Esempio n. 1
0
        private string ResolveNameConflict(UField field, string name)
        {
            UStruct unrealStruct = field.GetOwnerStruct();

            if ((field as UFunction) != null)
            {
                // GetOwnerStruct will return itself if it is a UStruct (which is true for UFunction)
                unrealStruct = field.GetOwnerClass();
            }

            if (unrealStruct != null)
            {
                StructInfo structInfo = GetStructInfo(unrealStruct);
                if (structInfo != null)
                {
                    return(structInfo.ResolveNameConflict(field, name));
                }
            }
            return(name);
        }
Esempio n. 2
0
        private bool IsBlittableStructProperty(UStructProperty property)
        {
            if (property == null)
            {
                return(false);
            }
            UStruct unrealStruct = property.Struct;

            if (unrealStruct != null)
            {
                StructInfo structInfo;
                if (structInfos.TryGetValue(unrealStruct, out structInfo))
                {
                    return(structInfo.IsBlittable);
                }

                structInfo = GetStructInfo(unrealStruct);
                return(structInfo.IsBlittable);
            }
            return(false);
        }
Esempio n. 3
0
            public StructInfo(CodeGenerator codeGenerator, UStruct unrealStruct, bool isBlueprintType)
            {
                this.codeGenerator = codeGenerator;
                IsBlueprintType    = isBlueprintType;
                Struct             = unrealStruct;
                ScriptStruct       = unrealStruct as UScriptStruct;
                Class       = unrealStruct as UClass;
                IsClass     = Class != null;
                IsStruct    = ScriptStruct != null;
                IsInterface = unrealStruct.IsChildOf <UInterface>();

                if (IsStruct)
                {
                    // Start with a IsPlainOldData check for initial IsBlittable state. Is this enough? Or too verbose?
                    // - May need to take into account non-zero constructor / EForceInit constructor if IsBlittable state
                    //   is used for construction. However since IsBlittable is only currently used to determine marshaling
                    //   using FromNative / ToNative on existing memory the ctor check shouldn't be required.
                    // - The user can use StructDefault<T>.Value if they want a new native default instance of a struct
                    //   which will use the UScriptStruct.IsPODZeroInit check.
                    IsBlittable = ScriptStruct.StructFlags.HasFlag(EStructFlags.IsPlainOldData);

                    if (codeGenerator.Settings.AlwaysGenerateStructsAsClasses)
                    {
                        StructAsClass = true;
                    }
                    else if (codeGenerator.Settings.StructsAsClassesByPath.Contains(unrealStruct.GetPathName().ToLower()))
                    {
                        StructAsClass = true;
                    }

                    if (StructAsClass)
                    {
                        // Can't use blittable functions if the struct is being generated as a class
                        IsBlittable = false;
                    }
                }
            }
Esempio n. 4
0
        /// <summary>
        /// Gets the UStruct/UClass for the given path (e.g. "/Script/Engine.HitResult")
        /// </summary>
        /// <param name="path">The path of the object/struct</param>
        /// <returns>The UStruct/UClass for the given path</returns>
        public static UStruct GetStructOrClass(string path)
        {
            UStruct foundStruct = UObject.FindObject <UStruct>(UObject.AnyPackage, path);

            if (foundStruct == null)
            {
                // Look for redirectors
                FName newPath = FLinkerLoad.FindNewNameForStruct(new FName(path));
                if (newPath != FName.None)
                {
                    foundStruct = UObject.FindObject <UStruct>(UObject.AnyPackage, newPath.ToString());
                }

                if (foundStruct == null)
                {
                    newPath = FLinkerLoad.FindNewNameForClass(new FName(path), false);
                    if (newPath != FName.None)
                    {
                        foundStruct = UObject.FindObject <UClass>(UObject.AnyPackage, newPath.ToString());
                    }
                }
            }
            return(foundStruct);
        }
        /// <summary>
        /// Sets the IsValid state for the given struct based on the state of all properties IsValid state
        /// (used when generating with safeguards enabled)
        /// </summary>
        private void AppendStructIsValid(CSharpTextBuilder builder, string structTypeName, StructInfo structInfo, UStruct parentStruct)
        {
            if (!Settings.GenerateIsValidSafeguards)
            {
                return;
            }

            List <UProperty> allProperties = new List <UProperty>();

            foreach (UProperty property in structInfo.GetProperties())
            {
                if (!structInfo.IsCollapsedProperty(property))
                {
                    allProperties.Add(property);
                }
            }

            if (parentStruct != null && (Settings.InlineBaseStruct || structInfo.StructAsClass))
            {
                UScriptStruct tempParentStruct = parentStruct as UScriptStruct;
                while (tempParentStruct != null)
                {
                    StructInfo tempParentStructInfo = GetStructInfo(tempParentStruct);
                    if (tempParentStructInfo != null)
                    {
                        foreach (UProperty property in tempParentStructInfo.GetProperties())
                        {
                            if (!tempParentStructInfo.IsCollapsedProperty(property))
                            {
                                allProperties.Add(property);
                            }
                        }
                    }
                    tempParentStruct = tempParentStruct.GetSuperStruct() as UScriptStruct;
                }
            }

            StringBuilder isValidCheck = new StringBuilder();

            isValidCheck.Append(Settings.VarNames.ClassAddress + " != IntPtr.Zero");
            foreach (UProperty property in allProperties)
            {
                string propertyName = GetMemberName(property, structInfo.GetPropertyName(property));
                isValidCheck.Append(" && " + propertyName + Settings.VarNames.IsValid);
            }

            isValidCheck.Insert(0, structTypeName + Settings.VarNames.IsValid + " = ");
            isValidCheck.Append(";");
            builder.AppendLine(isValidCheck.ToString());

            builder.AppendLine(Names.NativeReflection_LogStructIsValid + "(\"" + structInfo.Struct.GetPathName() + "\", " +
                               structTypeName + Settings.VarNames.IsValid + ");");
        }
        private void GenerateCodeForStruct(UnrealModuleInfo module, UStruct unrealStruct)
        {
            bool       isBlueprintType = unrealStruct.IsA <UUserDefinedStruct>() || unrealStruct.IsA <UBlueprintGeneratedClass>();
            StructInfo structInfo      = GetStructInfo(unrealStruct, isBlueprintType);

            string typeName = GetTypeName(unrealStruct);

            UnrealModuleType moduleAssetType;
            string           currentNamespace = GetModuleNamespace(unrealStruct, out moduleAssetType);
            List <string>    namespaces       = GetDefaultNamespaces();

            CSharpTextBuilder builder = new CSharpTextBuilder(Settings.IndentType);

            if (!string.IsNullOrEmpty(currentNamespace))
            {
                builder.AppendLine("namespace " + currentNamespace);
                builder.OpenBrace();
            }

            string        accessSpecifier = "public";
            StringBuilder modifiers       = new StringBuilder(accessSpecifier);

            if (Settings.UseAbstractTypes && structInfo.IsClass && structInfo.Class.HasAnyClassFlags(EClassFlags.Abstract))
            {
                modifiers.Append(" abstract");
            }

            StringBuilder baseTypeStr  = new StringBuilder();
            UStruct       parentStruct = unrealStruct.GetSuperStruct();

            if (parentStruct != null && parentStruct != UClass.GetClass <UInterface>() && unrealStruct != UClass.GetClass <UInterface>())
            {
                baseTypeStr.Append(GetTypeName(parentStruct, namespaces));
            }
            if (structInfo.IsClass)
            {
                foreach (FImplementedInterface implementedInterface in structInfo.Class.Interfaces)
                {
                    if (baseTypeStr.Length > 0)
                    {
                        baseTypeStr.Append(", ");
                    }
                    baseTypeStr.Append(GetTypeName(implementedInterface.InterfaceClass, namespaces));
                }
            }
            if (baseTypeStr.Length > 0)
            {
                baseTypeStr.Insert(0, " : ");
            }

            AppendDocComment(builder, unrealStruct, isBlueprintType);
            AppendAttribute(builder, unrealStruct, module, structInfo);
            if (structInfo.IsInterface)
            {
                System.Diagnostics.Debug.Assert(structInfo.Class.Interfaces.Length == 0, "TODO: Interfaces inheriting other interfaces");

                string baseInterface = unrealStruct == UClass.GetClass <UInterface>() ? string.Empty :
                                       (baseTypeStr.Length == 0 ? " : " : ", ") + Names.IInterface;
                builder.AppendLine(modifiers + " interface " + typeName + baseTypeStr + baseInterface);
            }
            else if (structInfo.IsClass)
            {
                builder.AppendLine(modifiers + " partial class " + typeName + baseTypeStr);
            }
            else
            {
                if (structInfo.StructAsClass)
                {
                    builder.AppendLine(modifiers + " partial class " + typeName + " : " + Names.StructAsClass);
                }
                else
                {
                    if (structInfo.IsBlittable)
                    {
                        string structLayout = UpdateTypeNameNamespace("StructLayout", "System.Runtime.InteropServices", namespaces);
                        string layoutKind   = UpdateTypeNameNamespace("LayoutKind", "System.Runtime.InteropServices", namespaces);
                        builder.AppendLine("[" + structLayout + "(" + layoutKind + ".Sequential)]");
                    }
                    builder.AppendLine(modifiers + " partial struct " + typeName);
                }
            }
            builder.OpenBrace();

            string typeNameEx = structInfo.IsInterface ? typeName + "Impl" : typeName;

            // Create a seperate builder for building the interface "Impl" class
            CSharpTextBuilder interfaceImplBuilder = null;

            if (structInfo.IsInterface)
            {
                interfaceImplBuilder = new CSharpTextBuilder();
                interfaceImplBuilder.AppendLine(accessSpecifier + " sealed class " + typeNameEx + " : " +
                                                Names.IInterfaceImpl + ", " + typeName);
                interfaceImplBuilder.Indent();    // Move the indent to the same as builder for this point
                interfaceImplBuilder.OpenBrace(); // Open the class brace
            }

            // Create a seperate builder for properties which will be inserted into the native type info initializer
            CSharpTextBuilder offsetsBuilder = new CSharpTextBuilder(Settings.IndentType);

            offsetsBuilder.AppendLine("static " + typeNameEx + "()");
            offsetsBuilder.IndentCount = builder.IndentCount;// Move the indent to the same as builder
            offsetsBuilder.OpenBrace();
            offsetsBuilder.AppendLine("if (" + Names.UnrealTypes_CanLazyLoadNativeType + "(typeof(" + typeNameEx + ")))");
            offsetsBuilder.OpenBrace();
            offsetsBuilder.AppendLine(Settings.VarNames.LoadNativeType + "();");
            offsetsBuilder.CloseBrace();
            offsetsBuilder.AppendLine(Names.UnrealTypes_OnCCtorCalled + "(typeof(" + typeNameEx + "));");
            offsetsBuilder.CloseBrace();
            offsetsBuilder.AppendLine();
            offsetsBuilder.AppendLine("static void " + Settings.VarNames.LoadNativeType + "()");
            offsetsBuilder.OpenBrace();
            if (structInfo.HasStaticFunction)
            {
                builder.AppendLine("static IntPtr " + Settings.VarNames.ClassAddress + ";");
                offsetsBuilder.AppendLine(Settings.VarNames.ClassAddress + " = " +
                                          (structInfo.IsStruct ? Names.NativeReflection_GetStruct : Names.NativeReflection_GetClass) +
                                          "(\"" + unrealStruct.GetPathName() + "\");");
            }
            else
            {
                offsetsBuilder.AppendLine("IntPtr " + Settings.VarNames.ClassAddress + " = " +
                                          (structInfo.IsStruct ? Names.NativeReflection_GetStruct : Names.NativeReflection_GetClass) +
                                          "(\"" + unrealStruct.GetPathName() + "\");");
            }
            if (structInfo.StructAsClass)
            {
                offsetsBuilder.AppendLine(typeName + Settings.VarNames.StructAddress + " = " + Settings.VarNames.ClassAddress + ";");
            }
            else if (structInfo.IsStruct)
            {
                offsetsBuilder.AppendLine(typeName + Settings.VarNames.StructSize + " = " + Names.NativeReflection_GetStructSize +
                                          "(" + Settings.VarNames.ClassAddress + ");");
            }

            if (structInfo.IsStruct && parentStruct != null)
            {
                // Export base properties
                if (Settings.InlineBaseStruct || structInfo.StructAsClass)
                {
                    UScriptStruct tempParentStruct = parentStruct as UScriptStruct;
                    while (tempParentStruct != null)
                    {
                        StructInfo tempParentStructInfo = GetStructInfo(tempParentStruct);
                        if (tempParentStructInfo != null)
                        {
                            foreach (UProperty property in tempParentStructInfo.GetProperties())
                            {
                                if (!tempParentStructInfo.IsCollapsedProperty(property))
                                {
                                    GenerateCodeForProperty(module, builder, offsetsBuilder, property, tempParentStructInfo.IsBlueprintType,
                                                            structInfo, namespaces, tempParentStructInfo.GetPropertyName(property));
                                }
                            }
                        }
                        tempParentStruct = tempParentStruct.GetSuperStruct() as UScriptStruct;
                    }
                }
                else
                {
                    builder.AppendLine(GetTypeName(parentStruct, namespaces) + " Base;");
                }
            }

            // Export properties
            foreach (UProperty property in structInfo.GetProperties())
            {
                if (!structInfo.IsCollapsedProperty(property))
                {
                    GenerateCodeForProperty(module, builder, offsetsBuilder, property, isBlueprintType, structInfo, namespaces,
                                            structInfo.GetPropertyName(property));
                }
            }

            foreach (CollapsedMember collapsedMember in structInfo.GetCollapsedMembers())
            {
                GenerateCodeForProperty(module, builder, offsetsBuilder, collapsedMember, isBlueprintType, namespaces);
            }

            // Export functions
            List <ExtensionMethodInfo> extensionMethods = new List <ExtensionMethodInfo>();

            foreach (UFunction function in structInfo.GetFunctions())
            {
                if (!structInfo.IsCollapsedFunction(function))
                {
                    if (!structInfo.IsInterface)
                    {
                        // If this isn't an interface and the function can be made into an extension method then do so
                        ExtensionMethodInfo extensionMethodInfo = ExtensionMethodInfo.Create(function);
                        if (extensionMethodInfo != null)
                        {
                            extensionMethods.Add(extensionMethodInfo);
                        }
                    }

                    if (function.HasAnyFunctionFlags(EFunctionFlags.Delegate | EFunctionFlags.MulticastDelegate))
                    {
                        AppendDelegateSignature(module, builder, function, unrealStruct, isBlueprintType, namespaces);
                        builder.AppendLine();
                    }
                    else if (structInfo.IsInterface)
                    {
                        AppendFunctionOffsets(interfaceImplBuilder, offsetsBuilder, function, false, false, namespaces);

                        AppendDocComment(builder, function, isBlueprintType);
                        AppendAttribute(builder, function, module);

                        builder.AppendLine(GetFunctionSignature(module, function, unrealStruct, namespaces) + ";");
                        builder.AppendLine();

                        // Always require a per-instance function address on the interfaces "Impl" class.
                        // This isn't really required if the target function isn't an event but since we are working
                        // with interfaces it is probably best to make sure functions are resolved properly. If we decide
                        // to change this to not require a per-instance function address make sure to update AppendFunctionOffsets
                        // which adds the per-instance function address to the class. Also update AssemblyRewriter.Interface.cs
                        // Also update the "ResetInterface" code which always expects an per-instance address to reset.
                        AppendAttribute(interfaceImplBuilder, function, module);
                        interfaceImplBuilder.AppendLine(GetFunctionSignature(module, function, unrealStruct, null, "public",
                                                                             FunctionSigFlags.None, namespaces));
                        interfaceImplBuilder.OpenBrace();
                        AppendFunctionBody(interfaceImplBuilder, function, false, false, true, namespaces);
                        interfaceImplBuilder.CloseBrace();
                        builder.AppendLine();
                    }
                    else
                    {
                        AppendFunctionOffsets(builder, offsetsBuilder, function, false, false, namespaces);

                        AppendDocComment(builder, function, isBlueprintType);
                        AppendAttribute(builder, function, module);

                        bool hasSuperFunction = function.GetSuperFunction() != null;
                        if (function.HasAnyFunctionFlags(EFunctionFlags.BlueprintEvent) && !hasSuperFunction)
                        {
                            // Define the declaration method which will call the correct UFunction for the UObject instance
                            builder.AppendLine(GetFunctionSignature(module, function, unrealStruct, namespaces));
                            builder.OpenBrace();
                            AppendFunctionBody(builder, function, false, false, true, namespaces);
                            builder.CloseBrace();
                            builder.AppendLine();
                        }

                        if (function.HasAnyFunctionFlags(EFunctionFlags.BlueprintEvent))
                        {
                            if (!Settings.UseExplicitImplementationMethods)
                            {
                                // Used to hide the _Implementation method from being visible in intellisense
                                builder.AppendLine("[System.ComponentModel.EditorBrowsable(System.ComponentModel.EditorBrowsableState.Never)]");
                            }

                            // Define the _Implementation method
                            builder.AppendLine(GetFunctionSignatureImpl(module, function, unrealStruct, namespaces));
                        }
                        else
                        {
                            builder.AppendLine(GetFunctionSignature(module, function, unrealStruct, namespaces));
                        }
                        builder.OpenBrace();
                        AppendFunctionBody(builder, function, false, false, false, namespaces);
                        builder.CloseBrace();
                        builder.AppendLine();
                    }
                }
            }

            if (structInfo.StructAsClass)
            {
                if (Settings.GenerateIsValidSafeguards)
                {
                    builder.AppendLine("static bool " + typeName + Settings.VarNames.IsValid + ";");

                    // Append XXXX_IsValid = Prop1_IsValid && Prop2_IsValid && Prop3_IsValid...;
                    AppendStructIsValid(offsetsBuilder, typeName, structInfo, parentStruct);
                }

                builder.AppendLine("static IntPtr " + typeName + Settings.VarNames.StructAddress + ";");
                builder.AppendLine();

                builder.AppendLine("protected override IntPtr GetStructAddress()");
                builder.OpenBrace();
                builder.AppendLine("return " + typeName + Settings.VarNames.StructAddress + ";");
                builder.CloseBrace();
                builder.AppendLine();
            }
            else if (structInfo.IsStruct)
            {
                if (Settings.GenerateIsValidSafeguards && !structInfo.IsBlittable)
                {
                    builder.AppendLine("static bool " + typeName + Settings.VarNames.IsValid + ";");
                }

                builder.AppendLine("static int " + typeName + Settings.VarNames.StructSize + ";");
                builder.AppendLine();

                // Add the struct Copy() method (for non blittable structs)
                builder.AppendLine("public " + typeName + " " + Settings.VarNames.StructCopy + "()");
                builder.OpenBrace();
                builder.AppendLine(typeName + " result = this;");
                foreach (UProperty property in structInfo.GetProperties())
                {
                    if (!structInfo.IsCollapsedProperty(property) && IsCollectionProperty(property))
                    {
                        string propertyName = GetMemberName(property, structInfo.GetPropertyName(property));
                        builder.AppendLine("if (this." + propertyName + " != null)");
                        builder.OpenBrace();

                        UStructProperty structProperty     = property as UStructProperty;
                        StructInfo      propertyStructInfo = structProperty == null || structProperty.Struct == null ?
                                                             null : GetStructInfo(structProperty.Struct);
                        if (propertyStructInfo != null && !propertyStructInfo.IsBlittable)
                        {
                            builder.AppendLine("result." + propertyName + " = new " + GetTypeName(property, namespaces) + "();");
                            builder.AppendLine("for (int i = 0; i < this." + propertyName + ".Count; ++i)");
                            builder.OpenBrace();
                            builder.AppendLine("result." + propertyName + ".Add(this." + propertyName + "[i]." +
                                               Settings.VarNames.StructCopy + "());");
                            builder.CloseBrace();
                        }
                        else
                        {
                            builder.AppendLine("result." + propertyName + " = new " + GetTypeName(property, namespaces)
                                               + "(" + "this." + propertyName + ");");
                        }

                        builder.CloseBrace();
                    }
                }
                if (Settings.InlineBaseStruct)
                {
                    UScriptStruct tempParentStruct = parentStruct as UScriptStruct;
                    while (tempParentStruct != null)
                    {
                        StructInfo tempParentStructInfo = GetStructInfo(tempParentStruct);
                        if (tempParentStructInfo != null)
                        {
                            foreach (UProperty property in tempParentStructInfo.GetProperties())
                            {
                                if (!tempParentStructInfo.IsCollapsedProperty(property) && IsCollectionProperty(property))
                                {
                                    string propertyName = GetMemberName(property, tempParentStructInfo.GetPropertyName(property));
                                    builder.AppendLine("if (this." + propertyName + " != null)");
                                    builder.OpenBrace();
                                    builder.AppendLine("result." + propertyName + " = new " + GetTypeName(property, namespaces)
                                                       + "(" + "this." + propertyName + ");");
                                    builder.CloseBrace();
                                }
                            }
                        }
                        tempParentStruct = tempParentStruct.GetSuperStruct() as UScriptStruct;
                    }
                }
                builder.AppendLine("return result;");
                builder.CloseBrace();
                builder.AppendLine();

                if (structInfo.IsBlittable)
                {
                    // Validate the size of the blittable struct
                    offsetsBuilder.AppendLine(Names.NativeReflection_ValidateBlittableStructSize + "(" +
                                              Settings.VarNames.ClassAddress + ", typeof(" + typeName + "));");
                }
                else
                {
                    if (Settings.GenerateIsValidSafeguards)
                    {
                        // Append XXXX_IsValid = Prop1_IsValid && Prop2_IsValid && Prop3_IsValid...;
                        AppendStructIsValid(offsetsBuilder, typeName, structInfo, parentStruct);
                    }

                    builder.AppendLine("public static " + typeName + " FromNative(IntPtr nativeBuffer)");
                    builder.OpenBrace();
                    builder.AppendLine("return new " + typeName + "(nativeBuffer);");
                    builder.CloseBrace();
                    builder.AppendLine();

                    builder.AppendLine("public static void ToNative(IntPtr nativeBuffer, " + typeName + " value)");
                    builder.OpenBrace();
                    builder.AppendLine("value.ToNative(nativeBuffer);");
                    builder.CloseBrace();
                    builder.AppendLine();

                    builder.AppendLine("public static " + typeName + " FromNative(IntPtr nativeBuffer, int arrayIndex, IntPtr prop)");
                    builder.OpenBrace();
                    builder.AppendLine("return new " + typeName + "(nativeBuffer + (arrayIndex * " + typeName + Settings.VarNames.StructSize + "));");
                    builder.CloseBrace();
                    builder.AppendLine();

                    builder.AppendLine("public static void ToNative(IntPtr nativeBuffer, int arrayIndex, IntPtr prop, " + typeName + " value)");
                    builder.OpenBrace();
                    builder.AppendLine("value.ToNative(nativeBuffer + (arrayIndex * " + typeName + Settings.VarNames.StructSize + "));");
                    builder.CloseBrace();
                    builder.AppendLine();

                    builder.AppendLine("public void ToNative(IntPtr nativeStruct)");
                    builder.OpenBrace();
                    AppendStructMarshalerBody(builder, typeName, structInfo, parentStruct, true, namespaces);
                    builder.CloseBrace();
                    builder.AppendLine();

                    builder.AppendLine("public " + typeName + "(IntPtr nativeStruct)");
                    builder.OpenBrace();

                    /*if (Settings.UObjectAsBlittableType)
                     * {
                     *  // UObject types will have an additional backing field which needs to be assigned before being able to
                     *  // assign the property
                     *  // - The alternative would be to modify the property assignment code to target the backing field instead of
                     *  //   the property. This is probably the ideal way of doing it but we would need to use a different marshaler
                     *  //   (BlittableTypeMarshaler<> instead of UObjectMarshaler<>) and ensure the marshaler change doesn't impact
                     *  //   other generated code elsewhere.
                     *  foreach (UProperty property in structInfo.GetProperties())
                     *  {
                     *      UObjectProperty objectProperty = property as UObjectProperty;
                     *      if (objectProperty != null)
                     *      {
                     *          string propertyName = GetMemberName(property, structInfo.GetPropertyName(property));
                     *          builder.AppendLine(propertyName + Settings.VarNames.UObjectBlittableName + " = IntPtr.Zero;");
                     *      }
                     *  }
                     * }*/
                    AppendStructMarshalerBody(builder, typeName, structInfo, parentStruct, false, namespaces);
                    builder.CloseBrace();
                    builder.AppendLine();
                }
            }

            if (loadNativeTypeInjected.Contains(typeName))
            {
                offsetsBuilder.AppendLine(Settings.VarNames.LoadNativeTypeInjected + "(" + Settings.VarNames.ClassAddress + ");");
            }
            offsetsBuilder.CloseBrace();

            // Add the offsets builder if it isn't empty (always required for structs due to struct size export)
            // Interfaces are built up seperately in a different class which must be added after the interface body.
            if (!structInfo.IsInterface && (structInfo.HasContent || structInfo.IsStruct))
            {
                builder.AppendLine(offsetsBuilder.ToString());
                builder.AppendLine();
            }

            // Remove any trailing empty lines before adding the close brace
            builder.RemovePreviousEmptyLines();

            builder.CloseBrace();

            // Add the "Impl" wrapper class for interfaces. This is always required so that we have a default
            // interface implementation that we can call.
            if (structInfo.IsInterface)
            {
                if (structInfo.HasContent)
                {
                    interfaceImplBuilder.AppendLine();// Whitespace

                    // Add the ResetInterface method to reset the state of a pooled interface instance
                    interfaceImplBuilder.AppendLine("public override void ResetInterface()");
                    interfaceImplBuilder.OpenBrace();
                    foreach (UFunction function in structInfo.GetFunctions())
                    {
                        interfaceImplBuilder.AppendLine(GetFunctionName(function) +
                                                        Settings.VarNames.InstanceFunctionAddress + " = IntPtr.Zero;");
                    }
                    interfaceImplBuilder.CloseBrace();

                    interfaceImplBuilder.AppendLine();                      // Whitespace
                }
                interfaceImplBuilder.AppendLine(offsetsBuilder.ToString()); // Add the offsets to the "Impl" class
                interfaceImplBuilder.CloseBrace();                          // Add the close brace for the "Impl" class

                builder.AppendLine();                                       // Empty line between interface and "Impl" class
                builder.AppendLine(interfaceImplBuilder.ToString());        // Add the "Impl" class below the interface
            }

            if (!string.IsNullOrEmpty(currentNamespace))
            {
                builder.CloseBrace();
            }

            builder.InsertNamespaces(currentNamespace, namespaces, Settings.SortNamespaces);

            OnCodeGenerated(module, moduleAssetType, typeName, unrealStruct.GetPathName(), builder);

            if (extensionMethods.Count > 0)
            {
                GenerateCodeForExtensionMethods(module, unrealStruct, extensionMethods);
            }
        }
        /// <summary>
        /// Determines the "blueprintability" of the given UStruct (BlueprintType / Blueprintable)
        /// </summary>
        private void GetBlueprintability(UStruct unrealStruct, out bool blueprintType, out bool blueprintable)
        {
            blueprintType = false;
            blueprintable = false;

            // See UEdGraphSchema_K2::IsAllowableBlueprintVariableType()
            // Engine\Source\Editor\BlueprintGraph\Private\EdGraphSchema_K2.cpp

            // True but not useful for what we are doing
            //if (unrealStruct.Address == Classes.UObject)
            //{
            //    blueprintType = true;
            //    blueprintable = true;
            //    return;
            //}

            if (unrealStruct.IsA <UBlueprintFunctionLibrary>())
            {
                // UBlueprintFunctionLibrary functions are always visible (even if marked NotBlueprintType)
                blueprintType = true;
            }

            bool notBlueprintType = false;
            bool notBlueprintable = false;

            while (unrealStruct != null)
            {
                if (!notBlueprintType && (unrealStruct.GetBoolMetaData(MDClass.BlueprintType) ||
                                          unrealStruct.GetBoolMetaData(MDClass.BlueprintSpawnableComponent)))
                {
                    blueprintType = true;
                    if (blueprintable || notBlueprintable)
                    {
                        break;
                    }
                }
                if (!notBlueprintable && !blueprintable && unrealStruct.HasMetaData(MDClass.IsBlueprintBase))
                {
                    if (unrealStruct.GetBoolMetaData(MDClass.IsBlueprintBase))
                    {
                        blueprintable = true;
                    }
                    else
                    {
                        notBlueprintable = true;
                    }
                    if (blueprintType || notBlueprintType)
                    {
                        break;
                    }
                }
                if (!notBlueprintable && unrealStruct.GetBoolMetaData(MDClass.Blueprintable))
                {
                    blueprintable = true;
                    if (blueprintType || notBlueprintType)
                    {
                        break;
                    }
                }
                if (!blueprintType && unrealStruct.GetBoolMetaData(MDClass.NotBlueprintType))
                {
                    notBlueprintType = true;
                    if (blueprintable || notBlueprintable)
                    {
                        break;
                    }
                }
                if (!blueprintable && unrealStruct.GetBoolMetaData(MDClass.NotBlueprintable))
                {
                    notBlueprintable = true;
                    if (blueprintType || notBlueprintType)
                    {
                        break;
                    }
                }

                unrealStruct = unrealStruct.GetSuperStruct();
            }
        }
Esempio n. 8
0
        private void AppendDelegateSignature(UnrealModuleInfo module, CSharpTextBuilder builder, UFunction function, UStruct owner,
                                             bool isBlueprintType, List <string> namespaces)
        {
            AppendDocComment(builder, function, isBlueprintType);
            AppendAttribute(builder, function, module);

            string delegateBaseTypeName = function.HasAnyFunctionFlags(EFunctionFlags.MulticastDelegate) ?
                                          Names.FMulticastDelegate : Names.FDelegate;

            string delegateTypeName = GetTypeNameDelegate(function);

            builder.AppendLine("public class " + delegateTypeName + " : " + delegateBaseTypeName + "<" + delegateTypeName + "." +
                               Settings.VarNames.DelegateSignature + ">");
            builder.OpenBrace();

            builder.AppendLine(GetFunctionSignature(
                                   module, function, owner, Settings.VarNames.DelegateSignature, "public delegate", false, false, namespaces));
            builder.AppendLine();
            builder.AppendLine("public override " + Settings.VarNames.DelegateSignature + " " + Names.FDelegateBase_GetInvoker + "()");
            builder.OpenBrace();
            builder.AppendLine("return " + Settings.VarNames.DelegateInvoker + ";");
            builder.CloseBrace();
            builder.AppendLine();

            string functionName = GetFunctionName(function);
            Dictionary <UProperty, string> paramNames = GetParamNames(function);

            // Offsets
            if (Settings.GenerateIsValidSafeguards)
            {
                builder.AppendLine("static bool " + functionName + Settings.VarNames.IsValid + ";");
            }
            builder.AppendLine("static IntPtr " + functionName + Settings.VarNames.FunctionAddress + ";");
            builder.AppendLine("static int " + functionName + Settings.VarNames.ParamsSize + ";");
            foreach (KeyValuePair <UProperty, string> param in paramNames)
            {
                UProperty parameter = param.Key;
                string    paramName = param.Value;

                if (!parameter.HasAnyPropertyFlags(EPropertyFlags.Parm))
                {
                    continue;
                }

                AppendPropertyOffset(builder, functionName + "_" + paramName, parameter, true, namespaces);
            }

            // Add the native type info initializer to get the offsets
            builder.AppendLine("static void " + Settings.VarNames.LoadNativeType + "()");
            builder.OpenBrace();
            builder.AppendLine(functionName + Settings.VarNames.FunctionAddress + " = " + Names.NativeReflection_GetFunction +
                               "(\"" + function.GetPathName() + "\");");
            builder.AppendLine(functionName + Settings.VarNames.ParamsSize + " = " + Names.NativeReflection_GetFunctionParamsSize +
                               "(" + functionName + Settings.VarNames.FunctionAddress + ");");
            foreach (KeyValuePair <UProperty, string> param in paramNames)
            {
                UProperty parameter = param.Key;
                string    paramName = param.Value;

                if (!parameter.HasAnyPropertyFlags(EPropertyFlags.Parm))
                {
                    continue;
                }

                AppendPropertyOffsetNativeTypeLoader(builder, functionName + "_" + paramName, parameter, functionName);
            }
            if (Settings.GenerateIsValidSafeguards)
            {
                // XXXX_IsValid = param1_IsValid && param2_IsValid && param3_IsValid;
                string paramsValid = string.Join(" && ", paramNames.Values.Select(x => functionName + "_" + x + Settings.VarNames.IsValid));
                if (!string.IsNullOrEmpty(paramsValid))
                {
                    paramsValid = " && " + paramsValid;
                }
                builder.AppendLine(functionName + Settings.VarNames.IsValid + " = " +
                                   functionName + Settings.VarNames.FunctionAddress + " != IntPtr.Zero" + paramsValid + ";");
                builder.AppendLine(Names.NativeReflection_LogFunctionIsValid + "(\"" + function.GetPathName() + "\", " +
                                   functionName + Settings.VarNames.IsValid + ");");
            }
            builder.CloseBrace();
            builder.AppendLine();

            builder.AppendLine(GetFunctionSignature(
                                   module, function, owner, Settings.VarNames.DelegateInvoker, "private", true, false, namespaces));
            builder.OpenBrace();
            AppendFunctionBody(builder, function, false, false, false, namespaces);
            builder.CloseBrace();

            builder.CloseBrace();
        }
Esempio n. 9
0
 private string GetFunctionSignatureImpl(UnrealModuleInfo module, UFunction function, UStruct owner, List <string> namespaces)
 {
     return(GetFunctionSignature(module, function, owner, null, null, false, true, namespaces));
 }
Esempio n. 10
0
        private StructInfo GetStructInfo(UStruct unrealStruct)
        {
            bool isBlueprintType = unrealStruct.IsA <UUserDefinedStruct>() || unrealStruct.IsA <UBlueprintGeneratedClass>();

            return(GetStructInfo(unrealStruct, isBlueprintType));
        }
Esempio n. 11
0
        private void UpdateAvailableTypes(UField field)
        {
            if (field == null)
            {
                return;
            }

            System.Diagnostics.Debug.Assert(!field.IsA <UProperty>(), "Shouldn't have UProperty here");

            if (field.IsA <UStruct>() || field.IsA <UEnum>())
            {
                bool isNewElement = availableTypes.Add(field);
                if (!isNewElement)
                {
                    return;
                }
            }

            if (Settings.ExportMode != CodeGeneratorSettings.CodeExportMode.Referenced)
            {
                return;
            }

            // Get all of the references from this struct
            UStruct unrealStruct = field as UStruct;

            if (unrealStruct != null)
            {
                bool isBlueprintType = unrealStruct.IsA <UUserDefinedStruct>() || unrealStruct.IsA <UBlueprintGeneratedClass>();

                // Get struct references from parent class chain
                UStruct parentStruct = unrealStruct.GetSuperStruct();
                while (parentStruct != null)
                {
                    UpdateAvailableTypes(parentStruct);
                    parentStruct = parentStruct.GetSuperStruct();
                }

                // Get references from interfaces
                UClass unrealClass = field as UClass;
                if (unrealClass != null)
                {
                    foreach (FImplementedInterface implementedInterface in unrealClass.Interfaces)
                    {
                        UpdateAvailableTypes(implementedInterface.InterfaceClass);
                    }
                }

                // Get struct references from members
                foreach (UProperty property in unrealStruct.GetFields <UProperty>(false))
                {
                    if (CanExportProperty(property, unrealStruct, isBlueprintType))
                    {
                        UpdateAvailableTypesProp(property);
                    }
                }

                // Get struct references from function params (and return type)
                foreach (UFunction unrealFunction in unrealStruct.GetFields <UFunction>(false))
                {
                    if (CanExportFunction(unrealFunction, isBlueprintType))
                    {
                        foreach (UProperty parameter in unrealFunction.GetFields <UProperty>())
                        {
                            UpdateAvailableTypesProp(parameter);
                        }
                    }
                }
            }

            // This should be for global functions only (delegates)
            UFunction function = field as UFunction;

            if (function != null)
            {
                if (CanExportFunction(function, false))
                {
                    UStruct functionOwner = function.GetOuter() as UStruct;
                    if (functionOwner != null)
                    {
                        UpdateAvailableTypes(functionOwner);
                    }

                    foreach (UProperty parameter in function.GetFields <UProperty>())
                    {
                        UpdateAvailableTypesProp(parameter);
                    }
                }
            }
        }
Esempio n. 12
0
 /// <summary>
 /// See if the offset of this property is below the supplied container size
 /// </summary>
 /// <param name="containerClass"></param>
 /// <returns></returns>
 public bool IsInContainer(UStruct containerClass)
 {
     return(Native_UProperty.IsInContainerStruct(Address, containerClass.Address));
 }
Esempio n. 13
0
        private void ProcessCommon(EExprToken opcode)
        {
            switch (opcode)
            {
            case EExprToken.EX_PrimitiveCast:
            {
                // A type conversion.
                byte conversionType = ReadByte();
                output.AppendLine(FmtOpcodeIndent(opcode) + "PrimitiveCast of type " + conversionType);
                AddIndent();

                output.AppendLine(indents + " Argument:");
                ProcessCastByte(conversionType);

                //@TODO:
                //Ar.Logf(TEXT("%s Expression:"), *Indents);
                //SerializeExpr( ScriptIndex );
                break;
            }

            case EExprToken.EX_SetSet:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "set set");
                SerializeExpr();
                ReadInt32();
                while (SerializeExpr() != EExprToken.EX_EndSet)
                {
                    // Set contents
                }
                break;
            }

            case EExprToken.EX_EndSet:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "EX_EndSet");
                break;
            }

            case EExprToken.EX_SetConst:
            {
                UProperty innerProp = ReadPointer <UProperty>();
                int       num       = ReadInt32();
                output.AppendLine(FmtOpcodeIndent(opcode) + "set set const - elements number: " + num + ", inner property: " +
                                  UObject.GetNameSafe(innerProp));
                while (SerializeExpr() != EExprToken.EX_EndSetConst)
                {
                    // Set contents
                }
                break;
            }

            case EExprToken.EX_EndSetConst:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "EX_EndSetConst");
                break;
            }

            case EExprToken.EX_SetMap:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "set map");
                SerializeExpr();
                ReadInt32();
                while (SerializeExpr() != EExprToken.EX_EndMap)
                {
                    // Map contents
                }
                break;
            }

            case EExprToken.EX_EndMap:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "EX_EndMap");
                break;
            }

            case EExprToken.EX_MapConst:
            {
                UProperty keyProp = ReadPointer <UProperty>();
                UProperty valProp = ReadPointer <UProperty>();
                int       num     = ReadInt32();
                output.AppendLine(FmtOpcodeIndent(opcode) + "set map const - elements number: " + num +
                                  ", key property: " + UObject.GetNameSafe(keyProp) + ", val property: " + UObject.GetNameSafe(valProp));
                while (SerializeExpr() != EExprToken.EX_EndMapConst)
                {
                    // Map contents
                }
                break;
            }

            case EExprToken.EX_ObjToInterfaceCast:
            {
                // A conversion from an object variable to a native interface variable.
                // We use a different bytecode to avoid the branching each time we process a cast token

                // the interface class to convert to
                UClass interfaceClass = ReadPointer <UClass>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "ObjToInterfaceCast to " + interfaceClass.GetName());

                SerializeExpr();
                break;
            }

            case EExprToken.EX_CrossInterfaceCast:
            {
                // A conversion from one interface variable to a different interface variable.
                // We use a different bytecode to avoid the branching each time we process a cast token

                // the interface class to convert to
                UClass interfaceClass = ReadPointer <UClass>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "InterfaceToInterfaceCast to " + interfaceClass.GetName());

                SerializeExpr();
                break;
            }

            case EExprToken.EX_InterfaceToObjCast:
            {
                // A conversion from an interface variable to a object variable.
                // We use a different bytecode to avoid the branching each time we process a cast token

                // the interface class to convert to
                UClass objectClass = ReadPointer <UClass>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "InterfaceToObjCast to " + objectClass.GetName());

                SerializeExpr();
                break;
            }

            case EExprToken.EX_Let:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "Let (Variable = Expression)");
                AddIndent();

                ReadPointer <UProperty>();

                // Variable expr.
                output.AppendLine(indents + " Variable:");
                SerializeExpr();

                // Assignment expr.
                output.AppendLine(indents + " Expression:");
                SerializeExpr();

                DropIndent();
                break;
            }

            case EExprToken.EX_LetObj:
            case EExprToken.EX_LetWeakObjPtr:
            {
                if (opcode == EExprToken.EX_LetObj)
                {
                    output.AppendLine(FmtOpcodeIndent(opcode) + "Let Obj (Variable = Expression)");
                }
                else
                {
                    output.AppendLine(FmtOpcodeIndent(opcode) + "Let WeakObjPtr (Variable = Expression)");
                }
                AddIndent();

                // Variable expr.
                output.AppendLine(indents + " Variable:");
                SerializeExpr();

                // Assignment expr.
                output.AppendLine(indents + " Expression:");
                SerializeExpr();

                DropIndent();
                break;
            }

            case EExprToken.EX_LetBool:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "LetBool (Variable = Expression)");
                AddIndent();

                // Variable expr.
                output.AppendLine(indents + " Variable:");
                SerializeExpr();

                // Assignment expr.
                output.AppendLine(indents + " Expression:");
                SerializeExpr();

                DropIndent();
                break;
            }

            case EExprToken.EX_LetValueOnPersistentFrame:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "LetValueOnPersistentFrame");
                AddIndent();

                UProperty prop = ReadPointer <UProperty>();
                output.AppendLine(indents + " Destination variable: " + UObject.GetNameSafe(prop) + ", offset: " +
                                  (prop != null ? prop.GetOffset_ForDebug() : 0));

                output.AppendLine(indents + " Expression:");
                SerializeExpr();

                DropIndent();

                break;
            }

            case EExprToken.EX_StructMemberContext:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "Struct member context");
                AddIndent();

                UProperty prop = ReadPointer <UProperty>();

                // although that isn't a UFunction, we are not going to indirect the props of a struct, so this should be fine
                output.AppendLine(indents + " Expression within struct " + prop.GetName() + ", offset " + prop.GetOffset_ForDebug());

                output.AppendLine(indents + " Expression to struct:");
                SerializeExpr();

                DropIndent();

                break;
            }

            case EExprToken.EX_LetDelegate:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "LetDelegate (Variable = Expression)");
                AddIndent();

                // Variable expr.
                output.AppendLine(indents + " Variable:");
                SerializeExpr();

                // Assignment expr.
                output.AppendLine(indents + " Expression:");
                SerializeExpr();

                DropIndent();
                break;
            }

            case EExprToken.EX_LetMulticastDelegate:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "LetMulticastDelegate (Variable = Expression)");
                AddIndent();

                // Variable expr.
                output.AppendLine(indents + " Variable:");
                SerializeExpr();

                // Assignment expr.
                output.AppendLine(indents + " Expression:");
                SerializeExpr();

                DropIndent();
                break;
            }

            case EExprToken.EX_ComputedJump:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "Computed Jump, offset specified by expression:");

                AddIndent();
                SerializeExpr();
                DropIndent();

                break;
            }

            case EExprToken.EX_Jump:
            {
                uint skipCount = ReadSkipCount();
                output.AppendLine(FmtOpcodeIndent(opcode) + "Jump to offset " + FmtSkipCount(skipCount));
                break;
            }

            case EExprToken.EX_LocalVariable:
            {
                UProperty property = ReadPointer <UProperty>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "Local variable named " + FmtObjNameOrNull(property));
                break;
            }

            case EExprToken.EX_DefaultVariable:
            {
                UProperty property = ReadPointer <UProperty>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "Default variable named " + FmtObjNameOrNull(property));
                break;
            }

            case EExprToken.EX_InstanceVariable:
            {
                UProperty property = ReadPointer <UProperty>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "Instance variable named " + FmtObjNameOrNull(property));
                break;
            }

            case EExprToken.EX_LocalOutVariable:
            {
                UProperty property = ReadPointer <UProperty>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "Local out variable named " + FmtObjNameOrNull(property));
                break;
            }

            case EExprToken.EX_InterfaceContext:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "EX_InterfaceContext:");
                SerializeExpr();
                break;
            }

            case EExprToken.EX_DeprecatedOp4A:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "This opcode has been removed and does nothing.");
                break;
            }

            case EExprToken.EX_Nothing:
            case EExprToken.EX_EndOfScript:
            case EExprToken.EX_EndFunctionParms:
            case EExprToken.EX_EndStructConst:
            case EExprToken.EX_EndArray:
            case EExprToken.EX_EndArrayConst:
            case EExprToken.EX_IntZero:
            case EExprToken.EX_IntOne:
            case EExprToken.EX_True:
            case EExprToken.EX_False:
            case EExprToken.EX_NoObject:
            case EExprToken.EX_NoInterface:
            case EExprToken.EX_Self:
            case EExprToken.EX_EndParmValue:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + opcode.ToString());
                break;
            }

            case EExprToken.EX_Return:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + opcode.ToString());
                SerializeExpr();         // Return expression.
                break;
            }

            case EExprToken.EX_CallMath:
            {
                UStruct stackNode = ReadPointer <UStruct>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "Call Math (stack node " +
                                  UObject.GetNameSafe(stackNode != null ? stackNode.GetOuter() : null) + "::" +
                                  UObject.GetNameSafe(stackNode) + ")");

                while (SerializeExpr() != EExprToken.EX_EndFunctionParms)
                {
                    // Params
                }
                break;
            }

            case EExprToken.EX_FinalFunction:
            {
                UStruct stackNode = ReadPointer <UStruct>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "Final Function (stack node " +
                                  FmtObjOuterNameOrNull(stackNode) + "::" + FmtObjNameOrNull(stackNode) + ")");

                while (SerializeExpr() != EExprToken.EX_EndFunctionParms)
                {
                    // Params
                }
                break;
            }

            case EExprToken.EX_CallMulticastDelegate:
            {
                UStruct stackNode = ReadPointer <UStruct>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "CallMulticastDelegate (signature " +
                                  FmtObjOuterNameOrNull(stackNode) + "::" + FmtObjNameOrNull(stackNode) + ") delegate:");
                SerializeExpr();
                output.AppendLine(FmtOpcodeIndent(opcode) + "Params:");
                while (SerializeExpr() != EExprToken.EX_EndFunctionParms)
                {
                    // Params
                }
                break;
            }

            case EExprToken.EX_VirtualFunction:
            {
                string functionName = ReadName();
                output.AppendLine(FmtOpcodeIndent(opcode) + "Virtual Function named " + functionName);

                while (SerializeExpr() != EExprToken.EX_EndFunctionParms)
                {
                }
                break;
            }

            case EExprToken.EX_ClassContext:
            case EExprToken.EX_Context:
            case EExprToken.EX_Context_FailSilent:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + (opcode == EExprToken.EX_ClassContext ? "Class Context" : "Context"));
                AddIndent();

                // Object expression.
                output.AppendLine(indents + " ObjectExpression:");
                SerializeExpr();

                if (opcode == EExprToken.EX_Context_FailSilent)
                {
                    output.AppendLine(indents + " Can fail silently on access none ");
                }

                // Code offset for NULL expressions.
                uint skipCount = ReadSkipCount();
                output.AppendLine(indents + " Skip Bytes: " + FmtSkipCount(skipCount));

                // Property corresponding to the r-value data, in case the l-value needs to be mem-zero'd
                UField field = ReadPointer <UField>();
                output.AppendLine(indents + " R-Value Property: " + FmtObjNameOrNull(field));

                // Context expression.
                output.AppendLine(indents + " ContextExpression:");
                SerializeExpr();

                DropIndent();
                break;
            }

            case EExprToken.EX_IntConst:
            {
                int constValue = ReadInt32();
                output.AppendLine(FmtOpcodeIndent(opcode) + "literal int32 " + constValue);
                break;
            }

            case EExprToken.EX_SkipOffsetConst:
            {
                uint constValue = ReadSkipCount();
                output.AppendLine(FmtOpcodeIndent(opcode) + "literal CodeSkipSizeType " + FmtSkipCount(constValue));
                break;
            }

            case EExprToken.EX_FloatConst:
            {
                float constValue = ReadFloat();
                output.AppendLine(FmtOpcodeIndent(opcode) + "literal float " + constValue);
                break;
            }

            case EExprToken.EX_StringConst:
            {
                string constValue = ReadString8();
                output.AppendLine(FmtOpcodeIndent(opcode) + "literal ansi string \"" + constValue + "\"");
                break;
            }

            case EExprToken.EX_UnicodeStringConst:
            {
                string constValue = ReadString16();
                output.AppendLine(FmtOpcodeIndent(opcode) + "literal unicode string \"" + constValue + "\"");
                break;
            }

            case EExprToken.EX_TextConst:
            {
                // What kind of text are we dealing with?
                EBlueprintTextLiteralType textLiteralType = (EBlueprintTextLiteralType)script[scriptIndex++];

                switch (textLiteralType)
                {
                case EBlueprintTextLiteralType.Empty:
                {
                    output.AppendLine(FmtOpcodeIndent(opcode) + "literal text - empty");
                    break;
                }

                case EBlueprintTextLiteralType.LocalizedText:
                {
                    string sourceString    = ReadString();
                    string keyString       = ReadString();
                    string namespaceString = ReadString();
                    output.AppendLine(FmtOpcodeIndent(opcode) + "literal text - localized text { namespace: \"" +
                                      namespaceString + "\", key: \"" + keyString + "\", source: \"" + sourceString + "\" }");
                    break;
                }

                case EBlueprintTextLiteralType.InvariantText:
                {
                    string sourceString = ReadString();
                    output.AppendLine(FmtOpcodeIndent(opcode) + "literal text - invariant text: \"" + sourceString + "\"");
                    break;
                }

                case EBlueprintTextLiteralType.LiteralString:
                {
                    string sourceString = ReadString();
                    output.AppendLine(FmtOpcodeIndent(opcode) + "literal text - literal string: \"" + sourceString + "\"");
                    break;
                }

                case EBlueprintTextLiteralType.StringTableEntry:
                {
                    ReadPointer <UObject>();               // String Table asset (if any)
                    string tableIdString = ReadString();
                    string keyString     = ReadString();
                    output.AppendLine(FmtOpcodeIndent(opcode) + "literal text - string table entry { tableid: \""
                                      + tableIdString + "\", key: \"" + keyString + "\" }");
                    break;
                }

                default:
                    throw new Exception("Unknown EBlueprintTextLiteralType! Please update ProcessCommon() to handle this type of text.");
                }
                break;
            }

            case EExprToken.EX_ObjectConst:
            {
                UObject pointer = ReadPointer <UObject>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "EX_ObjectConst (" + FmtPtr(pointer) + ":" + pointer.GetFullName());
                break;
            }

            case EExprToken.EX_SoftObjectConst:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "EX_SoftObjectConst");
                SerializeExpr();
                break;
            }

            case EExprToken.EX_NameConst:
            {
                string constValue = ReadName();
                output.AppendLine(FmtOpcodeIndent(opcode) + "literal name " + constValue);
                break;
            }

            case EExprToken.EX_RotationConst:
            {
                float pitch = ReadFloat();
                float yaw   = ReadFloat();
                float roll  = ReadFloat();

                output.AppendLine(FmtOpcodeIndent(opcode) + "literal rotation (" + pitch + "," + yaw + "," + roll + ")");
                break;
            }

            case EExprToken.EX_VectorConst:
            {
                float x = ReadFloat();
                float y = ReadFloat();
                float z = ReadFloat();

                output.AppendLine(FmtOpcodeIndent(opcode) + "literal vector (" + x + "," + y + "," + z + ")");
                break;
            }

            case EExprToken.EX_TransformConst:
            {
                float rotX = ReadFloat();
                float rotY = ReadFloat();
                float rotZ = ReadFloat();
                float rotW = ReadFloat();

                float transX = ReadFloat();
                float transY = ReadFloat();
                float transZ = ReadFloat();

                float scaleX = ReadFloat();
                float scaleY = ReadFloat();
                float scaleZ = ReadFloat();

                output.AppendLine(FmtOpcodeIndent(opcode) + "literal transform " +
                                  "R(" + rotX + "," + rotY + "," + rotZ + "," + rotW + "," + ") " +
                                  "T(" + transX + "," + transY + "," + transZ + ") " +
                                  "T(" + scaleX + "," + scaleY + "," + scaleZ + ")");
                break;
            }

            case EExprToken.EX_StructConst:
            {
                UScriptStruct unrealStruct   = ReadPointer <UScriptStruct>();
                int           serializedSize = ReadInt32();
                output.AppendLine(FmtOpcodeIndent(opcode) + "literal struct " + unrealStruct.GetName() +
                                  "  (serialized size: " + serializedSize + ")");
                break;
            }

            case EExprToken.EX_SetArray:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "set array");
                SerializeExpr();
                while (SerializeExpr() != EExprToken.EX_EndArray)
                {
                    // Array contents
                }
                break;
            }

            case EExprToken.EX_ArrayConst:
            {
                UProperty innerProp = ReadPointer <UProperty>();
                int       num       = ReadInt32();
                output.AppendLine(FmtOpcodeIndent(opcode) + "set array const - elements number: " +
                                  num + ", inner property: " + UObject.GetNameSafe(innerProp));
                break;
            }

            case EExprToken.EX_ByteConst:
            {
                byte constValue = ReadByte();
                output.AppendLine(FmtOpcodeIndent(opcode) + "literal byte " + constValue);
                break;
            }

            case EExprToken.EX_IntConstByte:
            {
                int constValue = ReadByte();
                output.AppendLine(FmtOpcodeIndent(opcode) + "literal int " + constValue);
                break;
            }

            case EExprToken.EX_MetaCast:
            {
                UClass unrealClass = ReadPointer <UClass>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "MetaCast to " + unrealClass.GetName() + " of expr:");
                SerializeExpr();
                break;
            }

            case EExprToken.EX_DynamicCast:
            {
                UClass unrealClass = ReadPointer <UClass>();
                output.AppendLine(FmtOpcodeIndent(opcode) + "DynamicCast to " + unrealClass.GetName() + " of expr:");
                SerializeExpr();
                break;
            }

            case EExprToken.EX_JumpIfNot:
            {
                // Code offset.
                uint skipCount = ReadSkipCount();
                output.AppendLine(FmtOpcodeIndent(opcode) + "Jump to offset " + FmtSkipCount(skipCount) + " if not expr:");

                // Boolean expr.
                SerializeExpr();
                break;
            }

            case EExprToken.EX_Assert:
            {
                ushort lineNumber  = ReadUInt16();
                byte   inDebugMode = ReadByte();

                output.AppendLine(FmtOpcodeIndent(opcode) + "assert at line " + lineNumber + ", in debug mode = " +
                                  inDebugMode + " with expr:");
                SerializeExpr();         // Assert expr.
                break;
            }

            case EExprToken.EX_Skip:
            {
                uint w = ReadSkipCount();
                output.AppendLine(FmtOpcodeIndent(opcode) + "possibly skip " + FmtSkipCount(w) + " bytes of expr:");

                // Expression to possibly skip.
                SerializeExpr();

                break;
            }

            case EExprToken.EX_InstanceDelegate:
            {
                // the name of the function assigned to the delegate.
                string funcName = ReadName();
                output.AppendLine(FmtOpcodeIndent(opcode) + "instance delegate function named " + funcName);
                break;
            }

            case EExprToken.EX_AddMulticastDelegate:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "Add MC delegate");
                SerializeExpr();
                SerializeExpr();
                break;
            }

            case EExprToken.EX_RemoveMulticastDelegate:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "Remove MC delegate");
                SerializeExpr();
                SerializeExpr();
                break;
            }

            case EExprToken.EX_ClearMulticastDelegate:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "Clear MC delegate");
                SerializeExpr();
                break;
            }

            case EExprToken.EX_BindDelegate:
            {
                // the name of the function assigned to the delegate.
                string funcName = ReadName();

                output.AppendLine(FmtOpcodeIndent(opcode) + "BindDelegate '" + funcName + "'");

                output.AppendLine(indents + " Delegate:");
                SerializeExpr();

                output.AppendLine(indents + " Object:");
                SerializeExpr();
                break;
            }

            case EExprToken.EX_PushExecutionFlow:
            {
                uint skipCount = ReadSkipCount();
                output.AppendLine(FmtOpcodeIndent(opcode) + "FlowStack.Push(" + FmtSkipCount(skipCount) + ");");
                break;
            }

            case EExprToken.EX_PopExecutionFlow:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "if (FlowStack.Num()) { jump to statement at FlowStack.Pop(); } else { ERROR!!! }");
                break;
            }

            case EExprToken.EX_PopExecutionFlowIfNot:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "if (!condition) { if (FlowStack.Num()) { jump to statement at FlowStack.Pop(); } else { ERROR!!! } }");
                // Boolean expr.
                SerializeExpr();
                break;
            }

            case EExprToken.EX_Breakpoint:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "<<< BREAKPOINT >>>");
                break;
            }

            case EExprToken.EX_WireTracepoint:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + ".. wire debug site ..");
                break;
            }

            case EExprToken.EX_InstrumentationEvent:
            {
                EScriptInstrumentation eventType = (EScriptInstrumentation)ReadByte();
                switch (eventType)
                {
                case EScriptInstrumentation.InlineEvent:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. instrumented inline event ..");
                    break;

                case EScriptInstrumentation.Stop:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. instrumented event stop ..");
                    break;

                case EScriptInstrumentation.PureNodeEntry:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. instrumented pure node entry site ..");
                    break;

                case EScriptInstrumentation.NodeDebugSite:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. instrumented debug site ..");
                    break;

                case EScriptInstrumentation.NodeEntry:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. instrumented wire entry site ..");
                    break;

                case EScriptInstrumentation.NodeExit:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. instrumented wire exit site ..");
                    break;

                case EScriptInstrumentation.PushState:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. push execution state ..");
                    break;

                case EScriptInstrumentation.RestoreState:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. restore execution state ..");
                    break;

                case EScriptInstrumentation.ResetState:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. reset execution state ..");
                    break;

                case EScriptInstrumentation.SuspendState:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. suspend execution state ..");
                    break;

                case EScriptInstrumentation.PopState:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. pop execution state ..");
                    break;

                case EScriptInstrumentation.TunnelEndOfThread:
                    output.AppendLine(FmtOpcodeIndent(opcode) + ".. tunnel end of thread ..");
                    break;
                }
                break;
            }

            case EExprToken.EX_Tracepoint:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + ".. debug site ..");
                break;
            }

            case EExprToken.EX_SwitchValue:
            {
                ushort numCases  = ReadUInt16();
                uint   afterSkip = ReadSkipCount();

                output.AppendLine(FmtOpcodeIndent(opcode) + "Switch Value " + numCases + " cases, end in " + FmtSkipCount(afterSkip));
                AddIndent();
                output.AppendLine(indents + " Index:");
                SerializeExpr();

                for (ushort caseIndex = 0; caseIndex < numCases; ++caseIndex)
                {
                    output.AppendLine(indents + " [" + caseIndex + "] Case Index (label: " + FmtScriptIndex(scriptIndex) + ")");
                    SerializeExpr();         // case index value term
                    uint offsetToNextCase = ReadSkipCount();
                    output.AppendLine(indents + " [" + caseIndex + "] Offset to the next case: " + FmtSkipCount(offsetToNextCase));
                    output.AppendLine(indents + " [" + caseIndex + "] Case Result:");
                    SerializeExpr();         // case term
                }

                output.AppendLine(indents + " Default result (label: " + FmtScriptIndex(scriptIndex) + ")");
                SerializeExpr();
                output.AppendLine(indents + " (label: " + FmtScriptIndex(scriptIndex) + ")");
                DropIndent();
                break;
            }

            case EExprToken.EX_ArrayGetByRef:
            {
                output.AppendLine(FmtOpcodeIndent(opcode) + "Array Get-by-Ref Index");
                AddIndent();
                SerializeExpr();
                SerializeExpr();
                DropIndent();
                break;
            }

            default:
            {
                string error = "Unknown bytecode 0x" + ((byte)opcode).ToString("X2") + "; ignoring it";
                output.AppendLine(FmtOpcodeIndent(opcode) + "!!!" + error);
                FMessage.Log(ELogVerbosity.Warning, error);
            }
            break;
            }
        }
Esempio n. 14
0
 public IntPtr ContainerPtrToValuePtrForDefaults(UStruct containerClass, IntPtr container, int arrayIndex = 0)
 {
     return(Native_UProperty.ContainerVoidPtrToValuePtrForDefaults(Address, containerClass.Address, container, arrayIndex));
 }
Esempio n. 15
0
 public IntPtr ContainerPtrToValuePtrForDefaults(UStruct containerClass, UObject container, int arrayIndex = 0)
 {
     return(ContainerUObjectPtrToValuePtrForDefaults(containerClass, container.Address, 0));
 }
Esempio n. 16
0
        public bool MoveNext()
        {
            if (first)
            {
                first = false;
            }
            else
            {
                field = field.Next;
            }

            UField  currentField  = field;
            UStruct currentStruct = unrealStruct;

            while (currentStruct != null)
            {
                while (currentField != null)
                {
                    UClass fieldClass = currentField.GetClass();

                    if (fieldClass.HasAllCastFlags(typeClass.ClassCastFlags) && (includeDeprecated ||
                                                                                 !fieldClass.HasAllCastFlags(EClassCastFlags.UProperty) ||
                                                                                 !(currentField as UProperty).HasAllPropertyFlags(EPropertyFlags.Deprecated)))
                    {
                        unrealStruct = currentStruct;
                        field        = currentField;
                        return(true);
                    }

                    currentField = currentField.Next;
                }

                if (includeInterface)
                {
                    // We shouldn't be able to get here for non-classes
                    UClass currentClass = currentStruct as UClass;
                    ++interfaceIndex;
                    FImplementedInterface[] interfaces = currentClass.Interfaces;
                    if (interfaces != null && interfaceIndex < interfaces.Length)
                    {
                        UClass interfaceClass = interfaces[interfaceIndex].InterfaceClass;
                        currentField = GetField(interfaceClass);
                        continue;
                    }
                }

                if (includeSuper)
                {
                    currentStruct = currentStruct.GetInheritanceSuper();
                    if (currentStruct != null)
                    {
                        currentField   = GetField(currentStruct);
                        interfaceIndex = -1;
                        continue;
                    }
                }

                break;
            }

            unrealStruct = currentStruct;
            field        = currentField;

            return(field != null);
        }
        /// <summary>
        /// Sets all properties in the given struct to their default values within the struct constructor.
        /// (used when generating with safeguards enabled)
        /// </summary>
        private void AppendStructDefaultValuesOnInvalid(CSharpTextBuilder builder, StructInfo structInfo, UStruct parentStruct, List <string> namespaces)
        {
            if (!Settings.GenerateIsValidSafeguards)
            {
                return;
            }

            List <UProperty> allProperties = new List <UProperty>();

            foreach (UProperty property in structInfo.GetProperties())
            {
                if (!structInfo.IsCollapsedProperty(property))
                {
                    allProperties.Add(property);
                }
            }

            if (parentStruct != null && Settings.InlineBaseStruct)
            {
                UScriptStruct tempParentStruct = parentStruct as UScriptStruct;
                while (tempParentStruct != null)
                {
                    StructInfo tempParentStructInfo = GetStructInfo(tempParentStruct);
                    if (tempParentStructInfo != null)
                    {
                        foreach (UProperty property in tempParentStructInfo.GetProperties())
                        {
                            if (!tempParentStructInfo.IsCollapsedProperty(property))
                            {
                                allProperties.Add(property);
                            }
                        }
                    }
                    tempParentStruct = tempParentStruct.GetSuperStruct() as UScriptStruct;
                }
            }

            foreach (UProperty property in allProperties)
            {
                string propertyName = GetMemberName(property, structInfo.GetPropertyName(property));
                builder.AppendLine(propertyName + " = " + GetPropertyMarshalerDefaultValue(property, namespaces) + ";");
            }
        }
Esempio n. 18
0
 public static bool GeStringMetaDataHierarchical <TEnum>(this UStruct unrealStruct, TEnum key) where TEnum : struct
 {
     return(unrealStruct.GeStringMetaDataHierarchical(new FName(UMeta.GetKey(key))));
 }
        private void AppendStructMarshalerBody(CSharpTextBuilder builder, string structTypeName, StructInfo structInfo, UStruct parentStruct,
                                               bool toNative, List <string> namespaces)
        {
            if (Settings.GenerateIsValidSafeguards)
            {
                builder.AppendLine("if (!" + structTypeName + Settings.VarNames.IsValid + ")");
                builder.OpenBrace();
                builder.AppendLine(Names.NativeReflection_LogInvalidStructAccessed + "(\"" + structInfo.Struct.GetPathName() + "\");");

                if (!toNative)
                {
                    // Set default values for all properties
                    AppendStructDefaultValuesOnInvalid(builder, structInfo, parentStruct, namespaces);
                }

                builder.AppendLine("return;");
                builder.CloseBrace();
            }

            foreach (UProperty property in structInfo.GetProperties())
            {
                if (!structInfo.IsCollapsedProperty(property))
                {
                    string propertyName = GetMemberName(property, structInfo.GetPropertyName(property));
                    if (toNative)
                    {
                        AppendPropertyToNative(builder, property, propertyName, "nativeStruct", "null", propertyName, false, namespaces);
                    }
                    else
                    {
                        AppendPropertyFromNative(builder, property, propertyName, "nativeStruct", propertyName, "null", false, namespaces);
                    }
                }
            }
            if (parentStruct != null)
            {
                if (Settings.InlineBaseStruct)
                {
                    UScriptStruct tempParentStruct = parentStruct as UScriptStruct;
                    while (tempParentStruct != null)
                    {
                        StructInfo tempParentStructInfo = GetStructInfo(tempParentStruct);
                        if (tempParentStructInfo != null)
                        {
                            foreach (UProperty property in tempParentStructInfo.GetProperties())
                            {
                                if (!tempParentStructInfo.IsCollapsedProperty(property))
                                {
                                    string propertyName = GetMemberName(property, tempParentStructInfo.GetPropertyName(property));
                                    if (toNative)
                                    {
                                        AppendPropertyToNative(builder, property, propertyName, "nativeStruct",
                                                               "null", propertyName, false, namespaces);
                                    }
                                    else
                                    {
                                        AppendPropertyFromNative(builder, property, propertyName, "nativeStruct",
                                                                 propertyName, "null", false, namespaces);
                                    }
                                }
                            }
                        }
                        tempParentStruct = tempParentStruct.GetSuperStruct() as UScriptStruct;
                    }
                }
                else
                {
                    if (toNative)
                    {
                        builder.AppendLine("Base.ToNative(nativeStruct);");
                    }
                    else
                    {
                        builder.AppendLine("Base = new " + GetTypeName(parentStruct, namespaces) + "(nativeStruct);");
                    }
                }
            }
        }
Esempio n. 20
0
            private void ResolveNameConflicts()
            {
                List <NameConflictInfo> baseConflictInfos = new List <NameConflictInfo>();

                UStruct parentStruct = Struct.GetSuperStruct();

                if (parentStruct != null)
                {
                    StructInfo parentInfo = codeGenerator.GetStructInfo(parentStruct);
                    if (parentInfo != null && parentInfo.conflictInfo != null)
                    {
                        baseConflictInfos.Add(parentInfo.conflictInfo);
                    }
                }

                if (Class != null)
                {
                    foreach (FImplementedInterface implementedInterface in Class.Interfaces)
                    {
                        UClass interfaceClass = implementedInterface.InterfaceClass;
                        if (interfaceClass != null)
                        {
                            StructInfo interfaceInfo = codeGenerator.GetStructInfo(interfaceClass);
                            if (interfaceInfo != null && interfaceInfo.conflictInfo != null)
                            {
                                baseConflictInfos.Add(interfaceInfo.conflictInfo);
                            }
                        }
                    }
                }

                conflictInfo = new NameConflictInfo(this);

                foreach (KeyValuePair <UProperty, string> property in exportableProperties)
                {
                    conflictInfo.AddMember(property.Key, codeGenerator.GetMemberName(property.Key, false, property.Value));
                }

                foreach (UFunction function in exportableFunctions)
                {
                    // Functions are a special case. They can be redefined in the hierarchy but for name resolving
                    // we want them to have the same name throughout. Therefore only resolve the base-most function
                    // name (even if redefined later in the hierarchy). Then when we do a name conflict lookup find that
                    // base-most function and use that name for all of the functions in the hierarchy with that name.
                    // - This is lookup is done in ResolveNameConflict().
                    if (codeGenerator.GetOriginalFunctionOwner(function) == Class)
                    {
                        conflictInfo.AddMember(function, codeGenerator.GetFunctionName(function, false));
                    }
                }

                foreach (NameConflictInfo baseConflictInfo in baseConflictInfos)
                {
                    foreach (KeyValuePair <string, NameConflictFieldInfo> baseMembersByName in baseConflictInfo.MembersByName)
                    {
                        NameConflictFieldInfo baseMembers;
                        if (!conflictInfo.BaseMembersByName.TryGetValue(baseMembersByName.Key, out baseMembers))
                        {
                            conflictInfo.BaseMembersByName.Add(baseMembersByName.Key,
                                                               baseMembers = new NameConflictFieldInfo(baseMembersByName.Key));
                        }

                        foreach (KeyValuePair <UField, CollapsedMember> baseMember in baseMembersByName.Value.Fields)
                        {
                            baseMembers.AddField(baseMember.Key, baseMember.Value);
                        }
                    }

                    foreach (KeyValuePair <string, NameConflictFieldInfo> baseBaseMembersByName in baseConflictInfo.BaseMembersByName)
                    {
                        NameConflictFieldInfo baseBaseMembers;
                        if (!conflictInfo.BaseMembersByName.TryGetValue(baseBaseMembersByName.Key, out baseBaseMembers))
                        {
                            conflictInfo.BaseMembersByName.Add(baseBaseMembersByName.Key,
                                                               baseBaseMembers = new NameConflictFieldInfo(baseBaseMembersByName.Key));
                        }

                        foreach (KeyValuePair <UField, CollapsedMember> baseBaseMember in baseBaseMembersByName.Value.Fields)
                        {
                            baseBaseMembers.AddField(baseBaseMember.Key, baseBaseMember.Value);
                        }
                    }
                }

                var tempMembersByName = new Dictionary <string, NameConflictFieldInfo>(conflictInfo.MembersByName);

                foreach (KeyValuePair <string, NameConflictFieldInfo> membersByName in tempMembersByName)
                {
                    // What about overridden functions? where do they appear?
                    if (membersByName.Value.HasConflict() || conflictInfo.BaseMembersByName.ContainsKey(membersByName.Key))
                    {
                        foreach (KeyValuePair <UField, CollapsedMember> field in membersByName.Value.Fields)
                        {
                            if (field.Value == null)
                            {
                                string hashedName = membersByName.Key + "_" + field.Key.GetPathName().GetHashCode().ToString("X8");
                                NameConflictResolved(field.Key, hashedName);
                            }
                        }

                        foreach (KeyValuePair <CollapsedMember, List <UField> > collapsedMember in membersByName.Value.FieldsByCollapsedMember)
                        {
                            UField field = null;
                            if (collapsedMember.Key.Getter != null)
                            {
                                field = collapsedMember.Key.Getter;
                            }
                            else if (collapsedMember.Key.Setter != null)
                            {
                                field = collapsedMember.Key.Setter;
                            }
                            else if (collapsedMember.Key.BackingProperty != null)
                            {
                                field = collapsedMember.Key.BackingProperty;
                            }

                            string hashedName = membersByName.Key + "_" + field.GetPathName().GetHashCode().ToString("X8");
                            if (collapsedMember.Key.Getter != null)
                            {
                                NameConflictResolved(collapsedMember.Key.Getter, hashedName);
                            }
                            if (collapsedMember.Key.Setter != null)
                            {
                                NameConflictResolved(collapsedMember.Key.Setter, hashedName);
                            }
                            if (collapsedMember.Key.BackingProperty != null)
                            {
                                NameConflictResolved(collapsedMember.Key.BackingProperty, hashedName);
                            }
                        }

                        // All fields with this name should have been renamed. Remove the old name.
                        conflictInfo.MembersByName.Remove(membersByName.Key);
                    }
                }
            }
Esempio n. 21
0
        private string GetMarshalerFromProperty(UProperty property, List <string> namespaces, bool isFunction, bool fixedSizeArrayInnerMarshaler)
        {
            if (property.IsFixedSizeArray && !fixedSizeArrayInnerMarshaler)
            {
                if (IsOwnerClassOrStructAsClass(property))
                {
                    return(GetTypeName(property, namespaces));
                }
                else
                {
                    // Should expect either a UClass or a UScriptStruct. Fixed sized arrays aren't supported on functions in unreal.
                    System.Diagnostics.Debug.Assert(property.GetOwnerStruct().IsA <UScriptStruct>());

                    return(Names.TFixedSizeArrayMarshaler + "<" + GetTypeName(property, namespaces) + ">");
                    //// FixedSizeArrayMarshaler<int, BlittableTypeMarshaler<int>>
                    //return Names.FixedSizeArrayMarshaler + "<" + GetTypeName(property, namespaces) + ", " +
                    //    GetMarshalerFromProperty(property, namespaces, isFunction, true) + ">";
                }
            }

            UNumericProperty numericProperty = property as UNumericProperty;

            if ((numericProperty != null && numericProperty.IsEnum && numericProperty.GetIntPropertyEnum() != null) ||
                property.PropertyType == EPropertyType.Enum)
            {
                UEnum unrealEnum = null;
                if (property.PropertyType == EPropertyType.Enum)
                {
                    unrealEnum = (property as UEnumProperty).GetEnum();
                }
                else
                {
                    unrealEnum = numericProperty.GetIntPropertyEnum();
                }
                return(Names.EnumMarshaler + "<" + GetTypeName(unrealEnum, namespaces) + ">");
            }

            string blittableTypeName = GetBlittablePropertyTypeName(property, namespaces);

            if (!string.IsNullOrEmpty(blittableTypeName))
            {
                return(Names.BlittableTypeMarshaler + "<" + blittableTypeName + ">");
            }

            switch (property.PropertyType)
            {
            case EPropertyType.Bool:
                return(Names.BoolMarshaler);

            case EPropertyType.Str: return(Names.FStringMarshaler);

            case EPropertyType.Text: return(Names.FTextMarshaler);

            case EPropertyType.Struct:
            {
                UStruct unrealStruct = (property as UStructProperty).Struct;
                if (IsClassOrStructAsClass(unrealStruct))
                {
                    return(Names.StructAsClassMarshaler + "<" + GetTypeName(property, namespaces) + ">");
                }
                else
                {
                    // Normal structs use their own type name and have static FromNative/ToNative methods
                    return(GetTypeName(property, namespaces));
                }
            }

            case EPropertyType.Delegate:
            {
                string delegateTypeName = GetTypeName(property, namespaces);
                return(Names.FDelegateMarshaler + "<" + delegateTypeName + ">");
            }

            case EPropertyType.MulticastDelegate:
            {
                string delegateTypeName = GetTypeName(property, namespaces);
                return(Names.FMulticastDelegateMarshaler + "<" + delegateTypeName + ">");
            }

            case EPropertyType.Array:
            {
                string arrayMarshalerName = Names.TArrayReadWriteMarshaler;
                if (IsOwnerClassOrStructAsClass(property))
                {
                    if (property.HasAnyPropertyFlags(EPropertyFlags.BlueprintReadOnly))
                    {
                        arrayMarshalerName = Names.TArrayReadOnlyMarshaler;
                    }
                }
                else
                {
                    arrayMarshalerName = Names.TArrayCopyMarshaler;
                }
                UArrayProperty arrayProperty = property as UArrayProperty;
                return(arrayMarshalerName + "<" + GetTypeName(arrayProperty.Inner, namespaces) + ">");
            }

            case EPropertyType.Set:
            {
                string setMarshalerName = Names.TSetReadWriteMarshaler;
                if (IsOwnerClassOrStructAsClass(property))
                {
                    if (property.HasAnyPropertyFlags(EPropertyFlags.BlueprintReadOnly))
                    {
                        setMarshalerName = Names.TSetReadOnlyMarshaler;
                    }
                }
                else
                {
                    setMarshalerName = Names.TSetCopyMarshaler;
                }
                USetProperty setProperty = property as USetProperty;
                return(setMarshalerName + "<" + GetTypeName(setProperty.ElementProp, namespaces) + ">");
            }

            case EPropertyType.Map:
            {
                string mapMarshalerName = Names.TMapReadWriteMarshaler;
                if (IsOwnerClassOrStructAsClass(property))
                {
                    if (property.HasAnyPropertyFlags(EPropertyFlags.BlueprintReadOnly))
                    {
                        mapMarshalerName = Names.TMapReadOnlyMarshaler;
                    }
                }
                else
                {
                    mapMarshalerName = Names.TMapCopyMarshaler;
                }
                UMapProperty mapProperty = property as UMapProperty;
                return(mapMarshalerName + "<" + GetTypeName(mapProperty.KeyProp, namespaces) + ", " +
                       GetTypeName(mapProperty.ValueProp, namespaces) + ">");
            }

            case EPropertyType.Class:
            {
                UClass targetClass             = (property as UClassProperty).MetaClass;
                string subclassOfMarshalerName = null;
                if (targetClass.ClassFlags.HasFlag(EClassFlags.Interface))
                {
                    subclassOfMarshalerName = Names.TSubclassOfInterfaceMarshaler;
                }
                else
                {
                    subclassOfMarshalerName = Names.TSubclassOfMarshaler;
                }
                return(subclassOfMarshalerName + "<" + GetTypeName(targetClass, namespaces) + ">");
            }

            case EPropertyType.Interface: return(Names.InterfaceMarshaler + "<" + GetTypeName((property as UInterfaceProperty).InterfaceClass, namespaces) + ">");

            case EPropertyType.Object: return(Names.UObjectMarshaler + "<" + GetTypeName((property as UObjectProperty).PropertyClass, namespaces) + ">");

            case EPropertyType.WeakObject: return(Names.TWeakObjectMarshaler + "<" + GetTypeName((property as UWeakObjectProperty).PropertyClass, namespaces) + ">");

            case EPropertyType.LazyObject: return(Names.TLazyObjectMarshaler + "<" + GetTypeName((property as ULazyObjectProperty).PropertyClass, namespaces) + ">");

            case EPropertyType.SoftClass: return(Names.TSoftClassMarshaler + "<" + GetTypeName((property as USoftClassProperty).MetaClass, namespaces) + ">");

            case EPropertyType.SoftObject: return(Names.TSoftObjectMarshaler + "<" + GetTypeName((property as USoftObjectProperty).PropertyClass, namespaces) + ">");

            default: return(null);
            }
        }
Esempio n. 22
0
        private string GetFunctionSignature(UnrealModuleInfo module, UFunction function, UStruct owner, string customFunctionName,
                                            string customModifiers, bool stripAdditionalText, bool isImplementationMethod, List <string> namespaces)
        {
            bool isInterface     = owner != null && owner.IsChildOf <UInterface>();
            bool isDelegate      = function.HasAnyFunctionFlags(EFunctionFlags.Delegate | EFunctionFlags.MulticastDelegate);
            bool isStatic        = function.HasAnyFunctionFlags(EFunctionFlags.Static);
            bool isBlueprintType = owner != null && owner.IsA <UBlueprintGeneratedClass>();

            StringBuilder modifiers = new StringBuilder();

            if (!string.IsNullOrEmpty(customModifiers))
            {
                modifiers.Append(customModifiers);
            }
            else if (isInterface)
            {
                // Don't provide any modifiers for interfaces if there isn't one already provided
            }
            else
            {
                UFunction originalFunction;
                // NOTE: "isImplementationMethod" is talking about "_Implementation" methods.
                //       "isInterfaceImplementation" is talking about regular methods which are implementations for a interface.
                bool   isInterfaceImplementation;
                UClass originalOwner = GetOriginalFunctionOwner(function, out originalFunction, out isInterfaceImplementation);
                // All interface functions in the chain need to be public
                bool isInterfaceFunc = originalOwner != owner && originalOwner.HasAnyClassFlags(EClassFlags.Interface);

                if (isImplementationMethod || (function.HasAnyFunctionFlags(EFunctionFlags.Protected) &&
                                               !isInterfaceFunc && !isDelegate))
                {
                    modifiers.Append("protected");
                }
                else
                {
                    modifiers.Append("public");
                }
                if (isDelegate)
                {
                    modifiers.Append(" delegate");
                }
                if (isStatic)
                {
                    modifiers.Append(" static");
                }
                if (!isDelegate && !isStatic)
                {
                    if (function.HasAnyFunctionFlags(EFunctionFlags.BlueprintEvent))
                    {
                        UFunction superFunc = function.GetSuperFunction();
                        if (superFunc != null)
                        {
                            modifiers.Append(" override");
                        }
                        else
                        {
                            // This have should been filtered out in CanExportFunction()
                            Debug.Assert(originalOwner == owner || isInterfaceImplementation);

                            // Explicit will have the _Implementation as virtual and the function declaration as
                            // non-virtual (which is the same as C++)
                            if (!Settings.UseExplicitImplementationMethods || isImplementationMethod)
                            {
                                modifiers.Append(" virtual");
                            }
                        }
                    }
                    else
                    {
                        if (originalOwner != owner && !isInterfaceFunc)
                        {
                            // Add "new" if the parent class has a function with the same name but not BlueprintEvent.
                            // (don't do this for interface functions as we are implementing the function not redefining it)
                            modifiers.Append(" new");
                        }
                    }
                }
            }

            string returnType = "void";
            int    numReturns = 0;

            StringBuilder parameters = new StringBuilder();

            // index is the index into parameters string
            Dictionary <int, string> parameterDefaultsByIndex = new Dictionary <int, string>();

            // Once this is true all parameters from that point should also have defaults
            bool hasDefaultParameters = false;

            // Blueprint can define ref/out parameters with default values, this can't be translated to code
            bool invalidDefaultParams = false;

            // Info so we can avoid param name conflicts
            Dictionary <UProperty, string> paramNames = GetParamNames(function);

            // Generic array parameters
            string[] arrayParamNames = function.GetCommaSeperatedMetaData("ArrayParam");

            // Generic parameters depending on array type
            string[] arrayTypeDependentParamNames = function.GetCommaSeperatedMetaData("ArrayTypeDependentParams");

            // AutoCreateRefTerm will force ref on given parameter names (comma seperated)
            string[] autoRefParamNames = function.GetCommaSeperatedMetaData("AutoCreateRefTerm");

            // If this is a blueprint type try and getting the return value from the first out param (if there is only one out)
            UProperty blueprintReturnProperty = function.GetBlueprintReturnProperty();

            bool firstParameter = true;

            foreach (KeyValuePair <UProperty, string> param in paramNames)
            {
                UProperty parameter = param.Key;
                string    paramName = param.Value;

                string rawParamName = parameter.GetName();

                if (!parameter.HasAnyPropertyFlags(EPropertyFlags.Parm))
                {
                    continue;
                }

                if (parameter.HasAnyPropertyFlags(EPropertyFlags.ReturnParm) || parameter == blueprintReturnProperty)
                {
                    returnType = GetTypeName(parameter, namespaces);
                    numReturns++;
                }
                else
                {
                    if (firstParameter)
                    {
                        firstParameter = false;
                    }
                    else
                    {
                        parameters.Append(", ");
                    }

                    if (!parameter.HasAnyPropertyFlags(EPropertyFlags.ConstParm))
                    {
                        if (parameter.HasAnyPropertyFlags(EPropertyFlags.ReferenceParm) || autoRefParamNames.Contains(rawParamName))
                        {
                            parameters.Append("ref ");
                        }
                        else if (parameter.HasAnyPropertyFlags(EPropertyFlags.OutParm))
                        {
                            parameters.Append("out ");
                        }
                    }

                    string paramTypeName = GetTypeName(parameter, namespaces);
                    if (arrayParamNames.Contains(rawParamName))
                    {
                        int genericsIndex = paramTypeName.IndexOf('<');
                        if (genericsIndex >= 0)
                        {
                            paramTypeName = paramTypeName.Substring(0, genericsIndex) + "<T>";
                        }
                    }
                    else if (arrayTypeDependentParamNames.Contains(rawParamName))
                    {
                        paramTypeName = "T";
                    }

                    parameters.Append(paramTypeName + " " + paramName);

                    if (!invalidDefaultParams)
                    {
                        string defaultValue = GetParamDefaultValue(function, parameter, paramTypeName, ref hasDefaultParameters, ref invalidDefaultParams);
                        if (!string.IsNullOrEmpty(defaultValue) && !invalidDefaultParams)
                        {
                            if (isBlueprintType &&
                                (parameter.HasAnyPropertyFlags(EPropertyFlags.ReferenceParm | EPropertyFlags.OutParm) ||
                                 autoRefParamNames.Contains(rawParamName)))
                            {
                                invalidDefaultParams = true;
                            }
                            else
                            {
                                if (!hasDefaultParameters)
                                {
                                    hasDefaultParameters = true;
                                }
                                parameterDefaultsByIndex[parameters.Length] = " = " + defaultValue;
                            }
                        }
                    }
                }
            }

            if (numReturns > 1)
            {
                FMessage.Log(ELogVerbosity.Error, "More than 1 return on function '" + function.GetPathName() + "'");
            }

            // Insert the default parameters if they aren't invalid
            if (!invalidDefaultParams)
            {
                int offset = 0;
                foreach (KeyValuePair <int, string> parameterDefault in parameterDefaultsByIndex)
                {
                    parameters.Insert(parameterDefault.Key + offset, parameterDefault.Value);
                    offset += parameterDefault.Value.Length;
                }
            }

            string functionName = GetFunctionName(function);

            string additionalStr = string.Empty;

            if (isDelegate)
            {
                functionName  = GetTypeNameDelegate(function);
                additionalStr = ";";
            }
            //if (isInterface)
            //{
            //    additionalStr = ";";
            //}

            if (isImplementationMethod)
            {
                functionName += Settings.VarNames.ImplementationMethod;
            }

            if (!string.IsNullOrEmpty(customFunctionName))
            {
                functionName = customFunctionName;
            }
            if (stripAdditionalText)
            {
                additionalStr = string.Empty;
            }

            string generics = string.Empty;

            if (arrayParamNames.Length > 0 || arrayTypeDependentParamNames.Length > 0)
            {
                generics = "<T>";
            }

            if (modifiers.Length > 0)
            {
                modifiers.Append(' ');
            }
            return(string.Format("{0}{1} {2}{3}({4}){5}", modifiers, returnType, functionName, generics, parameters, additionalStr));
        }