/* FluidSynth Metronome - Sequencer API example * * This code is in the public domain. * * To compile: * gcc -o fluidsynth_metronome -lfluidsynth fluidsynth_metronome.c * * To run: * fluidsynth_metronome soundfont [beats [tempo]] * * [Pedro Lopez-Cabanillas ] */ #include #include #include fluid_synth_t *synth; fluid_audio_driver_t *audiodriver; fluid_sequencer_t *sequencer; short synth_destination, client_destination; unsigned int time_marker; /* default tempo, beats per minute */ #define TEMPO 120 unsigned int note_duration = 60000 / TEMPO; /* metronome click/bell */ unsigned int weak_note = 33; unsigned int strong_note = 34; /* number of notes in one pattern */ unsigned int pattern_size = 4; /* prototype */ void sequencer_callback(unsigned int time, fluid_event_t *event, fluid_sequencer_t *seq, void *data); /* schedule a note on message */ void schedule_noteon(int chan, short key, unsigned int ticks) { fluid_event_t *ev = new_fluid_event(); fluid_event_set_source(ev, -1); fluid_event_set_dest(ev, synth_destination); fluid_event_noteon(ev, chan, key, 127); fluid_sequencer_send_at(sequencer, ev, ticks, 1); delete_fluid_event(ev); } /* schedule a timer event (shall trigger the callback) */ void schedule_timer_event(void) { fluid_event_t *ev = new_fluid_event(); fluid_event_set_source(ev, -1); fluid_event_set_dest(ev, client_destination); fluid_event_timer(ev, NULL); fluid_sequencer_send_at(sequencer, ev, time_marker, 1); delete_fluid_event(ev); } /* schedule the metronome pattern */ void schedule_pattern(void) { int i, note_time; note_time = time_marker; for(i = 0; i < pattern_size; ++i) { schedule_noteon(9, i ? weak_note : strong_note, note_time); note_time += note_duration; } time_marker = note_time; } void sequencer_callback(unsigned int time, fluid_event_t *event, fluid_sequencer_t *seq, void *data) { schedule_timer_event(); schedule_pattern(); } void usage(char *prog_name) { printf("Usage: %s soundfont.sf2 [beats [tempo]]\n", prog_name); printf("\t(optional) beats: number of pattern beats, default %d\n", pattern_size); printf("\t(optional) tempo: BPM (Beats Per Minute), default %d\n", TEMPO); } int main(int argc, char *argv[]) { int n; fluid_settings_t *settings; settings = new_fluid_settings(); if(argc < 2) { usage(argv[0]); } else { /* create the synth, driver and sequencer instances */ synth = new_fluid_synth(settings); /* load a SoundFont */ n = fluid_synth_sfload(synth, argv[1], 1); if(n != -1) { sequencer = new_fluid_sequencer2(0); /* register the synth with the sequencer */ synth_destination = fluid_sequencer_register_fluidsynth(sequencer, synth); /* register the client name and callback */ client_destination = fluid_sequencer_register_client(sequencer, "fluidsynth_metronome", sequencer_callback, NULL); audiodriver = new_fluid_audio_driver(settings, synth); if(argc > 2) { n = atoi(argv[2]); if(n > 0) { pattern_size = n; } } if(argc > 3) { n = atoi(argv[3]); if(n > 0) { note_duration = 60000 / n; } } /* get the current time in ticks */ time_marker = fluid_sequencer_get_tick(sequencer); /* schedule patterns */ schedule_pattern(); schedule_timer_event(); schedule_pattern(); /* wait for user input */ printf("press to stop\n"); n = getchar(); } /* clean and exit */ delete_fluid_audio_driver(audiodriver); delete_fluid_sequencer(sequencer); delete_fluid_synth(synth); } delete_fluid_settings(settings); return 0; }