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41 lines
1.2 KiB
C
41 lines
1.2 KiB
C
#include "filters.h"
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void init_preemphasis(ResistorCapacitor *filter, float tau, float sample_rate) {
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filter->prev_sample = 0.0f;
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filter->alpha = expf(-1 / (tau*sample_rate));
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filter->gain = 1.0f / sqrtf(1.0f - filter->alpha);
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}
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float apply_preemphasis(ResistorCapacitor *filter, float sample) {
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float out = (sample - filter->alpha * filter->prev_sample) * filter->gain;
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filter->prev_sample = sample;
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return out;
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}
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float hard_clip(float sample, float threshold) {
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return fmaxf(-threshold, fminf(threshold, sample));
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}
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void init_lpf(FIR *filter, float cutoff, int sample_rate) {
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float a = tanf(M_PI*cutoff/sample_rate);
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float a2 = a*a;
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float r, e;
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for(int i = 0; i < FIR_ORDER; i++) {
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r = sinf(M_PI*(2.0f*i+1.0f)/(4.0f*FIR_ORDER));
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e = a2+2.0f*a*r+1.0f;
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filter->A[i] = a2 / e;
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filter->d1[i] = 2.0f*(1.0f-a2)/e;
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filter->d2[i] = -(a2 - 2.0f * a * r + 1.0f) / e;
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}
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}
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float process_lpf(FIR *filter, float x) {
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float output;
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for(int i = 0; i < FIR_ORDER; i++) {
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filter->w0[i] = filter->d1[i]*filter->w1[i] + filter->d2[i]*filter->w2[i] + x;
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output = filter->A[i] * (filter->w0[i] + 2.0f * filter->w1[i] + filter->w2[i]);
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filter->w2[i] = filter->w1[i];
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filter->w1[i] = filter->w0[i];
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}
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return output;
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} |