq != 0.0f)
tMBTriangle_setFreq(&btri, freq);
}
}
else
{
float freq = 1.0f/tPeriodDetection_tick(&pd, input) * leaf.sampleRate;
if (tZeroCrossing_tick(&zc, input) < 0.05)
tMBTriangle_setFreq(&btri, freq);
}
float g = tEnvelopeFollower_tick(&ef, input);
return input + tMBTriangle_tick(&btri) * g * 10.0f;
}
int firstFrame = 1;
bool lastState = false, lastPlayState = false;
void LEAFTest_block (void)
{
DBG(tPitchDetector_getFrequency(&detector));
DBG(tPitchDetector_getPeriodicity(&detector));
// if (firstFrame == 1)
// {
// tBuffer_record(&buff); // starts recording
// tSampler_play(&samp); // start spitting samples out
// firstFrame = 0;
// }
float val = getSliderValue("mod freq");
x = val;
// a = val * tBuffer_getBufferLength(&buff);
// DBG("start: " + String(a));
val = getSliderValue("mod depth");
y = val * 2.0f - 1.0f;
// DBG(String(y));
// b = val * tBuffer_getBufferLength(&buff);
// DBG("rate: " + String(b));
//
// tSampler_setStart(&samp, a);
// tSampler_setEnd(&samp, b);
// tSampler_setRate(&samp, b);
// tFormantShifter_setShiftFactor(&fs, x);
// tFormantShifter_setIntensity(&fs, y);
}
void LEAFTest_controllerInput (int cnum, float cval)
{
}
void LEAFTest_pitchBendInput (int pitchBend)
{
}
int lastNote;
void LEAFTest_noteOn (int note, float velocity)
{
}
void LEAFTest_noteOff (int note)
{
}
void LEAFTest_end (void)
{
}
// LEAF POOL UTILITIES
void leaf_pool_report(void)
{
DBG(String(leaf_pool_get_used()) + " of " + String(leaf_pool_get_size()));
}
void leaf_pool_dump(void)
{
float* buff = (float*)leaf_pool_get_pool();
unsigned long siz = leaf_pool_get_size();
siz /= sizeof(float);
for (int i = 0; i < siz; i++)
{
DBG(String(buff[i]));
}
}
static void run_pool_test(void)
{
leaf_pool_report();
DBG("ALLOC BUFFER 1");
int size = 50;
float* buffer;
buffer = (float*) leaf_alloc(sizeof(float) * size);
for (int i = 0; i < size; i++)
{
buffer[i] = (float)i;
}
leaf_pool_report();
DBG("ALLOC BUFFER 2");
size = 25;
buffer = (float*) leaf_alloc(sizeof(float) * size);
leaf_pool_report();
for (int i = 0; i < size; i++)
{
buffer[i] = (float)(i*2);
}
leaf_free((char*)buffer);
leaf_pool_report();
DBG("ALLOC BUFFER 3");
size = 15;
buffer = (float*) leaf_alloc(sizeof(float) * size);
for (int i = 0; i < size; i++)
{
buffer[i] = (float)(i*3);
}
leaf_pool_report();
leaf_pool_dump();
}