#include "spectral/filterbank.h"
#include "mathutils.h"
-void aubio_filterbank_set_mel_coeffs(aubio_filterbank_t *fb, uint_t samplerate, smpl_t freq_min, smpl_t freq_max){
+void
+aubio_filterbank_set_mel_coeffs (aubio_filterbank_t * fb, uint_t samplerate,
+ smpl_t freq_min, smpl_t freq_max)
+{
- fvec_t *filters = aubio_filterbank_get_coeffs(fb);
+ fvec_t *filters = aubio_filterbank_get_coeffs (fb);
uint_t n_filters = filters->channels, win_s = filters->length;
-
+
//slaney params
smpl_t lowestFrequency = 133.3333;
smpl_t linearSpacing = 66.66666666;
uint_t linearFilters = 13;
uint_t logFilters = 27;
uint_t allFilters = linearFilters + logFilters;
-
+
//buffers for computing filter frequencies
- fvec_t * freqs=new_fvec(allFilters+2 , 1);
-
- fvec_t * lower_freqs=new_fvec( allFilters, 1);
- fvec_t * upper_freqs=new_fvec( allFilters, 1);
- fvec_t * center_freqs=new_fvec( allFilters, 1);
+ fvec_t *freqs = new_fvec (allFilters + 2, 1);
- fvec_t * triangle_heights=new_fvec( allFilters, 1);
+ fvec_t *lower_freqs = new_fvec (allFilters, 1);
+ fvec_t *upper_freqs = new_fvec (allFilters, 1);
+ fvec_t *center_freqs = new_fvec (allFilters, 1);
+
+ fvec_t *triangle_heights = new_fvec (allFilters, 1);
//lookup table of each bin frequency in hz
- fvec_t * fft_freqs=new_fvec(win_s, 1);
+ fvec_t *fft_freqs = new_fvec (win_s, 1);
uint_t filter_cnt, bin_cnt;
-
+
//first step: filling all the linear filter frequencies
- for(filter_cnt=0; filter_cnt<linearFilters; filter_cnt++){
- freqs->data[0][filter_cnt]=lowestFrequency+ filter_cnt*linearSpacing;
+ for (filter_cnt = 0; filter_cnt < linearFilters; filter_cnt++) {
+ freqs->data[0][filter_cnt] = lowestFrequency + filter_cnt * linearSpacing;
}
- smpl_t lastlinearCF=freqs->data[0][filter_cnt-1];
-
+ smpl_t lastlinearCF = freqs->data[0][filter_cnt - 1];
+
//second step: filling all the log filter frequencies
- for(filter_cnt=0; filter_cnt<logFilters+2; filter_cnt++){
- freqs->data[0][filter_cnt+linearFilters] =
- lastlinearCF*(pow(logSpacing,filter_cnt+1));
+ for (filter_cnt = 0; filter_cnt < logFilters + 2; filter_cnt++) {
+ freqs->data[0][filter_cnt + linearFilters] =
+ lastlinearCF * (pow (logSpacing, filter_cnt + 1));
}
//Option 1. copying interesting values to lower_freqs, center_freqs and upper freqs arrays
//TODO: would be nicer to have a reference to freqs->data, anyway we do not care in this init step
-
- for(filter_cnt=0; filter_cnt<allFilters; filter_cnt++){
- lower_freqs->data[0][filter_cnt]=freqs->data[0][filter_cnt];
- center_freqs->data[0][filter_cnt]=freqs->data[0][filter_cnt+1];
- upper_freqs->data[0][filter_cnt]=freqs->data[0][filter_cnt+2];
+
+ for (filter_cnt = 0; filter_cnt < allFilters; filter_cnt++) {
+ lower_freqs->data[0][filter_cnt] = freqs->data[0][filter_cnt];
+ center_freqs->data[0][filter_cnt] = freqs->data[0][filter_cnt + 1];
+ upper_freqs->data[0][filter_cnt] = freqs->data[0][filter_cnt + 2];
}
//computing triangle heights so that each triangle has unit area
- for(filter_cnt=0; filter_cnt<allFilters; filter_cnt++){
- triangle_heights->data[0][filter_cnt] = 2./(upper_freqs->data[0][filter_cnt]
- - lower_freqs->data[0][filter_cnt]);
+ for (filter_cnt = 0; filter_cnt < allFilters; filter_cnt++) {
+ triangle_heights->data[0][filter_cnt] =
+ 2. / (upper_freqs->data[0][filter_cnt]
+ - lower_freqs->data[0][filter_cnt]);
}
-
+
//AUBIO_DBG("filter tables frequencies\n");
//for(filter_cnt=0; filter_cnt<allFilters; filter_cnt++)
// AUBIO_DBG("filter n. %d %f %f %f %f\n",
// triangle_heights->data[0][filter_cnt]);
//filling the fft_freqs lookup table, which assigns the frequency in hz to each bin
- for(bin_cnt=0; bin_cnt<win_s; bin_cnt++){
- fft_freqs->data[0][bin_cnt]= aubio_bintofreq(bin_cnt, samplerate, win_s);
+ for (bin_cnt = 0; bin_cnt < win_s; bin_cnt++) {
+ fft_freqs->data[0][bin_cnt] = aubio_bintofreq (bin_cnt, samplerate, win_s);
}
//building each filter table
- for(filter_cnt=0; filter_cnt<allFilters; filter_cnt++){
+ for (filter_cnt = 0; filter_cnt < allFilters; filter_cnt++) {
//TODO:check special case : lower freq =0
//calculating rise increment in mag/Hz
- smpl_t riseInc= triangle_heights->data[0][filter_cnt]/(center_freqs->data[0][filter_cnt]-lower_freqs->data[0][filter_cnt]);
-
+ smpl_t riseInc =
+ triangle_heights->data[0][filter_cnt] /
+ (center_freqs->data[0][filter_cnt] - lower_freqs->data[0][filter_cnt]);
+
//zeroing begining of filter
- for(bin_cnt=0; bin_cnt<win_s-1; bin_cnt++){
- filters->data[filter_cnt][bin_cnt]=0.0;
- if( fft_freqs->data[0][bin_cnt] <= lower_freqs->data[0][filter_cnt] &&
- fft_freqs->data[0][bin_cnt+1] > lower_freqs->data[0][filter_cnt]) {
+ for (bin_cnt = 0; bin_cnt < win_s - 1; bin_cnt++) {
+ filters->data[filter_cnt][bin_cnt] = 0.0;
+ if (fft_freqs->data[0][bin_cnt] <= lower_freqs->data[0][filter_cnt] &&
+ fft_freqs->data[0][bin_cnt + 1] > lower_freqs->data[0][filter_cnt]) {
break;
}
}
bin_cnt++;
-
+
//positive slope
- for(; bin_cnt<win_s-1; bin_cnt++){
- filters->data[filter_cnt][bin_cnt]=(fft_freqs->data[0][bin_cnt]-lower_freqs->data[0][filter_cnt])*riseInc;
+ for (; bin_cnt < win_s - 1; bin_cnt++) {
+ filters->data[filter_cnt][bin_cnt] =
+ (fft_freqs->data[0][bin_cnt] -
+ lower_freqs->data[0][filter_cnt]) * riseInc;
//if(fft_freqs->data[0][bin_cnt]<= center_freqs->data[0][filter_cnt] && fft_freqs->data[0][bin_cnt+1]> center_freqs->data[0][filter_cnt])
- if(fft_freqs->data[0][bin_cnt+1]> center_freqs->data[0][filter_cnt])
+ if (fft_freqs->data[0][bin_cnt + 1] > center_freqs->data[0][filter_cnt])
break;
}
//bin_cnt++;
-
+
//negative slope
- for(; bin_cnt<win_s-1; bin_cnt++){
-
+ for (; bin_cnt < win_s - 1; bin_cnt++) {
+
//checking whether last value is less than 0...
- smpl_t val=triangle_heights->data[0][filter_cnt]-(fft_freqs->data[0][bin_cnt]-center_freqs->data[0][filter_cnt])*riseInc;
- if(val>=0)
- filters->data[filter_cnt][bin_cnt]=val;
- else filters->data[filter_cnt][bin_cnt]=0.0;
-
+ smpl_t val =
+ triangle_heights->data[0][filter_cnt] - (fft_freqs->data[0][bin_cnt] -
+ center_freqs->data[0][filter_cnt]) * riseInc;
+ if (val >= 0)
+ filters->data[filter_cnt][bin_cnt] = val;
+ else
+ filters->data[filter_cnt][bin_cnt] = 0.0;
+
//if(fft_freqs->data[0][bin_cnt]<= upper_freqs->data[0][bin_cnt] && fft_freqs->data[0][bin_cnt+1]> upper_freqs->data[0][filter_cnt])
//TODO: CHECK whether bugfix correct
- if(fft_freqs->data[0][bin_cnt+1]> upper_freqs->data[0][filter_cnt])
+ if (fft_freqs->data[0][bin_cnt + 1] > upper_freqs->data[0][filter_cnt])
break;
}
//bin_cnt++;
-
+
//zeroing tail
- for(; bin_cnt<win_s; bin_cnt++)
- filters->data[filter_cnt][bin_cnt]=0.f;
+ for (; bin_cnt < win_s; bin_cnt++)
+ filters->data[filter_cnt][bin_cnt] = 0.f;
}
-
- /* destroy temporarly allocated vectors */
- del_fvec(freqs);
- del_fvec(lower_freqs);
- del_fvec(upper_freqs);
- del_fvec(center_freqs);
- del_fvec(triangle_heights);
- del_fvec(fft_freqs);
+ /* destroy temporarly allocated vectors */
+ del_fvec (freqs);
+ del_fvec (lower_freqs);
+ del_fvec (upper_freqs);
+ del_fvec (center_freqs);
-}
+ del_fvec (triangle_heights);
+ del_fvec (fft_freqs);
+}
projects / aubio.git / commitdiff