/* * Carla Plugin * Copyright (C) 2011-2013 Filipe Coelho * * 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 any later version. * * This program 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. * * For a full copy of the GNU General Public License see the GPL.txt file */ #include "CarlaPluginInternal.hpp" #include "CarlaLibUtils.hpp" #include "CarlaMIDI.h" #include #include CARLA_BACKEND_START_NAMESPACE // ------------------------------------------------------------------- // fallback data static const ParameterData kParameterDataNull; static const ParameterRanges kParameterRangesNull; static const MidiProgramData kMidiProgramDataNull; static const CustomData kCustomDataNull; // ------------------------------------------------------------------- // Plugin Helpers CarlaEngine* CarlaPluginGetEngine(CarlaPlugin* const plugin) { return CarlaPluginProtectedData::getEngine(plugin); } CarlaEngineAudioPort* CarlaPluginGetAudioInPort(CarlaPlugin* const plugin, const uint32_t index) { return CarlaPluginProtectedData::getAudioInPort(plugin, index); } CarlaEngineAudioPort* CarlaPluginGetAudioOutPort(CarlaPlugin* const plugin, const uint32_t index) { return CarlaPluginProtectedData::getAudioOutPort(plugin, index); } // ------------------------------------------------------------------- // Constructor and destructor CarlaPlugin::CarlaPlugin(CarlaEngine* const engine, const unsigned int id) : fId(id), fHints(0x0), fOptions(0x0), fEnabled(false), kData(new CarlaPluginProtectedData(engine, this)) { CARLA_ASSERT(kData != nullptr); CARLA_ASSERT(engine != nullptr); CARLA_ASSERT(id < engine->maxPluginNumber()); carla_debug("CarlaPlugin::CarlaPlugin(%p, %i)", engine, id); switch (engine->getProccessMode()) { case PROCESS_MODE_SINGLE_CLIENT: case PROCESS_MODE_MULTIPLE_CLIENTS: CARLA_ASSERT(id < MAX_DEFAULT_PLUGINS); break; case PROCESS_MODE_CONTINUOUS_RACK: CARLA_ASSERT(id < MAX_RACK_PLUGINS); break; case PROCESS_MODE_PATCHBAY: CARLA_ASSERT(id < MAX_PATCHBAY_PLUGINS); break; case PROCESS_MODE_BRIDGE: CARLA_ASSERT(id == 0); break; } if (engine->getOptions().forceStereo) fOptions |= PLUGIN_OPTION_FORCE_STEREO; } CarlaPlugin::~CarlaPlugin() { carla_debug("CarlaPlugin::~CarlaPlugin()"); // Remove client and ports if (kData->client != nullptr) { if (kData->client->isActive()) kData->client->deactivate(); // can't call virtual functions in destructor CarlaPlugin::deleteBuffers(); delete kData->client; } if (kData->latencyBuffers != nullptr) { for (uint32_t i=0; i < kData->audioIn.count; i++) delete[] kData->latencyBuffers[i]; delete[] kData->latencyBuffers; } for (auto it = kData->custom.begin(); it.valid(); it.next()) { CustomData& cData(*it); CARLA_ASSERT(cData.type != nullptr); CARLA_ASSERT(cData.key != nullptr); CARLA_ASSERT(cData.value != nullptr); if (cData.type != nullptr) delete[] cData.type; if (cData.key != nullptr) delete[] cData.key; if (cData.value != nullptr) delete[] cData.value; } kData->prog.clear(); kData->midiprog.clear(); kData->custom.clear(); // MUST have been unlocked before kData->masterMutex.unlock(); kData->singleMutex.unlock(); libClose(); delete kData; } // ------------------------------------------------------------------- // Information (base) uint32_t CarlaPlugin::latency() const { return kData->latency; } // ------------------------------------------------------------------- // Information (count) uint32_t CarlaPlugin::audioInCount() const { return kData->audioIn.count; } uint32_t CarlaPlugin::audioOutCount() const { return kData->audioOut.count; } uint32_t CarlaPlugin::midiInCount() const { return (kData->extraHints & PLUGIN_HINT_HAS_MIDI_IN) ? 1 : 0; } uint32_t CarlaPlugin::midiOutCount() const { return (kData->extraHints & PLUGIN_HINT_HAS_MIDI_OUT) ? 1 : 0; } uint32_t CarlaPlugin::parameterCount() const { return kData->param.count; } uint32_t CarlaPlugin::parameterScalePointCount(const uint32_t parameterId) const { CARLA_ASSERT(parameterId < kData->param.count); return 0; // unused (void)parameterId; } uint32_t CarlaPlugin::programCount() const { return kData->prog.count; } uint32_t CarlaPlugin::midiProgramCount() const { return kData->midiprog.count; } uint32_t CarlaPlugin::customDataCount() const { return kData->custom.count(); } // ------------------------------------------------------------------- // Information (current data) int32_t CarlaPlugin::currentProgram() const { return kData->prog.current; } int32_t CarlaPlugin::currentMidiProgram() const { return kData->midiprog.current; } const ParameterData& CarlaPlugin::parameterData(const uint32_t parameterId) const { CARLA_ASSERT(parameterId < kData->param.count); return (parameterId < kData->param.count) ? kData->param.data[parameterId] : kParameterDataNull; } const ParameterRanges& CarlaPlugin::parameterRanges(const uint32_t parameterId) const { CARLA_ASSERT(parameterId < kData->param.count); return (parameterId < kData->param.count) ? kData->param.ranges[parameterId] : kParameterRangesNull; } bool CarlaPlugin::parameterIsOutput(const uint32_t parameterId) const { CARLA_ASSERT(parameterId < kData->param.count); return (parameterId < kData->param.count) ? (kData->param.data[parameterId].type == PARAMETER_OUTPUT) : false; } const MidiProgramData& CarlaPlugin::midiProgramData(const uint32_t index) const { CARLA_ASSERT(index < kData->midiprog.count); return (index < kData->midiprog.count) ? kData->midiprog.data[index] : kMidiProgramDataNull; } const CustomData& CarlaPlugin::customData(const uint32_t index) const { CARLA_ASSERT(index < kData->custom.count()); return (index < kData->custom.count()) ? kData->custom.getAt(index) : kCustomDataNull; } int32_t CarlaPlugin::chunkData(void** const dataPtr) { CARLA_ASSERT(dataPtr != nullptr); CARLA_ASSERT(false); // this should never happen return 0; // unused (void)dataPtr; } // ------------------------------------------------------------------- // Information (per-plugin data) unsigned int CarlaPlugin::availableOptions() { CARLA_ASSERT(false); // this should never happen return 0x0; } float CarlaPlugin::getParameterValue(const uint32_t parameterId) { CARLA_ASSERT(parameterId < parameterCount()); CARLA_ASSERT(false); // this should never happen return 0.0f; // unused (void)parameterId; } float CarlaPlugin::getParameterScalePointValue(const uint32_t parameterId, const uint32_t scalePointId) { CARLA_ASSERT(parameterId < parameterCount()); CARLA_ASSERT(scalePointId < parameterScalePointCount(parameterId)); CARLA_ASSERT(false); // this should never happen return 0.0f; // unused (void)parameterId; (void)scalePointId; } void CarlaPlugin::getLabel(char* const strBuf) { *strBuf = '\0'; } void CarlaPlugin::getMaker(char* const strBuf) { *strBuf = '\0'; } void CarlaPlugin::getCopyright(char* const strBuf) { *strBuf = '\0'; } void CarlaPlugin::getRealName(char* const strBuf) { *strBuf = '\0'; } void CarlaPlugin::getParameterName(const uint32_t parameterId, char* const strBuf) { CARLA_ASSERT(parameterId < parameterCount()); *strBuf = '\0'; return; // unused (void)parameterId; } void CarlaPlugin::getParameterSymbol(const uint32_t parameterId, char* const strBuf) { CARLA_ASSERT(parameterId < parameterCount()); *strBuf = '\0'; return; // unused (void)parameterId; } void CarlaPlugin::getParameterText(const uint32_t parameterId, char* const strBuf) { CARLA_ASSERT(parameterId < parameterCount()); *strBuf = '\0'; return; // unused (void)parameterId; } void CarlaPlugin::getParameterUnit(const uint32_t parameterId, char* const strBuf) { CARLA_ASSERT(parameterId < parameterCount()); *strBuf = '\0'; return; // unused (void)parameterId; } void CarlaPlugin::getParameterScalePointLabel(const uint32_t parameterId, const uint32_t scalePointId, char* const strBuf) { CARLA_ASSERT(parameterId < parameterCount()); CARLA_ASSERT(scalePointId < parameterScalePointCount(parameterId)); *strBuf = '\0'; return; // unused (void)parameterId; (void)scalePointId; } void CarlaPlugin::getProgramName(const uint32_t index, char* const strBuf) { CARLA_ASSERT(index < kData->prog.count); CARLA_ASSERT(kData->prog.names[index] != nullptr); if (index < kData->prog.count && kData->prog.names[index]) std::strncpy(strBuf, kData->prog.names[index], STR_MAX); else *strBuf = '\0'; } void CarlaPlugin::getMidiProgramName(const uint32_t index, char* const strBuf) { CARLA_ASSERT(index < kData->midiprog.count); CARLA_ASSERT(kData->midiprog.data[index].name != nullptr); if (index < kData->midiprog.count && kData->midiprog.data[index].name) std::strncpy(strBuf, kData->midiprog.data[index].name, STR_MAX); else *strBuf = '\0'; } void CarlaPlugin::getParameterCountInfo(uint32_t* const ins, uint32_t* const outs, uint32_t* const total) { CARLA_ASSERT(ins != nullptr); CARLA_ASSERT(outs != nullptr); CARLA_ASSERT(total != nullptr); if (ins == nullptr || outs == nullptr || total == nullptr) return; *ins = 0; *outs = 0; *total = kData->param.count; for (uint32_t i=0; i < kData->param.count; i++) { if (kData->param.data[i].type == PARAMETER_INPUT) *ins += 1; else if (kData->param.data[i].type == PARAMETER_OUTPUT) *outs += 1; } } // ------------------------------------------------------------------- // Set data (state) void CarlaPlugin::prepareForSave() { } const SaveState& CarlaPlugin::getSaveState() { static SaveState saveState; saveState.reset(); prepareForSave(); char strBuf[STR_MAX+1]; // ---------------------------- // Basic info switch (type()) { case PLUGIN_NONE: saveState.type = carla_strdup("None"); break; case PLUGIN_INTERNAL: saveState.type = carla_strdup("Internal"); break; case PLUGIN_LADSPA: saveState.type = carla_strdup("LADSPA"); break; case PLUGIN_DSSI: saveState.type = carla_strdup("DSSI"); break; case PLUGIN_LV2: saveState.type = carla_strdup("LV2"); break; case PLUGIN_VST: saveState.type = carla_strdup("VST"); break; case PLUGIN_VST3: saveState.type = carla_strdup("VST3"); break; case PLUGIN_GIG: saveState.type = carla_strdup("GIG"); break; case PLUGIN_SF2: saveState.type = carla_strdup("SF2"); break; case PLUGIN_SFZ: saveState.type = carla_strdup("SFZ"); break; } getLabel(strBuf); saveState.name = carla_strdup(fName); saveState.label = carla_strdup(strBuf); saveState.binary = carla_strdup(fFilename); saveState.uniqueID = uniqueId(); // ---------------------------- // Internals saveState.active = kData->active; saveState.dryWet = kData->postProc.dryWet; saveState.volume = kData->postProc.volume; saveState.balanceLeft = kData->postProc.balanceLeft; saveState.balanceRight = kData->postProc.balanceRight; saveState.panning = kData->postProc.panning; saveState.ctrlChannel = kData->ctrlChannel; // ---------------------------- // Chunk if (fOptions & PLUGIN_OPTION_USE_CHUNKS) { void* data = nullptr; const int32_t dataSize(chunkData(&data)); if (data != nullptr && dataSize >= 4) { CarlaString chunkStr; chunkStr.importBinaryAsBase64((const uint8_t*)data, static_cast(dataSize)); saveState.chunk = carla_strdup(chunkStr); // Don't save anything else if using chunks return saveState; } } // ---------------------------- // Current Program if (kData->prog.current >= 0) { saveState.currentProgramIndex = kData->prog.current; saveState.currentProgramName = carla_strdup(kData->prog.names[kData->prog.current]); } // ---------------------------- // Current MIDI Program if (kData->midiprog.current >= 0) { const MidiProgramData& mpData(kData->midiprog.getCurrent()); saveState.currentMidiBank = mpData.bank; saveState.currentMidiProgram = mpData.program; } // ---------------------------- // Parameters const float sampleRate(kData->engine->getSampleRate()); for (uint32_t i=0, count=kData->param.count; i < count; i++) { const ParameterData& paramData(kData->param.data[i]); if ((paramData.hints & PARAMETER_IS_AUTOMABLE) == 0) continue; StateParameter* stateParameter(new StateParameter()); stateParameter->index = paramData.index; stateParameter->midiCC = paramData.midiCC; stateParameter->midiChannel = paramData.midiChannel + 1; getParameterName(i, strBuf); stateParameter->name = carla_strdup(strBuf); getParameterSymbol(i, strBuf); stateParameter->symbol = carla_strdup(strBuf);; stateParameter->value = getParameterValue(i); if (paramData.hints & PARAMETER_USES_SAMPLERATE) stateParameter->value /= sampleRate; saveState.parameters.push_back(stateParameter); } // ---------------------------- // Custom Data for (auto it = kData->custom.begin(); it.valid(); it.next()) { const CustomData& cData(*it); if (cData.type == nullptr) continue; StateCustomData* stateCustomData(new StateCustomData()); stateCustomData->type = carla_strdup(cData.type); stateCustomData->key = carla_strdup(cData.key); stateCustomData->value = carla_strdup(cData.value); saveState.customData.push_back(stateCustomData); } return saveState; } void CarlaPlugin::loadSaveState(const SaveState& saveState) { char strBuf[STR_MAX+1]; // --------------------------------------------------------------------- // Part 1 - set custom data (except binary/chunks) for (auto it = saveState.customData.begin(); it != saveState.customData.end(); ++it) { const StateCustomData* const stateCustomData(*it); if (std::strcmp(stateCustomData->type, CUSTOM_DATA_CHUNK) != 0) setCustomData(stateCustomData->type, stateCustomData->key, stateCustomData->value, true); } // --------------------------------------------------------------------- // Part 2 - set program int32_t programId = -1; if (saveState.currentProgramName != nullptr) { getProgramName(saveState.currentProgramIndex, strBuf); // Program name matches if (std::strcmp(saveState.currentProgramName, strBuf) == 0) { programId = saveState.currentProgramIndex; } // index < count else if (saveState.currentProgramIndex < static_cast(kData->prog.count)) { programId = saveState.currentProgramIndex; } // index not valid, try to find by name else { for (uint32_t i=0; i < kData->prog.count; i++) { getProgramName(i, strBuf); if (std::strcmp(saveState.currentProgramName, strBuf) == 0) { programId = i; break; } } } } // set program now, if valid if (programId >= 0) setProgram(programId, true, true, true); // --------------------------------------------------------------------- // Part 3 - set midi program if (saveState.currentMidiBank >= 0 && saveState.currentMidiProgram >= 0) setMidiProgramById(saveState.currentMidiBank, saveState.currentMidiProgram, true, true, true); // --------------------------------------------------------------------- // Part 4a - get plugin parameter symbols struct ParamSymbol { uint32_t index; const char* symbol; ParamSymbol(uint32_t index_, const char* symbol_) : index(index_), symbol(carla_strdup(symbol_)) {} void free() { if (symbol != nullptr) { delete[] symbol; symbol = nullptr; } } ParamSymbol() = delete; ParamSymbol(ParamSymbol&) = delete; ParamSymbol(const ParamSymbol&) = delete; }; QVector paramSymbols; if (type() == PLUGIN_LADSPA || type() == PLUGIN_LV2) { for (uint32_t i=0; i < kData->param.count; i++) { getParameterSymbol(i, strBuf); if (*strBuf != '\0') { ParamSymbol* const paramSymbol(new ParamSymbol(i, strBuf)); paramSymbols.append(paramSymbol); } } } // --------------------------------------------------------------------- // Part 4b - set parameter values (carefully) const float sampleRate(kData->engine->getSampleRate()); for (auto it = saveState.parameters.begin(); it != saveState.parameters.end(); ++it) { StateParameter* const stateParameter(*it); int32_t index = -1; if (type() == PLUGIN_LADSPA) { // Try to set by symbol, otherwise use index if (stateParameter->symbol != nullptr && *stateParameter->symbol != 0) { foreach (const ParamSymbol* paramSymbol, paramSymbols) { if (std::strcmp(stateParameter->symbol, paramSymbol->symbol) == 0) { index = paramSymbol->index; break; } } if (index == -1) index = stateParameter->index; } else index = stateParameter->index; } else if (type() == PLUGIN_LV2) { // Symbol only if (stateParameter->symbol != nullptr && *stateParameter->symbol != 0) { foreach (const ParamSymbol* paramSymbol, paramSymbols) { if (std::strcmp(stateParameter->symbol, paramSymbol->symbol) == 0) { index = paramSymbol->index; break; } } if (index == -1) carla_stderr("Failed to find LV2 parameter symbol for '%s')", stateParameter->symbol); } else carla_stderr("LV2 Plugin parameter '%s' has no symbol", stateParameter->name); } else { // Index only index = stateParameter->index; } // Now set parameter if (index >= 0 && index < static_cast(kData->param.count)) { if (kData->param.data[index].hints & PARAMETER_USES_SAMPLERATE) stateParameter->value *= sampleRate; setParameterValue(index, stateParameter->value, true, true, true); setParameterMidiCC(index, stateParameter->midiCC, true, true); setParameterMidiChannel(index, stateParameter->midiChannel, true, true); } else carla_stderr("Could not set parameter data for '%s'", stateParameter->name); } // clear foreach (ParamSymbol* paramSymbol, paramSymbols) { paramSymbol->free(); delete paramSymbol; } paramSymbols.clear(); // --------------------------------------------------------------------- // Part 5 - set chunk data for (auto it = saveState.customData.begin(); it != saveState.customData.end(); ++it) { const StateCustomData* const stateCustomData(*it); if (std::strcmp(stateCustomData->type, CUSTOM_DATA_CHUNK) == 0) setCustomData(stateCustomData->type, stateCustomData->key, stateCustomData->value, true); } if (saveState.chunk != nullptr && (fOptions & PLUGIN_OPTION_USE_CHUNKS) != 0) setChunkData(saveState.chunk); // --------------------------------------------------------------------- // Part 6 - set internal stuff setDryWet(saveState.dryWet, true, true); setVolume(saveState.volume, true, true); setBalanceLeft(saveState.balanceLeft, true, true); setBalanceRight(saveState.balanceRight, true, true); setPanning(saveState.panning, true, true); setCtrlChannel(saveState.ctrlChannel, true, true); setActive(saveState.active, true, true); } bool CarlaPlugin::saveStateToFile(const char* const filename) { carla_debug("CarlaPlugin::saveStateToFile(\"%s\")", filename); CARLA_ASSERT(filename != nullptr); QFile file(filename); if (! file.open(QIODevice::WriteOnly | QIODevice::Text)) return false; QTextStream out(&file); out << "\n"; out << "\n"; out << "\n"; out << getXMLFromSaveState(getSaveState()); out << "\n"; file.close(); return true; } bool CarlaPlugin::loadStateFromFile(const char* const filename) { carla_debug("CarlaPlugin::loadStateFromFile(\"%s\")", filename); CARLA_ASSERT(filename != nullptr); QFile file(filename); if (! file.open(QIODevice::ReadOnly | QIODevice::Text)) return false; QDomDocument xml; xml.setContent(file.readAll()); file.close(); QDomNode xmlNode(xml.documentElement()); if (xmlNode.toElement().tagName() != "CARLA-PRESET") { carla_stderr2("Not a valid Carla preset file"); return false; } loadSaveState(getSaveStateDictFromXML(xmlNode)); return true; } // ------------------------------------------------------------------- // Set data (internal stuff) void CarlaPlugin::setId(const unsigned int id) { fId = id; } void CarlaPlugin::setOption(const unsigned int option, const bool yesNo) { if (yesNo) fOptions |= option; else fOptions &= ~option; } void CarlaPlugin::setEnabled(const bool yesNo) { fEnabled = yesNo; } void CarlaPlugin::setActive(const bool active, const bool sendOsc, const bool sendCallback) { if (kData->active == active) return; kData->active = active; const float value = active ? 1.0f : 0.0f; #ifndef BUILD_BRIDGE if (sendOsc) kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_ACTIVE, value); #else // unused (void)sendOsc; #endif if (sendCallback) kData->engine->callback(CALLBACK_PARAMETER_VALUE_CHANGED, fId, PARAMETER_ACTIVE, 0, value, nullptr); #ifndef BUILD_BRIDGE else if (fHints & PLUGIN_IS_BRIDGE) osc_send_control(&kData->osc.data, PARAMETER_ACTIVE, value); #endif } void CarlaPlugin::setDryWet(const float value, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(value >= 0.0f && value <= 1.0f); const float fixedValue = carla_fixValue(0.0f, 1.0f, value); if (kData->postProc.dryWet == fixedValue) return; kData->postProc.dryWet = fixedValue; #ifndef BUILD_BRIDGE if (sendOsc) kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_DRYWET, fixedValue); #else // unused (void)sendOsc; #endif if (sendCallback) kData->engine->callback(CALLBACK_PARAMETER_VALUE_CHANGED, fId, PARAMETER_DRYWET, 0, fixedValue, nullptr); #ifndef BUILD_BRIDGE else if (fHints & PLUGIN_IS_BRIDGE) osc_send_control(&kData->osc.data, PARAMETER_DRYWET, fixedValue); #endif } void CarlaPlugin::setVolume(const float value, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(value >= 0.0f && value <= 1.27f); const float fixedValue = carla_fixValue(0.0f, 1.27f, value); if (kData->postProc.volume == fixedValue) return; kData->postProc.volume = fixedValue; #ifndef BUILD_BRIDGE if (sendOsc) kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_VOLUME, fixedValue); #else // unused (void)sendOsc; #endif if (sendCallback) kData->engine->callback(CALLBACK_PARAMETER_VALUE_CHANGED, fId, PARAMETER_VOLUME, 0, fixedValue, nullptr); #ifndef BUILD_BRIDGE else if (fHints & PLUGIN_IS_BRIDGE) osc_send_control(&kData->osc.data, PARAMETER_VOLUME, fixedValue); #endif } void CarlaPlugin::setBalanceLeft(const float value, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(value >= -1.0f && value <= 1.0f); const float fixedValue = carla_fixValue(-1.0f, 1.0f, value); if (kData->postProc.balanceLeft == fixedValue) return; kData->postProc.balanceLeft = fixedValue; #ifndef BUILD_BRIDGE if (sendOsc) kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_BALANCE_LEFT, fixedValue); #else // unused (void)sendOsc; #endif if (sendCallback) kData->engine->callback(CALLBACK_PARAMETER_VALUE_CHANGED, fId, PARAMETER_BALANCE_LEFT, 0, fixedValue, nullptr); #ifndef BUILD_BRIDGE else if (fHints & PLUGIN_IS_BRIDGE) osc_send_control(&kData->osc.data, PARAMETER_BALANCE_LEFT, fixedValue); #endif } void CarlaPlugin::setBalanceRight(const float value, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(value >= -1.0f && value <= 1.0f); const float fixedValue = carla_fixValue(-1.0f, 1.0f, value); if (kData->postProc.balanceRight == fixedValue) return; kData->postProc.balanceRight = fixedValue; #ifndef BUILD_BRIDGE if (sendOsc) kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_BALANCE_RIGHT, fixedValue); #else // unused (void)sendOsc; #endif if (sendCallback) kData->engine->callback(CALLBACK_PARAMETER_VALUE_CHANGED, fId, PARAMETER_BALANCE_RIGHT, 0, fixedValue, nullptr); #ifndef BUILD_BRIDGE else if (fHints & PLUGIN_IS_BRIDGE) osc_send_control(&kData->osc.data, PARAMETER_BALANCE_RIGHT, fixedValue); #endif } void CarlaPlugin::setPanning(const float value, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(value >= -1.0f && value <= 1.0f); const float fixedValue = carla_fixValue(-1.0f, 1.0f, value); if (kData->postProc.panning == fixedValue) return; kData->postProc.panning = fixedValue; #ifndef BUILD_BRIDGE if (sendOsc) kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_PANNING, fixedValue); #else // unused (void)sendOsc; #endif if (sendCallback) kData->engine->callback(CALLBACK_PARAMETER_VALUE_CHANGED, fId, PARAMETER_PANNING, 0, fixedValue, nullptr); #ifndef BUILD_BRIDGE else if (fHints & PLUGIN_IS_BRIDGE) osc_send_control(&kData->osc.data, PARAMETER_PANNING, fixedValue); #endif } void CarlaPlugin::setCtrlChannel(const int8_t channel, const bool sendOsc, const bool sendCallback) { if (kData->ctrlChannel == channel) return; kData->ctrlChannel = channel; #ifndef BUILD_BRIDGE const float ctrlf = channel; if (sendOsc) kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_CTRL_CHANNEL, ctrlf); #else // unused (void)sendOsc; #endif if (sendCallback) kData->engine->callback(CALLBACK_PARAMETER_VALUE_CHANGED, fId, PARAMETER_CTRL_CHANNEL, 0, channel, nullptr); #ifndef BUILD_BRIDGE else if (fHints & PLUGIN_IS_BRIDGE) osc_send_control(&kData->osc.data, PARAMETER_CTRL_CHANNEL, ctrlf); #endif } // ------------------------------------------------------------------- // Set data (plugin-specific stuff) void CarlaPlugin::setParameterValue(const uint32_t parameterId, const float value, const bool sendGui, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(parameterId < kData->param.count); if (sendGui) uiParameterChange(parameterId, value); #ifndef BUILD_BRIDGE if (sendOsc) kData->engine->osc_send_control_set_parameter_value(fId, parameterId, value); #else // unused (void)sendOsc; #endif if (sendCallback) kData->engine->callback(CALLBACK_PARAMETER_VALUE_CHANGED, fId, parameterId, 0, value, nullptr); #ifndef BUILD_BRIDGE else if (fHints & PLUGIN_IS_BRIDGE) osc_send_control(&kData->osc.data, parameterId, value); #endif } void CarlaPlugin::setParameterValueByRealIndex(const int32_t rindex, const float value, const bool sendGui, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(rindex > PARAMETER_MAX && rindex != PARAMETER_NULL); if (rindex <= PARAMETER_MAX) return; if (rindex == PARAMETER_NULL) return; if (rindex == PARAMETER_ACTIVE) return setActive((value > 0.0f), sendOsc, sendCallback); if (rindex == PARAMETER_DRYWET) return setDryWet(value, sendOsc, sendCallback); if (rindex == PARAMETER_VOLUME) return setVolume(value, sendOsc, sendCallback); if (rindex == PARAMETER_BALANCE_LEFT) return setBalanceLeft(value, sendOsc, sendCallback); if (rindex == PARAMETER_BALANCE_RIGHT) return setBalanceRight(value, sendOsc, sendCallback); if (rindex == PARAMETER_PANNING) return setPanning(value, sendOsc, sendCallback); if (rindex == PARAMETER_CTRL_CHANNEL) return setCtrlChannel(int8_t(value), sendOsc, sendCallback); for (uint32_t i=0; i < kData->param.count; i++) { if (kData->param.data[i].rindex == rindex) return setParameterValue(i, value, sendGui, sendOsc, sendCallback); } } void CarlaPlugin::setParameterMidiChannel(const uint32_t parameterId, uint8_t channel, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(parameterId < kData->param.count); CARLA_ASSERT_INT(channel < MAX_MIDI_CHANNELS, channel); if (channel >= MAX_MIDI_CHANNELS) channel = MAX_MIDI_CHANNELS; kData->param.data[parameterId].midiChannel = channel; #ifndef BUILD_BRIDGE if (sendOsc) kData->engine->osc_send_control_set_parameter_midi_channel(fId, parameterId, channel); #else // unused (void)sendOsc; #endif if (sendCallback) kData->engine->callback(CALLBACK_PARAMETER_MIDI_CHANNEL_CHANGED, fId, parameterId, channel, 0.0f, nullptr); #ifndef BUILD_BRIDGE else if (fHints & PLUGIN_IS_BRIDGE) {} // TODO #endif } void CarlaPlugin::setParameterMidiCC(const uint32_t parameterId, int16_t cc, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(parameterId < kData->param.count); CARLA_ASSERT_INT(cc >= -1, cc); if (cc < -1 || cc > 0x5F) cc = -1; kData->param.data[parameterId].midiCC = cc; #ifndef BUILD_BRIDGE if (sendOsc) kData->engine->osc_send_control_set_parameter_midi_cc(fId, parameterId, cc); #else // unused (void)sendOsc; #endif if (sendCallback) kData->engine->callback(CALLBACK_PARAMETER_MIDI_CC_CHANGED, fId, parameterId, cc, 0.0f, nullptr); #ifndef BUILD_BRIDGE else if (fHints & PLUGIN_IS_BRIDGE) {} // TODO #endif } void CarlaPlugin::setCustomData(const char* const type, const char* const key, const char* const value, const bool sendGui) { CARLA_ASSERT(type != nullptr); CARLA_ASSERT(key != nullptr); CARLA_ASSERT(value != nullptr); if (type == nullptr) return carla_stderr2("CarlaPlugin::setCustomData(\"%s\", \"%s\", \"%s\", %s) - type is null", type, key, value, bool2str(sendGui)); if (key == nullptr) return carla_stderr2("CarlaPlugin::setCustomData(\"%s\", \"%s\", \"%s\", %s) - key is null", type, key, value, bool2str(sendGui)); if (value == nullptr) return carla_stderr2("CarlaPlugin::setCustomData(\"%s\", \"%s\", \"%s\", %s) - value is null", type, key, value, bool2str(sendGui)); bool saveData = true; if (std::strcmp(type, CUSTOM_DATA_STRING) == 0) { // Ignore some keys if (std::strncmp(key, "OSC:", 4) == 0 || std::strcmp(key, "guiVisible") == 0) saveData = false; //else if (std::strcmp(key, CARLA_BRIDGE_MSG_SAVE_NOW) == 0 || std::strcmp(key, CARLA_BRIDGE_MSG_SET_CHUNK) == 0 || std::strcmp(key, CARLA_BRIDGE_MSG_SET_CUSTOM) == 0) // saveData = false; } if (saveData) { // Check if we already have this key for (auto it = kData->custom.begin(); it.valid(); it.next()) { CustomData& cData(*it); CARLA_ASSERT(cData.type != nullptr); CARLA_ASSERT(cData.key != nullptr); CARLA_ASSERT(cData.value != nullptr); if (cData.type == nullptr) return; if (cData.key == nullptr) return; if (cData.value == nullptr) return; if (std::strcmp(cData.key, key) == 0) { if (cData.value != nullptr) delete[] cData.value; cData.value = carla_strdup(value); return; } } // Otherwise store it CustomData newData; newData.type = carla_strdup(type); newData.key = carla_strdup(key); newData.value = carla_strdup(value); kData->custom.append(newData); } } void CarlaPlugin::setChunkData(const char* const stringData) { CARLA_ASSERT(stringData != nullptr); return; // unused (void)stringData; } void CarlaPlugin::setProgram(int32_t index, const bool sendGui, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(index >= -1 && index < static_cast(kData->prog.count)); if (index > static_cast(kData->prog.count)) return; const int32_t fixedIndex = carla_fixValue(-1, kData->prog.count, index); kData->prog.current = fixedIndex; // Change default parameter values if (fixedIndex >= 0) { if (sendGui) uiProgramChange(fixedIndex); for (uint32_t i=0; i < kData->param.count; i++) { // FIXME? kData->param.ranges[i].def = getParameterValue(i); kData->param.ranges[i].fixDefault(); if (sendOsc) { #ifndef BUILD_BRIDGE kData->engine->osc_send_control_set_default_value(fId, i, kData->param.ranges[i].def); kData->engine->osc_send_control_set_parameter_value(fId, i, kData->param.ranges[i].def); #endif } } } #ifndef BUILD_BRIDGE if (sendOsc) kData->engine->osc_send_control_set_program(fId, fixedIndex); #endif if (sendCallback) kData->engine->callback(CALLBACK_PROGRAM_CHANGED, fId, fixedIndex, 0, 0.0f, nullptr); } void CarlaPlugin::setMidiProgram(int32_t index, const bool sendGui, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(index >= -1 && index < static_cast(kData->midiprog.count)); if (index > static_cast(kData->midiprog.count)) return; const int32_t fixedIndex = carla_fixValue(-1, kData->midiprog.count, index); kData->midiprog.current = fixedIndex; if (fixedIndex >= 0) { if (sendGui) uiMidiProgramChange(fixedIndex); // Change default parameter values (sound banks never change defaults) #ifndef BUILD_BRIDGE // FIXME if (type() != PLUGIN_GIG && type() != PLUGIN_SF2 && type() != PLUGIN_SFZ) #endif { for (uint32_t i=0; i < kData->param.count; i++) { // FIXME? kData->param.ranges[i].def = getParameterValue(i); kData->param.ranges[i].fixDefault(); if (sendOsc) { #ifndef BUILD_BRIDGE kData->engine->osc_send_control_set_default_value(fId, i, kData->param.ranges[i].def); kData->engine->osc_send_control_set_parameter_value(fId, i, kData->param.ranges[i].def); #endif } } } } #ifndef BUILD_BRIDGE if (sendOsc) kData->engine->osc_send_control_set_midi_program(fId, fixedIndex); #endif if (sendCallback) kData->engine->callback(CALLBACK_MIDI_PROGRAM_CHANGED, fId, fixedIndex, 0, 0.0f, nullptr); } void CarlaPlugin::setMidiProgramById(const uint32_t bank, const uint32_t program, const bool sendGui, const bool sendOsc, const bool sendCallback) { for (uint32_t i=0; i < kData->midiprog.count; i++) { if (kData->midiprog.data[i].bank == bank && kData->midiprog.data[i].program == program) return setMidiProgram(i, sendGui, sendOsc, sendCallback); } } // ------------------------------------------------------------------- // Set gui stuff void CarlaPlugin::showGui(const bool yesNo) { return; // unused (void)yesNo; } void CarlaPlugin::idleGui() { if (! fEnabled) return; if (fHints & PLUGIN_HAS_SINGLE_THREAD) { // Process postponed events postRtEventsRun(); // Update parameter outputs for (uint32_t i=0; i < kData->param.count; i++) { if (kData->param.data[i].type == PARAMETER_OUTPUT) uiParameterChange(i, getParameterValue(i)); } } } // ------------------------------------------------------------------- // Plugin state void CarlaPlugin::reload() { } void CarlaPlugin::reloadPrograms(const bool) { } // ------------------------------------------------------------------- // Plugin processing void CarlaPlugin::process(float** const, float** const, const uint32_t) { } void CarlaPlugin::bufferSizeChanged(const uint32_t) { } void CarlaPlugin::sampleRateChanged(const double) { } bool CarlaPlugin::tryLock() { return kData->masterMutex.tryLock(); } void CarlaPlugin::unlock() { kData->masterMutex.unlock(); } // ------------------------------------------------------------------- // OSC stuff void CarlaPlugin::registerToOscClient() { #ifdef BUILD_BRIDGE if (! kData->engine->isOscBridgeRegistered()) return; #else if (! kData->engine->isOscControlRegistered()) return; #endif #ifndef BUILD_BRIDGE kData->engine->osc_send_control_add_plugin_start(fId, fName); #endif // Base data { char bufName[STR_MAX+1] = { 0 }; char bufLabel[STR_MAX+1] = { 0 }; char bufMaker[STR_MAX+1] = { 0 }; char bufCopyright[STR_MAX+1] = { 0 }; getRealName(bufName); getLabel(bufLabel); getMaker(bufMaker); getCopyright(bufCopyright); #ifdef BUILD_BRIDGE kData->engine->osc_send_bridge_plugin_info(category(), fHints, bufName, bufLabel, bufMaker, bufCopyright, uniqueId()); #else kData->engine->osc_send_control_set_plugin_data(fId, type(), category(), fHints, bufName, bufLabel, bufMaker, bufCopyright, uniqueId()); #endif } // Base count { uint32_t cIns, cOuts, cTotals; getParameterCountInfo(&cIns, &cOuts, &cTotals); #ifdef BUILD_BRIDGE kData->engine->osc_send_bridge_audio_count(audioInCount(), audioOutCount(), audioInCount() + audioOutCount()); kData->engine->osc_send_bridge_midi_count(midiInCount(), midiOutCount(), midiInCount() + midiOutCount()); kData->engine->osc_send_bridge_parameter_count(cIns, cOuts, cTotals); #else kData->engine->osc_send_control_set_plugin_ports(fId, audioInCount(), audioOutCount(), midiInCount(), midiOutCount(), cIns, cOuts, cTotals); #endif } // Plugin Parameters if (kData->param.count > 0 && kData->param.count < kData->engine->getOptions().maxParameters) { char bufName[STR_MAX+1], bufUnit[STR_MAX+1]; for (uint32_t i=0; i < kData->param.count; i++) { getParameterName(i, bufName); getParameterUnit(i, bufUnit); const ParameterData& paramData(kData->param.data[i]); const ParameterRanges& paramRanges(kData->param.ranges[i]); #ifdef BUILD_BRIDGE kData->engine->osc_send_bridge_parameter_info(i, bufName, bufUnit); kData->engine->osc_send_bridge_parameter_data(i, paramData.type, paramData.rindex, paramData.hints, paramData.midiChannel, paramData.midiCC); kData->engine->osc_send_bridge_parameter_ranges(i, paramRanges.def, paramRanges.min, paramRanges.max, paramRanges.step, paramRanges.stepSmall, paramRanges.stepLarge); kData->engine->osc_send_bridge_set_parameter_value(i, getParameterValue(i)); #else kData->engine->osc_send_control_set_parameter_data(fId, i, paramData.type, paramData.hints, bufName, bufUnit, getParameterValue(i)); kData->engine->osc_send_control_set_parameter_ranges(fId, i, paramRanges.min, paramRanges.max, paramRanges.def, paramRanges.step, paramRanges.stepSmall, paramRanges.stepLarge); kData->engine->osc_send_control_set_parameter_midi_cc(fId, i, paramData.midiCC); kData->engine->osc_send_control_set_parameter_midi_channel(fId, i, paramData.midiChannel); kData->engine->osc_send_control_set_parameter_value(fId, i, getParameterValue(i)); #endif } } // Programs if (kData->prog.count > 0) { #ifdef BUILD_BRIDGE kData->engine->osc_send_bridge_program_count(kData->prog.count); for (uint32_t i=0; i < kData->prog.count; i++) kData->engine->osc_send_bridge_program_info(i, kData->prog.names[i]); kData->engine->osc_send_bridge_set_program(kData->prog.current); #else kData->engine->osc_send_control_set_program_count(fId, kData->prog.count); for (uint32_t i=0; i < kData->prog.count; i++) kData->engine->osc_send_control_set_program_name(fId, i, kData->prog.names[i]); kData->engine->osc_send_control_set_program(fId, kData->prog.current); #endif } // MIDI Programs if (kData->midiprog.count > 0) { #ifdef BUILD_BRIDGE kData->engine->osc_send_bridge_midi_program_count(kData->midiprog.count); for (uint32_t i=0; i < kData->midiprog.count; i++) { const MidiProgramData& mpData(kData->midiprog.data[i]); kData->engine->osc_send_bridge_midi_program_info(i, mpData.bank, mpData.program, mpData.name); } kData->engine->osc_send_bridge_set_midi_program(kData->midiprog.current); #else kData->engine->osc_send_control_set_midi_program_count(fId, kData->midiprog.count); for (uint32_t i=0; i < kData->midiprog.count; i++) { const MidiProgramData& mpData(kData->midiprog.data[i]); kData->engine->osc_send_control_set_midi_program_data(fId, i, mpData.bank, mpData.program, mpData.name); } kData->engine->osc_send_control_set_midi_program(fId, kData->midiprog.current); #endif } #ifndef BUILD_BRIDGE kData->engine->osc_send_control_add_plugin_end(fId); // Internal Parameters { kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_ACTIVE, kData->active ? 1.0 : 0.0); kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_DRYWET, kData->postProc.dryWet); kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_VOLUME, kData->postProc.volume); kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_BALANCE_LEFT, kData->postProc.balanceLeft); kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_BALANCE_RIGHT, kData->postProc.balanceRight); kData->engine->osc_send_control_set_parameter_value(fId, PARAMETER_PANNING, kData->postProc.panning); } #endif } void CarlaPlugin::updateOscData(const lo_address& source, const char* const url) { // FIXME - remove debug prints later carla_stdout("CarlaPlugin::updateOscData(%p, \"%s\")", source, url); kData->osc.data.free(); const int proto = lo_address_get_protocol(source); { const char* host = lo_address_get_hostname(source); const char* port = lo_address_get_port(source); kData->osc.data.source = lo_address_new_with_proto(proto, host, port); carla_stdout("CarlaPlugin::updateOscData() - source: host \"%s\", port \"%s\"", host, port); } { char* host = lo_url_get_hostname(url); char* port = lo_url_get_port(url); kData->osc.data.path = carla_strdup_free(lo_url_get_path(url)); kData->osc.data.target = lo_address_new_with_proto(proto, host, port); carla_stdout("CarlaPlugin::updateOscData() - target: host \"%s\", port \"%s\", path \"%s\"", host, port, kData->osc.data.path); std::free(host); std::free(port); } #ifndef BUILD_BRIDGE if (fHints & PLUGIN_IS_BRIDGE) return; #endif osc_send_sample_rate(&kData->osc.data, kData->engine->getSampleRate()); for (auto it = kData->custom.begin(); it.valid(); it.next()) { const CustomData& cData(*it); CARLA_ASSERT(cData.type != nullptr); CARLA_ASSERT(cData.key != nullptr); CARLA_ASSERT(cData.value != nullptr); #ifdef WANT_LV2 if (type() == PLUGIN_LV2) osc_send_lv2_transfer_event(&kData->osc.data, 0, cData.type, cData.value); else #endif if (std::strcmp(cData.type, CUSTOM_DATA_STRING) == 0) osc_send_configure(&kData->osc.data, cData.key, cData.value); } if (kData->prog.current >= 0) osc_send_program(&kData->osc.data, kData->prog.current); if (kData->midiprog.current >= 0) { const MidiProgramData& curMidiProg(kData->midiprog.getCurrent()); if (type() == PLUGIN_DSSI) osc_send_program(&kData->osc.data, curMidiProg.bank, curMidiProg.program); else osc_send_midi_program(&kData->osc.data, curMidiProg.bank, curMidiProg.program); } for (uint32_t i=0; i < kData->param.count; i++) osc_send_control(&kData->osc.data, kData->param.data[i].rindex, getParameterValue(i)); carla_stdout("CarlaPlugin::updateOscData() - done"); } void CarlaPlugin::freeOscData() { kData->osc.data.free(); } bool CarlaPlugin::waitForOscGuiShow() { carla_stdout("CarlaPlugin::waitForOscGuiShow()"); uint i=0, oscUiTimeout = kData->engine->getOptions().oscUiTimeout; // wait for UI 'update' call for (; i < oscUiTimeout; i++) { if (kData->osc.data.target != nullptr) { carla_stdout("CarlaPlugin::waitForOscGuiShow() - got response, asking UI to show itself now"); osc_send_show(&kData->osc.data); return true; } else carla_msleep(100); } carla_stdout("CarlaPlugin::waitForOscGuiShow() - Timeout while waiting for UI to respond (waited %u msecs)", oscUiTimeout); return false; } // ------------------------------------------------------------------- // MIDI events void CarlaPlugin::sendMidiSingleNote(const uint8_t channel, const uint8_t note, const uint8_t velo, const bool sendGui, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(channel < MAX_MIDI_CHANNELS); CARLA_ASSERT(note < MAX_MIDI_NOTE); CARLA_ASSERT(velo < MAX_MIDI_VALUE); if (! kData->active) return; ExternalMidiNote extNote; extNote.channel = channel; extNote.note = note; extNote.velo = velo; kData->extNotes.append(extNote); if (sendGui) { if (velo > 0) uiNoteOn(channel, note, velo); else uiNoteOff(channel, note); } #ifndef BUILD_BRIDGE if (sendOsc) { if (velo > 0) kData->engine->osc_send_control_note_on(fId, channel, note, velo); else kData->engine->osc_send_control_note_off(fId, channel, note); } #else // unused (void)sendOsc; #endif if (sendCallback) kData->engine->callback((velo > 0) ? CALLBACK_NOTE_ON : CALLBACK_NOTE_OFF, fId, channel, note, velo, nullptr); } void CarlaPlugin::sendMidiAllNotesOff() { if (kData->ctrlChannel < 0 || kData->ctrlChannel >= MAX_MIDI_CHANNELS) return; PluginPostRtEvent postEvent; postEvent.type = kPluginPostRtEventNoteOff; postEvent.value1 = kData->ctrlChannel; postEvent.value2 = 0; postEvent.value3 = 0.0f; for (unsigned short i=0; i < MAX_MIDI_NOTE; i++) { postEvent.value2 = i; kData->postRtEvents.appendRT(postEvent); } } // ------------------------------------------------------------------- // Post-poned events void CarlaPlugin::postponeRtEvent(const PluginPostRtEventType type, const int32_t value1, const int32_t value2, const float value3) { PluginPostRtEvent event; event.type = type; event.value1 = value1; event.value2 = value2; event.value3 = value3; kData->postRtEvents.appendRT(event); } void CarlaPlugin::postRtEventsRun() { const CarlaMutex::ScopedLocker sl(&kData->postRtEvents.mutex); while (! kData->postRtEvents.data.isEmpty()) { const PluginPostRtEvent& event = kData->postRtEvents.data.getFirst(true); switch (event.type) { case kPluginPostRtEventNull: break; case kPluginPostRtEventDebug: kData->engine->callback(CALLBACK_DEBUG, fId, event.value1, event.value2, event.value3, nullptr); break; case kPluginPostRtEventParameterChange: // Update UI if (event.value1 >= 0) uiParameterChange(event.value1, event.value3); #ifndef BUILD_BRIDGE // Update OSC control client if (kData->engine->isOscControlRegistered()) kData->engine->osc_send_control_set_parameter_value(fId, event.value1, event.value3); #endif // Update Host kData->engine->callback(CALLBACK_PARAMETER_VALUE_CHANGED, fId, event.value1, 0, event.value3, nullptr); break; case kPluginPostRtEventProgramChange: // Update UI if (event.value1 >= 0) uiProgramChange(event.value1); #ifndef BUILD_BRIDGE // Update OSC control client if (kData->engine->isOscControlRegistered()) { kData->engine->osc_send_control_set_program(fId, event.value1); for (uint32_t j=0; j < kData->param.count; j++) kData->engine->osc_send_control_set_default_value(fId, j, kData->param.ranges[j].def); } #endif // Update Host kData->engine->callback(CALLBACK_PROGRAM_CHANGED, fId, event.value1, 0, 0.0, nullptr); break; case kPluginPostRtEventMidiProgramChange: // Update UI if (event.value1 >= 0) uiMidiProgramChange(event.value1); #ifndef BUILD_BRIDGE // Update OSC control client if (kData->engine->isOscControlRegistered()) { kData->engine->osc_send_control_set_midi_program(fId, event.value1); for (uint32_t j=0; j < kData->param.count; j++) kData->engine->osc_send_control_set_default_value(fId, j, kData->param.ranges[j].def); } #endif // Update Host kData->engine->callback(CALLBACK_MIDI_PROGRAM_CHANGED, fId, event.value1, 0, 0.0, nullptr); break; case kPluginPostRtEventNoteOn: // Update UI uiNoteOn(event.value1, event.value2, int(event.value3)); #ifndef BUILD_BRIDGE // Update OSC control client if (kData->engine->isOscControlRegistered()) kData->engine->osc_send_control_note_on(fId, event.value1, event.value2, int(event.value3)); #endif // Update Host kData->engine->callback(CALLBACK_NOTE_ON, fId, event.value1, event.value2, int(event.value3), nullptr); break; case kPluginPostRtEventNoteOff: // Update UI uiNoteOff(event.value1, event.value2); #ifndef BUILD_BRIDGE // Update OSC control client if (kData->engine->isOscControlRegistered()) kData->engine->osc_send_control_note_off(fId, event.value1, event.value2); #endif // Update Host kData->engine->callback(CALLBACK_NOTE_OFF, fId, event.value1, event.value2, 0.0, nullptr); break; } } } void CarlaPlugin::uiParameterChange(const uint32_t index, const float value) { CARLA_ASSERT(index < parameterCount()); return; // unused (void)index; (void)value; } void CarlaPlugin::uiProgramChange(const uint32_t index) { CARLA_ASSERT(index < programCount()); return; // unused (void)index; } void CarlaPlugin::uiMidiProgramChange(const uint32_t index) { CARLA_ASSERT(index < midiProgramCount()); return; // unused (void)index; } void CarlaPlugin::uiNoteOn(const uint8_t channel, const uint8_t note, const uint8_t velo) { CARLA_ASSERT(channel < MAX_MIDI_CHANNELS); CARLA_ASSERT(note < MAX_MIDI_NOTE); CARLA_ASSERT(velo > 0 && velo < MAX_MIDI_VALUE); return; // unused (void)channel; (void)note; (void)velo; } void CarlaPlugin::uiNoteOff(const uint8_t channel, const uint8_t note) { CARLA_ASSERT(channel < MAX_MIDI_CHANNELS); CARLA_ASSERT(note < MAX_MIDI_NOTE); return; // unused (void)channel; (void)note; } // ------------------------------------------------------------------- // Cleanup void CarlaPlugin::initBuffers() { kData->audioIn.initBuffers(kData->engine); kData->audioOut.initBuffers(kData->engine); kData->event.initBuffers(kData->engine); } void CarlaPlugin::deleteBuffers() { carla_debug("CarlaPlugin::deleteBuffers() - start"); kData->audioIn.clear(); kData->audioOut.clear(); kData->param.clear(); kData->event.clear(); carla_debug("CarlaPlugin::deleteBuffers() - end"); } // ------------------------------------------------------------------- // Library functions bool CarlaPlugin::libOpen(const char* const filename) { kData->lib = lib_open(filename); return bool(kData->lib); } bool CarlaPlugin::libClose() { if (kData->lib == nullptr) return false; const bool ret = lib_close(kData->lib); kData->lib = nullptr; return ret; } void* CarlaPlugin::libSymbol(const char* const symbol) { return lib_symbol(kData->lib, symbol); } const char* CarlaPlugin::libError(const char* const filename) { return lib_error(filename); } // ------------------------------------------------------------------- // Scoped Disabler CarlaPlugin::ScopedDisabler::ScopedDisabler(CarlaPlugin* const plugin) : kPlugin(plugin) { carla_debug("CarlaPlugin::ScopedDisabler(%p)", plugin); CARLA_ASSERT(plugin != nullptr); CARLA_ASSERT(plugin->kData != nullptr); CARLA_ASSERT(plugin->kData->client != nullptr); if (plugin == nullptr) return; if (plugin->kData == nullptr) return; if (plugin->kData->client == nullptr) return; plugin->kData->masterMutex.lock(); if (plugin->fEnabled) plugin->fEnabled = false; if (plugin->kData->client->isActive()) plugin->kData->client->deactivate(); } CarlaPlugin::ScopedDisabler::~ScopedDisabler() { carla_debug("CarlaPlugin::~ScopedDisabler()"); CARLA_ASSERT(kPlugin != nullptr); CARLA_ASSERT(kPlugin->kData != nullptr); CARLA_ASSERT(kPlugin->kData->client != nullptr); if (kPlugin == nullptr) return; if (kPlugin->kData == nullptr) return; if (kPlugin->kData->client == nullptr) return; kPlugin->fEnabled = true; kPlugin->kData->client->activate(); kPlugin->kData->masterMutex.unlock(); } // ------------------------------------------------------------------- // Scoped Process Locker CarlaPlugin::ScopedProcessLocker::ScopedProcessLocker(CarlaPlugin* const plugin, const bool block) : kPlugin(plugin), kBlock(block) { carla_debug("CarlaPlugin::ScopedProcessLocker(%p, %s)", plugin, bool2str(block)); CARLA_ASSERT(plugin != nullptr); if (plugin != nullptr && block) plugin->kData->singleMutex.lock(); } CarlaPlugin::ScopedProcessLocker::~ScopedProcessLocker() { carla_debug("CarlaPlugin::~ScopedProcessLocker()"); CARLA_ASSERT(kPlugin != nullptr && kPlugin->kData != nullptr); if (kPlugin == nullptr) return; if (kPlugin->kData == nullptr) return; if (kBlock) { if (kPlugin->kData->singleMutex.wasTryLockCalled()) kPlugin->kData->needsReset = true; kPlugin->kData->singleMutex.unlock(); } } // ------------------------------------------------------------------- CARLA_BACKEND_END_NAMESPACE