/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2017 - ROLI Ltd. JUCE is an open source library subject to commercial or open-source licensing. By using JUCE, you agree to the terms of both the JUCE 5 End-User License Agreement and JUCE 5 Privacy Policy (both updated and effective as of the 27th April 2017). End User License Agreement: www.juce.com/juce-5-licence Privacy Policy: www.juce.com/juce-5-privacy-policy Or: You may also use this code under the terms of the GPL v3 (see www.gnu.org/licenses). JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ #include "../../juce_core/system/juce_TargetPlatform.h" //============================================================================== #if JucePlugin_Build_VST3 && (__APPLE_CPP__ || __APPLE_CC__ || _WIN32 || _WIN64) #if JUCE_PLUGINHOST_VST3 && (JUCE_MAC || JUCE_WINDOWS) #undef JUCE_VST3HEADERS_INCLUDE_HEADERS_ONLY #define JUCE_VST3HEADERS_INCLUDE_HEADERS_ONLY 1 #endif #include "../../juce_audio_processors/format_types/juce_VST3Headers.h" #undef JUCE_VST3HEADERS_INCLUDE_HEADERS_ONLY #include "../utility/juce_CheckSettingMacros.h" #include "../utility/juce_IncludeModuleHeaders.h" #include "../utility/juce_WindowsHooks.h" #include "../utility/juce_FakeMouseMoveGenerator.h" #include "../../juce_audio_processors/format_types/juce_LegacyAudioParameter.cpp" #include "../../juce_audio_processors/format_types/juce_VST3Common.h" #ifndef JUCE_VST3_CAN_REPLACE_VST2 #define JUCE_VST3_CAN_REPLACE_VST2 1 #endif #if JUCE_VST3_CAN_REPLACE_VST2 namespace Vst2 { #include "pluginterfaces/vst2.x/vstfxstore.h" } #endif #ifndef JUCE_VST3_EMULATE_MIDI_CC_WITH_PARAMETERS #define JUCE_VST3_EMULATE_MIDI_CC_WITH_PARAMETERS 1 #endif #if JUCE_VST3_CAN_REPLACE_VST2 #if JUCE_MSVC #pragma warning (push) #pragma warning (disable: 4514 4996) #endif #if JUCE_MSVC #pragma warning (pop) #endif #endif namespace juce { using namespace Steinberg; //============================================================================== #if JUCE_MAC extern void initialiseMacVST(); #if ! JUCE_64BIT extern void updateEditorCompBoundsVST (Component*); #endif extern JUCE_API void* attachComponentToWindowRefVST (Component*, void* parentWindowOrView, bool isNSView); extern JUCE_API void detachComponentFromWindowRefVST (Component*, void* nsWindow, bool isNSView); #endif //============================================================================== class JuceAudioProcessor : public FUnknown { public: JuceAudioProcessor (AudioProcessor* source) noexcept : audioProcessor (source) { setupParameters(); } virtual ~JuceAudioProcessor() {} AudioProcessor* get() const noexcept { return audioProcessor.get(); } JUCE_DECLARE_VST3_COM_QUERY_METHODS JUCE_DECLARE_VST3_COM_REF_METHODS //============================================================================== inline Vst::ParamID getVSTParamIDForIndex (int paramIndex) const noexcept { #if JUCE_FORCE_USE_LEGACY_PARAM_IDS return static_cast (paramIndex); #else return vstParamIDs.getReference (paramIndex); #endif } AudioProcessorParameter* getParamForVSTParamID (Vst::ParamID paramID) const noexcept { return paramMap[static_cast (paramID)]; } AudioProcessorParameter* getBypassParameter() const noexcept { return getParamForVSTParamID (bypassParamID); } static Vst::UnitID getUnitID (const AudioProcessorParameterGroup* group) { return group == nullptr ? Vst::kRootUnitId : group->getID().hashCode(); } int getNumParameters() const noexcept { return vstParamIDs.size(); } bool isUsingManagedParameters() const noexcept { return juceParameters.isUsingManagedParameters(); } //============================================================================== static const FUID iid; Array vstParamIDs; Vst::ParamID bypassParamID = 0; bool bypassIsRegularParameter = false; private: enum InternalParameters { paramBypass = 0x62797073 // 'byps' }; //============================================================================== bool isBypassPartOfRegularParemeters() const { int n = juceParameters.getNumParameters(); if (auto* bypassParam = audioProcessor->getBypassParameter()) for (int i = 0; i < n; ++i) if (juceParameters.getParamForIndex (i) == bypassParam) return true; return false; } void setupParameters() { #if JUCE_FORCE_USE_LEGACY_PARAM_IDS const bool forceLegacyParamIDs = true; #else const bool forceLegacyParamIDs = false; #endif juceParameters.update (*audioProcessor, forceLegacyParamIDs); auto numParameters = juceParameters.getNumParameters(); bool vst3WrapperProvidedBypassParam = false; auto* bypassParameter = audioProcessor->getBypassParameter(); if (bypassParameter == nullptr) { vst3WrapperProvidedBypassParam = true; ownedBypassParameter.reset (new AudioParameterBool ("byps", "Bypass", false, {}, {}, {})); bypassParameter = ownedBypassParameter.get(); } // if the bypass parameter is not part of the exported parameters that the plug-in supports // then add it to the end of the list as VST3 requires the bypass parameter to be exported! bypassIsRegularParameter = isBypassPartOfRegularParemeters(); if (! bypassIsRegularParameter) juceParameters.params.add (bypassParameter); int i = 0; for (auto* juceParam : juceParameters.params) { bool isBypassParameter = (juceParam == bypassParameter); Vst::ParamID vstParamID = forceLegacyParamIDs ? static_cast (i++) : generateVSTParamIDForParam (juceParam); if (isBypassParameter) { // we need to remain backward compatible with the old bypass id if (vst3WrapperProvidedBypassParam) vstParamID = static_cast ((isUsingManagedParameters() && ! forceLegacyParamIDs) ? paramBypass : numParameters); bypassParamID = vstParamID; } vstParamIDs.add (vstParamID); paramMap.set (static_cast (vstParamID), juceParam); } } Vst::ParamID generateVSTParamIDForParam (AudioProcessorParameter* param) { auto juceParamID = LegacyAudioParameter::getParamID (param, false); #if JUCE_FORCE_USE_LEGACY_PARAM_IDS return static_cast (juceParamID.getIntValue()); #else auto paramHash = static_cast (juceParamID.hashCode()); #if JUCE_USE_STUDIO_ONE_COMPATIBLE_PARAMETERS // studio one doesn't like negative parameters paramHash &= ~(1 << (sizeof (Vst::ParamID) * 8 - 1)); #endif return paramHash; #endif } //============================================================================== Atomic refCount; std::unique_ptr audioProcessor; ScopedJuceInitialiser_GUI libraryInitialiser; //============================================================================== LegacyAudioParametersWrapper juceParameters; HashMap paramMap; std::unique_ptr ownedBypassParameter; JuceAudioProcessor() = delete; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (JuceAudioProcessor) }; class JuceVST3Component; static ThreadLocalValue inParameterChangedCallback; //============================================================================== class JuceVST3EditController : public Vst::EditController, public Vst::IMidiMapping, public Vst::ChannelContext::IInfoListener, public AudioProcessorListener, private AudioProcessorParameter::Listener { public: JuceVST3EditController (Vst::IHostApplication* host) { if (host != nullptr) host->queryInterface (FUnknown::iid, (void**) &hostContext); } //============================================================================== static const FUID iid; //============================================================================== #if JUCE_CLANG #pragma clang diagnostic push #pragma clang diagnostic ignored "-Winconsistent-missing-override" #endif REFCOUNT_METHODS (ComponentBase) #if JUCE_CLANG #pragma clang diagnostic pop #endif tresult PLUGIN_API queryInterface (const TUID targetIID, void** obj) override { TEST_FOR_AND_RETURN_IF_VALID (targetIID, FObject) TEST_FOR_AND_RETURN_IF_VALID (targetIID, JuceVST3EditController) TEST_FOR_AND_RETURN_IF_VALID (targetIID, Vst::IEditController) TEST_FOR_AND_RETURN_IF_VALID (targetIID, Vst::IEditController2) TEST_FOR_AND_RETURN_IF_VALID (targetIID, Vst::IConnectionPoint) TEST_FOR_AND_RETURN_IF_VALID (targetIID, Vst::IMidiMapping) TEST_FOR_AND_RETURN_IF_VALID (targetIID, Vst::ChannelContext::IInfoListener) TEST_FOR_COMMON_BASE_AND_RETURN_IF_VALID (targetIID, IPluginBase, Vst::IEditController) TEST_FOR_COMMON_BASE_AND_RETURN_IF_VALID (targetIID, IDependent, Vst::IEditController) TEST_FOR_COMMON_BASE_AND_RETURN_IF_VALID (targetIID, FUnknown, Vst::IEditController) if (doUIDsMatch (targetIID, JuceAudioProcessor::iid)) { audioProcessor->addRef(); *obj = audioProcessor; return kResultOk; } *obj = nullptr; return kNoInterface; } //============================================================================== tresult PLUGIN_API initialize (FUnknown* context) override { if (hostContext != context) { if (hostContext != nullptr) hostContext->release(); hostContext = context; if (hostContext != nullptr) hostContext->addRef(); } return kResultTrue; } tresult PLUGIN_API terminate() override { if (auto* pluginInstance = getPluginInstance()) pluginInstance->removeListener (this); audioProcessor = nullptr; return EditController::terminate(); } //============================================================================== enum InternalParameters { paramPreset = 0x70727374, // 'prst' paramMidiControllerOffset = 0x6d636d00 // 'mdm*' }; struct Param : public Vst::Parameter { Param (JuceVST3EditController& editController, AudioProcessorParameter& p, Vst::ParamID vstParamID, Vst::UnitID vstUnitID, bool isBypassParameter, bool forceLegacyParamIDs) : owner (editController), param (p) { info.id = vstParamID; info.unitId = vstUnitID; toString128 (info.title, param.getName (128)); toString128 (info.shortTitle, param.getName (8)); toString128 (info.units, param.getLabel()); info.stepCount = (Steinberg::int32) 0; if (! forceLegacyParamIDs && param.isDiscrete()) { const int numSteps = param.getNumSteps(); info.stepCount = (Steinberg::int32) (numSteps > 0 && numSteps < 0x7fffffff ? numSteps - 1 : 0); } info.defaultNormalizedValue = param.getDefaultValue(); jassert (info.defaultNormalizedValue >= 0 && info.defaultNormalizedValue <= 1.0f); // Is this a meter? if (((param.getCategory() & 0xffff0000) >> 16) == 2) info.flags = Vst::ParameterInfo::kIsReadOnly; else info.flags = param.isAutomatable() ? Vst::ParameterInfo::kCanAutomate : 0; if (isBypassParameter) info.flags |= Vst::ParameterInfo::kIsBypass; valueNormalized = info.defaultNormalizedValue; } virtual ~Param() {} bool setNormalized (Vst::ParamValue v) override { v = jlimit (0.0, 1.0, v); if (v != valueNormalized) { valueNormalized = v; // Only update the AudioProcessor here if we're not playing, // otherwise we get parallel streams of parameter value updates // during playback if (owner.vst3IsPlaying.get() == 0) { auto value = static_cast (v); param.setValue (value); inParameterChangedCallback = true; param.sendValueChangedMessageToListeners (value); } changed(); return true; } return false; } void toString (Vst::ParamValue value, Vst::String128 result) const override { if (LegacyAudioParameter::isLegacy (¶m)) // remain backward-compatible with old JUCE code toString128 (result, param.getCurrentValueAsText()); else toString128 (result, param.getText ((float) value, 128)); } bool fromString (const Vst::TChar* text, Vst::ParamValue& outValueNormalized) const override { if (! LegacyAudioParameter::isLegacy (¶m)) { outValueNormalized = param.getValueForText (getStringFromVstTChars (text)); return true; } return false; } static String getStringFromVstTChars (const Vst::TChar* text) { return juce::String (juce::CharPointer_UTF16 (reinterpret_cast (text))); } Vst::ParamValue toPlain (Vst::ParamValue v) const override { return v; } Vst::ParamValue toNormalized (Vst::ParamValue v) const override { return v; } private: JuceVST3EditController& owner; AudioProcessorParameter& param; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (Param) }; //============================================================================== struct ProgramChangeParameter : public Vst::Parameter { ProgramChangeParameter (AudioProcessor& p) : owner (p) { jassert (owner.getNumPrograms() > 1); info.id = paramPreset; toString128 (info.title, "Program"); toString128 (info.shortTitle, "Program"); toString128 (info.units, ""); info.stepCount = owner.getNumPrograms() - 1; info.defaultNormalizedValue = static_cast (owner.getCurrentProgram()) / static_cast (info.stepCount); info.unitId = Vst::kRootUnitId; info.flags = Vst::ParameterInfo::kIsProgramChange | Vst::ParameterInfo::kCanAutomate; } virtual ~ProgramChangeParameter() {} bool setNormalized (Vst::ParamValue v) override { Vst::ParamValue program = v * info.stepCount; if (! isPositiveAndBelow ((int) program, owner.getNumPrograms())) return false; if (valueNormalized != v) { valueNormalized = v; changed(); return true; } return false; } void toString (Vst::ParamValue value, Vst::String128 result) const override { toString128 (result, owner.getProgramName (static_cast (value * info.stepCount))); } bool fromString (const Vst::TChar* text, Vst::ParamValue& outValueNormalized) const override { auto paramValueString = getStringFromVstTChars (text); auto n = owner.getNumPrograms(); for (int i = 0; i < n; ++i) { if (paramValueString == owner.getProgramName (i)) { outValueNormalized = static_cast (i) / info.stepCount; return true; } } return false; } static String getStringFromVstTChars (const Vst::TChar* text) { return String (CharPointer_UTF16 (reinterpret_cast (text))); } Vst::ParamValue toPlain (Vst::ParamValue v) const override { return v * info.stepCount; } Vst::ParamValue toNormalized (Vst::ParamValue v) const override { return v / info.stepCount; } private: AudioProcessor& owner; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (ProgramChangeParameter) }; //============================================================================== tresult PLUGIN_API setChannelContextInfos (Vst::IAttributeList* list) override { if (auto* instance = getPluginInstance()) { if (list != nullptr) { AudioProcessor::TrackProperties trackProperties; { Vst::String128 channelName; if (list->getString (Vst::ChannelContext::kChannelNameKey, channelName, sizeof (channelName)) == kResultTrue) trackProperties.name = toString (channelName); } { int64 colour; if (list->getInt (Vst::ChannelContext::kChannelColorKey, colour) == kResultTrue) trackProperties.colour = Colour (Vst::ChannelContext::GetRed ((uint32) colour), Vst::ChannelContext::GetGreen ((uint32) colour), Vst::ChannelContext::GetBlue ((uint32) colour), Vst::ChannelContext::GetAlpha ((uint32) colour)); } if (MessageManager::getInstance()->isThisTheMessageThread()) instance->updateTrackProperties (trackProperties); else MessageManager::callAsync ([trackProperties, instance] { instance->updateTrackProperties (trackProperties); }); } } return kResultOk; } //============================================================================== tresult PLUGIN_API setComponentState (IBStream* stream) override { // Cubase and Nuendo need to inform the host of the current parameter values if (auto* pluginInstance = getPluginInstance()) { for (auto vstParamId : audioProcessor->vstParamIDs) setParamNormalized (vstParamId, audioProcessor->getParamForVSTParamID (vstParamId)->getValue()); auto numPrograms = pluginInstance->getNumPrograms(); if (numPrograms > 1) setParamNormalized (paramPreset, static_cast (pluginInstance->getCurrentProgram()) / static_cast (numPrograms - 1)); } if (auto* handler = getComponentHandler()) handler->restartComponent (Vst::kParamValuesChanged); return Vst::EditController::setComponentState (stream); } void setAudioProcessor (JuceAudioProcessor* audioProc) { if (audioProcessor != audioProc) { audioProcessor = audioProc; setupParameters(); } } tresult PLUGIN_API connect (IConnectionPoint* other) override { if (other != nullptr && audioProcessor == nullptr) { auto result = ComponentBase::connect (other); if (! audioProcessor.loadFrom (other)) sendIntMessage ("JuceVST3EditController", (Steinberg::int64) (pointer_sized_int) this); else setupParameters(); return result; } jassertfalse; return kResultFalse; } //============================================================================== tresult PLUGIN_API getMidiControllerAssignment (Steinberg::int32 /*busIndex*/, Steinberg::int16 channel, Vst::CtrlNumber midiControllerNumber, Vst::ParamID& resultID) override { resultID = midiControllerToParameter[channel][midiControllerNumber]; return kResultTrue; // Returning false makes some hosts stop asking for further MIDI Controller Assignments } // Converts an incoming parameter index to a MIDI controller: bool getMidiControllerForParameter (Vst::ParamID index, int& channel, int& ctrlNumber) { auto mappedIndex = static_cast (index - parameterToMidiControllerOffset); if (isPositiveAndBelow (mappedIndex, numElementsInArray (parameterToMidiController))) { auto& mc = parameterToMidiController[mappedIndex]; if (mc.channel != -1 && mc.ctrlNumber != -1) { channel = jlimit (1, 16, mc.channel + 1); ctrlNumber = mc.ctrlNumber; return true; } } return false; } inline bool isMidiControllerParamID (Vst::ParamID paramID) const noexcept { return (paramID >= parameterToMidiControllerOffset && isPositiveAndBelow (paramID - parameterToMidiControllerOffset, static_cast (numElementsInArray (parameterToMidiController)))); } //============================================================================== IPlugView* PLUGIN_API createView (const char* name) override { if (auto* pluginInstance = getPluginInstance()) { if (pluginInstance->hasEditor() && name != nullptr && strcmp (name, Vst::ViewType::kEditor) == 0) { return new JuceVST3Editor (*this, *pluginInstance); } } return nullptr; } //============================================================================== void paramChanged (Vst::ParamID vstParamId, float newValue) { if (inParameterChangedCallback.get()) { inParameterChangedCallback = false; return; } // NB: Cubase has problems if performEdit is called without setParamNormalized EditController::setParamNormalized (vstParamId, (double) newValue); performEdit (vstParamId, (double) newValue); } //============================================================================== void audioProcessorParameterChangeGestureBegin (AudioProcessor*, int index) override { beginEdit (audioProcessor->getVSTParamIDForIndex (index)); } void audioProcessorParameterChangeGestureEnd (AudioProcessor*, int index) override { endEdit (audioProcessor->getVSTParamIDForIndex (index)); } void audioProcessorParameterChanged (AudioProcessor*, int index, float newValue) override { paramChanged (audioProcessor->getVSTParamIDForIndex (index), newValue); } void audioProcessorChanged (AudioProcessor*) override { if (auto* pluginInstance = getPluginInstance()) { if (pluginInstance->getNumPrograms() > 1) EditController::setParamNormalized (paramPreset, static_cast (pluginInstance->getCurrentProgram()) / static_cast (pluginInstance->getNumPrograms() - 1)); } if (componentHandler != nullptr) componentHandler->restartComponent (Vst::kLatencyChanged | Vst::kParamValuesChanged); } void parameterValueChanged (int, float newValue) override { // this can only come from the bypass parameter paramChanged (audioProcessor->bypassParamID, newValue); } void parameterGestureChanged (int, bool gestureIsStarting) override { // this can only come from the bypass parameter if (gestureIsStarting) beginEdit (audioProcessor->bypassParamID); else endEdit (audioProcessor->bypassParamID); } //============================================================================== AudioProcessor* getPluginInstance() const noexcept { if (audioProcessor != nullptr) return audioProcessor->get(); return nullptr; } private: friend class JuceVST3Component; friend struct Param; //============================================================================== ComSmartPtr audioProcessor; ScopedJuceInitialiser_GUI libraryInitialiser; struct MidiController { int channel = -1, ctrlNumber = -1; }; enum { numMIDIChannels = 16 }; Vst::ParamID parameterToMidiControllerOffset; MidiController parameterToMidiController[numMIDIChannels * Vst::kCountCtrlNumber]; Vst::ParamID midiControllerToParameter[numMIDIChannels][Vst::kCountCtrlNumber]; //============================================================================== Atomic vst3IsPlaying { 0 }; float lastScaleFactorReceived = 1.0f; void setupParameters() { if (auto* pluginInstance = getPluginInstance()) { pluginInstance->addListener (this); // as the bypass is not part of the regular parameters // we need to listen for it explicitly if (! audioProcessor->bypassIsRegularParameter) audioProcessor->getBypassParameter()->addListener (this); if (parameters.getParameterCount() <= 0) { #if JUCE_FORCE_USE_LEGACY_PARAM_IDS const bool forceLegacyParamIDs = true; #else const bool forceLegacyParamIDs = false; #endif auto n = audioProcessor->getNumParameters(); for (int i = 0; i < n; ++i) { auto vstParamID = audioProcessor->getVSTParamIDForIndex (i); auto* juceParam = audioProcessor->getParamForVSTParamID (vstParamID); auto* parameterGroup = pluginInstance->parameterTree.getGroupsForParameter (juceParam).getLast(); auto unitID = JuceAudioProcessor::getUnitID (parameterGroup); parameters.addParameter (new Param (*this, *juceParam, vstParamID, unitID, (vstParamID == audioProcessor->bypassParamID), forceLegacyParamIDs)); } if (pluginInstance->getNumPrograms() > 1) parameters.addParameter (new ProgramChangeParameter (*pluginInstance)); } #if JUCE_VST3_EMULATE_MIDI_CC_WITH_PARAMETERS parameterToMidiControllerOffset = static_cast (audioProcessor->isUsingManagedParameters() ? paramMidiControllerOffset : parameters.getParameterCount()); initialiseMidiControllerMappings(); #endif audioProcessorChanged (pluginInstance); } } void initialiseMidiControllerMappings() { for (int c = 0, p = 0; c < numMIDIChannels; ++c) { for (int i = 0; i < Vst::kCountCtrlNumber; ++i, ++p) { midiControllerToParameter[c][i] = static_cast (p) + parameterToMidiControllerOffset; parameterToMidiController[p].channel = c; parameterToMidiController[p].ctrlNumber = i; parameters.addParameter (new Vst::Parameter (toString ("MIDI CC " + String (c) + "|" + String (i)), static_cast (p) + parameterToMidiControllerOffset, 0, 0, 0, 0, Vst::kRootUnitId)); } } } void sendIntMessage (const char* idTag, const Steinberg::int64 value) { jassert (hostContext != nullptr); if (auto* message = allocateMessage()) { const FReleaser releaser (message); message->setMessageID (idTag); message->getAttributes()->setInt (idTag, value); sendMessage (message); } } //============================================================================== class JuceVST3Editor : public Vst::EditorView, public Steinberg::IPlugViewContentScaleSupport, private Timer { public: JuceVST3Editor (JuceVST3EditController& ec, AudioProcessor& p) : Vst::EditorView (&ec, nullptr), owner (&ec), pluginInstance (p) { editorScaleFactor = ec.lastScaleFactorReceived; component.reset (new ContentWrapperComponent (*this, p)); #if JUCE_MAC if (getHostType().type == PluginHostType::SteinbergCubase10) cubase10Workaround.reset (new Cubase10WindowResizeWorkaround (*this)); #endif } tresult PLUGIN_API queryInterface (const TUID targetIID, void** obj) override { TEST_FOR_AND_RETURN_IF_VALID (targetIID, Steinberg::IPlugViewContentScaleSupport) return Vst::EditorView::queryInterface (targetIID, obj); } REFCOUNT_METHODS (Vst::EditorView) //============================================================================== tresult PLUGIN_API isPlatformTypeSupported (FIDString type) override { if (type != nullptr && pluginInstance.hasEditor()) { #if JUCE_WINDOWS if (strcmp (type, kPlatformTypeHWND) == 0) #else if (strcmp (type, kPlatformTypeNSView) == 0 || strcmp (type, kPlatformTypeHIView) == 0) #endif return kResultTrue; } return kResultFalse; } tresult PLUGIN_API attached (void* parent, FIDString type) override { if (parent == nullptr || isPlatformTypeSupported (type) == kResultFalse) return kResultFalse; if (component == nullptr) component.reset (new ContentWrapperComponent (*this, pluginInstance)); #if JUCE_WINDOWS component->addToDesktop (0, parent); component->setOpaque (true); component->setVisible (true); #else isNSView = (strcmp (type, kPlatformTypeNSView) == 0); macHostWindow = juce::attachComponentToWindowRefVST (component.get(), parent, isNSView); #endif #if ! JUCE_MAC setContentScaleFactor ((Steinberg::IPlugViewContentScaleSupport::ScaleFactor) editorScaleFactor); #endif component->resizeHostWindow(); systemWindow = parent; attachedToParent(); // Life's too short to faff around with wave lab if (getHostType().isWavelab()) startTimer (200); return kResultTrue; } tresult PLUGIN_API removed() override { if (component != nullptr) { #if JUCE_WINDOWS component->removeFromDesktop(); #else if (macHostWindow != nullptr) { juce::detachComponentFromWindowRefVST (component.get(), macHostWindow, isNSView); macHostWindow = nullptr; } #endif component = nullptr; } return CPluginView::removed(); } tresult PLUGIN_API onSize (ViewRect* newSize) override { if (newSize != nullptr) { rect = *newSize; if (component != nullptr) { auto w = rect.getWidth(); auto h = rect.getHeight(); #if JUCE_WINDOWS && JUCE_WIN_PER_MONITOR_DPI_AWARE w = roundToInt (w / editorScaleFactor); h = roundToInt (h / editorScaleFactor); if (getHostType().type == PluginHostType::SteinbergCubase10) { auto integerScaleFactor = (int) std::round (editorScaleFactor); // Workaround for Cubase 10 sending double-scaled bounds when opening editor if (isWithin ((int) w, component->getWidth() * integerScaleFactor, 2) && isWithin ((int) h, component->getHeight() * integerScaleFactor, 2)) { w /= integerScaleFactor; h /= integerScaleFactor; } } #endif component->setSize (w, h); #if JUCE_MAC if (cubase10Workaround != nullptr) cubase10Workaround->triggerAsyncUpdate(); else #endif if (auto* peer = component->getPeer()) peer->updateBounds(); #if JUCE_WINDOWS && JUCE_WIN_PER_MONITOR_DPI_AWARE if (getHostType().type == PluginHostType::SteinbergCubase10) component->resizeHostWindow(); #endif } return kResultTrue; } jassertfalse; return kResultFalse; } tresult PLUGIN_API getSize (ViewRect* size) override { if (size != nullptr && component != nullptr) { auto w = component->getWidth(); auto h = component->getHeight(); #if JUCE_WINDOWS && JUCE_WIN_PER_MONITOR_DPI_AWARE w = roundToInt (w * editorScaleFactor); h = roundToInt (h * editorScaleFactor); #endif *size = ViewRect (0, 0, w, h); return kResultTrue; } return kResultFalse; } tresult PLUGIN_API canResize() override { if (component != nullptr) if (auto* editor = component->pluginEditor.get()) return editor->isResizable() ? kResultTrue : kResultFalse; return kResultFalse; } tresult PLUGIN_API checkSizeConstraint (ViewRect* rectToCheck) override { if (rectToCheck != nullptr && component != nullptr) { if (auto* editor = component->pluginEditor.get()) { if (auto* constrainer = editor->getConstrainer()) { auto minW = (double) constrainer->getMinimumWidth(); auto maxW = (double) constrainer->getMaximumWidth(); auto minH = (double) constrainer->getMinimumHeight(); auto maxH = (double) constrainer->getMaximumHeight(); auto width = (double) (rectToCheck->right - rectToCheck->left); auto height = (double) (rectToCheck->bottom - rectToCheck->top); #if JUCE_WINDOWS && JUCE_WIN_PER_MONITOR_DPI_AWARE width /= editorScaleFactor; height /= editorScaleFactor; #endif width = jlimit (minW, maxW, width); height = jlimit (minH, maxH, height); auto aspectRatio = constrainer->getFixedAspectRatio(); if (aspectRatio != 0.0) { bool adjustWidth = (width / height > aspectRatio); if (getHostType().type == PluginHostType::SteinbergCubase9) { if (editor->getWidth() == width && editor->getHeight() != height) adjustWidth = true; else if (editor->getHeight() == height && editor->getWidth() != width) adjustWidth = false; } if (adjustWidth) { width = height * aspectRatio; if (width > maxW || width < minW) { width = jlimit (minW, maxW, width); height = width / aspectRatio; } } else { height = width / aspectRatio; if (height > maxH || height < minH) { height = jlimit (minH, maxH, height); width = height * aspectRatio; } } } #if JUCE_WINDOWS && JUCE_WIN_PER_MONITOR_DPI_AWARE width *= editorScaleFactor; height *= editorScaleFactor; #endif rectToCheck->right = rectToCheck->left + roundToInt (width); rectToCheck->bottom = rectToCheck->top + roundToInt (height); } } return kResultTrue; } jassertfalse; return kResultFalse; } tresult PLUGIN_API setContentScaleFactor (Steinberg::IPlugViewContentScaleSupport::ScaleFactor factor) override { #if ! JUCE_MAC // Cubase 10 doesn't support non-integer scale factors... if (getHostType().type == PluginHostType::SteinbergCubase10) { if (component.get() != nullptr) if (auto* peer = component->getPeer()) factor = static_cast (peer->getPlatformScaleFactor()); } if (! approximatelyEqual ((float) factor, editorScaleFactor)) { editorScaleFactor = (float) factor; if (auto* o = owner.get()) o->lastScaleFactorReceived = editorScaleFactor; if (component == nullptr) return kResultFalse; #if JUCE_WINDOWS && ! JUCE_WIN_PER_MONITOR_DPI_AWARE if (auto* ed = component->pluginEditor.get()) ed->setScaleFactor ((float) factor); #endif component->resizeHostWindow(); component->setTopLeftPosition (0, 0); component->repaint(); } return kResultTrue; #else ignoreUnused (factor); return kResultFalse; #endif } private: void timerCallback() override { stopTimer(); ViewRect viewRect; getSize (&viewRect); onSize (&viewRect); } //============================================================================== struct ContentWrapperComponent : public Component { ContentWrapperComponent (JuceVST3Editor& editor, AudioProcessor& plugin) : pluginEditor (plugin.createEditorIfNeeded()), owner (editor) { setOpaque (true); setBroughtToFrontOnMouseClick (true); // if hasEditor() returns true then createEditorIfNeeded has to return a valid editor jassert (pluginEditor != nullptr); if (pluginEditor != nullptr) { addAndMakeVisible (pluginEditor.get()); pluginEditor->setTopLeftPosition (0, 0); lastBounds = getSizeToContainChild(); isResizingParentToFitChild = true; setBounds (lastBounds); isResizingParentToFitChild = false; resizeHostWindow(); } ignoreUnused (fakeMouseGenerator); } ~ContentWrapperComponent() { if (pluginEditor != nullptr) { PopupMenu::dismissAllActiveMenus(); pluginEditor->processor.editorBeingDeleted (pluginEditor.get()); } } void paint (Graphics& g) override { g.fillAll (Colours::black); } juce::Rectangle getSizeToContainChild() { if (pluginEditor != nullptr) return getLocalArea (pluginEditor.get(), pluginEditor->getLocalBounds()); return {}; } void childBoundsChanged (Component*) override { if (isResizingChildToFitParent) return; auto b = getSizeToContainChild(); if (lastBounds != b) { lastBounds = b; isResizingParentToFitChild = true; resizeHostWindow(); isResizingParentToFitChild = false; } } #if JUCE_WINDOWS && JUCE_WIN_PER_MONITOR_DPI_AWARE void checkScaleFactorIsCorrect() { if (auto* peer = pluginEditor->getPeer()) { auto peerScaleFactor = (float) peer->getPlatformScaleFactor(); if (! approximatelyEqual (peerScaleFactor, owner.editorScaleFactor)) owner.setContentScaleFactor (peerScaleFactor); } } #endif void resized() override { if (pluginEditor != nullptr) { #if JUCE_WINDOWS && JUCE_WIN_PER_MONITOR_DPI_AWARE checkScaleFactorIsCorrect(); #endif if (! isResizingParentToFitChild) { lastBounds = getLocalBounds(); isResizingChildToFitParent = true; if (auto* constrainer = pluginEditor->getConstrainer()) { auto aspectRatio = constrainer->getFixedAspectRatio(); auto width = (double) lastBounds.getWidth(); auto height = (double) lastBounds.getHeight(); if (aspectRatio != 0) { if (width / height > aspectRatio) setBounds ({ 0, 0, roundToInt (height * aspectRatio), lastBounds.getHeight() }); else setBounds ({ 0, 0, lastBounds.getWidth(), roundToInt (width / aspectRatio) }); } } pluginEditor->setTopLeftPosition (0, 0); pluginEditor->setBounds (pluginEditor->getLocalArea (this, getLocalBounds())); isResizingChildToFitParent = false; } } } void resizeHostWindow() { if (pluginEditor != nullptr) { auto b = getSizeToContainChild(); auto w = b.getWidth(); auto h = b.getHeight(); auto host = getHostType(); #if JUCE_WINDOWS setSize (w, h); #endif if (owner.plugFrame != nullptr) { #if JUCE_WINDOWS && JUCE_WIN_PER_MONITOR_DPI_AWARE w = roundToInt (w * owner.editorScaleFactor); h = roundToInt (h * owner.editorScaleFactor); #endif ViewRect newSize (0, 0, w, h); { const ScopedValueSetter resizingParentSetter (isResizingParentToFitChild, true); owner.plugFrame->resizeView (&owner, &newSize); } #if JUCE_MAC if (host.isWavelab() || host.isReaper()) #else if (host.isWavelab()) #endif setBounds (0, 0, w, h); } } } std::unique_ptr pluginEditor; private: JuceVST3Editor& owner; FakeMouseMoveGenerator fakeMouseGenerator; Rectangle lastBounds; bool isResizingChildToFitParent = false; bool isResizingParentToFitChild = false; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (ContentWrapperComponent) }; //============================================================================== ComSmartPtr owner; AudioProcessor& pluginInstance; std::unique_ptr component; friend struct ContentWrapperComponent; #if JUCE_MAC void* macHostWindow = nullptr; bool isNSView = false; // On macOS Cubase 10 resizes the host window after calling onSize() resulting in the peer // bounds being a step behind the plug-in. Calling updateBounds() asynchronously seems to fix things... struct Cubase10WindowResizeWorkaround : public AsyncUpdater { Cubase10WindowResizeWorkaround (JuceVST3Editor& o) : owner (o) {} void handleAsyncUpdate() override { if (auto* peer = owner.component->getPeer()) peer->updateBounds(); } JuceVST3Editor& owner; }; std::unique_ptr cubase10Workaround; #endif float editorScaleFactor = 1.0f; #if JUCE_WINDOWS WindowsHooks hooks; #endif ScopedJuceInitialiser_GUI libraryInitialiser; //============================================================================== JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (JuceVST3Editor) }; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (JuceVST3EditController) }; namespace { template struct AudioBusPointerHelper {}; template <> struct AudioBusPointerHelper { static inline float** impl (Vst::AudioBusBuffers& data) noexcept { return data.channelBuffers32; } }; template <> struct AudioBusPointerHelper { static inline double** impl (Vst::AudioBusBuffers& data) noexcept { return data.channelBuffers64; } }; template struct ChooseBufferHelper {}; template <> struct ChooseBufferHelper { static inline AudioBuffer& impl (AudioBuffer& f, AudioBuffer& ) noexcept { return f; } }; template <> struct ChooseBufferHelper { static inline AudioBuffer& impl (AudioBuffer& , AudioBuffer& d) noexcept { return d; } }; } //============================================================================== class JuceVST3Component : public Vst::IComponent, public Vst::IAudioProcessor, public Vst::IUnitInfo, public Vst::IConnectionPoint, public AudioPlayHead { public: JuceVST3Component (Vst::IHostApplication* h) : pluginInstance (createPluginFilterOfType (AudioProcessor::wrapperType_VST3)), host (h) { inParameterChangedCallback = false; #ifdef JucePlugin_PreferredChannelConfigurations short configs[][2] = { JucePlugin_PreferredChannelConfigurations }; const int numConfigs = sizeof (configs) / sizeof (short[2]); ignoreUnused (numConfigs); jassert (numConfigs > 0 && (configs[0][0] > 0 || configs[0][1] > 0)); pluginInstance->setPlayConfigDetails (configs[0][0], configs[0][1], 44100.0, 1024); #endif // VST-3 requires your default layout to be non-discrete! // For example, your default layout must be mono, stereo, quadrophonic // and not AudioChannelSet::discreteChannels (2) etc. jassert (checkBusFormatsAreNotDiscrete()); parameterGroups = pluginInstance->parameterTree.getSubgroups (true); comPluginInstance = new JuceAudioProcessor (pluginInstance); zerostruct (processContext); processSetup.maxSamplesPerBlock = 1024; processSetup.processMode = Vst::kRealtime; processSetup.sampleRate = 44100.0; processSetup.symbolicSampleSize = Vst::kSample32; pluginInstance->setPlayHead (this); } ~JuceVST3Component() { if (juceVST3EditController != nullptr) juceVST3EditController->vst3IsPlaying = 0; if (pluginInstance != nullptr) if (pluginInstance->getPlayHead() == this) pluginInstance->setPlayHead (nullptr); } //============================================================================== AudioProcessor& getPluginInstance() const noexcept { return *pluginInstance; } //============================================================================== static const FUID iid; JUCE_DECLARE_VST3_COM_REF_METHODS tresult PLUGIN_API queryInterface (const TUID targetIID, void** obj) override { TEST_FOR_AND_RETURN_IF_VALID (targetIID, IPluginBase) TEST_FOR_AND_RETURN_IF_VALID (targetIID, JuceVST3Component) TEST_FOR_AND_RETURN_IF_VALID (targetIID, Vst::IComponent) TEST_FOR_AND_RETURN_IF_VALID (targetIID, Vst::IAudioProcessor) TEST_FOR_AND_RETURN_IF_VALID (targetIID, Vst::IUnitInfo) TEST_FOR_AND_RETURN_IF_VALID (targetIID, Vst::IConnectionPoint) TEST_FOR_COMMON_BASE_AND_RETURN_IF_VALID (targetIID, FUnknown, Vst::IComponent) if (doUIDsMatch (targetIID, JuceAudioProcessor::iid)) { comPluginInstance->addRef(); *obj = comPluginInstance; return kResultOk; } *obj = nullptr; return kNoInterface; } //============================================================================== tresult PLUGIN_API initialize (FUnknown* hostContext) override { if (host != hostContext) host.loadFrom (hostContext); processContext.sampleRate = processSetup.sampleRate; preparePlugin (processSetup.sampleRate, (int) processSetup.maxSamplesPerBlock); return kResultTrue; } tresult PLUGIN_API terminate() override { getPluginInstance().releaseResources(); return kResultTrue; } //============================================================================== tresult PLUGIN_API connect (IConnectionPoint* other) override { if (other != nullptr && juceVST3EditController == nullptr) juceVST3EditController.loadFrom (other); return kResultTrue; } tresult PLUGIN_API disconnect (IConnectionPoint*) override { if (juceVST3EditController != nullptr) juceVST3EditController->vst3IsPlaying = 0; juceVST3EditController = nullptr; return kResultTrue; } tresult PLUGIN_API notify (Vst::IMessage* message) override { if (message != nullptr && juceVST3EditController == nullptr) { Steinberg::int64 value = 0; if (message->getAttributes()->getInt ("JuceVST3EditController", value) == kResultTrue) { juceVST3EditController = (JuceVST3EditController*) (pointer_sized_int) value; if (juceVST3EditController != nullptr) juceVST3EditController->setAudioProcessor (comPluginInstance); else jassertfalse; } } return kResultTrue; } tresult PLUGIN_API getControllerClassId (TUID classID) override { memcpy (classID, JuceVST3EditController::iid, sizeof (TUID)); return kResultTrue; } //============================================================================== tresult PLUGIN_API setActive (TBool state) override { if (! state) { getPluginInstance().releaseResources(); deallocateChannelListAndBuffers (channelListFloat, emptyBufferFloat); deallocateChannelListAndBuffers (channelListDouble, emptyBufferDouble); } else { auto sampleRate = getPluginInstance().getSampleRate(); auto bufferSize = getPluginInstance().getBlockSize(); sampleRate = processSetup.sampleRate > 0.0 ? processSetup.sampleRate : sampleRate; bufferSize = processSetup.maxSamplesPerBlock > 0 ? (int) processSetup.maxSamplesPerBlock : bufferSize; allocateChannelListAndBuffers (channelListFloat, emptyBufferFloat); allocateChannelListAndBuffers (channelListDouble, emptyBufferDouble); preparePlugin (sampleRate, bufferSize); } return kResultOk; } tresult PLUGIN_API setIoMode (Vst::IoMode) override { return kNotImplemented; } tresult PLUGIN_API getRoutingInfo (Vst::RoutingInfo&, Vst::RoutingInfo&) override { return kNotImplemented; } //============================================================================== bool isBypassed() { if (auto* bypassParam = comPluginInstance->getBypassParameter()) return (bypassParam->getValue() != 0.0f); return false; } void setBypassed (bool shouldBeBypassed) { if (auto* bypassParam = comPluginInstance->getBypassParameter()) { auto floatValue = (shouldBeBypassed ? 1.0f : 0.0f); bypassParam->setValue (floatValue); inParameterChangedCallback = true; bypassParam->sendValueChangedMessageToListeners (floatValue); } } //============================================================================== void writeJucePrivateStateInformation (MemoryOutputStream& out) { if (pluginInstance->getBypassParameter() == nullptr) { ValueTree privateData (kJucePrivateDataIdentifier); // for now we only store the bypass value privateData.setProperty ("Bypass", var (isBypassed()), nullptr); privateData.writeToStream (out); } } void setJucePrivateStateInformation (const void* data, int sizeInBytes) { if (pluginInstance->getBypassParameter() == nullptr) { if (auto* bypassParam = comPluginInstance->getBypassParameter()) { auto privateData = ValueTree::readFromData (data, static_cast (sizeInBytes)); setBypassed (static_cast (privateData.getProperty ("Bypass", var (false)))); } } } void getStateInformation (MemoryBlock& destData) { pluginInstance->getStateInformation (destData); // With bypass support, JUCE now needs to store private state data. // Put this at the end of the plug-in state and add a few null characters // so that plug-ins built with older versions of JUCE will hopefully ignore // this data. Additionally, we need to add some sort of magic identifier // at the very end of the private data so that JUCE has some sort of // way to figure out if the data was stored with a newer JUCE version. MemoryOutputStream extraData; extraData.writeInt64 (0); writeJucePrivateStateInformation (extraData); auto privateDataSize = (int64) (extraData.getDataSize() - sizeof (int64)); extraData.writeInt64 (privateDataSize); extraData << kJucePrivateDataIdentifier; // write magic string destData.append (extraData.getData(), extraData.getDataSize()); } void setStateInformation (const void* data, int sizeAsInt) { int64 size = sizeAsInt; // Check if this data was written with a newer JUCE version // and if it has the JUCE private data magic code at the end auto jucePrivDataIdentifierSize = std::strlen (kJucePrivateDataIdentifier); if ((size_t) size >= jucePrivDataIdentifierSize + sizeof (int64)) { auto buffer = static_cast (data); String magic (CharPointer_UTF8 (buffer + size - jucePrivDataIdentifierSize), CharPointer_UTF8 (buffer + size)); if (magic == kJucePrivateDataIdentifier) { // found a JUCE private data section uint64 privateDataSize; std::memcpy (&privateDataSize, buffer + ((size_t) size - jucePrivDataIdentifierSize - sizeof (uint64)), sizeof (uint64)); privateDataSize = ByteOrder::swapIfBigEndian (privateDataSize); size -= privateDataSize + jucePrivDataIdentifierSize + sizeof (uint64); if (privateDataSize > 0) setJucePrivateStateInformation (buffer + size, static_cast (privateDataSize)); size -= sizeof (uint64); } } if (size >= 0) pluginInstance->setStateInformation (data, static_cast (size)); } //============================================================================== #if JUCE_VST3_CAN_REPLACE_VST2 bool loadVST2VstWBlock (const char* data, int size) { jassert ('VstW' == htonl (*(juce::int32*) data)); jassert (1 == htonl (*(juce::int32*) (data + 8))); // version should be 1 according to Steinberg's docs auto headerLen = (int) htonl (*(juce::int32*) (data + 4)) + 8; return loadVST2CcnKBlock (data + headerLen, size - headerLen); } bool loadVST2CcnKBlock (const char* data, int size) { auto bank = (const Vst2::fxBank*) data; jassert ('CcnK' == htonl (bank->chunkMagic)); jassert ('FBCh' == htonl (bank->fxMagic)); jassert (htonl (bank->version) == 1 || htonl (bank->version) == 2); jassert (JucePlugin_VSTUniqueID == htonl (bank->fxID)); setStateInformation (bank->content.data.chunk, jmin ((int) (size - (bank->content.data.chunk - data)), (int) htonl (bank->content.data.size))); return true; } bool loadVST3PresetFile (const char* data, int size) { if (size < 48) return false; // At offset 4 there's a little-endian version number which seems to typically be 1 // At offset 8 there's 32 bytes the SDK calls "ASCII-encoded class id" auto chunkListOffset = (int) ByteOrder::littleEndianInt (data + 40); jassert (memcmp (data + chunkListOffset, "List", 4) == 0); auto entryCount = (int) ByteOrder::littleEndianInt (data + chunkListOffset + 4); jassert (entryCount > 0); for (int i = 0; i < entryCount; ++i) { auto entryOffset = chunkListOffset + 8 + 20 * i; if (entryOffset + 20 > size) return false; if (memcmp (data + entryOffset, "Comp", 4) == 0) { // "Comp" entries seem to contain the data. auto chunkOffset = ByteOrder::littleEndianInt64 (data + entryOffset + 4); auto chunkSize = ByteOrder::littleEndianInt64 (data + entryOffset + 12); if (chunkOffset + chunkSize > static_cast (size)) { jassertfalse; return false; } loadVST2VstWBlock (data + chunkOffset, (int) chunkSize); } } return true; } bool loadVST2CompatibleState (const char* data, int size) { if (size < 4) return false; auto header = htonl (*(juce::int32*) data); if (header == 'VstW') return loadVST2VstWBlock (data, size); if (header == 'CcnK') return loadVST2CcnKBlock (data, size); if (memcmp (data, "VST3", 4) == 0) { // In Cubase 5, when loading VST3 .vstpreset files, // we get the whole content of the files to load. // In Cubase 7 we get just the contents within and // we go directly to the loadVST2VstW codepath instead. return loadVST3PresetFile (data, size); } return false; } #endif bool loadStateData (const void* data, int size) { #if JUCE_VST3_CAN_REPLACE_VST2 return loadVST2CompatibleState ((const char*) data, size); #else setStateInformation (data, size); return true; #endif } bool readFromMemoryStream (IBStream* state) { FUnknownPtr s (state); Steinberg::int64 size = 0; if (s != nullptr && s->getStreamSize (size) == kResultOk && size > 0 && size < 1024 * 1024 * 100) // (some hosts seem to return junk for the size) { MemoryBlock block (static_cast (size)); // turns out that Cubase 9 might give you the incorrect stream size :-( Steinberg::int32 bytesRead = 1; int len; for (len = 0; bytesRead > 0 && len < static_cast (block.getSize()); len += bytesRead) if (state->read (block.getData(), static_cast (block.getSize()), &bytesRead) != kResultOk) break; if (len == 0) return false; block.setSize (static_cast (len)); // Adobe Audition CS6 hack to avoid trying to use corrupted streams: if (getHostType().isAdobeAudition()) if (block.getSize() >= 5 && memcmp (block.getData(), "VC2!E", 5) == 0) return false; return loadStateData (block.getData(), (int) block.getSize()); } return false; } bool readFromUnknownStream (IBStream* state) { MemoryOutputStream allData; { const size_t bytesPerBlock = 4096; HeapBlock buffer (bytesPerBlock); for (;;) { Steinberg::int32 bytesRead = 0; auto status = state->read (buffer, (Steinberg::int32) bytesPerBlock, &bytesRead); if (bytesRead <= 0 || (status != kResultTrue && ! getHostType().isWavelab())) break; allData.write (buffer, static_cast (bytesRead)); } } const size_t dataSize = allData.getDataSize(); return dataSize > 0 && dataSize < 0x7fffffff && loadStateData (allData.getData(), (int) dataSize); } tresult PLUGIN_API setState (IBStream* state) override { if (state == nullptr) return kInvalidArgument; FUnknownPtr stateRefHolder (state); // just in case the caller hasn't properly ref-counted the stream object if (state->seek (0, IBStream::kIBSeekSet, nullptr) == kResultTrue) { if (! getHostType().isFruityLoops() && readFromMemoryStream (state)) return kResultTrue; if (readFromUnknownStream (state)) return kResultTrue; } return kResultFalse; } #if JUCE_VST3_CAN_REPLACE_VST2 static tresult writeVST2Int (IBStream* state, int n) { juce::int32 t = (juce::int32) htonl (n); return state->write (&t, 4); } static tresult writeVST2Header (IBStream* state, bool bypassed) { tresult status = writeVST2Int (state, 'VstW'); if (status == kResultOk) status = writeVST2Int (state, 8); // header size if (status == kResultOk) status = writeVST2Int (state, 1); // version if (status == kResultOk) status = writeVST2Int (state, bypassed ? 1 : 0); // bypass return status; } #endif tresult PLUGIN_API getState (IBStream* state) override { if (state == nullptr) return kInvalidArgument; juce::MemoryBlock mem; getStateInformation (mem); #if JUCE_VST3_CAN_REPLACE_VST2 tresult status = writeVST2Header (state, isBypassed()); if (status != kResultOk) return status; const int bankBlockSize = 160; Vst2::fxBank bank; zerostruct (bank); bank.chunkMagic = (int32) htonl ('CcnK'); bank.byteSize = (int32) htonl (bankBlockSize - 8 + (unsigned int) mem.getSize()); bank.fxMagic = (int32) htonl ('FBCh'); bank.version = (int32) htonl (2); bank.fxID = (int32) htonl (JucePlugin_VSTUniqueID); bank.fxVersion = (int32) htonl (JucePlugin_VersionCode); bank.content.data.size = (int32) htonl ((unsigned int) mem.getSize()); status = state->write (&bank, bankBlockSize); if (status != kResultOk) return status; #endif return state->write (mem.getData(), (Steinberg::int32) mem.getSize()); } //============================================================================== Steinberg::int32 PLUGIN_API getUnitCount() override { return parameterGroups.size() + 1; } tresult PLUGIN_API getUnitInfo (Steinberg::int32 unitIndex, Vst::UnitInfo& info) override { if (unitIndex == 0) { info.id = Vst::kRootUnitId; info.parentUnitId = Vst::kNoParentUnitId; info.programListId = Vst::kNoProgramListId; toString128 (info.name, TRANS("Root Unit")); return kResultTrue; } if (auto* group = parameterGroups[unitIndex - 1]) { info.id = JuceAudioProcessor::getUnitID (group); info.parentUnitId = JuceAudioProcessor::getUnitID (group->getParent()); info.programListId = Vst::kNoProgramListId; toString128 (info.name, group->getName()); return kResultTrue; } return kResultFalse; } Steinberg::int32 PLUGIN_API getProgramListCount() override { if (getPluginInstance().getNumPrograms() > 0) return 1; return 0; } tresult PLUGIN_API getProgramListInfo (Steinberg::int32 listIndex, Vst::ProgramListInfo& info) override { if (listIndex == 0) { info.id = JuceVST3EditController::paramPreset; info.programCount = (Steinberg::int32) getPluginInstance().getNumPrograms(); toString128 (info.name, TRANS("Factory Presets")); return kResultTrue; } jassertfalse; zerostruct (info); return kResultFalse; } tresult PLUGIN_API getProgramName (Vst::ProgramListID listId, Steinberg::int32 programIndex, Vst::String128 name) override { if (listId == JuceVST3EditController::paramPreset && isPositiveAndBelow ((int) programIndex, getPluginInstance().getNumPrograms())) { toString128 (name, getPluginInstance().getProgramName ((int) programIndex)); return kResultTrue; } jassertfalse; toString128 (name, juce::String()); return kResultFalse; } tresult PLUGIN_API getProgramInfo (Vst::ProgramListID, Steinberg::int32, Vst::CString, Vst::String128) override { return kNotImplemented; } tresult PLUGIN_API hasProgramPitchNames (Vst::ProgramListID, Steinberg::int32) override { return kNotImplemented; } tresult PLUGIN_API getProgramPitchName (Vst::ProgramListID, Steinberg::int32, Steinberg::int16, Vst::String128) override { return kNotImplemented; } tresult PLUGIN_API selectUnit (Vst::UnitID) override { return kNotImplemented; } tresult PLUGIN_API setUnitProgramData (Steinberg::int32, Steinberg::int32, IBStream*) override { return kNotImplemented; } Vst::UnitID PLUGIN_API getSelectedUnit() override { return Vst::kRootUnitId; } tresult PLUGIN_API getUnitByBus (Vst::MediaType, Vst::BusDirection, Steinberg::int32, Steinberg::int32, Vst::UnitID& unitId) override { zerostruct (unitId); return kNotImplemented; } //============================================================================== bool getCurrentPosition (CurrentPositionInfo& info) override { info.timeInSamples = jmax ((juce::int64) 0, processContext.projectTimeSamples); info.timeInSeconds = static_cast (info.timeInSamples) / processContext.sampleRate; info.bpm = jmax (1.0, processContext.tempo); info.timeSigNumerator = jmax (1, (int) processContext.timeSigNumerator); info.timeSigDenominator = jmax (1, (int) processContext.timeSigDenominator); info.ppqPositionOfLastBarStart = processContext.barPositionMusic; info.ppqPosition = processContext.projectTimeMusic; info.ppqLoopStart = processContext.cycleStartMusic; info.ppqLoopEnd = processContext.cycleEndMusic; info.isRecording = (processContext.state & Vst::ProcessContext::kRecording) != 0; info.isPlaying = (processContext.state & Vst::ProcessContext::kPlaying) != 0; info.isLooping = (processContext.state & Vst::ProcessContext::kCycleActive) != 0; info.editOriginTime = 0.0; info.frameRate = AudioPlayHead::fpsUnknown; if ((processContext.state & Vst::ProcessContext::kSmpteValid) != 0) { switch (processContext.frameRate.framesPerSecond) { case 24: { if ((processContext.frameRate.flags & Vst::FrameRate::kPullDownRate) != 0) info.frameRate = AudioPlayHead::fps23976; else info.frameRate = AudioPlayHead::fps24; } break; case 25: info.frameRate = AudioPlayHead::fps25; break; case 29: info.frameRate = AudioPlayHead::fps30drop; break; case 30: { if ((processContext.frameRate.flags & Vst::FrameRate::kDropRate) != 0) info.frameRate = AudioPlayHead::fps30drop; else info.frameRate = AudioPlayHead::fps30; } break; default: break; } } return true; } //============================================================================== int getNumAudioBuses (bool isInput) const { int busCount = pluginInstance->getBusCount (isInput); #ifdef JucePlugin_PreferredChannelConfigurations short configs[][2] = {JucePlugin_PreferredChannelConfigurations}; const int numConfigs = sizeof (configs) / sizeof (short[2]); bool hasOnlyZeroChannels = true; for (int i = 0; i < numConfigs && hasOnlyZeroChannels == true; ++i) if (configs[i][isInput ? 0 : 1] != 0) hasOnlyZeroChannels = false; busCount = jmin (busCount, hasOnlyZeroChannels ? 0 : 1); #endif return busCount; } //============================================================================== Steinberg::int32 PLUGIN_API getBusCount (Vst::MediaType type, Vst::BusDirection dir) override { if (type == Vst::kAudio) return getNumAudioBuses (dir == Vst::kInput); if (type == Vst::kEvent) { if (dir == Vst::kInput) return isMidiInputBusEnabled ? 1 : 0; if (dir == Vst::kOutput) return isMidiOutputBusEnabled ? 1 : 0; } return 0; } tresult PLUGIN_API getBusInfo (Vst::MediaType type, Vst::BusDirection dir, Steinberg::int32 index, Vst::BusInfo& info) override { if (type == Vst::kAudio) { if (index < 0 || index >= getNumAudioBuses (dir == Vst::kInput)) return kResultFalse; if (auto* bus = pluginInstance->getBus (dir == Vst::kInput, index)) { info.mediaType = Vst::kAudio; info.direction = dir; info.channelCount = bus->getLastEnabledLayout().size(); toString128 (info.name, bus->getName()); #if JucePlugin_IsSynth info.busType = (dir == Vst::kInput && index > 0 ? Vst::kAux : Vst::kMain); #else info.busType = (index == 0 ? Vst::kMain : Vst::kAux); #endif info.flags = (bus->isEnabledByDefault()) ? Vst::BusInfo::kDefaultActive : 0; return kResultTrue; } } if (type == Vst::kEvent) { info.flags = Vst::BusInfo::kDefaultActive; #if JucePlugin_WantsMidiInput if (dir == Vst::kInput && index == 0) { info.mediaType = Vst::kEvent; info.direction = dir; #ifdef JucePlugin_VSTNumMidiInputs info.channelCount = JucePlugin_VSTNumMidiInputs; #else info.channelCount = 16; #endif toString128 (info.name, TRANS("MIDI Input")); info.busType = Vst::kMain; return kResultTrue; } #endif #if JucePlugin_ProducesMidiOutput if (dir == Vst::kOutput && index == 0) { info.mediaType = Vst::kEvent; info.direction = dir; #ifdef JucePlugin_VSTNumMidiOutputs info.channelCount = JucePlugin_VSTNumMidiOutputs; #else info.channelCount = 16; #endif toString128 (info.name, TRANS("MIDI Output")); info.busType = Vst::kMain; return kResultTrue; } #endif } zerostruct (info); return kResultFalse; } tresult PLUGIN_API activateBus (Vst::MediaType type, Vst::BusDirection dir, Steinberg::int32 index, TBool state) override { if (type == Vst::kEvent) { if (index != 0) return kResultFalse; if (dir == Vst::kInput) isMidiInputBusEnabled = (state != 0); else isMidiOutputBusEnabled = (state != 0); return kResultTrue; } if (type == Vst::kAudio) { if (index < 0 || index >= getNumAudioBuses (dir == Vst::kInput)) return kResultFalse; if (auto* bus = pluginInstance->getBus (dir == Vst::kInput, index)) { #ifdef JucePlugin_PreferredChannelConfigurations auto newLayout = pluginInstance->getBusesLayout(); auto targetLayout = (state != 0 ? bus->getLastEnabledLayout() : AudioChannelSet::disabled()); (dir == Vst::kInput ? newLayout.inputBuses : newLayout.outputBuses).getReference (index) = targetLayout; short configs[][2] = { JucePlugin_PreferredChannelConfigurations }; auto compLayout = pluginInstance->getNextBestLayoutInLayoutList (newLayout, configs); if ((dir == Vst::kInput ? compLayout.inputBuses : compLayout.outputBuses).getReference (index) != targetLayout) return kResultFalse; #endif return bus->enable (state != 0) ? kResultTrue : kResultFalse; } } return kResultFalse; } bool checkBusFormatsAreNotDiscrete() { auto numInputBuses = pluginInstance->getBusCount (true); auto numOutputBuses = pluginInstance->getBusCount (false); for (int i = 0; i < numInputBuses; ++i) { auto layout = pluginInstance->getChannelLayoutOfBus (true, i); if (layout.isDiscreteLayout() && ! layout.isDisabled()) return false; } for (int i = 0; i < numOutputBuses; ++i) { auto layout = pluginInstance->getChannelLayoutOfBus (false, i); if (layout.isDiscreteLayout() && ! layout.isDisabled()) return false; } return true; } tresult PLUGIN_API setBusArrangements (Vst::SpeakerArrangement* inputs, Steinberg::int32 numIns, Vst::SpeakerArrangement* outputs, Steinberg::int32 numOuts) override { auto numInputBuses = pluginInstance->getBusCount (true); auto numOutputBuses = pluginInstance->getBusCount (false); if (numIns > numInputBuses || numOuts > numOutputBuses) return false; auto requested = pluginInstance->getBusesLayout(); for (int i = 0; i < numIns; ++i) requested.getChannelSet (true, i) = getChannelSetForSpeakerArrangement (inputs[i]); for (int i = 0; i < numOuts; ++i) requested.getChannelSet (false, i) = getChannelSetForSpeakerArrangement (outputs[i]); #ifdef JucePlugin_PreferredChannelConfigurations short configs[][2] = { JucePlugin_PreferredChannelConfigurations }; if (! AudioProcessor::containsLayout (requested, configs)) return kResultFalse; #endif return pluginInstance->setBusesLayoutWithoutEnabling (requested) ? kResultTrue : kResultFalse; } tresult PLUGIN_API getBusArrangement (Vst::BusDirection dir, Steinberg::int32 index, Vst::SpeakerArrangement& arr) override { if (auto* bus = pluginInstance->getBus (dir == Vst::kInput, index)) { arr = getVst3SpeakerArrangement (bus->getLastEnabledLayout()); return kResultTrue; } return kResultFalse; } //============================================================================== tresult PLUGIN_API canProcessSampleSize (Steinberg::int32 symbolicSampleSize) override { return (symbolicSampleSize == Vst::kSample32 || (getPluginInstance().supportsDoublePrecisionProcessing() && symbolicSampleSize == Vst::kSample64)) ? kResultTrue : kResultFalse; } Steinberg::uint32 PLUGIN_API getLatencySamples() override { return (Steinberg::uint32) jmax (0, getPluginInstance().getLatencySamples()); } tresult PLUGIN_API setupProcessing (Vst::ProcessSetup& newSetup) override { if (canProcessSampleSize (newSetup.symbolicSampleSize) != kResultTrue) return kResultFalse; processSetup = newSetup; processContext.sampleRate = processSetup.sampleRate; getPluginInstance().setProcessingPrecision (newSetup.symbolicSampleSize == Vst::kSample64 ? AudioProcessor::doublePrecision : AudioProcessor::singlePrecision); getPluginInstance().setNonRealtime (newSetup.processMode == Vst::kOffline); preparePlugin (processSetup.sampleRate, processSetup.maxSamplesPerBlock); return kResultTrue; } tresult PLUGIN_API setProcessing (TBool state) override { if (! state) getPluginInstance().reset(); return kResultTrue; } Steinberg::uint32 PLUGIN_API getTailSamples() override { auto tailLengthSeconds = getPluginInstance().getTailLengthSeconds(); if (tailLengthSeconds <= 0.0 || processSetup.sampleRate <= 0.0) return Vst::kNoTail; if (tailLengthSeconds == std::numeric_limits::infinity()) return Vst::kInfiniteTail; return (Steinberg::uint32) roundToIntAccurate (tailLengthSeconds * processSetup.sampleRate); } //============================================================================== void processParameterChanges (Vst::IParameterChanges& paramChanges) { jassert (pluginInstance != nullptr); auto numParamsChanged = paramChanges.getParameterCount(); for (Steinberg::int32 i = 0; i < numParamsChanged; ++i) { if (auto* paramQueue = paramChanges.getParameterData (i)) { auto numPoints = paramQueue->getPointCount(); Steinberg::int32 offsetSamples = 0; double value = 0.0; if (paramQueue->getPoint (numPoints - 1, offsetSamples, value) == kResultTrue) { auto vstParamID = paramQueue->getParameterId(); if (vstParamID == JuceVST3EditController::paramPreset) { auto numPrograms = pluginInstance->getNumPrograms(); auto programValue = roundToInt (value * (jmax (0, numPrograms - 1))); if (numPrograms > 1 && isPositiveAndBelow (programValue, numPrograms) && programValue != pluginInstance->getCurrentProgram()) pluginInstance->setCurrentProgram (programValue); } #if JUCE_VST3_EMULATE_MIDI_CC_WITH_PARAMETERS else if (juceVST3EditController->isMidiControllerParamID (vstParamID)) addParameterChangeToMidiBuffer (offsetSamples, vstParamID, value); #endif else { auto floatValue = static_cast (value); if (auto* param = comPluginInstance->getParamForVSTParamID (vstParamID)) { param->setValue (floatValue); inParameterChangedCallback = true; param->sendValueChangedMessageToListeners (floatValue); } } } } } } void addParameterChangeToMidiBuffer (const Steinberg::int32 offsetSamples, const Vst::ParamID id, const double value) { // If the parameter is mapped to a MIDI CC message then insert it into the midiBuffer. int channel, ctrlNumber; if (juceVST3EditController->getMidiControllerForParameter (id, channel, ctrlNumber)) { if (ctrlNumber == Vst::kAfterTouch) midiBuffer.addEvent (MidiMessage::channelPressureChange (channel, jlimit (0, 127, (int) (value * 128.0))), offsetSamples); else if (ctrlNumber == Vst::kPitchBend) midiBuffer.addEvent (MidiMessage::pitchWheel (channel, jlimit (0, 0x3fff, (int) (value * 0x4000))), offsetSamples); else midiBuffer.addEvent (MidiMessage::controllerEvent (channel, jlimit (0, 127, ctrlNumber), jlimit (0, 127, (int) (value * 128.0))), offsetSamples); } } tresult PLUGIN_API process (Vst::ProcessData& data) override { if (pluginInstance == nullptr) return kResultFalse; if ((processSetup.symbolicSampleSize == Vst::kSample64) != pluginInstance->isUsingDoublePrecision()) return kResultFalse; if (data.processContext != nullptr) { processContext = *data.processContext; if (juceVST3EditController != nullptr) juceVST3EditController->vst3IsPlaying = processContext.state & Vst::ProcessContext::kPlaying; } else { zerostruct (processContext); if (juceVST3EditController != nullptr) juceVST3EditController->vst3IsPlaying = 0; } midiBuffer.clear(); if (data.inputParameterChanges != nullptr) processParameterChanges (*data.inputParameterChanges); #if JucePlugin_WantsMidiInput if (data.inputEvents != nullptr) MidiEventList::toMidiBuffer (midiBuffer, *data.inputEvents); #endif if (getHostType().isWavelab()) { const int numInputChans = (data.inputs != nullptr && data.inputs[0].channelBuffers32 != nullptr) ? (int) data.inputs[0].numChannels : 0; const int numOutputChans = (data.outputs != nullptr && data.outputs[0].channelBuffers32 != nullptr) ? (int) data.outputs[0].numChannels : 0; if ((pluginInstance->getTotalNumInputChannels() + pluginInstance->getTotalNumOutputChannels()) > 0 && (numInputChans + numOutputChans) == 0) return kResultFalse; } if (processSetup.symbolicSampleSize == Vst::kSample32) processAudio (data, channelListFloat); else if (processSetup.symbolicSampleSize == Vst::kSample64) processAudio (data, channelListDouble); else jassertfalse; #if JucePlugin_ProducesMidiOutput if (data.outputEvents != nullptr) MidiEventList::toEventList (*data.outputEvents, midiBuffer); #endif return kResultTrue; } private: //============================================================================== template void processAudio (Vst::ProcessData& data, Array& channelList) { int totalInputChans = 0, totalOutputChans = 0; bool tmpBufferNeedsClearing = false; auto plugInInputChannels = pluginInstance->getTotalNumInputChannels(); auto plugInOutputChannels = pluginInstance->getTotalNumOutputChannels(); // Wavelab workaround: wave-lab lies on the number of inputs/outputs so re-count here int vstInputs; for (vstInputs = 0; vstInputs < data.numInputs; ++vstInputs) if (getPointerForAudioBus (data.inputs[vstInputs]) == nullptr && data.inputs[vstInputs].numChannels > 0) break; int vstOutputs; for (vstOutputs = 0; vstOutputs < data.numOutputs; ++vstOutputs) if (getPointerForAudioBus (data.outputs[vstOutputs]) == nullptr && data.outputs[vstOutputs].numChannels > 0) break; { auto n = jmax (vstOutputs, getNumAudioBuses (false)); for (int bus = 0; bus < n && totalOutputChans < plugInOutputChannels; ++bus) { if (bus < vstOutputs) { if (auto** const busChannels = getPointerForAudioBus (data.outputs[bus])) { auto numChans = jmin ((int) data.outputs[bus].numChannels, plugInOutputChannels - totalOutputChans); for (int i = 0; i < numChans; ++i) { if (auto dst = busChannels[i]) { if (totalOutputChans >= plugInInputChannels) FloatVectorOperations::clear (dst, (int) data.numSamples); channelList.set (totalOutputChans++, busChannels[i]); } } } } else { const int numChans = jmin (pluginInstance->getChannelCountOfBus (false, bus), plugInOutputChannels - totalOutputChans); for (int i = 0; i < numChans; ++i) { if (auto* tmpBuffer = getTmpBufferForChannel (totalOutputChans, data.numSamples))\ { tmpBufferNeedsClearing = true; channelList.set (totalOutputChans++, tmpBuffer); } else return; } } } } { auto n = jmax (vstInputs, getNumAudioBuses (true)); for (int bus = 0; bus < n && totalInputChans < plugInInputChannels; ++bus) { if (bus < vstInputs) { if (auto** const busChannels = getPointerForAudioBus (data.inputs[bus])) { const int numChans = jmin ((int) data.inputs[bus].numChannels, plugInInputChannels - totalInputChans); for (int i = 0; i < numChans; ++i) { if (busChannels[i] != nullptr) { if (totalInputChans >= totalOutputChans) channelList.set (totalInputChans, busChannels[i]); else { auto* dst = channelList.getReference (totalInputChans); auto* src = busChannels[i]; if (dst != src) FloatVectorOperations::copy (dst, src, (int) data.numSamples); } } ++totalInputChans; } } } else { auto numChans = jmin (pluginInstance->getChannelCountOfBus (true, bus), plugInInputChannels - totalInputChans); for (int i = 0; i < numChans; ++i) { if (auto* tmpBuffer = getTmpBufferForChannel (totalInputChans, data.numSamples)) { tmpBufferNeedsClearing = true; channelList.set (totalInputChans++, tmpBuffer); } else return; } } } } if (tmpBufferNeedsClearing) ChooseBufferHelper::impl (emptyBufferFloat, emptyBufferDouble).clear(); AudioBuffer buffer; if (int totalChans = jmax (totalOutputChans, totalInputChans)) buffer.setDataToReferTo (channelList.getRawDataPointer(), totalChans, (int) data.numSamples); { const ScopedLock sl (pluginInstance->getCallbackLock()); pluginInstance->setNonRealtime (data.processMode == Vst::kOffline); #if JUCE_DEBUG && ! JucePlugin_ProducesMidiOutput const int numMidiEventsComingIn = midiBuffer.getNumEvents(); #endif if (pluginInstance->isSuspended()) { buffer.clear(); } else { if (totalInputChans == pluginInstance->getTotalNumInputChannels() && totalOutputChans == pluginInstance->getTotalNumOutputChannels()) { if (isBypassed()) pluginInstance->processBlockBypassed (buffer, midiBuffer); else pluginInstance->processBlock (buffer, midiBuffer); } } #if JUCE_DEBUG && (! JucePlugin_ProducesMidiOutput) /* This assertion is caused when you've added some events to the midiMessages array in your processBlock() method, which usually means that you're trying to send them somewhere. But in this case they're getting thrown away. If your plugin does want to send MIDI messages, you'll need to set the JucePlugin_ProducesMidiOutput macro to 1 in your JucePluginCharacteristics.h file. If you don't want to produce any MIDI output, then you should clear the midiMessages array at the end of your processBlock() method, to indicate that you don't want any of the events to be passed through to the output. */ jassert (midiBuffer.getNumEvents() <= numMidiEventsComingIn); #endif } } //============================================================================== template void allocateChannelListAndBuffers (Array& channelList, AudioBuffer& buffer) { channelList.clearQuick(); channelList.insertMultiple (0, nullptr, 128); auto& p = getPluginInstance(); buffer.setSize (jmax (p.getTotalNumInputChannels(), p.getTotalNumOutputChannels()), p.getBlockSize() * 4); buffer.clear(); } template void deallocateChannelListAndBuffers (Array& channelList, AudioBuffer& buffer) { channelList.clearQuick(); channelList.resize (0); buffer.setSize (0, 0); } template static FloatType** getPointerForAudioBus (Vst::AudioBusBuffers& data) noexcept { return AudioBusPointerHelper::impl (data); } template FloatType* getTmpBufferForChannel (int channel, int numSamples) noexcept { auto& buffer = ChooseBufferHelper::impl (emptyBufferFloat, emptyBufferDouble); // we can't do anything if the host requests to render many more samples than the // block size, we need to bail out if (numSamples > buffer.getNumSamples() || channel >= buffer.getNumChannels()) return nullptr; return buffer.getWritePointer (channel); } void preparePlugin (double sampleRate, int bufferSize) { auto& p = getPluginInstance(); p.setRateAndBufferSizeDetails (sampleRate, bufferSize); p.prepareToPlay (sampleRate, bufferSize); midiBuffer.ensureSize (2048); midiBuffer.clear(); } //============================================================================== Atomic refCount { 1 }; AudioProcessor* pluginInstance; ComSmartPtr host; ComSmartPtr comPluginInstance; ComSmartPtr juceVST3EditController; /** Since VST3 does not provide a way of knowing the buffer size and sample rate at any point, this object needs to be copied on every call to process() to be up-to-date... */ Vst::ProcessContext processContext; Vst::ProcessSetup processSetup; MidiBuffer midiBuffer; Array channelListFloat; Array channelListDouble; AudioBuffer emptyBufferFloat; AudioBuffer emptyBufferDouble; #if JucePlugin_WantsMidiInput bool isMidiInputBusEnabled = true; #else bool isMidiInputBusEnabled = false; #endif #if JucePlugin_ProducesMidiOutput bool isMidiOutputBusEnabled = true; #else bool isMidiOutputBusEnabled = false; #endif ScopedJuceInitialiser_GUI libraryInitialiser; static const char* kJucePrivateDataIdentifier; Array parameterGroups; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (JuceVST3Component) }; const char* JuceVST3Component::kJucePrivateDataIdentifier = "JUCEPrivateData"; //============================================================================== #if JUCE_MSVC #pragma warning (push, 0) #pragma warning (disable: 4310) #elif JUCE_CLANG #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wall" #endif DECLARE_CLASS_IID (JuceAudioProcessor, 0x0101ABAB, 0xABCDEF01, JucePlugin_ManufacturerCode, JucePlugin_PluginCode) DEF_CLASS_IID (JuceAudioProcessor) #if JUCE_VST3_CAN_REPLACE_VST2 FUID getFUIDForVST2ID (bool forControllerUID) { TUID uuid; extern JUCE_API void getUUIDForVST2ID (bool, uint8[16]); getUUIDForVST2ID (forControllerUID, (uint8*) uuid); return FUID (uuid); } const Steinberg::FUID JuceVST3Component ::iid (getFUIDForVST2ID (false)); const Steinberg::FUID JuceVST3EditController::iid (getFUIDForVST2ID (true)); #else DECLARE_CLASS_IID (JuceVST3EditController, 0xABCDEF01, 0x1234ABCD, JucePlugin_ManufacturerCode, JucePlugin_PluginCode) DEF_CLASS_IID (JuceVST3EditController) DECLARE_CLASS_IID (JuceVST3Component, 0xABCDEF01, 0x9182FAEB, JucePlugin_ManufacturerCode, JucePlugin_PluginCode) DEF_CLASS_IID (JuceVST3Component) #endif #if JUCE_MSVC #pragma warning (pop) #elif JUCE_CLANG #pragma clang diagnostic pop #endif //============================================================================== bool initModule() { #if JUCE_MAC initialiseMacVST(); #endif return true; } bool shutdownModule() { return true; } #undef JUCE_EXPORTED_FUNCTION #if JUCE_WINDOWS extern "C" __declspec (dllexport) bool InitDll() { return initModule(); } extern "C" __declspec (dllexport) bool ExitDll() { return shutdownModule(); } #define JUCE_EXPORTED_FUNCTION #else #define JUCE_EXPORTED_FUNCTION extern "C" __attribute__ ((visibility ("default"))) CFBundleRef globalBundleInstance = nullptr; juce::uint32 numBundleRefs = 0; juce::Array bundleRefs; enum { MaxPathLength = 2048 }; char modulePath[MaxPathLength] = { 0 }; void* moduleHandle = nullptr; JUCE_EXPORTED_FUNCTION bool bundleEntry (CFBundleRef ref) { if (ref != nullptr) { ++numBundleRefs; CFRetain (ref); bundleRefs.add (ref); if (moduleHandle == nullptr) { globalBundleInstance = ref; moduleHandle = ref; CFURLRef tempURL = CFBundleCopyBundleURL (ref); CFURLGetFileSystemRepresentation (tempURL, true, (UInt8*) modulePath, MaxPathLength); CFRelease (tempURL); } } return initModule(); } JUCE_EXPORTED_FUNCTION bool bundleExit() { if (shutdownModule()) { if (--numBundleRefs == 0) { for (int i = 0; i < bundleRefs.size(); ++i) CFRelease (bundleRefs.getUnchecked (i)); bundleRefs.clear(); } return true; } return false; } #endif //============================================================================== /** This typedef represents VST3's createInstance() function signature */ using CreateFunction = FUnknown* (*)(Vst::IHostApplication*); static FUnknown* createComponentInstance (Vst::IHostApplication* host) { return static_cast (new JuceVST3Component (host)); } static FUnknown* createControllerInstance (Vst::IHostApplication* host) { return static_cast (new JuceVST3EditController (host)); } //============================================================================== struct JucePluginFactory; static JucePluginFactory* globalFactory = nullptr; //============================================================================== struct JucePluginFactory : public IPluginFactory3 { JucePluginFactory() : factoryInfo (JucePlugin_Manufacturer, JucePlugin_ManufacturerWebsite, JucePlugin_ManufacturerEmail, Vst::kDefaultFactoryFlags) { } virtual ~JucePluginFactory() { if (globalFactory == this) globalFactory = nullptr; } //============================================================================== bool registerClass (const PClassInfo2& info, CreateFunction createFunction) { if (createFunction == nullptr) { jassertfalse; return false; } auto* entry = classes.add (new ClassEntry (info, createFunction)); entry->infoW.fromAscii (info); return true; } //============================================================================== JUCE_DECLARE_VST3_COM_REF_METHODS tresult PLUGIN_API queryInterface (const TUID targetIID, void** obj) override { TEST_FOR_AND_RETURN_IF_VALID (targetIID, IPluginFactory3) TEST_FOR_AND_RETURN_IF_VALID (targetIID, IPluginFactory2) TEST_FOR_AND_RETURN_IF_VALID (targetIID, IPluginFactory) TEST_FOR_AND_RETURN_IF_VALID (targetIID, FUnknown) jassertfalse; // Something new? *obj = nullptr; return kNotImplemented; } //============================================================================== Steinberg::int32 PLUGIN_API countClasses() override { return (Steinberg::int32) classes.size(); } tresult PLUGIN_API getFactoryInfo (PFactoryInfo* info) override { if (info == nullptr) return kInvalidArgument; memcpy (info, &factoryInfo, sizeof (PFactoryInfo)); return kResultOk; } tresult PLUGIN_API getClassInfo (Steinberg::int32 index, PClassInfo* info) override { return getPClassInfo (index, info); } tresult PLUGIN_API getClassInfo2 (Steinberg::int32 index, PClassInfo2* info) override { return getPClassInfo (index, info); } tresult PLUGIN_API getClassInfoUnicode (Steinberg::int32 index, PClassInfoW* info) override { if (info != nullptr) { if (auto* entry = classes[(int) index]) { memcpy (info, &entry->infoW, sizeof (PClassInfoW)); return kResultOk; } } return kInvalidArgument; } tresult PLUGIN_API createInstance (FIDString cid, FIDString sourceIid, void** obj) override { *obj = nullptr; TUID tuid; memcpy (tuid, sourceIid, sizeof (TUID)); #if VST_VERSION >= 0x030608 auto sourceFuid = FUID::fromTUID (tuid); #else FUID sourceFuid; sourceFuid = tuid; #endif if (cid == nullptr || sourceIid == nullptr || ! sourceFuid.isValid()) { jassertfalse; // The host you're running in has severe implementation issues! return kInvalidArgument; } TUID iidToQuery; sourceFuid.toTUID (iidToQuery); for (auto* entry : classes) { if (doUIDsMatch (entry->infoW.cid, cid)) { if (auto* instance = entry->createFunction (host)) { const FReleaser releaser (instance); if (instance->queryInterface (iidToQuery, obj) == kResultOk) return kResultOk; } break; } } return kNoInterface; } tresult PLUGIN_API setHostContext (FUnknown* context) override { host.loadFrom (context); if (host != nullptr) { Vst::String128 name; host->getName (name); return kResultTrue; } return kNotImplemented; } private: //============================================================================== ScopedJuceInitialiser_GUI libraryInitialiser; Atomic refCount { 1 }; const PFactoryInfo factoryInfo; ComSmartPtr host; //============================================================================== struct ClassEntry { ClassEntry() noexcept {} ClassEntry (const PClassInfo2& info, CreateFunction fn) noexcept : info2 (info), createFunction (fn) {} PClassInfo2 info2; PClassInfoW infoW; CreateFunction createFunction = {}; bool isUnicode = false; private: JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (ClassEntry) }; OwnedArray classes; //============================================================================== template tresult PLUGIN_API getPClassInfo (Steinberg::int32 index, PClassInfoType* info) { if (info != nullptr) { zerostruct (*info); if (auto* entry = classes[(int) index]) { if (entry->isUnicode) return kResultFalse; memcpy (info, &entry->info2, sizeof (PClassInfoType)); return kResultOk; } } jassertfalse; return kInvalidArgument; } //============================================================================== JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (JucePluginFactory) }; } // juce namespace //============================================================================== #ifndef JucePlugin_Vst3ComponentFlags #if JucePlugin_IsSynth #define JucePlugin_Vst3ComponentFlags Vst::kSimpleModeSupported #else #define JucePlugin_Vst3ComponentFlags 0 #endif #endif #ifndef JucePlugin_Vst3Category #if JucePlugin_IsSynth #define JucePlugin_Vst3Category Vst::PlugType::kInstrumentSynth #else #define JucePlugin_Vst3Category Vst::PlugType::kFx #endif #endif using namespace juce; //============================================================================== // The VST3 plugin entry point. JUCE_EXPORTED_FUNCTION IPluginFactory* PLUGIN_API GetPluginFactory() { PluginHostType::jucePlugInClientCurrentWrapperType = AudioProcessor::wrapperType_VST3; #if JUCE_WINDOWS // Cunning trick to force this function to be exported. Life's too short to // faff around creating .def files for this kind of thing. #pragma comment(linker, "/EXPORT:" __FUNCTION__ "=" __FUNCDNAME__) #endif if (globalFactory == nullptr) { globalFactory = new JucePluginFactory(); static const PClassInfo2 componentClass (JuceVST3Component::iid, PClassInfo::kManyInstances, kVstAudioEffectClass, JucePlugin_Name, JucePlugin_Vst3ComponentFlags, JucePlugin_Vst3Category, JucePlugin_Manufacturer, JucePlugin_VersionString, kVstVersionString); globalFactory->registerClass (componentClass, createComponentInstance); static const PClassInfo2 controllerClass (JuceVST3EditController::iid, PClassInfo::kManyInstances, kVstComponentControllerClass, JucePlugin_Name, JucePlugin_Vst3ComponentFlags, JucePlugin_Vst3Category, JucePlugin_Manufacturer, JucePlugin_VersionString, kVstVersionString); globalFactory->registerClass (controllerClass, createControllerInstance); } else { globalFactory->addRef(); } return dynamic_cast (globalFactory); } //============================================================================== #if _MSC_VER || JUCE_MINGW extern "C" BOOL WINAPI DllMain (HINSTANCE instance, DWORD reason, LPVOID) { if (reason == DLL_PROCESS_ATTACH) Process::setCurrentModuleInstanceHandle (instance); return true; } #endif #endif //JucePlugin_Build_VST3