/* FluidSynth - A Software Synthesizer * * Copyright (C) 2003 Peter Hanappe and others. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public License * as published by the Free Software Foundation; either version 2.1 of * the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free * Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA * 02110-1301, USA */ #include "fluid_rvoice_event.h" #include "fluid_rvoice.h" #include "fluid_rvoice_mixer.h" #include "fluid_iir_filter.h" #include "fluid_lfo.h" #include "fluid_adsr_env.h" static int fluid_rvoice_eventhandler_push_LOCAL(fluid_rvoice_eventhandler_t *handler, const fluid_rvoice_event_t *src_event); static FLUID_INLINE void fluid_rvoice_event_dispatch(fluid_rvoice_event_t *event) { event->method(event->object, event->param); } /** * In order to be able to push more than one event atomically, * use push for all events, then use flush to commit them to the * queue. If threadsafe is false, all events are processed immediately. */ int fluid_rvoice_eventhandler_push_int_real(fluid_rvoice_eventhandler_t *handler, fluid_rvoice_function_t method, void *object, int intparam, fluid_real_t realparam) { fluid_rvoice_event_t local_event; local_event.method = method; local_event.object = object; local_event.param[0].i = intparam; local_event.param[1].real = realparam; return fluid_rvoice_eventhandler_push_LOCAL(handler, &local_event); } int fluid_rvoice_eventhandler_push(fluid_rvoice_eventhandler_t *handler, fluid_rvoice_function_t method, void *object, fluid_rvoice_param_t param[MAX_EVENT_PARAMS]) { fluid_rvoice_event_t local_event; local_event.method = method; local_event.object = object; FLUID_MEMCPY(&local_event.param, param, sizeof(*param) * MAX_EVENT_PARAMS); return fluid_rvoice_eventhandler_push_LOCAL(handler, &local_event); } int fluid_rvoice_eventhandler_push_ptr(fluid_rvoice_eventhandler_t *handler, fluid_rvoice_function_t method, void *object, void *ptr) { fluid_rvoice_event_t local_event; local_event.method = method; local_event.object = object; local_event.param[0].ptr = ptr; return fluid_rvoice_eventhandler_push_LOCAL(handler, &local_event); } static int fluid_rvoice_eventhandler_push_LOCAL(fluid_rvoice_eventhandler_t *handler, const fluid_rvoice_event_t *src_event) { fluid_rvoice_event_t *event; int old_queue_stored = fluid_atomic_int_add(&handler->queue_stored, 1); event = fluid_ringbuffer_get_inptr(handler->queue, old_queue_stored); if(event == NULL) { fluid_atomic_int_add(&handler->queue_stored, -1); FLUID_LOG(FLUID_WARN, "Ringbuffer full, try increasing synth.polyphony!"); return FLUID_FAILED; // Buffer full... } FLUID_MEMCPY(event, src_event, sizeof(*event)); return FLUID_OK; } void fluid_rvoice_eventhandler_finished_voice_callback(fluid_rvoice_eventhandler_t *eventhandler, fluid_rvoice_t *rvoice) { fluid_rvoice_t **vptr = fluid_ringbuffer_get_inptr(eventhandler->finished_voices, 0); if(vptr == NULL) { return; // Buffer full } *vptr = rvoice; fluid_ringbuffer_next_inptr(eventhandler->finished_voices, 1); } fluid_rvoice_eventhandler_t * new_fluid_rvoice_eventhandler(int queuesize, int finished_voices_size, int bufs, int fx_bufs, int fx_units, fluid_real_t sample_rate_max, fluid_real_t sample_rate, int extra_threads, int prio) { fluid_rvoice_eventhandler_t *eventhandler = FLUID_NEW(fluid_rvoice_eventhandler_t); if(eventhandler == NULL) { FLUID_LOG(FLUID_ERR, "Out of memory"); return NULL; } eventhandler->mixer = NULL; eventhandler->queue = NULL; eventhandler->finished_voices = NULL; fluid_atomic_int_set(&eventhandler->queue_stored, 0); eventhandler->finished_voices = new_fluid_ringbuffer(finished_voices_size, sizeof(fluid_rvoice_t *)); if(eventhandler->finished_voices == NULL) { goto error_recovery; } eventhandler->queue = new_fluid_ringbuffer(queuesize, sizeof(fluid_rvoice_event_t)); if(eventhandler->queue == NULL) { goto error_recovery; } eventhandler->mixer = new_fluid_rvoice_mixer(bufs, fx_bufs, fx_units, sample_rate_max, sample_rate, eventhandler, extra_threads, prio); if(eventhandler->mixer == NULL) { goto error_recovery; } return eventhandler; error_recovery: delete_fluid_rvoice_eventhandler(eventhandler); return NULL; } int fluid_rvoice_eventhandler_dispatch_count(fluid_rvoice_eventhandler_t *handler) { return fluid_ringbuffer_get_count(handler->queue); } /** * Call fluid_rvoice_event_dispatch for all events in queue * @return number of events dispatched */ int fluid_rvoice_eventhandler_dispatch_all(fluid_rvoice_eventhandler_t *handler) { fluid_rvoice_event_t *event; int result = 0; while(NULL != (event = fluid_ringbuffer_get_outptr(handler->queue))) { fluid_rvoice_event_dispatch(event); result++; fluid_ringbuffer_next_outptr(handler->queue); } return result; } void delete_fluid_rvoice_eventhandler(fluid_rvoice_eventhandler_t *handler) { fluid_return_if_fail(handler != NULL); delete_fluid_rvoice_mixer(handler->mixer); delete_fluid_ringbuffer(handler->queue); delete_fluid_ringbuffer(handler->finished_voices); FLUID_FREE(handler); }