Mercurial > hg > libxtract
view examples/puredata/xtract~.c @ 85:89b516adb5df
Checked ANSI C89 compliance (basically a few ifndefs for the C99 math functions: powf, roundf etc). Added a few PD examples/tests.
| author | Jamie Bullock <jamie@postlude.co.uk> |
|---|---|
| date | Mon, 03 Sep 2007 14:31:58 +0000 |
| parents | 1222cd753029 |
| children | ca40a0dc29d6 |
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/* xtract~ - PD library for feature extraction Copyright (C) 2006 Jamie Bullock 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ /* calculates the spectral xtract of one frame, given peak frequency and amplitude to first and second inputs respectively */ #include "m_pd.h" #include <math.h> #include <string.h> #include "xtract/libxtract.h" #define BLOCKSIZE 1024 /* FIX: this should be dynamic - somehow */ #define NYQUIST 22050.0f #ifndef isnan /* FIX: should probably try to handle signalling NaNs */ int isnan(x){ if(x == x) return 0; else return 1;} #endif #ifndef isinf int isinf(x) {if(x == 1.0 / 0. || x == -1.0 / 0.) return 1; else return 0;} #endif static t_class *xtract_class; /* Struct for keeping track of memory allocations */ typedef struct _tracked_memory { char argv; } tracked_memory; typedef struct _xtract { t_object x_obj; t_float f; t_int feature; t_int feature_type; tracked_memory memory; void *argv; } t_xtract_tilde; static t_int *xtract_perform(t_int *w) { t_sample *in = (t_sample *)(w[1]); t_xtract_tilde *x = (t_xtract_tilde *)(w[2]); t_int N = (t_int)(w[3]); t_int return_code = 0; float result = 0; return_code = xtract[x->feature]((float *)in, N, x->argv, &result); if(return_code == XTRACT_FEATURE_NOT_IMPLEMENTED) pd_error(x, "Feature not implemented"); /* set nan, inf or -inf to 0 */ result = (isinf(result) || isnan(result) ? 0 : result); outlet_float(x->x_obj.ob_outlet, result); return (w+4); } static t_int *xtract_perform_vector(t_int *w) { t_sample *in = (t_sample *)(w[1]); t_sample *out = (t_sample *)(w[2]); t_float *tmp_in, *tmp_out; t_xtract_tilde *x = (t_xtract_tilde *)(w[3]); t_int N = (t_int)(w[4]), n; t_int return_code = 0; n = N; tmp_in = copybytes(in, N * sizeof(t_float)); tmp_out = getbytes(N * sizeof(t_float)); if(x->feature == XTRACT_PEAK_SPECTRUM) N >>= 1; return_code = xtract[x->feature](tmp_in, N, x->argv, tmp_out); if(return_code == XTRACT_FEATURE_NOT_IMPLEMENTED) pd_error(x, "Feature not implemented"); while(n--) out[n] = tmp_out[n]; freebytes(tmp_in, N * sizeof(t_float)); freebytes(tmp_out, N * sizeof(t_float)); return (w+5); } static void xtract_dsp(t_xtract_tilde *x, t_signal **sp) { if(x->feature_type == XTRACT_VECTOR) dsp_add(xtract_perform_vector, 4, sp[0]->s_vec, sp[1]->s_vec, x, sp[0]->s_n); else dsp_add(xtract_perform, 3, sp[0]->s_vec, x, sp[0]->s_n); } static void *xtract_new(t_symbol *me, t_int argc, t_atom *argv) { t_symbol *tmp; t_xtract_tilde *x = (t_xtract_tilde *)pd_new(xtract_class); xtract_mel_filter *mf; t_int n, N, f, F, n_args, type; t_float *argv_max; xtract_function_descriptor_t *fd; char *p_name, *p_desc, *author; int year; p_name = p_desc = author = NULL; n_args = type = x->feature = 0; f = F = XTRACT_FEATURES; N = BLOCKSIZE; x->argv = NULL; tmp = atom_getsymbol(argv); /* get function descriptors */ fd = (xtract_function_descriptor_t *)xtract_make_descriptors(); /* iterate over descriptors */ while(f--){ /* map creation arg to feature */ if(tmp == gensym(fd[f].algo.name)){ x->feature = f; break; } } /* allocate memory for feature arguments */ n_args = fd[f].argc; type = fd[f].argv.type; if(n_args){ for(n = 0; n < n_args; n++){ argv_max = &fd[f].argv.max[n]; /*post("Argument %d, max: %.2f", n, *argv_max); */ } if(type == XTRACT_MEL_FILTER){ x->memory.argv = (size_t)(n_args * sizeof(xtract_mel_filter)); x->argv = (xtract_mel_filter *)getbytes(x->memory.argv); } else if(type == XTRACT_INT){ x->memory.argv = (size_t)(n_args * sizeof(t_int)); x->argv = (t_int *)getbytes(x->memory.argv); } else if (type == XTRACT_FLOAT){ x->memory.argv = (size_t)(n_args * sizeof(t_float)); x->argv = (t_float *)getbytes(x->memory.argv); } else x->memory.argv = 0; } p_name = fd[f].algo.p_name; p_desc = fd[f].algo.p_desc; author = fd[f].algo.author; year = fd[f].algo.year; if(argc){ if(strcmp(p_name, "")) post("xtract~: %s", p_name ); if(strcmp(p_desc, "")) post("xtract~: %s", p_desc ); if(strcmp(author, "") && year) post("xtract~: %s(%d)", author, year); } else post("xtract~: No arguments given"); /* do init if needed */ if(x->feature == XTRACT_MFCC){ mf = x->argv; mf->n_filters = 20; post("xtract~: mfcc: filters = %d", ((xtract_mel_filter *)x->argv)->n_filters); mf->filters = (t_float **)getbytes(mf->n_filters * sizeof(t_float *)); for(n = 0; n < mf->n_filters; n++) mf->filters[n] = (float *)getbytes(N * sizeof(float)); xtract_init_mfcc(N, NYQUIST, XTRACT_EQUAL_GAIN, 80.0f, 18000.0f, mf->n_filters, mf->filters); } else if(x->feature == XTRACT_BARK_COEFFICIENTS) xtract_init_bark(N, NYQUIST, x->argv); if(x->feature == XTRACT_AUTOCORRELATION || x->feature == XTRACT_AUTOCORRELATION_FFT || x->feature == XTRACT_MFCC || x->feature == XTRACT_AMDF || x->feature == XTRACT_ASDF|| x->feature == XTRACT_DCT || x->feature == XTRACT_BARK_COEFFICIENTS || x->feature == XTRACT_SPECTRUM || x->feature == XTRACT_PEAK_SPECTRUM || x->feature == XTRACT_HARMONIC_SPECTRUM) x->feature_type = XTRACT_VECTOR; else if (x->feature == XTRACT_FLUX || x->feature == XTRACT_ATTACK_TIME || x->feature == XTRACT_DECAY_TIME || x->feature == XTRACT_DELTA) x->feature_type = XTRACT_DELTA; else x->feature_type = XTRACT_SCALAR; /* argv through right inlet */ inlet_new(&x->x_obj, &x->x_obj.ob_pd, gensym("list"), gensym("list")); /* if feature is vector, create signal out */ if(x->feature_type == XTRACT_VECTOR) outlet_new(&x->x_obj, &s_signal); /* otherwise: float */ else outlet_new(&x->x_obj, &s_float); /* free the function descriptors */ xtract_free_descriptors(fd); return (void *)x; } static void xtract_tilde_get_args(t_xtract_tilde *x, t_symbol *selector, t_int argc, t_atom *argv) { /* if(argc > (t_int)sizeof(x->argv) / (t_int)sizeof(t_float) || x->argv == NULL) post("Too many parameters to right inlet"); else{*/ x->argv = getbytes(argc * sizeof(float)); while(argc--) ((t_float *)x->argv)[argc] = atom_getfloat(&argv[argc]); /* }*/ } static void xtract_tilde_show_help(t_xtract_tilde *x, t_symbol *s){ int i; xtract_function_descriptor_t *fd, *d; i = XTRACT_FEATURES; fd = (xtract_function_descriptor_t *)xtract_make_descriptors(); post("\nxtract~: Feature List\n"); while(i--){ d = &fd[i]; post("\t%s", d->algo.name); } xtract_free_descriptors(fd); } static void xtract_tilde_free(t_xtract_tilde *x) { if(x->argv != NULL && x->memory.argv) freebytes(x->argv, x->memory.argv); } void xtract_tilde_setup(void) { xtract_class = class_new(gensym("xtract~"), (t_newmethod)xtract_new, (t_method)xtract_tilde_free, sizeof(t_xtract_tilde), CLASS_DEFAULT, A_GIMME, 0); class_addmethod(xtract_class, (t_method)xtract_dsp, gensym("dsp"), 0); class_addmethod(xtract_class, (t_method)xtract_tilde_get_args, gensym("list"), A_GIMME, 0); class_addmethod(xtract_class, (t_method)xtract_tilde_show_help, gensym("help"), A_DEFSYMBOL, 0); CLASS_MAINSIGNALIN(xtract_class, t_xtract_tilde, f); class_sethelpsymbol(xtract_class, gensym("xtract-help")); }