ref: 19f1dc9b5dd9997b2b152cebacb9ff8112adc323
dir: /plugins/puredata/aubiotss~.c/
/** * * a puredata wrapper for aubio tss detection functions * * Thanks to Johannes M Zmolnig for writing the excellent HOWTO: * http://iem.kug.ac.at/pd/externals-HOWTO/ * * */ #include <m_pd.h> #include <aubio.h> char aubiotss_version[] = "aubiotss~ version 0.1"; static t_class *aubiotss_tilde_class; void aubiotss_tilde_setup (void); typedef struct _aubiotss_tilde { t_object x_obj; t_float thres; t_float alpha; t_float beta; t_int pos; /*frames%dspblocksize*/ t_int bufsize; t_int hopsize; aubio_pvoc_t * pv; aubio_pvoc_t * pvt; aubio_pvoc_t * pvs; aubio_tss_t * tss; fvec_t *vec; cvec_t *fftgrain; cvec_t *cstead; cvec_t *ctrans; fvec_t *trans; fvec_t *stead; } t_aubiotss_tilde; static t_int *aubiotss_tilde_perform(t_int *w) { t_aubiotss_tilde *x = (t_aubiotss_tilde *)(w[1]); t_sample *in = (t_sample *)(w[2]); t_sample *outtrans = (t_sample *)(w[3]); t_sample *outstead = (t_sample *)(w[4]); int n = (int)(w[5]); int j; for (j=0;j<n;j++) { /* write input to datanew */ fvec_write_sample(x->vec, in[j], 0, x->pos); /*time for fft*/ if (x->pos == x->hopsize-1) { /* block loop */ /* test for silence */ //if (!aubio_silence_detection(x->vec, x->threshold2)) aubio_pvoc_do (x->pv, x->vec, x->fftgrain); aubio_tss_set_thres( x->tss, x->thres); aubio_tss_do (x->tss, x->fftgrain, x->ctrans, x->cstead); aubio_pvoc_rdo (x->pvt, x->ctrans, x->trans); aubio_pvoc_rdo (x->pvs, x->cstead, x->stead); //} /* end of block loop */ x->pos = -1; /* so it will be zero next j loop */ } x->pos++; *outtrans++ = x->trans->data[0][x->pos]; *outstead++ = x->stead->data[0][x->pos]; } return (w+6); } static void aubiotss_tilde_dsp(t_aubiotss_tilde *x, t_signal **sp) { dsp_add(aubiotss_tilde_perform, 5, x, sp[0]->s_vec, sp[1]->s_vec, sp[2]->s_vec, sp[0]->s_n); } static void aubiotss_tilde_debug(t_aubiotss_tilde *x) { post("aubiotss~ bufsize:\t%d", x->bufsize); post("aubiotss~ hopsize:\t%d", x->hopsize); post("aubiotss~ threshold:\t%f", x->thres); post("aubiotss~ audio in:\t%f", x->vec->data[0][0]); post("aubiotss~ audio out:\t%f", x->stead->data[0][0]); } static void *aubiotss_tilde_new (t_floatarg f) //, t_floatarg bufsize) { t_aubiotss_tilde *x = (t_aubiotss_tilde *)pd_new(aubiotss_tilde_class); x->thres = (f < 1e-5) ? 0.01 : (f > 1.) ? 1. : f; x->bufsize = 1024; //(bufsize < 64) ? 1024: (bufsize > 16385) ? 16385: bufsize; x->hopsize = x->bufsize / 4; x->alpha = 3.; x->beta = 4.; x->vec = (fvec_t *)new_fvec(x->hopsize,1); x->fftgrain = (cvec_t *)new_cvec(x->bufsize,1); x->ctrans = (cvec_t *)new_cvec(x->bufsize,1); x->cstead = (cvec_t *)new_cvec(x->bufsize,1); x->trans = (fvec_t *)new_fvec(x->hopsize,1); x->stead = (fvec_t *)new_fvec(x->hopsize,1); x->pv = (aubio_pvoc_t *)new_aubio_pvoc(x->bufsize, x->hopsize, 1); x->pvt = (aubio_pvoc_t *)new_aubio_pvoc(x->bufsize, x->hopsize, 1); x->pvs = (aubio_pvoc_t *)new_aubio_pvoc(x->bufsize, x->hopsize, 1); x->tss = (aubio_tss_t *)new_aubio_tss(x->thres, x->alpha, x->beta, x->bufsize, x->hopsize, 1); floatinlet_new (&x->x_obj, &x->thres); outlet_new(&x->x_obj, gensym("signal")); outlet_new(&x->x_obj, gensym("signal")); post(aubiotss_version); return (void *)x; } void aubiotss_tilde_setup (void) { aubiotss_tilde_class = class_new (gensym ("aubiotss~"), (t_newmethod)aubiotss_tilde_new, 0, sizeof (t_aubiotss_tilde), CLASS_DEFAULT, A_DEFFLOAT, 0); class_addmethod(aubiotss_tilde_class, (t_method)aubiotss_tilde_dsp, gensym("dsp"), 0); class_addmethod(aubiotss_tilde_class, (t_method)aubiotss_tilde_debug, gensym("debug"), 0); CLASS_MAINSIGNALIN(aubiotss_tilde_class, t_aubiotss_tilde, thres); }