ref: fc5e189ce9e7f0e1e1f585a67c73fddc293c6e9a
dir: /tests/src/onset/test-onset.c/
#include <aubio.h> #include "utils_tests.h" int main (int argc, char **argv) { uint_t err = 0; if (argc < 2) { err = 2; PRINT_ERR("not enough arguments\n"); PRINT_MSG("read a wave file as a mono vector\n"); PRINT_MSG("usage: %s <source_path> [samplerate] [hop_size]\n", argv[0]); return err; } uint_t samplerate = 0; uint_t win_s = 1024; // window size uint_t hop_size = win_s / 4; uint_t n_frames = 0, read = 0; if ( argc == 3 ) samplerate = atoi(argv[2]); if ( argc == 4 ) hop_size = atoi(argv[3]); char_t *source_path = argv[1]; aubio_source_t * source = new_aubio_source(source_path, samplerate, hop_size); if (!source) { err = 1; goto beach; } if (samplerate == 0 ) samplerate = aubio_source_get_samplerate(source); // create some vectors fvec_t * in = new_fvec (hop_size); // input audio buffer fvec_t * out = new_fvec (2); // output position // create onset object aubio_onset_t * o = new_aubio_onset("default", win_s, hop_size, samplerate); do { // put some fresh data in input vector aubio_source_do(source, in, &read); // execute onset aubio_onset_do(o,in,out); // do something with the onsets if (out->data[0] != 0) { PRINT_MSG("onset at %.3fms, %.3fs, frame %d\n", aubio_onset_get_last_ms(o), aubio_onset_get_last_s(o), aubio_onset_get_last(o)); } n_frames += read; } while ( read == hop_size ); PRINT_MSG("read %.2fs, %d frames at %dHz (%d blocks) from %s\n", n_frames * 1. / samplerate, n_frames, samplerate, n_frames / hop_size, source_path); // clean up memory del_aubio_source(source); del_aubio_onset(o); del_fvec(in); del_fvec(out); beach: aubio_cleanup(); return err; }