Ejemplo n.º 1
0
        private static MemberDeclarationSyntax GenerateInterfaceIdProperty(Type grainType)
        {
            var property    = TypeUtils.Member((GrainReference _) => _.InterfaceId);
            var returnValue = SF.LiteralExpression(
                SyntaxKind.NumericLiteralExpression,
                SF.Literal(GrainInterfaceUtils.GetGrainInterfaceId(grainType)));

            return
                (SF.PropertyDeclaration(typeof(int).GetTypeSyntax(), property.Name)
                 .AddAccessorListAccessors(
                     SF.AccessorDeclaration(SyntaxKind.GetAccessorDeclaration)
                     .AddBodyStatements(SF.ReturnStatement(returnValue)))
                 .AddModifiers(SF.Token(SyntaxKind.PublicKeyword), SF.Token(SyntaxKind.OverrideKeyword)));
        }
Ejemplo n.º 2
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        private static MemberDeclarationSyntax GenerateInterfaceVersionProperty(Type grainType)
        {
            var property    = TypeUtils.Member((IGrainMethodInvoker _) => _.InterfaceVersion);
            var returnValue = SF.LiteralExpression(
                SyntaxKind.NumericLiteralExpression,
                SF.Literal(GrainInterfaceUtils.GetGrainInterfaceVersion(grainType)));

            return
                (SF.PropertyDeclaration(typeof(ushort).GetTypeSyntax(), property.Name)
                 .AddAccessorListAccessors(
                     SF.AccessorDeclaration(SyntaxKind.GetAccessorDeclaration)
                     .AddBodyStatements(SF.ReturnStatement(returnValue)))
                 .AddModifiers(SF.Token(SyntaxKind.ProtectedKeyword), SF.Token(SyntaxKind.OverrideKeyword)));
        }
Ejemplo n.º 3
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        /// <summary>
        /// Returns syntax for the options argument to <see cref="GrainReference.InvokeMethodAsync{T}"/> and <see cref="GrainReference.InvokeOneWayMethod"/>.
        /// </summary>
        /// <param name="method">The method which an invoke call is being generated for.</param>
        /// <returns>
        /// Argument syntax for the options argument to <see cref="GrainReference.InvokeMethodAsync{T}"/> and
        /// <see cref="GrainReference.InvokeOneWayMethod"/>, or <see langword="null"/> if no options are to be specified.
        /// </returns>
        private static ArgumentSyntax GetInvokeOptions(MethodInfo method)
        {
            var options = new List <ExpressionSyntax>();

            if (GrainInterfaceUtils.IsReadOnly(method))
            {
                options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.ReadOnly.ToString()));
            }

            if (GrainInterfaceUtils.IsUnordered(method))
            {
                options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.Unordered.ToString()));
            }

            if (GrainInterfaceUtils.IsAlwaysInterleave(method))
            {
                options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.AlwaysInterleave.ToString()));
            }

            if (GrainInterfaceUtils.IsNewTransactionRequired(method))
            {
                options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.TransactionRequiresNew.ToString()));
            }

            if (GrainInterfaceUtils.IsTransactionRequired(method))
            {
                options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.TransactionRequired.ToString()));
            }

            ExpressionSyntax allOptions;

            if (options.Count <= 1)
            {
                allOptions = options.FirstOrDefault();
            }
            else
            {
                allOptions =
                    options.Aggregate((a, b) => SF.BinaryExpression(SyntaxKind.BitwiseOrExpression, a, b));
            }

            if (allOptions == null)
            {
                return(null);
            }

            return(SF.Argument(SF.NameColon("options"), SF.Token(SyntaxKind.None), allOptions));
        }
Ejemplo n.º 4
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        /// <summary>
        /// Generates <see cref="GenericMethodInvoker"/> fields for the generic methods in <paramref name="grainType"/>.
        /// </summary>
        /// <param name="grainType">The grain type.</param>
        /// <returns>The generated fields.</returns>
        private static MemberDeclarationSyntax[] GenerateGenericInvokerFields(Type grainType)
        {
            var methods = GrainInterfaceUtils.GetMethods(grainType);

            var result = new List <MemberDeclarationSyntax>();

            foreach (var method in methods)
            {
                if (!method.IsGenericMethodDefinition)
                {
                    continue;
                }
                result.Add(GenerateGenericInvokerField(method));
            }

            return(result.ToArray());
        }
Ejemplo n.º 5
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        internal static IAddressable MakeGrainReference_FromType(
            Func <GrainClassData, GrainId> getGrainId,
            Type interfaceType,
            string grainClassNamePrefix = null)
        {
            CheckRuntimeEnvironmentSetup();
            if (!GrainInterfaceUtils.IsGrainType(interfaceType))
            {
                throw new ArgumentException("Cannot fabricate grain-reference for non-grain type: " + interfaceType.FullName);
            }
            var     implementation = TypeCodeMapper.GetImplementation(interfaceType, grainClassNamePrefix);
            GrainId grainId        = getGrainId(implementation);

            var typeInfo = interfaceType.GetTypeInfo();

            return(GrainReference.FromGrainId(grainId, typeInfo.IsGenericType ? TypeUtils.GenericTypeArgsString(typeInfo.UnderlyingSystemType.FullName) : null));
        }
Ejemplo n.º 6
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        private void ConsiderType(
            Type type,
            bool runtime,
            Assembly targetAssembly,
            ISet <Type> includedTypes,
            bool considerForSerialization = false)
        {
            // The module containing the serializer.
            var typeInfo = type.GetTypeInfo();

            // If a type was encountered which can be accessed and is marked as [Serializable], process it for serialization.
            if (considerForSerialization)
            {
                this.RecordType(type, targetAssembly, includedTypes);
            }

            // Consider generic arguments to base types and implemented interfaces for code generation.
            this.ConsiderGenericBaseTypeArguments(typeInfo, targetAssembly, includedTypes);
            this.ConsiderGenericInterfacesArguments(typeInfo, targetAssembly, includedTypes);

            // Include grain interface types.
            if (GrainInterfaceUtils.IsGrainInterface(type))
            {
                // If code generation is being performed at runtime, the interface must be accessible to the generated code.
                if (!runtime || TypeUtilities.IsAccessibleFromAssembly(type, targetAssembly))
                {
                    if (Logger.IsVerbose2)
                    {
                        Logger.Verbose2("Will generate code for: {0}", type.GetParseableName());
                    }

                    includedTypes.Add(type);
                }
            }

            if (TypeUtils.IsConcreteGrainClass(type))
            {
                includedTypes.Add(type);
            }
        }
Ejemplo n.º 7
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        /// <summary>
        /// Generates invoker methods.
        /// </summary>
        /// <param name="grainType">The grain type.</param>
        /// <param name="onEncounteredType">
        /// The callback which is invoked when a type is encountered.
        /// </param>
        /// <returns>Invoker methods for the provided grain type.</returns>
        private static MemberDeclarationSyntax[] GenerateInvokeMethods(Type grainType, Action <Type> onEncounteredType)
        {
            var baseReference = SF.BaseExpression();
            var methods       = GrainInterfaceUtils.GetMethods(grainType);
            var members       = new List <MemberDeclarationSyntax>();

            foreach (var method in methods)
            {
                onEncounteredType(method.ReturnType);
                var methodId         = GrainInterfaceUtils.ComputeMethodId(method);
                var methodIdArgument =
                    SF.Argument(SF.LiteralExpression(SyntaxKind.NumericLiteralExpression, SF.Literal(methodId)));

                // Construct a new object array from all method arguments.
                var parameters = method.GetParameters();
                var body       = new List <StatementSyntax>();
                foreach (var parameter in parameters)
                {
                    onEncounteredType(parameter.ParameterType);
                    if (typeof(IGrainObserver).GetTypeInfo().IsAssignableFrom(parameter.ParameterType))
                    {
                        body.Add(
                            SF.ExpressionStatement(
                                CheckGrainObserverParamInternalExpression.Invoke()
                                .AddArgumentListArguments(SF.Argument(parameter.Name.ToIdentifierName()))));
                    }
                }

                // Get the parameters argument value.
                ExpressionSyntax args;
                if (parameters.Length == 0)
                {
                    args = SF.LiteralExpression(SyntaxKind.NullLiteralExpression);
                }
                else
                {
                    args =
                        SF.ArrayCreationExpression(typeof(object).GetArrayTypeSyntax())
                        .WithInitializer(
                            SF.InitializerExpression(SyntaxKind.ArrayInitializerExpression)
                            .AddExpressions(parameters.Select(GetParameterForInvocation).ToArray()));
                }

                var options = GetInvokeOptions(method);

                // Construct the invocation call.
                if (method.ReturnType == typeof(void))
                {
                    var invocation = SF.InvocationExpression(baseReference.Member("InvokeOneWayMethod"))
                                     .AddArgumentListArguments(methodIdArgument)
                                     .AddArgumentListArguments(SF.Argument(args));

                    if (options != null)
                    {
                        invocation = invocation.AddArgumentListArguments(options);
                    }

                    body.Add(SF.ExpressionStatement(invocation));
                }
                else
                {
                    var returnType = method.ReturnType == typeof(Task)
                                         ? typeof(object)
                                         : method.ReturnType.GenericTypeArguments[0];
                    var invocation =
                        SF.InvocationExpression(baseReference.Member("InvokeMethodAsync", returnType))
                        .AddArgumentListArguments(methodIdArgument)
                        .AddArgumentListArguments(SF.Argument(args));

                    if (options != null)
                    {
                        invocation = invocation.AddArgumentListArguments(options);
                    }

                    body.Add(SF.ReturnStatement(invocation));
                }

                members.Add(method.GetDeclarationSyntax().AddBodyStatements(body.ToArray()));
            }

            return(members.ToArray());
        }
Ejemplo n.º 8
0
        /// <summary>
        /// Returns syntax for the options argument to <see cref="GrainReference.InvokeMethodAsync{T}"/> and <see cref="GrainReference.InvokeOneWayMethod"/>.
        /// </summary>
        /// <param name="method">The method which an invoke call is being generated for.</param>
        /// <returns>
        /// Argument syntax for the options argument to <see cref="GrainReference.InvokeMethodAsync{T}"/> and
        /// <see cref="GrainReference.InvokeOneWayMethod"/>, or <see langword="null"/> if no options are to be specified.
        /// </returns>
        private static ArgumentSyntax GetInvokeOptions(MethodInfo method)
        {
            var options = new List <ExpressionSyntax>();

            if (GrainInterfaceUtils.IsReadOnly(method))
            {
                options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.ReadOnly.ToString()));
            }

            if (GrainInterfaceUtils.IsUnordered(method))
            {
                options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.Unordered.ToString()));
            }

            if (GrainInterfaceUtils.IsAlwaysInterleave(method))
            {
                options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.AlwaysInterleave.ToString()));
            }

            if (GrainInterfaceUtils.TryGetTransactionOption(method, out TransactionOption option))
            {
                switch (option)
                {
                case TransactionOption.Suppress:
                    options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.TransactionSuppress.ToString()));
                    break;

                case TransactionOption.CreateOrJoin:
                    options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.TransactionCreateOrJoin.ToString()));
                    break;

                case TransactionOption.Create:
                    options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.TransactionCreate.ToString()));
                    break;

                case TransactionOption.Join:
                    options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.TransactionJoin.ToString()));
                    break;

                case TransactionOption.Supported:
                    options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.TransactionSupported.ToString()));
                    break;

                case TransactionOption.NotAllowed:
                    options.Add(typeof(InvokeMethodOptions).GetNameSyntax().Member(InvokeMethodOptions.TransactionNotAllowed.ToString()));
                    break;

                default:
                    throw new NotSupportedException($"Transaction option {options} is not supported.");
                }
            }

            ExpressionSyntax allOptions;

            if (options.Count <= 1)
            {
                allOptions = options.FirstOrDefault();
            }
            else
            {
                allOptions =
                    options.Aggregate((a, b) => SF.BinaryExpression(SyntaxKind.BitwiseOrExpression, a, b));
            }

            if (allOptions == null)
            {
                return(null);
            }

            return(SF.Argument(SF.NameColon("options"), SF.Token(SyntaxKind.None), allOptions));
        }
Ejemplo n.º 9
0
        /// <summary>
        /// Generates invoker methods.
        /// </summary>
        /// <param name="grainType">The grain type.</param>
        /// <param name="onEncounteredType">
        /// The callback which is invoked when a type is encountered.
        /// </param>
        /// <returns>Invoker methods for the provided grain type.</returns>
        private static MemberDeclarationSyntax[] GenerateInvokeMethods(Type grainType, Action <Type> onEncounteredType)
        {
            var baseReference = SF.BaseExpression();
            var methods       = GrainInterfaceUtils.GetMethods(grainType);
            var members       = new List <MemberDeclarationSyntax>();

            foreach (var method in methods)
            {
                onEncounteredType(method.ReturnType);
                var methodId         = GrainInterfaceUtils.ComputeMethodId(method);
                var methodIdArgument =
                    SF.Argument(SF.LiteralExpression(SyntaxKind.NumericLiteralExpression, SF.Literal(methodId)));

                // Construct a new object array from all method arguments.
                var parameters = method.GetParameters();
                var body       = new List <StatementSyntax>();
                foreach (var parameter in parameters)
                {
                    onEncounteredType(parameter.ParameterType);
                    if (typeof(IGrainObserver).IsAssignableFrom(parameter.ParameterType))
                    {
                        body.Add(
                            SF.ExpressionStatement(
                                CheckGrainObserverParamInternalExpression.Invoke()
                                .AddArgumentListArguments(SF.Argument(parameter.Name.ToIdentifierName()))));
                    }
                }

                // Get the parameters argument value.
                ExpressionSyntax args;
                if (method.IsGenericMethodDefinition)
                {
                    // Create an arguments array which includes the method's type parameters followed by the method's parameter list.
                    var allParameters = new List <ExpressionSyntax>();
                    foreach (var typeParameter in method.GetGenericArguments())
                    {
                        allParameters.Add(SF.TypeOfExpression(typeParameter.GetTypeSyntax()));
                    }

                    allParameters.AddRange(parameters.Select(GetParameterForInvocation));

                    args =
                        SF.ArrayCreationExpression(typeof(object).GetArrayTypeSyntax())
                        .WithInitializer(
                            SF.InitializerExpression(SyntaxKind.ArrayInitializerExpression)
                            .AddExpressions(allParameters.ToArray()));
                }
                else if (parameters.Length == 0)
                {
                    args = SF.LiteralExpression(SyntaxKind.NullLiteralExpression);
                }
                else
                {
                    args =
                        SF.ArrayCreationExpression(typeof(object).GetArrayTypeSyntax())
                        .WithInitializer(
                            SF.InitializerExpression(SyntaxKind.ArrayInitializerExpression)
                            .AddExpressions(parameters.Select(GetParameterForInvocation).ToArray()));
                }

                var options = GetInvokeOptions(method);

                // Construct the invocation call.
                var isOneWayTask = method.GetCustomAttribute <OneWayAttribute>() != null;
                if (method.ReturnType == typeof(void) || isOneWayTask)
                {
                    var invocation = SF.InvocationExpression(baseReference.Member("InvokeOneWayMethod"))
                                     .AddArgumentListArguments(methodIdArgument)
                                     .AddArgumentListArguments(SF.Argument(args));

                    if (options != null)
                    {
                        invocation = invocation.AddArgumentListArguments(options);
                    }

                    body.Add(SF.ExpressionStatement(invocation));

                    if (isOneWayTask)
                    {
                        if (method.ReturnType != typeof(Task))
                        {
                            throw new CodeGenerationException(
                                      $"Method {grainType.GetParseableName()}.{method.Name} is marked with [{nameof(OneWayAttribute)}], " +
                                      $"but has a return type which is not assignable from {typeof(Task)}");
                        }

                        var done = typeof(Task).GetNameSyntax(true).Member((object _) => Task.CompletedTask);
                        body.Add(SF.ReturnStatement(done));
                    }
                }
                else
                {
                    var returnType = method.ReturnType == typeof(Task)
                                         ? typeof(object)
                                         : method.ReturnType.GenericTypeArguments[0];
                    var invocation =
                        SF.InvocationExpression(baseReference.Member("InvokeMethodAsync", returnType))
                        .AddArgumentListArguments(methodIdArgument)
                        .AddArgumentListArguments(SF.Argument(args));

                    if (options != null)
                    {
                        invocation = invocation.AddArgumentListArguments(options);
                    }

                    ExpressionSyntax returnContent = invocation;
                    if (method.ReturnType.IsGenericType &&
                        method.ReturnType.GetGenericTypeDefinition().FullName == "System.Threading.Tasks.ValueTask`1")
                    {
                        // Wrapping invocation expression with initialization of ValueTask (e.g. new ValueTask<int>(base.InvokeMethod()))
                        returnContent =
                            SF.ObjectCreationExpression(method.ReturnType.GetTypeSyntax())
                            .AddArgumentListArguments(SF.Argument(SF.ExpressionStatement(invocation).Expression));
                    }

                    body.Add(SF.ReturnStatement(returnContent));
                }

                members.Add(method.GetDeclarationSyntax().AddBodyStatements(body.ToArray()));
            }

            return(members.ToArray());
        }
Ejemplo n.º 10
0
        /// <summary>
        /// Generates a syntax tree for the provided assemblies.
        /// </summary>
        /// <param name="targetAssembly">The assemblies used for accessiblity checks, or <see langword="null"/> during runtime code generation.</param>
        /// <param name="assemblies">The assemblies to generate code for.</param>
        /// <returns>The generated syntax tree.</returns>
        private GeneratedSyntax GenerateCode(Assembly targetAssembly, List <Assembly> assemblies)
        {
            var features = new FeatureDescriptions();
            var members  = new List <MemberDeclarationSyntax>();

            // Expand the list of included assemblies and types.
            var knownAssemblies =
                new Dictionary <Assembly, KnownAssemblyAttribute>(
                    assemblies.ToDictionary(k => k, k => default(KnownAssemblyAttribute)));

            foreach (var attribute in assemblies.SelectMany(asm => asm.GetCustomAttributes <KnownAssemblyAttribute>()))
            {
                knownAssemblies[attribute.Assembly] = attribute;
            }

            if (logger.IsEnabled(LogLevel.Information))
            {
                logger.Info($"Generating code for assemblies: {string.Join(", ", knownAssemblies.Keys.Select(a => a.FullName))}");
            }

            // Get types from assemblies which reference Orleans and are not generated assemblies.
            var grainClasses    = new HashSet <Type>();
            var grainInterfaces = new HashSet <Type>();

            foreach (var pair in knownAssemblies)
            {
                var assembly = pair.Key;
                var treatTypesAsSerializable = pair.Value?.TreatTypesAsSerializable ?? false;
                foreach (var type in TypeUtils.GetDefinedTypes(assembly, this.logger))
                {
                    if (treatTypesAsSerializable || type.IsSerializable || TypeHasKnownBase(type))
                    {
                        string logContext = null;
                        if (logger.IsEnabled(LogLevel.Trace))
                        {
                            if (treatTypesAsSerializable)
                            {
                                logContext = $"known assembly {assembly.GetName().Name} where 'TreatTypesAsSerializable' = true";
                            }
                            else if (type.IsSerializable)
                            {
                                logContext = $"known assembly {assembly.GetName().Name} where type is [Serializable]";
                            }
                            else if (type.IsSerializable)
                            {
                                logContext = $"known assembly {assembly.GetName().Name} where type has known base type.";
                            }
                        }

                        serializableTypes.RecordType(type, targetAssembly, logContext);
                    }

                    // Include grain interfaces and classes.
                    var isGrainInterface = GrainInterfaceUtils.IsGrainInterface(type);
                    var isGrainClass     = TypeUtils.IsConcreteGrainClass(type);
                    if (isGrainInterface || isGrainClass)
                    {
                        // If code generation is being performed at runtime, the interface must be accessible to the generated code.
                        if (!TypeUtilities.IsAccessibleFromAssembly(type, targetAssembly))
                        {
                            if (this.logger.IsEnabled(LogLevel.Debug))
                            {
                                this.logger.Debug("Skipping inaccessible grain type, {0}", type.GetParseableName());
                            }

                            continue;
                        }

                        // Attempt to generate serializers for grain state classes, i.e, T in Grain<T>.
                        var baseType = type.BaseType;
                        if (baseType != null && baseType.IsConstructedGenericType)
                        {
                            foreach (var arg in baseType.GetGenericArguments())
                            {
                                string logContext = null;
                                if (logger.IsEnabled(LogLevel.Trace))
                                {
                                    logContext = "generic base type of " + type.GetLogFormat();
                                }
                                this.serializableTypes.RecordType(arg, targetAssembly, logContext);
                            }
                        }

                        // Skip classes generated by this generator.
                        if (IsOrleansGeneratedCode(type))
                        {
                            if (this.logger.IsEnabled(LogLevel.Debug))
                            {
                                this.logger.Debug("Skipping generated grain type, {0}", type.GetParseableName());
                            }

                            continue;
                        }

                        if (this.knownGrainTypes.Contains(type))
                        {
                            if (this.logger.IsEnabled(LogLevel.Debug))
                            {
                                this.logger.Debug("Skipping grain type {0} since it already has generated code.", type.GetParseableName());
                            }

                            continue;
                        }

                        if (isGrainClass)
                        {
                            if (this.logger.IsEnabled(LogLevel.Information))
                            {
                                this.logger.Info("Found grain implementation class: {0}", type.GetParseableName());
                            }

                            grainClasses.Add(type);
                        }

                        if (isGrainInterface)
                        {
                            if (this.logger.IsEnabled(LogLevel.Information))
                            {
                                this.logger.Info("Found grain interface: {0}", type.GetParseableName());
                            }

                            GrainInterfaceUtils.ValidateInterfaceRules(type);

                            grainInterfaces.Add(type);
                        }
                    }
                }
            }

            // Group the types by namespace and generate the required code in each namespace.
            foreach (var groupedGrainInterfaces in grainInterfaces.GroupBy(_ => CodeGeneratorCommon.GetGeneratedNamespace(_)))
            {
                var namespaceName    = groupedGrainInterfaces.Key;
                var namespaceMembers = new List <MemberDeclarationSyntax>();
                foreach (var grainInterface in groupedGrainInterfaces)
                {
                    var referenceTypeName = GrainReferenceGenerator.GetGeneratedClassName(grainInterface);
                    var invokerTypeName   = GrainMethodInvokerGenerator.GetGeneratedClassName(grainInterface);
                    namespaceMembers.Add(
                        GrainReferenceGenerator.GenerateClass(
                            grainInterface,
                            referenceTypeName,
                            encounteredType =>
                    {
                        string logContext = null;
                        if (logger.IsEnabled(LogLevel.Trace))
                        {
                            logContext = "used by grain type " + grainInterface.GetLogFormat();
                        }
                        this.serializableTypes.RecordType(encounteredType, targetAssembly, logContext);
                    }));
                    namespaceMembers.Add(GrainMethodInvokerGenerator.GenerateClass(grainInterface, invokerTypeName));
                    var genericTypeSuffix = GetGenericTypeSuffix(grainInterface.GetGenericArguments().Length);
                    features.GrainInterfaces.Add(
                        new GrainInterfaceDescription
                    {
                        Interface   = grainInterface.GetTypeSyntax(includeGenericParameters: false),
                        Reference   = SF.ParseTypeName(namespaceName + '.' + referenceTypeName + genericTypeSuffix),
                        Invoker     = SF.ParseTypeName(namespaceName + '.' + invokerTypeName + genericTypeSuffix),
                        InterfaceId = GrainInterfaceUtils.GetGrainInterfaceId(grainInterface)
                    });
                }

                members.Add(CreateNamespace(namespaceName, namespaceMembers));
            }

            foreach (var type in grainClasses)
            {
                features.GrainClasses.Add(
                    new GrainClassDescription
                {
                    ClassType = type.GetTypeSyntax(includeGenericParameters: false)
                });
            }

            // Generate serializers into their own namespace.
            var serializerNamespace = this.GenerateSerializers(targetAssembly, features);

            members.Add(serializerNamespace);

            // Add serialization metadata for the types which were encountered.
            this.AddSerializationTypes(features.Serializers, targetAssembly, knownAssemblies.Keys.ToList());

            foreach (var attribute in knownAssemblies.Keys.SelectMany(asm => asm.GetCustomAttributes <ConsiderForCodeGenerationAttribute>()))
            {
                this.serializableTypes.RecordType(attribute.Type, targetAssembly, "[ConsiderForCodeGeneration]");
                if (attribute.ThrowOnFailure && !this.serializableTypes.IsTypeRecorded(attribute.Type) && !this.serializableTypes.IsTypeIgnored(attribute.Type))
                {
                    throw new CodeGenerationException(
                              $"Found {attribute.GetType().Name} for type {attribute.Type.GetParseableName()}, but code" +
                              " could not be generated. Ensure that the type is accessible.");
                }
            }

            // Generate metadata directives for all of the relevant types.
            var(attributeDeclarations, memberDeclarations) = FeaturePopulatorGenerator.GenerateSyntax(targetAssembly, features);
            members.AddRange(memberDeclarations);

            var compilationUnit = SF.CompilationUnit().AddAttributeLists(attributeDeclarations.ToArray()).AddMembers(members.ToArray());

            return(new GeneratedSyntax
            {
                SourceAssemblies = knownAssemblies.Keys.ToList(),
                Syntax = compilationUnit
            });
        }
Ejemplo n.º 11
0
        private static GrainReferenceCaster MakeCaster(Type interfaceType)
        {
            var typeInfo = interfaceType.GetTypeInfo();

            CodeGeneratorManager.GenerateAndCacheCodeForAssembly(typeInfo.Assembly);
            var genericInterfaceType = interfaceType.IsConstructedGenericType
                                           ? typeInfo.GetGenericTypeDefinition()
                                           : interfaceType;

            // Try to find the correct GrainReference type for this interface.
            Type grainReferenceType;

            if (!GrainToReferenceMapping.TryGetValue(genericInterfaceType, out grainReferenceType))
            {
                throw new InvalidOperationException(
                          string.Format("Cannot find generated GrainReference class for interface '{0}'", interfaceType));
            }

            if (interfaceType.IsConstructedGenericType)
            {
                grainReferenceType = grainReferenceType.MakeGenericType(typeInfo.GenericTypeArguments);
            }

            // Get the grain reference constructor.
            var constructor =
                grainReferenceType.GetConstructors(BindingFlags.NonPublic | BindingFlags.Public | BindingFlags.Instance)
                .Where(
                    _ =>
            {
                var parameters = _.GetParameters();
                return(parameters.Length == 1 && parameters[0].ParameterType == typeof(GrainReference));
            }).FirstOrDefault();

            if (constructor == null)
            {
                throw new InvalidOperationException(
                          string.Format(
                              "Cannot find suitable constructor on generated reference type for interface '{0}'",
                              interfaceType));
            }

            // Construct an expression to construct a new instance of this grain reference when given another grain
            // reference.
            var createLambdaParameter = Expression.Parameter(typeof(GrainReference), "gr");
            var createLambda          =
                Expression.Lambda <Func <GrainReference, IAddressable> >(
                    Expression.New(constructor, createLambdaParameter),
                    createLambdaParameter);
            var grainRefParameter = Expression.Parameter(typeof(IAddressable), "grainRef");
            var body =
                Expression.Call(
                    GrainReferenceCastInternalMethodInfo,
                    Expression.Constant(interfaceType),
                    createLambda,
                    grainRefParameter,
                    Expression.Constant(GrainInterfaceUtils.GetGrainInterfaceId(interfaceType)));

            // Compile and return the reference casting lambda.
            var lambda = Expression.Lambda <GrainReferenceCaster>(body, grainRefParameter);

            return(lambda.Compile());
        }
Ejemplo n.º 12
0
        /// <summary>
        /// Generates switch cases for the provided grain type.
        /// </summary>
        /// <param name="grainType">
        /// The grain type.
        /// </param>
        /// <param name="methodIdArgument">
        /// The method id argument, which is used to select the correct switch label.
        /// </param>
        /// <param name="generateMethodHandler">
        /// The function used to generate switch block statements for each method.
        /// </param>
        /// <returns>
        /// The switch cases for the provided grain type.
        /// </returns>
        public static SwitchSectionSyntax[] GenerateGrainInterfaceAndMethodSwitch(
            Type grainType,
            ExpressionSyntax methodIdArgument,
            Func <MethodInfo, StatementSyntax[]> generateMethodHandler)
        {
            var interfaces = GrainInterfaceUtils.GetRemoteInterfaces(grainType);

            interfaces[GrainInterfaceUtils.GetGrainInterfaceId(grainType)] = grainType;

            // Switch on interface id.
            var interfaceCases = new List <SwitchSectionSyntax>();

            foreach (var @interface in interfaces)
            {
                var interfaceType = @interface.Value;
                var interfaceId   = @interface.Key;
                var methods       = GrainInterfaceUtils.GetMethods(interfaceType);

                var methodCases = new List <SwitchSectionSyntax>();

                // Switch on method id.
                foreach (var method in methods)
                {
                    // Generate switch case.
                    var methodId   = GrainInterfaceUtils.ComputeMethodId(method);
                    var methodType = method;

                    // Generate the switch label for this interface id.
                    var methodIdSwitchLabel =
                        SF.CaseSwitchLabel(
                            SF.LiteralExpression(SyntaxKind.NumericLiteralExpression, SF.Literal(methodId)));

                    // Generate the switch body.
                    var methodInvokeStatement = generateMethodHandler(methodType);

                    methodCases.Add(
                        SF.SwitchSection().AddLabels(methodIdSwitchLabel).AddStatements(methodInvokeStatement));
                }

                // Generate the switch label for this interface id.
                var interfaceIdSwitchLabel =
                    SF.CaseSwitchLabel(
                        SF.LiteralExpression(SyntaxKind.NumericLiteralExpression, SF.Literal(interfaceId)));

                // Generate the default case, which will throw a NotImplementedException.
                var errorMessage = SF.BinaryExpression(
                    SyntaxKind.AddExpression,
                    "interfaceId=".GetLiteralExpression(),
                    SF.BinaryExpression(
                        SyntaxKind.AddExpression,
                        SF.LiteralExpression(SyntaxKind.NumericLiteralExpression, SF.Literal(interfaceId)),
                        SF.BinaryExpression(
                            SyntaxKind.AddExpression,
                            ",methodId=".GetLiteralExpression(),
                            methodIdArgument)));
                var throwStatement =
                    SF.ThrowStatement(
                        SF.ObjectCreationExpression(typeof(NotImplementedException).GetTypeSyntax())
                        .AddArgumentListArguments(SF.Argument(errorMessage)));
                var defaultCase = SF.SwitchSection().AddLabels(SF.DefaultSwitchLabel()).AddStatements(throwStatement);

                // Generate switch statements for the methods in this interface.
                var methodSwitchStatements =
                    SF.SwitchStatement(methodIdArgument).AddSections(methodCases.ToArray()).AddSections(defaultCase);

                // Generate the switch section for this interface.
                interfaceCases.Add(
                    SF.SwitchSection().AddLabels(interfaceIdSwitchLabel).AddStatements(methodSwitchStatements));
            }

            return(interfaceCases.ToArray());
        }
Ejemplo n.º 13
0
        /// <summary>
        /// Generates a syntax tree for the provided assemblies.
        /// </summary>
        /// <param name="assemblies">The assemblies to generate code for.</param>
        /// <param name="runtime">Whether or not runtime code generation is being performed.</param>
        /// <returns>The generated syntax tree.</returns>
        private static GeneratedSyntax GenerateForAssemblies(List <Assembly> assemblies, bool runtime)
        {
            if (Logger.IsVerbose)
            {
                Logger.Verbose(
                    "Generating code for assemblies: {0}",
                    string.Join(", ", assemblies.Select(_ => _.FullName)));
            }

            Assembly       targetAssembly;
            HashSet <Type> ignoredTypes;

            if (runtime)
            {
                // Ignore types which have already been accounted for.
                ignoredTypes   = GetTypesWithGeneratedSupportClasses();
                targetAssembly = null;
            }
            else
            {
                ignoredTypes   = new HashSet <Type>();
                targetAssembly = assemblies.FirstOrDefault();
            }

            var members = new List <MemberDeclarationSyntax>();

            // If any KnownAssemblies have been specified, include them during code generation.
            var knownAssemblies =
                assemblies.SelectMany(_ => _.GetCustomAttributes <KnownAssemblyAttribute>())
                .Select(_ => _.Assembly)
                .Distinct()
                .ToSet();

            if (knownAssemblies.Count > 0)
            {
                knownAssemblies.UnionWith(assemblies);
                assemblies = knownAssemblies.ToList();
            }

            // Get types from assemblies which reference Orleans and are not generated assemblies.
            var includedTypes = new HashSet <Type>();

            for (var i = 0; i < assemblies.Count; i++)
            {
                var assembly = assemblies[i];
                foreach (var attribute in assembly.GetCustomAttributes <KnownTypeAttribute>())
                {
                    ConsiderType(attribute.Type, runtime, targetAssembly, includedTypes);
                }

                foreach (var type in assembly.DefinedTypes)
                {
                    ConsiderType(type, runtime, targetAssembly, includedTypes);
                }
            }

            includedTypes.RemoveWhere(_ => ignoredTypes.Contains(_));

            // Group the types by namespace and generate the required code in each namespace.
            foreach (var group in includedTypes.GroupBy(_ => CodeGeneratorCommon.GetGeneratedNamespace(_)))
            {
                var namespaceMembers = new List <MemberDeclarationSyntax>();
                foreach (var type in group)
                {
                    // The module containing the serializer.
                    var module = runtime ? null : type.Module;

                    // Every type which is encountered must be considered for serialization.
                    Action <Type> onEncounteredType = encounteredType =>
                    {
                        // If a type was encountered which can be accessed, process it for serialization.
                        SerializerGenerationManager.RecordTypeToGenerate(encounteredType, module, targetAssembly);
                    };

                    if (Logger.IsVerbose2)
                    {
                        Logger.Verbose2("Generating code for: {0}", type.GetParseableName());
                    }

                    if (GrainInterfaceUtils.IsGrainInterface(type))
                    {
                        if (Logger.IsVerbose2)
                        {
                            Logger.Verbose2(
                                "Generating GrainReference and MethodInvoker for {0}",
                                type.GetParseableName());
                        }

                        GrainInterfaceUtils.ValidateInterfaceRules(type);

                        namespaceMembers.Add(GrainReferenceGenerator.GenerateClass(type, onEncounteredType));
                        namespaceMembers.Add(GrainMethodInvokerGenerator.GenerateClass(type));
                    }

                    // Generate serializers.
                    var  first = true;
                    Type toGen;
                    while (SerializerGenerationManager.GetNextTypeToProcess(out toGen))
                    {
                        if (!runtime)
                        {
                            if (first)
                            {
                                ConsoleText.WriteStatus("ClientGenerator - Generating serializer classes for types:");
                                first = false;
                            }

                            ConsoleText.WriteStatus(
                                "\ttype " + toGen.FullName + " in namespace " + toGen.Namespace
                                + " defined in Assembly " + toGen.Assembly.GetName());
                        }

                        if (Logger.IsVerbose2)
                        {
                            Logger.Verbose2(
                                "Generating & Registering Serializer for Type {0}",
                                toGen.GetParseableName());
                        }

                        namespaceMembers.AddRange(SerializerGenerator.GenerateClass(toGen, onEncounteredType));
                    }
                }

                if (namespaceMembers.Count == 0)
                {
                    if (Logger.IsVerbose)
                    {
                        Logger.Verbose2("Skipping namespace: {0}", group.Key);
                    }

                    continue;
                }

                members.Add(
                    SF.NamespaceDeclaration(SF.ParseName(group.Key))
                    .AddUsings(
                        TypeUtils.GetNamespaces(typeof(TaskUtility), typeof(GrainExtensions), typeof(IntrospectionExtensions))
                        .Select(_ => SF.UsingDirective(SF.ParseName(_)))
                        .ToArray())
                    .AddMembers(namespaceMembers.ToArray()));
            }

            return(new GeneratedSyntax
            {
                SourceAssemblies = assemblies,
                Syntax = members.Count > 0 ? SF.CompilationUnit().AddMembers(members.ToArray()) : null
            });
        }
Ejemplo n.º 14
0
        /// <summary>
        /// Generates a syntax tree for the provided assemblies.
        /// </summary>
        /// <param name="assemblies">The assemblies to generate code for.</param>
        /// <param name="runtime">Whether or not runtime code generation is being performed.</param>
        /// <returns>The generated syntax tree.</returns>
        private GeneratedSyntax GenerateForAssemblies(Assembly targetAssembly, bool runtime)
        {
            var grainInterfaces    = new List <GrainInterfaceDescription>();
            var grainClasses       = new List <GrainClassDescription>();
            var serializationTypes = new SerializationTypeDescriptions();

            var members = new List <MemberDeclarationSyntax>();

            // Expand the list of included assemblies and types.
            var(includedTypes, assemblies) = this.GetIncludedTypes(targetAssembly, runtime);

            if (Logger.IsVerbose)
            {
                Logger.Verbose(
                    "Generating code for assemblies: {0}",
                    string.Join(", ", assemblies.Select(_ => _.FullName)));
            }

            var serializerNamespaceMembers = new List <MemberDeclarationSyntax>();
            var serializerNamespaceName    = $"{SerializerNamespacePrefix}{targetAssembly?.GetName().Name.GetHashCode():X}";

            // Group the types by namespace and generate the required code in each namespace.
            foreach (var group in includedTypes.GroupBy(_ => CodeGeneratorCommon.GetGeneratedNamespace(_)))
            {
                var namespaceMembers = new List <MemberDeclarationSyntax>();
                var namespaceName    = group.Key;
                foreach (var type in group)
                {
                    // Skip generated classes.
                    if (type.GetCustomAttribute <GeneratedCodeAttribute>() != null)
                    {
                        continue;
                    }

                    // Every type which is encountered must be considered for serialization.
                    void OnEncounteredType(Type encounteredType)
                    {
                        // If a type was encountered which can be accessed, process it for serialization.
                        this.typeCollector.RecordEncounteredType(type);
                        this.serializerGenerationManager.RecordTypeToGenerate(encounteredType, targetAssembly);
                    }

                    if (Logger.IsVerbose2)
                    {
                        Logger.Verbose2("Generating code for: {0}", type.GetParseableName());
                    }

                    if (GrainInterfaceUtils.IsGrainInterface(type))
                    {
                        if (Logger.IsVerbose2)
                        {
                            Logger.Verbose2(
                                "Generating GrainReference and MethodInvoker for {0}",
                                type.GetParseableName());
                        }

                        GrainInterfaceUtils.ValidateInterfaceRules(type);

                        var referenceTypeName = GrainReferenceGenerator.GetGeneratedClassName(type);
                        var invokerTypeName   = GrainMethodInvokerGenerator.GetGeneratedClassName(type);
                        namespaceMembers.Add(GrainReferenceGenerator.GenerateClass(type, referenceTypeName, OnEncounteredType));
                        namespaceMembers.Add(GrainMethodInvokerGenerator.GenerateClass(type, invokerTypeName));
                        var genericTypeSuffix = GetGenericTypeSuffix(type.GetGenericArguments().Length);
                        grainInterfaces.Add(
                            new GrainInterfaceDescription
                        {
                            Interface   = type.GetTypeSyntax(includeGenericParameters: false),
                            Reference   = SF.ParseTypeName(namespaceName + '.' + referenceTypeName + genericTypeSuffix),
                            Invoker     = SF.ParseTypeName(namespaceName + '.' + invokerTypeName + genericTypeSuffix),
                            InterfaceId = GrainInterfaceUtils.GetGrainInterfaceId(type)
                        });
                    }

                    if (TypeUtils.IsConcreteGrainClass(type))
                    {
                        grainClasses.Add(
                            new GrainClassDescription
                        {
                            ClassType = type.GetTypeSyntax(includeGenericParameters: false)
                        });
                    }

                    // Generate serializers.
                    var first = true;
                    while (this.serializerGenerationManager.GetNextTypeToProcess(out var toGen))
                    {
                        if (first)
                        {
                            Logger.Info("ClientGenerator - Generating serializer classes for types:");
                            first = false;
                        }

                        Logger.Info(
                            "\ttype " + toGen.FullName + " in namespace " + toGen.Namespace
                            + " defined in Assembly " + toGen.GetTypeInfo().Assembly.GetName());

                        if (Logger.IsVerbose2)
                        {
                            Logger.Verbose2(
                                "Generating serializer for type {0}",
                                toGen.GetParseableName());
                        }

                        var generatedSerializerName = SerializerGenerator.GetGeneratedClassName(toGen);
                        serializerNamespaceMembers.Add(SerializerGenerator.GenerateClass(generatedSerializerName, toGen, OnEncounteredType));
                        var qualifiedSerializerName = serializerNamespaceName + '.' + generatedSerializerName + GetGenericTypeSuffix(toGen.GetGenericArguments().Length);
                        serializationTypes.SerializerTypes.Add(
                            new SerializerTypeDescription
                        {
                            Serializer = SF.ParseTypeName(qualifiedSerializerName),
                            Target     = toGen.GetTypeSyntax(includeGenericParameters: false)
                        });
                    }
                }

                if (namespaceMembers.Count == 0)
                {
                    if (Logger.IsVerbose)
                    {
                        Logger.Verbose2("Skipping namespace: {0}", namespaceName);
                    }

                    continue;
                }

                members.Add(CreateNamespace(namespaceName, namespaceMembers));
            }

            // Add all generated serializers to their own namespace.
            members.Add(CreateNamespace(serializerNamespaceName, serializerNamespaceMembers));

            // Add serialization metadata for the types which were encountered.
            this.AddSerializationTypes(serializationTypes, targetAssembly);

            // Generate metadata directives for all of the relevant types.
            var(attributeDeclarations, memberDeclarations) = FeaturePopulatorGenerator.GenerateSyntax(targetAssembly, grainInterfaces, grainClasses, serializationTypes);
            members.AddRange(memberDeclarations);

            var compilationUnit = SF.CompilationUnit().AddAttributeLists(attributeDeclarations.ToArray()).AddMembers(members.ToArray());

            return(new GeneratedSyntax
            {
                SourceAssemblies = assemblies,
                Syntax = compilationUnit
            });

            string GetGenericTypeSuffix(int numParams)
            {
                if (numParams == 0)
                {
                    return(string.Empty);
                }
                return('<' + new string(',', numParams - 1) + '>');
            }

            NamespaceDeclarationSyntax CreateNamespace(string namespaceName, IEnumerable <MemberDeclarationSyntax> namespaceMembers)
            {
                return
                    (SF.NamespaceDeclaration(SF.ParseName(namespaceName))
                     .AddUsings(
                         TypeUtils.GetNamespaces(typeof(GrainExtensions), typeof(IntrospectionExtensions))
                         .Select(_ => SF.UsingDirective(SF.ParseName(_)))
                         .ToArray())
                     .AddMembers(namespaceMembers.ToArray()));
            }
        }