ref: ba8d069318626309a2f7175f5f0e2a68453c879e
dir: /LEAF/Src_cpp/leaf-reverb.cpp/
/*
==============================================================================
LEAFReverb.c
Created: 20 Jan 2017 12:02:04pm
Author: Michael R Mulshine
==============================================================================
*/
#if _WIN32 || _WIN64
#include "..\Inc\leaf-reverb.h"
#include "..\leaf.h"
#else
#include "../Inc/leaf-reverb.h"
#include "../leaf.h"
#endif
// ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ PRCRev ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ //
void tPRCRev_init(tPRCRev* const r, float t60)
{
if (t60 <= 0.0f) t60 = 0.001f;
r->inv_441 = 1.0f/44100.0f;
int lengths[4] = { 341, 613, 1557, 2137 }; // Delay lengths for 44100 Hz sample rate.
double scaler = leaf.sampleRate * r->inv_441;
int delay, i;
if (scaler != 1.0f)
{
for (i=0; i<4; i++)
{
delay = (int) scaler * lengths[i];
if ( (delay & 1) == 0) delay++;
while ( !LEAF_isPrime(delay) ) delay += 2;
lengths[i] = delay;
}
}
r->allpassDelays[0] = (tDelay*) leaf_alloc(sizeof(tDelay));
tDelay_init(r->allpassDelays[0], lengths[0], lengths[0] * 2);
r->allpassDelays[1] = (tDelay*) leaf_alloc(sizeof(tDelay));
tDelay_init(r->allpassDelays[1], lengths[1], lengths[1] * 2);
r->combDelay = (tDelay*) leaf_alloc(sizeof(tDelay));
tDelay_init(r->combDelay, lengths[2], lengths[2] * 2);
tPRCRev_setT60(r, t60);
r->allpassCoeff = 0.7f;
r->mix = 0.5f;
}
void tPRCRev_free(tPRCRev* const r)
{
tDelay_free(r->allpassDelays[0]);
tDelay_free(r->allpassDelays[1]);
tDelay_free(r->combDelay);
leaf_free(r);
}
void tPRCRev_setT60(tPRCRev* const r, float t60)
{
if ( t60 <= 0.0f ) t60 = 0.001f;
r->t60 = t60;
r->combCoeff = pow(10.0f, (-3.0f * tDelay_getDelay(r->combDelay) * leaf.invSampleRate / t60 ));
}
void tPRCRev_setMix(tPRCRev* const r, float mix)
{
r->mix = mix;
}
float tPRCRev_tick(tPRCRev* const r, float input)
{
float temp, temp0, temp1, temp2;
float out;
r->lastIn = input;
temp = tDelay_getLastOut(r->allpassDelays[0]);
temp0 = r->allpassCoeff * temp;
temp0 += input;
tDelay_tick(r->allpassDelays[0], temp0);
temp0 = -( r->allpassCoeff * temp0) + temp;
temp = tDelay_getLastOut(r->allpassDelays[1]);
temp1 = r->allpassCoeff * temp;
temp1 += temp0;
tDelay_tick(r->allpassDelays[1], temp1);
temp1 = -(r->allpassCoeff * temp1) + temp;
temp2 = temp1 + ( r->combCoeff * tDelay_getLastOut(r->combDelay));
out = r->mix * tDelay_tick(r->combDelay, temp2);
temp = (1.0f - r->mix) * input;
out += temp;
r->lastOut = out;
return out;
}
void tPRCRevSampleRateChanged (tPRCRev* const r)
{
r->combCoeff = pow(10.0f, (-3.0f * tDelay_getDelay(r->combDelay) * leaf.invSampleRate / r->t60 ));
}
/* ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ NRev ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ */
void tNRev_init(tNRev* const r, float t60)
{
if (t60 <= 0.0f) t60 = 0.001f;
r->inv_441 = 1.0f/44100.0f;
int lengths[15] = {1433, 1601, 1867, 2053, 2251, 2399, 347, 113, 37, 59, 53, 43, 37, 29, 19}; // Delay lengths for 44100 Hz sample rate.
double scaler = leaf.sampleRate / 25641.0f;
int delay, i;
for (i=0; i < 15; i++)
{
delay = (int) scaler * lengths[i];
if ( (delay & 1) == 0)
delay++;
while ( !LEAF_isPrime(delay) )
delay += 2;
lengths[i] = delay;
}
for ( i=0; i<6; i++ )
{
r->combDelays[i] = (tDelay*) leaf_alloc(sizeof(tDelay));
tDelay_init(r->combDelays[i], lengths[i], lengths[i] * 2.0f);
r->combCoeffs[i] = pow(10.0, (-3 * lengths[i] * leaf.invSampleRate / t60));
}
for ( i=0; i<8; i++ )
{
r->allpassDelays[i] = (tDelay*) leaf_alloc(sizeof(tDelay));
tDelay_init(r->allpassDelays[i], lengths[i+6], lengths[i+6] * 2.0f);
}
for ( i=0; i<2; i++ )
{
tDelay_setDelay(r->allpassDelays[i], lengths[i]);
tDelay_setDelay(r->combDelays[i], lengths[i+2]);
}
tNRev_setT60(r, t60);
r->allpassCoeff = 0.7f;
r->mix = 0.3f;
}
void tNRev_free(tNRev* const r)
{
for (int i = 0; i < 6; i++)
{
tDelay_free(r->combDelays[i]);
}
for (int i = 0; i < 8; i++)
{
tDelay_free(r->allpassDelays[i]);
}
leaf_free(r);
}
void tNRev_setT60(tNRev* const r, float t60)
{
if (t60 <= 0.0f) t60 = 0.001f;
r->t60 = t60;
for (int i=0; i<6; i++) r->combCoeffs[i] = pow(10.0, (-3.0 * tDelay_getDelay(r->combDelays[i]) * leaf.invSampleRate / t60 ));
}
void tNRev_setMix(tNRev* const r, float mix)
{
r->mix = mix;
}
float tNRev_tick(tNRev* const r, float input)
{
r->lastIn = input;
float temp, temp0, temp1, temp2, out;
int i;
temp0 = 0.0;
for ( i=0; i<6; i++ )
{
temp = input + (r->combCoeffs[i] * tDelay_getLastOut(r->combDelays[i]));
temp0 += tDelay_tick(r->combDelays[i],temp);
}
for ( i=0; i<3; i++ )
{
temp = tDelay_getLastOut(r->allpassDelays[i]);
temp1 = r->allpassCoeff * temp;
temp1 += temp0;
tDelay_tick(r->allpassDelays[i], temp1);
temp0 = -(r->allpassCoeff * temp1) + temp;
}
// One-pole lowpass filter.
r->lowpassState = 0.7f * r->lowpassState + 0.3f * temp0;
temp = tDelay_getLastOut(r->allpassDelays[3]);
temp1 = r->allpassCoeff * temp;
temp1 += r->lowpassState;
tDelay_tick(r->allpassDelays[3], temp1 );
temp1 = -(r->allpassCoeff * temp1) + temp;
temp = tDelay_getLastOut(r->allpassDelays[4]);
temp2 = r->allpassCoeff * temp;
temp2 += temp1;
tDelay_tick(r->allpassDelays[4], temp2 );
out = r->mix * ( -( r->allpassCoeff * temp2 ) + temp );
/*
temp = tDelayLGetLastOut(&r->allpassDelays[5]);
temp3 = r->allpassCoeff * temp;
temp3 += temp1;
tDelayLTick(&r->allpassDelays[5], temp3 );
lastFrame_[1] = effectMix_*( - ( r->allpassCoeff * temp3 ) + temp );
*/
temp = ( 1.0f - r->mix ) * input;
out += temp;
r->lastOut = out;
return out;
}
void tNRevSampleRateChanged (tNRev* const r)
{
for (int i=0; i<6; i++) r->combCoeffs[i] = pow(10.0, (-3.0 * tDelay_getDelay(r->combDelays[i]) * leaf.invSampleRate / r->t60 ));
}