public override object Serialize(IDesignerSerializationManager manager, object value)
        {
            ViewStyle viewStyle = (ViewStyle)value;

            CodeDomSerializer baseClassSerializer = (CodeDomSerializer)manager.GetSerializer(value.GetType().BaseType, typeof(CodeDomSerializer));
            object            codeObject          = baseClassSerializer.Serialize(manager, value);

            if (codeObject is CodeStatementCollection)
            {
                CodeStatementCollection statements = (CodeStatementCollection)codeObject;

                ArrayList dontSerializeList = new ArrayList();

                //--- loop through all statements
                foreach (CodeStatement st in statements)
                {
                    if (st is CodeAssignStatement)
                    {
                        CodeAssignStatement cAssign = (CodeAssignStatement)st;

                        // If left is eg. 'this.ViewStyle.BorderColor'
                        if (cAssign.Left is CodePropertyReferenceExpression)
                        {
                            string propertyName  = ((CodePropertyReferenceExpression)cAssign.Left).PropertyName;
                            object propertyValue = null;

                            // If right is eg. 'System.Drawing.Color.FromArgb(183,193,214)'
                            if (cAssign.Right is CodeMethodInvokeExpression)
                            {
                                CodeMethodInvokeExpression mInvokeExp = (CodeMethodInvokeExpression)cAssign.Right;

                                if (mInvokeExp.Method.MethodName == "FromArgb")
                                {
                                    CodeCastExpression cCastExpR = (CodeCastExpression)mInvokeExp.Parameters[0];
                                    CodeCastExpression cCastExpG = (CodeCastExpression)mInvokeExp.Parameters[1];
                                    CodeCastExpression cCastExpB = (CodeCastExpression)mInvokeExp.Parameters[2];

                                    int r = Convert.ToInt32(((CodePrimitiveExpression)cCastExpR.Expression).Value);
                                    int g = Convert.ToInt32(((CodePrimitiveExpression)cCastExpG.Expression).Value);
                                    int b = Convert.ToInt32(((CodePrimitiveExpression)cCastExpB.Expression).Value);

                                    propertyValue = Color.FromArgb(r, g, b);
                                }
                            }

                            // If right is eg. 'System.Drawing.Color.Lime'
                            if (cAssign.Right is CodePropertyReferenceExpression)
                            {
                                CodePropertyReferenceExpression propRefExp = (CodePropertyReferenceExpression)cAssign.Right;
                                CodeTypeReferenceExpression     tRefExp    = (CodeTypeReferenceExpression)propRefExp.TargetObject;

                                if (tRefExp.Type.BaseType == "System.Drawing.Color" || tRefExp.Type.BaseType == "System.Drawing.SystemColors")
                                {
                                    propertyValue = Color.FromName(propRefExp.PropertyName);
                                }
                            }

                            if (cAssign.Right is CodeFieldReferenceExpression)
                            {
                                CodeFieldReferenceExpression fRefExp = (CodeFieldReferenceExpression)cAssign.Right;

                                if (fRefExp.FieldName == "FullSelect")
                                {
                                    propertyValue = VRS.UI.Controls.WOutlookBar.ItemsStyle.FullSelect;
                                }
                                if (fRefExp.FieldName == "IconSelect")
                                {
                                    propertyValue = VRS.UI.Controls.WOutlookBar.ItemsStyle.IconSelect;
                                }
                                if (fRefExp.FieldName == "UseDefault")
                                {
                                    propertyValue = VRS.UI.Controls.WOutlookBar.ItemsStyle.UseDefault;
                                }
                            }

                            //--- Check if we need to serialize property.
                            if (!viewStyle.MustSerialize(propertyName, propertyValue))
                            {
                                // Add to remove list
                                dontSerializeList.Add(st);
                            }
                        }
                    }
                }

                // Remove not neede properties
                foreach (CodeStatement obj in dontSerializeList)
                {
                    statements.Remove(obj);
                }
            }

            return(codeObject);
        }
Esempio n. 2
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        //}
        // StateMachineHelper.ProcessTransitionBegin<DoorContext, DoorContext, StateTop>(context, StateNext.Instance);
        // or
        // StateMachineHelper.ProcessTransitionEnd<DoorContext, DoorContext, StateTop>(context, StateNext.Instance);
        protected void WriteProcessTransition(CodeStatementCollection statements, StateType state, string nextStateName, string suffix)
        {
            CodeExpression[] paramsRef;

            StateType stateNext = Model.GetStateType(nextStateName);

            string stateTopClassName;
            string contextClassName;
            string contextParentClassName;
            // context or context.ContextParent or context.ContextParent.ContextParent .... depending where is stateNext compared to state.
            var contextExpression = GetContextParentExpression(state, stateNext);

            if (stateNext == null)
            {
                //Internal transition
                paramsRef = new CodeExpression[] {
                    contextExpression,
                    new CodePrimitiveExpression(null)
                };

                stateTopClassName      = GetStateClassName(Model.GetStateTop(state));
                contextClassName       = GetContextClassName(state);
                contextParentClassName = GetContextParentClassName(state);
            }
            else
            {
                CodeExpression nextStateExpression;

                if (stateNext.Type.HasFlag(StateType.TypeFlags.HISTORY))
                {
                    // context.StateHistory
                    nextStateExpression = new CodeFieldReferenceExpression(
                        new CodeVariableReferenceExpression(Model.settings.context.instance),
                        "StateHistory");
                }
                else
                {
                    StateType stateLeaf = Model.GetStateLeaf(stateNext);
                    // NextState.Instance
                    nextStateExpression = new CodeFieldReferenceExpression(
                        new CodeVariableReferenceExpression(GetStateClassName(stateLeaf)),
                        "Instance");
                }

                stateTopClassName      = GetStateClassName(Model.GetStateTop(stateNext));
                contextClassName       = GetContextClassName(stateNext);
                contextParentClassName = GetContextParentClassName(stateNext);
                paramsRef = new CodeExpression[] {
                    contextExpression,
                    nextStateExpression
                };
            }

            // param StateRunning.Instance
            var onMethodInvoke = new CodeMethodInvokeExpression(
                new CodeMethodReferenceExpression(
                    new CodeVariableReferenceExpression("StateMachineHelper"),
                    "ProcessTransition" + suffix,
                    new CodeTypeReference[] {
                new CodeTypeReference(contextClassName),
                new CodeTypeReference(contextParentClassName),
                new CodeTypeReference((stateTopClassName))
            }),
                paramsRef);

            statements.Add(onMethodInvoke);
        }
Esempio n. 3
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        public static void GenerateRepositoryUpdateObjectMethod(IClassMap classMap, CodeTypeDeclaration classDecl)
        {
            IList propertyMaps   = classMap.GetAllPropertyMaps();
            IList idPropertyMaps = classMap.GetIdentityPropertyMaps();

            CodeMemberMethod methodMember = new CodeMemberMethod();

            methodMember.Name = GetRepositoryUpdateObjectMethodName(classMap);

            CodeTypeReference typeReference = new CodeTypeReference(classMap.GetName());

            methodMember.ReturnType = typeReference;

            methodMember.Attributes = MemberAttributes.Public;

            foreach (IPropertyMap propertyMap in propertyMaps)
            {
                if (!propertyMap.IsCollection)
                {
                    CodeParameterDeclarationExpression parameter = new CodeParameterDeclarationExpression(new CodeTypeReference(propertyMap.DataType), MakeCamelCase(propertyMap.Name));
                    methodMember.Parameters.Add(parameter);
                }
            }

            CodeThisReferenceExpression  thisExp    = new CodeThisReferenceExpression();
            CodeFieldReferenceExpression contextVar = new CodeFieldReferenceExpression(thisExp, "context");

            CodeExpression[] createParams = new CodeExpression[idPropertyMaps.Count];

            int i = 0;

            foreach (IPropertyMap idPropertyMap in idPropertyMaps)
            {
                CodeArgumentReferenceExpression argExp = new CodeArgumentReferenceExpression(MakeCamelCase(idPropertyMap.Name));
                createParams[i] = argExp;
                i++;
            }

            CodeMethodInvokeExpression newObjectInit = new CodeMethodInvokeExpression(thisExp, GetRepositoryGetByIdentityMethodName(classMap), createParams);

            CodeVariableDeclarationStatement newObjectVarDecl = new CodeVariableDeclarationStatement(classMap.GetName(), MakeCamelCase(classMap.GetName()), newObjectInit);
            CodeVariableReferenceExpression  newObjectVar     = new CodeVariableReferenceExpression(MakeCamelCase(classMap.GetName()));

            methodMember.Statements.Add(newObjectVarDecl);

            foreach (IPropertyMap propertyMap in propertyMaps)
            {
                if (!propertyMap.IsIdentity)
                {
                    if (!propertyMap.IsCollection)
                    {
                        CodeArgumentReferenceExpression argExp          = new CodeArgumentReferenceExpression(MakeCamelCase(propertyMap.Name));
                        CodeVariableReferenceExpression propExp         = new CodeVariableReferenceExpression(MakeCamelCase(classMap.Name) + "." + propertyMap.Name);
                        CodeAssignStatement             assignStatement = new CodeAssignStatement(propExp, argExp);
                        methodMember.Statements.Add(assignStatement);
                    }
                }
            }

            CodeMethodInvokeExpression commitCtx = new CodeMethodInvokeExpression(contextVar, "Commit", new CodeExpression[] {});

            methodMember.Statements.Add(commitCtx);

            CodeMethodReturnStatement returnStmt = new CodeMethodReturnStatement(newObjectVar);

            methodMember.Statements.Add(returnStmt);

            classDecl.Members.Add(methodMember);
        }
Esempio n. 4
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 private void ValidateFieldReferenceExpression(CodeFieldReferenceExpression e)
 {
     if (e.TargetObject != null)
     {
         ValidateExpression(e.TargetObject);
     }
     ValidateIdentifier(e, nameof(e.FieldName), e.FieldName);
 }
        // TODO: Convert some internal parameters to members?
        public string GenerateCode(string codeNamespace, MessageData messages, string className)
        {
            this.defaultNamespace = codeNamespace;
            this.className        = className;

            // We use "string" so much that we have a common reference...
            CodeTypeReference stringRef = new CodeTypeReference(typeof(string));

            CodeCompileUnit compileUnit = new CodeCompileUnit();

            CodeNamespace cns = new CodeNamespace(codeNamespace);

            cns.Imports.Add(new CodeNamespaceImport("System"));
            CodeTypeDeclarationCollection types = cns.Types;

            compileUnit.Namespaces.Add(cns);

            CodeTypeDeclaration theClass    = new CodeTypeDeclaration(className);
            CodeTypeReference   theClassRef = new CodeTypeReference(new CodeTypeParameter(className));

            theClass.IsClass        = true;
            theClass.TypeAttributes = TypeAttributes.Public | TypeAttributes.Sealed;

            types.Add(theClass);

            theClass.Comments.Add(
                new CodeCommentStatement(
                    string.Format(
                        "<summary>{0} generated messages class.</summary>",
                        className),
                    true));

            theClass.Comments.Add(
                new CodeCommentStatement(
                    "<remarks>To change any behavior in this class, the code generator will need to change.</remarks>",
                    true));

            CodeMethodReferenceExpression resManGetString = this.CreateResourceManager(theClass);
            CodeFieldReferenceExpression  resCultureRef   = this.CreateResourceCulture(theClass);

            // Add the message types (error, warning, verbose...)
            string messageTypeName           = string.Concat(className, "Type");
            CodeTypeDeclaration messageTypes = new CodeTypeDeclaration(messageTypeName);

            messageTypes.IsEnum         = true;
            messageTypes.TypeAttributes = TypeAttributes.Public | TypeAttributes.Sealed;
            theClass.Members.Add(messageTypes);

            messageTypes.Comments.Add(
                new CodeCommentStatement(
                    "<summary>The allowable types of messages.</summary>",
                    true));

            messageTypes.Comments.Add(
                new CodeCommentStatement(
                    "<remarks>To change this list, add 'type' lines to your source file.</remarks>",
                    true));

            CodeTypeReferenceExpression messageTypeRef = new CodeTypeReferenceExpression(messageTypeName);
            Dictionary <MessageType, CodeFieldReferenceExpression> typeReferences = new Dictionary <MessageType, CodeFieldReferenceExpression>();

            foreach (MessageType sourceMessageType in messages.Types)
            {
                CodeMemberField typeField = new CodeMemberField();
                // We capitalize the message type's first letter for the code.
                typeField.Name = string.Concat(
                    sourceMessageType.Name[0].ToString().ToUpperInvariant(),
                    sourceMessageType.Name.Substring(1));

                messageTypes.Members.Add(typeField);

                typeField.Comments.Add(
                    new CodeCommentStatement(
                        string.Format(
                            "<summary>'{0}' message range: {1}-{2}</summary>",
                            sourceMessageType.Name,
                            sourceMessageType.FirstId,
                            sourceMessageType.LastId),
                        true));

                typeReferences.Add(sourceMessageType, new CodeFieldReferenceExpression(messageTypeRef, typeField.Name));
            }

            CodeConstructor classConstructor = new CodeConstructor();

            classConstructor.Attributes = MemberAttributes.Private;
            theClass.Members.Add(classConstructor);

            // Add the members and private constructor...
            this.CreateProperty(theClass, classConstructor, "Type", new CodeTypeReference(messageTypeName), "Gets the type (error/warning/verbose) of the message");
            this.CreateProperty(theClass, classConstructor, "Id", new CodeTypeReference(typeof(int)), "Gets the ID of the message.");
            this.CreateProperty(theClass, classConstructor, "Name", stringRef, "Gets the name of the message.");
            this.CreateProperty(theClass, classConstructor, "Message", stringRef, "Get the message text for the message.");

            foreach (var message in messages.Messages)
            {
                if (message.Type == null)
                {
                    // TODO: throw an error?  Skip?
                    continue;
                }

                CodeFieldReferenceExpression messageType = typeReferences[message.Type];

                foreach (var instance in message.Instances)
                {
                    CodeMemberMethod method = new CodeMemberMethod();
                    method.Attributes = MemberAttributes.Public | MemberAttributes.Static | MemberAttributes.Final; // final == non-virtual?
                    method.ReturnType = theClassRef;
                    method.Name       = message.Name;
                    method.LinePragma = new CodeLinePragma(messages.Filename, instance.PragmaLine);

                    theClass.Members.Add(method);

                    string messageVarName = "message";

                    // Ensure we don't have any variable name collisions...
                    if (instance.ParameterList.Count > 0)
                    {
                        messageVarName = "messageFormat";
                        string messageVarNameBase = messageVarName;
                        int    suffixCount        = 1;
                        while (instance.ParameterList.Any(t => string.Equals(t.Item1, messageVarName, StringComparison.Ordinal)))
                        {
                            messageVarName = string.Concat(messageVarNameBase, (++suffixCount).ToString());
                        }
                    }

                    ////// TODO: Inject an error if there was an error in the source file?
                    ////// This would help avoid missing these errors in a command-line scenario...
                    ////if (!string.IsNullOrEmpty(message.Error))
                    ////{
                    ////    method.Statements.Add(new CodePrimitiveExpression("ERROR!"));
                    ////    method.Statements.Add(new CodePrimitiveExpression(message.Error));
                    ////    method.Statements.Add(new CodePrimitiveExpression("ERROR!"));
                    ////}

                    ////// TODO: Inject an error if there was an error in the source file?
                    ////// This would help avoid missing these errors in a command-line scenario...
                    ////if (!string.IsNullOrEmpty(instance.Error))
                    ////{
                    ////    method.Statements.Add(new CodePrimitiveExpression("ERROR!"));
                    ////    method.Statements.Add(new CodePrimitiveExpression(instance.Error));
                    ////    method.Statements.Add(new CodePrimitiveExpression("ERROR!"));
                    ////}

                    // Get the string from the generated resources...
                    method.Statements.Add(
                        new CodeVariableDeclarationStatement(
                            stringRef,
                            messageVarName,
                            new CodeMethodInvokeExpression(
                                resManGetString,
                                new CodePrimitiveExpression(string.Concat(this.className, ".", instance.Name)),
                                resCultureRef)));

                    // Default the return expression to just the message itself.
                    CodeExpression messageExpression = new CodeVariableReferenceExpression(messageVarName);

                    // If we've got parameterList, we need a more complex expression.
                    if (instance.ParameterList.Count > 0)
                    {
                        List <CodeExpression> formatParameters = new List <CodeExpression>();

                        formatParameters.Add(messageExpression);

                        instance.ParameterList.ForEach(t =>
                        {
                            method.Parameters.Add(
                                new CodeParameterDeclarationExpression(
                                    new CodeTypeReference(t.Item2),
                                    t.Item1));

                            formatParameters.Add(new CodeVariableReferenceExpression(t.Item1));
                        });

                        messageExpression = new CodeMethodInvokeExpression(
                            new CodeTypeReferenceExpression(stringRef),
                            "Format",
                            formatParameters.ToArray());
                    }

                    method.Statements.Add(new CodeMethodReturnStatement(
                                              new CodeObjectCreateExpression(
                                                  theClassRef,
                                                  messageType,                               // type
                                                  new CodePrimitiveExpression(message.Id),   // id
                                                  new CodePrimitiveExpression(message.Name), // name
                                                  messageExpression)));                      // message
                }
            }

            // Create the code...
            string output = null;

            using (CodeDomProvider provider = CodeDomProvider.CreateProvider("CSharp"))
            {
                CodeGeneratorOptions options = new CodeGeneratorOptions();
                options.BracingStyle = "C";

                using (StringWriter sourceWriter = new StringWriter())
                {
                    provider.GenerateCodeFromCompileUnit(compileUnit, sourceWriter, options);
                    output = sourceWriter.ToString();
                }
            }

            return(output);
        }
Esempio n. 6
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        private static void CreateConstructorFromTable(CodeTypeDeclaration classType, TableInfo tableInfo, CodeGenerationInfo generationInfo)
        {
            var cc = new CodeConstructor();

            cc.Attributes = MemberAttributes.Public;
            cc.Name       = tableInfo.TableName;
            cc.Parameters.Add(generationInfo.ReaderNamespace, "itable&", "table");
            //cc.BaseConstructorArgs.Add("table");

            //cc.AddConstructorStatement(string.Format("{0}(table)", CodeGenerationInfo.CremaTableName));

            // verify hashValue
            {
                var css = CreateCompareTypeStatement(classType, tableInfo, generationInfo);
                var tst = CremaDataClassCreator.CreateTryCatchStatement(classType, css, generationInfo);
                cc.Statements.Add(css);
            }

            {
                var table   = new CodeVariableReferenceExpression("table");
                var dataSet = new CodeMethodInvokeExpression(new CodeMethodReferenceExpression(table, "dataset"));
                var tables  = new CodeMethodInvokeExpression(new CodeMethodReferenceExpression(dataSet, "tables"));

                foreach (var item in generationInfo.GetChilds(tableInfo))
                {
                    var tableName  = new CodeMethodInvokeExpression(new CodeMethodReferenceExpression(table, "name"));
                    var childName  = new CodeBinaryOperatorExpression(tableName, CodeBinaryOperatorType.Add, new CodePrimitiveExpression("." + item.TableName));
                    var childTable = new CodeIndexerExpression(tables, childName);
                    var childField = new CodeFieldReferenceExpression(thisRef, item.TableName);
                    var instance   = new CodeObjectCreateExpression(item.GetCodeType(CodeType.None), childTable);

                    cc.Statements.AddAssign(childField, instance);
                    //cc.AddConstructorStatement(string.Format("{0}(table.dataset().tables()[\"{1}\"])", item.GetFieldName(), item.GetUniqueName()));
                }
            }


            {
                var table        = new CodeVariableReferenceExpression("table");
                var readFromFile = new CodeMethodReferenceExpression(new CodeThisReferenceExpression(), "ReadFromTable");
                var methodInvoke = new CodeMethodInvokeExpression(readFromFile, table);

                cc.Statements.Add(methodInvoke);
            }

            // SetRelations
            {
                var table = new CodeVariableReferenceExpression("table");
                foreach (var item in generationInfo.GetChilds(tableInfo))
                {
                    var setRelations   = new CodeMethodReferenceExpression(thisRef, "SetRelations");
                    var field          = new CodeFieldPointerExpression(thisRef, item.TableName);
                    var rows           = new CodePropertyReferenceExpression(field, "Rows");
                    var codeTypeRef    = new CodeTypeReferenceExpression(tableInfo.GetRowCodeType(CodeType.None));
                    var setChildAction = new CodePropertyReferenceExpression(null, tableInfo.TableName + "Set" + item.TableName);
                    var tableName      = new CodeMethodInvokeExpression(new CodeMethodReferenceExpression(table, "name"));
                    var childName      = new CodeBinaryOperatorExpression(tableName, CodeBinaryOperatorType.Add, new CodePrimitiveExpression("." + item.TableName));

                    var setRelationsInvoke = new CodeMethodInvokeExpression(setRelations, childName, rows, setChildAction);
                    cc.Statements.Add(setRelationsInvoke);
                }
            }


            classType.Members.Add(cc);
        }
Esempio n. 7
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    public CodeTypeDeclaration GenerateClass(Generator g, CodeTypeDeclaration libDecl, string libFieldName)
    {
        var decl = new CodeTypeDeclaration (Name);
        decl.IsPartial = true;
        if (BaseClasses.Count > 0)
            decl.BaseTypes.Add (new CodeTypeReference (BaseClasses [0].Name));
        else
            decl.BaseTypes.Add (new CodeTypeReference ("ICppObject"));

        bool hasBase = BaseClasses.Count > 0;

        var layout = new CodeTypeDeclaration ("_" + Name);
        layout.IsStruct = true;
        layout.TypeAttributes = TypeAttributes.NotPublic;
        decl.Members.Add (layout);

        foreach (var f in Fields) {
            CodeMemberField field = new CodeMemberField { Name = f.Name, Type = g.CppTypeToCodeDomType (f.Type) };
            layout.Members.Add (field);
        }

        var iface = new CodeTypeDeclaration ("I" + Name);
        iface.IsInterface = true;
        layout.TypeAttributes = TypeAttributes.NotPublic;
        iface.BaseTypes.Add (new CodeTypeReference ("ICppClassOverridable", new CodeTypeReference [] { new CodeTypeReference (decl.Name) }));
        decl.Members.Add (iface);

        var layoutField = new CodeMemberField (new CodeTypeReference (typeof (Type)), "native_layout");
        layoutField.Attributes = MemberAttributes.Private|MemberAttributes.Static;
        layoutField.InitExpression = new CodeTypeOfExpression (layout.Name);
        decl.Members.Add (layoutField);

        var implField = new CodeMemberField (new CodeTypeReference (iface.Name), "impl");
        implField.Attributes = MemberAttributes.Private|MemberAttributes.Static;
        var getclass = new CodeMethodReferenceExpression (new CodeFieldReferenceExpression (new CodeTypeReferenceExpression (libDecl.Name), libFieldName), "GetClass", new CodeTypeReference [] { new CodeTypeReference (iface.Name), new CodeTypeReference (layout.Name), new CodeTypeReference (decl.Name) });
        implField.InitExpression = new CodeMethodInvokeExpression (getclass, new CodeExpression [] { new CodePrimitiveExpression (Name) });
        decl.Members.Add (implField);
        //private static IClass impl = global::CppTests.Libs.Test.GetClass <IClass, _Class, Class>("Class");

        if (!hasBase) {
            var ptrField = new CodeMemberField (new CodeTypeReference ("CppInstancePtr"), "native_ptr");
            ptrField.Attributes = MemberAttributes.Family;
            decl.Members.Add (ptrField);
        }

        var allocCtor = new CodeConstructor () {
            };
        allocCtor.Parameters.Add (new CodeParameterDeclarationExpression (new CodeTypeReference ("CppLibrary"), "dummy"));
        allocCtor.Statements.Add (new CodeAssignStatement (new CodeFieldReferenceExpression (null, "native_ptr"), new CodeMethodInvokeExpression (new CodeMethodReferenceExpression (new CodeFieldReferenceExpression (null, "impl"), "Alloc"), new CodeExpression [] { new CodeThisReferenceExpression () })));
        if (hasBase) {
            var implTypeInfo = new CodeFieldReferenceExpression (new CodeFieldReferenceExpression { FieldName = "impl" }, "TypeInfo");
            allocCtor.BaseConstructorArgs.Add (implTypeInfo);
        }
        decl.Members.Add (allocCtor);

        var subclassCtor = new CodeConstructor () {
                Attributes = MemberAttributes.Family
            };
        subclassCtor.Parameters.Add (new CodeParameterDeclarationExpression (new CodeTypeReference ("CppTypeInfo"), "subClass"));
        subclassCtor.Statements.Add (new CodeExpressionStatement (new CodeMethodInvokeExpression (new CodeMethodReferenceExpression (new CodeArgumentReferenceExpression ("subClass"), "AddBase"), new CodeExpression [] { new CodeFieldReferenceExpression (new CodeFieldReferenceExpression (null, "impl"), "TypeInfo") })));
        if (hasBase) {
            var implTypeInfo = new CodeFieldReferenceExpression (new CodeFieldReferenceExpression { FieldName = "impl" }, "TypeInfo");
            subclassCtor.BaseConstructorArgs.Add (implTypeInfo);
        }
        decl.Members.Add (subclassCtor);

        if (!hasBase) {
            var nativeProperty = new CodeMemberProperty () {
                    Name = "Native",
                        Type = new CodeTypeReference ("CppInstancePtr"),
                        Attributes = MemberAttributes.Public|MemberAttributes.Final
                        };
            nativeProperty.GetStatements.Add (new CodeMethodReturnStatement (new CodeFieldReferenceExpression (new CodeThisReferenceExpression (), "native_ptr")));
            decl.Members.Add (nativeProperty);
        }

        var disposeMethod = new CodeMemberMethod () {
                Name = "Dispose",
                Attributes = MemberAttributes.Public
        };
        if (Methods.Any (m => m.IsDestructor))
            disposeMethod.Statements.Add (new CodeExpressionStatement (new CodeMethodInvokeExpression (new CodeMethodReferenceExpression (new CodeFieldReferenceExpression (null, "impl"), "Destruct"), new CodeExpression [] { new CodeFieldReferenceExpression (null, "Native") })));
        disposeMethod.Statements.Add (new CodeExpressionStatement (new CodeMethodInvokeExpression (new CodeMethodReferenceExpression (new CodeFieldReferenceExpression (null, "Native"), "Dispose"))));
        decl.Members.Add (disposeMethod);

        foreach (Method m in Methods) {
            iface.Members.Add (m.GenerateIFaceMethod (g));

            if (m.GenWrapperMethod) {
                var cm = m.GenerateWrapperMethod (g);
                if (m.IsConstructor && hasBase) {
                    var implTypeInfo = new CodeFieldReferenceExpression (new CodeFieldReferenceExpression { FieldName = "impl" }, "TypeInfo");
                    (cm as CodeConstructor).BaseConstructorArgs.Add (implTypeInfo);
                }
                decl.Members.Add (cm);
            }
        }

        foreach (Property p in Properties) {
            decl.Members.Add (p.GenerateProperty (g));
        }

        return decl;
    }
Esempio n. 8
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    private void DefineWrapperClassFieldsAndMethods(Smoke.Class* smokeClass, CodeTypeDeclaration type)
    {
        // define the dummy constructor
        if (smokeClass->size > 0)
        {
            CodeConstructor dummyCtor = new CodeConstructor();
            dummyCtor.Parameters.Add(new CodeParameterDeclarationExpression(new CodeTypeReference(typeof(Type)), "dummy"));
            if (data.Smoke->inheritanceList[smokeClass->parents] > 0)
            {
                dummyCtor.BaseConstructorArgs.Add(new CodeSnippetExpression("(System.Type) null"));
            }
            dummyCtor.Attributes = MemberAttributes.Family;
            if (SupportingMethodsHooks != null)
            {
                SupportingMethodsHooks(data.Smoke, (Smoke.Method*) 0, dummyCtor, type);
            }
            type.Members.Add(dummyCtor);
        }

        CodeMemberField staticInterceptor = new CodeMemberField("SmokeInvocation", "staticInterceptor");
        staticInterceptor.Attributes = MemberAttributes.Static;
        CodeObjectCreateExpression initExpression = new CodeObjectCreateExpression("SmokeInvocation");
        initExpression.Parameters.Add(new CodeTypeOfExpression(type.Name));
        initExpression.Parameters.Add(new CodePrimitiveExpression(null));
        staticInterceptor.InitExpression = initExpression;
        type.Members.Add(staticInterceptor);

        if (smokeClass->size == 0)
            return;

        // we only need this for real classes
        CodeMemberMethod createProxy = new CodeMemberMethod();
        createProxy.Name = "CreateProxy";
        createProxy.Attributes = MemberAttributes.Public;
        if (data.Smoke->inheritanceList[smokeClass->parents] != 0)
        {
            createProxy.Attributes |= MemberAttributes.Override;
        }
        createProxy.Statements.Add(new CodeAssignStatement(
                                       new CodeFieldReferenceExpression(new CodeThisReferenceExpression(), "interceptor"),
                                       // left hand side
                                       new CodeObjectCreateExpression("SmokeInvocation", new CodeTypeOfExpression(type.Name),
                                                                      new CodeThisReferenceExpression()) // right hand side
                                       ));
        type.Members.Add(createProxy);

        if (data.Smoke->inheritanceList[smokeClass->parents] != 0)
            return;
        // The following fields are only necessary for classes without superclasses.

        CodeMemberField interceptor = new CodeMemberField("SmokeInvocation", "interceptor");
        interceptor.Attributes = MemberAttributes.Family;
        type.Members.Add(interceptor);
        CodeMemberField smokeObject = new CodeMemberField(typeof(IntPtr), "smokeObject");
        type.Members.Add(smokeObject);
        type.BaseTypes.Add(new CodeTypeReference("ISmokeObject"));
        CodeMemberProperty propertySmokeObject = new CodeMemberProperty();
        propertySmokeObject.Name = "SmokeObject";
        propertySmokeObject.Type = new CodeTypeReference(typeof(IntPtr));
        propertySmokeObject.Attributes = MemberAttributes.Public;
        CodeFieldReferenceExpression smokeObjectReference = new CodeFieldReferenceExpression(
            new CodeThisReferenceExpression(), smokeObject.Name);
        propertySmokeObject.GetStatements.Add(new CodeMethodReturnStatement(smokeObjectReference));
        propertySmokeObject.SetStatements.Add(new CodeAssignStatement(smokeObjectReference,
                                                                      new CodePropertySetValueReferenceExpression()));
        type.Members.Add(propertySmokeObject);
    }
            private void CodeDomProducer_CodeDomProduction(object sender, CodeDomProductionEventArgs e)
            {
                if (e.EventType == CodeDomProductionEventType.UnitsProducing)
                {
                    if (e.Argument == null)
                        return;

                    foreach (var entity in Project.Entities)
                    {
                        if (!entity.GetAttributeValue("enabled", NamespaceUri, true))
                            continue;

                        CodeTypeDeclaration typeDeclaration = _codeDomProducer.GetType(entity);
                        if (typeDeclaration == null)
                            continue;

                        // Class
                        var jsonObjectAttribute = new CodeAttributeDeclaration("Newtonsoft.Json.JsonObjectAttribute");
                        string optMode = entity.GetAttributeValue("optMode", NamespaceUri, "OptIn");
                        if (optMode != null)
                        {
                            var memberSerialization = new CodeFieldReferenceExpression(new CodeTypeReferenceExpression("Newtonsoft.Json.MemberSerialization"), optMode);
                            jsonObjectAttribute.Arguments.Add(new CodeAttributeArgument("MemberSerialization", memberSerialization));
                        }
                        CodeDomUtilities.EnsureAttribute(typeDeclaration, jsonObjectAttribute, true);

                        // Properties
                        foreach (CodeTypeMember member in typeDeclaration.Members)
                        {
                            PropertyDefinition propertyDefinition = null;

                            CodeMemberProperty memberProperty = member as CodeMemberProperty;
                            if (memberProperty != null)
                            {
                                propertyDefinition = UserData.GetPropertyDefinition(memberProperty);
                            }

                            Property property = null;
                            if (propertyDefinition != null && propertyDefinition.Property != null)
                            {
                                property = propertyDefinition.Property;
                                if (!property.GetAttributeValue("enabled", NamespaceUri, true))
                                    continue;
                            }
                            else
                            {
                                if (!entity.GetAttributeValue("enabledForNonModelProperties", NamespaceUri, true))
                                    continue;
                            }

                            bool? serialized = null;
                            if (property != null)
                            {
                                serialized = property.GetAttributeValue("includeInSerialization", NamespaceUri, (bool?)null);
                            }

                            if (serialized == null)
                            {
                                //[System.NonSerializedAttribute()] => false
                                //[System.Xml.Serialization.XmlIgnoreAttribute()] => false
                                //[System.Runtime.Serialization.DataMemberAttribute()] => true

                                if (CodeDomUtilities.GetAttribute(member, typeof(NonSerializedAttribute)) != null)
                                {
                                    serialized = false;
                                }
                                else if (CodeDomUtilities.GetAttribute(member, typeof(XmlIgnoreAttribute)) != null)
                                {
                                    serialized = false;
                                }
                                else if (CodeDomUtilities.GetAttribute(member, typeof(DataMemberAttribute)) != null)
                                {
                                    serialized = true;
                                }
                                else if (CodeDomUtilities.GetAttribute(member, typeof(XmlAttribute)) != null)
                                {
                                    serialized = true;
                                }
                                else if (CodeDomUtilities.GetAttribute(member, typeof(XmlElementAttribute)) != null)
                                {
                                    serialized = true;
                                }
                                else if (property != null)
                                {
                                    serialized = property.IsIncludedInSerialization;
                                }
                            }

                            // [JsonIgnore] or [JsonProperty]
                            if (serialized != null)
                            {
                                var jsonPropertyAttribute = new CodeAttributeDeclaration();
                                jsonPropertyAttribute.Name = serialized == true ? "Newtonsoft.Json.JsonPropertyAttribute" : "Newtonsoft.Json.JsonIgnoreAttribute";
                                CodeDomUtilities.EnsureAttribute(member, jsonPropertyAttribute, true);
                            }

                        }
                    }
                }
            }
Esempio n. 10
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			public void Visit(CodeFieldReferenceExpression o)
			{
				g.GenerateFieldReferenceExpression(o);
			}
Esempio n. 11
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	static void BuildCity (City c, CodeMemberMethod method, CodeFieldReferenceExpression curVar,
			       CodeFieldReferenceExpression curLocation)
	{
		CodeAssignStatement cityAssign = new CodeAssignStatement ();
		cityAssign.Left = curCity;
		cityAssign.Right = new CodeCastExpression (cityType, curLocation);
		method.Statements.Add (cityAssign);

		CodeMethodInvokeExpression locationAdd;
		
		foreach (Location l in c.Locations) {
			locationAdd = new CodeMethodInvokeExpression (
				curCity,
				"Add",
				new CodeExpression[] {BuildCityLocation (l, method)}
			);
			method.Statements.Add (locationAdd);
		}
	}
 private static CodeMethodReturnStatement GenerateParameters(CodeMemberMethod helperMethod, CodeTypeDeclaration codeTypeDeclaration, CodeExpression target, FieldDirection dir)
 {
     CodeMethodReturnStatement statement = null;
     foreach (CodeTypeMember member in codeTypeDeclaration.Members)
     {
         CodeMemberField field = member as CodeMemberField;
         if (field != null)
         {
             CodeFieldReferenceExpression left = new CodeFieldReferenceExpression(target, field.Name);
             CodeTypeDeclaration codeType = ServiceContractGenerator.NamespaceHelper.GetCodeType(field.Type);
             if (codeType != null)
             {
                 if (dir == FieldDirection.In)
                 {
                     helperMethod.Statements.Add(new CodeAssignStatement(left, new CodeObjectCreateExpression(field.Type, new CodeExpression[0])));
                 }
                 statement = GenerateParameters(helperMethod, codeType, left, dir);
                 continue;
             }
             CodeParameterDeclarationExpression expression2 = GetRefParameter(helperMethod.Parameters, dir, field);
             if (((expression2 == null) && (dir == FieldDirection.Out)) && (helperMethod.ReturnType.BaseType == voidTypeRef.BaseType))
             {
                 helperMethod.ReturnType = field.Type;
                 statement = new CodeMethodReturnStatement(left);
             }
             else
             {
                 if (expression2 == null)
                 {
                     expression2 = new CodeParameterDeclarationExpression(field.Type, NamingHelper.GetUniqueName(field.Name, new NamingHelper.DoesNameExist(ClientClassGenerator.DoesParameterNameExist), helperMethod));
                     expression2.Direction = dir;
                     helperMethod.Parameters.Add(expression2);
                 }
                 if (dir == FieldDirection.Out)
                 {
                     helperMethod.Statements.Add(new CodeAssignStatement(new CodeArgumentReferenceExpression(expression2.Name), left));
                     continue;
                 }
                 helperMethod.Statements.Add(new CodeAssignStatement(left, new CodeArgumentReferenceExpression(expression2.Name)));
             }
         }
     }
     return statement;
 }
 private static CodeTypeDeclaration CreateOperationCompletedEventArgsType(ServiceContractGenerationContext context, string syncMethodName, CodeMemberMethod endMethod)
 {
     if ((endMethod.Parameters.Count == 1) && (endMethod.ReturnType.BaseType == voidTypeRef.BaseType))
     {
         return null;
     }
     CodeTypeDeclaration ownerTypeDecl = context.TypeFactory.CreateClassType();
     ownerTypeDecl.BaseTypes.Add(new CodeTypeReference(asyncCompletedEventArgsType));
     CodeMemberField field = new CodeMemberField();
     field.Type = new CodeTypeReference(objectArrayType);
     CodeFieldReferenceExpression left = new CodeFieldReferenceExpression();
     left.TargetObject = new CodeThisReferenceExpression();
     CodeConstructor constructor = new CodeConstructor();
     constructor.Attributes = MemberAttributes.Public;
     for (int i = 0; i < EventArgsCtorParamTypes.Length; i++)
     {
         constructor.Parameters.Add(new CodeParameterDeclarationExpression(EventArgsCtorParamTypes[i], EventArgsCtorParamNames[i]));
         if (i > 0)
         {
             constructor.BaseConstructorArgs.Add(new CodeVariableReferenceExpression(EventArgsCtorParamNames[i]));
         }
     }
     ownerTypeDecl.Members.Add(constructor);
     constructor.Statements.Add(new CodeAssignStatement(left, new CodeVariableReferenceExpression(EventArgsCtorParamNames[0])));
     int asyncResultParamIndex = GetAsyncResultParamIndex(endMethod);
     int num3 = 0;
     for (int j = 0; j < endMethod.Parameters.Count; j++)
     {
         if (j != asyncResultParamIndex)
         {
             CreateEventAsyncCompletedArgsTypeProperty(ownerTypeDecl, endMethod.Parameters[j].Type, endMethod.Parameters[j].Name, new CodeArrayIndexerExpression(left, new CodeExpression[] { new CodePrimitiveExpression(num3++) }));
         }
     }
     if (endMethod.ReturnType.BaseType != voidTypeRef.BaseType)
     {
         CreateEventAsyncCompletedArgsTypeProperty(ownerTypeDecl, endMethod.ReturnType, NamingHelper.GetUniqueName("Result", new NamingHelper.DoesNameExist(ClientClassGenerator.DoesMemberNameExist), ownerTypeDecl), new CodeArrayIndexerExpression(left, new CodeExpression[] { new CodePrimitiveExpression(num3) }));
     }
     field.Name = NamingHelper.GetUniqueName("results", new NamingHelper.DoesNameExist(ClientClassGenerator.DoesMemberNameExist), ownerTypeDecl);
     left.FieldName = field.Name;
     ownerTypeDecl.Members.Add(field);
     ownerTypeDecl.Name = NamingHelper.GetUniqueName(GetOperationCompletedEventArgsTypeName(syncMethodName), new NamingHelper.DoesNameExist(ClientClassGenerator.DoesTypeAndMemberNameExist), new object[] { context.Namespace.Types, ownerTypeDecl });
     context.Namespace.Types.Add(ownerTypeDecl);
     return ownerTypeDecl;
 }
Esempio n. 14
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 public void VisitFieldReference(CodeFieldReferenceExpression field)
 {
     field.Expression.Accept(this);
     writer.Write(".");
     writer.WriteName(field.FieldName);
 }
Esempio n. 15
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        static CodeExpression GetXdmItemTypeExpression(XPathItemType itemType)
        {
            switch (itemType.Kind)
            {
            case XPathItemKind.AnyItem:
                return(new CodeFieldReferenceExpression(
                           new CodeTypeReferenceExpression(typeof(XdmAnyItemType)),
                           "Instance"
                           ));

            case XPathItemKind.Atomic:

                CodeExpression qnameRef = null;

                QName atomicSchemaType = GetAtomicSchemaType(itemType);

                if (atomicSchemaType.Uri == XMLSchemaNamespace)
                {
                    FieldInfo qnameField = typeof(QName).GetField("XS_" + atomicSchemaType.LocalName.ToUpperInvariant(), BindingFlags.Public | BindingFlags.Static);

                    if (qnameField != null)
                    {
                        qnameRef = new CodeFieldReferenceExpression {
                            FieldName    = qnameField.Name,
                            TargetObject = new CodeTypeReferenceExpression(typeof(QName))
                        };
                    }
                }

                if (qnameRef == null)
                {
                    qnameRef = new CodeObjectCreateExpression(
                        typeof(QName),
                        new CodePrimitiveExpression(atomicSchemaType.Uri),
                        new CodePrimitiveExpression(atomicSchemaType.LocalName)
                        );
                }

                return(new CodeMethodInvokeExpression {
                    Method = new CodeMethodReferenceExpression {
                        MethodName = "BuiltInAtomicType",
                        TargetObject = new CodeTypeReferenceExpression(typeof(XdmAtomicType))
                    },
                    Parameters =
                    {
                        qnameRef
                    }
                });

            case XPathItemKind.AnyNode:
                return(new CodeFieldReferenceExpression(
                           new CodeTypeReferenceExpression(typeof(XdmAnyNodeType)),
                           "Instance"
                           ));

            case XPathItemKind.Attribute:
            case XPathItemKind.SchemaAttribute:
                return(new CodeFieldReferenceExpression(
                           new CodeTypeReferenceExpression(typeof(XdmNodeKind)),
                           "Attribute"
                           ));

            case XPathItemKind.Comment:
                return(new CodeFieldReferenceExpression(
                           new CodeTypeReferenceExpression(typeof(XdmNodeKind)),
                           "Comment"
                           ));

            case XPathItemKind.Document:
                return(new CodeFieldReferenceExpression(
                           new CodeTypeReferenceExpression(typeof(XdmNodeKind)),
                           "Document"
                           ));

            case XPathItemKind.Element:
            case XPathItemKind.SchemaElement:
                return(new CodeFieldReferenceExpression(
                           new CodeTypeReferenceExpression(typeof(XdmNodeKind)),
                           "Element"
                           ));

            case XPathItemKind.ProcessingInstruction:
                return(new CodeFieldReferenceExpression(
                           new CodeTypeReferenceExpression(typeof(XdmNodeKind)),
                           "ProcessingInstruction"
                           ));

            case XPathItemKind.Text:
                return(new CodeFieldReferenceExpression(
                           new CodeTypeReferenceExpression(typeof(XdmNodeKind)),
                           "Text"
                           ));

            default:
                throw new ArgumentException("itemType not supported.", "itemType");
            }
        }
	protected override void GenerateFieldReferenceExpression
				(CodeFieldReferenceExpression e)
			{
				if(e.TargetObject != null)
				{
					GenerateExpression(e.TargetObject);
					Output.Write(".");
				}
				OutputIdentifier(e.FieldName);
			}
Esempio n. 17
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        void ImportHeader(CodeMemberMethod method, SoapHeaderBinding hb, SoapHeaderDirection direction)
        {
            Message msg = ServiceDescriptions.GetMessage(hb.Message);

            if (msg == null)
            {
                throw new InvalidOperationException("Message " + hb.Message + " not found");
            }
            MessagePart part = msg.Parts [hb.Part];

            if (part == null)
            {
                throw new InvalidOperationException("Message part " + hb.Part + " not found in message " + hb.Message);
            }

            XmlTypeMapping map;
            string         hname;

            if (hb.Use == SoapBindingUse.Literal)
            {
                map   = xmlImporter.ImportDerivedTypeMapping(part.Element, typeof(SoapHeader));
                hname = part.Element.Name;
                xmlExporter.ExportTypeMapping(map);
            }
            else
            {
                map   = soapImporter.ImportDerivedTypeMapping(part.Type, typeof(SoapHeader), true);
                hname = part.Type.Name;
                soapExporter.ExportTypeMapping(map);
            }

            string varName = headerVariables [map] as string;

            if (varName == null)
            {
                if (hname == map.TypeName)
                {
                    varName = memberIds.AddUnique(CodeIdentifier.MakeValid(hname + "Value"), hb);
                }
                else
                {
                    varName = memberIds.AddUnique(CodeIdentifier.MakeValid(hname), hb);
                }

                string propName = varName;
                varName = varName + "Field";
                headerVariables.Add(map, varName);
                CodeMemberField codeField = new CodeMemberField(map.TypeFullName, varName);
                CodeTypeDeclaration.Members.Add(codeField);

                codeField.Attributes = MemberAttributes.Private;
                CodeMemberProperty codeProperty = new CodeMemberProperty();
                codeProperty.Name       = propName;
                codeProperty.Type       = new CodeTypeReference(map.TypeFullName);
                codeProperty.Attributes = MemberAttributes.Public | MemberAttributes.Final;
                codeProperty.HasGet     = codeProperty.HasSet = true;
                CodeExpression ce = new CodeFieldReferenceExpression(new CodeThisReferenceExpression(), varName);
                codeProperty.SetStatements.Add(new CodeAssignStatement(ce, new CodePropertySetValueReferenceExpression()));
                codeProperty.GetStatements.Add(new CodeMethodReturnStatement(ce));
                CodeTypeDeclaration.Members.Add(codeProperty);

                varName = propName;
            }

            CodeAttributeDeclaration att = new CodeAttributeDeclaration("System.Web.Services.Protocols.SoapHeaderAttribute");

            att.Arguments.Add(GetArg(varName));
            if (direction != SoapHeaderDirection.In)
            {
                att.Arguments.Add(GetEnumArg("Direction", "System.Web.Services.Protocols.SoapHeaderDirection", direction.ToString()));
            }
            AddCustomAttribute(method, att, true);
        }
Esempio n. 18
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 /// <summary>
 /// Implements the getter of the given property
 /// </summary>
 /// <param name="property">The property</param>
 /// <param name="fieldRef">A reference to the underlying field</param>
 public static void ImplementGetter(this CodeMemberProperty property, CodeFieldReferenceExpression fieldRef)
 {
     property.GetStatements.Add(new CodeMethodReturnStatement(fieldRef));
     property.HasGet = true;
 }
    /// <summary>
    /// Gets all the anim event mappings for the given animator controller.
    /// </summary>
    private static CodeObjectCreateExpression CreateWithEventMappings(AnimatorController animatorController, CodeExpression layerDeclarations)
    {
        Dictionary <AnimatorState, AnimatorControllerLayer> layerMap          = new Dictionary <AnimatorState, AnimatorControllerLayer>();
        Dictionary <AnimEventType, List <AnimatorState> >   bindings          = new Dictionary <AnimEventType, List <AnimatorState> >();
        Func <StateMachineBehaviour[], AnimEventBinder>     containsBehaviour = (behaviourSet) =>
        {
            for (int i = 0; i < behaviourSet.Length; i++)
            {
                if (behaviourSet[i].GetType() == typeof(AnimEventBinder))
                {
                    return((AnimEventBinder)behaviourSet[i]);
                }
            }
            return(null);
        };
        Func <AnimatorControllerLayer, AnimatorState, int> getFullPathHash = (layer, state) =>
        {
            return(Animator.StringToHash(layer.name + "." + state.name));
        };

        for (int l = 0; l < animatorController.layers.Length; l++)
        {
            for (int s = 0; s < animatorController.layers[l].stateMachine.states.Length; s++)
            {
                AnimEventBinder binder = containsBehaviour(animatorController.layers[l].stateMachine.states[s].state.behaviours);
                if (binder != null)
                {
                    for (int a = 0; a < binder.animEventTypes.Length; a++)
                    {
                        if (!bindings.ContainsKey(binder.animEventTypes[a]))
                        {
                            bindings.Add(binder.animEventTypes[a], new List <AnimatorState>());
                        }
                        bindings[binder.animEventTypes[a]].Add(animatorController.layers[l].stateMachine.states[s].state);
                        layerMap.Add(animatorController.layers[l].stateMachine.states[s].state, animatorController.layers[l]);
                    }
                }
            }
        }
        AnimEventType[] boundAnimEvents           = new AnimEventType[bindings.Keys.Count];
        int[][]         hashSets                  = new int[boundAnimEvents.Length][];
        CodeFieldReferenceExpression[] eventsRefs = new CodeFieldReferenceExpression[boundAnimEvents.Length];
        CodePrimitiveExpression[][]    hashRefs   = new CodePrimitiveExpression[hashSets.Length][];
        CodeArrayCreateExpression[]    subarrays  = new CodeArrayCreateExpression[hashRefs.Length];
        bindings.Keys.CopyTo(boundAnimEvents, 0);
        for (int i = 0; i < boundAnimEvents.Length; i++)
        {
            hashSets[i] = new int[bindings[boundAnimEvents[i]].Count];
            for (int s = 0; s < hashSets[i].Length; s++)
            {
                hashSets[i][s] = getFullPathHash(layerMap[bindings[boundAnimEvents[i]][s]], bindings[boundAnimEvents[i]][s]);
            }
            eventsRefs[i] = new CodeFieldReferenceExpression(new CodeTypeReferenceExpression(typeof(AnimEventType)), boundAnimEvents[i].ToString());
            hashRefs[i]   = new CodePrimitiveExpression[hashSets[i].Length];
            for (int h = 0; h < hashSets[i].Length; i++)
            {
                hashRefs[i][h] = new CodePrimitiveExpression(hashSets[i][h]);
            }
            subarrays[i] = new CodeArrayCreateExpression(typeof(int[]), hashRefs[i]);
        }
        CodeExpression hashesMultiArrayDeclaration;

        // If subarrays.Length == 0, CodeDOM will "optimize" this argument straight into a type mismatch!
        // This is a hack that works around that by making sure we explicitly declare an empty array-of-arrays,
        // if need be.
        if (subarrays.Length > 0)
        {
            hashesMultiArrayDeclaration = new CodeArrayCreateExpression(typeof(int[][]), subarrays);
        }
        else
        {
            hashesMultiArrayDeclaration = new CodeSnippetExpression("new int[0][]");
        }
        return(new CodeObjectCreateExpression(typeof(AnimatorMetadata), new CodeExpression[] { layerDeclarations,
                                                                                               new CodeArrayCreateExpression(typeof(AnimEventType), eventsRefs), hashesMultiArrayDeclaration }));
    }
Esempio n. 20
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 /// <summary>
 /// Implements the setter of the given property
 /// </summary>
 /// <param name="property">The code property</param>
 /// <param name="fieldRef">A reference to the underlying field</param>
 /// <param name="whenChanged">A collection of statements that should be performed when the value of the property changed</param>
 public static void ImplementSetter(this CodeMemberProperty property, CodeFieldReferenceExpression fieldRef, params CodeStatement[] whenChanged)
 {
     ImplementSetter(property, fieldRef, (IEnumerable <CodeStatement>)whenChanged);
 }
    public override void BuildTree (CodeDomProvider provider, CodeCompileUnit cu) {

        CodeNamespace nspace = new CodeNamespace("NSPC");
        nspace.Imports.Add(new CodeNamespaceImport("System"));
        cu.Namespaces.Add(nspace);

        CodeTypeDeclaration cd = new CodeTypeDeclaration("TestFields");
        cd.IsClass = true;
        nspace.Types.Add(cd);

        // GENERATES (C#):
        //        public static int UseStaticPublicField(int i) {
        //            ClassWithFields.StaticPublicField = i;
        //            return ClassWithFields.StaticPublicField;
        //
        CodeMemberMethod cmm;
        if (Supports(provider, GeneratorSupport.PublicStaticMembers))
        {
          AddScenario("CheckUseStaticPublicField");
          cmm = new CodeMemberMethod();
          cmm.Name = "UseStaticPublicField";
          cmm.Attributes = MemberAttributes.Public | MemberAttributes.Static;
          cmm.ReturnType = new CodeTypeReference(typeof(int));
          cmm.Parameters.Add(new CodeParameterDeclarationExpression(new CodeTypeReference(typeof(int)), "i"));
          cmm.Statements.Add(new CodeAssignStatement(new CodeFieldReferenceExpression(
              new CodeTypeReferenceExpression("ClassWithFields"), "StaticPublicField"),
              new CodeArgumentReferenceExpression("i")));
          cmm.Statements.Add(new CodeMethodReturnStatement(new CodeFieldReferenceExpression(new
              CodeTypeReferenceExpression("ClassWithFields"), "StaticPublicField")));
          cd.Members.Add(cmm);
        }

        // GENERATES (C#):
        //        public static int UseNonStaticPublicField(int i) {
        //            ClassWithFields variable = new ClassWithFields();
        //            variable.NonStaticPublicField = i;
        //            return variable.NonStaticPublicField;
        //        }
        AddScenario("CheckUseNonStaticPublicField");
        cmm = new CodeMemberMethod();
        cmm.Name = "UseNonStaticPublicField";
        cmm.Attributes = MemberAttributes.Public | MemberAttributes.Static;
        cmm.ReturnType = new CodeTypeReference(typeof(int));
        cmm.Parameters.Add(new CodeParameterDeclarationExpression(new CodeTypeReference(typeof(int)), "i"));
        cmm.Statements.Add(new CodeVariableDeclarationStatement("ClassWithFields", "variable", new CodeObjectCreateExpression("ClassWithFields")));
        cmm.Statements.Add(new CodeAssignStatement(new CodeFieldReferenceExpression(
            new CodeVariableReferenceExpression("variable"), "NonStaticPublicField"),
            new CodeArgumentReferenceExpression("i")));
        cmm.Statements.Add(new CodeMethodReturnStatement(new CodeFieldReferenceExpression(new
            CodeVariableReferenceExpression("variable"), "NonStaticPublicField")));
        cd.Members.Add(cmm);

        // GENERATES (C#):
        //        public static int UseNonStaticInternalField(int i) {
        //            ClassWithFields variable = new ClassWithFields();
        //            variable.NonStaticInternalField = i;
        //            return variable.NonStaticInternalField;
        //        }          

        if (!(provider is JScriptCodeProvider) && !(provider is VBCodeProvider))
        {
          cmm = new CodeMemberMethod();
          AddScenario("CheckUseNonStaticInternalField");
          cmm.Name = "UseNonStaticInternalField";
          cmm.Attributes = MemberAttributes.Public | MemberAttributes.Static;
          cmm.ReturnType = new CodeTypeReference(typeof(int));
          cmm.Parameters.Add(new CodeParameterDeclarationExpression(new CodeTypeReference(typeof(int)), "i"));
          cmm.Statements.Add(new CodeVariableDeclarationStatement("ClassWithFields", "variable", new CodeObjectCreateExpression("ClassWithFields")));
          cmm.Statements.Add(new CodeAssignStatement(new CodeFieldReferenceExpression(
              new CodeVariableReferenceExpression("variable"), "NonStaticInternalField"),
              new CodeArgumentReferenceExpression("i")));
          cmm.Statements.Add(new CodeMethodReturnStatement(new CodeFieldReferenceExpression(new
              CodeVariableReferenceExpression("variable"), "NonStaticInternalField")));
          cd.Members.Add(cmm);
        }

        // GENERATES (C#):
        //        public static int UseInternalField(int i) {
        //            ClassWithFields.InternalField = i;
        //            return ClassWithFields.InternalField;
        //        }
        if (!(provider is JScriptCodeProvider) && !(provider is VBCodeProvider))
        {
          AddScenario("CheckUseInternalField");
          cmm = new CodeMemberMethod();
          cmm.Name = "UseInternalField";
          cmm.Attributes = MemberAttributes.Public | MemberAttributes.Static;
          cmm.ReturnType = new CodeTypeReference(typeof(int));
          cmm.Parameters.Add(new CodeParameterDeclarationExpression(new CodeTypeReference(typeof(int)), "i"));
          cmm.Statements.Add(new CodeAssignStatement(new CodeFieldReferenceExpression(new
              CodeTypeReferenceExpression("ClassWithFields"), "InternalField"),
              new CodeArgumentReferenceExpression("i")));
          cmm.Statements.Add(new CodeMethodReturnStatement(new CodeFieldReferenceExpression(new
              CodeTypeReferenceExpression("ClassWithFields"), "InternalField")));
          cd.Members.Add(cmm);
        }

        // GENERATES (C#):
        //       public static int UseConstantField(int i) {
        //            return ClassWithFields.ConstantField;
        //        }
        AddScenario("CheckUseConstantField");
        cmm = new CodeMemberMethod();
        cmm.Name = "UseConstantField";
        cmm.Attributes = MemberAttributes.Public | MemberAttributes.Static;
        cmm.ReturnType = new CodeTypeReference(typeof(int));
        cmm.Parameters.Add(new CodeParameterDeclarationExpression(new CodeTypeReference(typeof(int)), "i"));
        cmm.Statements.Add(new CodeMethodReturnStatement(new CodeFieldReferenceExpression(new
            CodeTypeReferenceExpression("ClassWithFields"), "ConstantField")));
        cd.Members.Add(cmm);

        // code a new class to test that the protected field can be accessed by classes that inherit it
        // GENERATES (C#):
        //    public class TestProtectedField : ClassWithFields {
        //        public static int UseProtectedField(int i) {
        //            ProtectedField = i;
        //            return ProtectedField;
        //        }
        //    }
        cd = new CodeTypeDeclaration("TestProtectedField");
        cd.BaseTypes.Add(new CodeTypeReference("ClassWithFields"));
        cd.IsClass = true;
        nspace.Types.Add(cd);

        cmm = new CodeMemberMethod();
        AddScenario("CheckUseProtectedField");
        cmm.Name = "UseProtectedField";
        cmm.Attributes = MemberAttributes.Public | MemberAttributes.Static;
        cmm.ReturnType = new CodeTypeReference(typeof(int));
        cmm.Parameters.Add(new CodeParameterDeclarationExpression(new CodeTypeReference(typeof(int)), "i"));
        CodeFieldReferenceExpression reference = new CodeFieldReferenceExpression();
        reference.FieldName = "ProtectedField";
        reference.TargetObject = new CodeTypeReferenceExpression("ClassWithFields");
        cmm.Statements.Add(new CodeAssignStatement(reference,
            new CodeArgumentReferenceExpression("i")));
        cmm.Statements.Add(new CodeMethodReturnStatement(reference));
        cd.Members.Add(cmm);


        // declare class with fields
        //  GENERATES (C#):
        //            public class ClassWithFields {
        //                public static int StaticPublicField = 5;
        //                /*FamANDAssem*/ internal static int InternalField = 0;
        //                public const int ConstantField = 0;
        //                protected static int ProtectedField = 0;
        //                private static int PrivateField = 5;
        //                public int NonStaticPublicField = 5;
        //                /*FamANDAssem*/ internal int NonStaticInternalField = 0;
        //                public static int UsePrivateField(int i) {
        //                    PrivateField = i;
        //                    return PrivateField;
        //                }
        //            }
        cd = new CodeTypeDeclaration ("ClassWithFields");
        cd.IsClass = true;
        nspace.Types.Add (cd);

        CodeMemberField field;
        if (Supports (provider, GeneratorSupport.PublicStaticMembers)) {
            field = new CodeMemberField ();
            field.Name = "StaticPublicField";
            field.Attributes = MemberAttributes.Public | MemberAttributes.Static;
            field.Type = new CodeTypeReference (typeof (int));
            field.InitExpression = new CodePrimitiveExpression (5);
            cd.Members.Add (field);
        }

        if (!(provider is JScriptCodeProvider) && !(provider is VBCodeProvider)) {
            field = new CodeMemberField ();
            field.Name = "InternalField";
            field.Attributes = MemberAttributes.FamilyOrAssembly | MemberAttributes.Static;
            field.Type = new CodeTypeReference (typeof (int));
            field.InitExpression = new CodePrimitiveExpression (0);
            cd.Members.Add (field);
        }

        field = new CodeMemberField ();
        field.Name = "ConstantField";
        field.Attributes = MemberAttributes.Public | MemberAttributes.Const;
        field.Type = new CodeTypeReference (typeof (int));
        field.InitExpression = new CodePrimitiveExpression (0);
        cd.Members.Add (field);

        field = new CodeMemberField ();
        field.Name = "ProtectedField";
        field.Attributes = MemberAttributes.Family | MemberAttributes.Static;
        field.Type = new CodeTypeReference (typeof (int));
        field.InitExpression = new CodePrimitiveExpression (0);
        cd.Members.Add (field);

        field = new CodeMemberField ();
        field.Name = "PrivateField";
        field.Attributes = MemberAttributes.Private | MemberAttributes.Static;
        field.Type = new CodeTypeReference (typeof (int));
        field.InitExpression = new CodePrimitiveExpression (5);
        cd.Members.Add (field);

        field = new CodeMemberField ();
        field.Name = "NonStaticPublicField";
        field.Attributes = MemberAttributes.Public | MemberAttributes.Final;
        field.Type = new CodeTypeReference (typeof (int));
        field.InitExpression = new CodePrimitiveExpression (5);
        cd.Members.Add (field);

        if (!(provider is JScriptCodeProvider) && !(provider is VBCodeProvider)) {
            field = new CodeMemberField ();
            field.Name = "NonStaticInternalField";
            field.Attributes = MemberAttributes.FamilyOrAssembly | MemberAttributes.Final;
            field.Type = new CodeTypeReference (typeof (int));
            field.InitExpression = new CodePrimitiveExpression (0);
            cd.Members.Add (field);
        }

        // create a method to test access to private field
        AddScenario ("CheckUsePrivateField");
        cmm = new CodeMemberMethod ();
        cmm.Name = "UsePrivateField";
        cmm.Attributes = MemberAttributes.Public | MemberAttributes.Static;
        cmm.ReturnType = new CodeTypeReference (typeof (int));
        cmm.Parameters.Add (new CodeParameterDeclarationExpression (new CodeTypeReference (typeof (int)), "i"));
        CodeFieldReferenceExpression fieldref = new CodeFieldReferenceExpression ();
        fieldref.TargetObject = new CodeTypeReferenceExpression("ClassWithFields");
        fieldref.FieldName = "PrivateField";
        cmm.Statements.Add (new CodeAssignStatement (fieldref, new CodeArgumentReferenceExpression ("i")));
        cmm.Statements.Add (new CodeMethodReturnStatement (fieldref));
        cd.Members.Add (cmm);
    }
Esempio n. 22
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        public override void ProcessDirective(string directiveName, IDictionary <string, string> arguments)
        {
            var name = arguments["name"];
            var type = arguments["type"];

            if (string.IsNullOrEmpty(name))
            {
                throw new DirectiveProcessorException("Parameter directive has no name argument");
            }
            if (string.IsNullOrEmpty(type))
            {
                throw new DirectiveProcessorException("Parameter directive has no type argument");
            }

            var fieldName = "_" + name + "Field";
            var typeRef   = new CodeTypeReference(type);
            var thisRef   = new CodeThisReferenceExpression();
            var fieldRef  = new CodeFieldReferenceExpression(thisRef, fieldName);

            var property = new CodeMemberProperty()
            {
                Name       = name,
                Attributes = MemberAttributes.Public | MemberAttributes.Final,
                HasGet     = true,
                HasSet     = false,
                Type       = typeRef
            };

            property.GetStatements.Add(new CodeMethodReturnStatement(fieldRef));
            this.members.Add(new CodeMemberField(typeRef, fieldName));
            this.members.Add(property);

            var acquiredName           = "_" + name + "Acquired";
            var valRef                 = new CodeVariableReferenceExpression("data");
            var namePrimitive          = new CodePrimitiveExpression(name);
            var sessionRef             = new CodePropertyReferenceExpression(thisRef, "Session");
            var callContextTypeRefExpr = new CodeTypeReferenceExpression("System.Runtime.Remoting.Messaging.CallContext");
            var nullPrim               = new CodePrimitiveExpression(null);

            var acquiredVariable    = new CodeVariableDeclarationStatement(typeof(bool), acquiredName, new CodePrimitiveExpression(false));
            var acquiredVariableRef = new CodeVariableReferenceExpression(acquiredVariable.Name);

            this.postStatements.Add(acquiredVariable);

            //checks the local called "data" can be cast and assigned to the field, and if successful, sets acquiredVariable to true
            var checkCastThenAssignVal = new CodeConditionStatement(
                new CodeMethodInvokeExpression(
                    new CodeTypeOfExpression(typeRef), "IsAssignableFrom", new CodeMethodInvokeExpression(valRef, "GetType")),
                new CodeStatement[]
            {
                new CodeAssignStatement(fieldRef, new CodeCastExpression(typeRef, valRef)),
                new CodeAssignStatement(acquiredVariableRef, new CodePrimitiveExpression(true)),
            },
                new CodeStatement[]
            {
                new CodeExpressionStatement(new CodeMethodInvokeExpression(thisRef, "Error",
                                                                           new CodePrimitiveExpression("The type '" + type + "' of the parameter '" + name +
                                                                                                       "' did not match the type passed to the template"))),
            });

            //tries to gets the value from the session
            var checkSession = new CodeConditionStatement(
                new CodeBinaryOperatorExpression(NotNull(sessionRef), CodeBinaryOperatorType.BooleanAnd,
                                                 new CodeMethodInvokeExpression(sessionRef, "ContainsKey", namePrimitive)),
                new CodeVariableDeclarationStatement(typeof(object), "data", new CodeIndexerExpression(sessionRef, namePrimitive)),
                checkCastThenAssignVal);

            this.postStatements.Add(checkSession);

            //if acquiredVariable is false, tries to gets the value from the host
            if (this.hostSpecific)
            {
                var hostRef   = new CodePropertyReferenceExpression(thisRef, "Host");
                var checkHost = new CodeConditionStatement(
                    BooleanAnd(IsFalse(acquiredVariableRef), NotNull(hostRef)),
                    new CodeVariableDeclarationStatement(typeof(string), "data",
                                                         new CodeMethodInvokeExpression(hostRef, "ResolveParameterValue", nullPrim, nullPrim, namePrimitive)),
                    new CodeConditionStatement(NotNull(valRef), checkCastThenAssignVal));

                this.postStatements.Add(checkHost);
            }

            //if acquiredVariable is false, tries to gets the value from the call context
            var checkCallContext = new CodeConditionStatement(
                IsFalse(acquiredVariableRef),
                new CodeVariableDeclarationStatement(typeof(object), "data",
                                                     new CodeMethodInvokeExpression(callContextTypeRefExpr, "LogicalGetData", namePrimitive)),
                new CodeConditionStatement(NotNull(valRef), checkCastThenAssignVal));

            this.postStatements.Add(checkCallContext);
        }
Esempio n. 23
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        public void GenerateCode(CodeTypeDeclaration persClass)
        {
            if (this.relationNode != null && (this.relation is ForeignFkRelation) && this.relationNode.RelatedTableNode.Table.Skipped)
            {
                return;
            }

            if (this.relationNode != null && this.relation.IsElement && ((TableNode)relationNode.Parent).Table.Skipped)
            {
                return;
            }

            if (this.relationNode != null && relation.IsElement && relationNode.RelatedTableNode.Table.Skipped)
            {
                return;
            }


            string typeStr;
            string name;
            bool   isContainer = false;
            string summary     = null;

            if (columnNode == null)  // We have a relation
            {
                isContainer = !relation.IsElement;
                string containerType = relation.CodingStyle.ToString();

                typeStr = isContainer ? containerType : relationNode.RelatedTableNode.Table.ClassName;
                name    = relation.FieldName;
            }
            else
            {
                typeStr = columnNode.ShortType;
                name    = columnNode.Column.FieldName;
                summary = columnNode.Column.Summary;
            }

            string bigname;

            if (name.StartsWith("_"))
            {
                bigname = name.Substring(1);
            }
            else if (name.StartsWith("m_"))
            {
                bigname = name.Substring(2);
            }
            else
            {
                bigname = name;
            }
            bigname = bigname.Substring(0, 1).ToUpper() + bigname.Substring(1);

            string elementTyp = null;

            //CodeVariableReferenceExpression fieldReference = new CodeVariableReferenceExpression("this." + name);
            CodeFieldReferenceExpression fieldReference = new CodeFieldReferenceExpression(new CodeThisReferenceExpression(), name);

            if (isContainer)
            {
                elementTyp = relationNode.RelatedTableNode.Table.ClassName;
                string relationName;
                if (relation.RelationName != string.Empty)
                {
                    relationName = relation.RelationName;
                }
                else
                {
                    ForeignFkRelation foreignRelation = relation as ForeignFkRelation;
                    if (foreignRelation != null && foreignRelation.SingularFieldName != null)
                    {
                        relationName = foreignRelation.SingularFieldName;
                    }
                    else
                    {
                        relationName = elementTyp;
                    }
                }


                bool   isComposite = (relation.IsComposite);
                string parameter   = elementTyp.Substring(0, 1).ToLower();

                CodeMemberMethod cmm;
                cmm            = new CodeMemberMethod();
                cmm.Attributes = MemberAttributes.Public;
                persClass.Members.Add(cmm);

                if (isComposite)
                {
                    cmm.Name       = "New" + relationName;
                    cmm.ReturnType = new CodeTypeReference(elementTyp);
                    cmm.Statements.Add(new CodeVariableDeclarationStatement(elementTyp, parameter, new CodeObjectCreateExpression(elementTyp, new CodeExpression[] { })));
                    cmm.Statements.Add(new CodeMethodInvokeExpression(fieldReference, "Add", new CodeVariableReferenceExpression(parameter)));
                    cmm.Statements.Add(new CodeMethodReturnStatement(new CodeVariableReferenceExpression(parameter)));
                }
                else
                {
                    cmm.Name = "Add" + relationName;
                    cmm.Parameters.Add(new CodeParameterDeclarationExpression(elementTyp, parameter));
                    cmm.Statements.Add(new CodeMethodInvokeExpression(fieldReference, "Add", new CodeVariableReferenceExpression(parameter)));
                }

                cmm            = new CodeMemberMethod();
                cmm.Attributes = MemberAttributes.Public;
                persClass.Members.Add(cmm);
                cmm.Parameters.Add(new CodeParameterDeclarationExpression(elementTyp, parameter));
                cmm.Name = "Remove" + relationName;
                CodeConditionStatement css = new CodeConditionStatement();
                css.Condition = new CodeMethodInvokeExpression(fieldReference, "Contains", new CodeVariableReferenceExpression(parameter));
                css.TrueStatements.Add(new CodeMethodInvokeExpression(fieldReference, "Remove", new CodeVariableReferenceExpression(parameter)));
                cmm.Statements.Add(css);
            }

            CodeMemberProperty cmp = new CodeMemberProperty();

            if (!string.IsNullOrEmpty(summary))
            {
                cmp.Comments.Add(new CodeCommentStatement("<summary>", true));
                cmp.Comments.Add(new CodeCommentStatement(summary, true));
                cmp.Comments.Add(new CodeCommentStatement("</summary>", true));
            }
            cmp.Attributes = MemberAttributes.Public;
            cmp.HasGet     = true;
            cmp.HasSet     = true;
            cmp.Name       = bigname;
            cmp.SetStatements.Add(new CodeAssignStatement(fieldReference, new CodeVariableReferenceExpression("value")));

            if (!isContainer)
            {
                persClass.Members.Add(cmp);
                cmp.Type = new CodeTypeReference(typeStr);
                cmp.GetStatements.Add(new CodeMethodReturnStatement(fieldReference));
            }
            else
            {
                CodeTypeReference containerType = null;
                if (relation.CodingStyle == CodingStyle.IList)
                {
                    containerType = new CodeTypeReference("IList");
                }
                else
                {
                    containerType = new CodeTypeReference("List");
                }
                containerType.TypeArguments.Add(new CodeTypeReference(elementTyp));
                persClass.Members.Add(cmp);
                cmp.Type = containerType;
                CodeTypeReference readOnlyList = new CodeTypeReference("NDOReadOnlyGenericList");
                readOnlyList.TypeArguments.Add(elementTyp);
                cmp.GetStatements.Add(new CodeMethodReturnStatement(new CodeObjectCreateExpression(readOnlyList, fieldReference)));
            }
        }
Esempio n. 24
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        /// <summary>
        ///  Serializes the given object into a CodeDom object.
        /// </summary>
        public override object Serialize(IDesignerSerializationManager manager, object value)
        {
            CodeStatementCollection      statements = null;
            PropertyDescriptorCollection props      = TypeDescriptor.GetProperties(value);

            using (TraceScope("ComponentCodeDomSerializer::Serialize"))
            {
                if (manager is null || value is null)
                {
                    throw new ArgumentNullException(manager is null ? "manager" : "value");
                }

                if (IsSerialized(manager, value))
                {
                    Debug.Fail("Serialize is being called twice for the same component");
                    return(GetExpression(manager, value));
                }

                // If the object is being inherited, we will will not emit a variable declaration.  Also, we won't
                // do any serialization at all if the object is privately inherited.
                InheritanceLevel     inheritanceLevel     = InheritanceLevel.NotInherited;
                InheritanceAttribute inheritanceAttribute = (InheritanceAttribute)TypeDescriptor.GetAttributes(value)[typeof(InheritanceAttribute)];

                if (inheritanceAttribute != null)
                {
                    inheritanceLevel = inheritanceAttribute.InheritanceLevel;
                }

                // First, skip everything if we're privately inherited.  We cannot write any code that would affect this
                // component.
                TraceIf(inheritanceLevel == InheritanceLevel.InheritedReadOnly, "Skipping read only inherited component");
                if (inheritanceLevel != InheritanceLevel.InheritedReadOnly)
                {
                    // Things we need to know:
                    //
                    // 1.  What expression should we use for the left hand side
                    //      a) already given to us via GetExpression?
                    //      b) a local variable?
                    //      c) a member variable?
                    //
                    // 2.  Should we generate an init expression for this
                    //     object?
                    //      a) Inherited or existing expression: no
                    //      b) otherwise, yes.

                    statements = new CodeStatementCollection();
                    CodeTypeDeclaration typeDecl  = manager.Context[typeof(CodeTypeDeclaration)] as CodeTypeDeclaration;
                    RootContext         rootCxt   = manager.Context[typeof(RootContext)] as RootContext;
                    CodeExpression      assignLhs = null;
                    CodeExpression      assignRhs;

                    // Defaults for components
                    bool generateLocal  = false;
                    bool generateField  = true;
                    bool generateObject = true;
                    bool isComplete     = false;

                    assignLhs = GetExpression(manager, value);

                    if (assignLhs != null)
                    {
                        Trace("Existing expression for LHS of value");
                        generateLocal  = false;
                        generateField  = false;
                        generateObject = false;

                        // if we have an existing expression and this is not
                        // a sited component, do not serialize it.  We need this for Everett / 1.0
                        // backwards compat (even though it's wrong).
                        if (value is IComponent comp && comp.Site is null)
                        {
                            // We were in a serialize content
                            // property and would still serialize it.  This code reverses what the
                            // outer if block does for this specific case.  We also need this
                            // for Everett / 1.0 backwards compat.
                            if (!(manager.Context[typeof(ExpressionContext)] is ExpressionContext expCxt) || expCxt.PresetValue != value)
                            {
                                isComplete = true;
                            }
                        }
                    }
                    else
                    {
                        Trace("Creating LHS expression");
                        if (inheritanceLevel == InheritanceLevel.NotInherited)
                        {
                            // See if there is a "GenerateMember" property.  If so,
                            // we might want to generate a local variable.  Otherwise,
                            // we want to generate a field.
                            PropertyDescriptor generateProp = props["GenerateMember"];
                            if (generateProp != null && generateProp.PropertyType == typeof(bool) && !(bool)generateProp.GetValue(value))
                            {
                                Trace("Object GenerateMember property wants a local variable");
                                generateLocal = true;
                                generateField = false;
                            }
                        }
                        else
                        {
                            generateObject = false;
                        }

                        if (rootCxt is null)
                        {
                            generateLocal = true;
                            generateField = false;
                        }
                    }

                    // Push the component being serialized onto the stack.  It may be handy to
                    // be able to discover this.
                    manager.Context.Push(value);
                    manager.Context.Push(statements);

                    try
                    {
                        string name = manager.GetName(value);

                        string typeName = TypeDescriptor.GetClassName(value);

                        // Output variable / field declarations if we need to
                        if ((generateField || generateLocal) && name != null)
                        {
                            if (generateField)
                            {
                                if (inheritanceLevel == InheritanceLevel.NotInherited)
                                {
                                    // We need to generate the field declaration.  See if there is a modifiers property on
                                    // the object.  If not, look for a DefaultModifies, and finally assume it's private.
                                    CodeMemberField    field        = new CodeMemberField(typeName, name);
                                    PropertyDescriptor modifersProp = props["Modifiers"];
                                    MemberAttributes   fieldAttrs;

                                    if (modifersProp is null)
                                    {
                                        modifersProp = props["DefaultModifiers"];
                                    }

                                    if (modifersProp != null && modifersProp.PropertyType == typeof(MemberAttributes))
                                    {
                                        fieldAttrs = (MemberAttributes)modifersProp.GetValue(value);
                                    }
                                    else
                                    {
                                        TraceWarning("No Modifiers or DefaultModifiers property on component {0}. We must assume private.", name);
                                        fieldAttrs = MemberAttributes.Private;
                                    }

                                    field.Attributes = fieldAttrs;
                                    typeDecl.Members.Add(field);
                                    Trace("Field {0} {1} {2} created.", fieldAttrs, typeName, name);
                                }

                                // Next, create a nice LHS for our pending assign statement, when we hook up the variable.
                                assignLhs = new CodeFieldReferenceExpression(rootCxt.Expression, name);
                            }
                            else
                            {
                                if (inheritanceLevel == InheritanceLevel.NotInherited)
                                {
                                    CodeVariableDeclarationStatement local = new CodeVariableDeclarationStatement(typeName, name);

                                    statements.Add(local);
                                    Trace("Local {0} {1} created.", typeName, name);
                                }

                                assignLhs = new CodeVariableReferenceExpression(name);
                            }
                        }

                        // Now output an object create if we need to.  We always see if there is a
                        // type converter that can provide us guidance

                        if (generateObject)
                        {
                            // Ok, now that we've decided if we have a local or a member variable, its now time to serialize the rest of the code.
                            // The first step is to create an assign statement to "new" the object.  For that, we need to know if
                            // the component wants a special IContainer constructor or not.  For that to be valid we must also know
                            // that we can get to an actual IContainer.
                            IContainer      container = manager.GetService(typeof(IContainer)) as IContainer;
                            ConstructorInfo ctor      = null;
                            if (container != null)
                            {
                                ctor = GetReflectionTypeHelper(manager, value).GetConstructor(BindingFlags.ExactBinding | BindingFlags.Public | BindingFlags.Instance | BindingFlags.DeclaredOnly, null, GetContainerConstructor(manager), null);
                            }

                            if (ctor != null)
                            {
                                Trace("Component has IContainer constructor.");
                                assignRhs = new CodeObjectCreateExpression(typeName, new CodeExpression[]
                                {
                                    SerializeToExpression(manager, container)
                                });
                            }
                            else
                            {
                                // For compat reasons we ignore the isCompleteOld value here.
                                assignRhs = SerializeCreationExpression(manager, value, out bool isCompleteOld);
                                Debug.Assert(isCompleteOld == isComplete, "CCDS Differing");
                            }

                            TraceErrorIf(assignRhs is null, "No RHS code assign for object {0}", value);
                            if (assignRhs != null)
                            {
                                if (assignLhs is null)
                                {
                                    // We cannot do much more for this object.  If isComplete is true,
                                    // then the RHS now becomes our LHS.  Otherwise, I'm afraid we have
                                    // just failed to serialize this object.
                                    if (isComplete)
                                    {
                                        assignLhs = assignRhs;
                                    }
                                    else
                                    {
                                        TraceError("Incomplete serialization of object, abandoning serialization.");
                                    }
                                }
                                else
                                {
                                    CodeAssignStatement assign = new CodeAssignStatement(assignLhs, assignRhs);
                                    statements.Add(assign);
                                }
                            }
                        }

                        if (assignLhs != null)
                        {
                            SetExpression(manager, value, assignLhs);
                        }

                        // It should practically be an assert that isComplete is false, but someone may
                        // have an unusual component.
                        if (assignLhs != null && !isComplete)
                        {
                            // .NET CF needs us to verify that the ISupportInitialize interface exists
                            // (they do not support this interface and will modify their DSM to resolve the type to null).

                            bool supportInitialize = (value is ISupportInitialize);
                            if (supportInitialize)
                            {
                                string fullName = typeof(ISupportInitialize).FullName;
                                supportInitialize = manager.GetType(fullName) != null;
                            }

                            Type reflectionType = null;
                            if (supportInitialize)
                            {
                                // Now verify that this control implements ISupportInitialize in the project target framework
                                // Don't use operator "is" but rather use IsAssignableFrom on the reflection types.
                                // We have other places where we use operator "is", for example "is IComponent" to generate
                                // specific CodeDOM objects, however we don't have cases of objects which were not an IComponent
                                // in a downlevel framework and became an IComponent in a newer framework, so I'm not replacing
                                // all instances of operator "is" by IsAssignableFrom.
                                reflectionType    = GetReflectionTypeHelper(manager, value);
                                supportInitialize = GetReflectionTypeFromTypeHelper(manager, typeof(ISupportInitialize)).IsAssignableFrom(reflectionType);
                            }

                            bool persistSettings = (value is IPersistComponentSettings) && ((IPersistComponentSettings)value).SaveSettings;
                            if (persistSettings)
                            {
                                string fullName = typeof(IPersistComponentSettings).FullName;
                                persistSettings = manager.GetType(fullName) != null;
                            }

                            if (persistSettings)
                            {
                                reflectionType  = reflectionType ?? GetReflectionTypeHelper(manager, value);
                                persistSettings = GetReflectionTypeFromTypeHelper(manager, typeof(IPersistComponentSettings)).IsAssignableFrom(reflectionType);
                            }

                            // We implement statement caching only for the main code generation phase.  We don't implement it for other
                            // serialization managers.  How do we tell the difference?  The main serialization manager exists as a service.
                            IDesignerSerializationManager mainManager = manager.GetService(typeof(IDesignerSerializationManager)) as IDesignerSerializationManager;

                            if (supportInitialize)
                            {
                                Trace("Object implements ISupportInitialize.");
                                SerializeSupportInitialize(manager, statements, assignLhs, value, "BeginInit");
                            }

                            SerializePropertiesToResources(manager, statements, value, _designTimeFilter);

                            // Writing out properties is expensive.  But, we're very smart and we cache the results
                            // in ComponentCache.  See if we have cached results.  If so, use 'em.  If not, generate
                            // code and then see if we can cache the results for later.
                            ComponentCache       cache = manager.GetService(typeof(ComponentCache)) as ComponentCache;
                            ComponentCache.Entry entry = null;
                            if (cache is null)
                            {
                                if (manager.GetService(typeof(IServiceContainer)) is ServiceContainer sc)
                                {
                                    cache = new ComponentCache(manager);
                                    sc.AddService(typeof(ComponentCache), cache);
                                }
                            }
                            else
                            {
                                if (manager == mainManager && cache.Enabled)
                                {
                                    entry = cache[value];
                                }
                            }

                            if (entry is null || entry.Tracking)
                            {
                                // Pushing the entry here allows it to be found by the resource code dom serializer,
                                // which will add data to the ResourceBlob property on the entry.
                                if (entry is null)
                                {
                                    entry = new ComponentCache.Entry(cache);

                                    // We cache components even if they're not valid so dependencies are
                                    // still tracked correctly (see comment below).  The problem is, we will create a
                                    // new entry object even if there is still an existing one that is just invalid, and it
                                    // might have dependencies that will be lost.
                                    // we need to make sure we copy over any dependencies that are also tracked.
                                    ComponentCache.Entry oldEntry = cache?.GetEntryAll(value);
                                    if (oldEntry != null && oldEntry.Dependencies != null && oldEntry.Dependencies.Count > 0)
                                    {
                                        foreach (object dependency in oldEntry.Dependencies)
                                        {
                                            entry.AddDependency(dependency);
                                        }
                                    }
                                }

                                entry.Component = value;
                                // we need to link the cached entry with its corresponding component right away, before it's put in the context
                                // see CodeDomSerializerBase.cs::GetExpression for usage

                                // This entry will only be used if the valid bit is set.
                                // This is useful because we still need to setup depedency relationships
                                // between components even if they are not cached.  See VSWhidbey 263053.
                                bool correctManager = manager == mainManager;
                                entry.Valid = correctManager && CanCacheComponent(manager, value, props);

                                if (correctManager && cache != null && cache.Enabled)
                                {
                                    manager.Context.Push(cache);
                                    manager.Context.Push(entry);
                                }

                                try
                                {
                                    entry.Statements = new CodeStatementCollection();
                                    SerializeProperties(manager, entry.Statements, value, _runTimeFilter);
                                    SerializeEvents(manager, entry.Statements, value, null);

                                    foreach (CodeStatement statement in entry.Statements)
                                    {
                                        if (statement is CodeVariableDeclarationStatement local)
                                        {
                                            entry.Tracking = true;
                                            break;
                                        }
                                    }

                                    if (entry.Statements.Count > 0)
                                    {
                                        // if we added some statements, insert the comments
                                        //
                                        entry.Statements.Insert(0, new CodeCommentStatement(string.Empty));
                                        entry.Statements.Insert(0, new CodeCommentStatement(name));
                                        entry.Statements.Insert(0, new CodeCommentStatement(string.Empty));

                                        //
                                        // cache the statements for future usage if possible. We only do this for the main serialization manager, not
                                        // for any other seriallization managers that may be calling us for undo or clipboard functions.
                                        if (correctManager && cache != null && cache.Enabled)
                                        {
                                            cache[value] = entry;
                                        }
                                    }
                                }
                                finally
                                {
                                    if (correctManager && cache != null && cache.Enabled)
                                    {
                                        Debug.Assert(manager.Context.Current == entry, "Context stack corrupted");
                                        manager.Context.Pop();
                                        manager.Context.Pop();
                                    }
                                }
                            }
                            else
                            {
                                // If we got a cache entry, we will need to take all the resources out of
                                // it and apply them too.
                                if ((entry.Resources != null || entry.Metadata != null) && cache != null && cache.Enabled)
                                {
                                    ResourceCodeDomSerializer res = ResourceCodeDomSerializer.Default;
                                    res.ApplyCacheEntry(manager, entry);
                                }
                            }

                            // Regarless, apply statements.  Either we created them or we got them
                            // out of the cache.
                            statements.AddRange(entry.Statements);

                            if (persistSettings)
                            {
                                SerializeLoadComponentSettings(manager, statements, assignLhs, value);
                            }

                            if (supportInitialize)
                            {
                                SerializeSupportInitialize(manager, statements, assignLhs, value, "EndInit");
                            }
                        }
                    }
Esempio n. 25
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 public CodeIndexerExpression CreateMemberGetter(CodeFieldReferenceExpression regRef, string paramName)
 {
     return(new CodeIndexerExpression(regRef, new CodeArgumentReferenceExpression(paramName)));
 }
        public override object Serialize(IDesignerSerializationManager manager, object value)
        {
            CodeStatementCollection      statements = null;
            PropertyDescriptorCollection properties = TypeDescriptor.GetProperties(value);

            using (CodeDomSerializerBase.TraceScope("ComponentCodeDomSerializer::Serialize"))
            {
                if ((manager == null) || (value == null))
                {
                    throw new ArgumentNullException((manager == null) ? "manager" : "value");
                }
                if (base.IsSerialized(manager, value))
                {
                    return(base.GetExpression(manager, value));
                }
                InheritanceLevel     notInherited = InheritanceLevel.NotInherited;
                InheritanceAttribute attribute    = (InheritanceAttribute)TypeDescriptor.GetAttributes(value)[typeof(InheritanceAttribute)];
                if (attribute != null)
                {
                    notInherited = attribute.InheritanceLevel;
                }
                if (notInherited == InheritanceLevel.InheritedReadOnly)
                {
                    return(statements);
                }
                statements = new CodeStatementCollection();
                CodeTypeDeclaration declaration = manager.Context[typeof(CodeTypeDeclaration)] as CodeTypeDeclaration;
                RootContext         context     = manager.Context[typeof(RootContext)] as RootContext;
                CodeExpression      left        = null;
                bool flag  = false;
                bool flag2 = true;
                bool flag3 = true;
                bool flag4 = false;
                left = base.GetExpression(manager, value);
                if (left != null)
                {
                    flag  = false;
                    flag2 = false;
                    flag3 = false;
                    IComponent component = value as IComponent;
                    if ((component != null) && (component.Site == null))
                    {
                        ExpressionContext context2 = manager.Context[typeof(ExpressionContext)] as ExpressionContext;
                        if ((context2 == null) || (context2.PresetValue != value))
                        {
                            flag4 = true;
                        }
                    }
                }
                else
                {
                    if (notInherited == InheritanceLevel.NotInherited)
                    {
                        PropertyDescriptor descriptor = properties["GenerateMember"];
                        if (((descriptor != null) && (descriptor.PropertyType == typeof(bool))) && !((bool)descriptor.GetValue(value)))
                        {
                            flag  = true;
                            flag2 = false;
                        }
                    }
                    else
                    {
                        flag3 = false;
                    }
                    if (context == null)
                    {
                        flag  = true;
                        flag2 = false;
                    }
                }
                manager.Context.Push(value);
                manager.Context.Push(statements);
                try
                {
                    try
                    {
                        string name      = manager.GetName(value);
                        string className = TypeDescriptor.GetClassName(value);
                        if ((flag2 || flag) && (name != null))
                        {
                            if (flag2)
                            {
                                if (notInherited == InheritanceLevel.NotInherited)
                                {
                                    MemberAttributes   @private;
                                    CodeMemberField    field       = new CodeMemberField(className, name);
                                    PropertyDescriptor descriptor2 = properties["Modifiers"];
                                    if (descriptor2 == null)
                                    {
                                        descriptor2 = properties["DefaultModifiers"];
                                    }
                                    if ((descriptor2 != null) && (descriptor2.PropertyType == typeof(MemberAttributes)))
                                    {
                                        @private = (MemberAttributes)descriptor2.GetValue(value);
                                    }
                                    else
                                    {
                                        @private = MemberAttributes.Private;
                                    }
                                    field.Attributes = @private;
                                    declaration.Members.Add(field);
                                }
                                left = new CodeFieldReferenceExpression(context.Expression, name);
                            }
                            else
                            {
                                if (notInherited == InheritanceLevel.NotInherited)
                                {
                                    CodeVariableDeclarationStatement statement = new CodeVariableDeclarationStatement(className, name);
                                    statements.Add(statement);
                                }
                                left = new CodeVariableReferenceExpression(name);
                            }
                        }
                        if (flag3)
                        {
                            CodeExpression  expression2;
                            IContainer      service = manager.GetService(typeof(IContainer)) as IContainer;
                            ConstructorInfo info    = null;
                            if (service != null)
                            {
                                info = CodeDomSerializerBase.GetReflectionTypeHelper(manager, value).GetConstructor(BindingFlags.ExactBinding | BindingFlags.Public | BindingFlags.Instance | BindingFlags.DeclaredOnly, null, this.GetContainerConstructor(manager), null);
                            }
                            if (info != null)
                            {
                                expression2 = new CodeObjectCreateExpression(className, new CodeExpression[] { base.SerializeToExpression(manager, service) });
                            }
                            else
                            {
                                bool flag5;
                                expression2 = base.SerializeCreationExpression(manager, value, out flag5);
                            }
                            if (expression2 != null)
                            {
                                if (left == null)
                                {
                                    if (flag4)
                                    {
                                        left = expression2;
                                    }
                                }
                                else
                                {
                                    CodeAssignStatement statement2 = new CodeAssignStatement(left, expression2);
                                    statements.Add(statement2);
                                }
                            }
                        }
                        if (left != null)
                        {
                            base.SetExpression(manager, value, left);
                        }
                        if ((left != null) && !flag4)
                        {
                            bool flag6 = value is ISupportInitialize;
                            if (flag6)
                            {
                                string fullName = typeof(ISupportInitialize).FullName;
                                flag6 = manager.GetType(fullName) != null;
                            }
                            Type c = null;
                            if (flag6)
                            {
                                c     = CodeDomSerializerBase.GetReflectionTypeHelper(manager, value);
                                flag6 = CodeDomSerializerBase.GetReflectionTypeFromTypeHelper(manager, typeof(ISupportInitialize)).IsAssignableFrom(c);
                            }
                            bool flag7 = (value is IPersistComponentSettings) && ((IPersistComponentSettings)value).SaveSettings;
                            if (flag7)
                            {
                                string typeName = typeof(IPersistComponentSettings).FullName;
                                flag7 = manager.GetType(typeName) != null;
                            }
                            if (flag7)
                            {
                                c     = c ?? CodeDomSerializerBase.GetReflectionTypeHelper(manager, value);
                                flag7 = CodeDomSerializerBase.GetReflectionTypeFromTypeHelper(manager, typeof(IPersistComponentSettings)).IsAssignableFrom(c);
                            }
                            IDesignerSerializationManager manager2 = (IDesignerSerializationManager)manager.GetService(typeof(IDesignerSerializationManager));
                            if (flag6)
                            {
                                this.SerializeSupportInitialize(manager, statements, left, value, "BeginInit");
                            }
                            base.SerializePropertiesToResources(manager, statements, value, _designTimeFilter);
                            ComponentCache       serviceInstance = (ComponentCache)manager.GetService(typeof(ComponentCache));
                            ComponentCache.Entry entry           = null;
                            if (serviceInstance == null)
                            {
                                IServiceContainer container2 = (IServiceContainer)manager.GetService(typeof(IServiceContainer));
                                if (container2 != null)
                                {
                                    serviceInstance = new ComponentCache(manager);
                                    container2.AddService(typeof(ComponentCache), serviceInstance);
                                }
                            }
                            else if (((manager == manager2) && (serviceInstance != null)) && serviceInstance.Enabled)
                            {
                                entry = serviceInstance[value];
                            }
                            if ((entry == null) || entry.Tracking)
                            {
                                if (entry == null)
                                {
                                    entry = new ComponentCache.Entry(serviceInstance);
                                    ComponentCache.Entry entryAll = null;
                                    entryAll = serviceInstance.GetEntryAll(value);
                                    if (((entryAll != null) && (entryAll.Dependencies != null)) && (entryAll.Dependencies.Count > 0))
                                    {
                                        foreach (object obj2 in entryAll.Dependencies)
                                        {
                                            entry.AddDependency(obj2);
                                        }
                                    }
                                }
                                entry.Component = value;
                                bool flag8 = manager == manager2;
                                entry.Valid = flag8 && this.CanCacheComponent(manager, value, properties);
                                if ((flag8 && (serviceInstance != null)) && serviceInstance.Enabled)
                                {
                                    manager.Context.Push(serviceInstance);
                                    manager.Context.Push(entry);
                                }
                                try
                                {
                                    entry.Statements = new CodeStatementCollection();
                                    base.SerializeProperties(manager, entry.Statements, value, _runTimeFilter);
                                    base.SerializeEvents(manager, entry.Statements, value, null);
                                    foreach (CodeStatement statement3 in entry.Statements)
                                    {
                                        if (statement3 is CodeVariableDeclarationStatement)
                                        {
                                            entry.Tracking = true;
                                            break;
                                        }
                                    }
                                    if (entry.Statements.Count > 0)
                                    {
                                        entry.Statements.Insert(0, new CodeCommentStatement(string.Empty));
                                        entry.Statements.Insert(0, new CodeCommentStatement(name));
                                        entry.Statements.Insert(0, new CodeCommentStatement(string.Empty));
                                        if ((flag8 && (serviceInstance != null)) && serviceInstance.Enabled)
                                        {
                                            serviceInstance[value] = entry;
                                        }
                                    }
                                }
                                finally
                                {
                                    if ((flag8 && (serviceInstance != null)) && serviceInstance.Enabled)
                                    {
                                        manager.Context.Pop();
                                        manager.Context.Pop();
                                    }
                                }
                            }
                            else if (((entry.Resources != null) || (entry.Metadata != null)) && ((serviceInstance != null) && serviceInstance.Enabled))
                            {
                                ResourceCodeDomSerializer.Default.ApplyCacheEntry(manager, entry);
                            }
                            statements.AddRange(entry.Statements);
                            if (flag7)
                            {
                                this.SerializeLoadComponentSettings(manager, statements, left, value);
                            }
                            if (flag6)
                            {
                                this.SerializeSupportInitialize(manager, statements, left, value, "EndInit");
                            }
                        }
                        return(statements);
                    }
                    catch (CheckoutException)
                    {
                        throw;
                    }
                    catch (Exception exception)
                    {
                        manager.ReportError(exception);
                    }
                    return(statements);
                }
                finally
                {
                    manager.Context.Pop();
                    manager.Context.Pop();
                }
            }
            return(statements);
        }
Esempio n. 27
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        public static void GenerateRepositoryGetByIdentityMethod(IClassMap classMap, CodeTypeDeclaration classDecl, bool tryMethod)
        {
            IList propertyMaps = classMap.GetIdentityPropertyMaps();

            CodeMemberMethod methodMember = new CodeMemberMethod();

            if (tryMethod)
            {
                methodMember.Name = GetRepositoryGetByIdentityMethodName(classMap);
            }
            else
            {
                methodMember.Name = GetRepositoryTryGetByIdentityMethodName(classMap);
            }

            CodeTypeReference typeReference = new CodeTypeReference(classMap.GetName());

            methodMember.ReturnType = typeReference;

            methodMember.Attributes = MemberAttributes.Public;

            foreach (IPropertyMap propertyMap in propertyMaps)
            {
                CodeParameterDeclarationExpression parameter = new CodeParameterDeclarationExpression(new CodeTypeReference(propertyMap.DataType), MakeCamelCase(propertyMap.Name));
                methodMember.Parameters.Add(parameter);
            }

            CodeThisReferenceExpression  thisExp    = new CodeThisReferenceExpression();
            CodeFieldReferenceExpression contextVar = new CodeFieldReferenceExpression(thisExp, "context");

            CodeVariableDeclarationStatement dummyObjectVarDecl = new CodeVariableDeclarationStatement(classMap.GetName(), "identityObject");
            CodeVariableReferenceExpression  dummyObjectVar     = new CodeVariableReferenceExpression("identityObject");

            CodeObjectCreateExpression dummyObjectCreateExpr = new CodeObjectCreateExpression(typeReference, new CodeExpression[] {});

            CodeAssignStatement assignDummyStatement = new CodeAssignStatement(dummyObjectVar, dummyObjectCreateExpr);

            methodMember.Statements.Add(dummyObjectVarDecl);
            methodMember.Statements.Add(assignDummyStatement);

            foreach (IPropertyMap propertyMap in propertyMaps)
            {
                CodeArgumentReferenceExpression argExp          = new CodeArgumentReferenceExpression(MakeCamelCase(propertyMap.Name));
                CodeVariableReferenceExpression propExp         = new CodeVariableReferenceExpression("identityObject" + "." + propertyMap.Name);
                CodeAssignStatement             assignStatement = new CodeAssignStatement(propExp, argExp);
                methodMember.Statements.Add(assignStatement);
            }

            CodeTypeOfExpression       typeOfExp     = new CodeTypeOfExpression(typeReference);
            CodeMethodInvokeExpression newObjectInit = null;

            if (tryMethod)
            {
                newObjectInit = new CodeMethodInvokeExpression(contextVar, "GetObjectById", new CodeExpression[] { dummyObjectVar, typeOfExp });
            }
            else
            {
                newObjectInit = new CodeMethodInvokeExpression(contextVar, "TryGetObjectById", new CodeExpression[] { dummyObjectVar, typeOfExp });
            }

            CodeCastExpression castExp = new CodeCastExpression(typeReference, newObjectInit);

            CodeVariableDeclarationStatement newObjectVarDecl = new CodeVariableDeclarationStatement(classMap.GetName(), MakeCamelCase(classMap.GetName()), castExp);
            CodeVariableReferenceExpression  newObjectVar     = new CodeVariableReferenceExpression(MakeCamelCase(classMap.GetName()));

            methodMember.Statements.Add(newObjectVarDecl);


            CodeMethodReturnStatement returnStmt = new CodeMethodReturnStatement(newObjectVar);

            methodMember.Statements.Add(returnStmt);

            classDecl.Members.Add(methodMember);
        }
            private void CodeDomProducer_CodeDomProduction(object sender, CodeDomProductionEventArgs e)
            {
                if (e.EventType == CodeDomProductionEventType.UnitsProducing)
                {
                    if (e.Argument == null)
                    {
                        return;
                    }

                    foreach (var entity in Project.Entities)
                    {
                        if (!entity.GetAttributeValue("enabled", NamespaceUri, true))
                        {
                            continue;
                        }

                        CodeTypeDeclaration typeDeclaration = _codeDomProducer.GetType(entity);
                        if (typeDeclaration == null)
                        {
                            continue;
                        }

                        // Class
                        var    jsonObjectAttribute = new CodeAttributeDeclaration("Newtonsoft.Json.JsonObjectAttribute");
                        string optMode             = entity.GetAttributeValue("optMode", NamespaceUri, "OptIn");
                        if (optMode != null)
                        {
                            var memberSerialization = new CodeFieldReferenceExpression(new CodeTypeReferenceExpression("Newtonsoft.Json.MemberSerialization"), optMode);
                            jsonObjectAttribute.Arguments.Add(new CodeAttributeArgument("MemberSerialization", memberSerialization));
                        }
                        CodeDomUtilities.EnsureAttribute(typeDeclaration, jsonObjectAttribute, true);

                        // Properties
                        foreach (CodeTypeMember member in typeDeclaration.Members)
                        {
                            PropertyDefinition propertyDefinition = null;

                            CodeMemberProperty memberProperty = member as CodeMemberProperty;
                            if (memberProperty != null)
                            {
                                propertyDefinition = UserData.GetPropertyDefinition(memberProperty);
                            }

                            Property property = null;
                            if (propertyDefinition != null && propertyDefinition.Property != null)
                            {
                                property = propertyDefinition.Property;
                                if (!property.GetAttributeValue("enabled", NamespaceUri, true))
                                {
                                    continue;
                                }
                            }
                            else
                            {
                                if (!entity.GetAttributeValue("enabledForNonModelProperties", NamespaceUri, true))
                                {
                                    continue;
                                }
                            }

                            bool?serialized = null;
                            if (property != null)
                            {
                                serialized = property.GetAttributeValue("includeInSerialization", NamespaceUri, (bool?)null);
                            }

                            if (serialized == null)
                            {
                                //[System.NonSerializedAttribute()] => false
                                //[System.Xml.Serialization.XmlIgnoreAttribute()] => false
                                //[System.Runtime.Serialization.DataMemberAttribute()] => true

                                if (CodeDomUtilities.GetAttribute(member, typeof(NonSerializedAttribute)) != null)
                                {
                                    serialized = false;
                                }
                                else if (CodeDomUtilities.GetAttribute(member, typeof(XmlIgnoreAttribute)) != null)
                                {
                                    serialized = false;
                                }
                                else if (CodeDomUtilities.GetAttribute(member, typeof(DataMemberAttribute)) != null)
                                {
                                    serialized = true;
                                }
                                else if (CodeDomUtilities.GetAttribute(member, typeof(XmlAttribute)) != null)
                                {
                                    serialized = true;
                                }
                                else if (CodeDomUtilities.GetAttribute(member, typeof(XmlElementAttribute)) != null)
                                {
                                    serialized = true;
                                }
                                else if (property != null)
                                {
                                    serialized = property.IsIncludedInSerialization;
                                }
                            }

                            // [JsonIgnore] or [JsonProperty]
                            if (serialized != null)
                            {
                                var jsonPropertyAttribute = new CodeAttributeDeclaration();
                                jsonPropertyAttribute.Name = serialized == true ? "Newtonsoft.Json.JsonPropertyAttribute" : "Newtonsoft.Json.JsonIgnoreAttribute";
                                CodeDomUtilities.EnsureAttribute(member, jsonPropertyAttribute, true);
                            }
                        }
                    }
                }
            }
 protected override void GenerateFieldReferenceExpression(CodeFieldReferenceExpression e)
 {
 }
Esempio n. 30
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            private void GenerateOnParentChangedMethod(IReference input, CodeMemberProperty property, ITransformationContext context)
            {
                var onParentChanged = new CodeMemberMethod()
                {
                    Name       = "OnParentChanged",
                    Attributes = MemberAttributes.Family | MemberAttributes.Override,
                    ReturnType = new CodeTypeReference(typeof(void))
                };

                onParentChanged.Parameters.Add(new CodeParameterDeclarationExpression(typeof(IModelElement).ToTypeReference(), "newParent"));
                onParentChanged.Parameters.Add(new CodeParameterDeclarationExpression(typeof(IModelElement).ToTypeReference(), "oldParent"));

                var appendix = property.Name;

                if (appendix == "Parent")
                {
                    appendix += "Reference";
                }
                var oldElementVar = new CodeVariableReferenceExpression("old" + appendix);
                var newElementVar = new CodeVariableReferenceExpression("new" + appendix);

                var castRef = new CodeMethodReferenceExpression(new CodeTypeReferenceExpression(typeof(ModelHelper).ToTypeReference()), "CastAs", property.Type);
                var nullRef = new CodePrimitiveExpression(null);
                var thisRef = new CodeThisReferenceExpression();

                onParentChanged.Statements.Add(new CodeVariableDeclarationStatement(property.Type, oldElementVar.VariableName,
                                                                                    new CodeMethodInvokeExpression(castRef, new CodeArgumentReferenceExpression("oldParent"))));
                onParentChanged.Statements.Add(new CodeVariableDeclarationStatement(property.Type, newElementVar.VariableName,
                                                                                    new CodeMethodInvokeExpression(castRef, new CodeArgumentReferenceExpression("newParent"))));

                CodeStatement unsetOld;
                CodeStatement setNew;

                string oppositeName = context.Trace.ResolveIn(this, input.Opposite).Name;

                if (input.Opposite.UpperBound == 1)
                {
                    unsetOld = new CodeAssignStatement(new CodePropertyReferenceExpression(oldElementVar, oppositeName), nullRef);
                    setNew   = new CodeAssignStatement(new CodePropertyReferenceExpression(newElementVar, oppositeName), thisRef);
                }
                else
                {
                    unsetOld = new CodeExpressionStatement(new CodeMethodInvokeExpression(
                                                               new CodePropertyReferenceExpression(oldElementVar, oppositeName), "Remove", thisRef));
                    setNew = new CodeExpressionStatement(new CodeMethodInvokeExpression(
                                                             new CodePropertyReferenceExpression(newElementVar, oppositeName), "Add", thisRef));
                }

                onParentChanged.Statements.Add(new CodeConditionStatement(
                                                   new CodeBinaryOperatorExpression(oldElementVar, CodeBinaryOperatorType.IdentityInequality, nullRef), unsetOld));
                onParentChanged.Statements.Add(new CodeConditionStatement(
                                                   new CodeBinaryOperatorExpression(newElementVar, CodeBinaryOperatorType.IdentityInequality, nullRef), setNew));

                var valueChangedEvArgs = typeof(ValueChangedEventArgs).ToTypeReference();
                var valueChangeDef     = new CodeVariableDeclarationStatement(valueChangedEvArgs, "e",
                                                                              new CodeObjectCreateExpression(valueChangedEvArgs, oldElementVar, newElementVar));
                var valueChangeRef = new CodeVariableReferenceExpression(valueChangeDef.Name);

                onParentChanged.Statements.Add(valueChangeDef);
                var referenceRef = new CodeFieldReferenceExpression(null, "_" + input.Name.ToCamelCase() + "Reference");

                onParentChanged.Statements.Add(property.CreateOnChangedEventPattern(valueChangedEvArgs, valueChangeRef));
                onParentChanged.Statements.Add(new CodeMethodInvokeExpression(new CodeThisReferenceExpression(), "OnPropertyChanged",
                                                                              new CodePrimitiveExpression(property.Name), valueChangeRef, referenceRef));

                onParentChanged.Statements.Add(new CodeMethodInvokeExpression(new CodeBaseReferenceExpression(),
                                                                              onParentChanged.Name, new CodeArgumentReferenceExpression("newParent"), new CodeArgumentReferenceExpression("oldParent")));

                onParentChanged.WriteDocumentation("Gets called when the parent model element of the current model element changes",
                                                   null, new Dictionary <string, string>()
                {
                    {
                        "oldParent", "The old parent model element"
                    },
                    {
                        "newParent", "The new parent model element"
                    }
                });

                onParentChanged.SetMerge(other =>
                {
                    var mergedOnParent = new CodeMemberMethod()
                    {
                        Name       = "OnParentChanged",
                        Attributes = MemberAttributes.Family | MemberAttributes.Override,
                        ReturnType = new CodeTypeReference(typeof(void))
                    };
                    for (int i = 0; i < onParentChanged.Parameters.Count; i++)
                    {
                        mergedOnParent.Parameters.Add(onParentChanged.Parameters[i]);
                    }
                    var otherCasted = other as CodeMemberMethod;
                    mergedOnParent.Statements.AddRange(otherCasted.Statements);
                    mergedOnParent.Statements.RemoveAt(mergedOnParent.Statements.Count - 1);
                    mergedOnParent.Statements.AddRange(onParentChanged.Statements);
                    mergedOnParent.Statements.Remove(valueChangeDef);
                    return(mergedOnParent);
                });

                property.DependentMembers(true).Add(onParentChanged);
            }
Esempio n. 31
0
        Tuple <CodeTypeDeclaration, CodeTypeDeclaration> GenerateFunctionType(XPathFunctionInfo[] functions)
        {
            XPathFunctionInfo first           = functions.First();
            XPathFunctionInfo leastParameters = functions.OrderBy(f => f.Parameters.Count).First();
            XPathFunctionInfo mostParameters  = functions.OrderByDescending(f => f.Parameters.Count).First();
            XPathModuleInfo   module          = first.Module;
            int minArgs = leastParameters.Parameters.Count;
            int maxArgs = mostParameters.Parameters.Count;

            CodeExpression thisRef = new CodeThisReferenceExpression();

            var processorField = new CodeMemberField {
                Name = "_processor",
                Type = new CodeTypeReference(typeof(SaxonProcessor))
            };

            var funcNameField = new CodeMemberField {
                Name           = "_FunctionName",
                Type           = new CodeTypeReference(typeof(QName)),
                InitExpression = new CodeObjectCreateExpression(
                    typeof(QName),
                    new CodePrimitiveExpression(module.Namespace),
                    new CodePrimitiveExpression(first.Name)
                    )
            };

            var argTypesField = new CodeMemberField {
                Name           = "_ArgumentTypes",
                Type           = new CodeTypeReference(typeof(XdmSequenceType[])),
                InitExpression = new CodeArrayCreateExpression(
                    typeof(XdmSequenceType),
                    mostParameters.Parameters.Select(p =>
                                                     new CodeObjectCreateExpression(
                                                         typeof(XdmSequenceType),
                                                         GetXdmItemTypeExpression(p.Type.ItemType),
                                                         new CodePrimitiveExpression(GetOcurrenceIndicator(p.Type.Cardinality))
                                                         )).ToArray()
                    )
            };

            var resultTypesField = new CodeMemberField {
                Name = "_resultTypes",
                Type = new CodeTypeReference(typeof(XdmSequenceType[]))
            };

            var resultTypesFieldInit = new CodeArrayCreateExpression {
                CreateType = resultTypesField.Type,
                Size       = functions.Length
            };

            for (int i = 0; i < functions.Length; i++)
            {
                XPathFunctionInfo function = functions[i];

                resultTypesFieldInit.Initializers.Add(

                    // Using item()? instead of empty-sequence()

                    (function.ReturnType.IsEmptySequence) ?

                    new CodeObjectCreateExpression(
                        typeof(XdmSequenceType),
                        new CodeFieldReferenceExpression(
                            new CodeTypeReferenceExpression(typeof(XdmAnyItemType)),
                            "Instance"
                            ),
                        new CodePrimitiveExpression(GetOcurrenceIndicator(XPathSequenceCardinality.ZeroOrOne))
                        )

                  : new CodeObjectCreateExpression(
                        typeof(XdmSequenceType),
                        GetXdmItemTypeExpression(function.ReturnType.ItemType),
                        new CodePrimitiveExpression(GetOcurrenceIndicator(function.ReturnType.Cardinality))
                        )
                    );
            }

            resultTypesField.InitExpression = resultTypesFieldInit;

            var defClass = new CodeTypeDeclaration {
                Name       = first.Method.Name + "Function",
                Attributes = MemberAttributes.Public,
                BaseTypes  = { typeof(ExtensionFunctionDefinition) },
                Members    =
                {
                    processorField,
                    funcNameField,
                    argTypesField,
                    resultTypesField,
                    new CodeConstructor {
                        Attributes = MemberAttributes.Public,
                        Parameters =
                        {
                            new CodeParameterDeclarationExpression(processorField.Type,            "processor")
                        },
                        Statements =
                        {
                            new CodeAssignStatement(
                                new CodeFieldReferenceExpression(thisRef, processorField.Name),
                                new CodeVariableReferenceExpression("processor")
                                )
                        }
                    },
                    new CodeMemberProperty {
                        Name          = "FunctionName",
                        Type          = funcNameField.Type,
                        Attributes    = MemberAttributes.Public | MemberAttributes.Override,
                        HasGet        = true,
                        GetStatements =
                        {
                            new CodeMethodReturnStatement(new CodeFieldReferenceExpression(thisRef,funcNameField.Name))
                        }
                    },
                    new CodeMemberProperty {
                        Name          = "ArgumentTypes",
                        Type          = argTypesField.Type,
                        Attributes    = MemberAttributes.Public | MemberAttributes.Override,
                        HasGet        = true,
                        GetStatements =
                        {
                            new CodeMethodReturnStatement(new CodeFieldReferenceExpression(thisRef,argTypesField.Name))
                        }
                    },
                    new CodeMemberProperty {
                        Name          = "MaximumNumberOfArguments",
                        Type          = new CodeTypeReference(typeof(int)),
                        Attributes    = MemberAttributes.Public | MemberAttributes.Override,
                        HasGet        = true,
                        GetStatements =
                        {
                            new CodeMethodReturnStatement(new CodePrimitiveExpression(maxArgs))
                        }
                    },
                    new CodeMemberProperty {
                        Name          = "MinimumNumberOfArguments",
                        Type          = new CodeTypeReference(typeof(int)),
                        Attributes    = MemberAttributes.Public | MemberAttributes.Override,
                        HasGet        = true,
                        GetStatements =
                        {
                            new CodeMethodReturnStatement(new CodePrimitiveExpression(minArgs))
                        }
                    },
                    GenerateResultTypeMethod(thisRef,                                              resultTypesField)
                }
            };

            if (first.HasSideEffects)
            {
                defClass.Members.Add(new CodeMemberProperty {
                    Name          = "HasSideEffects",
                    Type          = new CodeTypeReference(typeof(bool)),
                    Attributes    = MemberAttributes.Public | MemberAttributes.Override,
                    HasGet        = true,
                    GetStatements =
                    {
                        new CodeMethodReturnStatement(new CodePrimitiveExpression(true))
                    }
                });
            }

            var callClass = new CodeTypeDeclaration {
                Name       = defClass.Name + "Call",
                Attributes = MemberAttributes.Assembly,
                BaseTypes  =
                {
                    new CodeTypeReference(typeof(ExtensionFunctionCall))
                },
                Members =
                {
                    processorField,
                    new CodeConstructor {
                        Attributes = MemberAttributes.Public,
                        Parameters =
                        {
                            new CodeParameterDeclarationExpression(processorField.Type,"processor")
                        },
                        Statements =
                        {
                            new CodeAssignStatement(
                                new CodeFieldReferenceExpression(thisRef, processorField.Name),
                                new CodeVariableReferenceExpression("processor")
                                )
                        }
                    }
                }
            };

            CodeMemberMethod initializeMethod = null;

            if (!module.TypeIsStatic &&
                module.Dependencies.Count > 0)
            {
                CodeExpression staticBaseUriExpr = null;

                if (module.Dependencies.Any(d => d.Type == typeof(XmlResolver)))
                {
                    var staticBaseUriField = new CodeMemberField {
                        Name = "_staticBaseUri",
                        Type = new CodeTypeReference(typeof(Uri))
                    };

                    callClass.Members.Add(staticBaseUriField);

                    var staticContextParam = new CodeParameterDeclarationExpression(typeof(StaticContext), "context");

                    staticBaseUriExpr = new CodeFieldReferenceExpression(thisRef, staticBaseUriField.Name);

                    callClass.Members.Add(new CodeMemberMethod {
                        Name       = "SupplyStaticContext",
                        Attributes = MemberAttributes.Public | MemberAttributes.Override,
                        Parameters =
                        {
                            staticContextParam
                        },
                        Statements =
                        {
                            new CodeAssignStatement {
                                Left  = staticBaseUriExpr,
                                Right = new CodePropertyReferenceExpression{
                                    PropertyName = "BaseUri",
                                    TargetObject = new CodeVariableReferenceExpression(staticContextParam.Name)
                                }
                            }
                        }
                    });
                }

                initializeMethod = GenerateInitialize(module, new CodeFieldReferenceExpression(thisRef, processorField.Name), staticBaseUriExpr);

                callClass.Members.Add(initializeMethod);
            }

            callClass.Members.Add(GenerateCallMethod(functions, minArgs, maxArgs, new CodeFieldReferenceExpression(thisRef, processorField.Name), initializeMethod));

            defClass.Members.Add(
                new CodeMemberMethod {
                Name       = "MakeFunctionCall",
                Attributes = MemberAttributes.Public | MemberAttributes.Override,
                ReturnType = new CodeTypeReference(typeof(ExtensionFunctionCall)),
                Statements =
                {
                    new CodeMethodReturnStatement(
                        new CodeObjectCreateExpression(
                            callClass.Name,
                            new CodeFieldReferenceExpression(thisRef, processorField.Name)
                            )
                        )
                }
            }
                );

            return(Tuple.Create(defClass, callClass));
        }
Esempio n. 32
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            /// <summary>
            /// Generates the set statements of a normal reference
            /// </summary>
            /// <param name="property">The NMeta reference</param>
            /// <param name="codeProperty">The generated code property</param>
            /// <param name="fieldReference">A reference to the backening field</param>
            /// <remarks>Normal means in this case that the reference is not an overridden container reference</remarks>
            protected virtual void GenerateSetStatement(IReference property, CodeMemberProperty codeProperty, CodeExpression fieldReference, ITransformationContext context)
            {
                var ifStmt = new CodeConditionStatement();
                var val    = new CodePropertySetValueReferenceExpression();

                ifStmt.Condition = new CodeBinaryOperatorExpression(fieldReference, CodeBinaryOperatorType.IdentityInequality, val);

                var assignment = new CodeAssignStatement(fieldReference, val);

                var oldDef = new CodeVariableDeclarationStatement(codeProperty.Type, "old", fieldReference);
                var oldRef = new CodeVariableReferenceExpression("old");

                ifStmt.TrueStatements.Add(oldDef);

                var valueChangeTypeRef = typeof(ValueChangedEventArgs).ToTypeReference();
                var valueChangeDef     = new CodeVariableDeclarationStatement(valueChangeTypeRef, "e",
                                                                              new CodeObjectCreateExpression(typeof(ValueChangedEventArgs).ToTypeReference(), oldRef, val));
                var valueChangeRef = new CodeVariableReferenceExpression(valueChangeDef.Name);

                ifStmt.TrueStatements.Add(valueChangeDef);

                var referenceRef = new CodeFieldReferenceExpression(null, "_" + property.Name.ToCamelCase() + "Reference");

                ifStmt.TrueStatements.Add(codeProperty.CreateOnChangingEventPattern(typeof(ValueChangedEventArgs).ToTypeReference(), valueChangeRef));
                ifStmt.TrueStatements.Add(new CodeMethodInvokeExpression(new CodeThisReferenceExpression(), "OnPropertyChanging",
                                                                         new CodePrimitiveExpression(codeProperty.Name), valueChangeRef, referenceRef));

                var targetClass  = property.Type;
                var nullRef      = new CodePrimitiveExpression(null);
                var thisRef      = new CodeThisReferenceExpression();
                var oldNotNull   = new CodeBinaryOperatorExpression(oldRef, CodeBinaryOperatorType.IdentityInequality, nullRef);
                var valueNotNull = new CodeBinaryOperatorExpression(val, CodeBinaryOperatorType.IdentityInequality, nullRef);

                ifStmt.TrueStatements.Add(assignment);

                var oldCheck = new CodeConditionStatement(oldNotNull);
                var newCheck = new CodeConditionStatement(valueNotNull);

                if (property.Opposite != null)
                {
                    var oppositeName = context.Trace.ResolveIn(this, property.Opposite).Name;
                    var oldOpposite  = new CodePropertyReferenceExpression(oldRef, oppositeName);
                    var valOpposite  = new CodePropertyReferenceExpression(val, oppositeName);

                    if (property.Opposite.UpperBound == 1)
                    {
                        oldCheck.TrueStatements.Add(new CodeAssignStatement(oldOpposite, nullRef));

                        newCheck.TrueStatements.Add(new CodeAssignStatement(valOpposite, thisRef));
                    }
                    else
                    {
                        oldCheck.TrueStatements.Add(new CodeMethodInvokeExpression(oldOpposite, "Remove", thisRef));

                        var addThis = new CodeMethodInvokeExpression(valOpposite, "Add", thisRef);
                        if (property.Opposite.IsUnique)
                        {
                            newCheck.TrueStatements.Add(addThis);
                        }
                        else
                        {
                            var ifNotContains = new CodeConditionStatement(new CodeBinaryOperatorExpression(
                                                                               new CodeMethodInvokeExpression(valOpposite, "Contains", thisRef), CodeBinaryOperatorType.IdentityInequality, new CodePrimitiveExpression(true)));

                            ifNotContains.TrueStatements.Add(addThis);
                            newCheck.TrueStatements.Add(ifNotContains);
                        }
                    }

                    if (property.Opposite.IsContainment)
                    {
                        ifStmt.TrueStatements.Add(new CodeAssignStatement(new CodePropertyReferenceExpression(thisRef, "Parent"), val));
                    }
                }

                if (property.IsContainment)
                {
                    oldCheck.TrueStatements.Add(new CodeAssignStatement(new CodePropertyReferenceExpression(oldRef, "Parent"), nullRef));
                    newCheck.TrueStatements.Add(new CodeAssignStatement(new CodePropertyReferenceExpression(val, "Parent"), thisRef));
                }

                if (!(property.Opposite?.IsContainment).GetValueOrDefault(false))
                {
                    var resetEvent = property.IsContainment ? "ParentChanged" : "Deleted";

                    oldCheck.TrueStatements.Add(new CodeRemoveEventStatement(
                                                    new CodeEventReferenceExpression(oldRef, resetEvent),
                                                    new CodeMethodReferenceExpression(thisRef, "OnReset" + codeProperty.Name)));

                    newCheck.TrueStatements.Add(new CodeAttachEventStatement(
                                                    new CodeEventReferenceExpression(val, resetEvent),
                                                    new CodeMethodReferenceExpression(thisRef, "OnReset" + codeProperty.Name)));
                }

                ifStmt.TrueStatements.Add(oldCheck);
                ifStmt.TrueStatements.Add(newCheck);


                ifStmt.TrueStatements.Add(codeProperty.CreateOnChangedEventPattern(typeof(ValueChangedEventArgs).ToTypeReference(),
                                                                                   valueChangeRef));

                ifStmt.TrueStatements.Add(new CodeMethodInvokeExpression(new CodeThisReferenceExpression(), "OnPropertyChanged",
                                                                         new CodePrimitiveExpression(codeProperty.Name), valueChangeRef, referenceRef));

                codeProperty.SetStatements.Add(ifStmt);
                codeProperty.HasSet = true;
            }
Esempio n. 33
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        protected override CodeTypeDeclaration BeginClass()
        {
            soapBinding = (SoapBinding)Binding.Extensions.Find(typeof(SoapBinding));

            CodeTypeDeclaration codeClass = new CodeTypeDeclaration(ClassName);

            codeClass.IsPartial = true;

            string location = null;

            if (Port != null)
            {
                SoapAddressBinding sab = (SoapAddressBinding)Port.Extensions.Find(typeof(SoapAddressBinding));
                if (sab != null)
                {
                    location = sab.Location;
                }
            }

            string namspace = (Port != null ? Port.Binding.Namespace : Binding.ServiceDescription.TargetNamespace);
            string name     = (Port != null ? Port.Name : Binding.Name);

            if (Style == ServiceDescriptionImportStyle.Client)
            {
                CodeTypeReference ctr = new CodeTypeReference("System.Web.Services.Protocols.SoapHttpClientProtocol");
                codeClass.BaseTypes.Add(ctr);
            }
            else
            {
                CodeTypeReference ctr = new CodeTypeReference("System.Web.Services.WebService");
                codeClass.BaseTypes.Add(ctr);
                CodeAttributeDeclaration attws = new CodeAttributeDeclaration("System.Web.Services.WebServiceAttribute");
                attws.Arguments.Add(GetArg("Namespace", namspace));
                AddCustomAttribute(codeClass, attws, true);
            }

            CodeAttributeDeclaration att = new CodeAttributeDeclaration("System.Web.Services.WebServiceBinding");

            att.Arguments.Add(GetArg("Name", name));
            att.Arguments.Add(GetArg("Namespace", namspace));
            AddCustomAttribute(codeClass, att, true);

            if (Style == ServiceDescriptionImportStyle.Client)
            {
                CodeConstructor cc = new CodeConstructor();
                cc.Attributes = MemberAttributes.Public;
                GenerateServiceUrl(location, cc.Statements);

                if (ProtocolName.ToUpper() == "SOAP12")
                {
                    CodeExpression thisSoapVer = new CodeFieldReferenceExpression(new CodeThisReferenceExpression(), "SoapVersion");
                    CodeFieldReferenceExpression soap12Enum =
                        new CodeFieldReferenceExpression(new CodeTypeReferenceExpression(typeof(SoapProtocolVersion)), "Soap12");
                    cc.Statements.Add(new CodeAssignStatement(thisSoapVer, soap12Enum));
                }
                codeClass.Members.Add(cc);
            }

            memberIds       = new CodeIdentifiers();
            headerVariables = new Hashtable();
            return(codeClass);
        }
Esempio n. 34
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        /// <summary>
        /// Creates a class declaration
        /// </summary>
        /// <param name="schema">record schema</param>
        /// <param name="ns">namespace</param>
        /// <returns></returns>
        protected virtual CodeTypeDeclaration processRecord(Schema schema)
        {
            RecordSchema recordSchema = schema as RecordSchema;

            if (null == recordSchema)
            {
                throw new CodeGenException("Unable to cast schema into a record");
            }

            bool isError = recordSchema.Tag == Schema.Type.Error;

            // declare the class
            var ctd = new CodeTypeDeclaration(CodeGenUtil.Instance.Mangle(recordSchema.Name));

            ctd.BaseTypes.Add(isError ? "SpecificException" : "ISpecificRecord");

            ctd.Attributes = MemberAttributes.Public;
            ctd.IsClass    = true;
            ctd.IsPartial  = true;

            if (recordSchema.Documentation != null)
            {
                ctd.Comments.Add(createDocComment(recordSchema.Documentation));
            }

            createSchemaField(schema, ctd, isError);

            // declare Get() to be used by the Writer classes
            var cmmGet = new CodeMemberMethod();

            cmmGet.Name       = "Get";
            cmmGet.Attributes = MemberAttributes.Public;
            cmmGet.ReturnType = new CodeTypeReference("System.Object");
            cmmGet.Parameters.Add(new CodeParameterDeclarationExpression(typeof(int), "fieldPos"));
            StringBuilder getFieldStmt = new StringBuilder("switch (fieldPos)\n\t\t\t{\n");

            // declare Put() to be used by the Reader classes
            var cmmPut = new CodeMemberMethod();

            cmmPut.Name       = "Put";
            cmmPut.Attributes = MemberAttributes.Public;
            cmmPut.ReturnType = new CodeTypeReference(typeof(void));
            cmmPut.Parameters.Add(new CodeParameterDeclarationExpression(typeof(int), "fieldPos"));
            cmmPut.Parameters.Add(new CodeParameterDeclarationExpression("System.Object", "fieldValue"));
            var putFieldStmt = new StringBuilder("switch (fieldPos)\n\t\t\t{\n");

            if (isError)
            {
                cmmGet.Attributes |= MemberAttributes.Override;
                cmmPut.Attributes |= MemberAttributes.Override;
            }

            foreach (Field field in recordSchema.Fields)
            {
                // Determine type of field
                bool   nullibleEnum = false;
                string baseType     = getType(field.Schema, false, ref nullibleEnum);
                var    ctrfield     = new CodeTypeReference(baseType);

                // Create field
                string privFieldName = string.Concat("_", field.Name);
                var    codeField     = new CodeMemberField(ctrfield, privFieldName);
                codeField.Attributes = MemberAttributes.Private;

                // Process field documentation if it exist and add to the field
                CodeCommentStatement propertyComment = null;
                if (!string.IsNullOrEmpty(field.Documentation))
                {
                    propertyComment = createDocComment(field.Documentation);
                    if (null != propertyComment)
                    {
                        codeField.Comments.Add(propertyComment);
                    }
                }

                // Add field to class
                ctd.Members.Add(codeField);

                // Create reference to the field - this.fieldname
                var fieldRef    = new CodeFieldReferenceExpression(new CodeThisReferenceExpression(), privFieldName);
                var mangledName = CodeGenUtil.Instance.Mangle(field.Name);

                // Create field property with get and set methods
                var property = new CodeMemberProperty();
                property.Attributes = MemberAttributes.Public | MemberAttributes.Final;
                property.Name       = mangledName;
                property.Type       = ctrfield;
                property.GetStatements.Add(new CodeMethodReturnStatement(fieldRef));
                property.SetStatements.Add(new CodeAssignStatement(fieldRef, new CodePropertySetValueReferenceExpression()));
                if (null != propertyComment)
                {
                    property.Comments.Add(propertyComment);
                }

                // Add field property to class
                ctd.Members.Add(property);

                // add to Get()
                getFieldStmt.Append("\t\t\tcase ");
                getFieldStmt.Append(field.Pos);
                getFieldStmt.Append(": return this.");
                getFieldStmt.Append(mangledName);
                getFieldStmt.Append(";\n");

                // add to Put()
                putFieldStmt.Append("\t\t\tcase ");
                putFieldStmt.Append(field.Pos);
                putFieldStmt.Append(": this.");
                putFieldStmt.Append(mangledName);

                if (nullibleEnum)
                {
                    putFieldStmt.Append(" = fieldValue == null ? (");
                    putFieldStmt.Append(baseType);
                    putFieldStmt.Append(")null : (");

                    string type = baseType.Remove(0, 16);  // remove System.Nullable<
                    type = type.Remove(type.Length - 1);   // remove >

                    putFieldStmt.Append(type);
                    putFieldStmt.Append(")fieldValue; break;\n");
                }
                else
                {
                    putFieldStmt.Append(" = (");
                    putFieldStmt.Append(baseType);
                    putFieldStmt.Append(")fieldValue; break;\n");
                }
            }

            // end switch block for Get()
            getFieldStmt.Append("\t\t\tdefault: throw new AvroRuntimeException(\"Bad index \" + fieldPos + \" in Get()\");\n\t\t\t}");
            var cseGet = new CodeSnippetExpression(getFieldStmt.ToString());

            cmmGet.Statements.Add(cseGet);
            ctd.Members.Add(cmmGet);

            // end switch block for Put()
            putFieldStmt.Append("\t\t\tdefault: throw new AvroRuntimeException(\"Bad index \" + fieldPos + \" in Put()\");\n\t\t\t}");
            var csePut = new CodeSnippetExpression(putFieldStmt.ToString());

            cmmPut.Statements.Add(csePut);
            ctd.Members.Add(cmmPut);

            string nspace = recordSchema.Namespace;

            if (string.IsNullOrEmpty(nspace))
            {
                throw new CodeGenException("Namespace required for record schema " + recordSchema.Name);
            }
            CodeNamespace codens = addNamespace(nspace);

            codens.Types.Add(ctd);

            return(ctd);
        }
        public static CodeCompileUnit GenerateCompileUnit(ITextTemplatingEngineHost host, ParsedTemplate pt,
                                                          TemplateSettings settings)
        {
            //prep the compile unit
            var ccu      = new CodeCompileUnit();
            var namespac = new CodeNamespace(settings.Namespace);

            ccu.Namespaces.Add(namespac);

            var imports = new Dictionary <string, object> ();

            UnionWith(imports, settings.Imports);
            UnionWith(imports, host.StandardImports);
            foreach (string ns in imports.Keys)
            {
                namespac.Imports.Add(new CodeNamespaceImport(ns));
            }

            //prep the type
            var type = new CodeTypeDeclaration(settings.Name);

            type.IsPartial = true;
            if (!String.IsNullOrEmpty(settings.Inherits))
            {
                type.BaseTypes.Add(new CodeTypeReference(settings.Inherits));
            }
            else
            {
                type.BaseTypes.Add(new CodeTypeReference(typeof(TextTransformation)));
            }
            namespac.Types.Add(type);

            //prep the transform method
            var transformMeth = new CodeMemberMethod()
            {
                Name       = "TransformText",
                ReturnType = new CodeTypeReference(typeof(String)),
                Attributes = MemberAttributes.Public | MemberAttributes.Override
            };

            AddCodeDocComment(transformMeth, @"<summary>
Generates the text output of the transformation.
</summary>

<returns>
A string representing the generated text output of the text template transformation process.
</returns>

<remarks>
The text template transformation process has two steps. In the first step, the text template transformation
engine creates a class that is named the generated transformation class. In the second step, the engine
compiles and executes the generated transformation class, to produce the generated text output. The engine
calls <see cref=""TransformText""/> on the compiled generated transformation class to execute the text
template and generate the text output.
</remarks>");

            //method references that will need to be used multiple times
            var  writeMeth  = new CodeMethodReferenceExpression(new CodeThisReferenceExpression(), "Write");
            bool helperMode = false;

            //build the code from the segments
            foreach (TemplateSegment seg in pt.Content)
            {
                CodeStatement st       = null;
                var           location = new CodeLinePragma(seg.StartLocation.FileName ?? host.TemplateFile, seg.StartLocation.Line);
                switch (seg.Type)
                {
                case SegmentType.Block:
                    if (helperMode)
                    {
                        //TODO: are blocks permitted after helpers?
                        throw new ParserException("Blocks are not permitted after helpers", seg.StartLocation);
                    }
                    st = new CodeSnippetStatement(seg.Text);
                    break;

                case SegmentType.Expression:
                    st = new CodeExpressionStatement(
                        new CodeMethodInvokeExpression(writeMeth, new CodeSnippetExpression(seg.Text)));
                    break;

                case SegmentType.Content:
                    st = new CodeExpressionStatement(new CodeMethodInvokeExpression(writeMeth, new CodePrimitiveExpression(seg.Text)));
                    break;

                case SegmentType.Helper:
                    type.Members.Add(new CodeSnippetTypeMember(seg.Text)
                    {
                        LinePragma = location
                    });
                    helperMode = true;
                    break;

                default:
                    throw new InvalidOperationException();
                }
                if (st != null)
                {
                    if (helperMode)
                    {
                        //convert the statement into a snippet member and attach it to the top level type
                        //TODO: is there a way to do this for languages that use indentation for blocks, e.g. python?
                        using (var writer = new StringWriter()) {
                            settings.Provider.GenerateCodeFromStatement(st, writer, null);
                            type.Members.Add(new CodeSnippetTypeMember(writer.ToString())
                            {
                                LinePragma = location
                            });
                        }
                    }
                    else
                    {
                        st.LinePragma = location;
                        transformMeth.Statements.Add(st);
                        continue;
                    }
                }
            }

            //complete the transform method
            transformMeth.Statements.Add(new CodeMethodReturnStatement(
                                             new CodeMethodInvokeExpression(
                                                 new CodePropertyReferenceExpression(
                                                     new CodeThisReferenceExpression(),
                                                     "GenerationEnvironment"),
                                                 "ToString")));
            type.Members.Add(transformMeth);

            //generate the Host property if needed
            if (settings.HostSpecific)
            {
                var hostField = new CodeMemberField(new CodeTypeReference(typeof(ITextTemplatingEngineHost)), "hostValue");
                hostField.Attributes = (hostField.Attributes & ~MemberAttributes.AccessMask) | MemberAttributes.Private;
                type.Members.Add(hostField);

                var hostProp = new CodeMemberProperty()
                {
                    Name       = "Host",
                    Attributes = MemberAttributes.Public,
                    HasGet     = true,
                    HasSet     = true,
                    Type       = hostField.Type
                };
                var hostFieldRef = new CodeFieldReferenceExpression(new CodeThisReferenceExpression(), "hostValue");
                hostProp.SetStatements.Add(new CodeAssignStatement(hostFieldRef, new CodePropertySetValueReferenceExpression()));
                hostProp.GetStatements.Add(new CodeMethodReturnStatement(hostFieldRef));
                type.Members.Add(hostProp);
            }

            return(ccu);
        }
Esempio n. 36
0
 public void Visit(CodeFieldReferenceExpression o)
 {
     g.GenerateFieldReferenceExpression(o);
 }
Esempio n. 37
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        //Generate code for implementation of List interface
        private void GenerateListInterface()
        {
            CodeNamespace ns = new CodeNamespace("GenericList");

            compileUnit.Namespaces.Add(ns);

            ns.Types.Add(GetListInterface());

            //Partial class LinkedList
            CodeTypeDeclaration listClassPartTwo = new CodeTypeDeclaration("LinkedList");

            //Add type parameters to class & mark partial
            listClassPartTwo.TypeParameters.Add(keyTypeParameter);
            listClassPartTwo.TypeParameters.Add(itemTypeParameter);
            listClassPartTwo.BaseTypes.Add(typeof(object));
            CodeTypeReference listInterface = new CodeTypeReference("ILinkedList",
                                                                    new CodeTypeReference(keyTypeParameter),
                                                                    new CodeTypeReference(itemTypeParameter));

            listClassPartTwo.BaseTypes.Add(listInterface);
            listClassPartTwo.IsPartial = true;

            //Add Method AddHead
            #region C# code
            //public void AddHead(K key,T item)
            //{
            //	Node<K,T> newNode = new Node<K,T>(key, item, header.NextNode);
            //	header.NextNode = newNode;
            //}
            #endregion
            CodeStatementCollection addHeadColl = new CodeStatementCollection();

            //header.NextNode
            CodeFieldReferenceExpression headerNextNodeRefExprn =
                new CodeFieldReferenceExpression(
                    new CodeFieldReferenceExpression(
                        new CodeThisReferenceExpression(),
                        "header"),
                    "NextNode");


            //new Node<K,T>(key, item, header.NextNode)
            CodeObjectCreateExpression newExpr =
                new CodeObjectCreateExpression(
                    nodeType,
                    new CodeExpression[] {
                new CodeArgumentReferenceExpression("key"),
                new CodeArgumentReferenceExpression("item"),
                headerNextNodeRefExprn
            });

            //Node<K,T> newNode = new Node<K,T>(key, item, header.NextNode)
            CodeVariableDeclarationStatement newNodeDecStmt =
                new CodeVariableDeclarationStatement(
                    nodeType,
                    "newNode",
                    newExpr);

            //Header.NextNode = newNode
            CodeAssignStatement assignStmt =
                new CodeAssignStatement(
                    headerNextNodeRefExprn,
                    new CodeVariableReferenceExpression("newNode"));

            addHeadColl.Add(newNodeDecStmt);
            addHeadColl.Add(assignStmt);

            //Generate AddHead
            CodeMemberMethod addHeadMethod = GeneratePublicMethod("AddHead", null, new CodeTypeReference[] { keyType, itemType }, new string[] { "key", "item" }, addHeadColl);
            addHeadMethod.ImplementationTypes.Add(listInterface);
            listClassPartTwo.Members.Add(addHeadMethod);

            //Add method Find
            #region C# code
            //public T Find(K key)
            //{
            //	 for (Node<K,T> current = this.header; (current != null); current = current.NextNode) {
            //		if ((current.Key.CompareTo(key) == 0))
            //		{
            //			return current.Item;
            //		}
            //}
            #endregion
            CodeStatementCollection findColl = new CodeStatementCollection();

            //current.Key
            CodeFieldReferenceExpression fieldRefExpr =
                new CodeFieldReferenceExpression(
                    new CodeVariableReferenceExpression("current"),
                    "Key");

            //current.Key.CompareTo(key)
            CodeMethodInvokeExpression compareToMethodInvStmt =
                new CodeMethodInvokeExpression(
                    fieldRefExpr,
                    "CompareTo",
                    new CodeExpression[]
                    { new CodeArgumentReferenceExpression("key") });

            //(current.Key.CompareTo(key) == 0)
            CodeBinaryOperatorExpression ifCondExpr =
                new CodeBinaryOperatorExpression(
                    compareToMethodInvStmt,
                    CodeBinaryOperatorType.ValueEquality,
                    new CodePrimitiveExpression(0));

            //return current.Item
            CodeMethodReturnStatement retStmt =
                new CodeMethodReturnStatement(new CodeFieldReferenceExpression(
                                                  new CodeVariableReferenceExpression("current"), "Item"));

            //if ((current.Key.CompareTo(key) == 0))
            CodeConditionStatement ifStatement = new CodeConditionStatement(
                ifCondExpr,
                new CodeStatement[] { retStmt }
                );

            //this.header
            CodeFieldReferenceExpression headerRefExpr =
                new CodeFieldReferenceExpression(
                    new CodeThisReferenceExpression(),
                    "header");

            //Node<K,T> current = this.header
            CodeVariableDeclarationStatement indexDeclrnStmt =
                new CodeVariableDeclarationStatement(
                    nodeType,
                    "current",
                    headerRefExpr);

            //current != null
            CodeBinaryOperatorExpression condExpr =
                new CodeBinaryOperatorExpression(
                    new CodeVariableReferenceExpression("current"),
                    CodeBinaryOperatorType.IdentityInequality,
                    new CodePrimitiveExpression(null));

            //current = current.NextNode
            CodeAssignStatement incrementStmt =
                new CodeAssignStatement(
                    new CodeVariableReferenceExpression("current"),
                    new CodeFieldReferenceExpression(
                        new CodeVariableReferenceExpression("current"),
                        "NextNode")
                    );

            //for (Node<K,T> current = this.header; (current != null); current = current.NextNode)
            CodeIterationStatement forStatement =
                new CodeIterationStatement(
                    indexDeclrnStmt,
                    condExpr,
                    incrementStmt,
                    new CodeStatement[] { ifStatement });


            findColl.Add(forStatement);

            //return this.header.Item
            CodeMethodReturnStatement retHdrStmt =
                new CodeMethodReturnStatement(
                    new CodeFieldReferenceExpression(
                        new CodeFieldReferenceExpression(
                            new CodeThisReferenceExpression(),
                            "header"),
                        "Item")
                    );

            findColl.Add(retHdrStmt);


            //Find method
            CodeMemberMethod findMethod = GeneratePublicMethod("Find", itemType, new CodeTypeReference[] { keyType }, new string[] { "key" }, findColl);
            findMethod.ImplementationTypes.Add(listInterface);
            listClassPartTwo.Members.Add(findMethod);

            //Add property
            #region C# code
            //public T this[K key]
            //{
            //	get
            //	{
            //		return Find(key);
            //	}
            //}
            #endregion
            CodeMemberProperty itemProperty = new CodeMemberProperty();
            itemProperty.Attributes = (itemProperty.Attributes & ~MemberAttributes.AccessMask) | MemberAttributes.Public;
            itemProperty.Parameters.Add(new CodeParameterDeclarationExpression(keyType, "key"));
            itemProperty.Name = "Item";
            itemProperty.GetStatements.Add(
                new CodeMethodReturnStatement(
                    new CodeMethodInvokeExpression(
                        new CodeMethodReferenceExpression(
                            new CodeThisReferenceExpression(),
                            "Find"),
                        new CodeArgumentReferenceExpression("key")))
                );

            itemProperty.Type = itemType;
            listClassPartTwo.Members.Add(itemProperty);

            ns.Types.Add(listClassPartTwo);


            TextWriter tw = new StreamWriter(path + @"\ListInterface." + provider.FileExtension, false);
            provider.GenerateCodeFromNamespace(ns, tw, options);
            tw.Close();
        }
Esempio n. 38
0
 protected abstract void GenerateFieldReferenceExpression(CodeFieldReferenceExpression e);
Esempio n. 39
0
 public FieldRef(CodeExpression targetObject, string fieldName)
 {
     myExpression = new CodeFieldReferenceExpression(targetObject, fieldName);
 }
 protected override void GenerateFieldReferenceExpression(CodeFieldReferenceExpression e)
 {
     Output.Write("[CodeFieldReferenceExpression: Name={0}, Target=", e.FieldName);
     this.GenerateExpression(e.TargetObject);
     Output.Write("]");
 }
Esempio n. 41
0
 protected abstract void GenerateFieldReferenceExpression(CodeFieldReferenceExpression e);
Esempio n. 42
0
        public static CodeMemberMethod CreateXRootMethod(string returnType, string methodName, string[][] paramList,
                                                         GeneratedTypesVisibility visibility = GeneratedTypesVisibility.Public)
        {
            CodeTypeReference xRootType = new CodeTypeReference(returnType);

            CodeMemberMethod staticMethod = new CodeMemberMethod();

            staticMethod.Name       = methodName;
            staticMethod.Attributes = visibility.ToMemberAttribute() | MemberAttributes.Static;
            staticMethod.ReturnType = xRootType;
            CodeExpression[] parameterExp = new CodeExpression[paramList.Length];

            for (int i = 0; i < paramList.Length; i++)
            {
                string[] paramRef = paramList[i];
                // index 0 is the type name and index 1 is the parameter name
                staticMethod.Parameters.Add(CreateParameter(paramRef[1], paramRef[0]));
                parameterExp[i] = new CodeVariableReferenceExpression(paramRef[1]);
            }

            CodeExpression rootExp = new CodeVariableReferenceExpression("root");
            CodeExpression doc     = new CodeFieldReferenceExpression(rootExp, "doc");

            staticMethod.Statements.Add( //XRoot root = new XRoot;
                new CodeVariableDeclarationStatement(xRootType, "root",
                                                     new CodeObjectCreateExpression(xRootType)));

            staticMethod.Statements.Add( //root.doc = XDocument.Load(xmlFile);
                new CodeAssignStatement(
                    doc,
                    CreateMethodCall(new CodeTypeReferenceExpression("XDocument"), methodName,
                                     parameterExp)));

            staticMethod.Statements.Add( //XTypedElement typedRoot = XTypedServices.ToXTypedElement(....)
                new CodeVariableDeclarationStatement(
                    Constants.XTypedElement,
                    "typedRoot",
                    CreateMethodCall(
                        new CodeTypeReferenceExpression(Constants.XTypedServices),
                        Constants.ToXTypedElement,
                        new CodePropertyReferenceExpression(doc, "Root"),
                        CodeDomHelper.SingletonTypeManager())));

            staticMethod.Statements.Add( //if(typedRoot == null)
                new CodeConditionStatement(
                    new CodeBinaryOperatorExpression(
                        new CodeVariableReferenceExpression("typedRoot"),
                        CodeBinaryOperatorType.IdentityEquality,
                        new CodePrimitiveExpression(null)
                        ),
                    new CodeThrowExceptionStatement(
                        new CodeObjectCreateExpression(Constants.LinqToXsdException,
                                                       new CodePrimitiveExpression("Invalid root element in xml document."))
                        )));

            staticMethod.Statements.Add( //root.rootObject = typedRoot
                new CodeAssignStatement(
                    new CodeFieldReferenceExpression(rootExp, "rootObject"),
                    new CodeVariableReferenceExpression("typedRoot")));

            staticMethod.Statements.Add( //return root;
                new CodeMethodReturnStatement(rootExp));

            return(staticMethod);
        }
    public override void BuildTree (CodeDomProvider provider, CodeCompileUnit cu) {

        CodeNamespace nspace = new CodeNamespace ("NSPC");
        nspace.Imports.Add (new CodeNamespaceImport ("System"));
        cu.Namespaces.Add (nspace);

        CodeTypeDeclaration cd = new CodeTypeDeclaration ("TestingStructs");
        cd.IsClass = true;
        nspace.Types.Add (cd);
        if (Supports (provider, GeneratorSupport.DeclareValueTypes)) {
            // GENERATES (C#):
            //        public int CallingStructMethod(int i) {
            //            StructImplementation o = new StructImplementation ();
            //            return o.StructMethod(i);
            //        }
            AddScenario ("CheckCallingStructMethod");
            CodeMemberMethod cmm = new CodeMemberMethod ();
            cmm.Name = "CallingStructMethod";
            cmm.ReturnType = new CodeTypeReference (typeof (int));
            cmm.Attributes = (cmm.Attributes & ~MemberAttributes.AccessMask) | MemberAttributes.Public;
            cmm.Parameters.Add (new CodeParameterDeclarationExpression (new CodeTypeReference (typeof (int)), "i"));
            cmm.Statements.Add (new CodeVariableDeclarationStatement (new CodeTypeReference ("StructImplementation"), "o", new
                CodeObjectCreateExpression (new CodeTypeReference ("StructImplementation"))));
            cmm.Statements.Add (new CodeMethodReturnStatement (new CodeMethodInvokeExpression (new CodeMethodReferenceExpression (
                new CodeVariableReferenceExpression ("o"),
                "StructMethod"), new CodeArgumentReferenceExpression ("i"))));
            cd.Members.Add (cmm);

            // GENERATES (C#):
            //        public int UsingValueStruct(int i) {
            //            ValueStruct StructObject = new ValueStruct();
            //            StructObject.x = i;
            //            return StructObject.x;
            //        }
            AddScenario ("CheckUsingValueStruct");
            cmm = new CodeMemberMethod ();
            cmm.Name = "UsingValueStruct";
            cmm.ReturnType = new CodeTypeReference (typeof (int));
            cmm.Attributes = (cmm.Attributes & ~MemberAttributes.AccessMask) | MemberAttributes.Public;
            cmm.Parameters.Add (new CodeParameterDeclarationExpression (new CodeTypeReference (typeof (int)), "i"));
            cmm.Statements.Add (new CodeVariableDeclarationStatement ("ValueStruct", "StructObject", new
                CodeObjectCreateExpression ("ValueStruct")));
            cmm.Statements.Add (new CodeAssignStatement (new CodeFieldReferenceExpression (new CodeVariableReferenceExpression ("StructObject"), "x"),
                new CodeArgumentReferenceExpression ("i")));
            cmm.Statements.Add (new CodeMethodReturnStatement (new CodeFieldReferenceExpression (new
                CodeVariableReferenceExpression ("StructObject"), "x")));
            cd.Members.Add (cmm);

            // GENERATES (C#):
            //        public int UsingStructProperty(int i) {
            //            StructImplementation StructObject = new StructImplementation();
            //            StructObject.UseIField = i;
            //            return StructObject.UseIField;
            //        }
            AddScenario ("CheckUsingStructProperty");
            cmm = new CodeMemberMethod ();
            cmm.Name = "UsingStructProperty";
            cmm.ReturnType = new CodeTypeReference (typeof (int));
            cmm.Attributes = (cmm.Attributes & ~MemberAttributes.AccessMask) | MemberAttributes.Public;
            cmm.Parameters.Add (new CodeParameterDeclarationExpression (new CodeTypeReference (typeof (int)), "i"));
            cmm.Statements.Add (new CodeVariableDeclarationStatement ("StructImplementation", "StructObject", new
                CodeObjectCreateExpression ("StructImplementation")));
            cmm.Statements.Add (new CodeAssignStatement (new CodePropertyReferenceExpression (
                new CodeVariableReferenceExpression ("StructObject"), "UseIField"),
                new CodeArgumentReferenceExpression ("i")));
            cmm.Statements.Add (new CodeMethodReturnStatement (new CodePropertyReferenceExpression (new
                CodeVariableReferenceExpression ("StructObject"), "UseIField")));
            cd.Members.Add (cmm);

            // GENERATES (C#):
            //        public int UsingInterfaceStruct(int i) {
            //            ImplementInterfaceStruct IStructObject = new ImplementInterfaceStruct();
            //            return IStructObject.InterfaceMethod(i);
            //        }
            if (Supports (provider, GeneratorSupport.DeclareInterfaces)) {
                AddScenario ("CheckUsingInterfaceStruct");
                // method to test struct implementing interfaces
                cmm = new CodeMemberMethod ();
                cmm.Name = "UsingInterfaceStruct";
                cmm.ReturnType = new CodeTypeReference (typeof (int));
                cmm.Attributes = (cmm.Attributes & ~MemberAttributes.AccessMask) | MemberAttributes.Public;
                cmm.Parameters.Add (new CodeParameterDeclarationExpression (new CodeTypeReference (typeof (int)), "i"));
                cmm.Statements.Add (new CodeVariableDeclarationStatement ("ImplementInterfaceStruct", "IStructObject", new
                    CodeObjectCreateExpression ("ImplementInterfaceStruct")));
                cmm.Statements.Add (new CodeMethodReturnStatement (new CodeMethodInvokeExpression (
                    new CodeVariableReferenceExpression ("IStructObject"), "InterfaceMethod",
                    new CodeArgumentReferenceExpression ("i"))));
                cd.Members.Add (cmm);
            }

            // GENERATES (C#):
            //    public struct StructImplementation { 
            //        int i;
            //        public int UseIField {
            //            get {
            //                return i;
            //            }
            //            set {
            //                i = value;
            //            }
            //        }
            //        public int StructMethod(int i) {
            //            return (5 + i);
            //        }
            //    }
            cd = new CodeTypeDeclaration ("StructImplementation");
            cd.IsStruct = true;
            nspace.Types.Add (cd);

            // declare an integer field
            CodeMemberField field = new CodeMemberField (new CodeTypeReference (typeof (int)), "i");
            field.Attributes = MemberAttributes.Public;
            cd.Members.Add (field);

            CodeMemberProperty prop = new CodeMemberProperty ();
            prop.Name = "UseIField";
            prop.Type = new CodeTypeReference (typeof (int));
            prop.Attributes = MemberAttributes.Public | MemberAttributes.Final;
            CodeFieldReferenceExpression fref = new CodeFieldReferenceExpression ();
            fref.FieldName = "i";
            prop.GetStatements.Add (new CodeMethodReturnStatement (fref));
            prop.SetStatements.Add (new CodeAssignStatement (fref,
                new CodePropertySetValueReferenceExpression ()));

            cd.Members.Add (prop);

            cmm = new CodeMemberMethod ();
            cmm.Name = "StructMethod";
            cmm.ReturnType = new CodeTypeReference (typeof (int));
            cmm.Attributes = (cmm.Attributes & ~MemberAttributes.AccessMask) | MemberAttributes.Public;
            cmm.Parameters.Add (new CodeParameterDeclarationExpression (new CodeTypeReference (typeof (int)), "i"));
            cmm.Statements.Add (new CodeMethodReturnStatement (new CodeBinaryOperatorExpression (
                new CodePrimitiveExpression (5), CodeBinaryOperatorType.Add, new CodeArgumentReferenceExpression ("i"))));
            cd.Members.Add (cmm);

            // GENERATES (C#):
            //    public struct ValueStruct {   
            //        public int x;
            //    }
            cd = new CodeTypeDeclaration ("ValueStruct");
            cd.IsStruct = true;
            nspace.Types.Add (cd);

            // declare an integer field
            field = new CodeMemberField (new CodeTypeReference (typeof (int)), "x");
            field.Attributes = MemberAttributes.Public;
            cd.Members.Add (field);

            if (Supports (provider, GeneratorSupport.DeclareInterfaces)) {
                // interface to be implemented    
                // GENERATES (C#):
                //    public interface InterfaceStruct {   
                //        int InterfaceMethod(int i);
                //    }
                cd = new CodeTypeDeclaration ("InterfaceStruct");
                cd.IsInterface = true;
                nspace.Types.Add (cd);

                // method in the interface
                cmm = new CodeMemberMethod ();
                cmm.Name = "InterfaceMethod";
                cmm.ReturnType = new CodeTypeReference (typeof (int));
                cmm.Parameters.Add (new CodeParameterDeclarationExpression (new CodeTypeReference (typeof (int)), "i"));
                cd.Members.Add (cmm);

                // struct to implement an interface
                // GENERATES (C#):
                //    public struct ImplementInterfaceStruct : InterfaceStruct {
                //        public int InterfaceMethod(int i) {
                //            return (8 + i);
                //        }
                //    }
                cd = new CodeTypeDeclaration ("ImplementInterfaceStruct");
                cd.BaseTypes.Add (new CodeTypeReference ("InterfaceStruct"));
                cd.IsStruct = true;
                nspace.Types.Add (cd);

                field = new CodeMemberField (new CodeTypeReference (typeof (int)), "i");
                field.Attributes = MemberAttributes.Public;
                cd.Members.Add (field);
                // implement interface method
                cmm = new CodeMemberMethod ();
                cmm.Name = "InterfaceMethod";
                cmm.ImplementationTypes.Add (new CodeTypeReference ("InterfaceStruct"));
                cmm.ReturnType = new CodeTypeReference (typeof (int));
                cmm.Attributes = MemberAttributes.Public | MemberAttributes.Final;
                cmm.Statements.Add (new CodeMethodReturnStatement (new CodeBinaryOperatorExpression (new CodePrimitiveExpression (8),
                    CodeBinaryOperatorType.Add,
                    new CodeArgumentReferenceExpression ("i"))));
                cmm.Parameters.Add (new CodeParameterDeclarationExpression (new CodeTypeReference (typeof (int)), "i"));
                cd.Members.Add (cmm);
            }
        }
    }
Esempio n. 44
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    public CodeMemberMethod GenerateWrapperMethod(Generator g)
    {
        CodeMemberMethod method;

        if (IsConstructor)
            method = new CodeConstructor () {
                    Name = GetCSharpMethodName (Name)
                        };
        else
            method = new CodeMemberMethod () {
                    Name = GetCSharpMethodName (Name)
                        };
        method.Attributes = MemberAttributes.Public;
        if (IsStatic)
            method.Attributes |= MemberAttributes.Static;

        CodeTypeReference rtype = g.CppTypeToCodeDomType (ReturnType);
        method.ReturnType = rtype;

        foreach (var p in Parameters) {
            bool byref;
            var ptype = g.CppTypeToCodeDomType (p.Type, out byref);
            var param = new CodeParameterDeclarationExpression (ptype, p.Name);
            if (byref)
                param.Direction = FieldDirection.Ref;
            method.Parameters.Add (param);
        }

        if (IsConstructor) {
            //this.native_ptr = impl.Alloc(this);
            method.Statements.Add (new CodeAssignStatement (new CodeFieldReferenceExpression (null, "native_ptr"), new CodeMethodInvokeExpression (new CodeMethodReferenceExpression (new CodeFieldReferenceExpression (null, "impl"), "Alloc"), new CodeExpression [] { new CodeThisReferenceExpression () })));
        }

        // Call the iface method
        CodeExpression[] args = new CodeExpression [Parameters.Count + (IsStatic ? 0 : 1)];
        if (!IsStatic)
            args [0] = new CodeFieldReferenceExpression (null, "Native");
        for (int i = 0; i < Parameters.Count; ++i) {
            bool byref;
            g.CppTypeToCodeDomType (Parameters [i].Type, out byref);
            CodeExpression arg = new CodeArgumentReferenceExpression (Parameters [i].Name);
            if (byref)
                arg = new CodeDirectionExpression (FieldDirection.Ref, arg);
            args [i + (IsStatic ? 0 : 1)] = arg;
        }

        var call = new CodeMethodInvokeExpression (new CodeMethodReferenceExpression (new CodeFieldReferenceExpression (null, "impl"), Name), args);

        if (rtype.BaseType == "System.Void" || IsConstructor)
            method.Statements.Add (call);
        else
            method.Statements.Add (new CodeMethodReturnStatement (call));

        return method;
    }