/* * ***** BEGIN GPL LICENSE BLOCK ***** * * Copyright 2009-2011 Jörg Hermann Müller * * This file is part of AudaSpace. * * Audaspace 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 2 of the License, or * (at your option) any later version. * * AudaSpace 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 Audaspace; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * ***** END GPL LICENSE BLOCK ***** */ /** \file audaspace/jack/AUD_JackDevice.cpp * \ingroup audjack */ #include "AUD_JackDevice.h" #include "AUD_IReader.h" #include #include void* AUD_JackDevice::runMixingThread(void* device) { ((AUD_JackDevice*)device)->updateRingBuffers(); return NULL; } void AUD_JackDevice::updateRingBuffers() { size_t size, temp; unsigned int samplesize = AUD_SAMPLE_SIZE(m_specs); unsigned int i, j; unsigned int channels = m_specs.channels; sample_t* buffer = m_buffer.getBuffer(); float* deinterleave = m_deinterleavebuf.getBuffer(); jack_transport_state_t state; jack_position_t position; pthread_mutex_lock(&m_mixingLock); while(m_valid) { if(m_sync > 1) { if(m_syncFunc) { state = AUD_jack_transport_query(m_client, &position); m_syncFunc(m_syncFuncData, state != JackTransportStopped, position.frame / (float) m_specs.rate); } for(i = 0; i < channels; i++) AUD_jack_ringbuffer_reset(m_ringbuffers[i]); } size = AUD_jack_ringbuffer_write_space(m_ringbuffers[0]); for(i = 1; i < channels; i++) if((temp = AUD_jack_ringbuffer_write_space(m_ringbuffers[i])) < size) size = temp; while(size > samplesize) { size /= samplesize; mix((data_t*)buffer, size); for(i = 0; i < channels; i++) { for(j = 0; j < size; j++) deinterleave[i * size + j] = buffer[i + j * channels]; AUD_jack_ringbuffer_write(m_ringbuffers[i], (char*)(deinterleave + i * size), size * sizeof(float)); } size = AUD_jack_ringbuffer_write_space(m_ringbuffers[0]); for(i = 1; i < channels; i++) if((temp = AUD_jack_ringbuffer_write_space(m_ringbuffers[i])) < size) size = temp; } if(m_sync > 1) { m_sync = 3; } pthread_cond_wait(&m_mixingCondition, &m_mixingLock); } pthread_mutex_unlock(&m_mixingLock); } int AUD_JackDevice::jack_mix(jack_nframes_t length, void *data) { AUD_JackDevice* device = (AUD_JackDevice*)data; unsigned int i; int count = device->m_specs.channels; char* buffer; if(device->m_sync) { // play silence while syncing for(unsigned int i = 0; i < count; i++) memset(AUD_jack_port_get_buffer(device->m_ports[i], length), 0, length * sizeof(float)); } else { size_t temp; size_t readsamples = AUD_jack_ringbuffer_read_space(device->m_ringbuffers[0]); for(i = 1; i < count; i++) if((temp = AUD_jack_ringbuffer_read_space(device->m_ringbuffers[i])) < readsamples) readsamples = temp; readsamples = AUD_MIN(readsamples / sizeof(float), length); for(unsigned int i = 0; i < count; i++) { buffer = (char*)AUD_jack_port_get_buffer(device->m_ports[i], length); AUD_jack_ringbuffer_read(device->m_ringbuffers[i], buffer, readsamples * sizeof(float)); if(readsamples < length) memset(buffer + readsamples * sizeof(float), 0, (length - readsamples) * sizeof(float)); } if(pthread_mutex_trylock(&(device->m_mixingLock)) == 0) { pthread_cond_signal(&(device->m_mixingCondition)); pthread_mutex_unlock(&(device->m_mixingLock)); } } return 0; } int AUD_JackDevice::jack_sync(jack_transport_state_t state, jack_position_t* pos, void* data) { AUD_JackDevice* device = (AUD_JackDevice*)data; if(state == JackTransportStopped) return 1; if(pthread_mutex_trylock(&(device->m_mixingLock)) == 0) { if(device->m_sync > 2) { if(device->m_sync == 3) { device->m_sync = 0; pthread_mutex_unlock(&(device->m_mixingLock)); return 1; } } else { device->m_sync = 2; pthread_cond_signal(&(device->m_mixingCondition)); } pthread_mutex_unlock(&(device->m_mixingLock)); } else if(!device->m_sync) device->m_sync = 1; return 0; } void AUD_JackDevice::jack_shutdown(void *data) { AUD_JackDevice* device = (AUD_JackDevice*)data; device->m_valid = false; } static const char* clientopen_error = "AUD_JackDevice: Couldn't connect to " "jack server."; static const char* port_error = "AUD_JackDevice: Couldn't create output port."; static const char* activate_error = "AUD_JackDevice: Couldn't activate the " "client."; AUD_JackDevice::AUD_JackDevice(std::string name, AUD_DeviceSpecs specs, int buffersize) { if(specs.channels == AUD_CHANNELS_INVALID) specs.channels = AUD_CHANNELS_STEREO; // jack uses floats m_specs = specs; m_specs.format = AUD_FORMAT_FLOAT32; jack_options_t options = JackNullOption; jack_status_t status; // open client m_client = AUD_jack_client_open(name.c_str(), options, &status); if(m_client == NULL) AUD_THROW(AUD_ERROR_JACK, clientopen_error); // set callbacks AUD_jack_set_process_callback(m_client, AUD_JackDevice::jack_mix, this); AUD_jack_on_shutdown(m_client, AUD_JackDevice::jack_shutdown, this); AUD_jack_set_sync_callback(m_client, AUD_JackDevice::jack_sync, this); // register our output channels which are called ports in jack m_ports = new jack_port_t*[m_specs.channels]; try { char portname[64]; for(int i = 0; i < m_specs.channels; i++) { sprintf(portname, "out %d", i+1); m_ports[i] = AUD_jack_port_register(m_client, portname, JACK_DEFAULT_AUDIO_TYPE, JackPortIsOutput, 0); if(m_ports[i] == NULL) AUD_THROW(AUD_ERROR_JACK, port_error); } } catch(AUD_Exception&) { AUD_jack_client_close(m_client); delete[] m_ports; throw; } m_specs.rate = (AUD_SampleRate)AUD_jack_get_sample_rate(m_client); buffersize *= sizeof(sample_t); m_ringbuffers = new jack_ringbuffer_t*[specs.channels]; for(unsigned int i = 0; i < specs.channels; i++) m_ringbuffers[i] = AUD_jack_ringbuffer_create(buffersize); buffersize *= specs.channels; m_deinterleavebuf.resize(buffersize); m_buffer.resize(buffersize); create(); m_valid = true; m_sync = 0; m_syncFunc = NULL; m_nextState = m_state = AUD_jack_transport_query(m_client, NULL); pthread_mutex_init(&m_mixingLock, NULL); pthread_cond_init(&m_mixingCondition, NULL); // activate the client if(AUD_jack_activate(m_client)) { AUD_jack_client_close(m_client); delete[] m_ports; for(unsigned int i = 0; i < specs.channels; i++) AUD_jack_ringbuffer_free(m_ringbuffers[i]); delete[] m_ringbuffers; pthread_mutex_destroy(&m_mixingLock); pthread_cond_destroy(&m_mixingCondition); destroy(); AUD_THROW(AUD_ERROR_JACK, activate_error); } const char** ports = AUD_jack_get_ports(m_client, NULL, NULL, JackPortIsPhysical | JackPortIsInput); if(ports != NULL) { for(int i = 0; i < m_specs.channels && ports[i]; i++) AUD_jack_connect(m_client, AUD_jack_port_name(m_ports[i]), ports[i]); free(ports); } pthread_attr_t attr; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_JOINABLE); pthread_create(&m_mixingThread, &attr, runMixingThread, this); pthread_attr_destroy(&attr); } AUD_JackDevice::~AUD_JackDevice() { if(m_valid) AUD_jack_client_close(m_client); m_valid = false; delete[] m_ports; pthread_mutex_lock(&m_mixingLock); pthread_cond_signal(&m_mixingCondition); pthread_mutex_unlock(&m_mixingLock); pthread_join(m_mixingThread, NULL); pthread_cond_destroy(&m_mixingCondition); pthread_mutex_destroy(&m_mixingLock); for(unsigned int i = 0; i < m_specs.channels; i++) AUD_jack_ringbuffer_free(m_ringbuffers[i]); delete[] m_ringbuffers; destroy(); } void AUD_JackDevice::playing(bool playing) { // Do nothing. } void AUD_JackDevice::startPlayback() { AUD_jack_transport_start(m_client); m_nextState = JackTransportRolling; } void AUD_JackDevice::stopPlayback() { AUD_jack_transport_stop(m_client); m_nextState = JackTransportStopped; } void AUD_JackDevice::seekPlayback(float time) { if(time >= 0.0f) AUD_jack_transport_locate(m_client, time * m_specs.rate); } void AUD_JackDevice::setSyncCallback(AUD_syncFunction sync, void* data) { m_syncFunc = sync; m_syncFuncData = data; } float AUD_JackDevice::getPlaybackPosition() { jack_position_t position; AUD_jack_transport_query(m_client, &position); return position.frame / (float) m_specs.rate; } bool AUD_JackDevice::doesPlayback() { jack_transport_state_t state = AUD_jack_transport_query(m_client, NULL); if(state != m_state) m_nextState = m_state = state; return m_nextState != JackTransportStopped; }