ref: 28e1bab1f15ab3c2daff639b3962985fbd4bc240
dir: /src/pt2_rcfilter.c/
/* 1-pole 6dB/oct RC filters, from: ** https://www.musicdsp.org/en/latest/Filters/116-one-pole-lp-and-hp.html ** ** There's no frequency pre-warping with tan(), but doing that would ** result in a cutoff that sounded slightly too low. */ #include <stdint.h> #include "pt2_math.h" #include "pt2_rcfilter.h" void calcRCFilterCoeffs(double sr, double hz, rcFilter_t *f) { const double a = (hz < sr/2.0) ? pt2_cos((PT2_TWO_PI * hz) / sr) : 1.0; const double b = 2.0 - a; const double c = b - pt2_sqrt((b*b)-1.0); f->c1 = 1.0 - c; f->c2 = c; } void clearRCFilterState(rcFilter_t *f) { f->tmp[0] = f->tmp[1] = 0.0; } void RCLowPassFilterStereo(rcFilter_t *f, const double *in, double *out) { // left channel f->tmp[0] = (f->c1*in[0] + f->c2*f->tmp[0]) + DENORMAL_OFFSET; out[0] = f->tmp[0]; // right channel f->tmp[1] = (f->c1*in[1] + f->c2*f->tmp[1]) + DENORMAL_OFFSET; out[1] = f->tmp[1]; } void RCHighPassFilterStereo(rcFilter_t *f, const double *in, double *out) { // left channel f->tmp[0] = (f->c1*in[0] + f->c2*f->tmp[0]) + DENORMAL_OFFSET; out[0] = in[0]-f->tmp[0]; // right channel f->tmp[1] = (f->c1*in[1] + f->c2*f->tmp[1]) + DENORMAL_OFFSET; out[1] = in[1]-f->tmp[1]; } void RCLowPassFilter(rcFilter_t *f, const double in, double *out) { f->tmp[0] = (f->c1*in + f->c2*f->tmp[0]) + DENORMAL_OFFSET; *out = f->tmp[0]; } void RCHighPassFilter(rcFilter_t *f, const double in, double *out) { f->tmp[0] = (f->c1*in + f->c2*f->tmp[0]) + DENORMAL_OFFSET; *out = in-f->tmp[0]; }