void UK2Node_Message::ExpandNode(class FKismetCompilerContext& CompilerContext, UEdGraph* SourceGraph)
{
Super::ExpandNode(CompilerContext, SourceGraph);
const UEdGraphSchema_K2* Schema = CompilerContext.GetSchema();
UEdGraphPin* ExecPin = Schema->FindExecutionPin(*this, EGPD_Input);
const bool bExecPinConnected = ExecPin && (ExecPin->LinkedTo.Num() > 0);
UEdGraphPin* ThenPin = Schema->FindExecutionPin(*this, EGPD_Output);
const bool bThenPinConnected = ThenPin && (ThenPin->LinkedTo.Num() > 0);
// Skip ourselves if our exec isn't wired up
if (bExecPinConnected)
{
// Make sure our interface is valid
if (FunctionReference.GetMemberParentClass(this) == NULL)
{
CompilerContext.MessageLog.Error(*FString::Printf(*LOCTEXT("MessageNodeInvalid_Error", "Message node @@ has an invalid interface.").ToString()), this);
return;
}
UFunction* MessageNodeFunction = GetTargetFunction();
if (MessageNodeFunction == NULL)
{
//@TODO: Why do this here in teh compiler, it's already done on AllocateDefaultPins() during on-load node reconstruction
MessageNodeFunction = Cast<UFunction>(UK2Node::FindRemappedField(FunctionReference.GetMemberParentClass(this), FunctionReference.GetMemberName()));
}
if (MessageNodeFunction == NULL)
{
CompilerContext.MessageLog.Error(*FString::Printf(*LOCTEXT("MessageNodeInvalidFunction_Error", "Unable to find function with name %s for Message node @@.").ToString(), *(FunctionReference.GetMemberName().ToString())), this);
return;
}
// Check to make sure we have a target
UEdGraphPin* MessageSelfPin = Schema->FindSelfPin(*this, EGPD_Input);
if( !MessageSelfPin || MessageSelfPin->LinkedTo.Num() == 0 )
{
CompilerContext.MessageLog.Error(*FString::Printf(*LOCTEXT("MessageNodeSelfPin_Error", "Message node @@ must have a valid target or reference to self.").ToString()), this);
return;
}
// First, create an internal cast-to-interface node
UK2Node_DynamicCast* CastToInterfaceNode = CompilerContext.SpawnIntermediateNode<UK2Node_DynamicCast>(this, SourceGraph);
CastToInterfaceNode->TargetType = MessageNodeFunction->GetOuterUClass();
CastToInterfaceNode->SetPurity(false);
CastToInterfaceNode->AllocateDefaultPins();
UEdGraphPin* CastToInterfaceResultPin = CastToInterfaceNode->GetCastResultPin();
if( !CastToInterfaceResultPin )
{
CompilerContext.MessageLog.Error(*LOCTEXT("InvalidInterfaceClass_Error", "Node @@ has an invalid target interface class").ToString(), this);
return;
}
CastToInterfaceResultPin->PinType.PinSubCategoryObject = *CastToInterfaceNode->TargetType;
if (ExecPin != nullptr)
{
UEdGraphPin* CastExecInput = CastToInterfaceNode->GetExecPin();
check(CastExecInput != nullptr);
// Wire up the connections
CompilerContext.MovePinLinksToIntermediate(*ExecPin, *CastExecInput);
}
UEdGraphPin* CastToInterfaceSourceObjectPin = CastToInterfaceNode->GetCastSourcePin();
CompilerContext.MovePinLinksToIntermediate(*MessageSelfPin, *CastToInterfaceSourceObjectPin);
// Next, create the function call node
UK2Node_CallFunction* FunctionCallNode = CompilerContext.SpawnIntermediateNode<UK2Node_CallFunction>(this, SourceGraph);
FunctionCallNode->bIsInterfaceCall = true;
FunctionCallNode->FunctionReference = FunctionReference;
FunctionCallNode->AllocateDefaultPins();
UEdGraphPin* CastToInterfaceValidPin = CastToInterfaceNode->GetValidCastPin();
check(CastToInterfaceValidPin != nullptr);
UEdGraphPin* LastOutCastFaildPin = CastToInterfaceNode->GetInvalidCastPin();
check(LastOutCastFaildPin != nullptr);
UEdGraphPin* LastOutCastSuccessPin = CastToInterfaceValidPin;
// Wire up the connections
if (UEdGraphPin* CallFunctionExecPin = Schema->FindExecutionPin(*FunctionCallNode, EGPD_Input))
{
CastToInterfaceValidPin->MakeLinkTo(CallFunctionExecPin);
LastOutCastSuccessPin = Schema->FindExecutionPin(*FunctionCallNode, EGPD_Output);
}
// Self pin
UEdGraphPin* FunctionCallSelfPin = Schema->FindSelfPin(*FunctionCallNode, EGPD_Input);
CastToInterfaceResultPin->MakeLinkTo(FunctionCallSelfPin);
UFunction* ArrayClearFunction = UKismetArrayLibrary::StaticClass()->FindFunctionByName(FName(TEXT("Array_Clear")));
check(ArrayClearFunction);
bool const bIsPureFunc = Super::IsNodePure();
// Variable pins - Try to associate variable inputs to the message node with the variable inputs and outputs to the call function node
for( int32 i = 0; i < Pins.Num(); i++ )
{
UEdGraphPin* CurrentPin = Pins[i];
if( CurrentPin && (CurrentPin->PinType.PinCategory != Schema->PC_Exec) && (CurrentPin->PinName != Schema->PN_Self) )
{
// Try to find a match for the pin on the function call node
UEdGraphPin* FunctionCallPin = FunctionCallNode->FindPin(CurrentPin->PinName);
if( FunctionCallPin )
{
// Move pin links if the pin is connected...
CompilerContext.MovePinLinksToIntermediate(*CurrentPin, *FunctionCallPin);
// when cast fails all return values must be cleared.
if (EEdGraphPinDirection::EGPD_Output == CurrentPin->Direction)
{
UEdGraphPin* VarOutPin = FunctionCallPin;
if (bIsPureFunc)
{
// since we cannot directly use the output from the
// function call node (since it is pure, and invoking
// it with a null target would cause an error), we
// have to use a temporary variable in it's place...
UK2Node_TemporaryVariable* TempVar = CompilerContext.SpawnIntermediateNode<UK2Node_TemporaryVariable>(this, SourceGraph);
TempVar->VariableType = CurrentPin->PinType;
TempVar->AllocateDefaultPins();
VarOutPin = TempVar->GetVariablePin();
// nodes using the function's outputs directly, now
// use this TempVar node instead
CompilerContext.MovePinLinksToIntermediate(*FunctionCallPin, *VarOutPin);
// on a successful cast, the temp var is filled with
// the function's value, on a failed cast, the var
// is filled with a default value (DefaultValueNode,
// below)... this is the node for the success case:
UK2Node_AssignmentStatement* AssignTempVar = CompilerContext.SpawnIntermediateNode<UK2Node_AssignmentStatement>(this, SourceGraph);
AssignTempVar->AllocateDefaultPins();
// assign the output from the pure function node to
// the TempVar (either way, this message node is
// returning the TempVar's value, so on a successful
// cast we want it to have the function's result)
UEdGraphPin* ValueInPin = AssignTempVar->GetValuePin();
Schema->TryCreateConnection(FunctionCallPin, ValueInPin);
AssignTempVar->PinConnectionListChanged(ValueInPin);
UEdGraphPin* VarInPin = AssignTempVar->GetVariablePin();
Schema->TryCreateConnection(VarOutPin, VarInPin);
AssignTempVar->PinConnectionListChanged(VarInPin);
// fold this AssignTempVar node into the cast's
// success execution chain
Schema->TryCreateConnection(AssignTempVar->GetExecPin(), LastOutCastSuccessPin);
LastOutCastSuccessPin = AssignTempVar->GetThenPin();
}
UK2Node* DefaultValueNode = NULL;
UEdGraphPin* DefaultValueThenPin = NULL;
if (CurrentPin->PinType.bIsArray)
{
UK2Node_CallArrayFunction* ClearArray = CompilerContext.SpawnIntermediateNode<UK2Node_CallArrayFunction>(this, SourceGraph);
DefaultValueNode = ClearArray;
ClearArray->SetFromFunction(ArrayClearFunction);
ClearArray->AllocateDefaultPins();
UEdGraphPin* ArrayPin = ClearArray->GetTargetArrayPin();
check(ArrayPin);
Schema->TryCreateConnection(ArrayPin, VarOutPin);
ClearArray->PinConnectionListChanged(ArrayPin);
DefaultValueThenPin = ClearArray->GetThenPin();
}
else
{
UK2Node_AssignmentStatement* AssignDefaultValue = CompilerContext.SpawnIntermediateNode<UK2Node_AssignmentStatement>(this, SourceGraph);
DefaultValueNode = AssignDefaultValue;
AssignDefaultValue->AllocateDefaultPins();
Schema->TryCreateConnection(AssignDefaultValue->GetVariablePin(), VarOutPin);
AssignDefaultValue->PinConnectionListChanged(AssignDefaultValue->GetVariablePin());
Schema->SetPinDefaultValueBasedOnType(AssignDefaultValue->GetValuePin());
DefaultValueThenPin = AssignDefaultValue->GetThenPin();
}
UEdGraphPin* DefaultValueExecPin = DefaultValueNode->GetExecPin();
check(DefaultValueExecPin);
Schema->TryCreateConnection(DefaultValueExecPin, LastOutCastFaildPin);
LastOutCastFaildPin = DefaultValueThenPin;
check(LastOutCastFaildPin);
}
}
else
{
UE_LOG(LogK2Compiler, Log, TEXT("%s"), *LOCTEXT("NoPinConnectionFound_Error", "Unable to find connection for pin! Check AllocateDefaultPins() for consistency!").ToString());
}
}
}
if( bThenPinConnected )
{
check(LastOutCastFaildPin != nullptr);
// Failure case for the cast runs straight through to the exit
CompilerContext.CopyPinLinksToIntermediate(*ThenPin, *LastOutCastFaildPin);
check(LastOutCastSuccessPin != nullptr);
// Copy all links from the invalid cast case above to the call function node
CompilerContext.MovePinLinksToIntermediate(*ThenPin, *LastOutCastSuccessPin);
}
}
// Break all connections to the original node, so it will be pruned
BreakAllNodeLinks();
}
void UK2Node_ConvertAsset::ExpandNode(class FKismetCompilerContext& CompilerContext, UEdGraph* SourceGraph)
{
Super::ExpandNode(CompilerContext, SourceGraph);
const UEdGraphSchema_K2* Schema = CompilerContext.GetSchema();
UClass* TargetType = GetTargetClass();
if (TargetType && Schema && (2 == Pins.Num()))
{
const bool bIsAssetClass = IsAssetClassType();
//Create Convert Function
auto ConvertToObjectFunc = CompilerContext.SpawnIntermediateNode<UK2Node_CallFunction>(this, SourceGraph);
const FName ConvertFunctionName = bIsAssetClass
? GET_FUNCTION_NAME_CHECKED(UKismetSystemLibrary, Conv_AssetClassToClass)
: GET_FUNCTION_NAME_CHECKED(UKismetSystemLibrary, Conv_AssetToObject);
ConvertToObjectFunc->FunctionReference.SetExternalMember(ConvertFunctionName, UKismetSystemLibrary::StaticClass());
ConvertToObjectFunc->AllocateDefaultPins();
//Connect input to convert
auto InputPin = FindPin(UK2Node_ConvertAssetImpl::InputPinName);
const FString ConvertInputName = bIsAssetClass
? FString(TEXT("AssetClass"))
: FString(TEXT("Asset"));
auto ConvertInput = ConvertToObjectFunc->FindPin(ConvertInputName);
bool bIsErrorFree = InputPin && ConvertInput && CompilerContext.MovePinLinksToIntermediate(*InputPin, *ConvertInput).CanSafeConnect();
auto ConvertOutput = ConvertToObjectFunc->GetReturnValuePin();
UEdGraphPin* InnerOutput = nullptr;
if (UObject::StaticClass() != TargetType)
{
//Create Cast Node
UK2Node_DynamicCast* CastNode = bIsAssetClass
? CompilerContext.SpawnIntermediateNode<UK2Node_ClassDynamicCast>(this, SourceGraph)
: CompilerContext.SpawnIntermediateNode<UK2Node_DynamicCast>(this, SourceGraph);
CastNode->SetPurity(true);
CastNode->TargetType = TargetType;
CastNode->AllocateDefaultPins();
// Connect Object/Class to Cast
auto CastInput = CastNode->GetCastSourcePin();
bIsErrorFree &= ConvertOutput && CastInput && Schema->TryCreateConnection(ConvertOutput, CastInput);
// Connect output to cast
InnerOutput = CastNode->GetCastResultPin();
}
else
{
InnerOutput = ConvertOutput;
}
auto OutputPin = FindPin(UK2Node_ConvertAssetImpl::OutputPinName);
bIsErrorFree &= OutputPin && InnerOutput && CompilerContext.MovePinLinksToIntermediate(*OutputPin, *InnerOutput).CanSafeConnect();
if (!bIsErrorFree)
{
CompilerContext.MessageLog.Error(*LOCTEXT("InternalConnectionError", "K2Node_ConvertAsset: Internal connection error. @@").ToString(), this);
}
BreakAllNodeLinks();
}
}