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UnrealEngineUWP/Engine/Source/Developer/RigVMDeveloper/Private/RigVMCompiler/RigVMCodeGenerator.cpp
Helge Mathee 40dbac202b RigVM: Restructure entry invocation for nativized VMs 
#rb sara.schvartzman
#jira UE-153498
#preflight https://horde.devtools.epicgames.com/job/62962b08fe779f23c8e4d093

[CL 20441428 by Helge Mathee in ue5-main branch]
2022-05-31 16:18:09 -04:00

2237 lines
82 KiB
C++
Raw Blame History

// Copyright Epic Games, Inc. All Rights Reserved.
#include "RigVMCompiler/RigVMCodeGenerator.h"
#include "RigVMCore/RigVMExecuteContext.h"
#include "RigVMCore/RigVMStruct.h"
#include "RigVMDeveloperModule.h"
#include "Algo/Count.h"
#include "Animation/Rig.h"
static constexpr TCHAR RigVM_CommaSeparator[] = TEXT(", ");
static constexpr TCHAR RigVM_NewLineFormat[] = TEXT("\r\n");
static constexpr TCHAR RigVM_IncludeBracketFormat[] = TEXT("#include <{0}>");
static constexpr TCHAR RigVM_IncludeQuoteFormat[] = TEXT("#include \"{0}.h\"");
static constexpr TCHAR RigVM_WrappedArrayTypeFormat[] = TEXT("struct {0}_API {1}\r\n{\r\n\tTArray<{2}> Array;\r\n};");
static constexpr TCHAR RigVM_WrappedTypeNameFormat[] = TEXT("{0}Array_{1}");
static constexpr TCHAR RigVM_DeclareExternalVariableFormat[] = TEXT("\t{0}* {1} = nullptr;");
static constexpr TCHAR RigVM_UpdateExternalVariableFormat[] = TEXT("\t{0} = &GetExternalVariableRef<{1}>(TEXT(\"{2}\"), TEXT(\"{1}\"));");
static constexpr TCHAR RigVM_MemberPropertyFormat[] = TEXT("\t{0} {1};");
static constexpr TCHAR RigVM_DeclareEntryNameFormat[] = TEXT("\tstatic const FName EntryName_{0};");
static constexpr TCHAR RigVM_DefineEntryNameFormat[] = TEXT("const FName U{0}::EntryName_{1} = TEXT(\"{2}\");");
static constexpr TCHAR RigVM_DefineConstFormatNoDefault[] = TEXT("\tstatic const {0} {1};");
static constexpr TCHAR RigVM_DefineStructConstFormat[] = TEXT("\tstatic const {0} {1} = URigVMNativized::GetStructConstant<{0}>(TEXT(\"{2}\"));");
static constexpr TCHAR RigVM_DefineStructArrayConstFormat[] = TEXT("\tstatic const {0} {1} = URigVMNativized::GetStructArrayConstant<{2}>(TEXT(\"{3}\"));");
static constexpr TCHAR RigVM_DefineConstFormat[] = TEXT("\tstatic const {0} {1} = {2};");
static constexpr TCHAR RigVM_NameNoneFormat[] = TEXT("FName(NAME_None)");
static constexpr TCHAR RigVM_EmptyStringFormat[] = TEXT("FString()");
static constexpr TCHAR RigVM_SingleStringFormat[] = TEXT("%s");
static constexpr TCHAR RigVM_TextFormat[] = TEXT("TEXT({0})");
static constexpr TCHAR RigVM_QuotedTextFormat[] = TEXT("TEXT(\"{0}\")");
static constexpr TCHAR RigVM_CurlyBracesFormat[] = TEXT("{{0}}");
static constexpr TCHAR RigVM_BracesFormat[] = TEXT("({0})");
static constexpr TCHAR RigVM_TemplateOneArgFormat[] = TEXT("<{0}>");
static constexpr TCHAR RigVM_CallExternOpFormat[] = TEXT("\t{0}::Static{1}({2});");
static constexpr TCHAR RigVM_ZeroOpFormat[] = TEXT("\t{0} = 0;");
static constexpr TCHAR RigVM_BoolFalseOpFormat[] = TEXT("\t{0} = false;");
static constexpr TCHAR RigVM_BoolTrueFormat[] = TEXT("\t{0} = true;");
static constexpr TCHAR RigVM_CopyUnrelatedArraysFormat[] = TEXT("\tCopyUnrelatedArrays<{0}, {1}>({2}, {3});");
static constexpr TCHAR RigVM_CopyOpMethodFormat[] = TEXT("\t{0}{1}{2});");
static constexpr TCHAR RigVM_CopyOpAssignFormat[] = TEXT("\t{0} = {1}{2};");
static constexpr TCHAR RigVM_IncrementOpFormat[] = TEXT("\t{0}++;");
static constexpr TCHAR RigVM_DecrementOpFormat[] = TEXT("\t{0}--;");
static constexpr TCHAR RigVM_EqualsOpFormat[] = TEXT("\t{0} = {1} == {2};");
static constexpr TCHAR RigVM_InvokeEntryFormat[] = TEXT("\tif (InEntryName == EntryName_{0}) return ExecuteEntry_{0}({1});");
static constexpr TCHAR RigVM_InvokeEntryByNameFormat[] = TEXT("\treturn InvokeEntryByName(InEntryName{0});");
static constexpr TCHAR RigVM_InvokeEntryByNameFormat2[] = TEXT("\tif(!InvokeEntryByName({0}{1})) return false;");
static constexpr TCHAR RigVM_CanExecuteEntryFormat[] = TEXT("\tif(!CanExecuteEntry(InEntryName)) { return false; }");
static constexpr TCHAR RigVM_EntryExecuteGuardFormat[] = TEXT("\tFEntryExecuteGuard EntryExecuteGuard(EntriesBeingExecuted, FindEntry(InEntryName));");
static constexpr TCHAR RigVM_PublicContextGuardFormat[] = TEXT("\tTGuardValue<FRigVMExecuteContext> PublicContextGuard(Context.PublicData, PublicContext);");
static constexpr TCHAR RigVM_EntryNameFormat[] = TEXT("EntryName_{0}");
static constexpr TCHAR RigVM_UpdateContextFormat[] = TEXT("\tconst FRigVMExecuteContext& PublicContext = UpdateContext(AdditionalArguments, {0}, InEntryName);");
static constexpr TCHAR RigVM_TrueFormat[] = TEXT("true");
static constexpr TCHAR RigVM_FalseFormat[] = TEXT("false");
static constexpr TCHAR RigVM_SingleUnderscoreFormat[] = TEXT("_");
static constexpr TCHAR RigVM_DoubleUnderscoreFormat[] = TEXT("__");
static constexpr TCHAR RigVM_BoolPropertyPrefix[] = TEXT("b");
static constexpr TCHAR RigVM_EnumTypeSuffixFormat[] = TEXT("::Type");
static constexpr TCHAR RigVM_IsValidArraySizeFormat[] = TEXT("IsValidArraySize({0})");
static constexpr TCHAR RigVM_IsValidArrayIndexFormat[] = TEXT("IsValidArrayIndex<{0}>(TemporaryArrayIndex, {1})");
static constexpr TCHAR RigVM_TemporaryArrayIndexFormat[] = TEXT("\tTemporaryArrayIndex = {0};");
static constexpr TCHAR RigVM_ExecuteReachedExitFormat[] = TEXT("\tBroadcastExecutionReachedExit();");
static constexpr TCHAR RigVM_AdditionalArgumentNameFormat[] = TEXT("AdditionalArgument_{0}_{1}");
static constexpr TCHAR RigVM_FullOpaqueArgumentFormat[] = TEXT("\t{0} {1} = *({2}*)Context.OpaqueArguments[{3}];");
static constexpr TCHAR RigVM_ParameterOpaqueArgumentFormat[] = TEXT("{0} {1}");
static constexpr TCHAR RigVM_InstructionLabelFormat[] = TEXT("\tInstruction{0}Label:");
static constexpr TCHAR RigVM_SetInstructionIndexFormat[] = TEXT("\tSetInstructionIndex({0});");
static constexpr TCHAR RigVM_ContextPublicFormat[] = TEXT("PublicContext");
static constexpr TCHAR RigVM_ContextPublicParameterFormat[] = TEXT("const FRigVMExecuteContext& PublicContext");
static constexpr TCHAR RigVM_NotEqualsOpFormat[] = TEXT("\t{0} = {1} != {2};");
static constexpr TCHAR RigVM_JumpOpFormat[] = TEXT("\tgoto Instruction{0}Label;");
static constexpr TCHAR RigVM_JumpIfOpFormat[] = TEXT("\tif ({0} == {1}) { goto Instruction{2}Label; }");
static constexpr TCHAR RigVM_BeginBlockOpFormat[] = TEXT("\tBeginSlice({0}, {1});");
static constexpr TCHAR RigVM_EndBlockOpFormat[] = TEXT("\tEndSlice();");
static constexpr TCHAR RigVM_ArrayResetOpFormat[] = TEXT("\t{0}.Reset();");
static constexpr TCHAR RigVM_ArrayGetNumOpFormat[] = TEXT("\t{0} = {1}.Num();");
static constexpr TCHAR RigVM_ArraySetNumOpFormat[] = TEXT("\tif ({0}) { {1}.SetNum({2}); }");
static constexpr TCHAR RigVM_ArrayGetAtIndexOpFormat[] = TEXT("\tif ({0}) { {1} = {2}[TemporaryArrayIndex]; }");
static constexpr TCHAR RigVM_ArraySetAtIndexOpFormat[] = TEXT("\tif ({0}) { {1}[TemporaryArrayIndex] = {2}; }");
static constexpr TCHAR RigVM_ArrayAddOpFormat[] = TEXT("\tif ({0}) { {1} = {2}.Add({3}); }");
static constexpr TCHAR RigVM_ArrayNumPlusOneFormat[] = TEXT("{0}.Num() + 1");
static constexpr TCHAR RigVM_ArrayInsertOpFormat[] = TEXT("\tif ({0}) { {1}.Insert({2}, {3}); }");
static constexpr TCHAR RigVM_ArrayRemoveOpFormat[] = TEXT("\t{0}.RemoveAt({1});");
static constexpr TCHAR RigVM_ArrayFindOpFormat[] = TEXT("\t{0} = ArrayOp_Find{1}({2}, {3}, {4});");
static constexpr TCHAR RigVM_ArrayAppendOpFormat[] = TEXT("\tif ({0} { {1}.Append({2}); }");
static constexpr TCHAR RigVM_ArrayAppendOpNumFormat[] = TEXT("{0}.Num() + {1}.Num()");
static constexpr TCHAR RigVM_ArrayIteratorOpFormat[] = TEXT("\t{0} = ArrayOp_Iterator{1}({2}, {3}, {4}, {5}, {6});");
static constexpr TCHAR RigVM_ArrayUnionOpFormat[] = TEXT("\tArrayOp_Union{0}({1}, {2});");
static constexpr TCHAR RigVM_ArrayDifferenceOpFormat[] = TEXT("\tArrayOp_Difference{0}({1}, {2});");
static constexpr TCHAR RigVM_ArrayIntersectionOpFormat[] = TEXT("\tArrayOp_Intersection{0}({1}, {2});");
static constexpr TCHAR RigVM_ArrayReverseOpFormat[] = TEXT("\tArrayOp_Reverse{0}({1});");
static constexpr TCHAR RigVM_ReturnFalseFormat[] = TEXT("\treturn false;");
static constexpr TCHAR RigVM_ReturnTrueFormat[] = TEXT("\treturn true;");
static constexpr TCHAR RigVM_CopyrightFormat[] = TEXT("// Copyright Epic Games, Inc. All Rights Reserved.");
static constexpr TCHAR RigVM_AutoGeneratedFormat[] = TEXT("// THIS FILE HAS BEEN AUTO-GENERATED. PLEASE DO NOT MANUALLY EDIT THIS FILE FURTHER.");
static constexpr TCHAR RigVM_PragmaOnceFormat[] = TEXT("#pragma once");
static constexpr TCHAR RigVM_GeneratedIncludeFormat[] = TEXT("#include \"{0}.generated.h\"");
static constexpr TCHAR RigVM_UClassDefinitionFormat[] = TEXT("UCLASS()\r\nclass {0}_API U{1} : public URigVMNativized\r\n{\r\n\tGENERATED_BODY()\r\npublic:\r\n\tU{1}() {}\r\n\tvirtual ~U{1}() override {}\r\n");
static constexpr TCHAR RigVM_ProtectedFormat[] = TEXT("protected:");
static constexpr TCHAR RigVM_GetVMHashFormat[] = TEXT("\tvirtual uint32 GetVMHash() const override { return {0}; }");
static constexpr TCHAR RigVM_GetEntryNamesFormat[] = TEXT("\tvirtual const TArray<FName>& GetEntryNames() const override\r\n\t{\r\n\t\tstatic const TArray<FName> StaticEntryNames = { {0} };\r\n\t\treturn StaticEntryNames;\r\n\t}");
static constexpr TCHAR RigVM_DeclareUpdateExternalVariablesFormat[] = TEXT("\tvirtual void UpdateExternalVariables() override;");
static constexpr TCHAR RigVM_DeclareInvokeEntryByNameFormat[] = TEXT("\tbool InvokeEntryByName(const FName& InEntryName{0});");
static constexpr TCHAR RigVM_DeclareExecuteFormat[] = TEXT("\tvirtual bool Execute(TArrayView<URigVMMemoryStorage*> Memory, TArrayView<void*> AdditionalArguments, const FName& InEntryName) override;");
static constexpr TCHAR RigVM_DefineUpdateExternalVariablesFormat[] = TEXT("void U{0}::UpdateExternalVariables()\r\n{");
static constexpr TCHAR RigVM_DefineInvokeEntryByNameFormat[] = TEXT("bool U{0}::InvokeEntryByName(const FName& InEntryName{1})\r\n{");
static constexpr TCHAR RigVM_DefineExecuteFormat[] = TEXT("bool U{0}::Execute(TArrayView<URigVMMemoryStorage*> Memory, TArrayView<void*> AdditionalArguments, const FName& InEntryName)\r\n{");
static constexpr TCHAR RigVM_DeclareExecuteEntryFormat[] = TEXT("\tbool ExecuteEntry_{0}({1});");
static constexpr TCHAR RigVM_DefineExecuteEntryFormat[] = TEXT("bool U{0}::ExecuteEntry_{1}({2})\r\n{");
static constexpr TCHAR RigVM_DeclareExecuteGroupFormat[] = TEXT("\tbool ExecuteGroup_{0}_{1}({2});");
static constexpr TCHAR RigVM_DefineExecuteGroupFormat[] = TEXT("bool U{0}::ExecuteGroup_{1}_{2}({3})\r\n{");
static constexpr TCHAR RigVM_InvokeExecuteGroupFormat[] = TEXT("\tif(!ExecuteGroup_{0}_{1}({2})) return false;");
static constexpr TCHAR RigVM_RigVMCoreIncludeFormat[] = TEXT("RigVMCore/RigVMCore.h");
static constexpr TCHAR RigVM_RigVMCoreLibraryFormat[] = TEXT("RigVM");
static constexpr TCHAR RigVM_JoinFilePathFormat[] = TEXT("{0}/{1}");
static constexpr TCHAR RigVM_GetOperandSliceFormat[] = TEXT("GetOperandSlice<{0}>({1}){2}");
static constexpr TCHAR RigVM_ExternalVariableFormat[] = TEXT("(*External_{0})");
static constexpr TCHAR RigVM_JoinSegmentPathFormat[] = TEXT("{0}.{1}");
static constexpr TCHAR RigVM_GetArrayElementSafeFormat[] = TEXT("GetArrayElementSafe<{0}>({1}, {2})");
static constexpr TCHAR RigVM_InvokeEntryOpFormat[] = TEXT("\tif(!InvokeEntryByName(EntryName_{0})) return false;");
FString FRigVMCodeGenerator::DumpIncludes(bool bLog)
{
FStringArray Lines;
for(const FString& Include : Includes)
{
Lines.Add(Format(RigVM_IncludeBracketFormat, Include));
}
return DumpLines(Lines, bLog);
}
FString FRigVMCodeGenerator::DumpWrappedArrayTypes(bool bLog)
{
FStringArray Lines;
for(const FString& WrappedArrayType : WrappedArrayCPPTypes)
{
if (!Lines.IsEmpty())
{
Lines.Add(FString());
}
const FString TypeName = GetMappedArrayTypeName(WrappedArrayType);
const FString Line = Format(RigVM_WrappedArrayTypeFormat, *ModuleName.ToUpper(), *TypeName, *WrappedArrayType);
Lines.Add(Line);
}
return DumpLines(Lines, bLog);
}
FString FRigVMCodeGenerator::DumpExternalVariables(bool bForHeader, bool bLog)
{
FStringArray Lines;
for(int32 ExternalVariableIndex = 0; ExternalVariableIndex < VM->GetExternalVariables().Num(); ExternalVariableIndex++)
{
const FRigVMOperand ExternalVarOperand(ERigVMMemoryType::External, ExternalVariableIndex, INDEX_NONE);
const FRigVMExternalVariable& ExternalVariable = VM->GetExternalVariables()[ExternalVariableIndex]; //-V758
const FString ExternalVarCPPType = ExternalVariable.GetExtendedCPPType().ToString();
FString OperandName = *GetOperandName(ExternalVarOperand, false);
if(OperandName.StartsWith(TEXT("(*")) && OperandName.EndsWith(TEXT(")")))
{
OperandName = OperandName.Mid(2, OperandName.Len() - 3);
}
if(bForHeader)
{
Lines.Add(Format(RigVM_DeclareExternalVariableFormat, *ExternalVarCPPType, *OperandName));
}
else
{
Lines.Add(Format(RigVM_UpdateExternalVariableFormat, *OperandName, *ExternalVarCPPType, *ExternalVariable.Name.ToString(), *ExternalVarCPPType));
}
}
return DumpLines(Lines, bLog);
}
FString FRigVMCodeGenerator::DumpEntries(bool bForHeader, bool bLog)
{
FStringArray Lines;
const FRigVMByteCode& ByteCode = VM->GetByteCode();
for(int32 EntryIndex = 0; EntryIndex < ByteCode.NumEntries(); EntryIndex++)
{
const FRigVMByteCodeEntry& Entry = ByteCode.GetEntry(EntryIndex);
const FString EntryName = Entry.GetSanitizedName();
if(bForHeader)
{
Lines.Add(Format(RigVM_DeclareEntryNameFormat, *EntryName));
}
else
{
Lines.Add(Format(RigVM_DefineEntryNameFormat, *ClassName, *EntryName, *Entry.Name.ToString()));
}
}
return DumpLines(Lines, bLog);
}
FString FRigVMCodeGenerator::DumpProperties(bool bForHeader, int32 InOperationGroup, bool bLog)
{
if(bForHeader)
{
// for headers we show all properties
check(InOperationGroup == INDEX_NONE);
}
FStringArray Lines;
for(int32 Index = 0; Index < Properties.Num(); Index++)
{
if(!IsPropertyPartOfGroup(Index, InOperationGroup))
{
continue;
}
const FPropertyInfo& PropertyInfo = Properties[Index];
// in headers we only dump the work / sliced properties,
// and for source files we only dump the non-sliced
if(bForHeader != (PropertyInfo.PropertyType == ERigVMNativizedPropertyType::Sliced ||
(PropertyInfo.PropertyType == ERigVMNativizedPropertyType::Work &&
PropertyInfo.Groups.Num() > 1)))
{
continue;
}
const FRigVMPropertyDescription& Property = PropertyInfo.Description;
check(Property.IsValid());
if(PropertyInfo.PropertyType == ERigVMNativizedPropertyType::Literal)
{
FRigVMOperand Operand(ERigVMMemoryType::Literal, PropertyInfo.MemoryPropertyIndex, INDEX_NONE);
FString OperandName = GetOperandName(Operand, false);
FString CPPType = GetOperandCPPType(Operand);
FString BaseCPPType = CPPType;
const bool bIsArray = RigVMTypeUtils::IsArrayType(CPPType);
if (bIsArray)
{
BaseCPPType = RigVMTypeUtils::BaseTypeFromArrayType(CPPType);
}
FString DefaultValue = Property.DefaultValue;
if (UScriptStruct* ScriptStruct = Cast<UScriptStruct>(Property.CPPTypeObject))
{
DefaultValue = DefaultValue.ReplaceCharWithEscapedChar();
if(DefaultValue.IsEmpty())
{
Lines.Add(Format(
RigVM_DefineConstFormatNoDefault,
*CPPType,
*GetOperandName(Operand, false)
));
}
else
{
if(const TStructConstGenerator* StructConstGenerator = GetStructConstGenerators().Find(*BaseCPPType))
{
if(bIsArray)
{
FStringArray DefaultValues = URigVMPin::SplitDefaultValue(DefaultValue);
for(int32 DefaultValueIndex = 0; DefaultValueIndex < DefaultValues.Num(); DefaultValueIndex++)
{
DefaultValues[DefaultValueIndex] = (*StructConstGenerator)(DefaultValues[DefaultValueIndex]);
}
DefaultValue = Format(RigVM_CurlyBracesFormat, FString::Join(DefaultValues, RigVM_CommaSeparator));
}
else
{
DefaultValue = (*StructConstGenerator)(DefaultValue);
}
Lines.Add(Format(
RigVM_DefineConstFormat,
*CPPType,
*OperandName,
*DefaultValue
));
}
else if (bIsArray)
{
Lines.Add(Format(
RigVM_DefineStructArrayConstFormat,
*CPPType,
*OperandName,
*BaseCPPType,
*DefaultValue
));
}
else
{
Lines.Add(Format(
RigVM_DefineStructConstFormat,
*CPPType,
*OperandName,
*DefaultValue
));
}
}
}
else if (const UEnum* Enum = Cast<UEnum>(Property.CPPTypeObject))
{
BaseCPPType = Enum->GetName();
if (Enum->GetCppForm() == UEnum::ECppForm::Namespaced)
{
BaseCPPType += RigVM_EnumTypeSuffixFormat;
}
CPPType = BaseCPPType;
if (bIsArray)
{
CPPType = RigVMTypeUtils::ArrayTypeFromBaseType(BaseCPPType);
}
FStringArray DefaultValues;
if (bIsArray)
{
DefaultValues = URigVMPin::SplitDefaultValue(DefaultValue);
}
else
{
DefaultValues.Add(DefaultValue);
}
for(int32 DefaultValueIndex = 0; DefaultValueIndex < DefaultValues.Num(); DefaultValueIndex++)
{
if (DefaultValues[DefaultValueIndex].IsNumeric())
{
const int64 EnumIndex = FCString::Atoi64(*DefaultValues[DefaultValueIndex]);
const FString EnumName = Enum->GetNameStringByValue(EnumIndex);
DefaultValues[DefaultValueIndex] = Enum->GenerateFullEnumName(*EnumName);
}
else if (!UEnum::IsFullEnumName(*DefaultValues[DefaultValueIndex]))
{
DefaultValues[DefaultValueIndex] = Enum->GenerateFullEnumName(*DefaultValues[DefaultValueIndex]);
}
}
if (bIsArray)
{
DefaultValue = Format(RigVM_CurlyBracesFormat, *FString::Join(DefaultValues, TEXT(",")));
}
else
{
DefaultValue = DefaultValues[0];
}
if(DefaultValue.IsEmpty())
{
Lines.Add(Format(
RigVM_DefineConstFormatNoDefault,
*CPPType,
*OperandName
));
}
else
{
Lines.Add(Format(
RigVM_DefineConstFormat,
*CPPType,
*OperandName,
*DefaultValue
));
}
}
else
{
bool bUseConstExpr = true;
if (bIsArray)
{
bUseConstExpr = false;
if (DefaultValue.StartsWith(TEXT("(")) && DefaultValue.EndsWith(TEXT(")")))
{
DefaultValue = Format(RigVM_CurlyBracesFormat, *DefaultValue.Mid(1, DefaultValue.Len() - 2));
}
}
if (BaseCPPType == RigVMTypeUtils::BoolType)
{
DefaultValue.ToLowerInline();
}
if (CPPType == RigVMTypeUtils::FNameType || CPPType == RigVMTypeUtils::FStringType)
{
if(DefaultValue.IsEmpty())
{
if(CPPType == RigVMTypeUtils::FNameType)
{
DefaultValue = RigVM_NameNoneFormat;
}
else
{
DefaultValue = RigVM_EmptyStringFormat;
}
}
else
{
if (DefaultValue.StartsWith(TEXT("\"")) && DefaultValue.EndsWith(TEXT("\"")))
{
DefaultValue = Format(RigVM_TextFormat, *DefaultValue);
}
else
{
DefaultValue = Format(RigVM_QuotedTextFormat, *DefaultValue);
}
}
bUseConstExpr = false;
}
if(DefaultValue.IsEmpty())
{
Lines.Add(Format(
RigVM_DefineConstFormatNoDefault,
*CPPType,
*OperandName
));
}
else
{
Lines.Add(Format(
RigVM_DefineConstFormat,
*CPPType,
*OperandName,
*DefaultValue
));
}
}
}
else // work and slice look the same in the file
{
FRigVMOperand Operand(ERigVMMemoryType::Work, PropertyInfo.MemoryPropertyIndex, INDEX_NONE);
FString OperandName = GetOperandName(Operand, false);
FString CPPType = GetOperandCPPType(Operand);
const FString MappedType = GetMappedType(Property.CPPType);
const FString Line = Format(RigVM_MemberPropertyFormat, *MappedType, *SanitizeName(Property.Name.ToString(), Property.CPPType));
Lines.Add(Line);
}
}
return DumpLines(Lines, bLog);
}
FString FRigVMCodeGenerator::DumpInstructions(int32 InOperationGroup, bool bLog)
{
const FRigVMByteCode& ByteCode = VM->GetByteCode();
const TArray<FName>& Functions = VM->GetFunctionNames();
const FRigVMInstructionArray Operations = ByteCode.GetInstructions();
FStringArray Lines;
const FOperationGroup& Group = GetGroup(InOperationGroup);
auto GetEntryParameters = [&]() -> FString
{
const int32 EntryIndex = ByteCode.NumEntries() - 1;
const FRigVMByteCodeEntry& Entry = ByteCode.GetEntry(EntryIndex);
const FString EntryName = Entry.GetSanitizedName();
FString Parameters;
// find the entry's group and provide the needed arguments
for(const FOperationGroup& EntryGroup : OperationGroups)
{
if(EntryGroup.Depth <= 0 && EntryGroup.Entry == EntryName)
{
TArray<FString> ArgumentNames = {RigVM_ContextPublicFormat};
for(const FOpaqueArgument& OpaqueArgument : EntryGroup.OpaqueArguments)
{
ArgumentNames.Add(OpaqueArgument.Get<1>());
}
Parameters = FString::Join(ArgumentNames, RigVM_CommaSeparator);
break;
}
}
if(!Parameters.IsEmpty())
{
Parameters = RigVM_CommaSeparator + Parameters;
}
return Parameters;
};
if(Group.Entry.IsEmpty())
{
if(InOperationGroup == INDEX_NONE)
{
Lines.Add(Format(RigVM_UpdateContextFormat, Operations.Num()));
// let's get the additional arguments for all sub groups
TArray<FString> OpaqueArgumentHit;
for(const FOperationGroup& EntryGroup : OperationGroups)
{
if(EntryGroup.Entry.IsEmpty() || EntryGroup.Depth > 0)
{
continue;
}
for(const FOpaqueArgument& OpaqueArgument : EntryGroup.OpaqueArguments)
{
if(OpaqueArgumentHit.Contains(OpaqueArgument.Get<0>()))
{
continue;
}
const int32 ArgumentIndex = OpaqueArgumentHit.Add(OpaqueArgument.Get<0>());
FString ArgumentTypeNoRef = OpaqueArgument.Get<2>();
if (ArgumentTypeNoRef.EndsWith(TEXT("&")))
{
ArgumentTypeNoRef.LeftChopInline(1);
}
Lines.Add(Format(RigVM_FullOpaqueArgumentFormat, *OpaqueArgument.Get<2>(), *OpaqueArgument.Get<1>(), *ArgumentTypeNoRef, ArgumentIndex));
}
}
Lines.Add(Format(RigVM_InvokeEntryByNameFormat, *GetEntryParameters()));
return DumpLines(Lines, bLog);
}
else
{
Lines.Add(FString(RigVM_CanExecuteEntryFormat));
Lines.Emplace();
Lines.Add(FString(RigVM_EntryExecuteGuardFormat));
Lines.Add(FString(RigVM_PublicContextGuardFormat));
Lines.Emplace();
for(int32 EntryIndex = 0; EntryIndex < ByteCode.NumEntries(); EntryIndex++)
{
const FRigVMByteCodeEntry& Entry = ByteCode.GetEntry(EntryIndex);
const FString EntryName = Entry.GetSanitizedName();
FString OpaqueArguments;
// find the entry's group and provide the needed arguments
for(const FOperationGroup& EntryGroup : OperationGroups)
{
if(EntryGroup.Depth <= 0 && EntryGroup.Entry == EntryName)
{
TArray<FString> ArgumentNames = {RigVM_ContextPublicFormat};
for(const FOpaqueArgument& OpaqueArgument : EntryGroup.OpaqueArguments)
{
ArgumentNames.Add(OpaqueArgument.Get<1>());
}
OpaqueArguments = FString::Join(ArgumentNames, RigVM_CommaSeparator);
break;
}
}
Lines.Add(Format(RigVM_InvokeEntryFormat, *EntryName, *OpaqueArguments));
}
}
}
if(Group.Entry.IsEmpty() && OperationGroups.Num() > 0)
{
Lines.Add(RigVM_ReturnFalseFormat);
return DumpLines(Lines, bLog);
}
if(Group.ChildGroups.IsEmpty())
{
// loop over all of the operations once more
for(int32 OperationIndex = Group.First; OperationIndex <= Group.Last; OperationIndex++)
{
// inject a label if required
if (Group.RequiredLabels.Contains(OperationIndex))
{
Lines.Add(Format(RigVM_InstructionLabelFormat, OperationIndex));
}
Lines.Add(Format(RigVM_SetInstructionIndexFormat, OperationIndex));
const FRigVMInstruction& Operation = Operations[OperationIndex];
switch(Operation.OpCode)
{
case ERigVMOpCode::Execute_0_Operands:
case ERigVMOpCode::Execute_1_Operands:
case ERigVMOpCode::Execute_2_Operands:
case ERigVMOpCode::Execute_3_Operands:
case ERigVMOpCode::Execute_4_Operands:
case ERigVMOpCode::Execute_5_Operands:
case ERigVMOpCode::Execute_6_Operands:
case ERigVMOpCode::Execute_7_Operands:
case ERigVMOpCode::Execute_8_Operands:
case ERigVMOpCode::Execute_9_Operands:
case ERigVMOpCode::Execute_10_Operands:
case ERigVMOpCode::Execute_11_Operands:
case ERigVMOpCode::Execute_12_Operands:
case ERigVMOpCode::Execute_13_Operands:
case ERigVMOpCode::Execute_14_Operands:
case ERigVMOpCode::Execute_15_Operands:
case ERigVMOpCode::Execute_16_Operands:
case ERigVMOpCode::Execute_17_Operands:
case ERigVMOpCode::Execute_18_Operands:
case ERigVMOpCode::Execute_19_Operands:
case ERigVMOpCode::Execute_20_Operands:
case ERigVMOpCode::Execute_21_Operands:
case ERigVMOpCode::Execute_22_Operands:
case ERigVMOpCode::Execute_23_Operands:
case ERigVMOpCode::Execute_24_Operands:
case ERigVMOpCode::Execute_25_Operands:
case ERigVMOpCode::Execute_26_Operands:
case ERigVMOpCode::Execute_27_Operands:
case ERigVMOpCode::Execute_28_Operands:
case ERigVMOpCode::Execute_29_Operands:
case ERigVMOpCode::Execute_30_Operands:
case ERigVMOpCode::Execute_31_Operands:
case ERigVMOpCode::Execute_32_Operands:
case ERigVMOpCode::Execute_33_Operands:
case ERigVMOpCode::Execute_34_Operands:
case ERigVMOpCode::Execute_35_Operands:
case ERigVMOpCode::Execute_36_Operands:
case ERigVMOpCode::Execute_37_Operands:
case ERigVMOpCode::Execute_38_Operands:
case ERigVMOpCode::Execute_39_Operands:
case ERigVMOpCode::Execute_40_Operands:
case ERigVMOpCode::Execute_41_Operands:
case ERigVMOpCode::Execute_42_Operands:
case ERigVMOpCode::Execute_43_Operands:
case ERigVMOpCode::Execute_44_Operands:
case ERigVMOpCode::Execute_45_Operands:
case ERigVMOpCode::Execute_46_Operands:
case ERigVMOpCode::Execute_47_Operands:
case ERigVMOpCode::Execute_48_Operands:
case ERigVMOpCode::Execute_49_Operands:
case ERigVMOpCode::Execute_50_Operands:
case ERigVMOpCode::Execute_51_Operands:
case ERigVMOpCode::Execute_52_Operands:
case ERigVMOpCode::Execute_53_Operands:
case ERigVMOpCode::Execute_54_Operands:
case ERigVMOpCode::Execute_55_Operands:
case ERigVMOpCode::Execute_56_Operands:
case ERigVMOpCode::Execute_57_Operands:
case ERigVMOpCode::Execute_58_Operands:
case ERigVMOpCode::Execute_59_Operands:
case ERigVMOpCode::Execute_60_Operands:
case ERigVMOpCode::Execute_61_Operands:
case ERigVMOpCode::Execute_62_Operands:
case ERigVMOpCode::Execute_63_Operands:
case ERigVMOpCode::Execute_64_Operands:
{
const FRigVMExecuteOp& Op = ByteCode.GetOpAt<FRigVMExecuteOp>(Operation);
FRigVMOperandArray Operands = ByteCode.GetOperandsForExecuteOp(Operation);
const FRigVMFunction* Function = FRigVMRegistry::Get().FindFunction(*Functions[Op.FunctionIndex].ToString());
check(Function);
FStringArray Arguments;
Arguments.Add(RigVM_ContextPublicFormat);
for(int32 OperandIndex = 0; OperandIndex < Operands.Num(); OperandIndex++)
{
const FRigVMOperand& Operand = Operands[OperandIndex];
bool bSliced = false;
const FRigVMPropertyDescription& Property = GetPropertyForOperand(Operand);
if (RigVMTypeUtils::IsArrayType(Property.CPPType))
{
const FRigVMFunctionArgument& FunctionArgument = Function->GetArguments()[OperandIndex];
bSliced = FunctionArgument.Type != Property.CPPType;
}
Arguments.Add(GetOperandName(Operand, bSliced));
}
for(const FRigVMFunctionArgument& Argument : Function->GetArguments())
{
if (Function->IsAdditionalArgument(Argument))
{
const FOpaqueArgument* OpaqueArgument = Group.OpaqueArguments.FindByPredicate([Argument](const FOpaqueArgument& InArgument) -> bool
{
return InArgument.Get<0>() == Argument.Name;
});
check(OpaqueArgument);
Arguments.Add(OpaqueArgument->Get<1>());
}
}
const FString JoinedArguments = FString::Join(Arguments, RigVM_CommaSeparator);
Lines.Add(Format(RigVM_CallExternOpFormat, *Function->Struct->GetStructCPPName(), *Function->GetMethodName().ToString(), *JoinedArguments));
break;
}
case ERigVMOpCode::Zero:
{
const FRigVMUnaryOp& Op = ByteCode.GetOpAt<FRigVMUnaryOp>(Operation);
Lines.Add(Format(RigVM_ZeroOpFormat, *GetOperandName(Op.Arg, false)));
break;
}
case ERigVMOpCode::BoolFalse:
{
const FRigVMUnaryOp& Op = ByteCode.GetOpAt<FRigVMUnaryOp>(Operation);
Lines.Add(Format(RigVM_BoolFalseOpFormat, *GetOperandName(Op.Arg, false)));
break;
}
case ERigVMOpCode::BoolTrue:
{
const FRigVMUnaryOp& Op = ByteCode.GetOpAt<FRigVMUnaryOp>(Operation);
Lines.Add(Format(RigVM_BoolTrueFormat, *GetOperandName(Op.Arg, false)));
break;
}
case ERigVMOpCode::Copy:
case ERigVMOpCode::ArrayClone:
{
const FRigVMBinaryOp& Op = ByteCode.GetOpAt<FRigVMBinaryOp>(Operation);
const FString TargetOperand = GetOperandName(Op.ArgB, false, false);
const FString SourceOperand = GetOperandName(Op.ArgA, false, true);
const FString TargetCPPType = GetOperandCPPType(Op.ArgB);
const FString SourceCPPType = GetOperandCPPType(Op.ArgA);
if(RigVMTypeUtils::IsArrayType(TargetCPPType) &&
RigVMTypeUtils::IsArrayType(SourceCPPType) &&
TargetCPPType != SourceCPPType)
{
const FString TargetBaseCPPType = RigVMTypeUtils::BaseTypeFromArrayType(TargetCPPType);
const FString SourceBaseCPPType = RigVMTypeUtils::BaseTypeFromArrayType(SourceCPPType);
Lines.Add(Format(RigVM_CopyUnrelatedArraysFormat, *TargetBaseCPPType, *SourceBaseCPPType, *TargetOperand, *SourceOperand));
}
else
{
const FString CastPrefix = TargetCPPType != SourceCPPType ? Format(RigVM_BracesFormat, *TargetCPPType) : FString();
if(TargetOperand.EndsWith(TEXT("(")))
{
Lines.Add(Format(RigVM_CopyOpMethodFormat, *TargetOperand, *CastPrefix, *SourceOperand));
}
else
{
Lines.Add(Format(RigVM_CopyOpAssignFormat, *TargetOperand, *CastPrefix, *SourceOperand));
}
}
break;
}
case ERigVMOpCode::Increment:
{
const FRigVMUnaryOp& Op = ByteCode.GetOpAt<FRigVMUnaryOp>(Operation);
Lines.Add(Format(RigVM_IncrementOpFormat, *GetOperandName(Op.Arg, false)));
break;
}
case ERigVMOpCode::Decrement:
{
const FRigVMUnaryOp& Op = ByteCode.GetOpAt<FRigVMUnaryOp>(Operation);
Lines.Add(Format(RigVM_DecrementOpFormat, *GetOperandName(Op.Arg, false)));
break;
}
case ERigVMOpCode::Equals:
{
const FRigVMComparisonOp& Op = ByteCode.GetOpAt<FRigVMComparisonOp>(Operation);
Lines.Add(Format(RigVM_EqualsOpFormat, *GetOperandName(Op.Result, false), *GetOperandName(Op.B, false), *GetOperandName(Op.B, false)));
break;
}
case ERigVMOpCode::NotEquals:
{
const FRigVMComparisonOp& Op = ByteCode.GetOpAt<FRigVMComparisonOp>(Operation);
Lines.Add(Format(RigVM_NotEqualsOpFormat, *GetOperandName(Op.Result, false), *GetOperandName(Op.B, false), *GetOperandName(Op.B, false)));
break;
}
case ERigVMOpCode::JumpAbsolute:
{
const FRigVMJumpOp& Op = ByteCode.GetOpAt<FRigVMJumpOp>(Operation);
Lines.Add(Format(RigVM_JumpOpFormat, Op.InstructionIndex));
break;
}
case ERigVMOpCode::JumpForward:
{
const FRigVMJumpOp& Op = ByteCode.GetOpAt<FRigVMJumpOp>(Operation);
Lines.Add(Format(RigVM_JumpOpFormat, OperationIndex + Op.InstructionIndex));
break;
}
case ERigVMOpCode::JumpBackward:
{
const FRigVMJumpOp& Op = ByteCode.GetOpAt<FRigVMJumpOp>(Operation);
Lines.Add(Format(RigVM_JumpOpFormat, OperationIndex - Op.InstructionIndex));
break;
}
case ERigVMOpCode::JumpAbsoluteIf:
{
const FRigVMJumpIfOp& Op = ByteCode.GetOpAt<FRigVMJumpIfOp>(Operation);
const FString& Condition = Op.Condition ? RigVM_TrueFormat : RigVM_FalseFormat;
Lines.Add(Format(RigVM_JumpIfOpFormat, *GetOperandName(Op.Arg, false), *Condition, Op.InstructionIndex));
break;
}
case ERigVMOpCode::JumpForwardIf:
{
const FRigVMJumpIfOp& Op = ByteCode.GetOpAt<FRigVMJumpIfOp>(Operation);
const FString& Condition = Op.Condition ? RigVM_TrueFormat : RigVM_FalseFormat;
Lines.Add(Format(RigVM_JumpIfOpFormat, *GetOperandName(Op.Arg, false), *Condition, OperationIndex + Op.InstructionIndex));
break;
}
case ERigVMOpCode::JumpBackwardIf:
{
const FRigVMJumpIfOp& Op = ByteCode.GetOpAt<FRigVMJumpIfOp>(Operation);
const FString& Condition = Op.Condition ? RigVM_TrueFormat : RigVM_FalseFormat;
Lines.Add(Format(RigVM_JumpIfOpFormat, *GetOperandName(Op.Arg, false), *Condition, OperationIndex - Op.InstructionIndex));
break;
}
case ERigVMOpCode::Exit:
{
if(OperationIndex != Group.Last)
{
Lines.Add(Format(RigVM_JumpOpFormat, Operations.Num()));
}
break;
}
case ERigVMOpCode::BeginBlock:
{
const FRigVMBinaryOp& Op = ByteCode.GetOpAt<FRigVMBinaryOp>(Operation);
Lines.Add(Format(RigVM_BeginBlockOpFormat, *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgB, false)));
break;
}
case ERigVMOpCode::EndBlock:
{
Lines.Add(RigVM_EndBlockOpFormat);
break;
}
case ERigVMOpCode::ArrayReset:
{
const FRigVMUnaryOp& Op = ByteCode.GetOpAt<FRigVMUnaryOp>(Operation);
Lines.Add(Format(RigVM_ArrayResetOpFormat, *GetOperandName(Op.Arg, false)));
break;
}
case ERigVMOpCode::ArrayGetNum:
{
const FRigVMBinaryOp& Op = ByteCode.GetOpAt<FRigVMBinaryOp>(Operation);
Lines.Add(Format(RigVM_ArrayGetNumOpFormat, *GetOperandName(Op.ArgB, false), *GetOperandName(Op.ArgA, false)));
break;
}
case ERigVMOpCode::ArraySetNum:
{
const FRigVMBinaryOp& Op = ByteCode.GetOpAt<FRigVMBinaryOp>(Operation);
const FString ConditionString = Format(RigVM_IsValidArraySizeFormat, *GetOperandName(Op.ArgB, false));
Lines.Add(Format(RigVM_ArraySetNumOpFormat, *ConditionString, *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgB, false)));
break;
}
case ERigVMOpCode::ArrayGetAtIndex:
{
const FRigVMTernaryOp& Op = ByteCode.GetOpAt<FRigVMTernaryOp>(Operation);
const FString ConditionString = Format(RigVM_IsValidArrayIndexFormat, *GetOperandCPPBaseType(Op.ArgA), *GetOperandName(Op.ArgA, false));
Lines.Add(Format(RigVM_TemporaryArrayIndexFormat, *GetOperandName(Op.ArgB, false)));
Lines.Add(Format(RigVM_ArrayGetAtIndexOpFormat, *ConditionString, *GetOperandName(Op.ArgC, false), *GetOperandName(Op.ArgA, false)));
break;
}
case ERigVMOpCode::ArraySetAtIndex:
{
const FRigVMTernaryOp& Op = ByteCode.GetOpAt<FRigVMTernaryOp>(Operation);
const FString ConditionString = Format(RigVM_IsValidArrayIndexFormat, *GetOperandCPPBaseType(Op.ArgA), *GetOperandName(Op.ArgA, false));
Lines.Add(Format(RigVM_TemporaryArrayIndexFormat, *GetOperandName(Op.ArgB, false)));
Lines.Add(Format(RigVM_ArraySetAtIndexOpFormat, *ConditionString, *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgC, false), *GetOperandName(Op.ArgC, false)));
break;
}
case ERigVMOpCode::ArrayAdd:
{
const FRigVMTernaryOp& Op = ByteCode.GetOpAt<FRigVMTernaryOp>(Operation);
const FString NumString = Format(RigVM_ArrayNumPlusOneFormat, *GetOperandName(Op.ArgA, false));
const FString ConditionString = Format(RigVM_IsValidArraySizeFormat, *NumString);
Lines.Add(Format(RigVM_ArrayAddOpFormat, *ConditionString, *GetOperandName(Op.ArgC, false), *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgB, false)));
break;
}
case ERigVMOpCode::ArrayInsert:
{
const FRigVMTernaryOp& Op = ByteCode.GetOpAt<FRigVMTernaryOp>(Operation);
const FString NumString = Format(RigVM_ArrayNumPlusOneFormat, *GetOperandName(Op.ArgA, false));
const FString ConditionString = Format(RigVM_IsValidArraySizeFormat, *NumString);
Lines.Add(Format(RigVM_ArrayInsertOpFormat, *ConditionString, *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgC, false), *GetOperandName(Op.ArgB, false)));
break;
}
case ERigVMOpCode::ArrayRemove:
{
const FRigVMBinaryOp& Op = ByteCode.GetOpAt<FRigVMBinaryOp>(Operation);
Lines.Add(Format(RigVM_ArrayRemoveOpFormat, *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgB, false)));
break;
}
case ERigVMOpCode::ArrayFind:
{
const FRigVMQuaternaryOp& Op = ByteCode.GetOpAt<FRigVMQuaternaryOp>(Operation);
const FString ArrayElementCPPType = RigVMTypeUtils::BaseTypeFromArrayType(GetOperandCPPBaseType(Op.ArgA));
const FString ElementCPPType = GetOperandCPPType(Op.ArgB);
const FString TemplateSuffix = ArrayElementCPPType == ElementCPPType ? Format(RigVM_TemplateOneArgFormat, *ElementCPPType) : FString();
Lines.Add(Format(RigVM_ArrayFindOpFormat, *GetOperandName(Op.ArgD, false), *TemplateSuffix, *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgB, false), *GetOperandName(Op.ArgC, false)));
break;
}
case ERigVMOpCode::ArrayAppend:
{
const FRigVMBinaryOp& Op = ByteCode.GetOpAt<FRigVMBinaryOp>(Operation);
const FString NumString = Format(RigVM_ArrayAppendOpNumFormat, *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgB, false));
const FString ConditionString = Format(RigVM_IsValidArraySizeFormat, *NumString);
Lines.Add(Format(RigVM_ArrayAppendOpFormat, *ConditionString, *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgB, false)));
break;
}
case ERigVMOpCode::ArrayIterator:
{
const FRigVMSenaryOp& Op = ByteCode.GetOpAt<FRigVMSenaryOp>(Operation);
const FString ArrayElementCPPType = RigVMTypeUtils::BaseTypeFromArrayType(GetOperandCPPType(Op.ArgA));
const FString ElementCPPType = GetOperandCPPType(Op.ArgB);
const FString TemplateSuffix = ArrayElementCPPType == ElementCPPType ? Format(RigVM_TemplateOneArgFormat, *ElementCPPType) : FString();
Lines.Add(Format(RigVM_ArrayIteratorOpFormat, *GetOperandName(Op.ArgF, false), *TemplateSuffix, *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgB, false), *GetOperandName(Op.ArgC, false), *GetOperandName(Op.ArgD, false), *GetOperandName(Op.ArgE, false)));
break;
}
case ERigVMOpCode::ArrayUnion:
{
const FRigVMBinaryOp& Op = ByteCode.GetOpAt<FRigVMBinaryOp>(Operation);
const FString ElementCPPTypeA = RigVMTypeUtils::BaseTypeFromArrayType(GetOperandCPPType(Op.ArgA));
const FString ElementCPPTypeB = RigVMTypeUtils::BaseTypeFromArrayType(GetOperandCPPType(Op.ArgA));
const FString TemplateSuffix = ElementCPPTypeA == ElementCPPTypeB ? Format(RigVM_TemplateOneArgFormat, *ElementCPPTypeA) : FString();
Lines.Add(Format(RigVM_ArrayUnionOpFormat, *TemplateSuffix, *GetOperandName(Op.ArgA, false, false), *GetOperandName(Op.ArgB, false, false)));
break;
}
case ERigVMOpCode::ArrayDifference:
{
const FRigVMBinaryOp& Op = ByteCode.GetOpAt<FRigVMBinaryOp>(Operation);
const FString ElementCPPTypeA = RigVMTypeUtils::BaseTypeFromArrayType(GetOperandCPPType(Op.ArgA));
const FString ElementCPPTypeB = RigVMTypeUtils::BaseTypeFromArrayType(GetOperandCPPType(Op.ArgA));
const FString TemplateSuffix = ElementCPPTypeA == ElementCPPTypeB ? Format(RigVM_TemplateOneArgFormat, *ElementCPPTypeA) : FString();
Lines.Add(Format(RigVM_ArrayDifferenceOpFormat, *TemplateSuffix, *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgB, false)));
break;
}
case ERigVMOpCode::ArrayIntersection:
{
const FRigVMBinaryOp& Op = ByteCode.GetOpAt<FRigVMBinaryOp>(Operation);
const FString ElementCPPTypeA = RigVMTypeUtils::BaseTypeFromArrayType(GetOperandCPPType(Op.ArgA));
const FString ElementCPPTypeB = RigVMTypeUtils::BaseTypeFromArrayType(GetOperandCPPType(Op.ArgA));
const FString TemplateSuffix = ElementCPPTypeA == ElementCPPTypeB ? Format(RigVM_TemplateOneArgFormat, *ElementCPPTypeA) : FString();
Lines.Add(Format(RigVM_ArrayIntersectionOpFormat, *TemplateSuffix, *GetOperandName(Op.ArgA, false), *GetOperandName(Op.ArgB, false)));
break;
}
case ERigVMOpCode::ArrayReverse:
{
const FRigVMUnaryOp& Op = ByteCode.GetOpAt<FRigVMUnaryOp>(Operation);
const FString ElementCPPType = RigVMTypeUtils::BaseTypeFromArrayType(GetOperandCPPType(Op.Arg));
const FString TemplateSuffix = Format(RigVM_TemplateOneArgFormat, *ElementCPPType);
Lines.Add(Format(RigVM_ArrayReverseOpFormat, *TemplateSuffix, *GetOperandName(Op.Arg, false)));
break;
}
case ERigVMOpCode::InvokeEntry:
{
const FRigVMInvokeEntryOp& Op = ByteCode.GetOpAt<FRigVMInvokeEntryOp>(Operation);
const FString EntryName = Op.EntryName.ToString();
Lines.Add(Format(RigVM_InvokeEntryByNameFormat2, *EntryName, *GetEntryParameters()));
break;
}
case ERigVMOpCode::Invalid:
case ERigVMOpCode::ChangeType:
default:
{
// we expect to cover all op types
checkNoEntry();
}
}
}
}
else
{
// we have child groups - we need to invoke those
for(int32 ChildGroupIndex : Group.ChildGroups)
{
const FOperationGroup& ChildGroup = OperationGroups[ChildGroupIndex];
FString Parameters;
TArray<FString> ParameterArray = {RigVM_ContextPublicFormat};
if(!ChildGroup.OpaqueArguments.IsEmpty())
{
for(const FOpaqueArgument& OpaqueArgument : ChildGroup.OpaqueArguments)
{
ParameterArray.Add(OpaqueArgument.Get<1>());
}
}
Parameters = FString::Join(ParameterArray, RigVM_CommaSeparator);
Lines.Add(Format(RigVM_InvokeExecuteGroupFormat, *ChildGroup.Entry, ChildGroupIndex, *Parameters));
}
}
Lines.Emplace();
if(Group.Depth <= 0)
{
Lines.Add(RigVM_ExecuteReachedExitFormat);
}
Lines.Add(RigVM_ReturnTrueFormat);
return DumpLines(Lines, bLog);
}
FString FRigVMCodeGenerator::DumpHeader(bool bLog)
{
const FRigVMByteCode& ByteCode = VM->GetByteCode();
FStringArray FormattedEntries;
for(int32 EntryIndex = 0; EntryIndex < ByteCode.NumEntries(); EntryIndex++)
{
const FRigVMByteCodeEntry& Entry = ByteCode.GetEntry(EntryIndex);
FormattedEntries.Add(Format(RigVM_EntryNameFormat, *Entry.GetSanitizedName()));
}
FStringArray Lines;
Lines.Add(RigVM_CopyrightFormat);
Lines.Emplace();
Lines.Add(RigVM_AutoGeneratedFormat);
Lines.Emplace();
Lines.Add(RigVM_PragmaOnceFormat);
Lines.Emplace();
Lines.Add(DumpIncludes());
Lines.Add(Format(RigVM_GeneratedIncludeFormat, *ClassName));
Lines.Emplace();
if(WrappedArrayCPPTypes.Num() > 0)
{
Lines.Add(DumpWrappedArrayTypes());
Lines.Emplace();
}
Lines.Add(Format(RigVM_UClassDefinitionFormat, *ModuleName.ToUpper(), *ClassName));
Lines.Add(Format(RigVM_GetVMHashFormat, VM->GetVMHash()));
Lines.Add(Format(RigVM_GetEntryNamesFormat, *FString::Join(FormattedEntries, RigVM_CommaSeparator)));
Lines.Emplace();
Lines.Add(FString(RigVM_DeclareExecuteFormat));
Lines.Emplace();
Lines.Add(RigVM_ProtectedFormat);
if(!VM->GetExternalVariables().IsEmpty())
{
Lines.Add(RigVM_DeclareUpdateExternalVariablesFormat);
}
for(int32 GroupIndex = 0; GroupIndex < OperationGroups.Num(); GroupIndex++)
{
const FOperationGroup& Group = OperationGroups[GroupIndex];
FString Parameters;
TArray<FString> ParameterArray = {RigVM_ContextPublicParameterFormat};
if(!Group.OpaqueArguments.IsEmpty())
{
for(const FOpaqueArgument& OpaqueArgument : Group.OpaqueArguments)
{
ParameterArray.Add(Format(RigVM_ParameterOpaqueArgumentFormat, *OpaqueArgument.Get<2>(), *OpaqueArgument.Get<1>()));
}
}
Parameters = FString::Join(ParameterArray, RigVM_CommaSeparator);
if(Group.Depth == 0)
{
Lines.Add(Format(RigVM_DeclareExecuteEntryFormat, *Group.Entry, *Parameters));
}
else
{
Lines.Add(Format(RigVM_DeclareExecuteGroupFormat, *Group.Entry, GroupIndex, *Parameters));
}
if(GroupIndex == OperationGroups.Num() - 1)
{
if(!Parameters.IsEmpty())
{
Parameters = RigVM_CommaSeparator + Parameters;
}
Lines.Add(Format(RigVM_DeclareInvokeEntryByNameFormat, *Parameters));
}
}
Lines.Emplace();
Lines.Add(DumpEntries(true));
Lines.Emplace();
Lines.Add(DumpProperties(true, INDEX_NONE));
if(!VM->GetExternalVariables().IsEmpty())
{
Lines.Add(DumpExternalVariables(true));
}
Lines.Add(TEXT("};"));
Lines.Emplace();
return DumpLines(Lines, bLog);
}
FString FRigVMCodeGenerator::DumpSource(bool bLog)
{
const FRigVMByteCode& ByteCode = VM->GetByteCode();
FStringArray Lines;
Lines.Add(RigVM_CopyrightFormat);
Lines.Emplace();
Lines.Add(RigVM_AutoGeneratedFormat);
Lines.Emplace();
Lines.Add(Format(RigVM_IncludeQuoteFormat, *ClassName));
Lines.Emplace();
Lines.Add(DumpEntries(false));
Lines.Emplace();
Lines.Add(Format(RigVM_DefineExecuteFormat, *ClassName));
Lines.Add(DumpInstructions(INDEX_NONE));
Lines.Add(TEXT("}"));
if(!VM->GetExternalVariables().IsEmpty())
{
Lines.Emplace();
Lines.Add(Format(RigVM_DefineUpdateExternalVariablesFormat, *ClassName));
Lines.Add(DumpExternalVariables(false));
Lines.Add(TEXT("}"));
}
for(int32 GroupIndex = 0; GroupIndex < OperationGroups.Num(); GroupIndex++)
{
const FOperationGroup& Group = OperationGroups[GroupIndex];
FString Parameters;
TArray<FString> ParameterArray = {RigVM_ContextPublicParameterFormat};
if(!Group.OpaqueArguments.IsEmpty())
{
for(const FOpaqueArgument& OpaqueArgument : Group.OpaqueArguments)
{
ParameterArray.Add(Format(RigVM_ParameterOpaqueArgumentFormat, *OpaqueArgument.Get<2>(), *OpaqueArgument.Get<1>()));
}
}
Parameters = FString::Join(ParameterArray, RigVM_CommaSeparator);
Lines.Emplace();
if(Group.Depth == 0)
{
Lines.Add(Format(RigVM_DefineExecuteEntryFormat, *ClassName, *Group.Entry, *Parameters));
}
else
{
Lines.Add(Format(RigVM_DefineExecuteGroupFormat, *ClassName, *Group.Entry, GroupIndex, *Parameters));
}
const FString DumpedProperties = DumpProperties(false, GroupIndex);
if(!DumpedProperties.IsEmpty())
{
Lines.Add(DumpedProperties);
Lines.Emplace();
}
Lines.Add(DumpInstructions(GroupIndex));
Lines.Add(TEXT("}"));
if(GroupIndex == OperationGroups.Num() - 1)
{
if(!Parameters.IsEmpty())
{
Parameters = RigVM_CommaSeparator + Parameters;
}
Lines.Emplace();
Lines.Add(Format(RigVM_DefineInvokeEntryByNameFormat, *ClassName, *Parameters));
Lines.Add(DumpInstructions(-2));
Lines.Add(TEXT("}"));
}
}
return DumpLines(Lines, bLog);
}
FString FRigVMCodeGenerator::DumpLines(const TArray<FString>& InLines, bool bLog)
{
if (bLog)
{
for(const FString& Line : InLines)
{
UE_LOG(LogRigVMDeveloper, Display, RigVM_SingleStringFormat, *Line);
}
}
return FString::Join(InLines, RigVM_NewLineFormat);
}
void FRigVMCodeGenerator::Reset()
{
ClassName.Reset();
ModuleName.Reset();
Libraries.Reset();
Includes.Reset();
OperationGroups.Reset();
WrappedArrayCPPTypes.Reset();
MappedCPPTypes.Reset();
Properties.Reset();
PropertyNameToIndex.Reset();
}
void FRigVMCodeGenerator::ParseVM(const FString& InClassName, const FString& InModuleName,
URigVMGraph* InModelToNativize, URigVM* InVMToNativize,
TMap<FString,FRigVMOperand> InPinToOperandMap, int32 InMaxOperationsPerFunction)
{
check(InVMToNativize);
Reset();
Model = TStrongObjectPtr<URigVMGraph>(InModelToNativize);
VM = TStrongObjectPtr<URigVM>(InVMToNativize);
PinToOperandMap = InPinToOperandMap;
MaxOperationsPerFunction = InMaxOperationsPerFunction;
ClassName = InClassName;
ModuleName = InModuleName;
// create an inverted map to lookup pins from operands
OperandToPinMap.Reset();
for(const TPair<FString,FRigVMOperand>& Pair : PinToOperandMap)
{
OperandToPinMap.FindOrAdd(Pair.Value) = Pair.Key;
}
// default includes
ParseInclude(URigVM::StaticClass());
Properties.Reserve(
InVMToNativize->GetLiteralMemory(true)->Num() +
InVMToNativize->GetWorkMemory(true)->Num());
ParseMemory(InVMToNativize->GetLiteralMemory(true));
ParseMemory(InVMToNativize->GetWorkMemory(true));
ParseOperationGroups();
}
void FRigVMCodeGenerator::ParseInclude(UStruct* InDependency, const FName& InMethodName)
{
if (InDependency->IsChildOf(FRigVMStruct::StaticStruct()))
{
if (const FRigVMFunction* Function = FRigVMRegistry::Get().FindFunction(Cast<UScriptStruct>(InDependency), *InMethodName.ToString()))
{
FString FunctionModuleName = Function->GetModuleName();
if (FunctionModuleName.Contains(TEXT("/")))
{
FunctionModuleName.Split(TEXT("/"), nullptr, &FunctionModuleName, ESearchCase::IgnoreCase, ESearchDir::FromEnd);
}
Libraries.AddUnique(FunctionModuleName);
Includes.AddUnique(Format(RigVM_JoinFilePathFormat, *FunctionModuleName, *Function->GetModuleRelativeHeaderPath()));
return;
}
}
if (InDependency == URigVM::StaticClass() ||
InDependency == FRigVMByteCode::StaticStruct() ||
InDependency->IsChildOf(FRigVMExecuteContext::StaticStruct()) ||
InDependency->IsChildOf(FRigVMBaseOp::StaticStruct()) ||
InDependency->IsChildOf(URigVMMemoryStorage::StaticClass()))
{
Libraries.AddUnique(RigVM_RigVMCoreLibraryFormat);
Includes.AddUnique(RigVM_RigVMCoreIncludeFormat);
}
}
void FRigVMCodeGenerator::ParseMemory(URigVMMemoryStorage* InMemory)
{
if (InMemory == nullptr)
{
return;
}
if (InMemory->GetClass() == URigVMMemoryStorage::StaticClass())
{
return;
}
for (TFieldIterator<FProperty> PropertyIt(InMemory->GetClass()); PropertyIt; ++PropertyIt)
{
const FProperty* Property = *PropertyIt;
ParseProperty(InMemory->GetMemoryType(), Property, InMemory);
}
}
void FRigVMCodeGenerator::ParseProperty(ERigVMMemoryType InMemoryType, const FProperty* InProperty, URigVMMemoryStorage* InMemory)
{
if (URigVMMemoryStorageGeneratorClass* MemoryClass = Cast<URigVMMemoryStorageGeneratorClass>(InMemory->GetClass()))
{
const int32 PropertyIndex = InMemory->GetPropertyIndex(InProperty);
const FRigVMOperand Operand(InMemoryType, PropertyIndex);
const FRigVMPropertyDescription& PropertyDescription = GetPropertyForOperand(Operand);
FPropertyInfo Info;
Info.MemoryPropertyIndex = PropertyIndex;
Info.Description = PropertyDescription;
check(InMemoryType == ERigVMMemoryType::Literal || InMemoryType == ERigVMMemoryType::Work);
if(InMemoryType == ERigVMMemoryType::Literal)
{
Info.PropertyType = ERigVMNativizedPropertyType::Literal;
}
else
{
Info.PropertyType = ERigVMNativizedPropertyType::Work;
// work state may be a hidden / sliced property.
if(RigVMTypeUtils::IsArrayType(PropertyDescription.CPPType))
{
if(const FString* PinPath = OperandToPinMap.Find(Operand))
{
if(const URigVMPin* Pin = Model->FindPin(*PinPath))
{
if(Pin->GetDirection() == ERigVMPinDirection::Hidden)
{
Info.PropertyType = ERigVMNativizedPropertyType::Sliced;
}
}
}
}
}
const int32 LookupIndex = Properties.Add(Info);
PropertyNameToIndex.Add(Info.Description.Name, LookupIndex);
// if this property is a nested array, we need to inject out wrapped types
if(PropertyDescription.Containers.Num() > 1)
{
check(PropertyDescription.Containers[0] == EPinContainerType::Array);
check(PropertyDescription.Containers[1] == EPinContainerType::Array);
FString BaseElementType = RigVMTypeUtils::BaseTypeFromArrayType(PropertyDescription.CPPType);
BaseElementType = RigVMTypeUtils::BaseTypeFromArrayType(BaseElementType);
WrappedArrayCPPTypes.AddUnique(BaseElementType);
const FString ArrayArray = RigVMTypeUtils::ArrayTypeFromBaseType(RigVMTypeUtils::ArrayTypeFromBaseType(BaseElementType));
const FString MappedType = RigVMTypeUtils::ArrayTypeFromBaseType(GetMappedArrayTypeName(BaseElementType));
MappedCPPTypes.Add(ArrayArray, FMappedType(MappedType, TEXT(".Array")));
}
}
}
void FRigVMCodeGenerator::ParseOperationGroups()
{
const TArray<FName>& Functions = VM->GetFunctionNames();
const FRigVMByteCode& ByteCode = VM->GetByteCode();
const FRigVMInstructionArray Operations = ByteCode.GetInstructions();
for(int32 EntryIndex = 0; EntryIndex < ByteCode.NumEntries(); EntryIndex++)
{
const FRigVMByteCodeEntry& Entry = ByteCode.GetEntry(EntryIndex);
FOperationGroup Group;
Group.Entry = Entry.GetSanitizedName();
Group.Depth = 0;
Group.First = Entry.InstructionIndex;
Group.Last = Operations.Num() - 1;
for(int32 OperationIndex = Group.First+1; OperationIndex < Operations.Num(); OperationIndex++)
{
if(Operations[OperationIndex].OpCode == ERigVMOpCode::Exit)
{
Group.Last = OperationIndex;
break;
}
}
OperationGroups.Add(Group);
}
for(int32 GroupIndex = 0; GroupIndex < OperationGroups.Num(); GroupIndex++)
{
// copy the group here since it will be invalid soon
FOperationGroup Group = OperationGroups[GroupIndex];
if(Group.Last - Group.First + 1 > MaxOperationsPerFunction)
{
// find all of the constraints / jumps
TArray<TTuple<int32,int32>> Constraints;
for(int32 OperationIndex = Group.First; OperationIndex <= Group.Last; OperationIndex++)
{
int32 OtherIndex = INDEX_NONE;
const FRigVMInstruction& Operation = Operations[OperationIndex];
switch(Operation.OpCode)
{
case ERigVMOpCode::JumpAbsolute:
{
const FRigVMJumpOp& Op = ByteCode.GetOpAt<FRigVMJumpOp>(Operation);
OtherIndex = Op.InstructionIndex;
break;
}
case ERigVMOpCode::JumpForward:
{
const FRigVMJumpOp& Op = ByteCode.GetOpAt<FRigVMJumpOp>(Operation);
OtherIndex = OperationIndex + Op.InstructionIndex;
break;
}
case ERigVMOpCode::JumpBackward:
{
const FRigVMJumpOp& Op = ByteCode.GetOpAt<FRigVMJumpOp>(Operation);
OtherIndex = OperationIndex - Op.InstructionIndex;
break;
}
case ERigVMOpCode::JumpAbsoluteIf:
{
const FRigVMJumpIfOp& Op = ByteCode.GetOpAt<FRigVMJumpIfOp>(Operation);
OtherIndex = OperationIndex;
break;
}
case ERigVMOpCode::JumpForwardIf:
{
const FRigVMJumpIfOp& Op = ByteCode.GetOpAt<FRigVMJumpIfOp>(Operation);
OtherIndex = OperationIndex + Op.InstructionIndex;
break;
}
case ERigVMOpCode::JumpBackwardIf:
{
const FRigVMJumpIfOp& Op = ByteCode.GetOpAt<FRigVMJumpIfOp>(Operation);
OtherIndex = OperationIndex - Op.InstructionIndex;
break;
}
default:
{
break;
}
}
if(OtherIndex != INDEX_NONE)
{
Constraints.Add(TTuple<int32,int32>(
FMath::Min(OperationIndex, OtherIndex),
FMath::Max(OperationIndex, OtherIndex)));
}
}
const int32 First = Group.First;
const int32 Last = Group.Last;
int32 Middle = (Group.Last + Group.First) / 2;
int32 MiddleHead = Middle;
int32 MiddleTail = Middle;
bool bMoveTowardsHead = true;
auto IsWithinConstraint = [&bMoveTowardsHead, &MiddleHead, &MiddleTail](const TTuple<int32,int32>& Constraint) -> bool
{
int32& Middle = bMoveTowardsHead ? MiddleHead : MiddleTail;
return FMath::IsWithinInclusive(Middle, Constraint.Get<0>(), Constraint.Get<1>());
};
// while the middle instruction is within a constraint - move it
while(Constraints.FindByPredicate(IsWithinConstraint))
{
MiddleHead--;
}
bMoveTowardsHead = false;
while(Constraints.FindByPredicate(IsWithinConstraint))
{
MiddleTail++;
}
Middle = ((MiddleHead - First) > (Last - MiddleTail)) ? MiddleHead : MiddleTail;
if(Middle == First || Middle == Last)
{
continue;
}
FOperationGroup HeadGroup = Group;
HeadGroup.ParentGroup = GroupIndex;
HeadGroup.ChildGroups.Reset();
HeadGroup.First = First;
HeadGroup.Last = Middle;
HeadGroup.Depth++;
FOperationGroup TailGroup = Group;
TailGroup.ParentGroup = GroupIndex;
TailGroup.ChildGroups.Reset();
TailGroup.First = Middle+1;
TailGroup.Last = Last;
TailGroup.Depth++;
const int32 HeadGroupIndex = OperationGroups.Add(HeadGroup);
const int32 TailGroupIndex = OperationGroups.Add(TailGroup);
OperationGroups[GroupIndex].ChildGroups.Add(HeadGroupIndex);
OperationGroups[GroupIndex].ChildGroups.Add(TailGroupIndex);
}
}
for(int32 GroupIndex = 0; GroupIndex < OperationGroups.Num(); GroupIndex++)
{
FOperationGroup& Group = OperationGroups[GroupIndex];
// determine all the necessary labels and optional arguments
for(int32 OperationIndex = Group.First; OperationIndex <= Group.Last; OperationIndex++)
{
const FRigVMInstruction& Operation = Operations[OperationIndex];
switch(Operation.OpCode)
{
case ERigVMOpCode::Execute_0_Operands:
case ERigVMOpCode::Execute_1_Operands:
case ERigVMOpCode::Execute_2_Operands:
case ERigVMOpCode::Execute_3_Operands:
case ERigVMOpCode::Execute_4_Operands:
case ERigVMOpCode::Execute_5_Operands:
case ERigVMOpCode::Execute_6_Operands:
case ERigVMOpCode::Execute_7_Operands:
case ERigVMOpCode::Execute_8_Operands:
case ERigVMOpCode::Execute_9_Operands:
case ERigVMOpCode::Execute_10_Operands:
case ERigVMOpCode::Execute_11_Operands:
case ERigVMOpCode::Execute_12_Operands:
case ERigVMOpCode::Execute_13_Operands:
case ERigVMOpCode::Execute_14_Operands:
case ERigVMOpCode::Execute_15_Operands:
case ERigVMOpCode::Execute_16_Operands:
case ERigVMOpCode::Execute_17_Operands:
case ERigVMOpCode::Execute_18_Operands:
case ERigVMOpCode::Execute_19_Operands:
case ERigVMOpCode::Execute_20_Operands:
case ERigVMOpCode::Execute_21_Operands:
case ERigVMOpCode::Execute_22_Operands:
case ERigVMOpCode::Execute_23_Operands:
case ERigVMOpCode::Execute_24_Operands:
case ERigVMOpCode::Execute_25_Operands:
case ERigVMOpCode::Execute_26_Operands:
case ERigVMOpCode::Execute_27_Operands:
case ERigVMOpCode::Execute_28_Operands:
case ERigVMOpCode::Execute_29_Operands:
case ERigVMOpCode::Execute_30_Operands:
case ERigVMOpCode::Execute_31_Operands:
case ERigVMOpCode::Execute_32_Operands:
case ERigVMOpCode::Execute_33_Operands:
case ERigVMOpCode::Execute_34_Operands:
case ERigVMOpCode::Execute_35_Operands:
case ERigVMOpCode::Execute_36_Operands:
case ERigVMOpCode::Execute_37_Operands:
case ERigVMOpCode::Execute_38_Operands:
case ERigVMOpCode::Execute_39_Operands:
case ERigVMOpCode::Execute_40_Operands:
case ERigVMOpCode::Execute_41_Operands:
case ERigVMOpCode::Execute_42_Operands:
case ERigVMOpCode::Execute_43_Operands:
case ERigVMOpCode::Execute_44_Operands:
case ERigVMOpCode::Execute_45_Operands:
case ERigVMOpCode::Execute_46_Operands:
case ERigVMOpCode::Execute_47_Operands:
case ERigVMOpCode::Execute_48_Operands:
case ERigVMOpCode::Execute_49_Operands:
case ERigVMOpCode::Execute_50_Operands:
case ERigVMOpCode::Execute_51_Operands:
case ERigVMOpCode::Execute_52_Operands:
case ERigVMOpCode::Execute_53_Operands:
case ERigVMOpCode::Execute_54_Operands:
case ERigVMOpCode::Execute_55_Operands:
case ERigVMOpCode::Execute_56_Operands:
case ERigVMOpCode::Execute_57_Operands:
case ERigVMOpCode::Execute_58_Operands:
case ERigVMOpCode::Execute_59_Operands:
case ERigVMOpCode::Execute_60_Operands:
case ERigVMOpCode::Execute_61_Operands:
case ERigVMOpCode::Execute_62_Operands:
case ERigVMOpCode::Execute_63_Operands:
case ERigVMOpCode::Execute_64_Operands:
{
const FRigVMExecuteOp& Op = ByteCode.GetOpAt<FRigVMExecuteOp>(Operation);
const FRigVMFunction* Function = FRigVMRegistry::Get().FindFunction(*Functions[Op.FunctionIndex].ToString());
check(Function);
// make sure to include the required header
ParseInclude(Function->Struct, Function->GetMethodName());
// check all of the arguments that may not be part of the struct definition
for(const FRigVMFunctionArgument& Argument : Function->GetArguments())
{
if (Function->IsAdditionalArgument(Argument))
{
if(!Group.OpaqueArguments.ContainsByPredicate([Argument](const FOpaqueArgument& OpaqueArgument) -> bool
{
return Argument.Name == OpaqueArgument.Get<0>();
}))
{
const FString ArgumentName = Format(RigVM_AdditionalArgumentNameFormat, Group.OpaqueArguments.Num(), Argument.Name);
FOpaqueArgument OpaqueArgument(Argument.Name, ArgumentName, Argument.Type);
Group.OpaqueArguments.AddUnique(OpaqueArgument);
}
}
}
break;
}
case ERigVMOpCode::JumpAbsolute:
{
const FRigVMJumpOp& Op = ByteCode.GetOpAt<FRigVMJumpOp>(Operation);
Group.RequiredLabels.AddUnique(Op.InstructionIndex);break;
break;
}
case ERigVMOpCode::JumpForward:
{
const FRigVMJumpOp& Op = ByteCode.GetOpAt<FRigVMJumpOp>(Operation);
Group.RequiredLabels.AddUnique(OperationIndex + Op.InstructionIndex);break;
break;
}
case ERigVMOpCode::JumpBackward:
{
const FRigVMJumpOp& Op = ByteCode.GetOpAt<FRigVMJumpOp>(Operation);
Group.RequiredLabels.AddUnique(OperationIndex - Op.InstructionIndex);break;
break;
}
case ERigVMOpCode::JumpAbsoluteIf:
{
const FRigVMJumpIfOp& Op = ByteCode.GetOpAt<FRigVMJumpIfOp>(Operation);
Group.RequiredLabels.AddUnique(Op.InstructionIndex);break;
break;
}
case ERigVMOpCode::JumpForwardIf:
{
const FRigVMJumpIfOp& Op = ByteCode.GetOpAt<FRigVMJumpIfOp>(Operation);
Group.RequiredLabels.AddUnique(OperationIndex + Op.InstructionIndex);break;
break;
}
case ERigVMOpCode::JumpBackwardIf:
{
const FRigVMJumpIfOp& Op = ByteCode.GetOpAt<FRigVMJumpIfOp>(Operation);
Group.RequiredLabels.AddUnique(OperationIndex - Op.InstructionIndex);break;
break;
}
default:
{
break;
}
}
// update the usage table to know which property is used where
FRigVMOperandArray Operands = ByteCode.GetOperandsForOp(Operation);
for(const FRigVMOperand& Operand : Operands)
{
if(Operand.GetMemoryType() == ERigVMMemoryType::Literal ||
Operand.GetMemoryType() == ERigVMMemoryType::Work)
{
const int32 PropertyIndex = GetPropertyIndex(Operand);
Properties[PropertyIndex].Groups.AddUnique(GroupIndex);
}
}
}
}
// now that we know the groups that properties belong to, we need to filter them.
// we only want to declare properties once - and pass them as parameters to the enclosed
// groups. parent groups which only pass them to one sub group can be removed from the
// property's group table. the top level group which still contains the property is the
// one to declare it.
const TArray<FOperationGroup>& Groups = OperationGroups;
for(int32 PropertyIndex = 0; PropertyIndex < Properties.Num(); PropertyIndex++)
{
// work / sliced properties are always defined at the top
FPropertyInfo& Property = Properties[PropertyIndex];
if(Property.PropertyType == ERigVMNativizedPropertyType::Sliced)
{
Property.Groups.Reset();
continue;
}
int32 GroupCount;
do
{
GroupCount = Property.Groups.Num();
TArray<int32> FilteredGroups = Property.Groups;
FilteredGroups.RemoveAll([Groups, Property](int32 Group) -> bool
{
return !Groups[Group].ChildGroups.IsEmpty();
});
Property.Groups = FilteredGroups;
} while(GroupCount != Property.Groups.Num());
}
}
FString FRigVMCodeGenerator::GetOperandName(const FRigVMOperand& InOperand, bool bPerSlice, bool bAsInput) const
{
const FRigVMPropertyDescription& Property = GetPropertyForOperand(InOperand);
const FRigVMPropertyPathDescription& PropertyPath = GetPropertyPathForOperand(InOperand);
FString OperandName;
if (Property.IsValid())
{
OperandName = Property.Name.ToString();
}
if (InOperand.GetMemoryType() != ERigVMMemoryType::External)
{
OperandName = SanitizeName(OperandName, Property.CPPType);
}
// if we are an array on work memory this indicates that we'll be sliced.
if (bPerSlice && InOperand.GetMemoryType() == ERigVMMemoryType::Work && RigVMTypeUtils::IsArrayType(Property.CPPType))
{
const FString MappedType = GetMappedType(Property.CPPType);
const FString MappedTypeSuffix = GetMappedTypeSuffix(Property.CPPType);
const FString BaseCPPType = RigVMTypeUtils::IsArrayType(MappedType) ? RigVMTypeUtils::BaseTypeFromArrayType(MappedType) : MappedType;
OperandName = Format(RigVM_GetOperandSliceFormat, *BaseCPPType, *OperandName, *MappedTypeSuffix);
}
if (InOperand.GetMemoryType() == ERigVMMemoryType::External)
{
OperandName = Format(RigVM_ExternalVariableFormat, *OperandName);
}
if (PropertyPath.IsValid())
{
check(Property.IsValid());
FString RemainingSegmentPath = PropertyPath.SegmentPath;
FString SegmentPath = OperandName;
static TMap<UScriptStruct*, TMap<FString, TTuple<FString, FString>>> MappedProperties;
if (MappedProperties.IsEmpty())
{
TMap<FString, TTuple<FString, FString>>& TransformMap = MappedProperties.Add(TBaseStructure<FTransform>::Get());
TransformMap.Add(TEXT("Translation"), TTuple<FString, FString>(TEXT("{0}.GetTranslation()"), TEXT("{0}.SetTranslation(")));
TransformMap.Add(TEXT("Translation.X"), TTuple<FString, FString>(TEXT("{0}.GetTranslation().X"), TEXT("FTransformSetter({0}).SetTranslationX(")));
TransformMap.Add(TEXT("Translation.Y"), TTuple<FString, FString>(TEXT("{0}.GetTranslation().Y"), TEXT("FTransformSetter({0}).SetTranslationY(")));
TransformMap.Add(TEXT("Translation.Z"), TTuple<FString, FString>(TEXT("{0}.GetTranslation().Z"), TEXT("FTransformSetter({0}).SetTranslationZ(")));
TransformMap.Add(TEXT("Rotation"), TTuple<FString, FString>(TEXT("{0}.GetRotation()"), TEXT("{0}.SetRotation(")));
TransformMap.Add(TEXT("Rotation.X"), TTuple<FString, FString>(TEXT("{0}.GetRotation().X"), TEXT("FTransformSetter({0}).SetRotationX(")));
TransformMap.Add(TEXT("Rotation.Y"), TTuple<FString, FString>(TEXT("{0}.GetRotation().Y"), TEXT("FTransformSetter({0}).SetRotationY(")));
TransformMap.Add(TEXT("Rotation.Z"), TTuple<FString, FString>(TEXT("{0}.GetRotation().Z"), TEXT("FTransformSetter({0}).SetRotationZ(")));
TransformMap.Add(TEXT("Rotation.W"), TTuple<FString, FString>(TEXT("{0}.GetRotation().W"), TEXT("FTransformSetter({0}).SetRotationW(")));
TransformMap.Add(TEXT("Scale3D"), TTuple<FString, FString>(TEXT("{0}.GetScale3D()"), TEXT("{0}.SetScale3D(")));
TransformMap.Add(TEXT("Scale3D.X"), TTuple<FString, FString>(TEXT("{0}.GetScale3D().X"), TEXT("FTransformSetter({0}).SetScaleX(")));
TransformMap.Add(TEXT("Scale3D.Y"), TTuple<FString, FString>(TEXT("{0}.GetScale3D().Y"), TEXT("FTransformSetter({0}).SetScaleY(")));
TransformMap.Add(TEXT("Scale3D.Z"), TTuple<FString, FString>(TEXT("{0}.GetScale3D().Z"), TEXT("FTransformSetter({0}).SetScaleZ(")));
}
const FProperty* CurrentProperty = Property.Property;
while(!RemainingSegmentPath.IsEmpty() && (CurrentProperty != nullptr))
{
FString Left, Right;
if(!URigVMPin::SplitPinPathAtStart(RemainingSegmentPath, Left, Right))
{
Left = RemainingSegmentPath;
Right.Reset();
}
if (const FStructProperty* StructProperty = CastField<FStructProperty>(CurrentProperty))
{
CurrentProperty = StructProperty->Struct->FindPropertyByName(*Left);
if (const TMap<FString, TTuple<FString, FString>>* PropertyMap = MappedProperties.Find(StructProperty->Struct))
{
if (const TTuple<FString, FString>* NewSegmentName = PropertyMap->Find(RemainingSegmentPath))
{
FStringFormatOrderedArguments FormatArguments;
FormatArguments.Add(SegmentPath);
SegmentPath = FString::Format(
bAsInput ? *NewSegmentName->Get<0>() : *NewSegmentName->Get<1>(),
FormatArguments);
break;
}
}
}
else if(const FArrayProperty* ArrayProperty = CastField<FArrayProperty>(CurrentProperty))
{
CurrentProperty = ArrayProperty->Inner;
Left = Left.TrimChar(TEXT('['));
Left = Left.TrimChar(TEXT(']'));
FString ExtendedType;
FString CPPType = CurrentProperty->GetCPPType(&ExtendedType);
CPPType += ExtendedType;
if(CPPType == RigVMTypeUtils::UInt8Type && CastField<FBoolProperty>(CurrentProperty))
{
CPPType = RigVMTypeUtils::BoolType;
}
SegmentPath = Format(RigVM_GetArrayElementSafeFormat, *CPPType, *SegmentPath, *Left);
RemainingSegmentPath = Right;
continue;
}
else
{
CurrentProperty = nullptr;
}
SegmentPath = Format(RigVM_JoinSegmentPathFormat, *SegmentPath, *Left);
RemainingSegmentPath = Right;
}
return SegmentPath;
}
return OperandName;
}
FString FRigVMCodeGenerator::GetOperandCPPType(const FRigVMOperand& InOperand) const
{
const FRigVMPropertyDescription& Property = GetPropertyForOperand(InOperand);
const FRigVMPropertyPathDescription& PropertyPath = GetPropertyPathForOperand(InOperand);
if (PropertyPath.IsValid())
{
check(Property.IsValid());
const FRigVMPropertyPath Path(Property.Property, PropertyPath.SegmentPath);
const FProperty* TailProperty = Path.GetTailProperty();
check(TailProperty);
FString ExtendedType;
const FString CPPType = TailProperty->GetCPPType(&ExtendedType);
return CPPType + ExtendedType;
}
if (Property.IsValid())
{
return Property.CPPType;
}
return FString();
}
FString FRigVMCodeGenerator::GetOperandCPPBaseType(const FRigVMOperand& InOperand) const
{
FString CPPType = GetOperandCPPType(InOperand);
while(RigVMTypeUtils::IsArrayType(CPPType))
{
CPPType = RigVMTypeUtils::BaseTypeFromArrayType(CPPType);
}
return CPPType;
}
FString FRigVMCodeGenerator::SanitizeName(const FString& InName, const FString& CPPType)
{
FString Name = InName;
while(Name.Contains(RigVM_DoubleUnderscoreFormat))
{
Name.ReplaceInline(RigVM_DoubleUnderscoreFormat, RigVM_SingleUnderscoreFormat);
}
if(CPPType == RigVMTypeUtils::BoolType && !Name.StartsWith(RigVM_BoolPropertyPrefix, ESearchCase::CaseSensitive))
{
Name = RigVM_BoolPropertyPrefix + Name;
}
return Name;
}
FRigVMPropertyDescription FRigVMCodeGenerator::GetPropertyForOperand(const FRigVMOperand& InOperand) const
{
CheckOperand(InOperand);
const FProperty* Property = nullptr;
const uint8* Memory = nullptr;
if (InOperand.GetMemoryType() == ERigVMMemoryType::External)
{
const FRigVMExternalVariable& ExternalVariable = VM->ExternalVariables[InOperand.GetRegisterIndex()];
Property = ExternalVariable.Property;
Memory = ExternalVariable.Memory;
}
else
{
if (URigVMMemoryStorage* MemoryStorage = VM->GetMemoryByType(InOperand.GetMemoryType()))
{
Property = MemoryStorage->GetProperty(InOperand.GetRegisterIndex());
if (Property)
{
Memory = Property->ContainerPtrToValuePtr<uint8>(MemoryStorage);
}
}
}
if (Property)
{
FString DefaultValue;
if (const UClass* OwningClass = Property->GetOwnerClass())
{
if (const UObject* CDO = OwningClass->GetDefaultObject())
{
Memory = Property->ContainerPtrToValuePtr<uint8>(CDO);
}
}
if (Memory)
{
DefaultValue = FRigVMStruct::ExportToFullyQualifiedText(Property, Memory, true);
}
return FRigVMPropertyDescription(Property, DefaultValue);
}
return FRigVMPropertyDescription();
}
const FRigVMPropertyPathDescription& FRigVMCodeGenerator::GetPropertyPathForOperand(const FRigVMOperand& InOperand) const
{
CheckOperand(InOperand);
const int32 RegisterOffsetIndex = InOperand.GetRegisterOffset();
if (RegisterOffsetIndex != INDEX_NONE)
{
if (InOperand.GetMemoryType() == ERigVMMemoryType::External)
{
if (VM->ExternalPropertyPathDescriptions.IsValidIndex(RegisterOffsetIndex))
{
return VM->ExternalPropertyPathDescriptions[RegisterOffsetIndex];
}
}
else
{
if (const URigVMMemoryStorage* MemoryStorage = VM->GetMemoryByType(InOperand.GetMemoryType()))
{
if (const URigVMMemoryStorageGeneratorClass* MemoryClass = Cast<URigVMMemoryStorageGeneratorClass>(MemoryStorage->GetClass()))
{
if (MemoryClass->PropertyPathDescriptions.IsValidIndex(RegisterOffsetIndex))
{
return MemoryClass->PropertyPathDescriptions[RegisterOffsetIndex];
}
}
}
}
}
static const FRigVMPropertyPathDescription EmptyPropertyPath;
return EmptyPropertyPath;
}
int32 FRigVMCodeGenerator::GetPropertyIndex(const FRigVMPropertyDescription& InProperty) const
{
if(const int32* Index = PropertyNameToIndex.Find(InProperty.Name))
{
return *Index;
}
return INDEX_NONE;
}
int32 FRigVMCodeGenerator::GetPropertyIndex(const FRigVMOperand& InOperand) const
{
return GetPropertyIndex(GetPropertyForOperand(InOperand));
}
FRigVMCodeGenerator::ERigVMNativizedPropertyType FRigVMCodeGenerator::GetPropertyType(
const FRigVMPropertyDescription& InProperty) const
{
const int32 PropertyIndex = GetPropertyIndex(InProperty);
if(Properties.IsValidIndex(PropertyIndex))
{
return Properties[PropertyIndex].PropertyType;
}
return ERigVMNativizedPropertyType::Invalid;
}
FRigVMCodeGenerator::ERigVMNativizedPropertyType FRigVMCodeGenerator::GetPropertyType(const FRigVMOperand& InOperand) const
{
return GetPropertyType(GetPropertyForOperand(InOperand));
}
void FRigVMCodeGenerator::CheckOperand(const FRigVMOperand& InOperand) const
{
ensure(InOperand.IsValid());
ensure(InOperand.GetMemoryType() != ERigVMMemoryType::Invalid);
ensure(InOperand.GetMemoryType() != ERigVMMemoryType::Debug);
if (InOperand.GetMemoryType() == ERigVMMemoryType::External)
{
ensure(VM->ExternalVariables.IsValidIndex(InOperand.GetRegisterIndex()));
if (InOperand.GetRegisterOffset() != INDEX_NONE)
{
ensure(VM->ExternalPropertyPaths.IsValidIndex(InOperand.GetRegisterOffset()));
ensure(VM->ExternalPropertyPathDescriptions.IsValidIndex(InOperand.GetRegisterOffset()));
}
}
else
{
URigVMMemoryStorage* Memory = VM->GetMemoryByType(InOperand.GetMemoryType(), false);
check(Memory);
ensure(Memory->GetProperties().IsValidIndex(InOperand.GetRegisterIndex()));
if (InOperand.GetRegisterOffset() != INDEX_NONE)
{
ensure(Memory->GetPropertyPaths().IsValidIndex(InOperand.GetRegisterOffset()));
URigVMMemoryStorageGeneratorClass* Class = CastChecked<URigVMMemoryStorageGeneratorClass>(Memory->GetClass());
ensure(Class->PropertyPathDescriptions.IsValidIndex(InOperand.GetRegisterOffset()));
}
}
}
FString FRigVMCodeGenerator::GetMappedType(const FString& InCPPType) const
{
FString CPPType = InCPPType;
CPPType.RemoveSpacesInline();
if(const FMappedType* MappedType = MappedCPPTypes.Find(CPPType))
{
return MappedType->Get<0>();
}
if(RigVMTypeUtils::IsArrayType(CPPType))
{
const FString BaseType = RigVMTypeUtils::BaseTypeFromArrayType(CPPType);
return RigVMTypeUtils::ArrayTypeFromBaseType(GetMappedType(BaseType));
}
return CPPType;
}
const FString& FRigVMCodeGenerator::GetMappedTypeSuffix(const FString& InCPPType) const
{
FString CPPType = InCPPType;
CPPType.RemoveSpacesInline();
if(const FMappedType* MappedType = MappedCPPTypes.Find(CPPType))
{
return MappedType->Get<1>();
}
static const FString EmptyString;
return EmptyString;
}
FString FRigVMCodeGenerator::GetMappedArrayTypeName(const FString InBaseElementType) const
{
return Format(RigVM_WrappedTypeNameFormat, *InBaseElementType, *ClassName);
}
const FRigVMCodeGenerator::FOperationGroup& FRigVMCodeGenerator::GetGroup(int32 InGroupIndex) const
{
if(OperationGroups.IsValidIndex(InGroupIndex))
{
return OperationGroups[InGroupIndex];
}
static FOperationGroup CompleteGroup;
if(CompleteGroup.First == INDEX_NONE)
{
CompleteGroup.First = 0;
CompleteGroup.Last = VM->GetByteCode().GetNumInstructions() - 1;
}
return CompleteGroup;
}
bool FRigVMCodeGenerator::IsOperationPartOfGroup(int32 InOperationIndex, int32 InGroupIndex, bool bIncludeChildGroups) const
{
if(!OperationGroups.IsValidIndex(InGroupIndex) && OperationGroups.IsEmpty())
{
return true;
}
const FOperationGroup& Group = OperationGroups[InGroupIndex];
for(const int32 ChildGroupIndex : Group.ChildGroups)
{
if(IsOperationPartOfGroup(InOperationIndex, ChildGroupIndex, true))
{
// if we found the operation in a child group
// we'll return true if we are also looking within the child groups,
// and false if we are not. this means that an operation that's part of a
// child group but not the main group will return false here
return bIncludeChildGroups;
}
}
return FMath::IsWithinInclusive(InOperationIndex, Group.First, Group.Last);;
}
bool FRigVMCodeGenerator::IsPropertyPartOfGroup(int32 InPropertyIndex, int32 InGroupIndex) const
{
if(InGroupIndex == INDEX_NONE)
{
return true;
}
if(!OperationGroups.IsValidIndex(InGroupIndex))
{
return false;
}
if(Properties.IsValidIndex(InPropertyIndex))
{
const FPropertyInfo& Property = Properties[InPropertyIndex];
const FOperationGroup& Group = OperationGroups[InGroupIndex];
// properties are only defines in the leaf groups
if(!Group.ChildGroups.IsEmpty())
{
return false;
}
if(Property.PropertyType == ERigVMNativizedPropertyType::Work)
{
if(Property.Groups.Num() > 1)
{
return false;
}
}
return Property.Groups.Contains(InGroupIndex);
}
return false;
}
const TMap<FName, FRigVMCodeGenerator::TStructConstGenerator>& FRigVMCodeGenerator::GetStructConstGenerators()
{
static TMap<FName, FRigVMCodeGenerator::TStructConstGenerator> StructConstGenerators;
if(!StructConstGenerators.IsEmpty())
{
return StructConstGenerators;
}
struct DefaultValueHelpers
{
static FStringArray SplitIntoArray(const FString& InValue)
{
return URigVMPin::SplitDefaultValue(InValue);
}
static FStringMap SplitIntoMap(const FString& InValue)
{
FStringArray Pairs = SplitIntoArray(InValue);
FStringMap Map;
for(const FString& Pair : Pairs)
{
FString Key, Value;
if(Pair.Split(TEXT("="), &Key, &Value))
{
Map.Add(Key, Value);
}
}
return Map;
}
static FString RemoveQuotes(const FString& InValue)
{
FString Value = InValue;
if(Value.StartsWith(TEXT("\\\"")))
{
Value = Value.Mid(2, Value.Len() - 4);
}
else
{
Value = Value.TrimQuotes();
}
return Value;
}
};
static constexpr TCHAR X[] = TEXT("X");
static constexpr TCHAR Y[] = TEXT("Y");
static constexpr TCHAR Z[] = TEXT("Z");
static constexpr TCHAR W[] = TEXT("W");
static constexpr TCHAR R[] = TEXT("R");
static constexpr TCHAR G[] = TEXT("G");
static constexpr TCHAR B[] = TEXT("B");
static constexpr TCHAR A[] = TEXT("A");
static constexpr TCHAR Translation[] = TEXT("Translation");
static constexpr TCHAR Rotation[] = TEXT("Rotation");
static constexpr TCHAR Scale[] = TEXT("Scale");
static constexpr TCHAR Scale3D[] = TEXT("Scale3D");
static constexpr TCHAR Pitch[] = TEXT("Pitch");
static constexpr TCHAR Yaw[] = TEXT("Yaw");
static constexpr TCHAR Roll[] = TEXT("Roll");
static constexpr TCHAR Type[] = TEXT("Type");
static constexpr TCHAR Name[] = TEXT("Name");
StructConstGenerators.Add(TEXT("FVector2D"), [](const FString& InDefault) -> FString
{
static constexpr TCHAR Constructor[] = TEXT("FVector2D({0}, {1})");
const FStringMap Defaults = DefaultValueHelpers::SplitIntoMap(InDefault);
if(Defaults.Contains(X) && Defaults.Contains(Y))
{
return Format(Constructor, Defaults.FindChecked(X), Defaults.FindChecked(Y));
}
return FString();
});
StructConstGenerators.Add(TEXT("FVector"), [](const FString& InDefault) -> FString
{
static constexpr TCHAR Constructor[] = TEXT("FVector({0}, {1}, {2})");
const FStringMap Defaults = DefaultValueHelpers::SplitIntoMap(InDefault);
if(Defaults.Contains(X) && Defaults.Contains(Y) && Defaults.Contains(Z))
{
return Format(Constructor, Defaults.FindChecked(X), Defaults.FindChecked(Y), Defaults.FindChecked(Z));
}
return FString();
});
StructConstGenerators.Add(TEXT("FVector4"), [](const FString& InDefault) -> FString
{
static constexpr TCHAR Constructor[] = TEXT("FVector4({0}, {1}, {2}, {3})");
const FStringMap Defaults = DefaultValueHelpers::SplitIntoMap(InDefault);
if(Defaults.Contains(X) && Defaults.Contains(Y) && Defaults.Contains(Z) && Defaults.Contains(W))
{
return Format(Constructor, Defaults.FindChecked(X), Defaults.FindChecked(Y), Defaults.FindChecked(Z), Defaults.FindChecked(W));
}
return FString();
});
StructConstGenerators.Add(TEXT("FLinearColor"), [](const FString& InDefault) -> FString
{
static constexpr TCHAR Constructor[] = TEXT("FLinearColor({0}, {1}, {2}, {3})");
const FStringMap Defaults = DefaultValueHelpers::SplitIntoMap(InDefault);
if(Defaults.Contains(R) && Defaults.Contains(G) && Defaults.Contains(B) && Defaults.Contains(A))
{
return Format(Constructor, Defaults.FindChecked(R), Defaults.FindChecked(G), Defaults.FindChecked(B), Defaults.FindChecked(A));
}
return FString();
});
StructConstGenerators.Add(TEXT("FQuat"), [](const FString& InDefault) -> FString
{
static constexpr TCHAR Constructor[] = TEXT("FQuat({0}, {1}, {2}, {3})");
const FStringMap Defaults = DefaultValueHelpers::SplitIntoMap(InDefault);
if(Defaults.Contains(X) && Defaults.Contains(Y) && Defaults.Contains(Z) && Defaults.Contains(W))
{
return Format(Constructor, Defaults.FindChecked(X), Defaults.FindChecked(Y), Defaults.FindChecked(Z), Defaults.FindChecked(W));
}
return FString();
});
StructConstGenerators.Add(TEXT("FRotator"), [](const FString& InDefault) -> FString
{
static constexpr TCHAR Constructor[] = TEXT("FRotator({0}, {1}, {2})");
const FStringMap Defaults = DefaultValueHelpers::SplitIntoMap(InDefault);
if(Defaults.Contains(Pitch) && Defaults.Contains(Yaw) && Defaults.Contains(Roll))
{
return Format(Constructor, Defaults.FindChecked(Pitch), Defaults.FindChecked(Yaw), Defaults.FindChecked(Roll));
}
return FString();
});
StructConstGenerators.Add(TEXT("FTransform"), [](const FString& InDefault) -> FString
{
static constexpr TCHAR Constructor[] = TEXT("FTransform({0}, {1}, {2})");
const FStringMap Defaults = DefaultValueHelpers::SplitIntoMap(InDefault);
if(Defaults.Contains(Rotation) && Defaults.Contains(Translation) && Defaults.Contains(Scale3D))
{
const FString RotationValue = StructConstGenerators.FindChecked(TEXT("FQuat"))(Defaults.FindChecked(Rotation));
const FString TranslationValue = StructConstGenerators.FindChecked(TEXT("FVector"))(Defaults.FindChecked(Translation));
const FString Scale3DValue = StructConstGenerators.FindChecked(TEXT("FVector"))(Defaults.FindChecked(Scale3D));
return Format(Constructor, RotationValue, TranslationValue, Scale3DValue);
}
return FString();
});
StructConstGenerators.Add(TEXT("FEulerTransform"), [](const FString& InDefault) -> FString
{
static constexpr TCHAR Constructor[] = TEXT("FEulerTransform({0}, {1}, {2})");
const FStringMap Defaults = DefaultValueHelpers::SplitIntoMap(InDefault);
if(Defaults.Contains(Rotation) && Defaults.Contains(Translation) && Defaults.Contains(Scale3D))
{
const FString RotationValue = StructConstGenerators.FindChecked(TEXT("FRotator"))(Defaults.FindChecked(Rotation));
const FString TranslationValue = StructConstGenerators.FindChecked(TEXT("FVector"))(Defaults.FindChecked(Translation));
const FString Scale3DValue = StructConstGenerators.FindChecked(TEXT("FVector"))(Defaults.FindChecked(Scale3D));
return Format(Constructor, RotationValue, TranslationValue, Scale3DValue);
}
return FString();
});
StructConstGenerators.Add(TEXT("FRigElementKey"), [](const FString& InDefault) -> FString
{
static constexpr TCHAR Constructor[] = TEXT("FRigElementKey(TEXT(\"{0}\"), ERigElementType::{1})");
const FStringMap Defaults = DefaultValueHelpers::SplitIntoMap(InDefault);
if(Defaults.Contains(Type) && Defaults.Contains(Name))
{
const FString NameValue = DefaultValueHelpers::RemoveQuotes(Defaults.FindChecked(Name));
return Format(Constructor, NameValue, Defaults.FindChecked(Type));
}
return FString();
});
return StructConstGenerators;
}
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