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view DPF-Prymula-audioplugins/dpf/distrho/src/DistrhoPluginLV2.cpp @ 3:84e66ea83026
DPF-Prymula-audioplugins-0.231015-2
| author | prymula <prymula76@outlook.com> |
|---|---|
| date | Mon, 16 Oct 2023 21:53:34 +0200 |
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/* * DISTRHO Plugin Framework (DPF) * Copyright (C) 2012-2022 Filipe Coelho <falktx@falktx.com> * * Permission to use, copy, modify, and/or distribute this software for any purpose with * or without fee is hereby granted, provided that the above copyright notice and this * permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD * TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN * NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER * IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include "DistrhoPluginInternal.hpp" #include "lv2/atom.h" #include "lv2/atom-forge.h" #include "lv2/atom-util.h" #include "lv2/buf-size.h" #include "lv2/data-access.h" #include "lv2/instance-access.h" #include "lv2/midi.h" #include "lv2/options.h" #include "lv2/parameters.h" #include "lv2/patch.h" #include "lv2/state.h" #include "lv2/time.h" #include "lv2/urid.h" #include "lv2/worker.h" #include "lv2/lv2_kxstudio_properties.h" #include "lv2/lv2_programs.h" #include "lv2/control-input-port-change-request.h" #ifdef DISTRHO_PLUGIN_LICENSED_FOR_MOD # include "libmodla.h" #endif #include <map> #ifndef DISTRHO_PLUGIN_URI # error DISTRHO_PLUGIN_URI undefined! #endif #ifndef DISTRHO_PLUGIN_LV2_STATE_PREFIX # define DISTRHO_PLUGIN_LV2_STATE_PREFIX "urn:distrho:" #endif #define DISTRHO_LV2_USE_EVENTS_IN (DISTRHO_PLUGIN_WANT_MIDI_INPUT || DISTRHO_PLUGIN_WANT_TIMEPOS || DISTRHO_PLUGIN_WANT_STATE) #define DISTRHO_LV2_USE_EVENTS_OUT (DISTRHO_PLUGIN_WANT_MIDI_OUTPUT || DISTRHO_PLUGIN_WANT_STATE) START_NAMESPACE_DISTRHO typedef std::map<const String, String> StringToStringMap; typedef std::map<const LV2_URID, String> UridToStringMap; #if ! DISTRHO_PLUGIN_WANT_MIDI_OUTPUT static const writeMidiFunc writeMidiCallback = nullptr; #endif #if ! DISTRHO_PLUGIN_WANT_PARAMETER_VALUE_CHANGE_REQUEST static const requestParameterValueChangeFunc requestParameterValueChangeCallback = nullptr; #endif #if ! DISTRHO_PLUGIN_WANT_STATE static const updateStateValueFunc updateStateValueCallback = nullptr; #endif // ----------------------------------------------------------------------- class PluginLv2 { public: PluginLv2(const double sampleRate, const LV2_URID_Map* const uridMap, const LV2_Worker_Schedule* const worker, const LV2_ControlInputPort_Change_Request* const ctrlInPortChangeReq, const bool usingNominal) : fPlugin(this, writeMidiCallback, requestParameterValueChangeCallback, updateStateValueCallback), fUsingNominal(usingNominal), #ifdef DISTRHO_PLUGIN_LICENSED_FOR_MOD fRunCount(0), #endif fPortControls(nullptr), fLastControlValues(nullptr), fSampleRate(sampleRate), fURIDs(uridMap), #if DISTRHO_PLUGIN_WANT_PARAMETER_VALUE_CHANGE_REQUEST fCtrlInPortChangeReq(ctrlInPortChangeReq), #endif fUridMap(uridMap), fWorker(worker) { #if DISTRHO_PLUGIN_NUM_INPUTS > 0 for (uint32_t i=0; i < DISTRHO_PLUGIN_NUM_INPUTS; ++i) fPortAudioIns[i] = nullptr; #else fPortAudioIns = nullptr; #endif #if DISTRHO_PLUGIN_NUM_OUTPUTS > 0 for (uint32_t i=0; i < DISTRHO_PLUGIN_NUM_OUTPUTS; ++i) fPortAudioOuts[i] = nullptr; #else fPortAudioOuts = nullptr; #endif if (const uint32_t count = fPlugin.getParameterCount()) { fPortControls = new float*[count]; fLastControlValues = new float[count]; for (uint32_t i=0; i < count; ++i) { fPortControls[i] = nullptr; fLastControlValues[i] = fPlugin.getParameterValue(i); } } else { fPortControls = nullptr; fLastControlValues = nullptr; } #if DISTRHO_LV2_USE_EVENTS_IN fPortEventsIn = nullptr; #endif #if DISTRHO_PLUGIN_WANT_LATENCY fPortLatency = nullptr; #endif #if DISTRHO_PLUGIN_WANT_STATE std::memset(&fAtomForge, 0, sizeof(fAtomForge)); lv2_atom_forge_init(&fAtomForge, uridMap); if (const uint32_t count = fPlugin.getStateCount()) { fUrids = new LV2_URID[count]; fNeededUiSends = new bool[count]; for (uint32_t i=0; i < count; ++i) { fNeededUiSends[i] = false; const String& statekey(fPlugin.getStateKey(i)); fStateMap[statekey] = fPlugin.getStateDefaultValue(i); const String lv2key(DISTRHO_PLUGIN_URI "#" + statekey); const LV2_URID urid = fUrids[i] = uridMap->map(uridMap->handle, lv2key.buffer()); fUridStateMap[urid] = statekey; } } else { fUrids = nullptr; fNeededUiSends = nullptr; } #else // unused (void)fWorker; #endif #if ! DISTRHO_PLUGIN_WANT_PARAMETER_VALUE_CHANGE_REQUEST // unused (void)ctrlInPortChangeReq; #endif } ~PluginLv2() { if (fPortControls != nullptr) { delete[] fPortControls; fPortControls = nullptr; } if (fLastControlValues) { delete[] fLastControlValues; fLastControlValues = nullptr; } #if DISTRHO_PLUGIN_WANT_STATE if (fNeededUiSends != nullptr) { delete[] fNeededUiSends; fNeededUiSends = nullptr; } if (fUrids != nullptr) { delete[] fUrids; fUrids = nullptr; } fStateMap.clear(); #endif } // ------------------------------------------------------------------- bool getPortControlValue(uint32_t index, float& value) const { if (const float* control = fPortControls[index]) { switch (fPlugin.getParameterDesignation(index)) { default: value = *control; break; case kParameterDesignationBypass: value = 1.0f - *control; break; } return true; } return false; } void setPortControlValue(uint32_t index, float value) { if (float* control = fPortControls[index]) { switch (fPlugin.getParameterDesignation(index)) { default: *control = value; break; case kParameterDesignationBypass: *control = 1.0f - value; break; } } } // ------------------------------------------------------------------- void lv2_activate() { #if DISTRHO_PLUGIN_WANT_TIMEPOS fTimePosition.clear(); // hosts may not send all values, resulting on some invalid data, let's reset everything fTimePosition.bbt.bar = 1; fTimePosition.bbt.beat = 1; fTimePosition.bbt.tick = 0.0; fTimePosition.bbt.barStartTick = 0; fTimePosition.bbt.beatsPerBar = 4; fTimePosition.bbt.beatType = 4; fTimePosition.bbt.ticksPerBeat = 1920.0; fTimePosition.bbt.beatsPerMinute = 120.0; #endif fPlugin.activate(); } void lv2_deactivate() { fPlugin.deactivate(); } // ------------------------------------------------------------------- void lv2_connect_port(const uint32_t port, void* const dataLocation) { uint32_t index = 0; #if DISTRHO_PLUGIN_NUM_INPUTS > 0 for (uint32_t i=0; i < DISTRHO_PLUGIN_NUM_INPUTS; ++i) { if (port == index++) { fPortAudioIns[i] = (const float*)dataLocation; return; } } #endif #if DISTRHO_PLUGIN_NUM_OUTPUTS > 0 for (uint32_t i=0; i < DISTRHO_PLUGIN_NUM_OUTPUTS; ++i) { if (port == index++) { fPortAudioOuts[i] = (float*)dataLocation; return; } } #endif #if DISTRHO_LV2_USE_EVENTS_IN if (port == index++) { fPortEventsIn = (LV2_Atom_Sequence*)dataLocation; return; } #endif #if DISTRHO_LV2_USE_EVENTS_OUT if (port == index++) { fEventsOutData.port = (LV2_Atom_Sequence*)dataLocation; return; } #endif #if DISTRHO_PLUGIN_WANT_LATENCY if (port == index++) { fPortLatency = (float*)dataLocation; return; } #endif for (uint32_t i=0, count=fPlugin.getParameterCount(); i < count; ++i) { if (port == index++) { fPortControls[i] = (float*)dataLocation; return; } } } // ------------------------------------------------------------------- void lv2_run(const uint32_t sampleCount) { // cache midi input and time position first #if DISTRHO_PLUGIN_WANT_MIDI_INPUT uint32_t midiEventCount = 0; #endif #if DISTRHO_PLUGIN_WANT_MIDI_INPUT || DISTRHO_PLUGIN_WANT_TIMEPOS LV2_ATOM_SEQUENCE_FOREACH(fPortEventsIn, event) { if (event == nullptr) break; # if DISTRHO_PLUGIN_WANT_MIDI_INPUT if (event->body.type == fURIDs.midiEvent) { if (midiEventCount >= kMaxMidiEvents) continue; const uint8_t* const data((const uint8_t*)(event + 1)); MidiEvent& midiEvent(fMidiEvents[midiEventCount++]); midiEvent.frame = event->time.frames; midiEvent.size = event->body.size; if (midiEvent.size > MidiEvent::kDataSize) { midiEvent.dataExt = data; std::memset(midiEvent.data, 0, MidiEvent::kDataSize); } else { midiEvent.dataExt = nullptr; std::memcpy(midiEvent.data, data, midiEvent.size); } continue; } # endif # if DISTRHO_PLUGIN_WANT_TIMEPOS if (event->body.type == fURIDs.atomBlank || event->body.type == fURIDs.atomObject) { const LV2_Atom_Object* const obj((const LV2_Atom_Object*)&event->body); if (obj->body.otype != fURIDs.timePosition) continue; LV2_Atom* bar = nullptr; LV2_Atom* barBeat = nullptr; LV2_Atom* beatUnit = nullptr; LV2_Atom* beatsPerBar = nullptr; LV2_Atom* beatsPerMinute = nullptr; LV2_Atom* frame = nullptr; LV2_Atom* speed = nullptr; LV2_Atom* ticksPerBeat = nullptr; lv2_atom_object_get(obj, fURIDs.timeBar, &bar, fURIDs.timeBarBeat, &barBeat, fURIDs.timeBeatUnit, &beatUnit, fURIDs.timeBeatsPerBar, &beatsPerBar, fURIDs.timeBeatsPerMinute, &beatsPerMinute, fURIDs.timeFrame, &frame, fURIDs.timeSpeed, &speed, fURIDs.timeTicksPerBeat, &ticksPerBeat, 0); // need to handle this first as other values depend on it if (ticksPerBeat != nullptr) { /**/ if (ticksPerBeat->type == fURIDs.atomDouble) fLastPositionData.ticksPerBeat = ((LV2_Atom_Double*)ticksPerBeat)->body; else if (ticksPerBeat->type == fURIDs.atomFloat) fLastPositionData.ticksPerBeat = ((LV2_Atom_Float*)ticksPerBeat)->body; else if (ticksPerBeat->type == fURIDs.atomInt) fLastPositionData.ticksPerBeat = ((LV2_Atom_Int*)ticksPerBeat)->body; else if (ticksPerBeat->type == fURIDs.atomLong) fLastPositionData.ticksPerBeat = ((LV2_Atom_Long*)ticksPerBeat)->body; else d_stderr("Unknown lv2 ticksPerBeat value type"); if (fLastPositionData.ticksPerBeat > 0.0) fTimePosition.bbt.ticksPerBeat = fLastPositionData.ticksPerBeat; } // same if (speed != nullptr) { /**/ if (speed->type == fURIDs.atomDouble) fLastPositionData.speed = ((LV2_Atom_Double*)speed)->body; else if (speed->type == fURIDs.atomFloat) fLastPositionData.speed = ((LV2_Atom_Float*)speed)->body; else if (speed->type == fURIDs.atomInt) fLastPositionData.speed = ((LV2_Atom_Int*)speed)->body; else if (speed->type == fURIDs.atomLong) fLastPositionData.speed = ((LV2_Atom_Long*)speed)->body; else d_stderr("Unknown lv2 speed value type"); fTimePosition.playing = d_isNotZero(fLastPositionData.speed); } if (bar != nullptr) { /**/ if (bar->type == fURIDs.atomDouble) fLastPositionData.bar = ((LV2_Atom_Double*)bar)->body; else if (bar->type == fURIDs.atomFloat) fLastPositionData.bar = ((LV2_Atom_Float*)bar)->body; else if (bar->type == fURIDs.atomInt) fLastPositionData.bar = ((LV2_Atom_Int*)bar)->body; else if (bar->type == fURIDs.atomLong) fLastPositionData.bar = ((LV2_Atom_Long*)bar)->body; else d_stderr("Unknown lv2 bar value type"); if (fLastPositionData.bar >= 0) fTimePosition.bbt.bar = fLastPositionData.bar + 1; } if (barBeat != nullptr) { /**/ if (barBeat->type == fURIDs.atomDouble) fLastPositionData.barBeat = ((LV2_Atom_Double*)barBeat)->body; else if (barBeat->type == fURIDs.atomFloat) fLastPositionData.barBeat = ((LV2_Atom_Float*)barBeat)->body; else if (barBeat->type == fURIDs.atomInt) fLastPositionData.barBeat = ((LV2_Atom_Int*)barBeat)->body; else if (barBeat->type == fURIDs.atomLong) fLastPositionData.barBeat = ((LV2_Atom_Long*)barBeat)->body; else d_stderr("Unknown lv2 barBeat value type"); if (fLastPositionData.barBeat >= 0.0f) { const double rest = std::fmod(fLastPositionData.barBeat, 1.0f); fTimePosition.bbt.beat = std::round(fLastPositionData.barBeat - rest + 1.0); fTimePosition.bbt.tick = rest * fTimePosition.bbt.ticksPerBeat; } } if (beatUnit != nullptr) { /**/ if (beatUnit->type == fURIDs.atomDouble) fLastPositionData.beatUnit = ((LV2_Atom_Double*)beatUnit)->body; else if (beatUnit->type == fURIDs.atomFloat) fLastPositionData.beatUnit = ((LV2_Atom_Float*)beatUnit)->body; else if (beatUnit->type == fURIDs.atomInt) fLastPositionData.beatUnit = ((LV2_Atom_Int*)beatUnit)->body; else if (beatUnit->type == fURIDs.atomLong) fLastPositionData.beatUnit = ((LV2_Atom_Long*)beatUnit)->body; else d_stderr("Unknown lv2 beatUnit value type"); if (fLastPositionData.beatUnit > 0) fTimePosition.bbt.beatType = fLastPositionData.beatUnit; } if (beatsPerBar != nullptr) { /**/ if (beatsPerBar->type == fURIDs.atomDouble) fLastPositionData.beatsPerBar = ((LV2_Atom_Double*)beatsPerBar)->body; else if (beatsPerBar->type == fURIDs.atomFloat) fLastPositionData.beatsPerBar = ((LV2_Atom_Float*)beatsPerBar)->body; else if (beatsPerBar->type == fURIDs.atomInt) fLastPositionData.beatsPerBar = ((LV2_Atom_Int*)beatsPerBar)->body; else if (beatsPerBar->type == fURIDs.atomLong) fLastPositionData.beatsPerBar = ((LV2_Atom_Long*)beatsPerBar)->body; else d_stderr("Unknown lv2 beatsPerBar value type"); if (fLastPositionData.beatsPerBar > 0.0f) fTimePosition.bbt.beatsPerBar = fLastPositionData.beatsPerBar; } if (beatsPerMinute != nullptr) { /**/ if (beatsPerMinute->type == fURIDs.atomDouble) fLastPositionData.beatsPerMinute = ((LV2_Atom_Double*)beatsPerMinute)->body; else if (beatsPerMinute->type == fURIDs.atomFloat) fLastPositionData.beatsPerMinute = ((LV2_Atom_Float*)beatsPerMinute)->body; else if (beatsPerMinute->type == fURIDs.atomInt) fLastPositionData.beatsPerMinute = ((LV2_Atom_Int*)beatsPerMinute)->body; else if (beatsPerMinute->type == fURIDs.atomLong) fLastPositionData.beatsPerMinute = ((LV2_Atom_Long*)beatsPerMinute)->body; else d_stderr("Unknown lv2 beatsPerMinute value type"); if (fLastPositionData.beatsPerMinute > 0.0f) { fTimePosition.bbt.beatsPerMinute = fLastPositionData.beatsPerMinute; if (d_isNotZero(fLastPositionData.speed)) fTimePosition.bbt.beatsPerMinute *= std::abs(fLastPositionData.speed); } } if (frame != nullptr) { /**/ if (frame->type == fURIDs.atomDouble) fLastPositionData.frame = ((LV2_Atom_Double*)frame)->body; else if (frame->type == fURIDs.atomFloat) fLastPositionData.frame = ((LV2_Atom_Float*)frame)->body; else if (frame->type == fURIDs.atomInt) fLastPositionData.frame = ((LV2_Atom_Int*)frame)->body; else if (frame->type == fURIDs.atomLong) fLastPositionData.frame = ((LV2_Atom_Long*)frame)->body; else d_stderr("Unknown lv2 frame value type"); if (fLastPositionData.frame >= 0) fTimePosition.frame = fLastPositionData.frame; } fTimePosition.bbt.barStartTick = fTimePosition.bbt.ticksPerBeat* fTimePosition.bbt.beatsPerBar* (fTimePosition.bbt.bar-1); fTimePosition.bbt.valid = (fLastPositionData.beatsPerMinute > 0.0 && fLastPositionData.beatUnit > 0 && fLastPositionData.beatsPerBar > 0.0f); fPlugin.setTimePosition(fTimePosition); continue; } # endif } #endif // check for messages from UI or host #if DISTRHO_PLUGIN_WANT_STATE LV2_ATOM_SEQUENCE_FOREACH(fPortEventsIn, event) { if (event == nullptr) break; #if DISTRHO_PLUGIN_HAS_UI if (event->body.type == fURIDs.dpfKeyValue) { const void* const data = (const void*)(event + 1); // check if this is our special message if (std::strcmp((const char*)data, "__dpf_ui_data__") == 0) { for (uint32_t i=0, count=fPlugin.getStateCount(); i < count; ++i) { if (fPlugin.getStateHints(i) & kStateIsOnlyForDSP) continue; fNeededUiSends[i] = true; } } // no, send to DSP as usual else if (fWorker != nullptr) { fWorker->schedule_work(fWorker->handle, sizeof(LV2_Atom)+event->body.size, &event->body); } } else #endif if (event->body.type == fURIDs.atomObject && fWorker != nullptr) { const LV2_Atom_Object* const object = (const LV2_Atom_Object*)&event->body; const LV2_Atom* property = nullptr; const LV2_Atom* value = nullptr; lv2_atom_object_get(object, fURIDs.patchProperty, &property, fURIDs.patchValue, &value, nullptr); if (property != nullptr && property->type == fURIDs.atomURID && value != nullptr && (value->type == fURIDs.atomPath || value->type == fURIDs.atomString)) { fWorker->schedule_work(fWorker->handle, sizeof(LV2_Atom)+event->body.size, &event->body); } } } #endif // Check for updated parameters float curValue; for (uint32_t i=0, count=fPlugin.getParameterCount(); i < count; ++i) { if (!getPortControlValue(i, curValue)) continue; if (fPlugin.isParameterInput(i) && d_isNotEqual(fLastControlValues[i], curValue)) { fLastControlValues[i] = curValue; fPlugin.setParameterValue(i, curValue); } } // Run plugin if (sampleCount != 0) { #ifdef DISTRHO_PLUGIN_LICENSED_FOR_MOD fRunCount = mod_license_run_begin(fRunCount, sampleCount); #endif #if DISTRHO_PLUGIN_WANT_MIDI_INPUT fPlugin.run(fPortAudioIns, fPortAudioOuts, sampleCount, fMidiEvents, midiEventCount); #else fPlugin.run(fPortAudioIns, fPortAudioOuts, sampleCount); #endif #ifdef DISTRHO_PLUGIN_LICENSED_FOR_MOD for (uint32_t i=0; i<DISTRHO_PLUGIN_NUM_OUTPUTS; ++i) mod_license_run_silence(fRunCount, fPortAudioOuts[i], sampleCount, i); #endif #if DISTRHO_PLUGIN_WANT_TIMEPOS // update timePos for next callback if (d_isNotZero(fLastPositionData.speed)) { if (fLastPositionData.speed > 0.0) { // playing forwards fLastPositionData.frame += sampleCount; } else { // playing backwards fLastPositionData.frame -= sampleCount; if (fLastPositionData.frame < 0) fLastPositionData.frame = 0; } fTimePosition.frame = fLastPositionData.frame; if (fTimePosition.bbt.valid) { const double beatsPerMinute = fLastPositionData.beatsPerMinute * fLastPositionData.speed; const double framesPerBeat = 60.0 * fSampleRate / beatsPerMinute; const double addedBarBeats = double(sampleCount) / framesPerBeat; if (fLastPositionData.barBeat >= 0.0f) { fLastPositionData.barBeat = std::fmod(fLastPositionData.barBeat+addedBarBeats, (double)fLastPositionData.beatsPerBar); const double rest = std::fmod(fLastPositionData.barBeat, 1.0f); fTimePosition.bbt.beat = std::round(fLastPositionData.barBeat - rest + 1.0); fTimePosition.bbt.tick = rest * fTimePosition.bbt.ticksPerBeat; if (fLastPositionData.bar >= 0) { fLastPositionData.bar += std::floor((fLastPositionData.barBeat+addedBarBeats)/ fLastPositionData.beatsPerBar); if (fLastPositionData.bar < 0) fLastPositionData.bar = 0; fTimePosition.bbt.bar = fLastPositionData.bar + 1; fTimePosition.bbt.barStartTick = fTimePosition.bbt.ticksPerBeat* fTimePosition.bbt.beatsPerBar* (fTimePosition.bbt.bar-1); } } fTimePosition.bbt.beatsPerMinute = std::abs(beatsPerMinute); } fPlugin.setTimePosition(fTimePosition); } #endif } updateParameterOutputsAndTriggers(); #if DISTRHO_PLUGIN_WANT_STATE fEventsOutData.initIfNeeded(fURIDs.atomSequence); LV2_Atom_Event* aev; const uint32_t capacity = fEventsOutData.capacity; for (uint32_t i=0, count=fPlugin.getStateCount(); i < count; ++i) { if (! fNeededUiSends[i]) continue; const uint32_t hints = fPlugin.getStateHints(i); #if ! DISTRHO_PLUGIN_HAS_UI if ((hints & kStateIsHostReadable) == 0x0) { fNeededUiSends[i] = false; continue; } #endif const String& curKey(fPlugin.getStateKey(i)); for (StringToStringMap::const_iterator cit=fStateMap.begin(), cite=fStateMap.end(); cit != cite; ++cit) { const String& key(cit->first); if (curKey != key) continue; const String& value(cit->second); // set msg size uint32_t msgSize; if (hints & kStateIsHostReadable) { // object, prop key, prop urid, value key, value msgSize = sizeof(LV2_Atom_Object) + sizeof(LV2_Atom_Property_Body) * 4 + sizeof(LV2_Atom_URID) * 3 + sizeof(LV2_Atom_String) + value.length() + 1; } else { // key + value + 2x null terminator + separator msgSize = static_cast<uint32_t>(key.length()+value.length())+3U; } if (sizeof(LV2_Atom_Event) + msgSize > capacity - fEventsOutData.offset) { d_stdout("Sending key '%s' to UI failed, out of space (needs %u bytes)", key.buffer(), msgSize); break; } // put data aev = (LV2_Atom_Event*)(LV2_ATOM_CONTENTS(LV2_Atom_Sequence, fEventsOutData.port) + fEventsOutData.offset); aev->time.frames = 0; if (hints & kStateIsHostReadable) { uint8_t* const msgBuf = (uint8_t*)&aev->body; LV2_Atom_Forge atomForge = fAtomForge; lv2_atom_forge_set_buffer(&atomForge, msgBuf, msgSize); LV2_Atom_Forge_Frame forgeFrame; lv2_atom_forge_object(&atomForge, &forgeFrame, 0, fURIDs.patchSet); lv2_atom_forge_key(&atomForge, fURIDs.patchProperty); lv2_atom_forge_urid(&atomForge, fUrids[i]); lv2_atom_forge_key(&atomForge, fURIDs.patchValue); if ((hints & kStateIsFilenamePath) == kStateIsFilenamePath) lv2_atom_forge_path(&atomForge, value.buffer(), static_cast<uint32_t>(value.length()+1)); else lv2_atom_forge_string(&atomForge, value.buffer(), static_cast<uint32_t>(value.length()+1)); lv2_atom_forge_pop(&atomForge, &forgeFrame); msgSize = ((LV2_Atom*)msgBuf)->size; } else { aev->body.type = fURIDs.dpfKeyValue; aev->body.size = msgSize; uint8_t* const msgBuf = LV2_ATOM_BODY(&aev->body); std::memset(msgBuf, 0, msgSize); // write key and value in atom buffer std::memcpy(msgBuf, key.buffer(), key.length()+1); std::memcpy(msgBuf+(key.length()+1), value.buffer(), value.length()+1); } fEventsOutData.growBy(lv2_atom_pad_size(sizeof(LV2_Atom_Event) + msgSize)); fNeededUiSends[i] = false; break; } } #endif #if DISTRHO_LV2_USE_EVENTS_OUT fEventsOutData.endRun(); #endif } // ------------------------------------------------------------------- uint32_t lv2_get_options(LV2_Options_Option* const /*options*/) { // currently unused return LV2_OPTIONS_ERR_UNKNOWN; } uint32_t lv2_set_options(const LV2_Options_Option* const options) { for (int i=0; options[i].key != 0; ++i) { if (options[i].key == fUridMap->map(fUridMap->handle, LV2_BUF_SIZE__nominalBlockLength)) { if (options[i].type == fURIDs.atomInt) { const int32_t bufferSize(*(const int32_t*)options[i].value); fPlugin.setBufferSize(bufferSize, true); } else { d_stderr("Host changed nominalBlockLength but with wrong value type"); } } else if (options[i].key == fUridMap->map(fUridMap->handle, LV2_BUF_SIZE__maxBlockLength) && ! fUsingNominal) { if (options[i].type == fURIDs.atomInt) { const int32_t bufferSize(*(const int32_t*)options[i].value); fPlugin.setBufferSize(bufferSize, true); } else { d_stderr("Host changed maxBlockLength but with wrong value type"); } } else if (options[i].key == fUridMap->map(fUridMap->handle, LV2_PARAMETERS__sampleRate)) { if (options[i].type == fURIDs.atomFloat) { const float sampleRate(*(const float*)options[i].value); fSampleRate = sampleRate; fPlugin.setSampleRate(sampleRate, true); } else { d_stderr("Host changed sampleRate but with wrong value type"); } } } return LV2_OPTIONS_SUCCESS; } // ------------------------------------------------------------------- #if DISTRHO_PLUGIN_WANT_PROGRAMS const LV2_Program_Descriptor* lv2_get_program(const uint32_t index) { if (index >= fPlugin.getProgramCount()) return nullptr; static LV2_Program_Descriptor desc; desc.bank = index / 128; desc.program = index % 128; desc.name = fPlugin.getProgramName(index); return &desc; } void lv2_select_program(const uint32_t bank, const uint32_t program) { const uint32_t realProgram(bank * 128 + program); if (realProgram >= fPlugin.getProgramCount()) return; fPlugin.loadProgram(realProgram); // Update control inputs for (uint32_t i=0, count=fPlugin.getParameterCount(); i < count; ++i) { if (fPlugin.isParameterOutput(i)) continue; fLastControlValues[i] = fPlugin.getParameterValue(i); setPortControlValue(i, fLastControlValues[i]); } #if DISTRHO_PLUGIN_WANT_FULL_STATE // Update state for (StringToStringMap::const_iterator cit=fStateMap.begin(), cite=fStateMap.end(); cit != cite; ++cit) { const String& key = cit->first; fStateMap[key] = fPlugin.getStateValue(key); } #endif } #endif // ------------------------------------------------------------------- #if DISTRHO_PLUGIN_WANT_STATE LV2_State_Status lv2_save(const LV2_State_Store_Function store, const LV2_State_Handle handle) { #if DISTRHO_PLUGIN_WANT_FULL_STATE // Update current state for (StringToStringMap::const_iterator cit=fStateMap.begin(), cite=fStateMap.end(); cit != cite; ++cit) { const String& key = cit->first; fStateMap[key] = fPlugin.getStateValue(key); } #endif String lv2key; LV2_URID urid; for (uint32_t i=0, count=fPlugin.getStateCount(); i < count; ++i) { const String& curKey(fPlugin.getStateKey(i)); for (StringToStringMap::const_iterator cit=fStateMap.begin(), cite=fStateMap.end(); cit != cite; ++cit) { const String& key(cit->first); if (curKey != key) continue; const uint32_t hints = fPlugin.getStateHints(i); #if ! DISTRHO_PLUGIN_HAS_UI && ! DISTRHO_PLUGIN_WANT_DIRECT_ACCESS // do not save UI-only messages if there is no UI available if (hints & kStateIsOnlyForUI) break; #endif if (hints & kStateIsHostReadable) { lv2key = DISTRHO_PLUGIN_URI "#"; urid = (hints & kStateIsFilenamePath) == kStateIsFilenamePath ? fURIDs.atomPath : fURIDs.atomString; } else { lv2key = DISTRHO_PLUGIN_LV2_STATE_PREFIX; urid = fURIDs.atomString; } lv2key += key; const String& value(cit->second); // some hosts need +1 for the null terminator, even though the type is string store(handle, fUridMap->map(fUridMap->handle, lv2key.buffer()), value.buffer(), value.length()+1, urid, LV2_STATE_IS_POD|LV2_STATE_IS_PORTABLE); break; } } return LV2_STATE_SUCCESS; } LV2_State_Status lv2_restore(const LV2_State_Retrieve_Function retrieve, const LV2_State_Handle handle) { size_t size; uint32_t type, flags; String lv2key; LV2_URID urid; for (uint32_t i=0, count=fPlugin.getStateCount(); i < count; ++i) { const String& key(fPlugin.getStateKey(i)); const uint32_t hints = fPlugin.getStateHints(i); if (hints & kStateIsHostReadable) { lv2key = DISTRHO_PLUGIN_URI "#"; urid = (hints & kStateIsFilenamePath) == kStateIsFilenamePath ? fURIDs.atomPath : fURIDs.atomString; } else { lv2key = DISTRHO_PLUGIN_LV2_STATE_PREFIX; urid = fURIDs.atomString; } lv2key += key; size = 0; type = 0; flags = LV2_STATE_IS_POD|LV2_STATE_IS_PORTABLE; const void* data = retrieve(handle, fUridMap->map(fUridMap->handle, lv2key.buffer()), &size, &type, &flags); if (data == nullptr || size == 0) continue; DISTRHO_SAFE_ASSERT_CONTINUE(type == urid); const char* const value = (const char*)data; const std::size_t length = std::strlen(value); DISTRHO_SAFE_ASSERT_CONTINUE(length == size || length+1 == size); setState(key, value); #if DISTRHO_PLUGIN_WANT_STATE // signal msg needed for UI if ((hints & kStateIsOnlyForDSP) == 0x0) fNeededUiSends[i] = true; #endif } return LV2_STATE_SUCCESS; } // ------------------------------------------------------------------- LV2_Worker_Status lv2_work(const void* const data) { const LV2_Atom* const eventBody = (const LV2_Atom*)data; if (eventBody->type == fURIDs.dpfKeyValue) { const char* const key = (const char*)(eventBody + 1); const char* const value = key + (std::strlen(key) + 1U); setState(key, value); return LV2_WORKER_SUCCESS; } if (eventBody->type == fURIDs.atomObject) { const LV2_Atom_Object* const object = (const LV2_Atom_Object*)eventBody; const LV2_Atom* property = nullptr; const LV2_Atom* value = nullptr; lv2_atom_object_get(object, fURIDs.patchProperty, &property, fURIDs.patchValue, &value, nullptr); DISTRHO_SAFE_ASSERT_RETURN(property != nullptr, LV2_WORKER_ERR_UNKNOWN); DISTRHO_SAFE_ASSERT_RETURN(property->type == fURIDs.atomURID, LV2_WORKER_ERR_UNKNOWN); DISTRHO_SAFE_ASSERT_RETURN(value != nullptr, LV2_WORKER_ERR_UNKNOWN); DISTRHO_SAFE_ASSERT_RETURN(value->type == fURIDs.atomPath || value->type == fURIDs.atomString, LV2_WORKER_ERR_UNKNOWN); const LV2_URID urid = ((const LV2_Atom_URID*)property)->body; const char* const filename = (const char*)(value + 1); String key; try { key = fUridStateMap[urid]; } DISTRHO_SAFE_EXCEPTION_RETURN("lv2_work fUridStateMap[urid]", LV2_WORKER_ERR_UNKNOWN); setState(key, filename); /* FIXME host should be responsible for updating UI side, not us for (uint32_t i=0, count=fPlugin.getStateCount(); i < count; ++i) { if (fPlugin.getStateKey(i) == key) { if ((fPlugin.getStateHints(i) & kStateIsOnlyForDSP) == 0x0) fNeededUiSends[i] = true; break; } } */ return LV2_WORKER_SUCCESS; } return LV2_WORKER_ERR_UNKNOWN; } LV2_Worker_Status lv2_work_response(uint32_t, const void*) { return LV2_WORKER_SUCCESS; } #endif // ------------------------------------------------------------------- #if DISTRHO_PLUGIN_WANT_DIRECT_ACCESS void* lv2_get_instance_pointer() { return fPlugin.getInstancePointer(); } #endif // ------------------------------------------------------------------- private: PluginExporter fPlugin; const bool fUsingNominal; // if false use maxBlockLength #ifdef DISTRHO_PLUGIN_LICENSED_FOR_MOD uint32_t fRunCount; #endif // LV2 ports #if DISTRHO_PLUGIN_NUM_INPUTS > 0 const float* fPortAudioIns[DISTRHO_PLUGIN_NUM_INPUTS]; #else const float** fPortAudioIns; #endif #if DISTRHO_PLUGIN_NUM_OUTPUTS > 0 float* fPortAudioOuts[DISTRHO_PLUGIN_NUM_OUTPUTS]; #else float** fPortAudioOuts; #endif float** fPortControls; #if DISTRHO_LV2_USE_EVENTS_IN LV2_Atom_Sequence* fPortEventsIn; #endif #if DISTRHO_PLUGIN_WANT_LATENCY float* fPortLatency; #endif // Temporary data float* fLastControlValues; double fSampleRate; #if DISTRHO_PLUGIN_WANT_MIDI_INPUT MidiEvent fMidiEvents[kMaxMidiEvents]; #endif #if DISTRHO_PLUGIN_WANT_TIMEPOS TimePosition fTimePosition; struct Lv2PositionData { int64_t bar; float barBeat; uint32_t beatUnit; float beatsPerBar; float beatsPerMinute; int64_t frame; double speed; double ticksPerBeat; Lv2PositionData() : bar(-1), barBeat(-1.0f), beatUnit(0), beatsPerBar(0.0f), beatsPerMinute(0.0f), frame(-1), speed(0.0), ticksPerBeat(-1.0) {} } fLastPositionData; #endif #if DISTRHO_LV2_USE_EVENTS_OUT struct Lv2EventsOutData { uint32_t capacity, offset; LV2_Atom_Sequence* port; Lv2EventsOutData() : capacity(0), offset(0), port(nullptr) {} void initIfNeeded(const LV2_URID uridAtomSequence) { if (capacity != 0) return; capacity = port->atom.size; port->atom.size = sizeof(LV2_Atom_Sequence_Body); port->atom.type = uridAtomSequence; port->body.unit = 0; port->body.pad = 0; } void growBy(const uint32_t size) { offset += size; port->atom.size += size; } void endRun() { capacity = 0; offset = 0; } } fEventsOutData; #endif // LV2 URIDs struct URIDs { const LV2_URID_Map* _uridMap; LV2_URID atomBlank; LV2_URID atomObject; LV2_URID atomDouble; LV2_URID atomFloat; LV2_URID atomInt; LV2_URID atomLong; LV2_URID atomPath; LV2_URID atomSequence; LV2_URID atomString; LV2_URID atomURID; LV2_URID dpfKeyValue; LV2_URID midiEvent; LV2_URID patchSet; LV2_URID patchProperty; LV2_URID patchValue; LV2_URID timePosition; LV2_URID timeBar; LV2_URID timeBarBeat; LV2_URID timeBeatUnit; LV2_URID timeBeatsPerBar; LV2_URID timeBeatsPerMinute; LV2_URID timeTicksPerBeat; LV2_URID timeFrame; LV2_URID timeSpeed; URIDs(const LV2_URID_Map* const uridMap) : _uridMap(uridMap), atomBlank(map(LV2_ATOM__Blank)), atomObject(map(LV2_ATOM__Object)), atomDouble(map(LV2_ATOM__Double)), atomFloat(map(LV2_ATOM__Float)), atomInt(map(LV2_ATOM__Int)), atomLong(map(LV2_ATOM__Long)), atomPath(map(LV2_ATOM__Path)), atomSequence(map(LV2_ATOM__Sequence)), atomString(map(LV2_ATOM__String)), atomURID(map(LV2_ATOM__URID)), dpfKeyValue(map(DISTRHO_PLUGIN_LV2_STATE_PREFIX "KeyValueState")), midiEvent(map(LV2_MIDI__MidiEvent)), patchSet(map(LV2_PATCH__Set)), patchProperty(map(LV2_PATCH__property)), patchValue(map(LV2_PATCH__value)), timePosition(map(LV2_TIME__Position)), timeBar(map(LV2_TIME__bar)), timeBarBeat(map(LV2_TIME__barBeat)), timeBeatUnit(map(LV2_TIME__beatUnit)), timeBeatsPerBar(map(LV2_TIME__beatsPerBar)), timeBeatsPerMinute(map(LV2_TIME__beatsPerMinute)), timeTicksPerBeat(map(LV2_KXSTUDIO_PROPERTIES__TimePositionTicksPerBeat)), timeFrame(map(LV2_TIME__frame)), timeSpeed(map(LV2_TIME__speed)) {} inline LV2_URID map(const char* const uri) const { return _uridMap->map(_uridMap->handle, uri); } } fURIDs; // LV2 features #if DISTRHO_PLUGIN_WANT_PARAMETER_VALUE_CHANGE_REQUEST const LV2_ControlInputPort_Change_Request* const fCtrlInPortChangeReq; #endif const LV2_URID_Map* const fUridMap; const LV2_Worker_Schedule* const fWorker; #if DISTRHO_PLUGIN_WANT_STATE LV2_Atom_Forge fAtomForge; StringToStringMap fStateMap; UridToStringMap fUridStateMap; LV2_URID* fUrids; bool* fNeededUiSends; void setState(const char* const key, const char* const newValue) { fPlugin.setState(key, newValue); // save this key if necessary if (fPlugin.wantStateKey(key)) updateInternalState(key, newValue, false); } bool updateState(const char* const key, const char* const newValue) { fPlugin.setState(key, newValue); return updateInternalState(key, newValue, true); } bool updateInternalState(const char* const key, const char* const newValue, const bool sendToUI) { // key must already exist for (StringToStringMap::iterator it=fStateMap.begin(), ite=fStateMap.end(); it != ite; ++it) { const String& dkey(it->first); if (dkey == key) { it->second = newValue; if (sendToUI) { for (uint32_t i=0, count=fPlugin.getStateCount(); i < count; ++i) { if (fPlugin.getStateKey(i) == key) { if ((fPlugin.getStateHints(i) & kStateIsOnlyForDSP) == 0x0) fNeededUiSends[i] = true; break; } } } return true; } } d_stderr("Failed to find plugin state with key \"%s\"", key); return false; } #endif void updateParameterOutputsAndTriggers() { float curValue; for (uint32_t i=0, count=fPlugin.getParameterCount(); i < count; ++i) { if (fPlugin.isParameterOutput(i)) { curValue = fLastControlValues[i] = fPlugin.getParameterValue(i); setPortControlValue(i, curValue); } else if ((fPlugin.getParameterHints(i) & kParameterIsTrigger) == kParameterIsTrigger) { // NOTE: host is responsible for auto-updating control port buffers } } #if DISTRHO_PLUGIN_WANT_LATENCY if (fPortLatency != nullptr) *fPortLatency = fPlugin.getLatency(); #endif } #if DISTRHO_PLUGIN_WANT_PARAMETER_VALUE_CHANGE_REQUEST bool requestParameterValueChange(const uint32_t index, const float value) { if (fCtrlInPortChangeReq == nullptr) return false; return fCtrlInPortChangeReq->request_change(fCtrlInPortChangeReq->handle, index, value); } static bool requestParameterValueChangeCallback(void* const ptr, const uint32_t index, const float value) { return (((PluginLv2*)ptr)->requestParameterValueChange(index, value) == 0); } #endif #if DISTRHO_PLUGIN_WANT_STATE static bool updateStateValueCallback(void* const ptr, const char* const key, const char* const value) { return ((PluginLv2*)ptr)->updateState(key, value); } #endif #if DISTRHO_PLUGIN_WANT_MIDI_OUTPUT bool writeMidi(const MidiEvent& midiEvent) { DISTRHO_SAFE_ASSERT_RETURN(fEventsOutData.port != nullptr, false); fEventsOutData.initIfNeeded(fURIDs.atomSequence); const uint32_t capacity = fEventsOutData.capacity; const uint32_t offset = fEventsOutData.offset; if (sizeof(LV2_Atom_Event) + midiEvent.size > capacity - offset) return false; LV2_Atom_Event* const aev = (LV2_Atom_Event*)(LV2_ATOM_CONTENTS(LV2_Atom_Sequence, fEventsOutData.port) + offset); aev->time.frames = midiEvent.frame; aev->body.type = fURIDs.midiEvent; aev->body.size = midiEvent.size; std::memcpy(LV2_ATOM_BODY(&aev->body), midiEvent.size > MidiEvent::kDataSize ? midiEvent.dataExt : midiEvent.data, midiEvent.size); fEventsOutData.growBy(lv2_atom_pad_size(sizeof(LV2_Atom_Event) + midiEvent.size)); return true; } static bool writeMidiCallback(void* ptr, const MidiEvent& midiEvent) { return ((PluginLv2*)ptr)->writeMidi(midiEvent); } #endif }; // ----------------------------------------------------------------------- static LV2_Handle lv2_instantiate(const LV2_Descriptor*, double sampleRate, const char* bundlePath, const LV2_Feature* const* features) { const LV2_Options_Option* options = nullptr; const LV2_URID_Map* uridMap = nullptr; const LV2_Worker_Schedule* worker = nullptr; const LV2_ControlInputPort_Change_Request* ctrlInPortChangeReq = nullptr; for (int i=0; features[i] != nullptr; ++i) { if (std::strcmp(features[i]->URI, LV2_OPTIONS__options) == 0) options = (const LV2_Options_Option*)features[i]->data; else if (std::strcmp(features[i]->URI, LV2_URID__map) == 0) uridMap = (const LV2_URID_Map*)features[i]->data; else if (std::strcmp(features[i]->URI, LV2_WORKER__schedule) == 0) worker = (const LV2_Worker_Schedule*)features[i]->data; else if (std::strcmp(features[i]->URI, LV2_CONTROL_INPUT_PORT_CHANGE_REQUEST_URI) == 0) ctrlInPortChangeReq = (const LV2_ControlInputPort_Change_Request*)features[i]->data; } if (options == nullptr) { d_stderr("Options feature missing, cannot continue!"); return nullptr; } if (uridMap == nullptr) { d_stderr("URID Map feature missing, cannot continue!"); return nullptr; } #if DISTRHO_PLUGIN_WANT_STATE if (worker == nullptr) { d_stderr("Worker feature missing, cannot continue!"); return nullptr; } #endif #ifdef DISTRHO_PLUGIN_LICENSED_FOR_MOD mod_license_check(features, DISTRHO_PLUGIN_URI); #endif d_nextBufferSize = 0; bool usingNominal = false; for (int i=0; options[i].key != 0; ++i) { if (options[i].key == uridMap->map(uridMap->handle, LV2_BUF_SIZE__nominalBlockLength)) { if (options[i].type == uridMap->map(uridMap->handle, LV2_ATOM__Int)) { d_nextBufferSize = *(const int*)options[i].value; usingNominal = true; } else { d_stderr("Host provides nominalBlockLength but has wrong value type"); } break; } if (options[i].key == uridMap->map(uridMap->handle, LV2_BUF_SIZE__maxBlockLength)) { if (options[i].type == uridMap->map(uridMap->handle, LV2_ATOM__Int)) d_nextBufferSize = *(const int*)options[i].value; else d_stderr("Host provides maxBlockLength but has wrong value type"); // no break, continue in case host supports nominalBlockLength } } if (d_nextBufferSize == 0) { d_stderr("Host does not provide nominalBlockLength or maxBlockLength options"); d_nextBufferSize = 2048; } d_nextSampleRate = sampleRate; d_nextBundlePath = bundlePath; d_nextCanRequestParameterValueChanges = ctrlInPortChangeReq != nullptr; if (std::getenv("RUNNING_UNDER_LV2LINT") != nullptr) d_nextPluginIsDummy = true; return new PluginLv2(sampleRate, uridMap, worker, ctrlInPortChangeReq, usingNominal); } #define instancePtr ((PluginLv2*)instance) static void lv2_connect_port(LV2_Handle instance, uint32_t port, void* dataLocation) { instancePtr->lv2_connect_port(port, dataLocation); } static void lv2_activate(LV2_Handle instance) { instancePtr->lv2_activate(); } static void lv2_run(LV2_Handle instance, uint32_t sampleCount) { instancePtr->lv2_run(sampleCount); } static void lv2_deactivate(LV2_Handle instance) { instancePtr->lv2_deactivate(); } static void lv2_cleanup(LV2_Handle instance) { delete instancePtr; } // ----------------------------------------------------------------------- static uint32_t lv2_get_options(LV2_Handle instance, LV2_Options_Option* options) { return instancePtr->lv2_get_options(options); } static uint32_t lv2_set_options(LV2_Handle instance, const LV2_Options_Option* options) { return instancePtr->lv2_set_options(options); } // ----------------------------------------------------------------------- #if DISTRHO_PLUGIN_WANT_PROGRAMS static const LV2_Program_Descriptor* lv2_get_program(LV2_Handle instance, uint32_t index) { return instancePtr->lv2_get_program(index); } static void lv2_select_program(LV2_Handle instance, uint32_t bank, uint32_t program) { instancePtr->lv2_select_program(bank, program); } #endif // ----------------------------------------------------------------------- #if DISTRHO_PLUGIN_WANT_STATE static LV2_State_Status lv2_save(LV2_Handle instance, LV2_State_Store_Function store, LV2_State_Handle handle, uint32_t, const LV2_Feature* const*) { return instancePtr->lv2_save(store, handle); } static LV2_State_Status lv2_restore(LV2_Handle instance, LV2_State_Retrieve_Function retrieve, LV2_State_Handle handle, uint32_t, const LV2_Feature* const*) { return instancePtr->lv2_restore(retrieve, handle); } LV2_Worker_Status lv2_work(LV2_Handle instance, LV2_Worker_Respond_Function, LV2_Worker_Respond_Handle, uint32_t, const void* data) { return instancePtr->lv2_work(data); } LV2_Worker_Status lv2_work_response(LV2_Handle instance, uint32_t size, const void* body) { return instancePtr->lv2_work_response(size, body); } #endif // ----------------------------------------------------------------------- #if DISTRHO_PLUGIN_WANT_DIRECT_ACCESS static void* lv2_get_instance_pointer(LV2_Handle instance) { return instancePtr->lv2_get_instance_pointer(); } #endif // ----------------------------------------------------------------------- static const void* lv2_extension_data(const char* uri) { static const LV2_Options_Interface options = { lv2_get_options, lv2_set_options }; if (std::strcmp(uri, LV2_OPTIONS__interface) == 0) return &options; #if DISTRHO_PLUGIN_WANT_PROGRAMS static const LV2_Programs_Interface programs = { lv2_get_program, lv2_select_program }; if (std::strcmp(uri, LV2_PROGRAMS__Interface) == 0) return &programs; #endif #if DISTRHO_PLUGIN_WANT_STATE static const LV2_State_Interface state = { lv2_save, lv2_restore }; static const LV2_Worker_Interface worker = { lv2_work, lv2_work_response, nullptr }; if (std::strcmp(uri, LV2_STATE__interface) == 0) return &state; if (std::strcmp(uri, LV2_WORKER__interface) == 0) return &worker; #endif #if DISTRHO_PLUGIN_WANT_DIRECT_ACCESS struct LV2_DirectAccess_Interface { void* (*get_instance_pointer)(LV2_Handle handle); }; static const LV2_DirectAccess_Interface directaccess = { lv2_get_instance_pointer }; if (std::strcmp(uri, DISTRHO_PLUGIN_LV2_STATE_PREFIX "direct-access") == 0) return &directaccess; #endif #ifdef DISTRHO_PLUGIN_LICENSED_FOR_MOD return mod_license_interface(uri); #else return nullptr; #endif } #undef instancePtr // ----------------------------------------------------------------------- static const LV2_Descriptor sLv2Descriptor = { DISTRHO_PLUGIN_URI, lv2_instantiate, lv2_connect_port, lv2_activate, lv2_run, lv2_deactivate, lv2_cleanup, lv2_extension_data }; // ----------------------------------------------------------------------- END_NAMESPACE_DISTRHO DISTRHO_PLUGIN_EXPORT const LV2_Descriptor* lv2_descriptor(uint32_t index) { USE_NAMESPACE_DISTRHO return (index == 0) ? &sLv2Descriptor : nullptr; } // -----------------------------------------------------------------------