// Copyright Epic Games, Inc. All Rights Reserved. /*=========================================================================== Generated code exported from UnrealHeaderTool. DO NOT modify this manually! Edit the corresponding .h files instead! ===========================================================================*/ #include "UObject/GeneratedCppIncludes.h" #include "PhysicsField/PhysicsFieldComponent.h" PRAGMA_DISABLE_DEPRECATION_WARNINGS static_assert(!UE_WITH_CONSTINIT_UOBJECT, "This generated code can only be compiled with !UE_WITH_CONSTINIT_OBJECT"); void EmptyLinkFunctionForGeneratedCodePhysicsFieldComponent() {} // ********** Begin Cross Module References ******************************************************** CHAOS_API UEnum* Z_Construct_UEnum_Chaos_EFieldIntegerType(); CHAOS_API UEnum* Z_Construct_UEnum_Chaos_EFieldScalarType(); CHAOS_API UEnum* Z_Construct_UEnum_Chaos_EFieldVectorType(); COREUOBJECT_API UClass* Z_Construct_UClass_UObject_NoRegister(); COREUOBJECT_API UScriptStruct* Z_Construct_UScriptStruct_FVector(); ENGINE_API UClass* Z_Construct_UClass_UBlueprintFunctionLibrary(); ENGINE_API UClass* Z_Construct_UClass_UPhysicsFieldComponent(); ENGINE_API UClass* Z_Construct_UClass_UPhysicsFieldComponent_NoRegister(); ENGINE_API UClass* Z_Construct_UClass_UPhysicsFieldStatics(); ENGINE_API UClass* Z_Construct_UClass_UPhysicsFieldStatics_NoRegister(); ENGINE_API UClass* Z_Construct_UClass_USceneComponent(); UPackage* Z_Construct_UPackage__Script_Engine(); // ********** End Cross Module References ********************************************************** // ********** Begin Class UPhysicsFieldComponent *************************************************** FClassRegistrationInfo Z_Registration_Info_UClass_UPhysicsFieldComponent; UClass* UPhysicsFieldComponent::GetPrivateStaticClass() { using TClass = UPhysicsFieldComponent; if (!Z_Registration_Info_UClass_UPhysicsFieldComponent.InnerSingleton) { GetPrivateStaticClassBody( TClass::StaticPackage(), TEXT("PhysicsFieldComponent"), Z_Registration_Info_UClass_UPhysicsFieldComponent.InnerSingleton, StaticRegisterNativesUPhysicsFieldComponent, sizeof(TClass), alignof(TClass), TClass::StaticClassFlags, TClass::StaticClassCastFlags(), TClass::StaticConfigName(), (UClass::ClassConstructorType)InternalConstructor, (UClass::ClassVTableHelperCtorCallerType)InternalVTableHelperCtorCaller, UOBJECT_CPPCLASS_STATICFUNCTIONS_FORCLASS(TClass), &TClass::Super::StaticClass, &TClass::WithinClass::StaticClass ); } return Z_Registration_Info_UClass_UPhysicsFieldComponent.InnerSingleton; } UClass* Z_Construct_UClass_UPhysicsFieldComponent_NoRegister() { return UPhysicsFieldComponent::GetPrivateStaticClass(); } struct Z_Construct_UClass_UPhysicsFieldComponent_Statics { #if WITH_METADATA static constexpr UECodeGen_Private::FMetaDataPairParam Class_MetaDataParams[] = { { "BlueprintSpawnableComponent", "" }, { "Comment", "/**\n*\x09PhysicsFieldComponent\n*/" }, { "HideCategories", "Trigger PhysicsVolume" }, { "IncludePath", "PhysicsField/PhysicsFieldComponent.h" }, { "ModuleRelativePath", "Classes/PhysicsField/PhysicsFieldComponent.h" }, { "ToolTip", "PhysicsFieldComponent" }, }; #endif // WITH_METADATA // ********** Begin Class UPhysicsFieldComponent constinit property declarations ******************* // ********** End Class UPhysicsFieldComponent constinit property declarations ********************* static UObject* (*const DependentSingletons[])(); static constexpr FCppClassTypeInfoStatic StaticCppClassTypeInfo = { TCppClassTypeTraits::IsAbstract, }; static const UECodeGen_Private::FClassParams ClassParams; }; // struct Z_Construct_UClass_UPhysicsFieldComponent_Statics UObject* (*const Z_Construct_UClass_UPhysicsFieldComponent_Statics::DependentSingletons[])() = { (UObject* (*)())Z_Construct_UClass_USceneComponent, (UObject* (*)())Z_Construct_UPackage__Script_Engine, }; static_assert(UE_ARRAY_COUNT(Z_Construct_UClass_UPhysicsFieldComponent_Statics::DependentSingletons) < 16); const UECodeGen_Private::FClassParams Z_Construct_UClass_UPhysicsFieldComponent_Statics::ClassParams = { &UPhysicsFieldComponent::StaticClass, "Engine", &StaticCppClassTypeInfo, DependentSingletons, nullptr, nullptr, nullptr, UE_ARRAY_COUNT(DependentSingletons), 0, 0, 0, 0x00A800A4u, METADATA_PARAMS(UE_ARRAY_COUNT(Z_Construct_UClass_UPhysicsFieldComponent_Statics::Class_MetaDataParams), Z_Construct_UClass_UPhysicsFieldComponent_Statics::Class_MetaDataParams) }; void UPhysicsFieldComponent::StaticRegisterNativesUPhysicsFieldComponent() { } UClass* Z_Construct_UClass_UPhysicsFieldComponent() { if (!Z_Registration_Info_UClass_UPhysicsFieldComponent.OuterSingleton) { UECodeGen_Private::ConstructUClass(Z_Registration_Info_UClass_UPhysicsFieldComponent.OuterSingleton, Z_Construct_UClass_UPhysicsFieldComponent_Statics::ClassParams); } return Z_Registration_Info_UClass_UPhysicsFieldComponent.OuterSingleton; } DEFINE_VTABLE_PTR_HELPER_CTOR_NS(, UPhysicsFieldComponent); UPhysicsFieldComponent::~UPhysicsFieldComponent() {} // ********** End Class UPhysicsFieldComponent ***************************************************** // ********** Begin Class UPhysicsFieldStatics Function EvalPhysicsIntegerField ******************** struct Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics { struct PhysicsFieldStatics_eventEvalPhysicsIntegerField_Parms { const UObject* WorldContextObject; FVector WorldPosition; TEnumAsByte IntegerType; int32 ReturnValue; }; #if WITH_METADATA static constexpr UECodeGen_Private::FMetaDataPairParam Function_MetaDataParams[] = { { "Category", "Field" }, { "Comment", "/** Evaluate the world physics integer field from BP */" }, { "ModuleRelativePath", "Classes/PhysicsField/PhysicsFieldComponent.h" }, { "ToolTip", "Evaluate the world physics integer field from BP" }, { "WorldContext", "WorldContextObject" }, }; static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_WorldContextObject_MetaData[] = { { "NativeConst", "" }, }; static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_WorldPosition_MetaData[] = { { "NativeConst", "" }, }; static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_IntegerType_MetaData[] = { { "NativeConst", "" }, }; #endif // WITH_METADATA // ********** Begin Function EvalPhysicsIntegerField constinit property declarations *************** static const UECodeGen_Private::FObjectPropertyParams NewProp_WorldContextObject; static const UECodeGen_Private::FStructPropertyParams NewProp_WorldPosition; static const UECodeGen_Private::FBytePropertyParams NewProp_IntegerType; static const UECodeGen_Private::FIntPropertyParams NewProp_ReturnValue; static const UECodeGen_Private::FPropertyParamsBase* const PropPointers[]; // ********** End Function EvalPhysicsIntegerField constinit property declarations ***************** static const UECodeGen_Private::FFunctionParams FuncParams; }; // ********** Begin Function EvalPhysicsIntegerField Property Definitions ************************** const UECodeGen_Private::FObjectPropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::NewProp_WorldContextObject = { "WorldContextObject", nullptr, (EPropertyFlags)0x0010000000000082, UECodeGen_Private::EPropertyGenFlags::Object, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsIntegerField_Parms, WorldContextObject), Z_Construct_UClass_UObject_NoRegister, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_WorldContextObject_MetaData), NewProp_WorldContextObject_MetaData) }; const UECodeGen_Private::FStructPropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::NewProp_WorldPosition = { "WorldPosition", nullptr, (EPropertyFlags)0x0010000008000182, UECodeGen_Private::EPropertyGenFlags::Struct, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsIntegerField_Parms, WorldPosition), Z_Construct_UScriptStruct_FVector, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_WorldPosition_MetaData), NewProp_WorldPosition_MetaData) }; const UECodeGen_Private::FBytePropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::NewProp_IntegerType = { "IntegerType", nullptr, (EPropertyFlags)0x0010000000000082, UECodeGen_Private::EPropertyGenFlags::Byte, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsIntegerField_Parms, IntegerType), Z_Construct_UEnum_Chaos_EFieldIntegerType, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_IntegerType_MetaData), NewProp_IntegerType_MetaData) }; // 3530382102 const UECodeGen_Private::FIntPropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::NewProp_ReturnValue = { "ReturnValue", nullptr, (EPropertyFlags)0x0010000000000580, UECodeGen_Private::EPropertyGenFlags::Int, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsIntegerField_Parms, ReturnValue), METADATA_PARAMS(0, nullptr) }; const UECodeGen_Private::FPropertyParamsBase* const Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::PropPointers[] = { (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::NewProp_WorldContextObject, (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::NewProp_WorldPosition, (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::NewProp_IntegerType, (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::NewProp_ReturnValue, }; static_assert(UE_ARRAY_COUNT(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::PropPointers) < 2048); // ********** End Function EvalPhysicsIntegerField Property Definitions **************************** const UECodeGen_Private::FFunctionParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::FuncParams = { { (UObject*(*)())Z_Construct_UClass_UPhysicsFieldStatics, nullptr, "EvalPhysicsIntegerField", Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::PropPointers, UE_ARRAY_COUNT(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::PropPointers), sizeof(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::PhysicsFieldStatics_eventEvalPhysicsIntegerField_Parms), RF_Public|RF_Transient|RF_MarkAsNative, (EFunctionFlags)0x04C22403, 0, 0, METADATA_PARAMS(UE_ARRAY_COUNT(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::Function_MetaDataParams), Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::Function_MetaDataParams)}, }; static_assert(sizeof(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::PhysicsFieldStatics_eventEvalPhysicsIntegerField_Parms) < MAX_uint16); UFunction* Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField() { static UFunction* ReturnFunction = nullptr; if (!ReturnFunction) { UECodeGen_Private::ConstructUFunction(&ReturnFunction, Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField_Statics::FuncParams); } return ReturnFunction; } DEFINE_FUNCTION(UPhysicsFieldStatics::execEvalPhysicsIntegerField) { P_GET_OBJECT(UObject,Z_Param_WorldContextObject); P_GET_STRUCT_REF(FVector,Z_Param_Out_WorldPosition); P_GET_PROPERTY(FByteProperty,Z_Param_IntegerType); P_FINISH; P_NATIVE_BEGIN; *(int32*)Z_Param__Result=UPhysicsFieldStatics::EvalPhysicsIntegerField(Z_Param_WorldContextObject,Z_Param_Out_WorldPosition,EFieldIntegerType(Z_Param_IntegerType)); P_NATIVE_END; } // ********** End Class UPhysicsFieldStatics Function EvalPhysicsIntegerField ********************** // ********** Begin Class UPhysicsFieldStatics Function EvalPhysicsScalarField ********************* struct Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics { struct PhysicsFieldStatics_eventEvalPhysicsScalarField_Parms { const UObject* WorldContextObject; FVector WorldPosition; TEnumAsByte ScalarType; float ReturnValue; }; #if WITH_METADATA static constexpr UECodeGen_Private::FMetaDataPairParam Function_MetaDataParams[] = { { "Category", "Field" }, { "Comment", "/** Evaluate the world physics scalar field from BP */" }, { "ModuleRelativePath", "Classes/PhysicsField/PhysicsFieldComponent.h" }, { "ToolTip", "Evaluate the world physics scalar field from BP" }, { "WorldContext", "WorldContextObject" }, }; static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_WorldContextObject_MetaData[] = { { "NativeConst", "" }, }; static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_WorldPosition_MetaData[] = { { "NativeConst", "" }, }; static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_ScalarType_MetaData[] = { { "NativeConst", "" }, }; #endif // WITH_METADATA // ********** Begin Function EvalPhysicsScalarField constinit property declarations **************** static const UECodeGen_Private::FObjectPropertyParams NewProp_WorldContextObject; static const UECodeGen_Private::FStructPropertyParams NewProp_WorldPosition; static const UECodeGen_Private::FBytePropertyParams NewProp_ScalarType; static const UECodeGen_Private::FFloatPropertyParams NewProp_ReturnValue; static const UECodeGen_Private::FPropertyParamsBase* const PropPointers[]; // ********** End Function EvalPhysicsScalarField constinit property declarations ****************** static const UECodeGen_Private::FFunctionParams FuncParams; }; // ********** Begin Function EvalPhysicsScalarField Property Definitions *************************** const UECodeGen_Private::FObjectPropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::NewProp_WorldContextObject = { "WorldContextObject", nullptr, (EPropertyFlags)0x0010000000000082, UECodeGen_Private::EPropertyGenFlags::Object, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsScalarField_Parms, WorldContextObject), Z_Construct_UClass_UObject_NoRegister, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_WorldContextObject_MetaData), NewProp_WorldContextObject_MetaData) }; const UECodeGen_Private::FStructPropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::NewProp_WorldPosition = { "WorldPosition", nullptr, (EPropertyFlags)0x0010000008000182, UECodeGen_Private::EPropertyGenFlags::Struct, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsScalarField_Parms, WorldPosition), Z_Construct_UScriptStruct_FVector, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_WorldPosition_MetaData), NewProp_WorldPosition_MetaData) }; const UECodeGen_Private::FBytePropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::NewProp_ScalarType = { "ScalarType", nullptr, (EPropertyFlags)0x0010000000000082, UECodeGen_Private::EPropertyGenFlags::Byte, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsScalarField_Parms, ScalarType), Z_Construct_UEnum_Chaos_EFieldScalarType, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_ScalarType_MetaData), NewProp_ScalarType_MetaData) }; // 4046127449 const UECodeGen_Private::FFloatPropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::NewProp_ReturnValue = { "ReturnValue", nullptr, (EPropertyFlags)0x0010000000000580, UECodeGen_Private::EPropertyGenFlags::Float, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsScalarField_Parms, ReturnValue), METADATA_PARAMS(0, nullptr) }; const UECodeGen_Private::FPropertyParamsBase* const Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::PropPointers[] = { (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::NewProp_WorldContextObject, (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::NewProp_WorldPosition, (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::NewProp_ScalarType, (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::NewProp_ReturnValue, }; static_assert(UE_ARRAY_COUNT(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::PropPointers) < 2048); // ********** End Function EvalPhysicsScalarField Property Definitions ***************************** const UECodeGen_Private::FFunctionParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::FuncParams = { { (UObject*(*)())Z_Construct_UClass_UPhysicsFieldStatics, nullptr, "EvalPhysicsScalarField", Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::PropPointers, UE_ARRAY_COUNT(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::PropPointers), sizeof(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::PhysicsFieldStatics_eventEvalPhysicsScalarField_Parms), RF_Public|RF_Transient|RF_MarkAsNative, (EFunctionFlags)0x04C22403, 0, 0, METADATA_PARAMS(UE_ARRAY_COUNT(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::Function_MetaDataParams), Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::Function_MetaDataParams)}, }; static_assert(sizeof(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::PhysicsFieldStatics_eventEvalPhysicsScalarField_Parms) < MAX_uint16); UFunction* Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField() { static UFunction* ReturnFunction = nullptr; if (!ReturnFunction) { UECodeGen_Private::ConstructUFunction(&ReturnFunction, Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField_Statics::FuncParams); } return ReturnFunction; } DEFINE_FUNCTION(UPhysicsFieldStatics::execEvalPhysicsScalarField) { P_GET_OBJECT(UObject,Z_Param_WorldContextObject); P_GET_STRUCT_REF(FVector,Z_Param_Out_WorldPosition); P_GET_PROPERTY(FByteProperty,Z_Param_ScalarType); P_FINISH; P_NATIVE_BEGIN; *(float*)Z_Param__Result=UPhysicsFieldStatics::EvalPhysicsScalarField(Z_Param_WorldContextObject,Z_Param_Out_WorldPosition,EFieldScalarType(Z_Param_ScalarType)); P_NATIVE_END; } // ********** End Class UPhysicsFieldStatics Function EvalPhysicsScalarField *********************** // ********** Begin Class UPhysicsFieldStatics Function EvalPhysicsVectorField ********************* struct Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics { struct PhysicsFieldStatics_eventEvalPhysicsVectorField_Parms { const UObject* WorldContextObject; FVector WorldPosition; TEnumAsByte VectorType; FVector ReturnValue; }; #if WITH_METADATA static constexpr UECodeGen_Private::FMetaDataPairParam Function_MetaDataParams[] = { { "Category", "Field" }, { "Comment", "/** Evaluate the world physics vector field from BP */" }, { "ModuleRelativePath", "Classes/PhysicsField/PhysicsFieldComponent.h" }, { "ToolTip", "Evaluate the world physics vector field from BP" }, { "WorldContext", "WorldContextObject" }, }; static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_WorldContextObject_MetaData[] = { { "NativeConst", "" }, }; static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_WorldPosition_MetaData[] = { { "NativeConst", "" }, }; static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_VectorType_MetaData[] = { { "NativeConst", "" }, }; #endif // WITH_METADATA // ********** Begin Function EvalPhysicsVectorField constinit property declarations **************** static const UECodeGen_Private::FObjectPropertyParams NewProp_WorldContextObject; static const UECodeGen_Private::FStructPropertyParams NewProp_WorldPosition; static const UECodeGen_Private::FBytePropertyParams NewProp_VectorType; static const UECodeGen_Private::FStructPropertyParams NewProp_ReturnValue; static const UECodeGen_Private::FPropertyParamsBase* const PropPointers[]; // ********** End Function EvalPhysicsVectorField constinit property declarations ****************** static const UECodeGen_Private::FFunctionParams FuncParams; }; // ********** Begin Function EvalPhysicsVectorField Property Definitions *************************** const UECodeGen_Private::FObjectPropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::NewProp_WorldContextObject = { "WorldContextObject", nullptr, (EPropertyFlags)0x0010000000000082, UECodeGen_Private::EPropertyGenFlags::Object, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsVectorField_Parms, WorldContextObject), Z_Construct_UClass_UObject_NoRegister, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_WorldContextObject_MetaData), NewProp_WorldContextObject_MetaData) }; const UECodeGen_Private::FStructPropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::NewProp_WorldPosition = { "WorldPosition", nullptr, (EPropertyFlags)0x0010000008000182, UECodeGen_Private::EPropertyGenFlags::Struct, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsVectorField_Parms, WorldPosition), Z_Construct_UScriptStruct_FVector, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_WorldPosition_MetaData), NewProp_WorldPosition_MetaData) }; const UECodeGen_Private::FBytePropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::NewProp_VectorType = { "VectorType", nullptr, (EPropertyFlags)0x0010000000000082, UECodeGen_Private::EPropertyGenFlags::Byte, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsVectorField_Parms, VectorType), Z_Construct_UEnum_Chaos_EFieldVectorType, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_VectorType_MetaData), NewProp_VectorType_MetaData) }; // 86561518 const UECodeGen_Private::FStructPropertyParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::NewProp_ReturnValue = { "ReturnValue", nullptr, (EPropertyFlags)0x0010000000000580, UECodeGen_Private::EPropertyGenFlags::Struct, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(PhysicsFieldStatics_eventEvalPhysicsVectorField_Parms, ReturnValue), Z_Construct_UScriptStruct_FVector, METADATA_PARAMS(0, nullptr) }; const UECodeGen_Private::FPropertyParamsBase* const Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::PropPointers[] = { (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::NewProp_WorldContextObject, (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::NewProp_WorldPosition, (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::NewProp_VectorType, (const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::NewProp_ReturnValue, }; static_assert(UE_ARRAY_COUNT(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::PropPointers) < 2048); // ********** End Function EvalPhysicsVectorField Property Definitions ***************************** const UECodeGen_Private::FFunctionParams Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::FuncParams = { { (UObject*(*)())Z_Construct_UClass_UPhysicsFieldStatics, nullptr, "EvalPhysicsVectorField", Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::PropPointers, UE_ARRAY_COUNT(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::PropPointers), sizeof(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::PhysicsFieldStatics_eventEvalPhysicsVectorField_Parms), RF_Public|RF_Transient|RF_MarkAsNative, (EFunctionFlags)0x04C22403, 0, 0, METADATA_PARAMS(UE_ARRAY_COUNT(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::Function_MetaDataParams), Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::Function_MetaDataParams)}, }; static_assert(sizeof(Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::PhysicsFieldStatics_eventEvalPhysicsVectorField_Parms) < MAX_uint16); UFunction* Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField() { static UFunction* ReturnFunction = nullptr; if (!ReturnFunction) { UECodeGen_Private::ConstructUFunction(&ReturnFunction, Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField_Statics::FuncParams); } return ReturnFunction; } DEFINE_FUNCTION(UPhysicsFieldStatics::execEvalPhysicsVectorField) { P_GET_OBJECT(UObject,Z_Param_WorldContextObject); P_GET_STRUCT_REF(FVector,Z_Param_Out_WorldPosition); P_GET_PROPERTY(FByteProperty,Z_Param_VectorType); P_FINISH; P_NATIVE_BEGIN; *(FVector*)Z_Param__Result=UPhysicsFieldStatics::EvalPhysicsVectorField(Z_Param_WorldContextObject,Z_Param_Out_WorldPosition,EFieldVectorType(Z_Param_VectorType)); P_NATIVE_END; } // ********** End Class UPhysicsFieldStatics Function EvalPhysicsVectorField *********************** // ********** Begin Class UPhysicsFieldStatics ***************************************************** FClassRegistrationInfo Z_Registration_Info_UClass_UPhysicsFieldStatics; UClass* UPhysicsFieldStatics::GetPrivateStaticClass() { using TClass = UPhysicsFieldStatics; if (!Z_Registration_Info_UClass_UPhysicsFieldStatics.InnerSingleton) { GetPrivateStaticClassBody( TClass::StaticPackage(), TEXT("PhysicsFieldStatics"), Z_Registration_Info_UClass_UPhysicsFieldStatics.InnerSingleton, StaticRegisterNativesUPhysicsFieldStatics, sizeof(TClass), alignof(TClass), TClass::StaticClassFlags, TClass::StaticClassCastFlags(), TClass::StaticConfigName(), (UClass::ClassConstructorType)InternalConstructor, (UClass::ClassVTableHelperCtorCallerType)InternalVTableHelperCtorCaller, UOBJECT_CPPCLASS_STATICFUNCTIONS_FORCLASS(TClass), &TClass::Super::StaticClass, &TClass::WithinClass::StaticClass ); } return Z_Registration_Info_UClass_UPhysicsFieldStatics.InnerSingleton; } UClass* Z_Construct_UClass_UPhysicsFieldStatics_NoRegister() { return UPhysicsFieldStatics::GetPrivateStaticClass(); } struct Z_Construct_UClass_UPhysicsFieldStatics_Statics { #if WITH_METADATA static constexpr UECodeGen_Private::FMetaDataPairParam Class_MetaDataParams[] = { { "Comment", "/** Static function with world field evaluation */" }, { "IncludePath", "PhysicsField/PhysicsFieldComponent.h" }, { "ModuleRelativePath", "Classes/PhysicsField/PhysicsFieldComponent.h" }, { "ToolTip", "Static function with world field evaluation" }, }; #endif // WITH_METADATA // ********** Begin Class UPhysicsFieldStatics constinit property declarations ********************* // ********** End Class UPhysicsFieldStatics constinit property declarations *********************** static constexpr UE::CodeGen::FClassNativeFunction Funcs[] = { { .NameUTF8 = UTF8TEXT("EvalPhysicsIntegerField"), .Pointer = &UPhysicsFieldStatics::execEvalPhysicsIntegerField }, { .NameUTF8 = UTF8TEXT("EvalPhysicsScalarField"), .Pointer = &UPhysicsFieldStatics::execEvalPhysicsScalarField }, { .NameUTF8 = UTF8TEXT("EvalPhysicsVectorField"), .Pointer = &UPhysicsFieldStatics::execEvalPhysicsVectorField }, }; static UObject* (*const DependentSingletons[])(); static constexpr FClassFunctionLinkInfo FuncInfo[] = { { &Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsIntegerField, "EvalPhysicsIntegerField" }, // 3955207964 { &Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsScalarField, "EvalPhysicsScalarField" }, // 2798559384 { &Z_Construct_UFunction_UPhysicsFieldStatics_EvalPhysicsVectorField, "EvalPhysicsVectorField" }, // 1998287060 }; static_assert(UE_ARRAY_COUNT(FuncInfo) < 2048); static constexpr FCppClassTypeInfoStatic StaticCppClassTypeInfo = { TCppClassTypeTraits::IsAbstract, }; static const UECodeGen_Private::FClassParams ClassParams; }; // struct Z_Construct_UClass_UPhysicsFieldStatics_Statics UObject* (*const Z_Construct_UClass_UPhysicsFieldStatics_Statics::DependentSingletons[])() = { (UObject* (*)())Z_Construct_UClass_UBlueprintFunctionLibrary, (UObject* (*)())Z_Construct_UPackage__Script_Engine, }; static_assert(UE_ARRAY_COUNT(Z_Construct_UClass_UPhysicsFieldStatics_Statics::DependentSingletons) < 16); const UECodeGen_Private::FClassParams Z_Construct_UClass_UPhysicsFieldStatics_Statics::ClassParams = { &UPhysicsFieldStatics::StaticClass, nullptr, &StaticCppClassTypeInfo, DependentSingletons, FuncInfo, nullptr, nullptr, UE_ARRAY_COUNT(DependentSingletons), UE_ARRAY_COUNT(FuncInfo), 0, 0, 0x000800A0u, METADATA_PARAMS(UE_ARRAY_COUNT(Z_Construct_UClass_UPhysicsFieldStatics_Statics::Class_MetaDataParams), Z_Construct_UClass_UPhysicsFieldStatics_Statics::Class_MetaDataParams) }; void UPhysicsFieldStatics::StaticRegisterNativesUPhysicsFieldStatics() { UClass* Class = UPhysicsFieldStatics::StaticClass(); FNativeFunctionRegistrar::RegisterFunctions(Class, MakeConstArrayView(Z_Construct_UClass_UPhysicsFieldStatics_Statics::Funcs)); } UClass* Z_Construct_UClass_UPhysicsFieldStatics() { if (!Z_Registration_Info_UClass_UPhysicsFieldStatics.OuterSingleton) { UECodeGen_Private::ConstructUClass(Z_Registration_Info_UClass_UPhysicsFieldStatics.OuterSingleton, Z_Construct_UClass_UPhysicsFieldStatics_Statics::ClassParams); } return Z_Registration_Info_UClass_UPhysicsFieldStatics.OuterSingleton; } DEFINE_VTABLE_PTR_HELPER_CTOR_NS(, UPhysicsFieldStatics); UPhysicsFieldStatics::~UPhysicsFieldStatics() {} // ********** End Class UPhysicsFieldStatics ******************************************************* // ********** Begin Registration ******************************************************************* struct Z_CompiledInDeferFile_FID_Engine_Source_Runtime_Engine_Classes_PhysicsField_PhysicsFieldComponent_h__Script_Engine_Statics { static constexpr FClassRegisterCompiledInInfo ClassInfo[] = { { Z_Construct_UClass_UPhysicsFieldComponent, UPhysicsFieldComponent::StaticClass, TEXT("UPhysicsFieldComponent"), &Z_Registration_Info_UClass_UPhysicsFieldComponent, CONSTRUCT_RELOAD_VERSION_INFO(FClassReloadVersionInfo, sizeof(UPhysicsFieldComponent), 2087962442U) }, { Z_Construct_UClass_UPhysicsFieldStatics, UPhysicsFieldStatics::StaticClass, TEXT("UPhysicsFieldStatics"), &Z_Registration_Info_UClass_UPhysicsFieldStatics, CONSTRUCT_RELOAD_VERSION_INFO(FClassReloadVersionInfo, sizeof(UPhysicsFieldStatics), 3027167905U) }, }; }; // Z_CompiledInDeferFile_FID_Engine_Source_Runtime_Engine_Classes_PhysicsField_PhysicsFieldComponent_h__Script_Engine_Statics static FRegisterCompiledInInfo Z_CompiledInDeferFile_FID_Engine_Source_Runtime_Engine_Classes_PhysicsField_PhysicsFieldComponent_h__Script_Engine_2536843846{ TEXT("/Script/Engine"), Z_CompiledInDeferFile_FID_Engine_Source_Runtime_Engine_Classes_PhysicsField_PhysicsFieldComponent_h__Script_Engine_Statics::ClassInfo, UE_ARRAY_COUNT(Z_CompiledInDeferFile_FID_Engine_Source_Runtime_Engine_Classes_PhysicsField_PhysicsFieldComponent_h__Script_Engine_Statics::ClassInfo), nullptr, 0, nullptr, 0, }; // ********** End Registration ********************************************************************* PRAGMA_ENABLE_DEPRECATION_WARNINGS