#include #include "utils_tests.h" int test_wrong_params(void); int main(int argc, char **argv) { uint_t err = 0; if (argc < 2) { PRINT_ERR("not enough arguments, running tests\n"); err = test_wrong_params(); PRINT_MSG("read a wave file as a mono vector\n"); PRINT_MSG("usage: %s [samplerate] [hop_size]\n", argv[0]); PRINT_MSG("examples:\n"); PRINT_MSG(" - read file.wav at original samplerate\n"); PRINT_MSG(" %s file.wav\n", argv[0]); PRINT_MSG(" - read file.wav at 32000Hz\n"); PRINT_MSG(" %s file.aif 32000\n", argv[0]); PRINT_MSG(" - read file.wav at original samplerate with 4096 blocks\n"); PRINT_MSG(" %s file.wav 0 4096 \n", argv[0]); return err; } uint_t samplerate = 0; uint_t hop_size = 256; 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* s = new_aubio_source(source_path, samplerate, hop_size); fvec_t *vec = new_fvec(hop_size); if (!s || !vec) { err = 1; goto beach; } uint_t n_frames_expected = aubio_source_get_duration(s); samplerate = aubio_source_get_samplerate(s); do { aubio_source_do(s, vec, &read); fvec_print (vec); n_frames += read; } while ( read == hop_size ); PRINT_MSG("read %d frames (expected %d) at %dHz (%d blocks) from %s\n", n_frames, n_frames_expected, samplerate, n_frames / hop_size, source_path); // close the file (optional) aubio_source_close(s); beach: if (vec) del_fvec(vec); if (s) del_aubio_source(s); return err; } int test_wrong_params(void) { char_t *uri = DEFINEDSTRING(AUBIO_TESTS_SOURCE); uint_t samplerate = 44100; uint_t hop_size = 512; uint_t channels, read = 0; fvec_t *vec; fmat_t *mat; aubio_source_t *s; if (new_aubio_source(0, samplerate, hop_size)) return 1; if (new_aubio_source("\0", samplerate, hop_size)) return 1; if (new_aubio_source(uri, -1, hop_size)) return 1; if (new_aubio_source(uri, 0, 0)) return 1; s = new_aubio_source(uri, samplerate, hop_size); if (!s) return 1; channels = aubio_source_get_channels(s); // vector to read downmixed samples vec = new_fvec(hop_size); // matrix to read individual channels mat = new_fmat(channels, hop_size); if (aubio_source_get_samplerate(s) != samplerate) return 1; // read first hop_size frames aubio_source_do(s, vec, &read); if (read != hop_size) return 1; // read again in undersized vector del_fvec(vec); vec = new_fvec(hop_size - 1); aubio_source_do(s, vec, &read); if (read != hop_size - 1) return 1; // read again in oversized vector del_fvec(vec); vec = new_fvec(hop_size + 1); aubio_source_do(s, vec, &read); if (read != hop_size) return 1; // seek to 0 if(aubio_source_seek(s, 0)) return 1; // read again as multiple channels aubio_source_do_multi(s, mat, &read); if (read != hop_size) return 1; // read again as multiple channels in an undersized matrix del_fmat(mat); mat = new_fmat(channels - 1, hop_size); aubio_source_do_multi(s, mat, &read); if (read != hop_size) return 1; // read again as multiple channels in an undersized matrix del_fmat(mat); mat = new_fmat(channels, hop_size - 1); aubio_source_do_multi(s, mat, &read); if (read != hop_size - 1) return 1; // read again as multiple channels in an oversized matrix del_fmat(mat); mat = new_fmat(channels + 1, hop_size); aubio_source_do_multi(s, mat, &read); if (read != hop_size) return 1; // read again as multiple channels in an oversized matrix del_fmat(mat); mat = new_fmat(channels, hop_size + 1); aubio_source_do_multi(s, mat, &read); if (read != hop_size) return 1; // close the file (optional) aubio_source_close(s); // test closing the file a second time aubio_source_close(s); del_aubio_source(s); del_fmat(mat); del_fvec(vec); return run_on_default_source(main); }