/* Copyright (C) 2003 Paul Brossier This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "aubio_priv.h" #include "sample.h" #include "phasevoc.h" #include "mathutils.h" #include "filter.h" #include "pitchmcomb.h" #include "pitchyin.h" #include "pitchfcomb.h" #include "pitchschmitt.h" #include "pitchdetection.h" typedef smpl_t (*aubio_pitchdetection_func_t)(aubio_pitchdetection_t *p, fvec_t * ibuf); typedef smpl_t (*aubio_pitchdetection_conv_t)(smpl_t value,uint_t srate,uint_t bufsize); void aubio_pitchdetection_slideblock(aubio_pitchdetection_t *p, fvec_t *ibuf); struct _aubio_pitchdetection_t { aubio_pitchdetection_type type; aubio_pitchdetection_mode mode; uint_t srate; uint_t bufsize; /* for mcomb */ aubio_pvoc_t * pv; cvec_t * fftgrain; aubio_pitchmcomb_t * mcomb; aubio_pitchfcomb_t * fcomb; aubio_pitchschmitt_t * schmitt; aubio_filter_t * filter; /* for yin */ fvec_t * buf; fvec_t * yin; aubio_pitchdetection_func_t callback; aubio_pitchdetection_conv_t freqconv; smpl_t yinthres; }; /* convenience wrapper function for frequency unit conversions * should probably be rewritten with #defines */ smpl_t freqconvbin(smpl_t f,uint_t srate,uint_t bufsize); smpl_t freqconvbin(smpl_t f,uint_t srate,uint_t bufsize){ return aubio_freqtobin(f,srate,bufsize); } smpl_t freqconvmidi(smpl_t f,uint_t srate,uint_t bufsize); smpl_t freqconvmidi(smpl_t f,uint_t srate,uint_t bufsize){ return aubio_freqtomidi(f); } smpl_t freqconvpass(smpl_t f,uint_t srate,uint_t bufsize); smpl_t freqconvpass(smpl_t f,uint_t srate,uint_t bufsize){ return f; } aubio_pitchdetection_t * new_aubio_pitchdetection(uint_t bufsize, uint_t hopsize, uint_t channels, uint_t samplerate, aubio_pitchdetection_type type, aubio_pitchdetection_mode mode) { aubio_pitchdetection_t *p = AUBIO_NEW(aubio_pitchdetection_t); p->srate = samplerate; p->type = type; p->mode = mode; p->bufsize = bufsize; switch(p->type) { case aubio_pitch_yin: p->buf = new_fvec(bufsize,channels); p->yin = new_fvec(bufsize/2,channels); p->callback = aubio_pitchdetection_yin; p->yinthres = 0.2; break; case aubio_pitch_mcomb: p->pv = new_aubio_pvoc(bufsize, hopsize, channels); p->fftgrain = new_cvec(bufsize, channels); p->mcomb = new_aubio_pitchmcomb(bufsize,channels,samplerate); p->filter = new_aubio_cdsgn_filter(samplerate); p->callback = aubio_pitchdetection_mcomb; break; case aubio_pitch_fcomb: p->buf = new_fvec(bufsize,channels); p->fcomb = new_aubio_pitchfcomb(bufsize,hopsize,samplerate); p->callback = aubio_pitchdetection_fcomb; break; case aubio_pitch_schmitt: p->buf = new_fvec(bufsize,channels); p->schmitt = new_aubio_pitchschmitt(bufsize,samplerate); p->callback = aubio_pitchdetection_schmitt; break; default: break; } switch(p->mode) { case aubio_pitchm_freq: p->freqconv = freqconvpass; break; case aubio_pitchm_midi: p->freqconv = freqconvmidi; break; case aubio_pitchm_cent: /** bug: not implemented */ p->freqconv = freqconvmidi; break; case aubio_pitchm_bin: p->freqconv = freqconvbin; break; default: break; } return p; } void del_aubio_pitchdetection(aubio_pitchdetection_t * p) { switch(p->type) { case aubio_pitch_yin: del_fvec(p->yin); del_fvec(p->buf); break; case aubio_pitch_mcomb: del_aubio_pvoc(p->pv); del_cvec(p->fftgrain); del_aubio_pitchmcomb(p->mcomb); break; case aubio_pitch_schmitt: del_fvec(p->buf); del_aubio_pitchschmitt(p->schmitt); break; case aubio_pitch_fcomb: del_fvec(p->buf); del_aubio_pitchfcomb(p->fcomb); break; default: break; } AUBIO_FREE(p); } void aubio_pitchdetection_slideblock(aubio_pitchdetection_t *p, fvec_t *ibuf){ uint_t i,j = 0, overlap_size = 0; overlap_size = p->buf->length-ibuf->length; for (i=0;ibuf->channels;i++){ for (j=0;jbuf->data[i][j] = p->buf->data[i][j+ibuf->length]; } } for (i=0;ichannels;i++){ for (j=0;jlength;j++){ p->buf->data[i][j+overlap_size] = ibuf->data[i][j]; } } } void aubio_pitchdetection_set_yinthresh(aubio_pitchdetection_t *p, smpl_t thres) { p->yinthres = thres; } smpl_t aubio_pitchdetection(aubio_pitchdetection_t *p, fvec_t * ibuf) { return p->freqconv(p->callback(p,ibuf),p->srate,p->bufsize); } smpl_t aubio_pitchdetection_mcomb(aubio_pitchdetection_t *p, fvec_t *ibuf) { smpl_t pitch = 0.; aubio_filter_do(p->filter,ibuf); aubio_pvoc_do(p->pv,ibuf,p->fftgrain); pitch = aubio_pitchmcomb_detect(p->mcomb,p->fftgrain); /** \bug should move the >0 check within aubio_bintofreq */ if (pitch>0.) { pitch = aubio_bintofreq(pitch,p->srate,p->bufsize); } else { pitch = 0.; } return pitch; } smpl_t aubio_pitchdetection_yin(aubio_pitchdetection_t *p, fvec_t *ibuf) { smpl_t pitch = 0.; aubio_pitchdetection_slideblock(p,ibuf); pitch = aubio_pitchyin_getpitchfast(p->buf,p->yin, p->yinthres); if (pitch>0) { pitch = p->srate/(pitch+0.); } else { pitch = 0.; } return pitch; } smpl_t aubio_pitchdetection_fcomb(aubio_pitchdetection_t *p, fvec_t *ibuf){ aubio_pitchdetection_slideblock(p,ibuf); return aubio_pitchfcomb_detect(p->fcomb,p->buf); } smpl_t aubio_pitchdetection_schmitt(aubio_pitchdetection_t *p, fvec_t *ibuf){ aubio_pitchdetection_slideblock(p,ibuf); return aubio_pitchschmitt_detect(p->schmitt,p->buf); }