rtbuf/rtbuf/lib/signal/lowpass3.c

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• Hash : adb9e235
  Author : Thomas de Grivel
  Date : 2023-01-14T18:26:30
  

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• lib/signal/lowpass3.c

• /* rtbuf
   * Copyright 2018-2023 kmx.io <contact@kmx.io>
   *
   * Permission is hereby granted to use this software excepted
   * on Apple computers granted the above copyright notice and
   * this permission paragraph are included in all copies and
   * substantial portions of this software.
   *
   * THIS SOFTWARE IS PROVIDED "AS-IS" WITHOUT ANY GUARANTEE OF
   * PURPOSE AND PERFORMANCE. IN NO EVENT WHATSOEVER SHALL THE
   * AUTHOR BE CONSIDERED LIABLE FOR THE USE AND PERFORMANCE OF
   * THIS SOFTWARE.
   */
  #include <math.h>
  #include "../../librtbuf/rtbuf.h"
  #include "../../librtbuf/lib.h"
  #include "../signal.h"
  #include "../signal_type.h"
  
  s_rtbuf_lib_proc_in rtbuf_signal_lowpass3_in[] =
    {{ "signal", RTBUF_SIGNAL_TYPE, 0.0, -1.0, 1.0, 1.0 },
     { "cutoff", RTBUF_SIGNAL_TYPE, 400.0, 1.0, RTBUF_SIGNAL_SAMPLERATE / 2.0, 2.0 },
     { 0, 0, 0.0, 0.0, 0.0, 0.0 }};
  
  s_rtbuf_lib_proc_out rtbuf_signal_lowpass3_out[] =
    {{ "signal", RTBUF_SIGNAL_TYPE },
     { "x1", RTBUF_SIGNAL_SAMPLE_TYPE },
     { "x2", RTBUF_SIGNAL_SAMPLE_TYPE },
     { "x3", RTBUF_SIGNAL_SAMPLE_TYPE },
     { "y1", RTBUF_SIGNAL_SAMPLE_TYPE },
     { "y2", RTBUF_SIGNAL_SAMPLE_TYPE },
     { "y3", RTBUF_SIGNAL_SAMPLE_TYPE },
     { 0, 0 }};
  
  int rtbuf_signal_lowpass3_start (s_rtbuf *rtb)
  {
    s_rtbuf_signal_lowpass3_data *data;
    assert(rtb->proc->out_bytes == sizeof(*data));
    data = (s_rtbuf_signal_lowpass3_data*) rtb->data;
    data->x1 = 0.0;
    data->x2 = 0.0;
    data->x3 = 0.0;
    data->y1 = 0.0;
    data->y2 = 0.0;
    data->y3 = 0.0;
    return 0;
  }
  
  int rtbuf_signal_lowpass3 (s_rtbuf *rtb)
  {
    s_rtbuf_signal_fun in;
    s_rtbuf_signal_fun cutoff;
    s_rtbuf_signal_lowpass3_data *data;
    unsigned int i = 0;
    const double fs = RTBUF_SIGNAL_SAMPLERATE;
    const double fs2 = fs * fs;
    const double fs3 = fs2 * fs;
    const double _8fs3 = 8.0 * fs3;
    rtbuf_signal_fun(rtb, RTBUF_SIGNAL_LOWPASS_IN_SIGNAL, &in);
    rtbuf_signal_fun(rtb, RTBUF_SIGNAL_LOWPASS_IN_CUTOFF, &cutoff);
    data = (s_rtbuf_signal_lowpass3_data*) rtb->data;
    while (i < RTBUF_SIGNAL_SAMPLES) {
      const double x = in.sample_fun(in.signal, i);
      const double fc = cutoff.sample_fun(cutoff.signal, i);
      const double wc = 2.0 * M_PI * fc;
      const double wc2 = wc * wc;
      const double wc3 = wc2 * wc;
      const double _4fs2wc = 4.0 * fs2 * wc;
      const double _8fs2wc = 2.0 * _4fs2wc;
      const double _4fswc2 = 4.0 * fs * wc2;
      const double _3wc3 = 3.0 * wc3;
      const double a = wc3 + _4fswc2 + _8fs2wc + _8fs3;
      const double b = _8fs2wc + 24.0 * fs3 - (_3wc3 + _4fswc2);
      const double c = _4fswc2 + _8fs2wc - (24.0 * fs3 + _3wc3);
      const double d = _8fs3 + _4fswc2 - (wc3 + _8fs2wc);
      data->signal[i] = (wc3 * (x
                                + 3.0 * (data->x1 +
                                         data->x2)
                                + data->x3)
                         + b * data->y1
                         + c * data->y2
                         + d * data->y3) / a;
      data->x3 = data->x2;
      data->x2 = data->x1;
      data->x1 = x;
      data->y3 = data->y2;
      data->y2 = data->y1;
      data->y1 = data->signal[i];
      i++;
    }
    return 0;
  }
  
  s_rtbuf_lib_proc rtbuf_lib_proc =
    { "lowpass3",
      rtbuf_signal_lowpass3,
      rtbuf_signal_lowpass3_start,
      0,
      rtbuf_signal_lowpass3_in,
      rtbuf_signal_lowpass3_out };
  
  unsigned long rtbuf_lib_ver = RTBUF_LIB_VER;
  

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