ref: 9906b3f3f22649481dc60d3bcefedea5440225b3
dir: /src/spectral/tss.c/
/* Copyright (C) 2003-2009 Paul Brossier <piem@aubio.org> This file is part of aubio. aubio 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 3 of the License, or (at your option) any later version. aubio 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 aubio. If not, see <http://www.gnu.org/licenses/>. */ /* default values : alpha=4, beta=3, threshold=0.25 */ #include "aubio_priv.h" #include "fvec.h" #include "cvec.h" #include "mathutils.h" #include "spectral/tss.h" struct _aubio_tss_t { smpl_t threshold; smpl_t alpha; smpl_t beta; smpl_t parm; smpl_t thrsfact; fvec_t *theta1; fvec_t *theta2; fvec_t *oft1; fvec_t *oft2; fvec_t *dev; }; void aubio_tss_do(aubio_tss_t *o, cvec_t * input, cvec_t * trans, cvec_t * stead) { uint_t j; uint_t test; uint_t nbins = input->length; smpl_t alpha = o->alpha; smpl_t beta = o->beta; smpl_t parm = o->parm; smpl_t * dev = (smpl_t *)o->dev->data; smpl_t * oft1 = (smpl_t *)o->oft1->data; smpl_t * oft2 = (smpl_t *)o->oft2->data; smpl_t * theta1 = (smpl_t *)o->theta1->data; smpl_t * theta2 = (smpl_t *)o->theta2->data; /* second phase derivative */ for (j=0;j<nbins; j++){ dev[j] = aubio_unwrap2pi(input->phas[j] -2.0*theta1[j]+theta2[j]); theta2[j] = theta1[j]; theta1[j] = input->phas[j]; } for (j=0;j<nbins; j++){ /* transient analysis */ test = (ABS(dev[j]) > parm*oft1[j]); trans->norm[j] = input->norm[j] * test; trans->phas[j] = input->phas[j] * test; } for (j=0;j<nbins; j++){ /* steady state analysis */ test = (ABS(dev[j]) < parm*oft2[j]); stead->norm[j] = input->norm[j] * test; stead->phas[j] = input->phas[j] * test; /*increase sstate probability for sines */ test = (trans->norm[j]==0.); oft1[j] = test; test = (stead->norm[j]==0.); oft2[j] = test; test = (trans->norm[j]>0.); oft1[j] += alpha*test; test = (stead->norm[j]>0.); oft2[j] += alpha*test; test = (oft1[j]>1. && trans->norm[j]>0.); oft1[j] += beta*test; test = (oft2[j]>1. && stead->norm[j]>0.); oft2[j] += beta*test; } } uint_t aubio_tss_set_threshold(aubio_tss_t *o, smpl_t threshold){ o->threshold = threshold; o->parm = o->threshold * o->thrsfact; return AUBIO_OK; } aubio_tss_t * new_aubio_tss(uint_t buf_size, uint_t hop_size) { aubio_tss_t * o = AUBIO_NEW(aubio_tss_t); uint_t rsize = buf_size/2+1; o->threshold = 0.25; o->thrsfact = TWO_PI*hop_size/rsize; o->alpha = 3.; o->beta = 4.; o->parm = o->threshold*o->thrsfact; o->theta1 = new_fvec(rsize); o->theta2 = new_fvec(rsize); o->oft1 = new_fvec(rsize); o->oft2 = new_fvec(rsize); o->dev = new_fvec(rsize); return o; } void del_aubio_tss(aubio_tss_t *s) { del_fvec(s->theta1); del_fvec(s->theta2); del_fvec(s->oft1); del_fvec(s->oft2); del_fvec(s->dev); AUBIO_FREE(s); } uint_t aubio_tss_set_alpha(aubio_tss_t *o, smpl_t alpha){ o->alpha = alpha; return AUBIO_OK; } uint_t aubio_tss_set_beta(aubio_tss_t *o, smpl_t beta){ o->beta = beta; return AUBIO_OK; }