/* Copyright (C) 2003-2013 Paul Brossier This file is part of aubio. aubio 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 3 of the License, or (at your option) any later version. aubio 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 aubio. If not, see . */ /** This file includes some tools common to all examples. Code specific to the algorithm performed by each program should go in the source file of that program instead. */ #include "utils.h" #ifdef HAVE_JACK #include "jackio.h" #endif /* HAVE_JACK */ int verbose = 0; int usejack = 0; // input / output char_t *sink_uri = NULL; char_t *source_uri = NULL; // general stuff uint_t samplerate = 0; uint_t buffer_size = 512; uint_t hop_size = 256; // onset stuff char_t * onset_method = "default"; smpl_t onset_threshold = 0.0; // will be set if != 0. smpl_t onset_minioi = 0.0; // will be set if != 0. // pitch stuff char_t * pitch_unit = "default"; char_t * pitch_method = "default"; smpl_t pitch_tolerance = 0.0; // will be set if != 0. // time stuff uint_t time_format = 0; // for "seconds", 1 for "ms", 2 for "samples" // tempo stuff char_t * tempo_method = "default"; // more general stuff smpl_t silence_threshold = -90.; smpl_t release_drop = 10.; uint_t mix_input = 0; uint_t force_overwrite = 0; // // internal memory stuff aubio_source_t *this_source = NULL; aubio_sink_t *this_sink = NULL; fvec_t *input_buffer; fvec_t *output_buffer; smpl_t miditap_note = 69.; smpl_t miditap_velo = 65.; /* settings */ int blocks = 0; extern void usage (FILE * stream, int exit_code); extern int parse_args (int argc, char **argv); #if HAVE_JACK #define MAX_MIDI_EVENTS 128 #define MAX_MIDI_EVENT_SIZE 3 aubio_jack_t *jack_setup; jack_midi_event_t ev; jack_midi_data_t midi_data[MAX_MIDI_EVENTS * MAX_MIDI_EVENT_SIZE]; size_t midi_event_count = 0; #endif /* HAVE_JACK */ void examples_common_init (int argc, char **argv); void examples_common_del (void); void examples_common_process (aubio_process_func_t process_func, aubio_print_func_t print); void examples_common_init (int argc, char **argv) { /* parse command line arguments */ parse_args (argc, argv); if (!usejack) { debug ("Opening files ...\n"); this_source = new_aubio_source ((char_t*)source_uri, samplerate, hop_size); if (this_source == NULL) { errmsg ("Error: could not open input file %s\n", source_uri); exit (1); } if (samplerate == 0) { samplerate = aubio_source_get_samplerate(this_source); } if (sink_uri != NULL) { uint_t sink_exists = (access(sink_uri, F_OK) == 0 ); if (!force_overwrite && sink_exists) { errmsg ("Error: output file %s already exists, use -f to overwrite.\n", sink_uri); exit (1); } this_sink = new_aubio_sink ((char_t*)sink_uri, samplerate); if (this_sink == NULL) { errmsg ("Error: could not create output file %s\n", sink_uri); exit (1); } } #ifdef HAVE_JACK } else { debug ("Jack init ...\n"); jack_setup = new_aubio_jack (hop_size, 1, 1, 0, 1); samplerate = aubio_jack_get_samplerate (jack_setup); source_uri = "jack"; #endif /* HAVE_JACK */ } input_buffer = new_fvec (hop_size); output_buffer = new_fvec (hop_size); } void examples_common_del (void) { del_fvec (input_buffer); del_fvec (output_buffer); aubio_cleanup (); fflush(stderr); fflush(stdout); } void examples_common_process (aubio_process_func_t process_func, aubio_print_func_t print) { uint_t read = 0; if (usejack) { #ifdef HAVE_JACK ev.size = MAX_MIDI_EVENT_SIZE; ev.time = 0; // send it now debug ("Jack activation ...\n"); aubio_jack_activate (jack_setup, process_func); debug ("Processing (Ctrl+C to quit) ...\n"); pause (); aubio_jack_close (jack_setup); #else /* HAVE_JACK */ usage (stderr, 1); outmsg ("Compiled without jack output, exiting.\n"); #endif /* HAVE_JACK */ } else { uint_t total_read = 0; blocks = 0; do { aubio_source_do (this_source, input_buffer, &read); process_func (input_buffer, output_buffer); // print to console if verbose or no output given if (verbose || sink_uri == NULL) { print(); } if (this_sink) { aubio_sink_do (this_sink, output_buffer, hop_size); } blocks++; total_read += read; } while (read == hop_size); verbmsg ("read %.2fs (%d samples in %d blocks of %d) from %s at %dHz\n", total_read * 1. / samplerate, total_read, blocks, hop_size, source_uri, samplerate); del_aubio_source (this_source); if (this_sink) del_aubio_sink (this_sink); } } void send_noteon (smpl_t pitch, smpl_t velo) { #ifdef HAVE_JACK if (usejack) { ev.buffer = midi_data + midi_event_count++ * MAX_MIDI_EVENT_SIZE; if (midi_event_count >= MAX_MIDI_EVENTS) { midi_event_count = 0; } ev.buffer[2] = velo; ev.buffer[1] = pitch; if (velo == 0) { ev.buffer[0] = 0x80; /* note off */ } else { ev.buffer[0] = 0x90; /* note on */ } aubio_jack_midi_event_write (jack_setup, (jack_midi_event_t *) & ev); } else #endif if (velo == 0) { print_time (blocks * hop_size); outmsg ("\n"); } else { outmsg ("%f\t", pitch); print_time (blocks * hop_size); outmsg ("\t"); } } void print_time (uint_t time_in_samples) { /* output times in selected format */ if (time_format == 2) { outmsg ("%d", time_in_samples); } else if (time_format == 1) { outmsg ("%f", 1000. * time_in_samples / (float) samplerate); } else { outmsg ("%f", time_in_samples / (float) samplerate); } }