mirror of
https://github.com/airwindows/airwindows.git
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163 lines
4.8 KiB
C++
Executable file
163 lines
4.8 KiB
C++
Executable file
/* ========================================
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* HypersonX - HypersonX.h
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* Copyright (c) 2016 airwindows, Airwindows uses the MIT license
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* ======================================== */
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#ifndef __HypersonX_H
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#include "HypersonX.h"
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#endif
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void HypersonX::processReplacing(float **inputs, float **outputs, VstInt32 sampleFrames)
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{
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float* in1 = inputs[0];
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float* in2 = inputs[1];
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float* out1 = outputs[0];
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float* out2 = outputs[1];
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double cutoff = 25000.0 / getSampleRate();
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if (cutoff > 0.49) cutoff = 0.49; //don't crash if run at 44.1k
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fixA[fix_freq] = cutoff;
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switch ((VstInt32)( A * 6.999 ))
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{
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case kA:
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fixA[fix_reso] = 4.46570214;
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break;
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case kB:
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fixA[fix_reso] = 1.51387132;
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break;
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case kC:
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fixA[fix_reso] = 0.93979296;
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break;
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case kD:
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fixA[fix_reso] = 0.70710678; //butterworth Q
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break;
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case kE:
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fixA[fix_reso] = 0.59051105;
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break;
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case kF:
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fixA[fix_reso] = 0.52972649;
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break;
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case kG:
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fixA[fix_reso] = 0.50316379;
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break;
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}
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double K = tan(M_PI * fixA[fix_freq]); //lowpass
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double norm = 1.0 / (1.0 + K / fixA[fix_reso] + K * K);
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fixA[fix_a0] = K * K * norm;
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fixA[fix_a1] = 2.0 * fixA[fix_a0];
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fixA[fix_a2] = fixA[fix_a0];
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fixA[fix_b1] = 2.0 * (K * K - 1.0) * norm;
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fixA[fix_b2] = (1.0 - K / fixA[fix_reso] + K * K) * norm;
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while (--sampleFrames >= 0)
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{
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double inputSampleL = *in1;
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double inputSampleR = *in2;
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if (fabs(inputSampleL)<1.18e-23) inputSampleL = fpdL * 1.18e-17;
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if (fabs(inputSampleR)<1.18e-23) inputSampleR = fpdR * 1.18e-17;
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double outSample = (inputSampleL * fixA[fix_a0]) + fixA[fix_sL1];
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fixA[fix_sL1] = (inputSampleL * fixA[fix_a1]) - (outSample * fixA[fix_b1]) + fixA[fix_sL2];
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fixA[fix_sL2] = (inputSampleL * fixA[fix_a2]) - (outSample * fixA[fix_b2]);
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inputSampleL = outSample; //fixed biquad filtering ultrasonics
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outSample = (inputSampleR * fixA[fix_a0]) + fixA[fix_sR1];
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fixA[fix_sR1] = (inputSampleR * fixA[fix_a1]) - (outSample * fixA[fix_b1]) + fixA[fix_sR2];
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fixA[fix_sR2] = (inputSampleR * fixA[fix_a2]) - (outSample * fixA[fix_b2]);
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inputSampleR = outSample; //fixed biquad filtering ultrasonics
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//begin 32 bit stereo floating point dither
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int expon; frexpf((float)inputSampleL, &expon);
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fpdL ^= fpdL << 13; fpdL ^= fpdL >> 17; fpdL ^= fpdL << 5;
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inputSampleL += ((double(fpdL)-uint32_t(0x7fffffff)) * 5.5e-36l * pow(2,expon+62));
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frexpf((float)inputSampleR, &expon);
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fpdR ^= fpdR << 13; fpdR ^= fpdR >> 17; fpdR ^= fpdR << 5;
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inputSampleR += ((double(fpdR)-uint32_t(0x7fffffff)) * 5.5e-36l * pow(2,expon+62));
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//end 32 bit stereo floating point dither
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*out1 = inputSampleL;
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*out2 = inputSampleR;
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in1++;
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in2++;
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out1++;
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out2++;
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}
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}
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void HypersonX::processDoubleReplacing(double **inputs, double **outputs, VstInt32 sampleFrames)
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{
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double* in1 = inputs[0];
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double* in2 = inputs[1];
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double* out1 = outputs[0];
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double* out2 = outputs[1];
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double cutoff = 25000.0 / getSampleRate();
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if (cutoff > 0.49) cutoff = 0.49; //don't crash if run at 44.1k
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fixA[fix_freq] = cutoff;
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switch ((VstInt32)( A * 6.999 ))
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{
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case kA:
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fixA[fix_reso] = 4.46570214;
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break;
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case kB:
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fixA[fix_reso] = 1.51387132;
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break;
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case kC:
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fixA[fix_reso] = 0.93979296;
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break;
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case kD:
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fixA[fix_reso] = 0.70710678; //butterworth Q
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break;
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case kE:
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fixA[fix_reso] = 0.59051105;
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break;
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case kF:
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fixA[fix_reso] = 0.52972649;
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break;
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case kG:
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fixA[fix_reso] = 0.50316379;
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break;
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}
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double K = tan(M_PI * fixA[fix_freq]); //lowpass
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double norm = 1.0 / (1.0 + K / fixA[fix_reso] + K * K);
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fixA[fix_a0] = K * K * norm;
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fixA[fix_a1] = 2.0 * fixA[fix_a0];
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fixA[fix_a2] = fixA[fix_a0];
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fixA[fix_b1] = 2.0 * (K * K - 1.0) * norm;
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fixA[fix_b2] = (1.0 - K / fixA[fix_reso] + K * K) * norm;
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while (--sampleFrames >= 0)
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{
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double inputSampleL = *in1;
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double inputSampleR = *in2;
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if (fabs(inputSampleL)<1.18e-23) inputSampleL = fpdL * 1.18e-17;
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if (fabs(inputSampleR)<1.18e-23) inputSampleR = fpdR * 1.18e-17;
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double outSample = (inputSampleL * fixA[fix_a0]) + fixA[fix_sL1];
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fixA[fix_sL1] = (inputSampleL * fixA[fix_a1]) - (outSample * fixA[fix_b1]) + fixA[fix_sL2];
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fixA[fix_sL2] = (inputSampleL * fixA[fix_a2]) - (outSample * fixA[fix_b2]);
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inputSampleL = outSample; //fixed biquad filtering ultrasonics
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outSample = (inputSampleR * fixA[fix_a0]) + fixA[fix_sR1];
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fixA[fix_sR1] = (inputSampleR * fixA[fix_a1]) - (outSample * fixA[fix_b1]) + fixA[fix_sR2];
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fixA[fix_sR2] = (inputSampleR * fixA[fix_a2]) - (outSample * fixA[fix_b2]);
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inputSampleR = outSample; //fixed biquad filtering ultrasonics
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//begin 64 bit stereo floating point dither
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//only relevant if buss is double
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//end 64 bit stereo floating point dither
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*out1 = inputSampleL;
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*out2 = inputSampleR;
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in1++;
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in2++;
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out1++;
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out2++;
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}
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}
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