DedicatedServerCourse/Intermediate/Build/Win64/FPSTemplateServer/Inc/RigVM/UHT/RigVMMemoryDeprecated.gen.cpp

// 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 "RigVMCore/RigVMMemoryDeprecated.h"

PRAGMA_DISABLE_DEPRECATION_WARNINGS
static_assert(!UE_WITH_CONSTINIT_UOBJECT, "This generated code can only be compiled with !UE_WITH_CONSTINIT_OBJECT");
void EmptyLinkFunctionForGeneratedCodeRigVMMemoryDeprecated() {}

// ********** Begin Cross Module References ********************************************************
COREUOBJECT_API UClass* Z_Construct_UClass_UObject_NoRegister();
COREUOBJECT_API UClass* Z_Construct_UClass_UScriptStruct_NoRegister();
RIGVM_API UEnum* Z_Construct_UEnum_RigVM_ERigVMMemoryType();
RIGVM_API UEnum* Z_Construct_UEnum_RigVM_ERigVMRegisterType();
RIGVM_API UScriptStruct* Z_Construct_UScriptStruct_FRigVMMemoryContainer();
RIGVM_API UScriptStruct* Z_Construct_UScriptStruct_FRigVMRegister();
RIGVM_API UScriptStruct* Z_Construct_UScriptStruct_FRigVMRegisterOffset();
UPackage* Z_Construct_UPackage__Script_RigVM();
// ********** End Cross Module References **********************************************************

// ********** Begin Enum ERigVMRegisterType ********************************************************
static FEnumRegistrationInfo Z_Registration_Info_UEnum_ERigVMRegisterType;
static UEnum* ERigVMRegisterType_StaticEnum()
{
	if (!Z_Registration_Info_UEnum_ERigVMRegisterType.OuterSingleton)
	{
		Z_Registration_Info_UEnum_ERigVMRegisterType.OuterSingleton = GetStaticEnum(Z_Construct_UEnum_RigVM_ERigVMRegisterType, (UObject*)Z_Construct_UPackage__Script_RigVM(), TEXT("ERigVMRegisterType"));
	}
	return Z_Registration_Info_UEnum_ERigVMRegisterType.OuterSingleton;
}
template<> RIGVM_NON_ATTRIBUTED_API UEnum* StaticEnum<ERigVMRegisterType>()
{
	return ERigVMRegisterType_StaticEnum();
}
struct Z_Construct_UEnum_RigVM_ERigVMRegisterType_Statics
{
#if WITH_METADATA
	static constexpr UECodeGen_Private::FMetaDataPairParam Enum_MetaDataParams[] = {
		{ "Comment", "/**\n * The type of register within the memory.\n */" },
		{ "Invalid.Comment", "// Any USTRUCT (structs which require a constructor / destructor to be valid. structs which have indirection (arrays or strings in them, for example).\n" },
		{ "Invalid.Name", "ERigVMRegisterType::Invalid" },
		{ "Invalid.ToolTip", "Any USTRUCT (structs which require a constructor / destructor to be valid. structs which have indirection (arrays or strings in them, for example)." },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "Name.Comment", "// FString\n" },
		{ "Name.Name", "ERigVMRegisterType::Name" },
		{ "Name.ToolTip", "FString" },
		{ "Plain.Name", "ERigVMRegisterType::Plain" },
		{ "String.Comment", "// bool, int32, float, FVector etc. (also structs that do NOT require a constructor / destructor to be valid)\n" },
		{ "String.Name", "ERigVMRegisterType::String" },
		{ "String.ToolTip", "bool, int32, float, FVector etc. (also structs that do NOT require a constructor / destructor to be valid)" },
		{ "Struct.Comment", "// FName\n" },
		{ "Struct.Name", "ERigVMRegisterType::Struct" },
		{ "Struct.ToolTip", "FName" },
		{ "ToolTip", "The type of register within the memory." },
	};
#endif // WITH_METADATA
	static constexpr UECodeGen_Private::FEnumeratorParam Enumerators[] = {
		{ "ERigVMRegisterType::Plain", (int64)ERigVMRegisterType::Plain },
		{ "ERigVMRegisterType::String", (int64)ERigVMRegisterType::String },
		{ "ERigVMRegisterType::Name", (int64)ERigVMRegisterType::Name },
		{ "ERigVMRegisterType::Struct", (int64)ERigVMRegisterType::Struct },
		{ "ERigVMRegisterType::Invalid", (int64)ERigVMRegisterType::Invalid },
	};
	static const UECodeGen_Private::FEnumParams EnumParams;
}; // struct Z_Construct_UEnum_RigVM_ERigVMRegisterType_Statics 
const UECodeGen_Private::FEnumParams Z_Construct_UEnum_RigVM_ERigVMRegisterType_Statics::EnumParams = {
	(UObject*(*)())Z_Construct_UPackage__Script_RigVM,
	nullptr,
	"ERigVMRegisterType",
	"ERigVMRegisterType",
	Z_Construct_UEnum_RigVM_ERigVMRegisterType_Statics::Enumerators,
	RF_Public|RF_Transient|RF_MarkAsNative,
	UE_ARRAY_COUNT(Z_Construct_UEnum_RigVM_ERigVMRegisterType_Statics::Enumerators),
	EEnumFlags::None,
	(uint8)UEnum::ECppForm::EnumClass,
	METADATA_PARAMS(UE_ARRAY_COUNT(Z_Construct_UEnum_RigVM_ERigVMRegisterType_Statics::Enum_MetaDataParams), Z_Construct_UEnum_RigVM_ERigVMRegisterType_Statics::Enum_MetaDataParams)
};
UEnum* Z_Construct_UEnum_RigVM_ERigVMRegisterType()
{
	if (!Z_Registration_Info_UEnum_ERigVMRegisterType.InnerSingleton)
	{
		UECodeGen_Private::ConstructUEnum(Z_Registration_Info_UEnum_ERigVMRegisterType.InnerSingleton, Z_Construct_UEnum_RigVM_ERigVMRegisterType_Statics::EnumParams);
	}
	return Z_Registration_Info_UEnum_ERigVMRegisterType.InnerSingleton;
}
// ********** End Enum ERigVMRegisterType **********************************************************

// ********** Begin ScriptStruct FRigVMRegister ****************************************************
struct Z_Construct_UScriptStruct_FRigVMRegister_Statics
{
	static inline consteval int32 GetStructSize() { return sizeof(FRigVMRegister); }
	static inline consteval int16 GetStructAlignment() { return alignof(FRigVMRegister); }
#if WITH_METADATA
	static constexpr UECodeGen_Private::FMetaDataPairParam Struct_MetaDataParams[] = {
		{ "Comment", "// The register represents an address with the VM's memory. Within a register\n// we can store arbitrary data, so it provides a series of properties to\n// describe the memory location.\n// Registers also support the notion of slices. A slice is a complete copy of\n// the memory - so for example if your register stores 4 Vectors, then a slice \n// would contain 48 bytes (4 * 3 * 4). The register can however store multiple\n// slices / copies of that if needed. Slices can be used to provide \n// per-invocation memory to functions within the same register.\n// An integrator for example that needs to store a simulated position\n// might want access to a separate memory per loop iteration.\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The register represents an address with the VM's memory. Within a register\nwe can store arbitrary data, so it provides a series of properties to\ndescribe the memory location.\nRegisters also support the notion of slices. A slice is a complete copy of\nthe memory - so for example if your register stores 4 Vectors, then a slice\nwould contain 48 bytes (4 * 3 * 4). The register can however store multiple\nslices / copies of that if needed. Slices can be used to provide\nper-invocation memory to functions within the same register.\nAn integrator for example that needs to store a simulated position\nmight want access to a separate memory per loop iteration." },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_Type_MetaData[] = {
		{ "Comment", "// The type of register (plain, name, string, etc.)\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The type of register (plain, name, string, etc.)" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_ByteIndex_MetaData[] = {
		{ "Comment", "// The index of the first work byte\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The index of the first work byte" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_ElementSize_MetaData[] = {
		{ "Comment", "// The size of each store element (for example 4 for a float)\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The size of each store element (for example 4 for a float)" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_ElementCount_MetaData[] = {
		{ "Comment", "// The number of elements in this register (for example the number of elements in an array)\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The number of elements in this register (for example the number of elements in an array)" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_SliceCount_MetaData[] = {
		{ "Comment", "// The number of slices (complete copies) (for example the number of iterations on a fixed loop)\n// Potentially redundant state - can be removed.\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The number of slices (complete copies) (for example the number of iterations on a fixed loop)\nPotentially redundant state - can be removed." },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_AlignmentBytes_MetaData[] = {
		{ "Comment", "// The number of leading bytes for alignment.\n// Bytes that had to be introduced before the register\n// to align the registers memory as per platform specification.\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The number of leading bytes for alignment.\nBytes that had to be introduced before the register\nto align the registers memory as per platform specification." },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_TrailingBytes_MetaData[] = {
		{ "Comment", "// The number of trailing bytes.\n// These originate after shrinking a register.\n// Potentially unused state - can be removed.\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The number of trailing bytes.\nThese originate after shrinking a register.\nPotentially unused state - can be removed." },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_Name_MetaData[] = {
		{ "Comment", "// The name of the register (can be None)\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The name of the register (can be None)" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_ScriptStructIndex_MetaData[] = {
		{ "Comment", "// For struct registers this is the index of the\n// struct used - otherwise INDEX_NONE\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "For struct registers this is the index of the\nstruct used - otherwise INDEX_NONE" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_bIsArray_MetaData[] = {
		{ "Comment", "// If true defines this register as an array\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "If true defines this register as an array" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_bIsDynamic_MetaData[] = {
		{ "Comment", "// If true defines this register to use dynamic storage.\n// Is this an array or singleton value with multiple slices\n// which potentially requires changing count at runtime. \n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "If true defines this register to use dynamic storage.\nIs this an array or singleton value with multiple slices\nwhich potentially requires changing count at runtime." },
	};
#if WITH_EDITORONLY_DATA
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_BaseCPPType_MetaData[] = {
		{ "Comment", "// Defines the CPP type used for the register\n// This is only used for debugging purposes in editor.\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "Defines the CPP type used for the register\nThis is only used for debugging purposes in editor." },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_BaseCPPTypeObject_MetaData[] = {
		{ "Comment", "// The resolved UScriptStruct / UObject (in the future)\n// used for debugging.\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The resolved UScriptStruct / UObject (in the future)\nused for debugging." },
	};
#endif // WITH_EDITORONLY_DATA
#endif // WITH_METADATA

// ********** Begin ScriptStruct FRigVMRegister constinit property declarations ********************
	static const UECodeGen_Private::FBytePropertyParams NewProp_Type_Underlying;
	static const UECodeGen_Private::FEnumPropertyParams NewProp_Type;
	static const UECodeGen_Private::FUInt32PropertyParams NewProp_ByteIndex;
	static const UECodeGen_Private::FUInt16PropertyParams NewProp_ElementSize;
	static const UECodeGen_Private::FUInt16PropertyParams NewProp_ElementCount;
	static const UECodeGen_Private::FUInt16PropertyParams NewProp_SliceCount;
	static const UECodeGen_Private::FBytePropertyParams NewProp_AlignmentBytes;
	static const UECodeGen_Private::FUInt16PropertyParams NewProp_TrailingBytes;
	static const UECodeGen_Private::FNamePropertyParams NewProp_Name;
	static const UECodeGen_Private::FIntPropertyParams NewProp_ScriptStructIndex;
	static void NewProp_bIsArray_SetBit(void* Obj);
	static const UECodeGen_Private::FBoolPropertyParams NewProp_bIsArray;
	static void NewProp_bIsDynamic_SetBit(void* Obj);
	static const UECodeGen_Private::FBoolPropertyParams NewProp_bIsDynamic;
#if WITH_EDITORONLY_DATA
	static const UECodeGen_Private::FNamePropertyParams NewProp_BaseCPPType;
	static const UECodeGen_Private::FObjectPropertyParams NewProp_BaseCPPTypeObject;
#endif // WITH_EDITORONLY_DATA
	static const UECodeGen_Private::FPropertyParamsBase* const PropPointers[];
// ********** End ScriptStruct FRigVMRegister constinit property declarations **********************
	static void* NewStructOps()
	{
		return (UScriptStruct::ICppStructOps*)new UScriptStruct::TCppStructOps<FRigVMRegister>();
	}
	static const UECodeGen_Private::FStructParams StructParams;
}; // struct Z_Construct_UScriptStruct_FRigVMRegister_Statics
static FStructRegistrationInfo Z_Registration_Info_UScriptStruct_FRigVMRegister;
class UScriptStruct* FRigVMRegister::StaticStruct()
{
	if (!Z_Registration_Info_UScriptStruct_FRigVMRegister.OuterSingleton)
	{
		Z_Registration_Info_UScriptStruct_FRigVMRegister.OuterSingleton = GetStaticStruct(Z_Construct_UScriptStruct_FRigVMRegister, (UObject*)Z_Construct_UPackage__Script_RigVM(), TEXT("RigVMRegister"));
	}
	return Z_Registration_Info_UScriptStruct_FRigVMRegister.OuterSingleton;
	}

// ********** Begin ScriptStruct FRigVMRegister Property Definitions *******************************
const UECodeGen_Private::FBytePropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_Type_Underlying = { "UnderlyingType", nullptr, (EPropertyFlags)0x0000000000000000, UECodeGen_Private::EPropertyGenFlags::Byte, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, 0, nullptr, METADATA_PARAMS(0, nullptr) };
const UECodeGen_Private::FEnumPropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_Type = { "Type", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::Enum, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegister, Type), Z_Construct_UEnum_RigVM_ERigVMRegisterType, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_Type_MetaData), NewProp_Type_MetaData) }; // 246745943
const UECodeGen_Private::FUInt32PropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_ByteIndex = { "ByteIndex", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::UInt32, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegister, ByteIndex), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_ByteIndex_MetaData), NewProp_ByteIndex_MetaData) };
const UECodeGen_Private::FUInt16PropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_ElementSize = { "ElementSize", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::UInt16, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegister, ElementSize), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_ElementSize_MetaData), NewProp_ElementSize_MetaData) };
const UECodeGen_Private::FUInt16PropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_ElementCount = { "ElementCount", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::UInt16, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegister, ElementCount), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_ElementCount_MetaData), NewProp_ElementCount_MetaData) };
const UECodeGen_Private::FUInt16PropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_SliceCount = { "SliceCount", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::UInt16, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegister, SliceCount), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_SliceCount_MetaData), NewProp_SliceCount_MetaData) };
const UECodeGen_Private::FBytePropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_AlignmentBytes = { "AlignmentBytes", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::Byte, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegister, AlignmentBytes), nullptr, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_AlignmentBytes_MetaData), NewProp_AlignmentBytes_MetaData) };
const UECodeGen_Private::FUInt16PropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_TrailingBytes = { "TrailingBytes", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::UInt16, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegister, TrailingBytes), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_TrailingBytes_MetaData), NewProp_TrailingBytes_MetaData) };
const UECodeGen_Private::FNamePropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_Name = { "Name", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::Name, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegister, Name), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_Name_MetaData), NewProp_Name_MetaData) };
const UECodeGen_Private::FIntPropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_ScriptStructIndex = { "ScriptStructIndex", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::Int, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegister, ScriptStructIndex), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_ScriptStructIndex_MetaData), NewProp_ScriptStructIndex_MetaData) };
void Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_bIsArray_SetBit(void* Obj)
{
	((FRigVMRegister*)Obj)->bIsArray = 1;
}
const UECodeGen_Private::FBoolPropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_bIsArray = { "bIsArray", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::Bool | UECodeGen_Private::EPropertyGenFlags::NativeBool, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, sizeof(bool), sizeof(FRigVMRegister), &Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_bIsArray_SetBit, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_bIsArray_MetaData), NewProp_bIsArray_MetaData) };
void Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_bIsDynamic_SetBit(void* Obj)
{
	((FRigVMRegister*)Obj)->bIsDynamic = 1;
}
const UECodeGen_Private::FBoolPropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_bIsDynamic = { "bIsDynamic", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::Bool | UECodeGen_Private::EPropertyGenFlags::NativeBool, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, sizeof(bool), sizeof(FRigVMRegister), &Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_bIsDynamic_SetBit, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_bIsDynamic_MetaData), NewProp_bIsDynamic_MetaData) };
#if WITH_EDITORONLY_DATA
const UECodeGen_Private::FNamePropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_BaseCPPType = { "BaseCPPType", nullptr, (EPropertyFlags)0x0010000800002000, UECodeGen_Private::EPropertyGenFlags::Name, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegister, BaseCPPType), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_BaseCPPType_MetaData), NewProp_BaseCPPType_MetaData) };
const UECodeGen_Private::FObjectPropertyParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_BaseCPPTypeObject = { "BaseCPPTypeObject", nullptr, (EPropertyFlags)0x0114000800002000, UECodeGen_Private::EPropertyGenFlags::Object | UECodeGen_Private::EPropertyGenFlags::ObjectPtr, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegister, BaseCPPTypeObject), Z_Construct_UClass_UObject_NoRegister, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_BaseCPPTypeObject_MetaData), NewProp_BaseCPPTypeObject_MetaData) };
#endif // WITH_EDITORONLY_DATA
const UECodeGen_Private::FPropertyParamsBase* const Z_Construct_UScriptStruct_FRigVMRegister_Statics::PropPointers[] = {
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_Type_Underlying,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_Type,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_ByteIndex,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_ElementSize,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_ElementCount,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_SliceCount,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_AlignmentBytes,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_TrailingBytes,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_Name,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_ScriptStructIndex,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_bIsArray,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_bIsDynamic,
#if WITH_EDITORONLY_DATA
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_BaseCPPType,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewProp_BaseCPPTypeObject,
#endif // WITH_EDITORONLY_DATA
};
static_assert(UE_ARRAY_COUNT(Z_Construct_UScriptStruct_FRigVMRegister_Statics::PropPointers) < 2048);
// ********** End ScriptStruct FRigVMRegister Property Definitions *********************************
const UECodeGen_Private::FStructParams Z_Construct_UScriptStruct_FRigVMRegister_Statics::StructParams = {
	(UObject* (*)())Z_Construct_UPackage__Script_RigVM,
	nullptr,
	&NewStructOps,
	"RigVMRegister",
	Z_Construct_UScriptStruct_FRigVMRegister_Statics::PropPointers,
	UE_ARRAY_COUNT(Z_Construct_UScriptStruct_FRigVMRegister_Statics::PropPointers),
	sizeof(FRigVMRegister),
	alignof(FRigVMRegister),
	RF_Public|RF_Transient|RF_MarkAsNative,
	EStructFlags(0x00000001),
	METADATA_PARAMS(UE_ARRAY_COUNT(Z_Construct_UScriptStruct_FRigVMRegister_Statics::Struct_MetaDataParams), Z_Construct_UScriptStruct_FRigVMRegister_Statics::Struct_MetaDataParams)
};
UScriptStruct* Z_Construct_UScriptStruct_FRigVMRegister()
{
	if (!Z_Registration_Info_UScriptStruct_FRigVMRegister.InnerSingleton)
	{
		UECodeGen_Private::ConstructUScriptStruct(Z_Registration_Info_UScriptStruct_FRigVMRegister.InnerSingleton, Z_Construct_UScriptStruct_FRigVMRegister_Statics::StructParams);
	}
	return CastChecked<UScriptStruct>(Z_Registration_Info_UScriptStruct_FRigVMRegister.InnerSingleton);
}
// ********** End ScriptStruct FRigVMRegister ******************************************************

// ********** Begin ScriptStruct FRigVMRegisterOffset **********************************************
struct Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics
{
	static inline consteval int32 GetStructSize() { return sizeof(FRigVMRegisterOffset); }
	static inline consteval int16 GetStructAlignment() { return alignof(FRigVMRegisterOffset); }
#if WITH_METADATA
	static constexpr UECodeGen_Private::FMetaDataPairParam Struct_MetaDataParams[] = {
		{ "Comment", "// The register offset represents a memory offset within a register's memory.\n// This can be used to represent memory addresses of array elements within\n// a struct, for example.\n// A register offset's path can look like MyTransformStruct.Transforms[3].Translation.X\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The register offset represents a memory offset within a register's memory.\nThis can be used to represent memory addresses of array elements within\na struct, for example.\nA register offset's path can look like MyTransformStruct.Transforms[3].Translation.X" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_Segments_MetaData[] = {
		{ "Comment", "// Segments represent the memory offset(s) to use when accessing the target memory.\n// In case of indirection in the source memory each memory offset / jump is stored.\n// So for example: If you are accessing the third Rotation.X of an array of transforms,\n// the segments would read as: [-2, 12] (second array element, and the fourth float)\n// Segment indices less than zero represent array element offsets, while positive numbers\n// represents jumps within a struct.\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "Segments represent the memory offset(s) to use when accessing the target memory.\nIn case of indirection in the source memory each memory offset / jump is stored.\nSo for example: If you are accessing the third Rotation.X of an array of transforms,\nthe segments would read as: [-2, 12] (second array element, and the fourth float)\nSegment indices less than zero represent array element offsets, while positive numbers\nrepresents jumps within a struct." },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_Type_MetaData[] = {
		{ "Comment", "// Type of resulting register (for example Plain for Transform.Translation.X)\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "Type of resulting register (for example Plain for Transform.Translation.X)" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_CPPType_MetaData[] = {
		{ "Comment", "// The c++ type of the resulting memory (for example float for Transform.Translation.X)\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The c++ type of the resulting memory (for example float for Transform.Translation.X)" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_ScriptStruct_MetaData[] = {
		{ "Comment", "// The c++ script struct of the resulting memory (for example FVector for Transform.Translation)\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The c++ script struct of the resulting memory (for example FVector for Transform.Translation)" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_ParentScriptStruct_MetaData[] = {
		{ "Comment", "// The c++ script struct of the source memory (for example FTransform for Transform.Translation)\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The c++ script struct of the source memory (for example FTransform for Transform.Translation)" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_ArrayIndex_MetaData[] = {
		{ "Comment", "// The index of the element within an array (for example 3 for Transform[3])\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The index of the element within an array (for example 3 for Transform[3])" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_ElementSize_MetaData[] = {
		{ "Comment", "// The number of bytes of the resulting memory (for example 4 (float) for Transform.Translation.X)\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The number of bytes of the resulting memory (for example 4 (float) for Transform.Translation.X)" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_CachedSegmentPath_MetaData[] = {
		{ "Comment", "// The cached path of the segments within this register, for example FTransform.Translation.X\n" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The cached path of the segments within this register, for example FTransform.Translation.X" },
	};
#endif // WITH_METADATA

// ********** Begin ScriptStruct FRigVMRegisterOffset constinit property declarations **************
	static const UECodeGen_Private::FIntPropertyParams NewProp_Segments_Inner;
	static const UECodeGen_Private::FArrayPropertyParams NewProp_Segments;
	static const UECodeGen_Private::FBytePropertyParams NewProp_Type_Underlying;
	static const UECodeGen_Private::FEnumPropertyParams NewProp_Type;
	static const UECodeGen_Private::FNamePropertyParams NewProp_CPPType;
	static const UECodeGen_Private::FObjectPropertyParams NewProp_ScriptStruct;
	static const UECodeGen_Private::FObjectPropertyParams NewProp_ParentScriptStruct;
	static const UECodeGen_Private::FIntPropertyParams NewProp_ArrayIndex;
	static const UECodeGen_Private::FUInt16PropertyParams NewProp_ElementSize;
	static const UECodeGen_Private::FStrPropertyParams NewProp_CachedSegmentPath;
	static const UECodeGen_Private::FPropertyParamsBase* const PropPointers[];
// ********** End ScriptStruct FRigVMRegisterOffset constinit property declarations ****************
	static void* NewStructOps()
	{
		return (UScriptStruct::ICppStructOps*)new UScriptStruct::TCppStructOps<FRigVMRegisterOffset>();
	}
	static const UECodeGen_Private::FStructParams StructParams;
}; // struct Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics
static FStructRegistrationInfo Z_Registration_Info_UScriptStruct_FRigVMRegisterOffset;
class UScriptStruct* FRigVMRegisterOffset::StaticStruct()
{
	if (!Z_Registration_Info_UScriptStruct_FRigVMRegisterOffset.OuterSingleton)
	{
		Z_Registration_Info_UScriptStruct_FRigVMRegisterOffset.OuterSingleton = GetStaticStruct(Z_Construct_UScriptStruct_FRigVMRegisterOffset, (UObject*)Z_Construct_UPackage__Script_RigVM(), TEXT("RigVMRegisterOffset"));
	}
	return Z_Registration_Info_UScriptStruct_FRigVMRegisterOffset.OuterSingleton;
	}

// ********** Begin ScriptStruct FRigVMRegisterOffset Property Definitions *************************
const UECodeGen_Private::FIntPropertyParams Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_Segments_Inner = { "Segments", nullptr, (EPropertyFlags)0x0000000000000000, UECodeGen_Private::EPropertyGenFlags::Int, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, 0, METADATA_PARAMS(0, nullptr) };
const UECodeGen_Private::FArrayPropertyParams Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_Segments = { "Segments", nullptr, (EPropertyFlags)0x0040000000000000, UECodeGen_Private::EPropertyGenFlags::Array, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegisterOffset, Segments), EArrayPropertyFlags::None, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_Segments_MetaData), NewProp_Segments_MetaData) };
const UECodeGen_Private::FBytePropertyParams Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_Type_Underlying = { "UnderlyingType", nullptr, (EPropertyFlags)0x0000000000000000, UECodeGen_Private::EPropertyGenFlags::Byte, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, 0, nullptr, METADATA_PARAMS(0, nullptr) };
const UECodeGen_Private::FEnumPropertyParams Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_Type = { "Type", nullptr, (EPropertyFlags)0x0040000000000000, UECodeGen_Private::EPropertyGenFlags::Enum, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegisterOffset, Type), Z_Construct_UEnum_RigVM_ERigVMRegisterType, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_Type_MetaData), NewProp_Type_MetaData) }; // 246745943
const UECodeGen_Private::FNamePropertyParams Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_CPPType = { "CPPType", nullptr, (EPropertyFlags)0x0040000000000000, UECodeGen_Private::EPropertyGenFlags::Name, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegisterOffset, CPPType), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_CPPType_MetaData), NewProp_CPPType_MetaData) };
const UECodeGen_Private::FObjectPropertyParams Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_ScriptStruct = { "ScriptStruct", nullptr, (EPropertyFlags)0x0144000000000000, UECodeGen_Private::EPropertyGenFlags::Object | UECodeGen_Private::EPropertyGenFlags::ObjectPtr, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegisterOffset, ScriptStruct), Z_Construct_UClass_UScriptStruct_NoRegister, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_ScriptStruct_MetaData), NewProp_ScriptStruct_MetaData) };
const UECodeGen_Private::FObjectPropertyParams Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_ParentScriptStruct = { "ParentScriptStruct", nullptr, (EPropertyFlags)0x0144000000000000, UECodeGen_Private::EPropertyGenFlags::Object | UECodeGen_Private::EPropertyGenFlags::ObjectPtr, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegisterOffset, ParentScriptStruct), Z_Construct_UClass_UScriptStruct_NoRegister, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_ParentScriptStruct_MetaData), NewProp_ParentScriptStruct_MetaData) };
const UECodeGen_Private::FIntPropertyParams Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_ArrayIndex = { "ArrayIndex", nullptr, (EPropertyFlags)0x0040000000000000, UECodeGen_Private::EPropertyGenFlags::Int, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegisterOffset, ArrayIndex), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_ArrayIndex_MetaData), NewProp_ArrayIndex_MetaData) };
const UECodeGen_Private::FUInt16PropertyParams Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_ElementSize = { "ElementSize", nullptr, (EPropertyFlags)0x0040000000000000, UECodeGen_Private::EPropertyGenFlags::UInt16, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegisterOffset, ElementSize), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_ElementSize_MetaData), NewProp_ElementSize_MetaData) };
const UECodeGen_Private::FStrPropertyParams Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_CachedSegmentPath = { "CachedSegmentPath", nullptr, (EPropertyFlags)0x0040000000000000, UECodeGen_Private::EPropertyGenFlags::Str, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMRegisterOffset, CachedSegmentPath), METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_CachedSegmentPath_MetaData), NewProp_CachedSegmentPath_MetaData) };
const UECodeGen_Private::FPropertyParamsBase* const Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::PropPointers[] = {
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_Segments_Inner,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_Segments,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_Type_Underlying,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_Type,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_CPPType,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_ScriptStruct,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_ParentScriptStruct,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_ArrayIndex,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_ElementSize,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewProp_CachedSegmentPath,
};
static_assert(UE_ARRAY_COUNT(Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::PropPointers) < 2048);
// ********** End ScriptStruct FRigVMRegisterOffset Property Definitions ***************************
const UECodeGen_Private::FStructParams Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::StructParams = {
	(UObject* (*)())Z_Construct_UPackage__Script_RigVM,
	nullptr,
	&NewStructOps,
	"RigVMRegisterOffset",
	Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::PropPointers,
	UE_ARRAY_COUNT(Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::PropPointers),
	sizeof(FRigVMRegisterOffset),
	alignof(FRigVMRegisterOffset),
	RF_Public|RF_Transient|RF_MarkAsNative,
	EStructFlags(0x00000001),
	METADATA_PARAMS(UE_ARRAY_COUNT(Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::Struct_MetaDataParams), Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::Struct_MetaDataParams)
};
UScriptStruct* Z_Construct_UScriptStruct_FRigVMRegisterOffset()
{
	if (!Z_Registration_Info_UScriptStruct_FRigVMRegisterOffset.InnerSingleton)
	{
		UECodeGen_Private::ConstructUScriptStruct(Z_Registration_Info_UScriptStruct_FRigVMRegisterOffset.InnerSingleton, Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::StructParams);
	}
	return CastChecked<UScriptStruct>(Z_Registration_Info_UScriptStruct_FRigVMRegisterOffset.InnerSingleton);
}
// ********** End ScriptStruct FRigVMRegisterOffset ************************************************

// ********** Begin ScriptStruct FRigVMMemoryContainer *********************************************
struct Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics
{
	static inline consteval int32 GetStructSize() { return sizeof(FRigVMMemoryContainer); }
	static inline consteval int16 GetStructAlignment() { return alignof(FRigVMMemoryContainer); }
#if WITH_METADATA
	static constexpr UECodeGen_Private::FMetaDataPairParam Struct_MetaDataParams[] = {
		{ "Comment", "/**\n * The FRigVMMemoryContainer provides a heterogeneous memory container to store arbitrary\n * data. Each element stored can be referred to using a FRigVMRegister.\n * Elements can be accessed by index (index of the register), FRigVMOperand or by name.\n * Name access is optional and is specified upon construction of the container.\n * The memory container provides a series of templated functions to add and get data.\n *\n * For example:\n * \x09\x09int32 Index = Container.Add<float>(4.f);\n *      float& ValueRef = Container.GetRef<float>(Index);\n *\n * This can also be done with arrays:\n *      TArray<float> MyArray = {3.f, 4.f, 5.f};\n * \x09\x09int32 Index = Container.AddFixedArray<float>(MyArray);\n *      FRigVMFixedArray<float> ArrayView = Container.GetFixedArray<float>(Index);\n *\n *\n * Registers can store dynamically resizable memory as well by reyling on indirection.\n * \n * Arrays with a single slice are going to be stored as a FRigVMByteArray, [unit8], so for example for a float array in C++ it would be (TArray<float> Param).\n * Single values with multiple slices are also going to be stored as a FRigVMByteArray, [unit8], so for example for a float array in C++ it would be (float Param). \n * Arrays with multiple slices are going to be stored as a FRigVMNestedByteArray, [[unit8]], so for example for a float array in C++ it would be (TArray<float> Param).\n */" },
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
		{ "ToolTip", "The FRigVMMemoryContainer provides a heterogeneous memory container to store arbitrary\ndata. Each element stored can be referred to using a FRigVMRegister.\nElements can be accessed by index (index of the register), FRigVMOperand or by name.\nName access is optional and is specified upon construction of the container.\nThe memory container provides a series of templated functions to add and get data.\n\nFor example:\n            int32 Index = Container.Add<float>(4.f);\n     float& ValueRef = Container.GetRef<float>(Index);\n\nThis can also be done with arrays:\n     TArray<float> MyArray = {3.f, 4.f, 5.f};\n            int32 Index = Container.AddFixedArray<float>(MyArray);\n     FRigVMFixedArray<float> ArrayView = Container.GetFixedArray<float>(Index);\n\n\nRegisters can store dynamically resizable memory as well by reyling on indirection.\n\nArrays with a single slice are going to be stored as a FRigVMByteArray, [unit8], so for example for a float array in C++ it would be (TArray<float> Param).\nSingle values with multiple slices are also going to be stored as a FRigVMByteArray, [unit8], so for example for a float array in C++ it would be (float Param).\nArrays with multiple slices are going to be stored as a FRigVMNestedByteArray, [[unit8]], so for example for a float array in C++ it would be (TArray<float> Param)." },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_bUseNameMap_MetaData[] = {
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_MemoryType_MetaData[] = {
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_Registers_MetaData[] = {
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_RegisterOffsets_MetaData[] = {
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_Data_MetaData[] = {
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_ScriptStructs_MetaData[] = {
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_NameMap_MetaData[] = {
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
	};
	static constexpr UECodeGen_Private::FMetaDataPairParam NewProp_bEncounteredErrorDuringLoad_MetaData[] = {
		{ "ModuleRelativePath", "Public/RigVMCore/RigVMMemoryDeprecated.h" },
	};
#endif // WITH_METADATA

// ********** Begin ScriptStruct FRigVMMemoryContainer constinit property declarations *************
	static void NewProp_bUseNameMap_SetBit(void* Obj);
	static const UECodeGen_Private::FBoolPropertyParams NewProp_bUseNameMap;
	static const UECodeGen_Private::FBytePropertyParams NewProp_MemoryType_Underlying;
	static const UECodeGen_Private::FEnumPropertyParams NewProp_MemoryType;
	static const UECodeGen_Private::FStructPropertyParams NewProp_Registers_Inner;
	static const UECodeGen_Private::FArrayPropertyParams NewProp_Registers;
	static const UECodeGen_Private::FStructPropertyParams NewProp_RegisterOffsets_Inner;
	static const UECodeGen_Private::FArrayPropertyParams NewProp_RegisterOffsets;
	static const UECodeGen_Private::FBytePropertyParams NewProp_Data_Inner;
	static const UECodeGen_Private::FArrayPropertyParams NewProp_Data;
	static const UECodeGen_Private::FObjectPropertyParams NewProp_ScriptStructs_Inner;
	static const UECodeGen_Private::FArrayPropertyParams NewProp_ScriptStructs;
	static const UECodeGen_Private::FIntPropertyParams NewProp_NameMap_ValueProp;
	static const UECodeGen_Private::FNamePropertyParams NewProp_NameMap_Key_KeyProp;
	static const UECodeGen_Private::FMapPropertyParams NewProp_NameMap;
	static void NewProp_bEncounteredErrorDuringLoad_SetBit(void* Obj);
	static const UECodeGen_Private::FBoolPropertyParams NewProp_bEncounteredErrorDuringLoad;
	static const UECodeGen_Private::FPropertyParamsBase* const PropPointers[];
// ********** End ScriptStruct FRigVMMemoryContainer constinit property declarations ***************
	static void* NewStructOps()
	{
		return (UScriptStruct::ICppStructOps*)new UScriptStruct::TCppStructOps<FRigVMMemoryContainer>();
	}
	static const UECodeGen_Private::FStructParams StructParams;
}; // struct Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics
static FStructRegistrationInfo Z_Registration_Info_UScriptStruct_FRigVMMemoryContainer;
class UScriptStruct* FRigVMMemoryContainer::StaticStruct()
{
	if (!Z_Registration_Info_UScriptStruct_FRigVMMemoryContainer.OuterSingleton)
	{
		Z_Registration_Info_UScriptStruct_FRigVMMemoryContainer.OuterSingleton = GetStaticStruct(Z_Construct_UScriptStruct_FRigVMMemoryContainer, (UObject*)Z_Construct_UPackage__Script_RigVM(), TEXT("RigVMMemoryContainer"));
	}
	return Z_Registration_Info_UScriptStruct_FRigVMMemoryContainer.OuterSingleton;
	}

// ********** Begin ScriptStruct FRigVMMemoryContainer Property Definitions ************************
void Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_bUseNameMap_SetBit(void* Obj)
{
	((FRigVMMemoryContainer*)Obj)->bUseNameMap = 1;
}
const UECodeGen_Private::FBoolPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_bUseNameMap = { "bUseNameMap", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::Bool | UECodeGen_Private::EPropertyGenFlags::NativeBool, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, sizeof(bool), sizeof(FRigVMMemoryContainer), &Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_bUseNameMap_SetBit, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_bUseNameMap_MetaData), NewProp_bUseNameMap_MetaData) };
const UECodeGen_Private::FBytePropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_MemoryType_Underlying = { "UnderlyingType", nullptr, (EPropertyFlags)0x0000000000000000, UECodeGen_Private::EPropertyGenFlags::Byte, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, 0, nullptr, METADATA_PARAMS(0, nullptr) };
const UECodeGen_Private::FEnumPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_MemoryType = { "MemoryType", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::Enum, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMMemoryContainer, MemoryType), Z_Construct_UEnum_RigVM_ERigVMMemoryType, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_MemoryType_MetaData), NewProp_MemoryType_MetaData) }; // 3292019706
const UECodeGen_Private::FStructPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_Registers_Inner = { "Registers", nullptr, (EPropertyFlags)0x0000000000000000, UECodeGen_Private::EPropertyGenFlags::Struct, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, 0, Z_Construct_UScriptStruct_FRigVMRegister, METADATA_PARAMS(0, nullptr) }; // 3492683069
const UECodeGen_Private::FArrayPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_Registers = { "Registers", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::Array, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMMemoryContainer, Registers), EArrayPropertyFlags::None, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_Registers_MetaData), NewProp_Registers_MetaData) }; // 3492683069
const UECodeGen_Private::FStructPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_RegisterOffsets_Inner = { "RegisterOffsets", nullptr, (EPropertyFlags)0x0000000000000000, UECodeGen_Private::EPropertyGenFlags::Struct, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, 0, Z_Construct_UScriptStruct_FRigVMRegisterOffset, METADATA_PARAMS(0, nullptr) }; // 2106658355
const UECodeGen_Private::FArrayPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_RegisterOffsets = { "RegisterOffsets", nullptr, (EPropertyFlags)0x0010000000000000, UECodeGen_Private::EPropertyGenFlags::Array, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMMemoryContainer, RegisterOffsets), EArrayPropertyFlags::None, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_RegisterOffsets_MetaData), NewProp_RegisterOffsets_MetaData) }; // 2106658355
const UECodeGen_Private::FBytePropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_Data_Inner = { "Data", nullptr, (EPropertyFlags)0x0000000000000000, UECodeGen_Private::EPropertyGenFlags::Byte, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, 0, nullptr, METADATA_PARAMS(0, nullptr) };
const UECodeGen_Private::FArrayPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_Data = { "Data", nullptr, (EPropertyFlags)0x0010000000002000, UECodeGen_Private::EPropertyGenFlags::Array, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMMemoryContainer, Data), EArrayPropertyFlags::None, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_Data_MetaData), NewProp_Data_MetaData) };
const UECodeGen_Private::FObjectPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_ScriptStructs_Inner = { "ScriptStructs", nullptr, (EPropertyFlags)0x0104000000000000, UECodeGen_Private::EPropertyGenFlags::Object | UECodeGen_Private::EPropertyGenFlags::ObjectPtr, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, 0, Z_Construct_UClass_UScriptStruct_NoRegister, METADATA_PARAMS(0, nullptr) };
const UECodeGen_Private::FArrayPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_ScriptStructs = { "ScriptStructs", nullptr, (EPropertyFlags)0x0114000000002000, UECodeGen_Private::EPropertyGenFlags::Array, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMMemoryContainer, ScriptStructs), EArrayPropertyFlags::None, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_ScriptStructs_MetaData), NewProp_ScriptStructs_MetaData) };
const UECodeGen_Private::FIntPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_NameMap_ValueProp = { "NameMap", nullptr, (EPropertyFlags)0x0000000000000000, UECodeGen_Private::EPropertyGenFlags::Int, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, 1, METADATA_PARAMS(0, nullptr) };
const UECodeGen_Private::FNamePropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_NameMap_Key_KeyProp = { "NameMap_Key", nullptr, (EPropertyFlags)0x0000000000000000, UECodeGen_Private::EPropertyGenFlags::Name, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, 0, METADATA_PARAMS(0, nullptr) };
const UECodeGen_Private::FMapPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_NameMap = { "NameMap", nullptr, (EPropertyFlags)0x0010000000002000, UECodeGen_Private::EPropertyGenFlags::Map, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, STRUCT_OFFSET(FRigVMMemoryContainer, NameMap), EMapPropertyFlags::None, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_NameMap_MetaData), NewProp_NameMap_MetaData) };
void Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_bEncounteredErrorDuringLoad_SetBit(void* Obj)
{
	((FRigVMMemoryContainer*)Obj)->bEncounteredErrorDuringLoad = 1;
}
const UECodeGen_Private::FBoolPropertyParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_bEncounteredErrorDuringLoad = { "bEncounteredErrorDuringLoad", nullptr, (EPropertyFlags)0x0010000000002000, UECodeGen_Private::EPropertyGenFlags::Bool | UECodeGen_Private::EPropertyGenFlags::NativeBool, RF_Public|RF_Transient|RF_MarkAsNative, nullptr, nullptr, 1, sizeof(bool), sizeof(FRigVMMemoryContainer), &Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_bEncounteredErrorDuringLoad_SetBit, METADATA_PARAMS(UE_ARRAY_COUNT(NewProp_bEncounteredErrorDuringLoad_MetaData), NewProp_bEncounteredErrorDuringLoad_MetaData) };
const UECodeGen_Private::FPropertyParamsBase* const Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::PropPointers[] = {
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_bUseNameMap,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_MemoryType_Underlying,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_MemoryType,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_Registers_Inner,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_Registers,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_RegisterOffsets_Inner,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_RegisterOffsets,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_Data_Inner,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_Data,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_ScriptStructs_Inner,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_ScriptStructs,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_NameMap_ValueProp,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_NameMap_Key_KeyProp,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_NameMap,
	(const UECodeGen_Private::FPropertyParamsBase*)&Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewProp_bEncounteredErrorDuringLoad,
};
static_assert(UE_ARRAY_COUNT(Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::PropPointers) < 2048);
// ********** End ScriptStruct FRigVMMemoryContainer Property Definitions **************************
const UECodeGen_Private::FStructParams Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::StructParams = {
	(UObject* (*)())Z_Construct_UPackage__Script_RigVM,
	nullptr,
	&NewStructOps,
	"RigVMMemoryContainer",
	Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::PropPointers,
	UE_ARRAY_COUNT(Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::PropPointers),
	sizeof(FRigVMMemoryContainer),
	alignof(FRigVMMemoryContainer),
	RF_Public|RF_Transient|RF_MarkAsNative,
	EStructFlags(0x00000001),
	METADATA_PARAMS(UE_ARRAY_COUNT(Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::Struct_MetaDataParams), Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::Struct_MetaDataParams)
};
UScriptStruct* Z_Construct_UScriptStruct_FRigVMMemoryContainer()
{
	if (!Z_Registration_Info_UScriptStruct_FRigVMMemoryContainer.InnerSingleton)
	{
		UECodeGen_Private::ConstructUScriptStruct(Z_Registration_Info_UScriptStruct_FRigVMMemoryContainer.InnerSingleton, Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::StructParams);
	}
	return CastChecked<UScriptStruct>(Z_Registration_Info_UScriptStruct_FRigVMMemoryContainer.InnerSingleton);
}
// ********** End ScriptStruct FRigVMMemoryContainer ***********************************************

// ********** Begin Registration *******************************************************************
struct Z_CompiledInDeferFile_FID_Engine_Plugins_Runtime_RigVM_Source_RigVM_Public_RigVMCore_RigVMMemoryDeprecated_h__Script_RigVM_Statics
{
	static constexpr FEnumRegisterCompiledInInfo EnumInfo[] = {
		{ ERigVMRegisterType_StaticEnum, TEXT("ERigVMRegisterType"), &Z_Registration_Info_UEnum_ERigVMRegisterType, CONSTRUCT_RELOAD_VERSION_INFO(FEnumReloadVersionInfo, 246745943U) },
	};
	static constexpr FStructRegisterCompiledInInfo ScriptStructInfo[] = {
		{ FRigVMRegister::StaticStruct, Z_Construct_UScriptStruct_FRigVMRegister_Statics::NewStructOps, TEXT("RigVMRegister"),&Z_Registration_Info_UScriptStruct_FRigVMRegister, CONSTRUCT_RELOAD_VERSION_INFO(FStructReloadVersionInfo, sizeof(FRigVMRegister), 3492683069U) },
		{ FRigVMRegisterOffset::StaticStruct, Z_Construct_UScriptStruct_FRigVMRegisterOffset_Statics::NewStructOps, TEXT("RigVMRegisterOffset"),&Z_Registration_Info_UScriptStruct_FRigVMRegisterOffset, CONSTRUCT_RELOAD_VERSION_INFO(FStructReloadVersionInfo, sizeof(FRigVMRegisterOffset), 2106658355U) },
		{ FRigVMMemoryContainer::StaticStruct, Z_Construct_UScriptStruct_FRigVMMemoryContainer_Statics::NewStructOps, TEXT("RigVMMemoryContainer"),&Z_Registration_Info_UScriptStruct_FRigVMMemoryContainer, CONSTRUCT_RELOAD_VERSION_INFO(FStructReloadVersionInfo, sizeof(FRigVMMemoryContainer), 2047643200U) },
	};
}; // Z_CompiledInDeferFile_FID_Engine_Plugins_Runtime_RigVM_Source_RigVM_Public_RigVMCore_RigVMMemoryDeprecated_h__Script_RigVM_Statics 
static FRegisterCompiledInInfo Z_CompiledInDeferFile_FID_Engine_Plugins_Runtime_RigVM_Source_RigVM_Public_RigVMCore_RigVMMemoryDeprecated_h__Script_RigVM_1469825725{
	TEXT("/Script/RigVM"),
	nullptr, 0,
	Z_CompiledInDeferFile_FID_Engine_Plugins_Runtime_RigVM_Source_RigVM_Public_RigVMCore_RigVMMemoryDeprecated_h__Script_RigVM_Statics::ScriptStructInfo, UE_ARRAY_COUNT(Z_CompiledInDeferFile_FID_Engine_Plugins_Runtime_RigVM_Source_RigVM_Public_RigVMCore_RigVMMemoryDeprecated_h__Script_RigVM_Statics::ScriptStructInfo),
	Z_CompiledInDeferFile_FID_Engine_Plugins_Runtime_RigVM_Source_RigVM_Public_RigVMCore_RigVMMemoryDeprecated_h__Script_RigVM_Statics::EnumInfo, UE_ARRAY_COUNT(Z_CompiledInDeferFile_FID_Engine_Plugins_Runtime_RigVM_Source_RigVM_Public_RigVMCore_RigVMMemoryDeprecated_h__Script_RigVM_Statics::EnumInfo),
};
// ********** End Registration *********************************************************************

PRAGMA_ENABLE_DEPRECATION_WARNINGS