/// <summary> /// Generates the client proxy code for the given type. /// </summary> public override void Generate() { // ---------------------------------------------------------------- // namespace // ---------------------------------------------------------------- var ns = ClientProxyGenerator.GetOrGenNamespace(Type); // Missing namespace bails out of code-gen -- error has been logged if (ns == null) { return; } // ---------------------------------------------------------------- // public partial class {Type} : (Base) // ---------------------------------------------------------------- ProxyClass = CodeGenUtilities.CreateTypeDeclaration(Type); ProxyClass.IsPartial = true; // makes this a partial type ProxyClass.TypeAttributes = TypeAttributes.Public; // Abstract classes must be preserved as abstract to avoid explicit instantiation on client bool isAbstract = (Type.IsAbstract); if (isAbstract) { ProxyClass.TypeAttributes |= TypeAttributes.Abstract; } // Determine all types derived from this one. // Note this list does not assume the current type is the visible root. That is a separate test. IEnumerable <Type> derivedTypes = GetDerivedTypes(); // If this type doesn't have any derivatives, seal it. Cannot seal abstracts. if (!isAbstract && !derivedTypes.Any()) { ProxyClass.TypeAttributes |= TypeAttributes.Sealed; } // Add all base types including interfaces AddBaseTypes(ns); ns.Types.Add(ProxyClass); AttributeCollection typeAttributes = Type.Attributes(); // Add <summary> xml comment to class string comment = GetSummaryComment(); ProxyClass.Comments.AddRange(CodeGenUtilities.GenerateSummaryCodeComment(comment, ClientProxyGenerator.IsCSharp)); // ---------------------------------------------------------------- // Add default ctr // ---------------------------------------------------------------- CodeConstructor constructor = new CodeConstructor(); // Default ctor is public for concrete types but protected for abstracts. // This prevents direct instantiation on client constructor.Attributes = isAbstract ? MemberAttributes.Family : MemberAttributes.Public; // add default ctor doc comments comment = string.Format(CultureInfo.CurrentCulture, Resource.CodeGen_Default_Constructor_Summary_Comments, Type.Name); constructor.Comments.AddRange(CodeGenUtilities.GenerateSummaryCodeComment(comment, ClientProxyGenerator.IsCSharp)); // add call to default OnCreated method constructor.Statements.Add(NotificationMethodGen.OnCreatedMethodInvokeExpression); ProxyClass.Members.Add(constructor); // ---------------------------------------------------------------- // [KnownType(...), ...] // ---------------------------------------------------------------- // We need to generate a [KnownType] for all derived entities on the visible root. if (!IsDerivedType) { // Generate a [KnownType] for every derived type. // We specifically exclude [KnownTypes] from the set of attributes we ask // the metadata pipeline to generate below, meaning we take total control // here for which [KnownType] attributes get through the metadata pipeline. // // Note, we sort in alphabetic order to give predictability in baselines and // client readability. For cosmetic reasons, we sort by short or long name // depending on what our utility helpers will actually generated foreach (Type derivedType in derivedTypes.OrderBy(t => ClientProxyGenerator.ClientProxyCodeGenerationOptions.UseFullTypeNames ? t.FullName : t.Name)) { CodeAttributeDeclaration knownTypeAttrib = CodeGenUtilities.CreateAttributeDeclaration(typeof(System.Runtime.Serialization.KnownTypeAttribute), ClientProxyGenerator, ProxyClass); knownTypeAttrib.Arguments.Add(new CodeAttributeArgument(new CodeTypeOfExpression(CodeGenUtilities.GetTypeReference(derivedType, ClientProxyGenerator, ProxyClass)))); ProxyClass.CustomAttributes.Add(knownTypeAttrib); } } ValidateTypeAttributes(typeAttributes); // ---------------------------------------------------------------- // [DataContract(Namespace=X, Name=Y)] // ---------------------------------------------------------------- CodeAttributeDeclaration dataContractAttrib = CodeGenUtilities.CreateDataContractAttributeDeclaration(Type, ClientProxyGenerator, ProxyClass); ProxyClass.CustomAttributes.Add(dataContractAttrib); // ---------------------------------------------------------------- // Propagate all type-level Attributes across (except DataContractAttribute since that is handled above) // ----------------------------------------------------------------- CustomAttributeGenerator.GenerateCustomAttributes( ClientProxyGenerator, ProxyClass, ex => string.Format(CultureInfo.CurrentCulture, Resource.ClientCodeGen_Attribute_ThrewException_CodeType, ex.Message, ProxyClass.Name, ex.InnerException.Message), FilterTypeAttributes(typeAttributes), ProxyClass.CustomAttributes, ProxyClass.Comments); // ---------------------------------------------------------------- // gen proxy getter/setter for each property // ---------------------------------------------------------------- GenerateProperties(); // ---------------------------------------------------------------- // gen additional methods/events // ---------------------------------------------------------------- GenerateAdditionalMembers(); // Register created CodeTypeDeclaration with mapping _typeMapping[Type] = ProxyClass; }
/// <summary> /// Generates a property getter/setter pair into the given proxy class to match the given property info. /// </summary> /// <param name="propertyDescriptor">PropertyDescriptor for the property to generate for.</param> protected virtual void GenerateProperty(PropertyDescriptor propertyDescriptor) { string propertyName = propertyDescriptor.Name; Type propertyType = CodeGenUtilities.TranslateType(propertyDescriptor.PropertyType); // ---------------------------------------------------------------- // Property type ref // ---------------------------------------------------------------- var propTypeReference = CodeGenUtilities.GetTypeReference(propertyType, ClientProxyGenerator, ProxyClass); // ---------------------------------------------------------------- // Property decl // ---------------------------------------------------------------- var property = new CodeMemberProperty(); property.Name = propertyName; property.Type = propTypeReference; property.Attributes = MemberAttributes.Public | MemberAttributes.Final; // final needed, else becomes virtual List <Attribute> propertyAttributes = propertyDescriptor.ExplicitAttributes().Cast <Attribute>().ToList(); // Generate <summary> for property string comment = string.Format(CultureInfo.CurrentCulture, Resource.CodeGen_Entity_Property_Summary_Comment, propertyName); property.Comments.AddRange(CodeGenUtilities.GenerateSummaryCodeComment(comment, ClientProxyGenerator.IsCSharp)); // ---------------------------------------------------------------- // [DataMember] -> Add if not already present. // ---------------------------------------------------------------- // Add if not already present. if (!propertyAttributes.OfType <DataMemberAttribute>().Any()) { CodeAttributeDeclaration dataMemberAtt = CodeGenUtilities.CreateAttributeDeclaration(typeof(DataMemberAttribute), ClientProxyGenerator, ProxyClass); property.CustomAttributes.Add(dataMemberAtt); } // Here, we check for the existence of [ReadOnly(true)] attributes generated when // the property does not not have a setter. We want to inject an [Editable(false)] // attribute into the pipeline. ReadOnlyAttribute readOnlyAttr = propertyAttributes.OfType <ReadOnlyAttribute>().SingleOrDefault(); if (readOnlyAttr != null && !propertyAttributes.OfType <EditableAttribute>().Any()) { propertyAttributes.Add(new EditableAttribute(!readOnlyAttr.IsReadOnly)); // REVIEW: should we strip out [ReadOnly] attributes here? } // Here, we check for the presence of a complex type. If it exists we need to add a DisplayAttribute // if not already there. DataSources windows do not handle complex types if (TypeUtility.IsSupportedComplexType(propertyType) && !propertyAttributes.OfType <DisplayAttribute>().Any()) { CodeAttributeDeclaration displayAttribute = CodeGenUtilities.CreateDisplayAttributeDeclaration(ClientProxyGenerator, ProxyClass); property.CustomAttributes.Add(displayAttribute); } // ---------------------------------------------------------------- // Propagate the custom attributes // ---------------------------------------------------------------- CustomAttributeGenerator.GenerateCustomAttributes( ClientProxyGenerator, ProxyClass, ex => string.Format(CultureInfo.CurrentCulture, Resource.ClientCodeGen_Attribute_ThrewException_CodeTypeMember, ex.Message, property.Name, ProxyClass.Name, ex.InnerException.Message), propertyAttributes.Cast <Attribute>(), property.CustomAttributes, property.Comments); // ---------------------------------------------------------------- // backing private field (CodeDom doesn't yet know about auto properties) // ---------------------------------------------------------------- string fieldName = CodeGenUtilities.MakeCompliantFieldName(propertyName); var field = new CodeMemberField(propTypeReference, fieldName); ProxyClass.Members.Add(field); var fieldRef = new CodeFieldReferenceExpression(new CodeThisReferenceExpression(), fieldName); var valueRef = new CodePropertySetValueReferenceExpression(); // ---------------------------------------------------------------- // getter body // ---------------------------------------------------------------- property.GetStatements.Add(new CodeMethodReturnStatement(fieldRef)); // ---------------------------------------------------------------- // setter body // ---------------------------------------------------------------- List <CodeStatement> bodyStatements = new List <CodeStatement>(); // this.OnPropertyXxxChanging(PropType value); bodyStatements.Add(NotificationMethodGen.GetMethodInvokeExpressionStatementFor(propertyName + "Changing")); bool propertyIsReadOnly = IsPropertyReadOnly(propertyDescriptor); if (!propertyIsReadOnly) { bodyStatements.Add(new CodeExpressionStatement(new CodeMethodInvokeExpression(new CodeThisReferenceExpression(), "RaiseDataMemberChanging", new CodePrimitiveExpression(propertyDescriptor.Name)))); } // Generate the validation tests. CodeStatement validationCode = GeneratePropertySetterValidation(propertyDescriptor.Name); bodyStatements.Add(validationCode); // this._field = value bodyStatements.Add(new CodeAssignStatement(fieldRef, valueRef)); if (!propertyIsReadOnly) { bodyStatements.Add(new CodeExpressionStatement(new CodeMethodInvokeExpression(new CodeThisReferenceExpression(), "RaiseDataMemberChanged", new CodePrimitiveExpression(propertyDescriptor.Name)))); } else { // even read-only members need to raise PropertyChanged bodyStatements.Add(new CodeExpressionStatement(new CodeMethodInvokeExpression(new CodeThisReferenceExpression(), "RaisePropertyChanged", new CodePrimitiveExpression(propertyDescriptor.Name)))); } // this.OnPropertyXxxChanged(); bodyStatements.Add(NotificationMethodGen.GetMethodInvokeExpressionStatementFor(propertyName + "Changed")); // if (this._field != value)... CodeExpression valueTest = CodeGenUtilities.MakeNotEqual(propertyType, fieldRef, valueRef, ClientProxyGenerator.IsCSharp); CodeConditionStatement body = new CodeConditionStatement(valueTest, bodyStatements.ToArray <CodeStatement>()); property.SetStatements.Add(body); // add property ProxyClass.Members.Add(property); }