/* * Carla LADSPA Plugin * Copyright (C) 2011-2012 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 COPYING file */ #include "carla_plugin.hpp" #ifdef WANT_LADSPA #include "carla_ladspa_utils.hpp" CARLA_BACKEND_START_NAMESPACE /*! * @defgroup CarlaBackendLadspaPlugin Carla Backend LADSPA Plugin * * The Carla Backend LADSPA Plugin.\n * http://www.ladspa.org/ * @{ */ class LadspaPlugin : public CarlaPlugin { public: LadspaPlugin(CarlaEngine* const engine, const unsigned short id) : CarlaPlugin(engine, id) { qDebug("LadspaPlugin::LadspaPlugin()"); m_type = PLUGIN_LADSPA; handle = h2 = nullptr; descriptor = nullptr; rdf_descriptor = nullptr; paramBuffers = nullptr; } ~LadspaPlugin() { qDebug("LadspaPlugin::~LadspaPlugin()"); if (descriptor) { if (descriptor->deactivate && m_activeBefore) { if (handle) descriptor->deactivate(handle); if (h2) descriptor->deactivate(h2); } if (descriptor->cleanup) { if (handle) descriptor->cleanup(handle); if (h2) descriptor->cleanup(h2); } } if (rdf_descriptor) delete rdf_descriptor; } // ------------------------------------------------------------------- // Information (base) PluginCategory category() { if (rdf_descriptor) { const LADSPA_Properties category = rdf_descriptor->Type; // Specific Types if (category & (LADSPA_CLASS_DELAY|LADSPA_CLASS_REVERB)) return PLUGIN_CATEGORY_DELAY; if (category & (LADSPA_CLASS_PHASER|LADSPA_CLASS_FLANGER|LADSPA_CLASS_CHORUS)) return PLUGIN_CATEGORY_MODULATOR; if (category & (LADSPA_CLASS_AMPLIFIER)) return PLUGIN_CATEGORY_DYNAMICS; if (category & (LADSPA_CLASS_UTILITY|LADSPA_CLASS_SPECTRAL|LADSPA_CLASS_FREQUENCY_METER)) return PLUGIN_CATEGORY_UTILITY; // Pre-set LADSPA Types if (LADSPA_IS_PLUGIN_DYNAMICS(category)) return PLUGIN_CATEGORY_DYNAMICS; if (LADSPA_IS_PLUGIN_AMPLITUDE(category)) return PLUGIN_CATEGORY_MODULATOR; if (LADSPA_IS_PLUGIN_EQ(category)) return PLUGIN_CATEGORY_EQ; if (LADSPA_IS_PLUGIN_FILTER(category)) return PLUGIN_CATEGORY_FILTER; if (LADSPA_IS_PLUGIN_FREQUENCY(category)) return PLUGIN_CATEGORY_UTILITY; if (LADSPA_IS_PLUGIN_SIMULATOR(category)) return PLUGIN_CATEGORY_OTHER; if (LADSPA_IS_PLUGIN_TIME(category)) return PLUGIN_CATEGORY_DELAY; if (LADSPA_IS_PLUGIN_GENERATOR(category)) return PLUGIN_CATEGORY_SYNTH; } return getPluginCategoryFromName(m_name); } long uniqueId() { CARLA_ASSERT(descriptor); return descriptor->UniqueID; } // ------------------------------------------------------------------- // Information (count) uint32_t parameterScalePointCount(const uint32_t parameterId) { CARLA_ASSERT(parameterId < param.count); int32_t rindex = param.data[parameterId].rindex; if (rdf_descriptor && rindex < (int32_t)rdf_descriptor->PortCount) { const LADSPA_RDF_Port* const port = &rdf_descriptor->Ports[rindex]; if (port) return port->ScalePointCount; } return 0; } // ------------------------------------------------------------------- // Information (per-plugin data) double getParameterValue(const uint32_t parameterId) { CARLA_ASSERT(parameterId < param.count); return paramBuffers[parameterId]; } double getParameterScalePointValue(const uint32_t parameterId, const uint32_t scalePointId) { CARLA_ASSERT(parameterId < param.count); CARLA_ASSERT(scalePointId < parameterScalePointCount(parameterId)); int32_t rindex = param.data[parameterId].rindex; if (rdf_descriptor && rindex < (int32_t)rdf_descriptor->PortCount) { const LADSPA_RDF_Port* const port = &rdf_descriptor->Ports[rindex]; if (port && scalePointId < port->ScalePointCount) { const LADSPA_RDF_ScalePoint* const scalePoint = &port->ScalePoints[scalePointId]; if (scalePoint) return scalePoint->Value; } } return 0.0; } void getLabel(char* const strBuf) { CARLA_ASSERT(descriptor); if (descriptor && descriptor->Label) strncpy(strBuf, descriptor->Label, STR_MAX); else CarlaPlugin::getLabel(strBuf); } void getMaker(char* const strBuf) { CARLA_ASSERT(descriptor); if (rdf_descriptor && rdf_descriptor->Creator) strncpy(strBuf, rdf_descriptor->Creator, STR_MAX); else if (descriptor && descriptor->Maker) strncpy(strBuf, descriptor->Maker, STR_MAX); else CarlaPlugin::getMaker(strBuf); } void getCopyright(char* const strBuf) { CARLA_ASSERT(descriptor); if (descriptor && descriptor->Copyright) strncpy(strBuf, descriptor->Copyright, STR_MAX); else CarlaPlugin::getCopyright(strBuf); } void getRealName(char* const strBuf) { CARLA_ASSERT(descriptor); if (rdf_descriptor && rdf_descriptor->Title) strncpy(strBuf, rdf_descriptor->Title, STR_MAX); else if (descriptor && descriptor->Name) strncpy(strBuf, descriptor->Name, STR_MAX); else CarlaPlugin::getRealName(strBuf); } void getParameterName(const uint32_t parameterId, char* const strBuf) { CARLA_ASSERT(descriptor); CARLA_ASSERT(parameterId < param.count); int32_t rindex = param.data[parameterId].rindex; if (descriptor && rindex < (int32_t)descriptor->PortCount) strncpy(strBuf, descriptor->PortNames[rindex], STR_MAX); else CarlaPlugin::getParameterName(parameterId, strBuf); } void getParameterSymbol(const uint32_t parameterId, char* const strBuf) { CARLA_ASSERT(parameterId < param.count); int32_t rindex = param.data[parameterId].rindex; if (rdf_descriptor && rindex < (int32_t)rdf_descriptor->PortCount) { const LADSPA_RDF_Port* const port = &rdf_descriptor->Ports[rindex]; if (LADSPA_PORT_HAS_LABEL(port->Hints) && port->Label) { strncpy(strBuf, port->Label, STR_MAX); return; } } CarlaPlugin::getParameterSymbol(parameterId, strBuf); } void getParameterUnit(const uint32_t parameterId, char* const strBuf) { CARLA_ASSERT(parameterId < param.count); int32_t rindex = param.data[parameterId].rindex; if (rdf_descriptor && rindex < (int32_t)rdf_descriptor->PortCount) { const LADSPA_RDF_Port* const port = &rdf_descriptor->Ports[rindex]; if (LADSPA_PORT_HAS_UNIT(port->Hints)) { switch (port->Unit) { case LADSPA_UNIT_DB: strncpy(strBuf, "dB", STR_MAX); return; case LADSPA_UNIT_COEF: strncpy(strBuf, "(coef)", STR_MAX); return; case LADSPA_UNIT_HZ: strncpy(strBuf, "Hz", STR_MAX); return; case LADSPA_UNIT_S: strncpy(strBuf, "s", STR_MAX); return; case LADSPA_UNIT_MS: strncpy(strBuf, "ms", STR_MAX); return; case LADSPA_UNIT_MIN: strncpy(strBuf, "min", STR_MAX); return; } } } CarlaPlugin::getParameterUnit(parameterId, strBuf); } void getParameterScalePointLabel(const uint32_t parameterId, const uint32_t scalePointId, char* const strBuf) { CARLA_ASSERT(parameterId < param.count); CARLA_ASSERT(scalePointId < parameterScalePointCount(parameterId)); int32_t rindex = param.data[parameterId].rindex; if (rdf_descriptor && rindex < (int32_t)rdf_descriptor->PortCount) { const LADSPA_RDF_Port* const port = &rdf_descriptor->Ports[rindex]; if (port && scalePointId < port->ScalePointCount) { const LADSPA_RDF_ScalePoint* const scalePoint = &port->ScalePoints[scalePointId]; if (scalePoint && scalePoint->Label) { strncpy(strBuf, scalePoint->Label, STR_MAX); return; } } } CarlaPlugin::getParameterScalePointLabel(parameterId, scalePointId, strBuf); } // ------------------------------------------------------------------- // Set data (plugin-specific stuff) void setParameterValue(const uint32_t parameterId, double value, const bool sendGui, const bool sendOsc, const bool sendCallback) { CARLA_ASSERT(parameterId < param.count); paramBuffers[parameterId] = fixParameterValue(value, param.ranges[parameterId]); CarlaPlugin::setParameterValue(parameterId, value, sendGui, sendOsc, sendCallback); } // ------------------------------------------------------------------- // Plugin state void reload() { qDebug("LadspaPlugin::reload() - start"); CARLA_ASSERT(descriptor); #ifndef BUILD_BRIDGE const ProcessMode processMode(x_engine->getOptions().processMode); #endif // Safely disable plugin for reload const ScopedDisabler m(this); if (x_client->isActive()) x_client->deactivate(); // Remove client ports removeClientPorts(); // Delete old data deleteBuffers(); uint32_t aIns, aOuts, params, j; aIns = aOuts = params = 0; const double sampleRate = x_engine->getSampleRate(); const unsigned long portCount = descriptor->PortCount; bool forcedStereoIn, forcedStereoOut; forcedStereoIn = forcedStereoOut = false; for (unsigned long i=0; i < portCount; i++) { const LADSPA_PortDescriptor portType = descriptor->PortDescriptors[i]; if (LADSPA_IS_PORT_AUDIO(portType)) { if (LADSPA_IS_PORT_INPUT(portType)) aIns += 1; else if (LADSPA_IS_PORT_OUTPUT(portType)) aOuts += 1; } else if (LADSPA_IS_PORT_CONTROL(portType)) params += 1; } #ifndef BUILD_BRIDGE if (x_engine->getOptions().forceStereo && (aIns == 1 || aOuts == 1) && ! h2) { h2 = descriptor->instantiate(descriptor, sampleRate); if (aIns == 1) { aIns = 2; forcedStereoIn = true; } if (aOuts == 1) { aOuts = 2; forcedStereoOut = true; } } #endif if (aIns > 0) { aIn.ports = new CarlaEngineAudioPort*[aIns]; aIn.rindexes = new uint32_t[aIns]; } if (aOuts > 0) { aOut.ports = new CarlaEngineAudioPort*[aOuts]; aOut.rindexes = new uint32_t[aOuts]; } if (params > 0) { param.data = new ParameterData[params]; param.ranges = new ParameterRanges[params]; paramBuffers = new float[params]; } bool needsCtrlIn = false; bool needsCtrlOut = false; const int portNameSize = x_engine->maxPortNameSize(); CarlaString portName; for (unsigned long i=0; i < portCount; i++) { const LADSPA_PortDescriptor portType = descriptor->PortDescriptors[i]; const LADSPA_PortRangeHint portHints = descriptor->PortRangeHints[i]; const bool hasPortRDF = (rdf_descriptor && i < rdf_descriptor->PortCount); if (LADSPA_IS_PORT_AUDIO(portType)) { portName.clear(); #ifndef BUILD_BRIDGE if (processMode == PROCESS_MODE_SINGLE_CLIENT) { portName = m_name; portName += ":"; } #endif portName += descriptor->PortNames[i]; portName.truncate(portNameSize); if (LADSPA_IS_PORT_INPUT(portType)) { j = aIn.count++; aIn.ports[j] = (CarlaEngineAudioPort*)x_client->addPort(CarlaEnginePortTypeAudio, portName, true); aIn.rindexes[j] = i; if (forcedStereoIn) { portName += "_2"; aIn.ports[1] = (CarlaEngineAudioPort*)x_client->addPort(CarlaEnginePortTypeAudio, portName, true); aIn.rindexes[1] = i; } } else if (LADSPA_IS_PORT_OUTPUT(portType)) { j = aOut.count++; aOut.ports[j] = (CarlaEngineAudioPort*)x_client->addPort(CarlaEnginePortTypeAudio, portName, false); aOut.rindexes[j] = i; needsCtrlIn = true; if (forcedStereoOut) { portName += "_2"; aOut.ports[1] = (CarlaEngineAudioPort*)x_client->addPort(CarlaEnginePortTypeAudio, portName, false); aOut.rindexes[1] = i; } } else qWarning("WARNING - Got a broken Port (Audio, but not input or output)"); } else if (LADSPA_IS_PORT_CONTROL(portType)) { j = param.count++; param.data[j].index = j; param.data[j].rindex = i; param.data[j].hints = 0; param.data[j].midiChannel = 0; param.data[j].midiCC = -1; double min, max, def, step, stepSmall, stepLarge; // min value if (LADSPA_IS_HINT_BOUNDED_BELOW(portHints.HintDescriptor)) min = portHints.LowerBound; else min = 0.0; // max value if (LADSPA_IS_HINT_BOUNDED_ABOVE(portHints.HintDescriptor)) max = portHints.UpperBound; else max = 1.0; if (min > max) max = min; else if (max < min) min = max; if (max - min == 0.0) { qWarning("Broken plugin parameter: max - min == 0"); max = min + 0.1; } // default value if (hasPortRDF && LADSPA_PORT_HAS_DEFAULT(rdf_descriptor->Ports[i].Hints)) def = rdf_descriptor->Ports[i].Default; else def = get_default_ladspa_port_value(portHints.HintDescriptor, min, max); if (def < min) def = min; else if (def > max) def = max; if (LADSPA_IS_HINT_SAMPLE_RATE(portHints.HintDescriptor)) { min *= sampleRate; max *= sampleRate; def *= sampleRate; param.data[j].hints |= PARAMETER_USES_SAMPLERATE; } if (LADSPA_IS_HINT_TOGGLED(portHints.HintDescriptor)) { step = max - min; stepSmall = step; stepLarge = step; param.data[j].hints |= PARAMETER_IS_BOOLEAN; } else if (LADSPA_IS_HINT_INTEGER(portHints.HintDescriptor)) { step = 1.0; stepSmall = 1.0; stepLarge = 10.0; param.data[j].hints |= PARAMETER_IS_INTEGER; } else { double range = max - min; step = range/100.0; stepSmall = range/1000.0; stepLarge = range/10.0; } if (LADSPA_IS_PORT_INPUT(portType)) { param.data[j].type = PARAMETER_INPUT; param.data[j].hints |= PARAMETER_IS_ENABLED; param.data[j].hints |= PARAMETER_IS_AUTOMABLE; needsCtrlIn = true; } else if (LADSPA_IS_PORT_OUTPUT(portType)) { if (strcmp(descriptor->PortNames[i], "latency") == 0 || strcmp(descriptor->PortNames[i], "_latency") == 0) { min = 0.0; max = sampleRate; def = 0.0; step = 1.0; stepSmall = 1.0; stepLarge = 1.0; param.data[j].type = PARAMETER_LATENCY; param.data[j].hints = 0; } else if (strcmp(descriptor->PortNames[i], "_sample-rate") == 0) { def = sampleRate; step = 1.0; stepSmall = 1.0; stepLarge = 1.0; param.data[j].type = PARAMETER_SAMPLE_RATE; param.data[j].hints = 0; } else { param.data[j].type = PARAMETER_OUTPUT; param.data[j].hints |= PARAMETER_IS_ENABLED; param.data[j].hints |= PARAMETER_IS_AUTOMABLE; needsCtrlOut = true; } } else { param.data[j].type = PARAMETER_UNKNOWN; qWarning("WARNING - Got a broken Port (Control, but not input or output)"); } // extra parameter hints if (LADSPA_IS_HINT_LOGARITHMIC(portHints.HintDescriptor)) param.data[j].hints |= PARAMETER_IS_LOGARITHMIC; // check for scalepoints, require at least 2 to make it useful if (hasPortRDF && rdf_descriptor->Ports[i].ScalePointCount > 1) param.data[j].hints |= PARAMETER_USES_SCALEPOINTS; param.ranges[j].min = min; param.ranges[j].max = max; param.ranges[j].def = def; param.ranges[j].step = step; param.ranges[j].stepSmall = stepSmall; param.ranges[j].stepLarge = stepLarge; // Start parameters in their default values paramBuffers[j] = def; descriptor->connect_port(handle, i, ¶mBuffers[j]); if (h2) descriptor->connect_port(h2, i, ¶mBuffers[j]); } else { // Not Audio or Control qCritical("ERROR - Got a broken Port (neither Audio or Control)"); descriptor->connect_port(handle, i, nullptr); if (h2) descriptor->connect_port(h2, i, nullptr); } } if (needsCtrlIn) { portName.clear(); #ifndef BUILD_BRIDGE if (processMode == PROCESS_MODE_SINGLE_CLIENT) { portName = m_name; portName += ":"; } #endif portName += "control-in"; portName.truncate(portNameSize); param.portCin = (CarlaEngineControlPort*)x_client->addPort(CarlaEnginePortTypeControl, portName, true); } if (needsCtrlOut) { portName.clear(); #ifndef BUILD_BRIDGE if (processMode == PROCESS_MODE_SINGLE_CLIENT) { portName = m_name; portName += ":"; } #endif portName += "control-out"; portName.truncate(portNameSize); param.portCout = (CarlaEngineControlPort*)x_client->addPort(CarlaEnginePortTypeControl, portName, false); } aIn.count = aIns; aOut.count = aOuts; param.count = params; // plugin checks m_hints &= ~(PLUGIN_IS_SYNTH | PLUGIN_USES_CHUNKS | PLUGIN_CAN_DRYWET | PLUGIN_CAN_VOLUME | PLUGIN_CAN_BALANCE | PLUGIN_CAN_FORCE_STEREO); if (aOuts > 0 && (aIns == aOuts || aIns == 1)) m_hints |= PLUGIN_CAN_DRYWET; if (aOuts > 0) m_hints |= PLUGIN_CAN_VOLUME; if (aOuts >= 2 && aOuts%2 == 0) m_hints |= PLUGIN_CAN_BALANCE; if (aIns <= 2 && aOuts <= 2 && (aIns == aOuts || aIns == 0 || aOuts == 0)) m_hints |= PLUGIN_CAN_FORCE_STEREO; // check latency if (m_hints & PLUGIN_CAN_DRYWET) { bool hasLatency = false; m_latency = 0; for (uint32_t i=0; i < param.count; i++) { if (param.data[i].type == PARAMETER_LATENCY) { // pre-run so plugin can update latency control-port float tmpIn[2][aIns]; float tmpOut[2][aOuts]; for (j=0; j < aIn.count; j++) { tmpIn[j][0] = 0.0f; tmpIn[j][1] = 0.0f; if (j == 0 || ! h2) descriptor->connect_port(handle, aIn.rindexes[j], tmpIn[j]); } for (j=0; j < aOut.count; j++) { tmpOut[j][0] = 0.0f; tmpOut[j][1] = 0.0f; if (j == 0 || ! h2) descriptor->connect_port(handle, aOut.rindexes[j], tmpOut[j]); } if (descriptor->activate) descriptor->activate(handle); descriptor->run(handle, 2); if (descriptor->deactivate) descriptor->deactivate(handle); m_latency = rint(paramBuffers[i]); hasLatency = true; break; } } if (hasLatency) { x_client->setLatency(m_latency); recreateLatencyBuffers(); } } x_client->activate(); qDebug("LadspaPlugin::reload() - end"); } // ------------------------------------------------------------------- // Plugin processing void process(float** const inBuffer, float** const outBuffer, const uint32_t frames, const uint32_t framesOffset) { uint32_t i, k; double aInsPeak[2] = { 0.0 }; double aOutsPeak[2] = { 0.0 }; CARLA_PROCESS_CONTINUE_CHECK; // -------------------------------------------------------------------------------------------------------- // Input VU #ifndef BUILD_BRIDGE if (aIn.count > 0 && x_engine->getOptions().processMode != PROCESS_MODE_CONTINUOUS_RACK) #else if (aIn.count > 0) #endif { if (aIn.count == 1) { for (k=0; k < frames; k++) { if (std::abs(inBuffer[0][k]) > aInsPeak[0]) aInsPeak[0] = std::abs(inBuffer[0][k]); } } else if (aIn.count > 1) { for (k=0; k < frames; k++) { if (std::abs(inBuffer[0][k]) > aInsPeak[0]) aInsPeak[0] = std::abs(inBuffer[0][k]); if (std::abs(inBuffer[1][k]) > aInsPeak[1]) aInsPeak[1] = std::abs(inBuffer[1][k]); } } } CARLA_PROCESS_CONTINUE_CHECK; // -------------------------------------------------------------------------------------------------------- // Parameters Input [Automation] if (param.portCin && m_active && m_activeBefore) { const CarlaEngineControlEvent* cinEvent; uint32_t time, nEvents = param.portCin->getEventCount(); for (i=0; i < nEvents; i++) { cinEvent = param.portCin->getEvent(i); if (! cinEvent) continue; time = cinEvent->time - framesOffset; if (time >= frames) continue; // Control change switch (cinEvent->type) { case CarlaEngineNullEvent: break; case CarlaEngineParameterChangeEvent: { double value; // Control backend stuff if (cinEvent->channel == m_ctrlInChannel) { if (MIDI_IS_CONTROL_BREATH_CONTROLLER(cinEvent->parameter) && (m_hints & PLUGIN_CAN_DRYWET) > 0) { value = cinEvent->value; setDryWet(value, false, false); postponeEvent(PluginPostEventParameterChange, PARAMETER_DRYWET, 0, value); continue; } if (MIDI_IS_CONTROL_CHANNEL_VOLUME(cinEvent->parameter) && (m_hints & PLUGIN_CAN_VOLUME) > 0) { value = cinEvent->value*127/100; setVolume(value, false, false); postponeEvent(PluginPostEventParameterChange, PARAMETER_VOLUME, 0, value); continue; } if (MIDI_IS_CONTROL_BALANCE(cinEvent->parameter) && (m_hints & PLUGIN_CAN_BALANCE) > 0) { double left, right; value = cinEvent->value/0.5 - 1.0; if (value < 0.0) { left = -1.0; right = (value*2)+1.0; } else if (value > 0.0) { left = (value*2)-1.0; right = 1.0; } else { left = -1.0; right = 1.0; } setBalanceLeft(left, false, false); setBalanceRight(right, false, false); postponeEvent(PluginPostEventParameterChange, PARAMETER_BALANCE_LEFT, 0, left); postponeEvent(PluginPostEventParameterChange, PARAMETER_BALANCE_RIGHT, 0, right); continue; } } // Control plugin parameters for (k=0; k < param.count; k++) { if (param.data[k].midiChannel != cinEvent->channel) continue; if (param.data[k].midiCC != cinEvent->parameter) continue; if (param.data[k].type != PARAMETER_INPUT) continue; if (param.data[k].hints & PARAMETER_IS_AUTOMABLE) { if (param.data[k].hints & PARAMETER_IS_BOOLEAN) { value = cinEvent->value < 0.5 ? param.ranges[k].min : param.ranges[k].max; } else { value = cinEvent->value * (param.ranges[k].max - param.ranges[k].min) + param.ranges[k].min; if (param.data[k].hints & PARAMETER_IS_INTEGER) value = rint(value); } setParameterValue(k, value, false, false, false); postponeEvent(PluginPostEventParameterChange, k, 0, value); } } break; } case CarlaEngineMidiBankChangeEvent: case CarlaEngineMidiProgramChangeEvent: break; case CarlaEngineAllSoundOffEvent: if (cinEvent->channel == m_ctrlInChannel) { if (descriptor->deactivate) { descriptor->deactivate(handle); if (h2) descriptor->deactivate(h2); } if (descriptor->activate) { descriptor->activate(handle); if (h2) descriptor->activate(h2); } postponeEvent(PluginPostEventParameterChange, PARAMETER_ACTIVE, 0, 0.0); postponeEvent(PluginPostEventParameterChange, PARAMETER_ACTIVE, 0, 1.0); } break; case CarlaEngineAllNotesOffEvent: break; } } } // End of Parameters Input CARLA_PROCESS_CONTINUE_CHECK; // -------------------------------------------------------------------------------------------------------- // Special Parameters #if 0 for (k=0; k < param.count; k++) { if (param.data[k].type == PARAMETER_LATENCY) { // TODO: ladspa special params } } CARLA_PROCESS_CONTINUE_CHECK; #endif // -------------------------------------------------------------------------------------------------------- // Plugin processing if (m_active) { if (! m_activeBefore) { if (m_latency > 0) { for (i=0; i < aIn.count; i++) memset(m_latencyBuffers[i], 0, sizeof(float)*m_latency); } if (descriptor->activate) { descriptor->activate(handle); if (h2) descriptor->activate(h2); } } for (i=0; i < aIn.count; i++) { if (i == 0 || ! h2) descriptor->connect_port(handle, aIn.rindexes[i], inBuffer[i]); else if (i == 1) descriptor->connect_port(h2, aIn.rindexes[i], inBuffer[i]); } for (i=0; i < aOut.count; i++) { if (i == 0 || ! h2) descriptor->connect_port(handle, aOut.rindexes[i], outBuffer[i]); else if (i == 1) descriptor->connect_port(h2, aOut.rindexes[i], outBuffer[i]); } descriptor->run(handle, frames); if (h2) descriptor->run(h2, frames); } else { if (m_activeBefore) { if (descriptor->deactivate) { descriptor->deactivate(handle); if (h2) descriptor->deactivate(h2); } } } CARLA_PROCESS_CONTINUE_CHECK; // -------------------------------------------------------------------------------------------------------- // Post-processing (dry/wet, volume and balance) if (m_active) { bool do_drywet = (m_hints & PLUGIN_CAN_DRYWET) > 0 && x_dryWet != 1.0; bool do_volume = (m_hints & PLUGIN_CAN_VOLUME) > 0 && x_volume != 1.0; bool do_balance = (m_hints & PLUGIN_CAN_BALANCE) > 0 && (x_balanceLeft != -1.0 || x_balanceRight != 1.0); double bal_rangeL, bal_rangeR; float bufValue, oldBufLeft[do_balance ? frames : 0]; for (i=0; i < aOut.count; i++) { // Dry/Wet if (do_drywet) { for (k=0; k < frames; k++) { if (k < m_latency && m_latency < frames) bufValue = (aIn.count == 1) ? m_latencyBuffers[0][k] : m_latencyBuffers[i][k]; else bufValue = (aIn.count == 1) ? inBuffer[0][k-m_latency] : inBuffer[i][k-m_latency]; outBuffer[i][k] = (outBuffer[i][k]*x_dryWet)+(bufValue*(1.0-x_dryWet)); } } // Balance if (do_balance) { if (i%2 == 0) memcpy(&oldBufLeft, outBuffer[i], sizeof(float)*frames); bal_rangeL = (x_balanceLeft+1.0)/2; bal_rangeR = (x_balanceRight+1.0)/2; for (k=0; k < frames; k++) { if (i%2 == 0) { // left output outBuffer[i][k] = oldBufLeft[k]*(1.0-bal_rangeL); outBuffer[i][k] += outBuffer[i+1][k]*(1.0-bal_rangeR); } else { // right outBuffer[i][k] = outBuffer[i][k]*bal_rangeR; outBuffer[i][k] += oldBufLeft[k]*bal_rangeL; } } } // Volume if (do_volume) { for (k=0; k < frames; k++) outBuffer[i][k] *= x_volume; } // Output VU #ifndef BUILD_BRIDGE if (x_engine->getOptions().processMode != PROCESS_MODE_CONTINUOUS_RACK) #endif { for (k=0; i < 2 && k < frames; k++) { if (abs(outBuffer[i][k]) > aOutsPeak[i]) aOutsPeak[i] = abs(outBuffer[i][k]); } } } // Latency, save values for next callback if (m_latency > 0 && m_latency < frames) { for (i=0; i < aIn.count; i++) memcpy(m_latencyBuffers[i], inBuffer[i] + (frames - m_latency), sizeof(float)*m_latency); } } else { // disable any output sound if not active for (i=0; i < aOut.count; i++) carla_zeroF(outBuffer[i], frames); aOutsPeak[0] = 0.0; aOutsPeak[1] = 0.0; } // End of Post-processing CARLA_PROCESS_CONTINUE_CHECK; // -------------------------------------------------------------------------------------------------------- // Control Output if (param.portCout && m_active) { double value; for (k=0; k < param.count; k++) { if (param.data[k].type == PARAMETER_OUTPUT) { fixParameterValue(paramBuffers[k], param.ranges[k]); if (param.data[k].midiCC > 0) { value = (paramBuffers[k] - param.ranges[k].min) / (param.ranges[k].max - param.ranges[k].min); param.portCout->writeEvent(CarlaEngineParameterChangeEvent, framesOffset, param.data[k].midiChannel, param.data[k].midiCC, value); } } } } // End of Control Output CARLA_PROCESS_CONTINUE_CHECK; // -------------------------------------------------------------------------------------------------------- // Peak Values x_engine->setInputPeak(m_id, 0, aInsPeak[0]); x_engine->setInputPeak(m_id, 1, aInsPeak[1]); x_engine->setOutputPeak(m_id, 0, aOutsPeak[0]); x_engine->setOutputPeak(m_id, 1, aOutsPeak[1]); m_activeBefore = m_active; } // ------------------------------------------------------------------- // Cleanup void deleteBuffers() { qDebug("LadspaPlugin::deleteBuffers() - start"); if (param.count > 0) delete[] paramBuffers; paramBuffers = nullptr; CarlaPlugin::deleteBuffers(); qDebug("LadspaPlugin::deleteBuffers() - end"); } // ------------------------------------------------------------------- bool init(const char* const filename, const char* const name, const char* const label, const LADSPA_RDF_Descriptor* const rdf_descriptor_) { // --------------------------------------------------------------- // open DLL if (! libOpen(filename)) { x_engine->setLastError(libError(filename)); return false; } // --------------------------------------------------------------- // get DLL main entry const LADSPA_Descriptor_Function descFn = (LADSPA_Descriptor_Function)libSymbol("ladspa_descriptor"); if (! descFn) { x_engine->setLastError("Could not find the LASDPA Descriptor in the plugin library"); return false; } // --------------------------------------------------------------- // get descriptor that matches label unsigned long i = 0; while ((descriptor = descFn(i++))) { if (strcmp(descriptor->Label, label) == 0) break; } if (! descriptor) { x_engine->setLastError("Could not find the requested plugin Label in the plugin library"); return false; } // --------------------------------------------------------------- // get info m_filename = strdup(filename); if (is_ladspa_rdf_descriptor_valid(rdf_descriptor_, descriptor)) rdf_descriptor = ladspa_rdf_dup(rdf_descriptor_); if (name) m_name = x_engine->getUniquePluginName(name); else if (rdf_descriptor && rdf_descriptor->Title) m_name = x_engine->getUniquePluginName(rdf_descriptor->Title); else m_name = x_engine->getUniquePluginName(descriptor->Name); // --------------------------------------------------------------- // register client x_client = x_engine->addClient(this); if (! x_client->isOk()) { x_engine->setLastError("Failed to register plugin client"); return false; } // --------------------------------------------------------------- // initialize plugin handle = descriptor->instantiate(descriptor, x_engine->getSampleRate()); if (! handle) { x_engine->setLastError("Plugin failed to initialize"); return false; } return true; } private: LADSPA_Handle handle, h2; const LADSPA_Descriptor* descriptor; const LADSPA_RDF_Descriptor* rdf_descriptor; float* paramBuffers; }; /**@}*/ CARLA_BACKEND_END_NAMESPACE #else // WANT_LADSPA # warning Building without LADSPA support #endif CARLA_BACKEND_START_NAMESPACE CarlaPlugin* CarlaPlugin::newLADSPA(const initializer& init, const void* const extra) { qDebug("CarlaPlugin::newLADSPA(%p, \"%s\", \"%s\", \"%s\", %p)", init.engine, init.filename, init.name, init.label, extra); #ifdef WANT_LADSPA short id = init.engine->getNewPluginId(); if (id < 0 || id > init.engine->maxPluginNumber()) { init.engine->setLastError("Maximum number of plugins reached"); return nullptr; } LadspaPlugin* const plugin = new LadspaPlugin(init.engine, id); if (! plugin->init(init.filename, init.name, init.label, (const LADSPA_RDF_Descriptor*)extra)) { delete plugin; return nullptr; } plugin->reload(); # ifndef BUILD_BRIDGE if (init.engine->getOptions().processMode == PROCESS_MODE_CONTINUOUS_RACK) { if (! (plugin->hints() & PLUGIN_CAN_FORCE_STEREO)) { init.engine->setLastError("Carla's rack mode can only work with Mono or Stereo LADSPA plugins, sorry!"); delete plugin; return nullptr; } } # endif plugin->registerToOscClient(); return plugin; #else init.engine->setLastError("LADSPA support not available"); return nullptr; #endif } CARLA_BACKEND_END_NAMESPACE