/* * Carla Native Plugins * Copyright (C) 2013-2020 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 doc/GPL.txt file. */ #ifdef __WINE__ #error This file is not supposed to be built with wine! #endif #ifndef CARLA_PLUGIN_SYNTH #error CARLA_PLUGIN_SYNTH undefined #endif #ifndef CARLA_VST_SHELL #ifndef CARLA_PLUGIN_PATCHBAY #error CARLA_PLUGIN_PATCHBAY undefined #endif #if defined(CARLA_PLUGIN_64CH) || defined(CARLA_PLUGIN_32CH) || defined(CARLA_PLUGIN_16CH) #if ! CARLA_PLUGIN_SYNTH #error CARLA_PLUGIN_16/32/64CH requires CARLA_PLUGIN_SYNTH #endif #endif #endif #define CARLA_NATIVE_PLUGIN_VST #include "carla-base.cpp" #include "carla-vst.hpp" #include "water/files/File.h" #include "CarlaMathUtils.hpp" #include "CarlaVstUtils.hpp" #if defined(USING_JUCE) && (defined(CARLA_OS_MAC) || defined(CARLA_OS_WIN)) # if defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6)) # pragma GCC diagnostic push # pragma GCC diagnostic ignored "-Wconversion" # pragma GCC diagnostic ignored "-Weffc++" # pragma GCC diagnostic ignored "-Wsign-conversion" # pragma GCC diagnostic ignored "-Wundef" # pragma GCC diagnostic ignored "-Wzero-as-null-pointer-constant" # endif # include "AppConfig.h" # include "juce_events/juce_events.h" # if defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6)) # pragma GCC diagnostic pop # endif #endif static uint32_t d_lastBufferSize = 0; static double d_lastSampleRate = 0.0; static const int32_t kBaseUniqueID = CCONST('C', 'r', 'l', 'a'); static const int32_t kVstMidiEventSize = static_cast(sizeof(VstMidiEvent)); #ifdef CARLA_VST_SHELL # if CARLA_PLUGIN_SYNTH static const int32_t kShellUniqueID = CCONST('C', 'r', 'l', 's'); # else static const int32_t kShellUniqueID = CCONST('C', 'r', 'l', 'F'); # endif #else static const int32_t kNumParameters = 100; #endif static const bool kIsUsingUILauncher = isUsingUILauncher(); // -------------------------------------------------------------------------------------------------------------------- // Carla Internal Plugin API exposed as VST plugin class NativePlugin { public: static const uint32_t kMaxMidiEvents = 512; NativePlugin(AEffect* const effect, const NativePluginDescriptor* desc) : fEffect(effect), fHandle(nullptr), fHost(), fDescriptor(desc), fBufferSize(d_lastBufferSize), fSampleRate(d_lastSampleRate), fIsActive(false), fMidiEventCount(0), fTimeInfo(), fVstRect(), fUiLauncher(nullptr), fHostType(kHostTypeNull), fMidiOutEvents(), #if defined(USING_JUCE) && (defined(CARLA_OS_MAC) || defined(CARLA_OS_WIN)) fJuceInitialiser(), #endif fStateChunk(nullptr) { fHost.handle = this; fHost.uiName = carla_strdup("CarlaVST"); fHost.uiParentId = 0; std::memset(fProgramName, 0, sizeof(fProgramName)); std::strcpy(fProgramName, "Default"); // find resource dir using water::File; using water::String; File curExe = File::getSpecialLocation(File::currentExecutableFile).getLinkedTarget(); File resDir = curExe.getSiblingFile("resources"); #ifndef CARLA_OS_MAC // FIXME: proper fallback path for other OSes if (! resDir.exists()) resDir = File("/usr/local/share/carla/resources"); if (! resDir.exists()) resDir = File("/usr/share/carla/resources"); #endif // find host type const String hostFilename(File::getSpecialLocation(File::hostApplicationPath).getFileName()); /**/ if (hostFilename.startsWith("ardour")) fHostType = kHostTypeArdour; else if (hostFilename.startsWith("Bitwig")) fHostType = kHostTypeBitwig; fHost.resourceDir = carla_strdup(resDir.getFullPathName().toRawUTF8()); fHost.get_buffer_size = host_get_buffer_size; fHost.get_sample_rate = host_get_sample_rate; fHost.is_offline = host_is_offline; fHost.get_time_info = host_get_time_info; fHost.write_midi_event = host_write_midi_event; fHost.ui_parameter_changed = host_ui_parameter_changed; fHost.ui_custom_data_changed = host_ui_custom_data_changed; fHost.ui_closed = host_ui_closed; fHost.ui_open_file = host_ui_open_file; fHost.ui_save_file = host_ui_save_file; fHost.dispatcher = host_dispatcher; fVstRect.top = 0; fVstRect.left = 0; if (kIsUsingUILauncher) { fVstRect.bottom = ui_launcher_res::carla_uiHeight; fVstRect.right = ui_launcher_res::carla_uiWidth; } else { fVstRect.bottom = 712; fVstRect.right = 1024; } init(); } ~NativePlugin() { if (fIsActive) { // host has not de-activated the plugin yet, nasty! fIsActive = false; if (fDescriptor->deactivate != nullptr) fDescriptor->deactivate(fHandle); } if (fDescriptor->cleanup != nullptr && fHandle != nullptr) fDescriptor->cleanup(fHandle); fHandle = nullptr; if (fStateChunk != nullptr) { std::free(fStateChunk); fStateChunk = nullptr; } if (fHost.uiName != nullptr) { delete[] fHost.uiName; fHost.uiName = nullptr; } if (fHost.resourceDir != nullptr) { delete[] fHost.resourceDir; fHost.resourceDir = nullptr; } } bool init() { if (fDescriptor->instantiate == nullptr || fDescriptor->process == nullptr) { carla_stderr("Plugin is missing something..."); return false; } fHandle = fDescriptor->instantiate(&fHost); CARLA_SAFE_ASSERT_RETURN(fHandle != nullptr, false); carla_zeroStructs(fMidiEvents, kMaxMidiEvents); carla_zeroStruct(fTimeInfo); return true; } const NativePluginDescriptor* getDescriptor() const noexcept { return fDescriptor; } // ------------------------------------------------------------------- intptr_t vst_dispatcher(const int32_t opcode, const int32_t index, const intptr_t value, void* const ptr, const float opt) { CARLA_SAFE_ASSERT_RETURN(fHandle != nullptr, 0); intptr_t ret = 0; switch (opcode) { case effGetProgram: return 0; case effSetProgramName: if (char* const programName = (char*)ptr) { std::strncpy(fProgramName, programName, 32); return 1; } break; case effGetProgramName: if (char* const programName = (char*)ptr) { std::strncpy(programName, fProgramName, 23); programName[23] = '\0'; return 1; } break; case effGetProgramNameIndexed: if (char* const programName = (char*)ptr) { std::strncpy(programName, fProgramName, 23); programName[23] = '\0'; return 1; } break; case effGetParamDisplay: CARLA_SAFE_ASSERT_RETURN(index >= 0, 0); #ifndef CARLA_VST_SHELL CARLA_SAFE_ASSERT_RETURN(index < kNumParameters, 0); #endif if (char* const cptr = (char*)ptr) { const uint32_t uindex = static_cast(index); CARLA_SAFE_ASSERT_RETURN(uindex < fDescriptor->paramIns, 0); const NativeParameter* const param = fDescriptor->get_parameter_info(fHandle, uindex); CARLA_SAFE_ASSERT_RETURN(param != nullptr, 0); float paramValue = fDescriptor->get_parameter_value(fHandle, uindex); if (param->hints & NATIVE_PARAMETER_IS_BOOLEAN) { const NativeParameterRanges& ranges(param->ranges); const float midRange = ranges.min + (ranges.max - ranges.min) / 2.0f; paramValue = paramValue > midRange ? ranges.max : ranges.min; } else if (param->hints & NATIVE_PARAMETER_IS_INTEGER) { paramValue = std::round(paramValue); } for (uint32_t i = 0; i < param->scalePointCount; ++i) { const NativeParameterScalePoint& scalePoint(param->scalePoints[uindex]); if (carla_isNotEqual(paramValue, scalePoint.value)) continue; std::strncpy(cptr, scalePoint.label, 23); cptr[23] = '\0'; return 1; } if (param->hints & NATIVE_PARAMETER_IS_INTEGER) { std::snprintf(cptr, 23, "%d%s%s", static_cast(paramValue), param->unit != nullptr && param->unit[0] != '\0' ? " " : "", param->unit != nullptr && param->unit[0] != '\0' ? param->unit : ""); cptr[23] = '\0'; } else { std::snprintf(cptr, 23, "%.12g%s%s", static_cast(paramValue), param->unit != nullptr && param->unit[0] != '\0' ? " " : "", param->unit != nullptr && param->unit[0] != '\0' ? param->unit : ""); cptr[23] = '\0'; } return 1; } break; case effGetParamName: CARLA_SAFE_ASSERT_RETURN(index >= 0, 0); #ifndef CARLA_VST_SHELL CARLA_SAFE_ASSERT_RETURN(index < kNumParameters, 0); #endif if (char* const cptr = (char*)ptr) { const uint32_t uindex = static_cast(index); CARLA_SAFE_ASSERT_RETURN(uindex < fDescriptor->paramIns, 0); const NativeParameter* const param = fDescriptor->get_parameter_info(fHandle, uindex); CARLA_SAFE_ASSERT_RETURN(param != nullptr, 0); std::strncpy(cptr, param->name, 15); cptr[15] = '\0'; return 1; } return 0; case effSetSampleRate: CARLA_SAFE_ASSERT_RETURN(opt > 0.0f, 0); if (carla_isEqual(fSampleRate, static_cast(opt))) return 0; fSampleRate = opt; if (fDescriptor->dispatcher != nullptr) fDescriptor->dispatcher(fHandle, NATIVE_PLUGIN_OPCODE_SAMPLE_RATE_CHANGED, 0, 0, nullptr, opt); break; case effSetBlockSize: CARLA_SAFE_ASSERT_RETURN(value > 0, 0); if (fBufferSize == static_cast(value)) return 0; fBufferSize = static_cast(value); if (fDescriptor->dispatcher != nullptr) fDescriptor->dispatcher(fHandle, NATIVE_PLUGIN_OPCODE_BUFFER_SIZE_CHANGED, 0, value, nullptr, 0.0f); break; case effMainsChanged: if (value != 0) { fMidiEventCount = 0; carla_zeroStruct(fTimeInfo); // tell host we want MIDI events if (fDescriptor->midiIns > 0) hostCallback(audioMasterWantMidi); // deactivate for possible changes if (fDescriptor->deactivate != nullptr && fIsActive) fDescriptor->deactivate(fHandle); // check if something changed const uint32_t bufferSize = static_cast(hostCallback(audioMasterGetBlockSize)); const double sampleRate = static_cast(hostCallback(audioMasterGetSampleRate)); if (bufferSize != 0 && fBufferSize != bufferSize && (fHostType != kHostTypeArdour || fBufferSize == 0)) { fBufferSize = bufferSize; if (fDescriptor->dispatcher != nullptr) fDescriptor->dispatcher(fHandle, NATIVE_PLUGIN_OPCODE_BUFFER_SIZE_CHANGED, 0, bufferSize, nullptr, 0.0f); } if (carla_isNotZero(sampleRate) && carla_isNotEqual(fSampleRate, sampleRate)) { fSampleRate = sampleRate; if (fDescriptor->dispatcher != nullptr) fDescriptor->dispatcher(fHandle, NATIVE_PLUGIN_OPCODE_SAMPLE_RATE_CHANGED, 0, 0, nullptr, (float)sampleRate); } if (fDescriptor->activate != nullptr) fDescriptor->activate(fHandle); fIsActive = true; } else { CARLA_SAFE_ASSERT_BREAK(fIsActive); if (fDescriptor->deactivate != nullptr) fDescriptor->deactivate(fHandle); fIsActive = false; } break; case effEditGetRect: *(ERect**)ptr = &fVstRect; ret = 1; break; case effEditOpen: if (fDescriptor->ui_show != nullptr) { if (kIsUsingUILauncher) { destoryUILauncher(fUiLauncher); fUiLauncher = createUILauncher((intptr_t)ptr, fDescriptor, fHandle); } else { char strBuf[0xff+1]; std::snprintf(strBuf, 0xff, P_INTPTR, (intptr_t)ptr); strBuf[0xff] = '\0'; // set CARLA_PLUGIN_EMBED_WINID for external process carla_setenv("CARLA_PLUGIN_EMBED_WINID", strBuf); // show UI now fDescriptor->ui_show(fHandle, true); // reset CARLA_PLUGIN_EMBED_WINID just in case carla_setenv("CARLA_PLUGIN_EMBED_WINID", "0"); } ret = 1; } break; case effEditClose: if (fDescriptor->ui_show != nullptr) { if (kIsUsingUILauncher) { destoryUILauncher(fUiLauncher); fUiLauncher = nullptr; } else { fDescriptor->ui_show(fHandle, false); } ret = 1; } break; case effEditIdle: if (fUiLauncher != nullptr) idleUILauncher(fUiLauncher); if (fDescriptor->ui_idle != nullptr) fDescriptor->ui_idle(fHandle); break; case effGetChunk: if (ptr == nullptr || fDescriptor->get_state == nullptr) return 0; if (fStateChunk != nullptr) std::free(fStateChunk); fStateChunk = fDescriptor->get_state(fHandle); if (fStateChunk == nullptr) return 0; ret = static_cast(std::strlen(fStateChunk)+1); *(void**)ptr = fStateChunk; break; case effSetChunk: if (value <= 0 || fDescriptor->set_state == nullptr) return 0; if (value == 1) return 1; if (const char* const state = (const char*)ptr) { fDescriptor->set_state(fHandle, state); ret = 1; } break; case effProcessEvents: if (! fIsActive) { // host has not activated the plugin yet, nasty! vst_dispatcher(effMainsChanged, 0, 1, nullptr, 0.0f); } if (const VstEvents* const events = (const VstEvents*)ptr) { if (events->numEvents == 0) break; for (int i=0, count=events->numEvents; i < count; ++i) { const VstMidiEvent* const vstMidiEvent((const VstMidiEvent*)events->events[i]); if (vstMidiEvent == nullptr) break; if (vstMidiEvent->type != kVstMidiType || vstMidiEvent->deltaFrames < 0) continue; if (fMidiEventCount >= kMaxMidiEvents) break; const uint32_t j(fMidiEventCount++); fMidiEvents[j].port = 0; fMidiEvents[j].time = static_cast(vstMidiEvent->deltaFrames); fMidiEvents[j].size = 3; for (uint32_t k=0; k<3; ++k) fMidiEvents[j].data[k] = static_cast(vstMidiEvent->midiData[k]); } } break; case effCanBeAutomated: ret = 1; break; case effCanDo: if (const char* const canDo = (const char*)ptr) { if (std::strcmp(canDo, "receiveVstEvents") == 0 || std::strcmp(canDo, "receiveVstMidiEvent") == 0) { if (fDescriptor->midiIns == 0) return -1; return 1; } if (std::strcmp(canDo, "sendVstEvents") == 0 || std::strcmp(canDo, "sendVstMidiEvent") == 0) { if (fDescriptor->midiOuts == 0) return -1; return 1; } if (std::strcmp(canDo, "receiveVstTimeInfo") == 0) return 1; } break; } return ret; } float vst_getParameter(const int32_t index) { CARLA_SAFE_ASSERT_RETURN(index >= 0, 0.0f); const uint32_t uindex = static_cast(index); CARLA_SAFE_ASSERT_RETURN(uindex < fDescriptor->paramIns, 0.0f); const NativeParameter* const param = fDescriptor->get_parameter_info(fHandle, uindex); CARLA_SAFE_ASSERT_RETURN(param != nullptr, 0); const float realValue = fDescriptor->get_parameter_value(fHandle, uindex); return (realValue - param->ranges.min) / (param->ranges.max - param->ranges.min); } void vst_setParameter(const int32_t index, const float value) { CARLA_SAFE_ASSERT_RETURN(index >= 0,); const uint32_t uindex = static_cast(index); CARLA_SAFE_ASSERT_RETURN(uindex < fDescriptor->paramIns,); const NativeParameter* const param = fDescriptor->get_parameter_info(fHandle, uindex); CARLA_SAFE_ASSERT_RETURN(param != nullptr,); float realValue; if (param->hints & NATIVE_PARAMETER_IS_BOOLEAN) { realValue = value > 0.5f ? param->ranges.max : param->ranges.min; } else { realValue = param->ranges.min + ((param->ranges.max - param->ranges.min) * value); if (param->hints & NATIVE_PARAMETER_IS_INTEGER) realValue = std::round(realValue); } fDescriptor->set_parameter_value(fHandle, uindex, realValue); } // FIXME for v3.0, use const for the input buffer void vst_processReplacing(float** const inputs, float** const outputs, const int32_t sampleFrames) { if (sampleFrames <= 0) return; if (fHostType == kHostTypeBitwig && static_cast(fBufferSize) != sampleFrames) { // deactivate first if needed if (fIsActive && fDescriptor->deactivate != nullptr) fDescriptor->deactivate(fHandle); fBufferSize = static_cast(sampleFrames); if (fDescriptor->dispatcher != nullptr) fDescriptor->dispatcher(fHandle, NATIVE_PLUGIN_OPCODE_BUFFER_SIZE_CHANGED, 0, sampleFrames, nullptr, 0.0f); // activate again if (fDescriptor->activate != nullptr) fDescriptor->activate(fHandle); fIsActive = true; } if (! fIsActive) { // host has not activated the plugin yet, nasty! vst_dispatcher(effMainsChanged, 0, 1, nullptr, 0.0f); } static const int kWantVstTimeFlags = kVstTransportPlaying|kVstPpqPosValid|kVstTempoValid|kVstTimeSigValid; if (const VstTimeInfo* const vstTimeInfo = (const VstTimeInfo*)hostCallback(audioMasterGetTime, 0, kWantVstTimeFlags)) { fTimeInfo.frame = static_cast(vstTimeInfo->samplePos); fTimeInfo.playing = (vstTimeInfo->flags & kVstTransportPlaying); fTimeInfo.bbt.valid = ((vstTimeInfo->flags & kVstTempoValid) != 0 || (vstTimeInfo->flags & kVstTimeSigValid) != 0); // ticksPerBeat is not possible with VST fTimeInfo.bbt.ticksPerBeat = 960.0; if (vstTimeInfo->flags & kVstTempoValid) fTimeInfo.bbt.beatsPerMinute = vstTimeInfo->tempo; else fTimeInfo.bbt.beatsPerMinute = 120.0; if (vstTimeInfo->flags & (kVstPpqPosValid|kVstTimeSigValid)) { const double ppqPos = std::abs(vstTimeInfo->ppqPos); const int ppqPerBar = vstTimeInfo->timeSigNumerator * 4 / vstTimeInfo->timeSigDenominator; const double barBeats = (std::fmod(ppqPos, ppqPerBar) / ppqPerBar) * vstTimeInfo->timeSigNumerator; const double rest = std::fmod(barBeats, 1.0); fTimeInfo.bbt.bar = static_cast(ppqPos) / ppqPerBar + 1; fTimeInfo.bbt.beat = static_cast(barBeats - rest + 0.5) + 1; fTimeInfo.bbt.tick = static_cast(rest * fTimeInfo.bbt.ticksPerBeat + 0.5); fTimeInfo.bbt.beatsPerBar = static_cast(vstTimeInfo->timeSigNumerator); fTimeInfo.bbt.beatType = static_cast(vstTimeInfo->timeSigDenominator); if (vstTimeInfo->ppqPos < 0.0) { --fTimeInfo.bbt.bar; fTimeInfo.bbt.beat = vstTimeInfo->timeSigNumerator - fTimeInfo.bbt.beat + 1; fTimeInfo.bbt.tick = fTimeInfo.bbt.ticksPerBeat - fTimeInfo.bbt.tick - 1; } } else { fTimeInfo.bbt.bar = 1; fTimeInfo.bbt.beat = 1; fTimeInfo.bbt.tick = 0; fTimeInfo.bbt.beatsPerBar = 4.0f; fTimeInfo.bbt.beatType = 4.0f; } fTimeInfo.bbt.barStartTick = fTimeInfo.bbt.ticksPerBeat * static_cast(fTimeInfo.bbt.beatsPerBar) * (fTimeInfo.bbt.bar - 1); } fMidiOutEvents.numEvents = 0; if (fHandle != nullptr) fDescriptor->process(fHandle, inputs, outputs, static_cast(sampleFrames), fMidiEvents, fMidiEventCount); fMidiEventCount = 0; if (fMidiOutEvents.numEvents > 0) hostCallback(audioMasterProcessEvents, 0, 0, &fMidiOutEvents, 0.0f); } protected: // ------------------------------------------------------------------- bool handleWriteMidiEvent(const NativeMidiEvent* const event) { CARLA_SAFE_ASSERT_RETURN(fDescriptor->midiOuts > 0, false); CARLA_SAFE_ASSERT_RETURN(event != nullptr, false); CARLA_SAFE_ASSERT_RETURN(event->data[0] != 0, false); if (fMidiOutEvents.numEvents >= static_cast(kMaxMidiEvents)) { // send current events hostCallback(audioMasterProcessEvents, 0, 0, &fMidiOutEvents, 0.0f); // clear fMidiOutEvents.numEvents = 0; } VstMidiEvent& vstMidiEvent(fMidiOutEvents.mdata[fMidiOutEvents.numEvents++]); vstMidiEvent.type = kVstMidiType; vstMidiEvent.byteSize = kVstMidiEventSize; uint8_t i=0; for (; isize; ++i) vstMidiEvent.midiData[i] = static_cast(event->data[i]); for (; i<4; ++i) vstMidiEvent.midiData[i] = 0; return true; } void handleUiParameterChanged(const uint32_t index, const float value) const { const NativeParameter* const param = fDescriptor->get_parameter_info(fHandle, index); CARLA_SAFE_ASSERT_RETURN(param != nullptr,); const float normalizedValue = (value - param->ranges.min) / (param->ranges.max - param->ranges.min); hostCallback(audioMasterAutomate, static_cast(index), 0, nullptr, normalizedValue); } void handleUiParameterTouch(const uint32_t index, const bool touch) const { hostCallback(touch ? audioMasterBeginEdit : audioMasterEndEdit, static_cast(index)); } void handleUiCustomDataChanged(const char* const /*key*/, const char* const /*value*/) const { } void handleUiClosed() { } const char* handleUiOpenFile(const bool /*isDir*/, const char* const /*title*/, const char* const /*filter*/) const { // TODO return nullptr; } const char* handleUiSaveFile(const bool /*isDir*/, const char* const /*title*/, const char* const /*filter*/) const { // TODO return nullptr; } intptr_t handleDispatcher(const NativeHostDispatcherOpcode opcode, const int32_t index, const intptr_t value, void* const ptr, const float opt) { carla_debug("NativePlugin::handleDispatcher(%i, %i, " P_INTPTR ", %p, %f)", opcode, index, value, ptr, static_cast(opt)); switch (opcode) { case NATIVE_HOST_OPCODE_NULL: case NATIVE_HOST_OPCODE_UPDATE_PARAMETER: case NATIVE_HOST_OPCODE_UPDATE_MIDI_PROGRAM: case NATIVE_HOST_OPCODE_RELOAD_PARAMETERS: case NATIVE_HOST_OPCODE_RELOAD_MIDI_PROGRAMS: case NATIVE_HOST_OPCODE_UI_UNAVAILABLE: case NATIVE_HOST_OPCODE_INTERNAL_PLUGIN: case NATIVE_HOST_OPCODE_QUEUE_INLINE_DISPLAY: case NATIVE_HOST_OPCODE_REQUEST_IDLE: case NATIVE_HOST_OPCODE_GET_FILE_PATH: // nothing break; case NATIVE_HOST_OPCODE_RELOAD_ALL: hostCallback(audioMasterUpdateDisplay); break; case NATIVE_HOST_OPCODE_HOST_IDLE: hostCallback(audioMasterIdle); break; case NATIVE_HOST_OPCODE_UI_TOUCH_PARAMETER: CARLA_SAFE_ASSERT_RETURN(index >= 0, 0); handleUiParameterTouch(static_cast(index), value != 0); break; } // unused for now return 0; (void)ptr; (void)opt; } private: // VST stuff AEffect* const fEffect; // Native data NativePluginHandle fHandle; NativeHostDescriptor fHost; const NativePluginDescriptor* const fDescriptor; // VST host data uint32_t fBufferSize; double fSampleRate; // Temporary data bool fIsActive; uint32_t fMidiEventCount; NativeMidiEvent fMidiEvents[kMaxMidiEvents]; char fProgramName[32+1]; NativeTimeInfo fTimeInfo; ERect fVstRect; // UI button CarlaUILauncher* fUiLauncher; // Host data enum HostType { kHostTypeNull = 0, kHostTypeArdour, kHostTypeBitwig }; HostType fHostType; // host callback intptr_t hostCallback(const int32_t opcode, const int32_t index = 0, const intptr_t value = 0, void* const ptr = nullptr, const float opt = 0.0f) const { return VSTAudioMaster(fEffect, opcode, index, value, ptr, opt); } struct FixedVstEvents { int32_t numEvents; intptr_t reserved; VstEvent* data[kMaxMidiEvents]; VstMidiEvent mdata[kMaxMidiEvents]; FixedVstEvents() : numEvents(0), reserved(0) { for (uint32_t i=0; i fJuceInitialiser; #endif char* fStateChunk; // ------------------------------------------------------------------- #define handlePtr ((NativePlugin*)handle) static uint32_t host_get_buffer_size(NativeHostHandle handle) { return handlePtr->fBufferSize; } static double host_get_sample_rate(NativeHostHandle handle) { return handlePtr->fSampleRate; } static bool host_is_offline(NativeHostHandle /*handle*/) { // TODO return false; } static const NativeTimeInfo* host_get_time_info(NativeHostHandle handle) { return &(handlePtr->fTimeInfo); } static bool host_write_midi_event(NativeHostHandle handle, const NativeMidiEvent* event) { return handlePtr->handleWriteMidiEvent(event); } static void host_ui_parameter_changed(NativeHostHandle handle, uint32_t index, float value) { handlePtr->handleUiParameterChanged(index, value); } static void host_ui_custom_data_changed(NativeHostHandle handle, const char* key, const char* value) { handlePtr->handleUiCustomDataChanged(key, value); } static void host_ui_closed(NativeHostHandle handle) { handlePtr->handleUiClosed(); } static const char* host_ui_open_file(NativeHostHandle handle, bool isDir, const char* title, const char* filter) { return handlePtr->handleUiOpenFile(isDir, title, filter); } static const char* host_ui_save_file(NativeHostHandle handle, bool isDir, const char* title, const char* filter) { return handlePtr->handleUiSaveFile(isDir, title, filter); } static intptr_t host_dispatcher(NativeHostHandle handle, NativeHostDispatcherOpcode opcode, int32_t index, intptr_t value, void* ptr, float opt) { return handlePtr->handleDispatcher(opcode, index, value, ptr, opt); } #undef handlePtr CARLA_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR(NativePlugin) }; // ----------------------------------------------------------------------- #define validObject effect != nullptr && effect->object != nullptr #define validPlugin effect != nullptr && effect->object != nullptr && ((VstObject*)effect->object)->plugin != nullptr #define vstObjectPtr (VstObject*)effect->object #define pluginPtr (vstObjectPtr)->plugin intptr_t vst_dispatcherCallback(AEffect* effect, int32_t opcode, int32_t index, intptr_t value, void* ptr, float opt) { // handle base opcodes switch (opcode) { case effOpen: if (VstObject* const obj = vstObjectPtr) { // this must always be valid CARLA_SAFE_ASSERT_RETURN(obj->audioMaster != nullptr, 0); // some hosts call effOpen twice CARLA_SAFE_ASSERT_RETURN(obj->plugin == nullptr, 1); d_lastBufferSize = static_cast(VSTAudioMaster(effect, audioMasterGetBlockSize, 0, 0, nullptr, 0.0f)); d_lastSampleRate = static_cast(VSTAudioMaster(effect, audioMasterGetSampleRate, 0, 0, nullptr, 0.0f)); // some hosts are not ready at this point or return 0 buffersize/samplerate if (d_lastBufferSize == 0) d_lastBufferSize = 2048; if (d_lastSampleRate <= 0.0) d_lastSampleRate = 44100.0; const NativePluginDescriptor* pluginDesc = nullptr; PluginListManager& plm(PluginListManager::getInstance()); #ifdef CARLA_VST_SHELL if (effect->uniqueID == 0) effect->uniqueID = kShellUniqueID; if (effect->uniqueID == kShellUniqueID) { // first open for discovery, nothing to do effect->numParams = 0; effect->numPrograms = 0; effect->numInputs = 0; effect->numOutputs = 0; return 1; } const int32_t plugIndex = effect->uniqueID - kShellUniqueID - 1; CARLA_SAFE_ASSERT_RETURN(plugIndex >= 0, 0); pluginDesc = plm.descs.getAt(static_cast(plugIndex), nullptr); #else // CARLA_VST_SHELL # if defined(CARLA_PLUGIN_64CH) const char* const pluginLabel = "carlapatchbay64"; # elif defined(CARLA_PLUGIN_32CH) const char* const pluginLabel = "carlapatchbay32"; # elif defined(CARLA_PLUGIN_16CH) const char* const pluginLabel = "carlapatchbay16"; # elif CARLA_PLUGIN_PATCHBAY const char* const pluginLabel = "carlapatchbay"; # else const char* const pluginLabel = "carlarack"; # endif for (LinkedList::Itenerator it = plm.descs.begin2(); it.valid(); it.next()) { const NativePluginDescriptor* const& tmpDesc(it.getValue(nullptr)); CARLA_SAFE_ASSERT_CONTINUE(tmpDesc != nullptr); if (std::strcmp(tmpDesc->label, pluginLabel) == 0) { pluginDesc = tmpDesc; break; } } #endif // CARLA_VST_SHELL CARLA_SAFE_ASSERT_RETURN(pluginDesc != nullptr, 0); #ifdef CARLA_VST_SHELL effect->numPrograms = 1; effect->numParams = static_cast(pluginDesc->paramIns); effect->numInputs = static_cast(pluginDesc->audioIns); effect->numOutputs = static_cast(pluginDesc->audioOuts); if (pluginDesc->hints & NATIVE_PLUGIN_HAS_UI) effect->flags |= effFlagsHasEditor; else effect->flags &= ~effFlagsHasEditor; /* carla as plugin always has NATIVE_PLUGIN_IS_SYNTH set if (pluginDesc->hints & NATIVE_PLUGIN_IS_SYNTH) effect->flags |= effFlagsIsSynth; else effect->flags &= ~effFlagsIsSynth; */ #endif // CARLA_VST_SHELL #if CARLA_PLUGIN_SYNTH // override if requested effect->flags |= effFlagsIsSynth; #endif obj->plugin = new NativePlugin(effect, pluginDesc); return 1; } return 0; case effClose: if (VstObject* const obj = vstObjectPtr) { NativePlugin* const plugin(obj->plugin); if (plugin != nullptr) { obj->plugin = nullptr; delete plugin; } #if 0 /* This code invalidates the object created in VSTPluginMain * Probably not safe against all hosts */ obj->audioMaster = nullptr; effect->object = nullptr; delete obj; #endif return 1; } //delete effect; return 0; case effGetPlugCategory: #ifdef CARLA_VST_SHELL if (validPlugin) { #if CARLA_PLUGIN_SYNTH return kPlugCategSynth; #else const NativePluginDescriptor* const desc = pluginPtr->getDescriptor(); return desc->category == NATIVE_PLUGIN_CATEGORY_SYNTH ? kPlugCategSynth : kPlugCategEffect; #endif } return kPlugCategShell; #elif CARLA_PLUGIN_SYNTH return kPlugCategSynth; #else return kPlugCategEffect; #endif case effGetEffectName: if (char* const cptr = (char*)ptr) { #if defined(CARLA_VST_SHELL) if (validPlugin) { const NativePluginDescriptor* const desc = pluginPtr->getDescriptor(); #if CARLA_PLUGIN_SYNTH std::strncpy(cptr, desc->name, 32); #else std::snprintf(cptr, 32, "%s FX", desc->name); #endif } else { std::strncpy(cptr, "Carla-VstShell", 32); } #elif defined(CARLA_PLUGIN_64CH) std::strncpy(cptr, "Carla-Patchbay64", 32); #elif defined(CARLA_PLUGIN_32CH) std::strncpy(cptr, "Carla-Patchbay32", 32); #elif defined(CARLA_PLUGIN_16CH) std::strncpy(cptr, "Carla-Patchbay16", 32); #elif CARLA_PLUGIN_PATCHBAY # if CARLA_PLUGIN_SYNTH std::strncpy(cptr, "Carla-Patchbay", 32); # else std::strncpy(cptr, "Carla-PatchbayFX", 32); # endif #else // Rack mode # if CARLA_PLUGIN_SYNTH std::strncpy(cptr, "Carla-Rack", 32); # else std::strncpy(cptr, "Carla-RackFX", 32); # endif #endif return 1; } return 0; case effGetVendorString: if (char* const cptr = (char*)ptr) { #ifdef CARLA_VST_SHELL if (validPlugin) { const NativePluginDescriptor* const desc = pluginPtr->getDescriptor(); std::strncpy(cptr, desc->maker, 32); } else #endif std::strncpy(cptr, "falkTX", 32); return 1; } return 0; case effGetProductString: if (char* const cptr = (char*)ptr) { #if defined(CARLA_VST_SHELL) if (validPlugin) { const NativePluginDescriptor* const desc = pluginPtr->getDescriptor(); #if CARLA_PLUGIN_SYNTH std::strncpy(cptr, desc->label, 32); #else std::snprintf(cptr, 32, "%sFX", desc->label); #endif } else { std::strncpy(cptr, "CarlaVstShell", 32); } #elif defined(CARLA_PLUGIN_64CH) std::strncpy(cptr, "CarlaPatchbay64", 32); #elif defined(CARLA_PLUGIN_32CH) std::strncpy(cptr, "CarlaPatchbay32", 32); #elif defined(CARLA_PLUGIN_16CH) std::strncpy(cptr, "CarlaPatchbay16", 32); #elif CARLA_PLUGIN_PATCHBAY # if CARLA_PLUGIN_SYNTH std::strncpy(cptr, "CarlaPatchbay", 32); # else std::strncpy(cptr, "CarlaPatchbayFX", 32); # endif #else # if CARLA_PLUGIN_SYNTH std::strncpy(cptr, "CarlaRack", 32); # else std::strncpy(cptr, "CarlaRackFX", 32); # endif #endif return 1; } return 0; case effGetVendorVersion: return CARLA_VERSION_HEX; case effGetVstVersion: return kVstVersion; #ifdef CARLA_VST_SHELL case effShellGetNextPlugin: if (char* const cptr = (char*)ptr) { CARLA_SAFE_ASSERT_RETURN(effect != nullptr, 0); CARLA_SAFE_ASSERT_RETURN(effect->uniqueID >= kShellUniqueID, 0); PluginListManager& plm(PluginListManager::getInstance()); for (;;) { const uint index2 = static_cast(effect->uniqueID - kShellUniqueID); if (index2 >= plm.descs.count()) { effect->uniqueID = kShellUniqueID; return 0; } const NativePluginDescriptor* const desc = plm.descs.getAt(index2, nullptr); CARLA_SAFE_ASSERT_RETURN(desc != nullptr, 0); ++effect->uniqueID; if (desc->midiIns > 1 || desc->midiOuts > 1) continue; #if CARLA_PLUGIN_SYNTH std::strncpy(cptr, desc->label, 32); #else std::snprintf(cptr, 32, "%sFX", desc->label); #endif return effect->uniqueID; } } #endif }; // handle advanced opcodes if (validPlugin) return pluginPtr->vst_dispatcher(opcode, index, value, ptr, opt); return 0; } float vst_getParameterCallback(AEffect* effect, int32_t index) { if (validPlugin) return pluginPtr->vst_getParameter(index); return 0.0f; } void vst_setParameterCallback(AEffect* effect, int32_t index, float value) { if (validPlugin) pluginPtr->vst_setParameter(index, value); } void vst_processCallback(AEffect* effect, float** inputs, float** outputs, int32_t sampleFrames) { if (validPlugin) pluginPtr->vst_processReplacing(inputs, outputs, sampleFrames); } void vst_processReplacingCallback(AEffect* effect, float** inputs, float** outputs, int32_t sampleFrames) { if (validPlugin) pluginPtr->vst_processReplacing(inputs, outputs, sampleFrames); } #undef pluginPtr #undef validObject #undef validPlugin #undef vstObjectPtr // ----------------------------------------------------------------------- const AEffect* VSTPluginMainInit(AEffect* const effect) { #if defined(CARLA_VST_SHELL) if (const intptr_t uniqueID = VSTAudioMaster(effect, audioMasterCurrentId, 0, 0, nullptr, 0.0f)) effect->uniqueID = static_cast(uniqueID); else effect->uniqueID = kShellUniqueID; #elif defined(CARLA_PLUGIN_64CH) effect->uniqueID = kBaseUniqueID+7; #elif defined(CARLA_PLUGIN_32CH) effect->uniqueID = kBaseUniqueID+6; #elif defined(CARLA_PLUGIN_16CH) effect->uniqueID = kBaseUniqueID+5; #elif CARLA_PLUGIN_PATCHBAY # if CARLA_PLUGIN_SYNTH effect->uniqueID = kBaseUniqueID+4; # else effect->uniqueID = kBaseUniqueID+3; # endif #else # if CARLA_PLUGIN_SYNTH effect->uniqueID = kBaseUniqueID+2; # else effect->uniqueID = kBaseUniqueID+1; # endif #endif // plugin fields #ifndef CARLA_VST_SHELL effect->numParams = kNumParameters; effect->numPrograms = 1; # if defined(CARLA_PLUGIN_64CH) effect->numInputs = 64; effect->numOutputs = 64; # elif defined(CARLA_PLUGIN_32CH) effect->numInputs = 32; effect->numOutputs = 32; # elif defined(CARLA_PLUGIN_16CH) effect->numInputs = 16; effect->numOutputs = 16; # else effect->numInputs = 2; effect->numOutputs = 2; # endif #endif // plugin flags effect->flags |= effFlagsCanReplacing; effect->flags |= effFlagsProgramChunks; #ifndef CARLA_VST_SHELL effect->flags |= effFlagsHasEditor; #endif #if CARLA_PLUGIN_SYNTH effect->flags |= effFlagsIsSynth; #endif return effect; } // -----------------------------------------------------------------------