2015-01-07 04:51:39 +01:00
# include "notefinder.h"
# include "parameters.h"
# include <stdio.h>
# include <stdlib.h>
# include <string.h>
# include <math.h>
# include "util.h"
# include "dft.h"
# include "filter.h"
# include "decompose.h"
# include "sort.h"
struct NoteFinder * CreateNoteFinder ( int spsRec )
{
struct NoteFinder * ret = malloc ( sizeof ( struct NoteFinder ) ) ;
memset ( ret , 0 , sizeof ( struct NoteFinder ) ) ;
ret - > sps_rec = spsRec ;
//Set all default values before passing off to the parameter changer.
ret - > octaves = 5 ;
ret - > freqbins = 24 ;
ret - > base_hz = 55 ;
ret - > filter_strength = .5 ;
ret - > filter_iter = 1 ;
ret - > decompose_iterations = 1000 ;
ret - > dft_speedup = 300 ;
ret - > dft_q = 16 ;
ret - > default_sigma = 1.4 ;
ret - > note_jumpability = 2.5 ;
ret - > note_combine_distance = 0.5 ;
ret - > note_attach_freq_iir = 0.4 ;
ret - > note_attach_amp_iir = 0.2 ;
ret - > note_attach_amp_iir2 = 0.05 ;
ret - > note_min_amplitude = 0.001 ;
ret - > note_minimum_new_distribution_value = 0.02 ;
ret - > note_out_chop = 0.1 ;
ret - > dft_iir = 0.0 ;
ret - > current_note_id = 1 ;
ret - > amplify = 1 ;
ret - > ofreqs = 0 ; //force a re-init.
RegisterValue ( " octaves " , PINT , & ret - > octaves , sizeof ( ret - > octaves ) ) ;
RegisterValue ( " freqbins " , PINT , & ret - > freqbins , sizeof ( ret - > freqbins ) ) ;
RegisterValue ( " base_hz " , PFLOAT , & ret - > base_hz , sizeof ( ret - > base_hz ) ) ;
RegisterValue ( " filter_strength " , PFLOAT , & ret - > filter_strength , sizeof ( ret - > filter_strength ) ) ;
RegisterValue ( " filter_iter " , PINT , & ret - > filter_iter , sizeof ( ret - > filter_iter ) ) ;
RegisterValue ( " decompose_iterations " , PINT , & ret - > decompose_iterations , sizeof ( ret - > decompose_iterations ) ) ;
RegisterValue ( " amplify " , PFLOAT , & ret - > amplify , sizeof ( ret - > amplify ) ) ;
RegisterValue ( " dft_speedup " , PFLOAT , & ret - > dft_speedup , sizeof ( ret - > dft_speedup ) ) ;
RegisterValue ( " dft_q " , PFLOAT , & ret - > dft_q , sizeof ( ret - > dft_q ) ) ;
RegisterValue ( " default_sigma " , PFLOAT , & ret - > default_sigma , sizeof ( ret - > default_sigma ) ) ;
RegisterValue ( " note_jumpability " , PFLOAT , & ret - > note_jumpability , sizeof ( ret - > note_jumpability ) ) ;
RegisterValue ( " note_combine_distance " , PFLOAT , & ret - > note_combine_distance , sizeof ( ret - > note_combine_distance ) ) ;
RegisterValue ( " note_attach_freq_iir " , PFLOAT , & ret - > note_attach_freq_iir , sizeof ( ret - > note_attach_freq_iir ) ) ;
RegisterValue ( " note_attach_amp_iir " , PFLOAT , & ret - > note_attach_amp_iir , sizeof ( ret - > note_attach_amp_iir ) ) ;
RegisterValue ( " note_attach_amp_iir2 " , PFLOAT , & ret - > note_attach_amp_iir2 , sizeof ( ret - > note_attach_amp_iir2 ) ) ;
RegisterValue ( " note_minimum_new_distribution_value " , PFLOAT , & ret - > note_minimum_new_distribution_value , sizeof ( ret - > note_minimum_new_distribution_value ) ) ;
RegisterValue ( " note_out_chop " , PFLOAT , & ret - > note_out_chop , sizeof ( ret - > note_out_chop ) ) ;
RegisterValue ( " dft_iir " , PFLOAT , & ret - > dft_iir , sizeof ( ret - > dft_iir ) ) ;
AddCallback ( " freqbins " , ChangeNFParameters , ret ) ;
AddCallback ( " octaves " , ChangeNFParameters , ret ) ;
AddCallback ( " base_hz " , ChangeNFParameters , ret ) ;
ChangeNFParameters ( ret ) ;
return ret ;
}
void ChangeNFParameters ( void * v )
{
//int ofreqs = ret->freqbins * ret->octaves;
int i ;
struct NoteFinder * ret = ( struct NoteFinder * ) v ;
/*
char t [ 128 ] ;
ret - > octaves = atoi_del ( GetParamStr ( parameters , " octaves " , setstr ( ret - > octaves , t ) ) ) ;
ret - > freqbins = atoi_del ( GetParamStr ( parameters , " freqbins " , setstr ( ret - > freqbins , t ) ) ) ;
ret - > base_hz = atof_del ( GetParamStr ( parameters , " base_hz " , setstr ( ret - > base_hz , t ) ) ) ;
ret - > filter_strength = atof_del ( GetParamStr ( parameters , " filter_strength " , setstr ( ret - > filter_strength , t ) ) ) ;
ret - > filter_iter = atoi_del ( GetParamStr ( parameters , " filter_iter " , setstr ( ret - > filter_iter , t ) ) ) ;
ret - > decompose_iterations = atoi_del ( GetParamStr ( parameters , " decompose_iterations " , setstr ( ret - > decompose_iterations , t ) ) ) ;
ret - > dft_speedup = atof_del ( GetParamStr ( parameters , " dft_speedup " , setstr ( ret - > dft_speedup , t ) ) ) ;
ret - > dft_q = atof_del ( GetParamStr ( parameters , " dft_q " , setstr ( ret - > dft_q , t ) ) ) ;
ret - > default_sigma = atof_del ( GetParamStr ( parameters , " default_sigma " , setstr ( ret - > default_sigma , t ) ) ) ;
ret - > note_jumpability = atof_del ( GetParamStr ( parameters , " note_jumpability " , setstr ( ret - > note_jumpability , t ) ) ) ;
ret - > note_combine_distance = atof_del ( GetParamStr ( parameters , " note_combine_distance " , setstr ( ret - > note_combine_distance , t ) ) ) ;
ret - > note_attach_freq_iir = atof_del ( GetParamStr ( parameters , " note_attach_freq_iir " , setstr ( ret - > note_attach_freq_iir , t ) ) ) ;
ret - > note_attach_amp_iir = atof_del ( GetParamStr ( parameters , " note_attach_amp_iir " , setstr ( ret - > note_attach_amp_iir , t ) ) ) ;
ret - > note_attach_amp_iir2 = atof_del ( GetParamStr ( parameters , " note_attach_amp_iir2 " , setstr ( ret - > note_attach_amp_iir2 , t ) ) ) ;
ret - > note_min_amplitude = atof_del ( GetParamStr ( parameters , " note_min_amplitude " , setstr ( ret - > note_min_amplitude , t ) ) ) ;
ret - > note_minimum_new_distribution_value = atof_del ( GetParamStr ( parameters , " note_minimum_new_distribution_value " , setstr ( ret - > note_minimum_new_distribution_value , t ) ) ) ;
ret - > note_out_chop = atof_del ( GetParamStr ( parameters , " note_out_chop " , setstr ( ret - > note_out_chop , t ) ) ) ;
ret - > dft_iir = atof_del ( GetParamStr ( parameters , " dft_iir " , setstr ( ret - > dft_iir , t ) ) ) ;
ret - > sps_rec = atof_del ( GetParamStr ( parameters , " sps_rec " , setstr ( ret - > sps_rec , t ) ) ) ;
ret - > amplify = atof_del ( GetParamStr ( parameters , " amplify " , setstr ( ret - > amplify , t ) ) ) ;
*/
printf ( " %d %d %f %f %f \n " , ret - > freqbins , ret - > octaves , ret - > base_hz , ret - > dft_q , ret - > amplify ) ;
int freqs = ret - > freqbins * ret - > octaves ;
if ( freqs ! = ret - > ofreqs )
{
int note_peaks = ret - > freqbins / 2 ;
int maxdists = ret - > freqbins / 2 ;
ret - > note_peaks = note_peaks ;
if ( ret - > note_positions ) free ( ret - > note_positions ) ;
ret - > note_positions = calloc ( 1 , sizeof ( float ) * note_peaks ) ;
if ( ret - > note_amplitudes ) free ( ret - > note_amplitudes ) ;
ret - > note_amplitudes = calloc ( 1 , sizeof ( float ) * note_peaks ) ;
if ( ret - > note_amplitudes_out ) free ( ret - > note_amplitudes_out ) ;
ret - > note_amplitudes_out = calloc ( 1 , sizeof ( float ) * note_peaks ) ;
if ( ret - > note_amplitudes2 ) free ( ret - > note_amplitudes2 ) ;
ret - > note_amplitudes2 = calloc ( 1 , sizeof ( float ) * note_peaks ) ;
if ( ret - > note_peaks_to_dists_mapping ) free ( ret - > note_peaks_to_dists_mapping ) ;
ret - > note_peaks_to_dists_mapping = calloc ( 1 , sizeof ( char ) * note_peaks ) ;
if ( ret - > enduring_note_id ) free ( ret - > enduring_note_id ) ;
ret - > enduring_note_id = calloc ( 1 , sizeof ( int ) * note_peaks ) ;
if ( ret - > note_founds ) free ( ret - > note_founds ) ;
ret - > note_founds = calloc ( 1 , sizeof ( unsigned char ) * note_peaks ) ;
if ( ret - > frequencies ) free ( ret - > frequencies ) ;
ret - > frequencies = calloc ( 1 , sizeof ( float ) * freqs ) ;
if ( ret - > outbins ) free ( ret - > outbins ) ;
ret - > outbins = calloc ( 1 , sizeof ( float ) * freqs ) ;
if ( ret - > folded_bins ) free ( ret - > folded_bins ) ;
ret - > folded_bins = calloc ( 1 , sizeof ( float ) * ret - > freqbins ) ;
if ( ret - > dist_amps ) free ( ret - > dist_amps ) ;
ret - > dist_amps = calloc ( 1 , sizeof ( float ) * maxdists ) ;
if ( ret - > dist_means ) free ( ret - > dist_means ) ;
ret - > dist_means = calloc ( 1 , sizeof ( float ) * maxdists ) ;
if ( ret - > dist_sigmas ) free ( ret - > dist_sigmas ) ;
ret - > dist_sigmas = calloc ( 1 , sizeof ( float ) * maxdists ) ;
if ( ret - > dist_takens ) free ( ret - > dist_takens ) ;
ret - > dist_takens = calloc ( 1 , sizeof ( unsigned char ) * maxdists ) ;
ret - > ofreqs = freqs ;
}
for ( i = 0 ; i < freqs ; i + + )
{
ret - > frequencies [ i ] = ( ret - > sps_rec / ret - > base_hz ) / pow ( 2 , ( float ) i / ret - > freqbins ) ;
}
}
void RunNoteFinder ( struct NoteFinder * nf , const float * audio_stream , int head , int buffersize )
{
int i , j ;
int freqbins = nf - > freqbins ;
int note_peaks = freqbins / 2 ;
int freqs = freqbins * nf - > octaves ;
int maxdists = freqbins / 2 ;
float dftbins [ freqs ] ;
//Now, march onto the DFT, this pulls out the bins we're after.
//This DFT function does not wavelet or anything.
nf - > StartTime = OGGetAbsoluteTime ( ) ;
DoDFTQuick ( dftbins , nf - > frequencies , freqs , audio_stream , head , buffersize , nf - > dft_q , nf - > dft_speedup ) ;
nf - > DFTTime = OGGetAbsoluteTime ( ) ;
for ( i = 0 ; i < freqs ; i + + )
{
nf - > outbins [ i ] = nf - > outbins [ i ] * ( nf - > dft_iir ) + ( dftbins [ i ] * ( 1. - nf - > dft_iir ) * nf - > amplify ) ;
}
//Taper the first and last octaves.
for ( i = 0 ; i < freqbins ; i + + )
{
nf - > outbins [ i ] * = ( i + 1.0 ) / nf - > freqbins ;
}
for ( i = 0 ; i < freqbins ; i + + )
{
nf - > outbins [ freqs - i - 1 ] * = ( i + 1.0 ) / nf - > freqbins ;
}
//Combine the bins into folded bins.
for ( i = 0 ; i < freqbins ; i + + )
{
float amp = 0 ;
for ( j = 0 ; j < nf - > octaves ; j + + )
{
amp + = nf - > outbins [ i + j * freqbins ] ;
}
nf - > folded_bins [ i ] = amp ;
}
FilterFoldedBinsBlob ( nf - > folded_bins , freqbins , nf - > filter_strength , nf - > filter_iter ) ;
nf - > FilterTime = OGGetAbsoluteTime ( ) ;
memset ( nf - > dist_takens , 0 , sizeof ( unsigned char ) * maxdists ) ;
nf - > dists = DecomposeHistogram ( nf - > folded_bins , freqbins , nf - > dist_means , nf - > dist_amps , nf - > dist_sigmas , maxdists , nf - > default_sigma , nf - > decompose_iterations ) ;
{
int dist_sorts [ nf - > dists ] ;
SortFloats ( dist_sorts , nf - > dist_amps , nf - > dists ) ;
RemapFloats ( dist_sorts , nf - > dist_amps , nf - > dists ) ;
RemapFloats ( dist_sorts , nf - > dist_means , nf - > dists ) ;
RemapFloats ( dist_sorts , nf - > dist_sigmas , nf - > dists ) ;
}
nf - > DecomposeTime = OGGetAbsoluteTime ( ) ;
//We now have the positions and amplitudes of the normal distributions that comprise our spectrum. IN SORTED ORDER!
//dists = # of distributions
//dist_amps[] = amplitudes of the normal distributions
//dist_means[] = positions of the normal distributions
//We need to use this in a filtered manner to obtain the "note" peaks
//note_peaks = total number of peaks.
//note_positions[] = position of the note on the scale.
//note_amplitudes[] = amplitudes of these note peaks.
memset ( nf - > note_founds , 0 , sizeof ( unsigned char ) * note_peaks ) ;
//First try to find any close peaks.
for ( i = 0 ; i < note_peaks ; i + + )
{
for ( j = 0 ; j < nf - > dists ; j + + )
{
2015-01-07 07:22:37 +01:00
if ( ! nf - > dist_takens [ j ] & & ! nf - > note_founds [ i ] & & fabsloop ( nf - > note_positions [ i ] , nf - > dist_means [ j ] , freqbins ) < nf - > note_jumpability & & nf - > dist_amps [ j ] > 0.00001 ) //0.00001 for stability.
2015-01-07 04:51:39 +01:00
{
//Attach ourselves to this bin.
nf - > note_peaks_to_dists_mapping [ i ] = j ;
nf - > dist_takens [ j ] = 1 ;
if ( nf - > enduring_note_id [ i ] = = 0 )
nf - > enduring_note_id [ i ] = nf - > current_note_id + + ;
nf - > note_founds [ i ] = 1 ;
2015-01-07 07:22:37 +01:00
2015-01-07 04:51:39 +01:00
nf - > note_positions [ i ] = avgloop ( nf - > note_positions [ i ] , ( 1. - nf - > note_attach_freq_iir ) , nf - > dist_means [ j ] , nf - > note_attach_freq_iir , nf - > freqbins ) ;
2015-01-07 07:22:37 +01:00
2015-01-07 04:51:39 +01:00
//I guess you can't IIR this like normal.
////note_positions[i] * (1.-note_attach_freq_iir) + dist_means[j] * note_attach_freq_iir;
nf - > note_amplitudes [ i ] = nf - > note_amplitudes [ i ] * ( 1. - nf - > note_attach_amp_iir ) + nf - > dist_amps [ j ] * nf - > note_attach_amp_iir ;
//XXX TODO: Consider: Always boost power, never reduce?
// if( dist_amps[i] > note_amplitudes[i] )
// note_amplitudes[i] = dist_amps[i];
}
}
}
//Combine like-notes.
for ( i = 0 ; i < note_peaks ; i + + )
{
2015-01-07 07:22:37 +01:00
// printf( "%f %f %d\n", nf->note_amplitudes[i], nf->note_positions[i], nf->enduring_note_id[i] );
2015-01-07 04:51:39 +01:00
for ( j = 0 ; j < note_peaks ; j + + )
{
if ( i = = j ) continue ;
if ( fabsloop ( nf - > note_positions [ i ] , nf - > note_positions [ j ] , nf - > freqbins ) < nf - > note_combine_distance & &
nf - > note_amplitudes [ i ] > 0.0 & &
nf - > note_amplitudes [ j ] > 0.0 )
{
int a ;
int b ;
if ( nf - > note_amplitudes [ i ] > nf - > note_amplitudes [ j ] )
{
a = i ;
b = j ;
}
else
{
b = i ;
a = j ;
}
2015-01-07 07:22:37 +01:00
float newp = avgloop ( nf - > note_positions [ a ] , nf - > note_amplitudes [ a ] , nf - > note_positions [ b ] , nf - > note_amplitudes [ b ] , freqbins ) ;
2015-01-07 04:51:39 +01:00
//Combine B into A.
nf - > note_amplitudes [ a ] + = nf - > note_amplitudes [ b ] ;
2015-01-07 07:22:37 +01:00
nf - > note_positions [ a ] = newp ;
2015-01-07 04:51:39 +01:00
nf - > note_amplitudes [ b ] = 0 ;
nf - > note_positions [ b ] = - 100 ;
nf - > enduring_note_id [ b ] = 0 ;
}
}
}
//Assign dead or decayed notes to new peaks.
for ( i = 0 ; i < note_peaks ; i + + )
{
if ( nf - > note_amplitudes [ i ] < nf - > note_min_amplitude )
{
nf - > enduring_note_id [ i ] = 0 ;
//Find a new peak for this note.
for ( j = 0 ; j < nf - > dists ; j + + )
{
if ( ! nf - > dist_takens [ j ] & & nf - > dist_amps [ j ] > nf - > note_minimum_new_distribution_value )
{
nf - > enduring_note_id [ i ] = nf - > current_note_id + + ;
nf - > dist_takens [ j ] = 1 ;
nf - > note_amplitudes [ i ] = nf - > dist_amps [ j ] ; //min_note_amplitude + dist_amps[j] * note_attach_amp_iir; //TODO: Should this jump?
nf - > note_positions [ i ] = nf - > dist_means [ j ] ;
nf - > note_founds [ i ] = 1 ;
nf - > dist_takens [ j ] = 1 ;
}
}
}
}
//Any remaining notes that could not find a peak good enough must be decayed to oblivion.
for ( i = 0 ; i < note_peaks ; i + + )
{
if ( ! nf - > note_founds [ i ] )
{
nf - > note_amplitudes [ i ] = nf - > note_amplitudes [ i ] * ( 1. - nf - > note_attach_amp_iir ) ;
}
nf - > note_amplitudes2 [ i ] = nf - > note_amplitudes2 [ i ] * ( 1. - nf - > note_attach_amp_iir2 ) + nf - > note_amplitudes [ i ] * nf - > note_attach_amp_iir2 ;
if ( nf - > note_amplitudes [ i ] < nf - > note_min_amplitude )
{
nf - > note_amplitudes [ i ] = 0 ;
nf - > note_amplitudes2 [ i ] = 0 ;
}
}
for ( i = 0 ; i < note_peaks ; i + + )
{
nf - > note_amplitudes_out [ i ] = nf - > note_amplitudes [ i ] - nf - > note_out_chop ;
if ( nf - > note_amplitudes_out [ i ] < 0 )
{
nf - > note_amplitudes_out [ i ] = 0 ;
}
}
//We now have our "notes"
//Notes are made of "note_amplitudes" and "note_positions" in the scale to 0..freqbins
//They are stable but in an arbitrary order.
nf - > FinalizeTime = OGGetAbsoluteTime ( ) ;
}