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/* ========================================
* Deckwrecka - Deckwrecka.h
* Copyright (c) 2016 airwindows, All rights reserved
* ======================================== */
#ifndef __Deckwrecka_H
#include "Deckwrecka.h"
#endif
void Deckwrecka::processReplacing(float **inputs, float **outputs, VstInt32 sampleFrames)
{
float* in1 = inputs[0];
float* in2 = inputs[1];
float* out1 = outputs[0];
float* out2 = outputs[1];
double overallscale = 1.0;
overallscale /= 44100.0;
overallscale *= getSampleRate();
double wreck = pow(A,2);
double randyL;
double randyR;
double HeadBumpL = 0.0;
double HeadBumpR = 0.0;
double HeadBumpFreq = 0.01/overallscale;
double iirHPAmount = 0.0000014/overallscale;
double altHPAmount = 1.0 - iirHPAmount;
double tempSample;
double bridgerectifier;
double correction;
while (--sampleFrames >= 0)
{
long double inputSampleL = *in1;
long double inputSampleR = *in2;
if (fabs(inputSampleL)<1.18e-37) inputSampleL = fpd * 1.18e-37;
if (fabs(inputSampleR)<1.18e-37) inputSampleR = fpd * 1.18e-37;
bflip++;
if (bflip < 1 || bflip > 3) bflip = 1;
randyL = (rand()/(double)RAND_MAX);
randyL += (rand()/(double)RAND_MAX);
randyL += (rand()/(double)RAND_MAX);
randyL += (rand()/(double)RAND_MAX);
randyL += (rand()/(double)RAND_MAX);
randyL += (rand()/(double)RAND_MAX);
randyL /= 6.0;
randyL *= wreck; //0 to 1 the noise, may not be needed
//set up the noise
randyR = (rand()/(double)RAND_MAX);
randyR += (rand()/(double)RAND_MAX);
randyR += (rand()/(double)RAND_MAX);
randyR += (rand()/(double)RAND_MAX);
randyR += (rand()/(double)RAND_MAX);
randyR += (rand()/(double)RAND_MAX);
randyR /= 6.0;
randyR *= wreck; //0 to 1 the noise, may not be needed
//set up the noise
switch (bflip)
{
case 1:
iirHeadBumpAL += (inputSampleL * randyL);
iirHeadBumpAL -= (iirHeadBumpAL * iirHeadBumpAL * iirHeadBumpAL * HeadBumpFreq);
iirHeadBumpAR += (inputSampleR * randyR);
iirHeadBumpAR -= (iirHeadBumpAR * iirHeadBumpAR * iirHeadBumpAR * HeadBumpFreq);
break;
case 2:
iirHeadBumpBL += (inputSampleL * randyL);
iirHeadBumpBL -= (iirHeadBumpBL * iirHeadBumpBL * iirHeadBumpBL * HeadBumpFreq);
iirHeadBumpBR += (inputSampleR * randyR);
iirHeadBumpBR -= (iirHeadBumpBR * iirHeadBumpBR * iirHeadBumpBR * HeadBumpFreq);
break;
case 3:
iirHeadBumpCL += (inputSampleL * randyL);
iirHeadBumpCL -= (iirHeadBumpCL * iirHeadBumpCL * iirHeadBumpCL * HeadBumpFreq);
iirHeadBumpCR += (inputSampleR * randyR);
iirHeadBumpCR -= (iirHeadBumpCR * iirHeadBumpCR * iirHeadBumpCR * HeadBumpFreq);
break;
}
HeadBumpL = iirHeadBumpAL + iirHeadBumpBL + iirHeadBumpCL;
HeadBumpR = iirHeadBumpAR + iirHeadBumpBR + iirHeadBumpCR;
tempSample = HeadBumpL;
iirSampleAL = (iirSampleAL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleAL; correction = iirSampleAL;
iirSampleBL = (iirSampleBL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleBL; correction += iirSampleBL;
iirSampleCL = (iirSampleCL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleCL; correction += iirSampleCL;
iirSampleDL = (iirSampleDL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleDL; correction += iirSampleDL;
iirSampleEL = (iirSampleEL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleEL; correction += iirSampleEL;
iirSampleFL = (iirSampleFL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleFL; correction += iirSampleFL;
iirSampleGL = (iirSampleGL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleGL; correction += iirSampleGL;
iirSampleHL = (iirSampleHL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleHL; correction += iirSampleHL;
iirSampleIL = (iirSampleIL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleIL; correction += iirSampleIL;
iirSampleJL = (iirSampleJL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleJL; correction += iirSampleJL;
iirSampleKL = (iirSampleKL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleKL; correction += iirSampleKL;
iirSampleLL = (iirSampleLL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleLL; correction += iirSampleLL;
iirSampleML = (iirSampleML * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleML; correction += iirSampleML;
iirSampleNL = (iirSampleNL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleNL; correction += iirSampleNL;
iirSampleOL = (iirSampleOL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleOL; correction += iirSampleOL;
iirSamplePL = (iirSamplePL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSamplePL; correction += iirSamplePL;
iirSampleQL = (iirSampleQL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleQL; correction += iirSampleQL;
iirSampleRL = (iirSampleRL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleRL; correction += iirSampleRL;
iirSampleSL = (iirSampleSL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleSL; correction += iirSampleSL;
iirSampleTL = (iirSampleTL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleTL; correction += iirSampleTL;
iirSampleUL = (iirSampleUL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleUL; correction += iirSampleUL;
iirSampleVL = (iirSampleVL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleVL; correction += iirSampleVL;
iirSampleWL = (iirSampleWL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleWL; correction += iirSampleWL;
iirSampleXL = (iirSampleXL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleXL; correction += iirSampleXL;
iirSampleYL = (iirSampleYL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleYL; correction += iirSampleYL;
iirSampleZL = (iirSampleZL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleZL; correction += iirSampleZL;
//do the IIR on a dummy sample, and store up the correction in a variable at the same scale as the very low level
//numbers being used. Don't keep doing it against the possibly high level signal number.
HeadBumpL -= correction;
//apply stored up tiny corrections
HeadBumpL *= (1.0 - (wreck/2));
tempSample = HeadBumpR;
iirSampleAR = (iirSampleAR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleAR; correction = iirSampleAR;
iirSampleBR = (iirSampleBR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleBR; correction += iirSampleBR;
iirSampleCR = (iirSampleCR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleCR; correction += iirSampleCR;
iirSampleDR = (iirSampleDR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleDR; correction += iirSampleDR;
iirSampleER = (iirSampleER * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleER; correction += iirSampleER;
iirSampleFR = (iirSampleFR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleFR; correction += iirSampleFR;
iirSampleGR = (iirSampleGR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleGR; correction += iirSampleGR;
iirSampleHR = (iirSampleHR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleHR; correction += iirSampleHR;
iirSampleIR = (iirSampleIR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleIR; correction += iirSampleIR;
iirSampleJR = (iirSampleJR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleJR; correction += iirSampleJR;
iirSampleKR = (iirSampleKR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleKR; correction += iirSampleKR;
iirSampleLR = (iirSampleLR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleLR; correction += iirSampleLR;
iirSampleMR = (iirSampleMR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleMR; correction += iirSampleMR;
iirSampleNR = (iirSampleNR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleNR; correction += iirSampleNR;
iirSampleOR = (iirSampleOR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleOR; correction += iirSampleOR;
iirSamplePR = (iirSamplePR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSamplePR; correction += iirSamplePR;
iirSampleQR = (iirSampleQR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleQR; correction += iirSampleQR;
iirSampleRR = (iirSampleRR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleRR; correction += iirSampleRR;
iirSampleSR = (iirSampleSR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleSR; correction += iirSampleSR;
iirSampleTR = (iirSampleTR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleTR; correction += iirSampleTR;
iirSampleUR = (iirSampleUR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleUR; correction += iirSampleUR;
iirSampleVR = (iirSampleVR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleVR; correction += iirSampleVR;
iirSampleWR = (iirSampleWR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleWR; correction += iirSampleWR;
iirSampleXR = (iirSampleXR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleXR; correction += iirSampleXR;
iirSampleYR = (iirSampleYR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleYR; correction += iirSampleYR;
iirSampleZR = (iirSampleZR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleZR; correction += iirSampleZR;
//do the IIR on a dummy sample, and store up the correction in a variable at the same scale as the very low level
//numbers being used. Don't keep doing it against the possibly high level signal number.
HeadBumpR -= correction;
//apply stored up tiny corrections
HeadBumpR *= (1.0 - (wreck/2));
bridgerectifier = fabs(HeadBumpL);
if (bridgerectifier > 1.57079633) bridgerectifier = 1.57079633;
//max value for sine function
bridgerectifier = sin(bridgerectifier);
if (HeadBumpL > 0.0) HeadBumpL = bridgerectifier;
else HeadBumpL = -bridgerectifier;
//clamp HeadBump to -1 to 1 with distortion
bridgerectifier = fabs(HeadBumpR);
if (bridgerectifier > 1.57079633) bridgerectifier = 1.57079633;
//max value for sine function
bridgerectifier = sin(bridgerectifier);
if (HeadBumpR > 0.0) HeadBumpR = bridgerectifier;
else HeadBumpR = -bridgerectifier;
//clamp HeadBump to -1 to 1 with distortion
inputSampleL *= (1.0 - wreck);
inputSampleL += (HeadBumpL * wreck);
inputSampleR *= (1.0 - wreck);
inputSampleR += (HeadBumpR * wreck);
//begin 32 bit stereo floating point dither
int expon; frexpf((float)inputSampleL, &expon);
fpd ^= fpd << 13; fpd ^= fpd >> 17; fpd ^= fpd << 5;
inputSampleL += ((double(fpd)-uint32_t(0x7fffffff)) * 5.5e-36l * pow(2,expon+62));
frexpf((float)inputSampleR, &expon);
fpd ^= fpd << 13; fpd ^= fpd >> 17; fpd ^= fpd << 5;
inputSampleR += ((double(fpd)-uint32_t(0x7fffffff)) * 5.5e-36l * pow(2,expon+62));
//end 32 bit stereo floating point dither
*out1 = inputSampleL;
*out2 = inputSampleR;
*in1++;
*in2++;
*out1++;
*out2++;
}
}
void Deckwrecka::processDoubleReplacing(double **inputs, double **outputs, VstInt32 sampleFrames)
{
double* in1 = inputs[0];
double* in2 = inputs[1];
double* out1 = outputs[0];
double* out2 = outputs[1];
double overallscale = 1.0;
overallscale /= 44100.0;
overallscale *= getSampleRate();
double wreck = pow(A,2);
double randyL;
double randyR;
double HeadBumpL = 0.0;
double HeadBumpR = 0.0;
double HeadBumpFreq = 0.01/overallscale;
double iirHPAmount = 0.0000014/overallscale;
double altHPAmount = 1.0 - iirHPAmount;
double tempSample;
double bridgerectifier;
double correction;
while (--sampleFrames >= 0)
{
long double inputSampleL = *in1;
long double inputSampleR = *in2;
if (fabs(inputSampleL)<1.18e-43) inputSampleL = fpd * 1.18e-43;
if (fabs(inputSampleR)<1.18e-43) inputSampleR = fpd * 1.18e-43;
bflip++;
if (bflip < 1 || bflip > 3) bflip = 1;
randyL = (rand()/(double)RAND_MAX);
randyL += (rand()/(double)RAND_MAX);
randyL += (rand()/(double)RAND_MAX);
randyL += (rand()/(double)RAND_MAX);
randyL += (rand()/(double)RAND_MAX);
randyL += (rand()/(double)RAND_MAX);
randyL /= 6.0;
randyL *= wreck; //0 to 1 the noise, may not be needed
//set up the noise
randyR = (rand()/(double)RAND_MAX);
randyR += (rand()/(double)RAND_MAX);
randyR += (rand()/(double)RAND_MAX);
randyR += (rand()/(double)RAND_MAX);
randyR += (rand()/(double)RAND_MAX);
randyR += (rand()/(double)RAND_MAX);
randyR /= 6.0;
randyR *= wreck; //0 to 1 the noise, may not be needed
//set up the noise
switch (bflip)
{
case 1:
iirHeadBumpAL += (inputSampleL * randyL);
iirHeadBumpAL -= (iirHeadBumpAL * iirHeadBumpAL * iirHeadBumpAL * HeadBumpFreq);
iirHeadBumpAR += (inputSampleR * randyR);
iirHeadBumpAR -= (iirHeadBumpAR * iirHeadBumpAR * iirHeadBumpAR * HeadBumpFreq);
break;
case 2:
iirHeadBumpBL += (inputSampleL * randyL);
iirHeadBumpBL -= (iirHeadBumpBL * iirHeadBumpBL * iirHeadBumpBL * HeadBumpFreq);
iirHeadBumpBR += (inputSampleR * randyR);
iirHeadBumpBR -= (iirHeadBumpBR * iirHeadBumpBR * iirHeadBumpBR * HeadBumpFreq);
break;
case 3:
iirHeadBumpCL += (inputSampleL * randyL);
iirHeadBumpCL -= (iirHeadBumpCL * iirHeadBumpCL * iirHeadBumpCL * HeadBumpFreq);
iirHeadBumpCR += (inputSampleR * randyR);
iirHeadBumpCR -= (iirHeadBumpCR * iirHeadBumpCR * iirHeadBumpCR * HeadBumpFreq);
break;
}
HeadBumpL = iirHeadBumpAL + iirHeadBumpBL + iirHeadBumpCL;
HeadBumpR = iirHeadBumpAR + iirHeadBumpBR + iirHeadBumpCR;
tempSample = HeadBumpL;
iirSampleAL = (iirSampleAL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleAL; correction = iirSampleAL;
iirSampleBL = (iirSampleBL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleBL; correction += iirSampleBL;
iirSampleCL = (iirSampleCL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleCL; correction += iirSampleCL;
iirSampleDL = (iirSampleDL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleDL; correction += iirSampleDL;
iirSampleEL = (iirSampleEL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleEL; correction += iirSampleEL;
iirSampleFL = (iirSampleFL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleFL; correction += iirSampleFL;
iirSampleGL = (iirSampleGL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleGL; correction += iirSampleGL;
iirSampleHL = (iirSampleHL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleHL; correction += iirSampleHL;
iirSampleIL = (iirSampleIL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleIL; correction += iirSampleIL;
iirSampleJL = (iirSampleJL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleJL; correction += iirSampleJL;
iirSampleKL = (iirSampleKL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleKL; correction += iirSampleKL;
iirSampleLL = (iirSampleLL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleLL; correction += iirSampleLL;
iirSampleML = (iirSampleML * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleML; correction += iirSampleML;
iirSampleNL = (iirSampleNL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleNL; correction += iirSampleNL;
iirSampleOL = (iirSampleOL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleOL; correction += iirSampleOL;
iirSamplePL = (iirSamplePL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSamplePL; correction += iirSamplePL;
iirSampleQL = (iirSampleQL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleQL; correction += iirSampleQL;
iirSampleRL = (iirSampleRL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleRL; correction += iirSampleRL;
iirSampleSL = (iirSampleSL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleSL; correction += iirSampleSL;
iirSampleTL = (iirSampleTL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleTL; correction += iirSampleTL;
iirSampleUL = (iirSampleUL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleUL; correction += iirSampleUL;
iirSampleVL = (iirSampleVL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleVL; correction += iirSampleVL;
iirSampleWL = (iirSampleWL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleWL; correction += iirSampleWL;
iirSampleXL = (iirSampleXL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleXL; correction += iirSampleXL;
iirSampleYL = (iirSampleYL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleYL; correction += iirSampleYL;
iirSampleZL = (iirSampleZL * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleZL; correction += iirSampleZL;
//do the IIR on a dummy sample, and store up the correction in a variable at the same scale as the very low level
//numbers being used. Don't keep doing it against the possibly high level signal number.
HeadBumpL -= correction;
//apply stored up tiny corrections
HeadBumpL *= (1.0 - (wreck/2));
tempSample = HeadBumpR;
iirSampleAR = (iirSampleAR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleAR; correction = iirSampleAR;
iirSampleBR = (iirSampleBR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleBR; correction += iirSampleBR;
iirSampleCR = (iirSampleCR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleCR; correction += iirSampleCR;
iirSampleDR = (iirSampleDR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleDR; correction += iirSampleDR;
iirSampleER = (iirSampleER * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleER; correction += iirSampleER;
iirSampleFR = (iirSampleFR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleFR; correction += iirSampleFR;
iirSampleGR = (iirSampleGR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleGR; correction += iirSampleGR;
iirSampleHR = (iirSampleHR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleHR; correction += iirSampleHR;
iirSampleIR = (iirSampleIR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleIR; correction += iirSampleIR;
iirSampleJR = (iirSampleJR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleJR; correction += iirSampleJR;
iirSampleKR = (iirSampleKR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleKR; correction += iirSampleKR;
iirSampleLR = (iirSampleLR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleLR; correction += iirSampleLR;
iirSampleMR = (iirSampleMR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleMR; correction += iirSampleMR;
iirSampleNR = (iirSampleNR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleNR; correction += iirSampleNR;
iirSampleOR = (iirSampleOR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleOR; correction += iirSampleOR;
iirSamplePR = (iirSamplePR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSamplePR; correction += iirSamplePR;
iirSampleQR = (iirSampleQR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleQR; correction += iirSampleQR;
iirSampleRR = (iirSampleRR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleRR; correction += iirSampleRR;
iirSampleSR = (iirSampleSR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleSR; correction += iirSampleSR;
iirSampleTR = (iirSampleTR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleTR; correction += iirSampleTR;
iirSampleUR = (iirSampleUR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleUR; correction += iirSampleUR;
iirSampleVR = (iirSampleVR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleVR; correction += iirSampleVR;
iirSampleWR = (iirSampleWR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleWR; correction += iirSampleWR;
iirSampleXR = (iirSampleXR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleXR; correction += iirSampleXR;
iirSampleYR = (iirSampleYR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleYR; correction += iirSampleYR;
iirSampleZR = (iirSampleZR * altHPAmount) + (tempSample * iirHPAmount); tempSample -= iirSampleZR; correction += iirSampleZR;
//do the IIR on a dummy sample, and store up the correction in a variable at the same scale as the very low level
//numbers being used. Don't keep doing it against the possibly high level signal number.
HeadBumpR -= correction;
//apply stored up tiny corrections
HeadBumpR *= (1.0 - (wreck/2));
bridgerectifier = fabs(HeadBumpL);
if (bridgerectifier > 1.57079633) bridgerectifier = 1.57079633;
//max value for sine function
bridgerectifier = sin(bridgerectifier);
if (HeadBumpL > 0.0) HeadBumpL = bridgerectifier;
else HeadBumpL = -bridgerectifier;
//clamp HeadBump to -1 to 1 with distortion
bridgerectifier = fabs(HeadBumpR);
if (bridgerectifier > 1.57079633) bridgerectifier = 1.57079633;
//max value for sine function
bridgerectifier = sin(bridgerectifier);
if (HeadBumpR > 0.0) HeadBumpR = bridgerectifier;
else HeadBumpR = -bridgerectifier;
//clamp HeadBump to -1 to 1 with distortion
inputSampleL *= (1.0 - wreck);
inputSampleL += (HeadBumpL * wreck);
inputSampleR *= (1.0 - wreck);
inputSampleR += (HeadBumpR * wreck);
//begin 64 bit stereo floating point dither
int expon; frexp((double)inputSampleL, &expon);
fpd ^= fpd << 13; fpd ^= fpd >> 17; fpd ^= fpd << 5;
inputSampleL += ((double(fpd)-uint32_t(0x7fffffff)) * 1.1e-44l * pow(2,expon+62));
frexp((double)inputSampleR, &expon);
fpd ^= fpd << 13; fpd ^= fpd >> 17; fpd ^= fpd << 5;
inputSampleR += ((double(fpd)-uint32_t(0x7fffffff)) * 1.1e-44l * pow(2,expon+62));
//end 64 bit stereo floating point dither
*out1 = inputSampleL;
*out2 = inputSampleR;
*in1++;
*in2++;
*out1++;
*out2++;
}
}
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