ref: 3e8b48269bcafe4574c93ada7f67f3a7652b2479
dir: /LEAF/Src/leaf-pitch.c/
/*
==============================================================================
leaf-pitch.cpp
Created: 30 Nov 2018 11:02:59am
Author: airship
==============================================================================
*/
#if _WIN32 || _WIN64
#include "..\Inc\leaf-pitch.h"
#else
#include "../Inc/leaf-pitch.h"
#endif
static int pitchshifter_attackdetect(tPitchShifter* ps);
void tPitchShifter_init(tPitchShifter* const ps, float* in, float* out, int bufSize, int frameSize)
{
ps->inBuffer = in;
ps->outBuffer = out;
ps->bufSize = bufSize;
ps->frameSize = frameSize;
ps->framesPerBuffer = ps->bufSize / ps->frameSize;
ps->curBlock = 1;
ps->lastBlock = 0;
ps->index = 0;
ps->hopSize = DEFHOPSIZE;
ps->windowSize = DEFWINDOWSIZE;
ps->fba = FBA;
tEnv_init(&ps->env, ps->windowSize, ps->hopSize, ps->frameSize);
tSNAC_init(&ps->snac, DEFOVERLAP);
tSOLAD_init(&ps->sola);
tHighpass_init(&ps->hp, HPFREQ);
tSOLAD_setPitchFactor(&ps->sola, DEFPITCHRATIO);
tPitchShifter_setTimeConstant(ps, DEFTIMECONSTANT);
}
void tPitchShifter_free(tPitchShifter* const ps)
{
tEnv_free(&ps->env);
tSNAC_free(&ps->snac);
tSOLAD_free(&ps->sola);
tHighpass_free(&ps->hp);
leaf_free(ps);
}
float tPitchShifter_tick(tPitchShifter* ps, float sample)
{
float period, out;
int i, iLast;
i = (ps->curBlock*ps->frameSize);
iLast = (ps->lastBlock*ps->frameSize)+ps->index;
out = tHighpass_tick(&ps->hp, ps->outBuffer[iLast]);
ps->inBuffer[i+ps->index] = sample;
ps->index++;
if (ps->index >= ps->frameSize)
{
ps->index = 0;
tEnv_processBlock(&ps->env, &(ps->inBuffer[i]));
if(pitchshifter_attackdetect(ps) == 1)
{
ps->fba = 5;
tSOLAD_setReadLag(&ps->sola, ps->windowSize);
}
tSNAC_ioSamples(&ps->snac, &(ps->inBuffer[i]), &(ps->outBuffer[i]), ps->frameSize);
period = tSNAC_getPeriod(&ps->snac);
ps->curBlock++;
if (ps->curBlock >= ps->framesPerBuffer) ps->curBlock = 0;
ps->lastBlock++;
if (ps->lastBlock >= ps->framesPerBuffer) ps->lastBlock = 0;
//separate here
tSOLAD_setPeriod(&ps->sola, period);
tSOLAD_setPitchFactor(&ps->sola, ps->pitchFactor);
tSOLAD_ioSamples(&ps->sola, &(ps->inBuffer[i]), &(ps->outBuffer[i]), ps->frameSize);
}
return out;
}
float tPitchShifterToFreq_tick(tPitchShifter* ps, float sample, float freq)
{
float period, out;
int i, iLast;
i = (ps->curBlock*ps->frameSize);
iLast = (ps->lastBlock*ps->frameSize)+ps->index;
out = tHighpass_tick(&ps->hp, ps->outBuffer[iLast]);
ps->inBuffer[i+ps->index] = sample;
ps->index++;
if (ps->index >= ps->frameSize)
{
ps->index = 0;
tEnv_processBlock(&ps->env, &(ps->inBuffer[i]));
if(pitchshifter_attackdetect(ps) == 1)
{
ps->fba = 5;
tSOLAD_setReadLag(&ps->sola, ps->windowSize);
}
tSNAC_ioSamples(&ps->snac, &(ps->inBuffer[i]), &(ps->outBuffer[i]), ps->frameSize);
period = tSNAC_getPeriod(&ps->snac);
tSOLAD_setPeriod(&ps->sola, period);
ps->pitchFactor = period*freq*leaf.invSampleRate;
tSOLAD_setPitchFactor(&ps->sola, ps->pitchFactor);
tSOLAD_ioSamples(&ps->sola, &(ps->inBuffer[i]), &(ps->outBuffer[i]), ps->frameSize);
ps->curBlock++;
if (ps->curBlock >= ps->framesPerBuffer) ps->curBlock = 0;
ps->lastBlock++;
if (ps->lastBlock >= ps->framesPerBuffer) ps->lastBlock = 0;
}
return out;
}
float tPitchShifterToFunc_tick(tPitchShifter* ps, float sample, float (*fun)(float))
{
float period, out;
int i, iLast;
i = (ps->curBlock*ps->frameSize);
iLast = (ps->lastBlock*ps->frameSize)+ps->index;
out = tHighpass_tick(&ps->hp, ps->outBuffer[iLast]);
ps->inBuffer[i+ps->index] = sample;
ps->index++;
if (ps->index >= ps->frameSize)
{
ps->index = 0;
tEnv_processBlock(&ps->env, &(ps->inBuffer[i]));
if(pitchshifter_attackdetect(ps) == 1)
{
ps->fba = 5;
tSOLAD_setReadLag(&ps->sola, ps->windowSize);
}
tSNAC_ioSamples(&ps->snac, (&ps->inBuffer[i]), &(ps->outBuffer[i]), ps->frameSize);
period = tSNAC_getPeriod(&ps->snac);
tSOLAD_setPeriod(&ps->sola, period);
ps->pitchFactor = period/fun(period);
tSOLAD_setPitchFactor(&ps->sola, ps->pitchFactor);
tSOLAD_ioSamples(&ps->sola, &(ps->inBuffer[i]), &(ps->outBuffer[i]), ps->frameSize);
ps->curBlock++;
if (ps->curBlock >= ps->framesPerBuffer) ps->curBlock = 0;
ps->lastBlock++;
if (ps->lastBlock >= ps->framesPerBuffer) ps->lastBlock = 0;
}
return out;
}
void tPitchShifter_ioSamples(tPitchShifter* ps, float* in, float* out, int size)
{
float period;
tEnv_processBlock(&ps->env, in);
if(pitchshifter_attackdetect(ps) == 1)
{
ps->fba = 5;
tSOLAD_setReadLag(&ps->sola, ps->windowSize);
}
tSNAC_ioSamples(&ps->snac, in, out, size);
period = tSNAC_getPeriod(&ps->snac);
tSOLAD_setPeriod(&ps->sola, period);
tSOLAD_setPitchFactor(&ps->sola, ps->pitchFactor);
tSOLAD_ioSamples(&ps->sola, in, out, size);
for (int cc = 0; cc < size; ++cc)
{
out[cc] = tHighpass_tick(&ps->hp, out[cc]);
}
}
void tPitchShifter_ioSamples_toFreq(tPitchShifter* ps, float* in, float* out, int size, float toFreq)
{
float period;
tEnv_processBlock(&ps->env, in);
if(pitchshifter_attackdetect(ps) == 1)
{
ps->fba = 5;
tSOLAD_setReadLag(&ps->sola, ps->windowSize);
}
tSNAC_ioSamples(&ps->snac, in, out, size);
period = tSNAC_getPeriod(&ps->snac);
tSOLAD_setPeriod(&ps->sola, period);
ps->pitchFactor = period*toFreq;
tSOLAD_setPitchFactor(&ps->sola, ps->pitchFactor);
tSOLAD_ioSamples(&ps->sola, in, out, size);
for (int cc = 0; cc < size; ++cc)
{
out[cc] = tHighpass_tick(&ps->hp, out[cc]);
}
}
void tPitchShifter_ioSamples_toPeriod(tPitchShifter* ps, float* in, float* out, int size, float toPeriod)
{
float period;
tEnv_processBlock(&ps->env, in);
if(pitchshifter_attackdetect(ps) == 1)
{
ps->fba = 5;
tSOLAD_setReadLag(&ps->sola, ps->windowSize);
}
tSNAC_ioSamples(&ps->snac, in, out, size);
period = tSNAC_getPeriod(&ps->snac);
tSOLAD_setPeriod(&ps->sola, period);
ps->pitchFactor = period/toPeriod;
tSOLAD_setPitchFactor(&ps->sola, ps->pitchFactor);
tSOLAD_ioSamples(&ps->sola, in, out, size);
for (int cc = 0; cc < size; ++cc)
{
out[cc] = tHighpass_tick(&ps->hp, out[cc]);
}
}
void tPitchShifter_ioSamples_toFunc(tPitchShifter* ps, float* in, float* out, int size, float (*fun)(float))
{
float period;
tEnv_processBlock(&ps->env, in);
if(pitchshifter_attackdetect(ps) == 1)
{
ps->fba = 5;
tSOLAD_setReadLag(&ps->sola, ps->windowSize);
}
tSNAC_ioSamples(&ps->snac, in, out, size);
period = tSNAC_getPeriod(&ps->snac);
tSOLAD_setPeriod(&ps->sola, period);
ps->pitchFactor = period/fun(period);
tSOLAD_setPitchFactor(&ps->sola, ps->pitchFactor);
tSOLAD_ioSamples(&ps->sola, in, out, size);
for (int cc = 0; cc < size; ++cc)
{
out[cc] = tHighpass_tick(&ps->hp, out[cc]);
}
}
void tPitchShifter_setPitchFactor(tPitchShifter* ps, float pf)
{
ps->pitchFactor = pf;
}
void tPitchShifter_setTimeConstant(tPitchShifter* ps, float tc)
{
ps->timeConstant = tc;
ps->radius = expf(-1000.0f * ps->hopSize * leaf.invSampleRate / ps->timeConstant);
}
void tPitchShifter_setHopSize(tPitchShifter* ps, int hs)
{
ps->hopSize = hs;
}
void tPitchShifter_setWindowSize(tPitchShifter* ps, int ws)
{
ps->windowSize = ws;
}
float tPitchShifter_getPeriod(tPitchShifter* ps)
{
return tSNAC_getPeriod(&ps->snac);
}
static int pitchshifter_attackdetect(tPitchShifter* ps)
{
float envout;
envout = tEnv_tick(&ps->env);
if (envout >= 1.0f)
{
ps->lastmax = ps->max;
if (envout > ps->max)
{
ps->max = envout;
}
else
{
ps->deltamax = envout - ps->max;
ps->max = ps->max * ps->radius;
}
ps->deltamax = ps->max - ps->lastmax;
}
ps->fba = ps->fba ? (ps->fba - 1) : 0;
return (ps->fba == 0 && (ps->max > 60 && ps->deltamax > 6)) ? 1 : 0;
}
void tPeriod_init (tPeriod* const p, float* in, float* out, int bufSize, int frameSize)
{
p->inBuffer = in;
p->outBuffer = out;
p->bufSize = bufSize;
p->frameSize = frameSize;
p->framesPerBuffer = p->bufSize / p->frameSize;
p->curBlock = 1;
p->lastBlock = 0;
p->index = 0;
p->hopSize = DEFHOPSIZE;
p->windowSize = DEFWINDOWSIZE;
p->fba = FBA;
tEnv_init(&p->env, p->windowSize, p->hopSize, p->frameSize);
tSNAC_init(&p->snac, DEFOVERLAP);
p->timeConstant = DEFTIMECONSTANT;
p->radius = expf(-1000.0f * p->hopSize * leaf.invSampleRate / p->timeConstant);
}
void tPeriod_free (tPeriod* const p)
{
tEnv_free(&p->env);
tSNAC_free(&p->snac);
leaf_free(p);
}
float tPeriod_findPeriod (tPeriod* p, float sample)
{
float period;
int i, iLast;
i = (p->curBlock*p->frameSize);
iLast = (p->lastBlock*p->frameSize)+p->index;
p->i = i;
p->iLast = iLast;
p->inBuffer[i+p->index] = sample;
p->index++;
p->indexstore = p->index;
if (p->index >= p->frameSize)
{
p->index = 0;
tEnv_processBlock(&p->env, &(p->inBuffer[i]));
tSNAC_ioSamples(&p->snac, &(p->inBuffer[i]), &(p->outBuffer[i]), p->frameSize);
p->period = tSNAC_getPeriod(&p->snac);
p->curBlock++;
if (p->curBlock >= p->framesPerBuffer) p->curBlock = 0;
p->lastBlock++;
if (p->lastBlock >= p->framesPerBuffer) p->lastBlock = 0;
}
// changed from period to p->period
return p->period;
}
void tPeriod_setHopSize(tPeriod* p, int hs)
{
p->hopSize = hs;
}
void tPeriod_setWindowSize(tPeriod* p, int ws)
{
p->windowSize = ws;
}
void tPitchShift_setPitchFactor(tPitchShift* ps, float pf)
{
ps->pitchFactor = pf;
}
static int pitchshift_attackdetect(tPitchShift* ps)
{
float envout;
envout = tEnv_tick(&ps->p->env);
if (envout >= 1.0f)
{
ps->p->lastmax = ps->p->max;
if (envout > ps->p->max)
{
ps->p->max = envout;
}
else
{
ps->p->deltamax = envout - ps->p->max;
ps->p->max = ps->p->max * ps->radius;
}
ps->p->deltamax = ps->p->max - ps->p->lastmax;
}
ps->p->fba = ps->p->fba ? (ps->p->fba - 1) : 0;
return (ps->p->fba == 0 && (ps->p->max > 60 && ps->p->deltamax > 6)) ? 1 : 0;
}
void tPitchShift_init (tPitchShift* const ps, tPeriod* p, float* out, int bufSize)
{
ps->p = p;
ps->outBuffer = out;
ps->bufSize = bufSize;
ps->frameSize = p->frameSize;
ps->framesPerBuffer = ps->bufSize / ps->frameSize;
ps->curBlock = 1;
ps->lastBlock = 0;
ps->index = 0;
ps->pitchFactor = 1.0f;
tSOLAD_init(&ps->sola);
tHighpass_init(&ps->hp, HPFREQ);
tSOLAD_setPitchFactor(&ps->sola, DEFPITCHRATIO);
}
void tPitchShift_free(tPitchShift* const ps)
{
tSOLAD_free(&ps->sola);
tHighpass_free(&ps->hp);
leaf_free(ps);
}
float tPitchShift_shift (tPitchShift* ps)
{
float period, out;
int i, iLast;
i = ps->p->i;
iLast = ps->p->iLast;
out = tHighpass_tick(&ps->hp, ps->outBuffer[iLast]);
if (ps->p->indexstore >= ps->frameSize)
{
period = ps->p->period;
if(pitchshift_attackdetect(ps) == 1)
{
ps->p->fba = 5;
tSOLAD_setReadLag(&ps->sola, ps->p->windowSize);
}
tSOLAD_setPeriod(&ps->sola, period);
tSOLAD_setPitchFactor(&ps->sola, ps->pitchFactor);
tSOLAD_ioSamples(&ps->sola, &(ps->p->inBuffer[i]), &(ps->outBuffer[i]), ps->frameSize);
}
return out;
}
float tPitchShift_shiftToFreq (tPitchShift* ps, float freq)
{
float period, out;
int i, iLast;
i = ps->p->i;
iLast = ps->p->iLast;
out = tHighpass_tick(&ps->hp, ps->outBuffer[iLast]);
if (ps->p->indexstore >= ps->frameSize)
{
period = ps->p->period;
if(pitchshift_attackdetect(ps) == 1)
{
ps->p->fba = 5;
tSOLAD_setReadLag(&ps->sola, ps->p->windowSize);
}
tSOLAD_setPeriod(&ps->sola, period);
ps->pitchFactor = period*freq*leaf.invSampleRate;
tSOLAD_setPitchFactor(&ps->sola, ps->pitchFactor);
tSOLAD_ioSamples(&ps->sola, &(ps->p->inBuffer[i]), &(ps->outBuffer[i]), ps->frameSize);
}
return out;
}
float tPitchShift_shiftToFunc (tPitchShift* ps, float (*fun)(float))
{
float period, out;
int i, iLast;
i = ps->p->i;
iLast = ps->p->iLast;
out = tHighpass_tick(&ps->hp, ps->outBuffer[iLast]);
if (ps->p->indexstore >= ps->frameSize)
{
period = ps->p->period;
if(pitchshift_attackdetect(ps) == 1)
{
ps->p->fba = 5;
tSOLAD_setReadLag(&ps->sola, ps->p->windowSize);
}
tSOLAD_setPeriod(&ps->sola, period);
ps->pitchFactor = period/fun(period);
tSOLAD_setPitchFactor(&ps->sola, ps->pitchFactor);
tSOLAD_ioSamples(&ps->sola, &(ps->p->inBuffer[i]), &(ps->outBuffer[i]), ps->frameSize);
ps->curBlock++;
if (ps->curBlock >= ps->p->framesPerBuffer) ps->curBlock = 0;
ps->lastBlock++;
if (ps->lastBlock >= ps->framesPerBuffer) ps->lastBlock = 0;
}
return out;
}