// -*- c-basic-offset: 4 -*- /* Rosegarden A sequencer and musical notation editor. This program is Copyright 2000-2008 Guillaume Laurent , Chris Cannam , Richard Bown The moral right of the authors to claim authorship of this work has been asserted. This program 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. See the file COPYING included with this distribution for more information. */ #include #include #include #include "DSSIPluginInstance.h" #include "PluginIdentifier.h" #include "LADSPAPluginFactory.h" #ifdef HAVE_DSSI //#define DEBUG_DSSI 1 //#define DEBUG_DSSI_PROCESS 1 namespace Rosegarden { #define EVENT_BUFFER_SIZE 1023 DSSIPluginInstance::GroupMap DSSIPluginInstance::m_groupMap; snd_seq_event_t **DSSIPluginInstance::m_groupLocalEventBuffers = 0; size_t DSSIPluginInstance::m_groupLocalEventBufferCount = 0; Scavenger > DSSIPluginInstance::m_bufferScavenger(2, 10); DSSIPluginInstance::DSSIPluginInstance(PluginFactory *factory, InstrumentId instrument, TQString identifier, int position, unsigned long sampleRate, size_t blockSize, int idealChannelCount, const DSSI_Descriptor* descriptor) : RunnablePluginInstance(factory, identifier), m_instrument(instrument), m_position(position), m_descriptor(descriptor), m_programCacheValid(false), m_eventBuffer(EVENT_BUFFER_SIZE), m_blockSize(blockSize), m_idealChannelCount(idealChannelCount), m_sampleRate(sampleRate), m_latencyPort(0), m_run(false), m_runSinceReset(false), m_bypassed(false), m_grouped(false) { pthread_mutex_t initialisingMutex = PTHREAD_MUTEX_INITIALIZER; memcpy(&m_processLock, &initialisingMutex, sizeof(pthread_mutex_t)); #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::DSSIPluginInstance(" << identifier << ")" << std::endl; #endif init(); m_inputBuffers = new sample_t * [m_audioPortsIn.size()]; m_outputBuffers = new sample_t * [m_outputBufferCount]; for (size_t i = 0; i < m_audioPortsIn.size(); ++i) { m_inputBuffers[i] = new sample_t[blockSize]; } for (size_t i = 0; i < m_outputBufferCount; ++i) { m_outputBuffers[i] = new sample_t[blockSize]; } m_ownBuffers = true; m_pending.lsb = m_pending.msb = m_pending.program = -1; instantiate(sampleRate); if (isOK()) { connectPorts(); activate(); initialiseGroupMembership(); } } DSSIPluginInstance::DSSIPluginInstance(PluginFactory *factory, InstrumentId instrument, TQString identifier, int position, unsigned long sampleRate, size_t blockSize, sample_t **inputBuffers, sample_t **outputBuffers, const DSSI_Descriptor* descriptor) : RunnablePluginInstance(factory, identifier), m_instrument(instrument), m_position(position), m_descriptor(descriptor), m_eventBuffer(EVENT_BUFFER_SIZE), m_blockSize(blockSize), m_inputBuffers(inputBuffers), m_outputBuffers(outputBuffers), m_ownBuffers(false), m_idealChannelCount(0), m_sampleRate(sampleRate), m_latencyPort(0), m_run(false), m_runSinceReset(false), m_bypassed(false), m_grouped(false) { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::DSSIPluginInstance[buffers supplied](" << identifier << ")" << std::endl; #endif init(); m_pending.lsb = m_pending.msb = m_pending.program = -1; instantiate(sampleRate); if (isOK()) { connectPorts(); activate(); if (m_descriptor->run_multiple_synths) { m_grouped = true; initialiseGroupMembership(); } } } void DSSIPluginInstance::init() { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::init" << std::endl; #endif // Discover ports numbers and identities // const LADSPA_Descriptor *descriptor = m_descriptor->LADSPA_Plugin; for (unsigned long i = 0; i < descriptor->PortCount; ++i) { if (LADSPA_IS_PORT_AUDIO(descriptor->PortDescriptors[i])) { if (LADSPA_IS_PORT_INPUT(descriptor->PortDescriptors[i])) { m_audioPortsIn.push_back(i); } else { m_audioPortsOut.push_back(i); } } else if (LADSPA_IS_PORT_CONTROL(descriptor->PortDescriptors[i])) { if (LADSPA_IS_PORT_INPUT(descriptor->PortDescriptors[i])) { LADSPA_Data *data = new LADSPA_Data(0.0); m_controlPortsIn.push_back(std::pair (i, data)); m_backupControlPortsIn.push_back(0.0); m_portChangedSinceProgramChange.push_back(false); } else { LADSPA_Data *data = new LADSPA_Data(0.0); m_controlPortsOut.push_back( std::pair(i, data)); if (!strcmp(descriptor->PortNames[i], "latency") || !strcmp(descriptor->PortNames[i], "_latency")) { #ifdef DEBUG_DSSI std::cerr << "Wooo! We have a latency port!" << std::endl; #endif m_latencyPort = data; } } } #ifdef DEBUG_DSSI else std::cerr << "DSSIPluginInstance::DSSIPluginInstance - " << "unrecognised port type" << std::endl; #endif } m_outputBufferCount = std::max(m_idealChannelCount, m_audioPortsOut.size()); } size_t DSSIPluginInstance::getLatency() { #ifdef DEBUG_DSSI // std::cerr << "DSSIPluginInstance::getLatency(): m_latencyPort " << m_latencyPort << ", m_run " << m_run << std::endl; #endif if (m_latencyPort) { if (!m_run) { for (int i = 0; i < getAudioInputCount(); ++i) { for (int j = 0; j < m_blockSize; ++j) { m_inputBuffers[i][j] = 0.f; } } run(RealTime::zeroTime); } #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::getLatency(): latency is " << (size_t)(*m_latencyPort + 0.1) << std::endl; #endif return (size_t)(*m_latencyPort + 0.1); } return 0; } void DSSIPluginInstance::silence() { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::silence: m_run " << m_run << ", m_runSinceReset " << m_runSinceReset << std::endl; #endif if (m_run && !m_runSinceReset) { return ; } if (m_instanceHandle != 0) { deactivate(); activate(); } m_runSinceReset = false; } void DSSIPluginInstance::discardEvents() { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::discardEvents" << std::endl; #endif m_eventBuffer.reset(); } void DSSIPluginInstance::setIdealChannelCount(size_t channels) { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::setIdealChannelCount: channel count " << channels << " (was " << m_idealChannelCount << ")" << std::endl; #endif if (channels == m_idealChannelCount) { silence(); return ; } if (m_instanceHandle != 0) { deactivate(); } m_idealChannelCount = channels; if (channels > m_outputBufferCount) { for (size_t i = 0; i < m_outputBufferCount; ++i) { delete[] m_outputBuffers[i]; } delete[] m_outputBuffers; m_outputBufferCount = channels; m_outputBuffers = new sample_t * [m_outputBufferCount]; for (size_t i = 0; i < m_outputBufferCount; ++i) { m_outputBuffers[i] = new sample_t[m_blockSize]; } connectPorts(); } if (m_instanceHandle != 0) { activate(); } } void DSSIPluginInstance::detachFromGroup() { if (!m_grouped) return ; m_groupMap[m_identifier].erase(this); m_grouped = false; } void DSSIPluginInstance::initialiseGroupMembership() { if (!m_descriptor->run_multiple_synths) { m_grouped = false; return ; } //!!! GroupMap is not actually thread-safe. size_t pluginsInGroup = m_groupMap[m_identifier].size(); if (++pluginsInGroup > m_groupLocalEventBufferCount) { size_t nextBufferCount = pluginsInGroup * 2; snd_seq_event_t **eventLocalBuffers = new snd_seq_event_t * [nextBufferCount]; for (size_t i = 0; i < m_groupLocalEventBufferCount; ++i) { eventLocalBuffers[i] = m_groupLocalEventBuffers[i]; } for (size_t i = m_groupLocalEventBufferCount; i < nextBufferCount; ++i) { eventLocalBuffers[i] = new snd_seq_event_t[EVENT_BUFFER_SIZE]; } if (m_groupLocalEventBuffers) { m_bufferScavenger.claim(new ScavengerArrayWrapper (m_groupLocalEventBuffers)); } m_groupLocalEventBuffers = eventLocalBuffers; m_groupLocalEventBufferCount = nextBufferCount; } m_grouped = true; m_groupMap[m_identifier].insert(this); } DSSIPluginInstance::~DSSIPluginInstance() { // std::cerr << "DSSIPluginInstance::~DSSIPluginInstance" << std::endl; detachFromGroup(); if (m_instanceHandle != 0) { deactivate(); } cleanup(); for (unsigned int i = 0; i < m_controlPortsIn.size(); ++i) delete m_controlPortsIn[i].second; for (unsigned int i = 0; i < m_controlPortsOut.size(); ++i) delete m_controlPortsOut[i].second; m_controlPortsIn.clear(); m_controlPortsOut.clear(); if (m_ownBuffers) { for (size_t i = 0; i < m_audioPortsIn.size(); ++i) { delete[] m_inputBuffers[i]; } for (size_t i = 0; i < m_outputBufferCount; ++i) { delete[] m_outputBuffers[i]; } delete[] m_inputBuffers; delete[] m_outputBuffers; } m_audioPortsIn.clear(); m_audioPortsOut.clear(); } void DSSIPluginInstance::instantiate(unsigned long sampleRate) { #ifdef DEBUG_DSSI std::cout << "DSSIPluginInstance::instantiate - plugin unique id = " << m_descriptor->LADSPA_Plugin->UniqueID << std::endl; #endif if (!m_descriptor) return ; const LADSPA_Descriptor *descriptor = m_descriptor->LADSPA_Plugin; if (!descriptor->instantiate) { std::cerr << "Bad plugin: plugin id " << descriptor->UniqueID << ":" << descriptor->Label << " has no instantiate method!" << std::endl; return ; } m_instanceHandle = descriptor->instantiate(descriptor, sampleRate); if (m_instanceHandle) { if (m_descriptor->get_midi_controller_for_port) { for (unsigned long i = 0; i < descriptor->PortCount; ++i) { if (LADSPA_IS_PORT_CONTROL(descriptor->PortDescriptors[i]) && LADSPA_IS_PORT_INPUT(descriptor->PortDescriptors[i])) { int controller = m_descriptor->get_midi_controller_for_port (m_instanceHandle, i); if (controller != 0 && controller != 32 && DSSI_IS_CC(controller)) { m_controllerMap[DSSI_CC_NUMBER(controller)] = i; } } } } } } void DSSIPluginInstance::checkProgramCache() { if (m_programCacheValid) return ; m_cachedPrograms.clear(); #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::checkProgramCache" << std::endl; #endif if (!m_descriptor || !m_descriptor->get_program) { m_programCacheValid = true; return ; } unsigned long index = 0; const DSSI_Program_Descriptor *programDescriptor; while ((programDescriptor = m_descriptor->get_program(m_instanceHandle, index))) { ++index; ProgramDescriptor d; d.bank = programDescriptor->Bank; d.program = programDescriptor->Program; d.name = TQString("%1. %2").arg(index).arg(programDescriptor->Name); m_cachedPrograms.push_back(d); } #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::checkProgramCache: have " << m_cachedPrograms.size() << " programs" << std::endl; #endif m_programCacheValid = true; } TQStringList DSSIPluginInstance::getPrograms() { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::getPrograms" << std::endl; #endif if (!m_descriptor) return TQStringList(); checkProgramCache(); TQStringList programs; for (std::vector::iterator i = m_cachedPrograms.begin(); i != m_cachedPrograms.end(); ++i) { programs.push_back(i->name); } return programs; } TQString DSSIPluginInstance::getProgram(int bank, int program) { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::getProgram(" << bank << "," << program << ")" << std::endl; #endif if (!m_descriptor) return TQString(); checkProgramCache(); for (std::vector::iterator i = m_cachedPrograms.begin(); i != m_cachedPrograms.end(); ++i) { if (i->bank == bank && i->program == program) return i->name; } return TQString(); } unsigned long DSSIPluginInstance::getProgram(TQString name) { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::getProgram(" << name << ")" << std::endl; #endif if (!m_descriptor) return 0; checkProgramCache(); unsigned long rv; for (std::vector::iterator i = m_cachedPrograms.begin(); i != m_cachedPrograms.end(); ++i) { if (i->name == name) { rv = i->bank; rv = (rv << 16) + i->program; return rv; } } return 0; } TQString DSSIPluginInstance::getCurrentProgram() { return m_program; } void DSSIPluginInstance::selectProgram(TQString program) { selectProgramAux(program, true); } void DSSIPluginInstance::selectProgramAux(TQString program, bool backupPortValues) { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance[" << this << "]::selectProgram(" << program << ", " << backupPortValues << ")" << std::endl; #endif if (!m_descriptor) return ; checkProgramCache(); if (!m_descriptor->select_program) return ; bool found = false; unsigned long bankNo = 0, programNo = 0; for (std::vector::iterator i = m_cachedPrograms.begin(); i != m_cachedPrograms.end(); ++i) { if (i->name == program) { bankNo = i->bank; programNo = i->program; found = true; #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::selectProgram(" << program << "): found at bank " << bankNo << ", program " << programNo << std::endl; #endif break; } } if (!found) return ; m_program = program; // DSSI select_program is an audio context call pthread_mutex_lock(&m_processLock); m_descriptor->select_program(m_instanceHandle, bankNo, programNo); pthread_mutex_unlock(&m_processLock); #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::selectProgram(" << program << "): made select_program(" << bankNo << "," << programNo << ") call" << std::endl; #endif if (backupPortValues) { for (size_t i = 0; i < m_backupControlPortsIn.size(); ++i) { m_backupControlPortsIn[i] = *m_controlPortsIn[i].second; m_portChangedSinceProgramChange[i] = false; } } } void DSSIPluginInstance::activate() { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance[" << this << "]::activate" << std::endl; #endif if (!m_descriptor || !m_descriptor->LADSPA_Plugin->activate) return ; m_descriptor->LADSPA_Plugin->activate(m_instanceHandle); for (size_t i = 0; i < m_backupControlPortsIn.size(); ++i) { if (m_portChangedSinceProgramChange[i]) { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::activate: setting port " << m_controlPortsIn[i].first << " to " << m_backupControlPortsIn[i] << std::endl; #endif *m_controlPortsIn[i].second = m_backupControlPortsIn[i]; } } if (!m_program.isNull()) { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::activate: restoring program " << m_program << std::endl; #endif selectProgramAux(m_program, false); for (size_t i = 0; i < m_backupControlPortsIn.size(); ++i) { if (m_portChangedSinceProgramChange[i]) { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::activate: setting port " << m_controlPortsIn[i].first << " to " << m_backupControlPortsIn[i] << std::endl; #endif *m_controlPortsIn[i].second = m_backupControlPortsIn[i]; } } } } void DSSIPluginInstance::connectPorts() { if (!m_descriptor || !m_descriptor->LADSPA_Plugin->connect_port) return ; #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::connectPorts: " << m_audioPortsIn.size() << " audio ports in, " << m_audioPortsOut.size() << " out, " << m_outputBufferCount << " output buffers" << std::endl; #endif assert(sizeof(LADSPA_Data) == sizeof(float)); assert(sizeof(sample_t) == sizeof(float)); int inbuf = 0, outbuf = 0; for (unsigned int i = 0; i < m_audioPortsIn.size(); ++i) { m_descriptor->LADSPA_Plugin->connect_port (m_instanceHandle, m_audioPortsIn[i], (LADSPA_Data *)m_inputBuffers[inbuf]); ++inbuf; } for (unsigned int i = 0; i < m_audioPortsOut.size(); ++i) { m_descriptor->LADSPA_Plugin->connect_port (m_instanceHandle, m_audioPortsOut[i], (LADSPA_Data *)m_outputBuffers[outbuf]); ++outbuf; } for (unsigned int i = 0; i < m_controlPortsIn.size(); ++i) { m_descriptor->LADSPA_Plugin->connect_port (m_instanceHandle, m_controlPortsIn[i].first, m_controlPortsIn[i].second); } for (unsigned int i = 0; i < m_controlPortsOut.size(); ++i) { m_descriptor->LADSPA_Plugin->connect_port (m_instanceHandle, m_controlPortsOut[i].first, m_controlPortsOut[i].second); } } void DSSIPluginInstance::setPortValue(unsigned int portNumber, float value) { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance[" << this << "]::setPortValue(" << portNumber << ") to " << value << std::endl; #endif for (unsigned int i = 0; i < m_controlPortsIn.size(); ++i) { if (m_controlPortsIn[i].first == portNumber) { LADSPAPluginFactory *f = dynamic_cast(m_factory); if (f) { if (value < f->getPortMinimum(m_descriptor->LADSPA_Plugin, portNumber)) { value = f->getPortMinimum(m_descriptor->LADSPA_Plugin, portNumber); } if (value > f->getPortMaximum(m_descriptor->LADSPA_Plugin, portNumber)) { value = f->getPortMaximum(m_descriptor->LADSPA_Plugin, portNumber); } } (*m_controlPortsIn[i].second) = value; m_backupControlPortsIn[i] = value; m_portChangedSinceProgramChange[i] = true; } } } void DSSIPluginInstance::setPortValueFromController(unsigned int port, int cv) { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::setPortValueFromController(" << port << ") to " << cv << std::endl; #endif const LADSPA_Descriptor *p = m_descriptor->LADSPA_Plugin; LADSPA_PortRangeHintDescriptor d = p->PortRangeHints[port].HintDescriptor; LADSPA_Data lb = p->PortRangeHints[port].LowerBound; LADSPA_Data ub = p->PortRangeHints[port].UpperBound; float value = (float)cv; if (!LADSPA_IS_HINT_BOUNDED_BELOW(d)) { if (!LADSPA_IS_HINT_BOUNDED_ABOVE(d)) { /* unbounded: might as well leave the value alone. */ } else { /* bounded above only. just shift the range. */ value = ub - 127.0f + value; } } else { if (!LADSPA_IS_HINT_BOUNDED_ABOVE(d)) { /* bounded below only. just shift the range. */ value = lb + value; } else { /* bounded both ends. more interesting. */ /* XXX !!! todo: fill in logarithmic, sample rate &c */ value = lb + ((ub - lb) * value / 127.0f); } } setPortValue(port, value); } float DSSIPluginInstance::getPortValue(unsigned int portNumber) { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::getPortValue(" << portNumber << ")" << std::endl; #endif for (unsigned int i = 0; i < m_controlPortsIn.size(); ++i) { if (m_controlPortsIn[i].first == portNumber) { return (*m_controlPortsIn[i].second); } } return 0.0; } TQString DSSIPluginInstance::configure(TQString key, TQString value) { if (!m_descriptor || !m_descriptor->configure) return TQString(); if (key == PluginIdentifier::RESERVED_PROJECT_DIRECTORY_KEY) { #ifdef DSSI_PROJECT_DIRECTORY_KEY key = DSSI_PROJECT_DIRECTORY_KEY; #else return TQString(); #endif } #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::configure(" << key << "," << value << ")" << std::endl; #endif char *message = m_descriptor->configure(m_instanceHandle, key.ascii(), value.ascii()); m_programCacheValid = false; TQString qm; // Ignore return values from reserved key configuration calls such // as project directory #ifdef DSSI_RESERVED_CONFIGURE_PREFIX if (key.startsWith(DSSI_RESERVED_CONFIGURE_PREFIX)) { return qm; } #endif if (message) { if (m_descriptor->LADSPA_Plugin && m_descriptor->LADSPA_Plugin->Label) { qm = TQString(m_descriptor->LADSPA_Plugin->Label) + ": "; } qm = qm + message; free(message); } return qm; } void DSSIPluginInstance::sendEvent(const RealTime &eventTime, const void *e) { snd_seq_event_t *event = (snd_seq_event_t *)e; #ifdef DEBUG_DSSI_PROCESS std::cerr << "DSSIPluginInstance::sendEvent at " << eventTime << std::endl; #endif snd_seq_event_t ev(*event); ev.time.time.tv_sec = eventTime.sec; ev.time.time.tv_nsec = eventTime.nsec; // DSSI doesn't use MIDI channels, it uses run_multiple_synths instead. ev.data.note.channel = 0; m_eventBuffer.write(&ev, 1); } bool DSSIPluginInstance::handleController(snd_seq_event_t *ev) { int controller = ev->data.control.param; #ifdef DEBUG_DSSI_PROCESS std::cerr << "DSSIPluginInstance::handleController " << controller << std::endl; #endif if (controller == 0) { // bank select MSB m_pending.msb = ev->data.control.value; } else if (controller == 32) { // bank select LSB m_pending.lsb = ev->data.control.value; } else if (controller > 0 && controller < 128) { if (m_controllerMap.find(controller) != m_controllerMap.end()) { int port = m_controllerMap[controller]; setPortValueFromController(port, ev->data.control.value); } else { return true; // pass through to plugin } } return false; } void DSSIPluginInstance::run(const RealTime &blockTime) { static snd_seq_event_t localEventBuffer[EVENT_BUFFER_SIZE]; int evCount = 0; bool needLock = false; if (m_descriptor->select_program) needLock = true; if (needLock) { if (pthread_mutex_trylock(&m_processLock) != 0) { for (size_t ch = 0; ch < m_audioPortsOut.size(); ++ch) { memset(m_outputBuffers[ch], 0, m_blockSize * sizeof(sample_t)); } return ; } } if (m_grouped) { runGrouped(blockTime); goto done; } if (!m_descriptor || !m_descriptor->run_synth) { m_eventBuffer.skip(m_eventBuffer.getReadSpace()); if (m_descriptor->LADSPA_Plugin->run) { m_descriptor->LADSPA_Plugin->run(m_instanceHandle, m_blockSize); } else { for (size_t ch = 0; ch < m_audioPortsOut.size(); ++ch) { memset(m_outputBuffers[ch], 0, m_blockSize * sizeof(sample_t)); } } m_run = true; m_runSinceReset = true; if (needLock) pthread_mutex_unlock(&m_processLock); return ; } #ifdef DEBUG_DSSI_PROCESS std::cerr << "DSSIPluginInstance::run(" << blockTime << ")" << std::endl; #endif #ifdef DEBUG_DSSI_PROCESS if (m_eventBuffer.getReadSpace() > 0) { std::cerr << "DSSIPluginInstance::run: event buffer has " << m_eventBuffer.getReadSpace() << " event(s) in it" << std::endl; } #endif while (m_eventBuffer.getReadSpace() > 0) { snd_seq_event_t *ev = localEventBuffer + evCount; *ev = m_eventBuffer.peek(); bool accept = true; RealTime evTime(ev->time.time.tv_sec, ev->time.time.tv_nsec); int frameOffset = 0; if (evTime > blockTime) { frameOffset = RealTime::realTime2Frame(evTime - blockTime, m_sampleRate); } #ifdef DEBUG_DSSI_PROCESS std::cerr << "DSSIPluginInstance::run: evTime " << evTime << ", blockTime " << blockTime << ", frameOffset " << frameOffset << ", blockSize " << m_blockSize << std::endl; std::cerr << "Type: " << int(ev->type) << ", pitch: " << int(ev->data.note.note) << ", velocity: " << int(ev->data.note.velocity) << std::endl; #endif if (frameOffset >= int(m_blockSize)) break; if (frameOffset < 0) frameOffset = 0; ev->time.tick = frameOffset; m_eventBuffer.skip(1); if (ev->type == SND_SEQ_EVENT_CONTROLLER) { accept = handleController(ev); } else if (ev->type == SND_SEQ_EVENT_PGMCHANGE) { m_pending.program = ev->data.control.value; accept = false; } if (accept) { if (++evCount >= EVENT_BUFFER_SIZE) break; } } if (m_pending.program >= 0 && m_descriptor->select_program) { int program = m_pending.program; int bank = m_pending.lsb + 128 * m_pending.msb; #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::run: making select_program(" << bank << "," << program << " call" << std::endl; #endif m_pending.lsb = m_pending.msb = m_pending.program = -1; m_descriptor->select_program(m_instanceHandle, bank, program); #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::run: made select_program(" << bank << "," << program << " call" << std::endl; #endif } #ifdef DEBUG_DSSI_PROCESS std::cerr << "DSSIPluginInstance::run: running with " << evCount << " events" << std::endl; #endif m_descriptor->run_synth(m_instanceHandle, m_blockSize, localEventBuffer, evCount); #ifdef DEBUG_DSSI_PROCESS // for (int i = 0; i < m_blockSize; ++i) { // std::cout << m_outputBuffers[0][i] << " "; // if (i % 8 == 0) std::cout << std::endl; // } #endif done: if (needLock) pthread_mutex_unlock(&m_processLock); if (m_audioPortsOut.size() == 0) { // copy inputs to outputs for (size_t ch = 0; ch < m_idealChannelCount; ++ch) { size_t sch = ch % m_audioPortsIn.size(); for (size_t i = 0; i < m_blockSize; ++i) { m_outputBuffers[ch][i] = m_inputBuffers[sch][i]; } } } else if (m_idealChannelCount < m_audioPortsOut.size()) { if (m_idealChannelCount == 1) { // mix down to mono for (size_t ch = 1; ch < m_audioPortsOut.size(); ++ch) { for (size_t i = 0; i < m_blockSize; ++i) { m_outputBuffers[0][i] += m_outputBuffers[ch][i]; } } } } else if (m_idealChannelCount > m_audioPortsOut.size()) { // duplicate for (size_t ch = m_audioPortsOut.size(); ch < m_idealChannelCount; ++ch) { size_t sch = (ch - m_audioPortsOut.size()) % m_audioPortsOut.size(); for (size_t i = 0; i < m_blockSize; ++i) { m_outputBuffers[ch][i] = m_outputBuffers[sch][i]; } } } m_lastRunTime = blockTime; m_run = true; m_runSinceReset = true; } void DSSIPluginInstance::runGrouped(const RealTime &blockTime) { // If something else in our group has just been called for this // block time (but we haven't) then we should just write out the // results and return; if we have just been called for this block // time or nothing else in the group has been, we should run the // whole group. bool needRun = true; PluginSet &s = m_groupMap[m_identifier]; #ifdef DEBUG_DSSI_PROCESS std::cerr << "DSSIPluginInstance::runGrouped(" << blockTime << "): this is " << this << "; " << s.size() << " elements in m_groupMap[" << m_identifier << "]" << std::endl; #endif if (m_lastRunTime != blockTime) { for (PluginSet::iterator i = s.begin(); i != s.end(); ++i) { DSSIPluginInstance *instance = *i; if (instance != this && instance->m_lastRunTime == blockTime) { #ifdef DEBUG_DSSI_PROCESS std::cerr << "DSSIPluginInstance::runGrouped(" << blockTime << "): plugin " << instance << " has already been run" << std::endl; #endif needRun = false; } } } if (!needRun) { #ifdef DEBUG_DSSI_PROCESS std::cerr << "DSSIPluginInstance::runGrouped(" << blockTime << "): already run, returning" << std::endl; #endif return ; } #ifdef DEBUG_DSSI_PROCESS std::cerr << "DSSIPluginInstance::runGrouped(" << blockTime << "): I'm the first, running" << std::endl; #endif size_t index = 0; unsigned long *counts = (unsigned long *) alloca(m_groupLocalEventBufferCount * sizeof(unsigned long)); LADSPA_Handle *instances = (LADSPA_Handle *) alloca(m_groupLocalEventBufferCount * sizeof(LADSPA_Handle)); for (PluginSet::iterator i = s.begin(); i != s.end(); ++i) { if (index >= m_groupLocalEventBufferCount) break; DSSIPluginInstance *instance = *i; counts[index] = 0; instances[index] = instance->m_instanceHandle; #ifdef DEBUG_DSSI_PROCESS std::cerr << "DSSIPluginInstance::runGrouped(" << blockTime << "): running " << instance << std::endl; #endif if (instance->m_pending.program >= 0 && instance->m_descriptor->select_program) { int program = instance->m_pending.program; int bank = instance->m_pending.lsb + 128 * instance->m_pending.msb; instance->m_pending.lsb = instance->m_pending.msb = instance->m_pending.program = -1; instance->m_descriptor->select_program (instance->m_instanceHandle, bank, program); } while (instance->m_eventBuffer.getReadSpace() > 0) { snd_seq_event_t *ev = m_groupLocalEventBuffers[index] + counts[index]; *ev = instance->m_eventBuffer.peek(); bool accept = true; RealTime evTime(ev->time.time.tv_sec, ev->time.time.tv_nsec); int frameOffset = 0; if (evTime > blockTime) { frameOffset = RealTime::realTime2Frame(evTime - blockTime, m_sampleRate); } #ifdef DEBUG_DSSI_PROCESS std::cerr << "DSSIPluginInstance::runGrouped: evTime " << evTime << ", frameOffset " << frameOffset << ", block size " << m_blockSize << std::endl; #endif if (frameOffset >= int(m_blockSize)) break; if (frameOffset < 0) frameOffset = 0; ev->time.tick = frameOffset; instance->m_eventBuffer.skip(1); if (ev->type == SND_SEQ_EVENT_CONTROLLER) { accept = instance->handleController(ev); } else if (ev->type == SND_SEQ_EVENT_PGMCHANGE) { instance->m_pending.program = ev->data.control.value; accept = false; } if (accept) { if (++counts[index] >= EVENT_BUFFER_SIZE) break; } } ++index; } m_descriptor->run_multiple_synths(index, instances, m_blockSize, m_groupLocalEventBuffers, counts); } void DSSIPluginInstance::deactivate() { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::deactivate " << m_identifier << std::endl; #endif if (!m_descriptor || !m_descriptor->LADSPA_Plugin->deactivate) return ; for (size_t i = 0; i < m_backupControlPortsIn.size(); ++i) { m_backupControlPortsIn[i] = *m_controlPortsIn[i].second; } m_descriptor->LADSPA_Plugin->deactivate(m_instanceHandle); #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::deactivate " << m_identifier << " done" << std::endl; #endif m_bufferScavenger.scavenge(); } void DSSIPluginInstance::cleanup() { #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::cleanup " << m_identifier << std::endl; #endif if (!m_descriptor) return ; if (!m_descriptor->LADSPA_Plugin->cleanup) { std::cerr << "Bad plugin: plugin id " << m_descriptor->LADSPA_Plugin->UniqueID << ":" << m_descriptor->LADSPA_Plugin->Label << " has no cleanup method!" << std::endl; return ; } m_descriptor->LADSPA_Plugin->cleanup(m_instanceHandle); m_instanceHandle = 0; #ifdef DEBUG_DSSI std::cerr << "DSSIPluginInstance::cleanup " << m_identifier << " done" << std::endl; #endif } } #endif // HAVE_DSSI