// Copyright Epic Games, Inc. All Rights Reserved. #include "MetasoundSource.h" #include "Algo/Transform.h" #include "AssetRegistry/AssetRegistryModule.h" #include "AudioDeviceManager.h" #include "IAudioParameterInterfaceRegistry.h" #include "Internationalization/Text.h" #include "MetasoundAssetBase.h" #include "MetasoundAssetManager.h" #include "MetasoundAudioFormats.h" #include "MetasoundEngineArchetypes.h" #include "MetasoundEngineEnvironment.h" #include "MetasoundEnvironment.h" #include "MetasoundFrontendController.h" #include "MetasoundFrontendDataTypeRegistry.h" #include "MetasoundFrontendInjectReceiveNodes.h" #include "MetasoundFrontendQuery.h" #include "MetasoundFrontendQuerySteps.h" #include "MetasoundFrontendTransform.h" #include "MetasoundGenerator.h" #include "MetasoundLog.h" #include "MetasoundOperatorBuilderSettings.h" #include "MetasoundOperatorSettings.h" #include "MetasoundOutputFormatInterfaces.h" #include "MetasoundParameterTransmitter.h" #include "MetasoundPrimitives.h" #include "MetasoundReceiveNode.h" #include "MetasoundSettings.h" #include "MetasoundSourceInterface.h" #include "MetasoundTrace.h" #include "MetasoundTrigger.h" #include "MetasoundUObjectRegistry.h" #include "UObject/ObjectSaveContext.h" #if WITH_EDITORONLY_DATA #include "EdGraph/EdGraph.h" #endif // WITH_EDITORONLY_DATA #define LOCTEXT_NAMESPACE "MetaSound" namespace Metasound { namespace SourcePrivate { using FFormatOutputVertexKeyMap = TMap>; const FFormatOutputVertexKeyMap& GetFormatOutputVertexKeys() { auto CreateVertexKeyMap = []() { using namespace Metasound::Frontend; return FFormatOutputVertexKeyMap { { EMetasoundSourceAudioFormat::Mono, { OutputFormatMonoInterface::Outputs::MonoOut } }, { EMetasoundSourceAudioFormat::Stereo, { OutputFormatStereoInterface::Outputs::LeftOut, OutputFormatStereoInterface::Outputs::RightOut, } } }; }; static const FFormatOutputVertexKeyMap Map = CreateVertexKeyMap(); return Map; } Frontend::FMetaSoundAssetRegistrationOptions GetInitRegistrationOptions() { Frontend::FMetaSoundAssetRegistrationOptions RegOptions; RegOptions.bForceReregister = false; if (const UMetaSoundSettings* Settings = GetDefault()) { RegOptions.bAutoUpdateLogWarningOnDroppedConnection = Settings->bAutoUpdateLogWarningOnDroppedConnection; } return RegOptions; } } // namespace SourcePrivate } // namespace Metasound UMetaSoundSource::UMetaSoundSource(const FObjectInitializer& ObjectInitializer) : Super(ObjectInitializer) , FMetasoundAssetBase() { bRequiresStopFade = true; NumChannels = 1; // todo: ensure that we have a method so that the audio engine can be authoritative over the sample rate the UMetaSoundSource runs at. SampleRate = 48000.f; } #if WITH_EDITOR void UMetaSoundSource::PostEditUndo() { Super::PostEditUndo(); Metasound::PostEditUndo(*this); } void UMetaSoundSource::PostDuplicate(EDuplicateMode::Type InDuplicateMode) { Super::PostDuplicate(InDuplicateMode); // Guid is reset as asset may share implementation from // asset duplicated from but should not be registered as such. if (InDuplicateMode == EDuplicateMode::Normal) { AssetClassID = FGuid::NewGuid(); Metasound::Frontend::FRenameRootGraphClass::Generate(GetDocumentHandle(), AssetClassID); } } void UMetaSoundSource::PostEditChangeProperty(FPropertyChangedEvent& InEvent) { using namespace Metasound; using namespace Metasound::Engine; using namespace Metasound::Frontend; Super::PostEditChangeProperty(InEvent); if (InEvent.GetPropertyName() == GET_MEMBER_NAME_CHECKED(UMetaSoundSource, OutputFormat)) { ConvertFromPreset(); bool bDidModifyDocument = false; switch (OutputFormat) { case EMetasoundSourceAudioFormat::Mono: { bDidModifyDocument = FModifyRootGraphInterfaces( { OutputFormatStereoInterface::GetVersion() }, { OutputFormatMonoInterface::GetVersion() } ).Transform(GetDocumentHandle()); } break; case EMetasoundSourceAudioFormat::Stereo: { bDidModifyDocument = FModifyRootGraphInterfaces( { OutputFormatMonoInterface::GetVersion() }, { OutputFormatStereoInterface::GetVersion() } ).Transform(GetDocumentHandle()); } break; default: { static_assert(static_cast(EMetasoundSourceAudioFormat::COUNT) == 2, "Possible missing format switch case coverage."); } break; } if (bDidModifyDocument) { ConformObjectDataToInterfaces(); // Use the editor form of register to ensure other editors' // MetaSounds are auto-updated if they are referencing this graph. if (Graph) { Graph->RegisterGraphWithFrontend(); } MarkMetasoundDocumentDirty(); } } } #endif // WITH_EDITOR bool UMetaSoundSource::ConformObjectDataToInterfaces() { using namespace Metasound::Frontend; if (IsInterfaceDeclared(OutputFormatMonoInterface::GetVersion())) { if (OutputFormat != EMetasoundSourceAudioFormat::Mono || NumChannels != 1) { OutputFormat = EMetasoundSourceAudioFormat::Mono; NumChannels = 1; return true; } } if (IsInterfaceDeclared(OutputFormatStereoInterface::GetVersion())) { if (OutputFormat != EMetasoundSourceAudioFormat::Stereo || NumChannels != 2) { OutputFormat = EMetasoundSourceAudioFormat::Stereo; NumChannels = 2; return true; } } return false; } void UMetaSoundSource::BeginDestroy() { UnregisterGraphWithFrontend(); Super::BeginDestroy(); } void UMetaSoundSource::PreSave(FObjectPreSaveContext InSaveContext) { Super::PreSave(InSaveContext); Metasound::PreSaveAsset(*this, InSaveContext); } void UMetaSoundSource::Serialize(FArchive& InArchive) { Super::Serialize(InArchive); Metasound::SerializeToArchive(*this, InArchive); } void UMetaSoundSource::SetReferencedAssetClassKeys(TSet&& InKeys) { ReferencedAssetClassKeys = MoveTemp(InKeys); } TSet& UMetaSoundSource::GetReferencedAssetClassCache() { return ReferenceAssetClassCache; } const TSet& UMetaSoundSource::GetReferencedAssetClassCache() const { return ReferenceAssetClassCache; } #if WITH_EDITORONLY_DATA UEdGraph* UMetaSoundSource::GetGraph() { return Graph; } const UEdGraph* UMetaSoundSource::GetGraph() const { return Graph; } UEdGraph& UMetaSoundSource::GetGraphChecked() { check(Graph); return *Graph; } const UEdGraph& UMetaSoundSource::GetGraphChecked() const { check(Graph); return *Graph; } FText UMetaSoundSource::GetDisplayName() const { FString TypeName = UMetaSoundSource::StaticClass()->GetName(); return FMetasoundAssetBase::GetDisplayName(MoveTemp(TypeName)); } void UMetaSoundSource::PostLoad() { Super::PostLoad(); Duration = GetDuration(); bLooping = IsLooping(); } void UMetaSoundSource::SetRegistryAssetClassInfo(const Metasound::Frontend::FNodeClassInfo& InNodeInfo) { Metasound::SetMetaSoundRegistryAssetClassInfo(*this, InNodeInfo); } #endif // WITH_EDITORONLY_DATA void UMetaSoundSource::InitParameters(TArray& InParametersToInit, FName InFeatureName) { using namespace Metasound::SourcePrivate; METASOUND_LLM_SCOPE; // Have to call register vs a simple get as the source may have yet to start playing/has not been registered // via InitResources. If it has, this call is fast and returns the already cached RuntimeData. RegisterGraphWithFrontend(GetInitRegistrationOptions()); const FRuntimeData& RuntimeData = GetRuntimeData(); const TArray& TransmittableInputs = RuntimeData.TransmittableInputs; // Removes values that are not explicitly defined by the ParamType and returns // whether or not the parameter is a valid input and should be included. auto Sanitize = [&TransmittableInputs](FAudioParameter& Parameter) -> bool { auto FindInput = [&Parameter](const FMetasoundFrontendClassInput& Input) { if (Parameter.ParamName == Input.Name) { return Parameter.TypeName.IsNone() || Parameter.TypeName == Input.TypeName; } return false; }; const FMetasoundFrontendClassInput* Input = TransmittableInputs.FindByPredicate(FindInput); if (!Input) { return false; } switch (Parameter.ParamType) { case EAudioParameterType::Boolean: { Parameter = FAudioParameter(Parameter.ParamName, Parameter.BoolParam); } break; case EAudioParameterType::BooleanArray: { TArray TempArray = Parameter.ArrayBoolParam; Parameter = FAudioParameter(Parameter.ParamName, MoveTemp(TempArray)); } break; case EAudioParameterType::Float: { Parameter = FAudioParameter(Parameter.ParamName, Parameter.FloatParam); } break; case EAudioParameterType::FloatArray: { TArray TempArray = Parameter.ArrayFloatParam; Parameter = FAudioParameter(Parameter.ParamName, MoveTemp(TempArray)); } break; case EAudioParameterType::Integer: { Parameter = FAudioParameter(Parameter.ParamName, Parameter.IntParam); } break; case EAudioParameterType::IntegerArray: { TArray TempArray = Parameter.ArrayIntParam; Parameter = FAudioParameter(Parameter.ParamName, MoveTemp(TempArray)); } break; case EAudioParameterType::Object: { Parameter = FAudioParameter(Parameter.ParamName, Parameter.ObjectParam); } break; case EAudioParameterType::ObjectArray: { TArray TempArray = Parameter.ArrayObjectParam; Parameter = FAudioParameter(Parameter.ParamName, MoveTemp(TempArray)); } break; case EAudioParameterType::String: { Parameter = FAudioParameter(Parameter.ParamName, Parameter.StringParam); } break; case EAudioParameterType::StringArray: { TArray TempArray = Parameter.ArrayStringParam; Parameter = FAudioParameter(Parameter.ParamName, MoveTemp(TempArray)); } break; case EAudioParameterType::None: default: break; } return true; }; auto ConstructProxies = [this, FeatureName = InFeatureName](FAudioParameter& OutParamToInit) { using namespace Metasound; using namespace Metasound::Frontend; const Audio::FProxyDataInitParams ProxyInitParams { FeatureName }; switch (OutParamToInit.ParamType) { case EAudioParameterType::Object: { FDataTypeRegistryInfo DataTypeInfo; if (IDataTypeRegistry::Get().GetDataTypeInfo(OutParamToInit.ObjectParam, DataTypeInfo)) { Audio::IProxyDataPtr ProxyPtr = IDataTypeRegistry::Get().CreateProxyFromUObject(DataTypeInfo.DataTypeName, OutParamToInit.ObjectParam); OutParamToInit.ObjectProxies.Emplace(MoveTemp(ProxyPtr)); // Null out param as it is no longer needed (nor desired to be accessed once passed to the Audio Thread) OutParamToInit.ObjectParam = nullptr; } } break; case EAudioParameterType::ObjectArray: { for (TObjectPtr& Object : OutParamToInit.ArrayObjectParam) { FDataTypeRegistryInfo DataTypeInfo; if (IDataTypeRegistry::Get().GetDataTypeInfo(Object, DataTypeInfo)) { Audio::IProxyDataPtr ProxyPtr = IDataTypeRegistry::Get().CreateProxyFromUObject(DataTypeInfo.DataTypeName, Object); OutParamToInit.ObjectProxies.Emplace(MoveTemp(ProxyPtr)); } } // Reset param array as it is no longer needed (nor desired to be accessed once passed to the Audio Thread). // All object manipulation hereafter should be done via proxies OutParamToInit.ArrayObjectParam.Reset(); } break; default: break; } }; TMap InputNameTypeMap; Algo::Transform(GetDocumentChecked().RootGraph.Interface.Inputs, InputNameTypeMap, [](const FMetasoundFrontendClassInput& Input) { return TPair(Input.Name, Input.TypeName); }); for (int32 i = InParametersToInit.Num() - 1; i >= 0; --i) { FAudioParameter& Parameter = InParametersToInit[i]; #if !NO_LOGGING // For logging in case of failure const FString AssetName = GetName(); #endif // !NO_LOGGING if (Sanitize(Parameter)) { if (IsParameterValid(Parameter, InputNameTypeMap)) { ConstructProxies(Parameter); } else { #if !NO_LOGGING UE_LOG(LogMetaSound, Error, TEXT("Failed to set invalid parameter '%s' in asset '%s': Either does not exist or is unsupported type"), *Parameter.ParamName.ToString(), *AssetName); #endif // !NO_LOGGING constexpr bool bAllowShrinking = false; InParametersToInit.RemoveAtSwap(i, 1, bAllowShrinking); } } else { constexpr bool bAllowShrinking = false; InParametersToInit.RemoveAtSwap(i, 1, bAllowShrinking); #if !NO_LOGGING UE_LOG(LogMetaSound, Error, TEXT("Failed to set parameter '%s' in asset '%s': No name specified, no transmittable input found, or type mismatch."), *Parameter.ParamName.ToString(), *AssetName); #endif // !NO_LOGGING } } } void UMetaSoundSource::InitResources() { using namespace Metasound::Frontend; using namespace Metasound::SourcePrivate; METASOUND_LLM_SCOPE; METASOUND_TRACE_CPUPROFILER_EVENT_SCOPE(UMetaSoundSource::InitResources); RegisterGraphWithFrontend(GetInitRegistrationOptions()); } Metasound::Frontend::FNodeClassInfo UMetaSoundSource::GetAssetClassInfo() const { return { GetDocumentChecked().RootGraph, *GetPathName() }; } bool UMetaSoundSource::IsPlayable() const { // todo: cache off whether this metasound is buildable to an operator. return true; } bool UMetaSoundSource::SupportsSubtitles() const { return Super::SupportsSubtitles(); } float UMetaSoundSource::GetDuration() const { // This is an unfortunate function required by logic in determining what sounds can be potentially // culled (in this case prematurally). MetaSound OneShots are stopped either by internally logic that // triggers OnFinished, or if an external system requests the sound to be stopped. Setting the duration // as a "close to" maximum length without being considered looping avoids the MetaSound from being // culled inappropriately. return IsOneShot() ? INDEFINITELY_LOOPING_DURATION - 1.0f : INDEFINITELY_LOOPING_DURATION; } bool UMetaSoundSource::ImplementsParameterInterface(Audio::FParameterInterfacePtr InInterface) const { const FMetasoundFrontendVersion Version { InInterface->GetName(), { InInterface->GetVersion().Major, InInterface->GetVersion().Minor } }; return GetDocumentChecked().Interfaces.Contains(Version); } ISoundGeneratorPtr UMetaSoundSource::CreateSoundGenerator(const FSoundGeneratorInitParams& InParams) { using namespace Metasound; using namespace Metasound::Frontend; using namespace Metasound::Engine; METASOUND_LLM_SCOPE; METASOUND_TRACE_CPUPROFILER_EVENT_SCOPE(UMetaSoundSource::CreateSoundGenerator); SampleRate = InParams.SampleRate; FOperatorSettings InSettings = GetOperatorSettings(static_cast(SampleRate)); FMetasoundEnvironment Environment = CreateEnvironment(InParams); TSharedPtr MetasoundGraph = GetRuntimeData().Graph; if (!MetasoundGraph.IsValid()) { return ISoundGeneratorPtr(nullptr); } FOperatorBuilderSettings BuilderSettings = FOperatorBuilderSettings::GetDefaultSettings(); // Graph analyzer currently only enabled for preview sounds (but can theoretically be supported for all sounds) BuilderSettings.bPopulateInternalDataReferences = InParams.bIsPreviewSound; FMetasoundGeneratorInitParams InitParams = { InSettings, MoveTemp(BuilderSettings), MetasoundGraph, Environment, GetName(), GetAudioOutputVertexKeys() }; return ISoundGeneratorPtr(new FMetasoundGenerator(MoveTemp(InitParams))); } bool UMetaSoundSource::GetAllDefaultParameters(TArray& OutParameters) const { using namespace Metasound; using namespace Metasound::Frontend; using namespace Metasound::Engine; // TODO: Make this use the cached runtime data's input copy. This call can become expensive if called repeatedly. TArray TransmittableInputs = GetTransmittableClassInputs(); for(const FMetasoundFrontendClassInput& Input : TransmittableInputs) { FAudioParameter Params; Params.ParamName = Input.Name; Params.TypeName = Input.TypeName; switch (Input.DefaultLiteral.GetType()) { case EMetasoundFrontendLiteralType::Boolean: { Params.ParamType = EAudioParameterType::Boolean; ensure(Input.DefaultLiteral.TryGet(Params.BoolParam)); } break; case EMetasoundFrontendLiteralType::BooleanArray: { Params.ParamType = EAudioParameterType::BooleanArray; ensure(Input.DefaultLiteral.TryGet(Params.ArrayBoolParam)); } break; case EMetasoundFrontendLiteralType::Integer: { Params.ParamType = EAudioParameterType::Integer; ensure(Input.DefaultLiteral.TryGet(Params.IntParam)); } break; case EMetasoundFrontendLiteralType::IntegerArray: { Params.ParamType = EAudioParameterType::IntegerArray; ensure(Input.DefaultLiteral.TryGet(Params.ArrayIntParam)); } break; case EMetasoundFrontendLiteralType::Float: { Params.ParamType = EAudioParameterType::Float; ensure(Input.DefaultLiteral.TryGet(Params.FloatParam)); } break; case EMetasoundFrontendLiteralType::FloatArray: { Params.ParamType = EAudioParameterType::FloatArray; ensure(Input.DefaultLiteral.TryGet(Params.ArrayFloatParam)); } break; case EMetasoundFrontendLiteralType::String: { Params.ParamType = EAudioParameterType::String; ensure(Input.DefaultLiteral.TryGet(Params.StringParam)); } break; case EMetasoundFrontendLiteralType::StringArray: { Params.ParamType = EAudioParameterType::StringArray; ensure(Input.DefaultLiteral.TryGet(Params.ArrayStringParam)); } break; case EMetasoundFrontendLiteralType::UObject: { Params.ParamType = EAudioParameterType::Object; UObject* Object = nullptr; ensure(Input.DefaultLiteral.TryGet(Object)); Params.ObjectParam = Object; } break; case EMetasoundFrontendLiteralType::UObjectArray: { Params.ParamType = EAudioParameterType::ObjectArray; ensure(Input.DefaultLiteral.TryGet(Params.ArrayObjectParam)); } break; default: break; } if (Params.ParamType != EAudioParameterType::None) { OutParameters.Add(Params); } } return true; } bool UMetaSoundSource::IsParameterValid(const FAudioParameter& InParameter) const { TMap InputNameTypeMap; Algo::Transform(GetDocumentChecked().RootGraph.Interface.Inputs, InputNameTypeMap, [] (const FMetasoundFrontendClassInput& Input) { return TPair(Input.Name, Input.TypeName); }); return IsParameterValid(InParameter, InputNameTypeMap); } bool UMetaSoundSource::IsParameterValid(const FAudioParameter& InParameter, const TMap& InInputNameTypeMap) const { using namespace Metasound; using namespace Metasound::Frontend; if (InParameter.ParamName.IsNone()) { return false; } const FName* TypeName = InInputNameTypeMap.Find(InParameter.ParamName); if (!TypeName) { return false; } bool bIsValid = false; switch (InParameter.ParamType) { case EAudioParameterType::Boolean: { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(*TypeName, DataTypeInfo); bIsValid &= DataTypeInfo.bIsBoolParsable; } break; case EAudioParameterType::BooleanArray: { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(*TypeName, DataTypeInfo); bIsValid &= DataTypeInfo.bIsBoolArrayParsable; } break; case EAudioParameterType::Float: { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(*TypeName, DataTypeInfo); bIsValid &= DataTypeInfo.bIsFloatParsable; } break; case EAudioParameterType::FloatArray: { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(*TypeName, DataTypeInfo); bIsValid &= DataTypeInfo.bIsFloatArrayParsable; } break; case EAudioParameterType::Integer: { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(*TypeName, DataTypeInfo); bIsValid &= DataTypeInfo.bIsIntParsable; } break; case EAudioParameterType::IntegerArray: { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(*TypeName, DataTypeInfo); bIsValid &= DataTypeInfo.bIsIntArrayParsable; } break; case EAudioParameterType::Object: { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(InParameter.ObjectParam, DataTypeInfo); bIsValid &= DataTypeInfo.bIsProxyParsable; bIsValid &= DataTypeInfo.DataTypeName == *TypeName; } break; case EAudioParameterType::ObjectArray: { bIsValid = true; const FName ElementTypeName = CreateElementTypeNameFromArrayTypeName(*TypeName); for (UObject* Object : InParameter.ArrayObjectParam) { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(Object, DataTypeInfo); bIsValid &= DataTypeInfo.bIsProxyParsable; bIsValid &= DataTypeInfo.DataTypeName == ElementTypeName; if (!bIsValid) { break; } } } break; case EAudioParameterType::String: { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(*TypeName, DataTypeInfo); bIsValid &= DataTypeInfo.bIsStringParsable; } break; case EAudioParameterType::StringArray: { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(*TypeName, DataTypeInfo); bIsValid &= DataTypeInfo.bIsStringArrayParsable; } break; case EAudioParameterType::NoneArray: { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(*TypeName, DataTypeInfo); bIsValid &= DataTypeInfo.bIsDefaultArrayParsable; } case EAudioParameterType::None: default: { FDataTypeRegistryInfo DataTypeInfo; bIsValid = IDataTypeRegistry::Get().GetDataTypeInfo(*TypeName, DataTypeInfo); bIsValid &= DataTypeInfo.bIsDefaultParsable; } break; } return bIsValid; } bool UMetaSoundSource::IsLooping() const { return !IsOneShot(); } bool UMetaSoundSource::IsOneShot() const { using namespace Metasound::Frontend; // If the metasound source implements the one-shot interface, then it's a one-shot metasound return IsInterfaceDeclared(SourceOneShotInterface::GetVersion()); } TUniquePtr UMetaSoundSource::CreateParameterTransmitter(Audio::FParameterTransmitterInitParams&& InParams) const { METASOUND_LLM_SCOPE; Metasound::FMetaSoundParameterTransmitter::FInitParams InitParams(GetOperatorSettings(InParams.SampleRate), InParams.InstanceID); for (const FSendInfoAndVertexName& InfoAndName : FMetasoundAssetBase::GetSendInfos(InParams.InstanceID)) { InitParams.Infos.Add(InfoAndName.SendInfo); } TUniquePtr NewTransmitter = MakeUnique(InitParams); NewTransmitter->SetParameters(MoveTemp(InParams.DefaultParams)); return NewTransmitter; } Metasound::FOperatorSettings UMetaSoundSource::GetOperatorSettings(Metasound::FSampleRate InSampleRate) const { const float BlockRate = Metasound::Frontend::GetDefaultBlockRate(); return Metasound::FOperatorSettings(InSampleRate, BlockRate); } Metasound::FMetasoundEnvironment UMetaSoundSource::CreateEnvironment() const { using namespace Metasound; using namespace Metasound::Frontend; FMetasoundEnvironment Environment; Environment.SetValue(SourceInterface::Environment::SoundUniqueID, GetUniqueID()); return Environment; } Metasound::FMetasoundEnvironment UMetaSoundSource::CreateEnvironment(const FSoundGeneratorInitParams& InParams) const { using namespace Metasound; using namespace Metasound::Engine; using namespace Metasound::Frontend; FMetasoundEnvironment Environment = CreateEnvironment(); Environment.SetValue(SourceInterface::Environment::IsPreview, InParams.bIsPreviewSound); Environment.SetValue(SourceInterface::Environment::TransmitterID, InParams.InstanceID); Environment.SetValue(SourceInterface::Environment::DeviceID, InParams.AudioDeviceID); Environment.SetValue(SourceInterface::Environment::AudioMixerNumOutputFrames, InParams.AudioMixerNumOutputFrames); #if WITH_METASOUND_DEBUG_ENVIRONMENT Environment.SetValue(SourceInterface::Environment::GraphName, GetFullName()); #endif // WITH_METASOUND_DEBUG_ENVIRONMENT return Environment; } Metasound::FMetasoundEnvironment UMetaSoundSource::CreateEnvironment(const Audio::FParameterTransmitterInitParams& InParams) const { using namespace Metasound; using namespace Metasound::Engine; using namespace Metasound::Frontend; FMetasoundEnvironment Environment = CreateEnvironment(); Environment.SetValue(SourceInterface::Environment::TransmitterID, InParams.InstanceID); return Environment; } const TArray& UMetaSoundSource::GetAudioOutputVertexKeys() const { using namespace Metasound::SourcePrivate; if (const TArray* ArrayKeys = GetFormatOutputVertexKeys().Find(OutputFormat)) { return *ArrayKeys; } else { // Unhandled audio format. Need to update audio output format vertex key map. checkNoEntry(); static const TArray Empty; return Empty; } } #undef LOCTEXT_NAMESPACE // MetaSound