int test_wrong_params()
{
uint_t win_s = 512; // fft size
uint_t n_filters = 40; // number of filters
uint_t n_coeffs = 13; // number of coefficients
smpl_t samplerate = 16000.; // samplerate
if (new_aubio_mfcc( 0, n_filters, n_coeffs, samplerate)) return 1;
if (new_aubio_mfcc(win_s, 0, n_coeffs, samplerate)) return 1;
if (new_aubio_mfcc(win_s, n_filters, 0, samplerate)) return 1;
if (new_aubio_mfcc(win_s, n_filters, n_coeffs, 0)) return 1;
return run_on_default_source(main);
}
int main ()
{
uint_t win_s = 512; // fft size
uint_t n_filters = 40; // number of filters
uint_t n_coefs = 13; // number of coefficients
smpl_t samplerate = 16000.; // samplerate
cvec_t *in = new_cvec (win_s); // input buffer
fvec_t *out = new_fvec (n_coefs); // output coefficients
// create mfcc object
aubio_mfcc_t *o = new_aubio_mfcc (win_s, n_filters, n_coefs, samplerate);
cvec_set_all_norm (in, 1.);
aubio_mfcc_do (o, in, out);
fvec_print (out);
cvec_set_all_norm (in, .5);
aubio_mfcc_do (o, in, out);
fvec_print (out);
// clean up
del_aubio_mfcc (o);
del_cvec (in);
del_fvec (out);
aubio_cleanup ();
return 0;
}
int main(int argc, char **argv) {
// change some default params
buffer_size = 512;
hop_size = 256;
examples_common_init(argc,argv);
verbmsg ("using source: %s at %dHz\n", source_uri, samplerate);
verbmsg ("buffer_size: %d, ", buffer_size);
verbmsg ("hop_size: %d\n", hop_size);
pv = new_aubio_pvoc (buffer_size, hop_size);
fftgrain = new_cvec (buffer_size);
mfcc = new_aubio_mfcc(buffer_size, n_filters, n_coefs, samplerate);
mfcc_out = new_fvec(n_coefs);
examples_common_process((aubio_process_func_t)process_block, process_print);
del_aubio_pvoc (pv);
del_cvec (fftgrain);
del_aubio_mfcc(mfcc);
del_fvec(mfcc_out);
examples_common_del();
return 0;
}
int main(int argc, char **argv) {
// params
buffer_size = 512;
overlap_size = 256;
examples_common_init(argc,argv);
/* phase vocoder */
pv = new_aubio_pvoc (buffer_size, overlap_size);
fftgrain = new_cvec (buffer_size);
//populating the filter
mfcc = new_aubio_mfcc(buffer_size, n_filters, n_coefs, samplerate);
mfcc_out = new_fvec(n_coefs);
//process
examples_common_process(aubio_process,process_print);
//destroying mfcc
del_aubio_pvoc (pv);
del_cvec (fftgrain);
del_aubio_mfcc(mfcc);
del_fvec(mfcc_out);
examples_common_del();
debug("End of program.\n");
fflush(stderr);
return 0;
}
int main (int argc, char** argv)
{
sint_t err = 0;
if (argc < 2) {
err = 2;
PRINT_WRN("no arguments, running tests\n");
err = test_wrong_params();
PRINT_MSG("usage: %s <input_path> [samplerate] [hop_size]\n", argv[0]);
return err;
}
uint_t win_s; // fft size
uint_t hop_s = 256; // block size
uint_t samplerate = 0; // samplerate
uint_t n_filters = 40; // number of filters
uint_t n_coeffs = 13; // number of coefficients
uint_t read = 0;
char_t *source_path = argv[1];
if ( argc >= 3 ) samplerate = atoi(argv[2]);
if ( argc >= 4 ) hop_s = atoi(argv[3]);
win_s = 2 * hop_s;
aubio_source_t *source = 0;
aubio_pvoc_t *pv = 0;
aubio_mfcc_t *mfcc = 0;
fvec_t *in = new_fvec (hop_s); // phase vocoder input
cvec_t *fftgrain = new_cvec (win_s); // pvoc output / mfcc input
fvec_t *out = new_fvec (n_coeffs); // mfcc output
if (!in || !fftgrain || !out) { err = 1; goto failure; }
// source
source = new_aubio_source(source_path, samplerate, hop_s);
if (!source) { err = 1; goto failure; }
if (samplerate == 0) samplerate = aubio_source_get_samplerate(source);
// phase vocoder
pv = new_aubio_pvoc(win_s, hop_s);
if (!pv) { err = 1; goto failure; }
// mfcc object
mfcc = new_aubio_mfcc (win_s, n_filters, n_coeffs, samplerate);
if (!mfcc) { err = 1; goto failure; }
// processing loop
do {
aubio_source_do(source, in, &read);
aubio_pvoc_do(pv, in, fftgrain);
aubio_mfcc_do(mfcc, fftgrain, out);
fvec_print(out);
} while (read == hop_s);
failure:
if (mfcc)
del_aubio_mfcc(mfcc);
if (pv)
del_aubio_pvoc(pv);
if (source)
del_aubio_source(source);
if (in)
del_fvec(in);
if (fftgrain)
del_cvec(fftgrain);
if (out)
del_fvec(out);
aubio_cleanup();
return err;
}
