Beispiel #1
0
        private void CompileFieldLikeEventAccessor(SourceEventSymbol eventSymbol, bool isAddMethod, TypeCompilationState compilationState)
        {
            MethodSymbol accessor = isAddMethod ? eventSymbol.AddMethod : eventSymbol.RemoveMethod;

            var diagnosticsThisMethod = DiagnosticBag.GetInstance();

            try
            {
                BoundBlock boundBody = MethodBodySynthesizer.ConstructFieldLikeEventAccessorBody(eventSymbol, isAddMethod, compilation, diagnosticsThisMethod);
                var        hasErrors = diagnosticsThisMethod.HasAnyErrors();
                SetGlobalErrorIfTrue(hasErrors);

                // we cannot rely on GlobalHasErrors since that can be changed concurrently by other methods compiling
                // we however do not want to continue with generating method body if we have errors in this particular method - generating may crash
                // or if had declaration errors - we will fail anyways, but if some types are bad enough, generating may produce duplicate errors about that.
                if (!hasErrors && !hasDeclarationErrors)
                {
                    MethodBody emittedBody = Compiler.GenerateMethodBody(
                        compilationState,
                        accessor,
                        boundBody,
                        diagnosticsThisMethod,
                        optimize,
                        debugDocumentProvider,
                        default(ImmutableArray <NamespaceScope>));

                    moduleBeingBuilt.SetMethodBody(accessor, emittedBody);
                    // Definition is already in the symbol table, so don't call moduleBeingBuilt.AddCompilerGeneratedDefinition
                }
            }
            finally
            {
                diagnostics.AddRange(diagnosticsThisMethod);
                diagnosticsThisMethod.Free();
            }
        }
Beispiel #2
0
        // NOTE: can return null if the method has no body.
        internal static BoundBlock BindMethodBody(MethodSymbol method, TypeCompilationState compilationState, DiagnosticBag diagnostics, bool generateDebugInfo, out ConsList <Imports> debugImports)
        {
            debugImports = null;

            BoundStatement constructorInitializer = null;
            BoundBlock     body;

            var compilation = method.DeclaringCompilation;

            var sourceMethod = method as SourceMethodSymbol;

            if ((object)sourceMethod != null)
            {
                if (sourceMethod.IsExtern)
                {
                    if (sourceMethod.BlockSyntax == null)
                    {
                        // Generate warnings only if we are not generating ERR_ExternHasBody error
                        GenerateExternalMethodWarnings(sourceMethod, diagnostics);
                    }
                    return(null);
                }
                else if (sourceMethod.IsParameterlessValueTypeConstructor(requireSynthesized: true))
                {
                    // No body for default struct constructor.
                    return(null);
                }

                var blockSyntax = sourceMethod.BlockSyntax;
                if (blockSyntax != null)
                {
                    var factory        = compilation.GetBinderFactory(sourceMethod.SyntaxTree);
                    var inMethodBinder = factory.GetBinder(blockSyntax);
                    var binder         = new ExecutableCodeBinder(blockSyntax, sourceMethod, inMethodBinder);
                    body = binder.BindBlock(blockSyntax, diagnostics);
                    if (generateDebugInfo)
                    {
                        debugImports = binder.ImportsList;
                    }
                    if (inMethodBinder.IsDirectlyInIterator)
                    {
                        foreach (var parameter in method.Parameters)
                        {
                            if (parameter.RefKind != RefKind.None)
                            {
                                diagnostics.Add(ErrorCode.ERR_BadIteratorArgType, parameter.Locations[0]);
                            }
                            else if (parameter.Type.IsUnsafe())
                            {
                                diagnostics.Add(ErrorCode.ERR_UnsafeIteratorArgType, parameter.Locations[0]);
                            }
                        }

                        if (sourceMethod.IsUnsafe && compilation.Options.AllowUnsafe) // Don't cascade
                        {
                            diagnostics.Add(ErrorCode.ERR_IllegalInnerUnsafe, sourceMethod.Locations[0]);
                        }

                        if (sourceMethod.IsVararg)
                        {
                            // error CS1636: __arglist is not allowed in the parameter list of iterators
                            diagnostics.Add(ErrorCode.ERR_VarargsIterator, sourceMethod.Locations[0]);
                        }
                    }
                }
                else // for [if (blockSyntax != null)]
                {
                    var property = sourceMethod.AssociatedSymbol as SourcePropertySymbol;
                    if ((object)property != null && property.IsAutoProperty)
                    {
                        return(MethodBodySynthesizer.ConstructAutoPropertyAccessorBody(sourceMethod));
                    }

                    if (sourceMethod.IsPrimaryCtor)
                    {
                        body = null;
                    }
                    else
                    {
                        return(null);
                    }
                }
            }
            else
            {
                //  synthesized methods should return their bound bodies
                body = null;
            }

            // delegates have constructors but not constructor initializers
            if (method.MethodKind == MethodKind.Constructor && !method.ContainingType.IsDelegateType())
            {
                var initializerInvocation = BindConstructorInitializer(method, diagnostics, compilation);

                if (initializerInvocation != null)
                {
                    constructorInitializer = new BoundExpressionStatement(initializerInvocation.Syntax, initializerInvocation)
                    {
                        WasCompilerGenerated = true
                    };
                    Debug.Assert(initializerInvocation.HasAnyErrors || constructorInitializer.IsConstructorInitializer(), "Please keep this bound node in sync with BoundNodeExtensions.IsConstructorInitializer.");
                }
            }

            var statements = ArrayBuilder <BoundStatement> .GetInstance();

            if (constructorInitializer != null)
            {
                statements.Add(constructorInitializer);
            }

            if ((object)sourceMethod != null && sourceMethod.IsPrimaryCtor && (object)((SourceMemberContainerTypeSymbol)sourceMethod.ContainingType).PrimaryCtor == (object)sourceMethod)
            {
                Debug.Assert(method.MethodKind == MethodKind.Constructor && !method.ContainingType.IsDelegateType());
                Debug.Assert(body == null);

                if (sourceMethod.ParameterCount > 0)
                {
                    var factory = new SyntheticBoundNodeFactory(sourceMethod, sourceMethod.SyntaxNode, compilationState, diagnostics);
                    factory.CurrentMethod = sourceMethod;

                    foreach (var parameter in sourceMethod.Parameters)
                    {
                        FieldSymbol field = parameter.PrimaryConstructorParameterBackingField;

                        if ((object)field != null)
                        {
                            statements.Add(factory.Assignment(factory.Field(factory.This(), field),
                                                              factory.Parameter(parameter)));
                        }
                    }
                }
            }

            if (body != null)
            {
                statements.Add(body);
            }

            CSharpSyntaxNode syntax = body != null ? body.Syntax : method.GetNonNullSyntaxNode();

            BoundBlock block;

            if (statements.Count == 1 && statements[0].Kind == ((body == null) ? BoundKind.Block : body.Kind))
            {
                // most common case - we just have a single block for the body.
                block = (BoundBlock)statements[0];
                statements.Free();
            }
            else
            {
                block = new BoundBlock(syntax, default(ImmutableArray <LocalSymbol>), statements.ToImmutableAndFree())
                {
                    WasCompilerGenerated = true
                };
            }

            return(method.MethodKind == MethodKind.Destructor ? MethodBodySynthesizer.ConstructDestructorBody(syntax, method, block) : block);
        }
Beispiel #3
0
        //TODO: it might be nice to make this a static method on Compiler
        private void CompileMethod(
            MethodSymbol methodSymbol,
            ref ProcessedFieldInitializers processedInitializers,
            SynthesizedSubmissionFields previousSubmissionFields,
            TypeCompilationState compilationState)
        {
            cancellationToken.ThrowIfCancellationRequested();
            SourceMethodSymbol sourceMethod = methodSymbol as SourceMethodSymbol;

            if (methodSymbol.IsAbstract)
            {
                if ((object)sourceMethod != null)
                {
                    bool diagsWritten;
                    sourceMethod.SetDiagnostics(ImmutableArray <Diagnostic> .Empty, out diagsWritten);
                    if (diagsWritten && !methodSymbol.IsImplicitlyDeclared && compilation.EventQueue != null)
                    {
                        compilation.SymbolDeclaredEvent(methodSymbol);
                    }
                }

                return;
            }

            // get cached diagnostics if not building and we have 'em
            bool calculateDiagnosticsOnly = moduleBeingBuilt == null;

            if (calculateDiagnosticsOnly && ((object)sourceMethod != null))
            {
                var cachedDiagnostics = sourceMethod.Diagnostics;

                if (!cachedDiagnostics.IsDefault)
                {
                    this.diagnostics.AddRange(cachedDiagnostics);
                    return;
                }
            }

            ConsList <Imports> oldDebugImports = compilationState.CurrentDebugImports;

            // In order to avoid generating code for methods with errors, we create a diagnostic bag just for this method.
            DiagnosticBag diagsForCurrentMethod = DiagnosticBag.GetInstance();

            try
            {
                bool       includeInitializersInBody;
                BoundBlock body;

                // if synthesized method returns its body in lowered form
                if (methodSymbol.SynthesizesLoweredBoundBody)
                {
                    if (moduleBeingBuilt != null)
                    {
                        methodSymbol.GenerateMethodBody(compilationState, diagsForCurrentMethod);
                        this.diagnostics.AddRange(diagsForCurrentMethod);
                    }

                    return;
                }

                //EDMAURER initializers that have been analyzed but not yet lowered.
                BoundStatementList analyzedInitializers = null;

                ConsList <Imports> debugImports;

                if (methodSymbol.IsScriptConstructor)
                {
                    // rewrite top-level statements and script variable declarations to a list of statements and assignments, respectively:
                    BoundStatementList initializerStatements = InitializerRewriter.Rewrite(processedInitializers.BoundInitializers, methodSymbol);

                    // the lowered script initializers should not be treated as initializers anymore but as a method body:
                    body = new BoundBlock(initializerStatements.Syntax, ImmutableArray <LocalSymbol> .Empty, initializerStatements.Statements)
                    {
                        WasCompilerGenerated = true
                    };
                    includeInitializersInBody = false;

                    debugImports = null;
                }
                else
                {
                    // do not emit initializers if we are invoking another constructor of this class:
                    includeInitializersInBody = !processedInitializers.BoundInitializers.IsDefaultOrEmpty && !HasThisConstructorInitializer(methodSymbol);

                    // lower initializers just once. the lowered tree will be reused when emitting all constructors
                    // with field initializers. Once lowered, these initializers will be stashed in processedInitializers.LoweredInitializers
                    // (see later in this method). Don't bother lowering _now_ if this particular ctor won't have the initializers
                    // appended to its body.
                    if (includeInitializersInBody && processedInitializers.LoweredInitializers == null)
                    {
                        analyzedInitializers            = InitializerRewriter.Rewrite(processedInitializers.BoundInitializers, methodSymbol);
                        processedInitializers.HasErrors = processedInitializers.HasErrors || analyzedInitializers.HasAnyErrors;

                        // These analyses check for diagnostics in lambdas.
                        // Control flow analysis and implicit return insertion are unnecessary.
                        DataFlowPass.Analyze(compilation, methodSymbol, analyzedInitializers, diagsForCurrentMethod, requireOutParamsAssigned: false);
                        DiagnosticsPass.IssueDiagnostics(compilation, analyzedInitializers, diagsForCurrentMethod, methodSymbol);
                    }

                    body = Compiler.BindMethodBody(methodSymbol, diagsForCurrentMethod, this.generateDebugInfo, out debugImports);
                }

#if DEBUG
                // If the method is a synthesized static or instance constructor, then debugImports will be null and we will use the value
                // from the first field initializer.
                if (this.generateDebugInfo)
                {
                    if ((methodSymbol.MethodKind == MethodKind.Constructor || methodSymbol.MethodKind == MethodKind.StaticConstructor) && methodSymbol.IsImplicitlyDeclared)
                    {
                        // There was no body to bind, so we didn't get anything from Compiler.BindMethodBody.
                        Debug.Assert(debugImports == null);
                        // Either there were no field initializers or we grabbed debug imports from the first one.
                        Debug.Assert(processedInitializers.BoundInitializers.IsDefaultOrEmpty || processedInitializers.FirstDebugImports != null);
                    }
                }
#endif

                debugImports = debugImports ?? processedInitializers.FirstDebugImports;

                // Associate these debug imports with all methods generated from this one.
                compilationState.CurrentDebugImports = debugImports;

                if (body != null && methodSymbol is SourceMethodSymbol)
                {
                    // TODO: Do we need to issue warnings for non-SourceMethodSymbol methods, like synthesized ctors?
                    DiagnosticsPass.IssueDiagnostics(compilation, body, diagsForCurrentMethod, methodSymbol);
                }

                BoundBlock flowAnalyzedBody = null;
                if (body != null)
                {
                    flowAnalyzedBody = FlowAnalysisPass.Rewrite(methodSymbol, body, diagsForCurrentMethod);
                }

                bool hasErrors = hasDeclarationErrors || diagsForCurrentMethod.HasAnyErrors() || processedInitializers.HasErrors;

                // Record whether or not the bound tree for the lowered method body (including any initializers) contained any
                // errors (note: errors, not diagnostics).
                SetGlobalErrorIfTrue(hasErrors);

                bool diagsWritten      = false;
                var  actualDiagnostics = diagsForCurrentMethod.ToReadOnly();
                if (sourceMethod != null)
                {
                    actualDiagnostics = sourceMethod.SetDiagnostics(actualDiagnostics, out diagsWritten);
                }
                if (diagsWritten && !methodSymbol.IsImplicitlyDeclared && compilation.EventQueue != null)
                {
                    var lazySemanticModel = body == null ? null : new Lazy <SemanticModel>(() =>
                    {
                        var syntax        = body.Syntax;
                        var semanticModel = (CSharpSemanticModel)compilation.GetSemanticModel(syntax.SyntaxTree);
                        var memberModel   = semanticModel.GetMemberModel(syntax);
                        if (memberModel != null)
                        {
                            memberModel.AddBoundTreeForStandaloneSyntax(syntax, body);
                        }
                        return(semanticModel);
                    });
                    compilation.EventQueue.Enqueue(new CompilationEvent.SymbolDeclared(compilation, methodSymbol, lazySemanticModel));
                }

                // Don't lower if we're not emitting or if there were errors.
                // Methods that had binding errors are considered too broken to be lowered reliably.
                if (calculateDiagnosticsOnly || hasErrors)
                {
                    this.diagnostics.AddRange(actualDiagnostics);
                    return;
                }

                // ############################
                // LOWERING AND EMIT
                // Any errors generated below here are considered Emit diagnostics
                // and will not be reported to callers Compilation.GetDiagnostics()

                BoundStatement loweredBody = (flowAnalyzedBody == null) ? null :
                                             Compiler.LowerStatement(this.generateDebugInfo, methodSymbol, flowAnalyzedBody, previousSubmissionFields, compilationState, diagsForCurrentMethod);

                bool hasBody = loweredBody != null;

                hasErrors = hasErrors || (hasBody && loweredBody.HasErrors) || diagsForCurrentMethod.HasAnyErrors();
                SetGlobalErrorIfTrue(hasErrors);

                // don't emit if the resulting method would contain initializers with errors
                if (!hasErrors && (hasBody || includeInitializersInBody))
                {
                    // Fields must be initialized before constructor initializer (which is the first statement of the analyzed body, if specified),
                    // so that the initialization occurs before any method overridden by the declaring class can be invoked from the base constructor
                    // and access the fields.

                    ImmutableArray <BoundStatement> boundStatements;

                    if (methodSymbol.IsScriptConstructor)
                    {
                        boundStatements = MethodBodySynthesizer.ConstructScriptConstructorBody(loweredBody, methodSymbol, previousSubmissionFields, compilation);
                    }
                    else
                    {
                        boundStatements = ImmutableArray <BoundStatement> .Empty;

                        if (analyzedInitializers != null)
                        {
                            processedInitializers.LoweredInitializers = (BoundStatementList)Compiler.LowerStatement(
                                this.generateDebugInfo,
                                methodSymbol,
                                analyzedInitializers,
                                previousSubmissionFields,
                                compilationState,
                                diagsForCurrentMethod);

                            Debug.Assert(!hasErrors);
                            hasErrors = processedInitializers.LoweredInitializers.HasAnyErrors || diagsForCurrentMethod.HasAnyErrors();
                            SetGlobalErrorIfTrue(hasErrors);

                            if (hasErrors)
                            {
                                this.diagnostics.AddRange(diagsForCurrentMethod);
                                return;
                            }
                        }

                        // initializers for global code have already been included in the body
                        if (includeInitializersInBody)
                        {
                            //TODO: rewrite any BoundThis and BoundBase nodes in the initializers to have the correct ThisParameter symbol
                            if (compilation.Options.Optimize)
                            {
                                // TODO: this part may conflict with InitializerRewriter.Rewrite in how it handles
                                //       the first field initializer (see 'if (i == 0)'...) which seems suspicious
                                ArrayBuilder <BoundStatement> statements = ArrayBuilder <BoundStatement> .GetInstance();

                                statements.AddRange(boundStatements);
                                bool anyNonDefault = false;

                                foreach (var initializer in processedInitializers.LoweredInitializers.Statements)
                                {
                                    if (ShouldOptimizeOutInitializer(initializer))
                                    {
                                        if (methodSymbol.IsStatic)
                                        {
                                            // NOTE: Dev11 removes static initializers if ONLY all of them are optimized out
                                            statements.Add(initializer);
                                        }
                                    }
                                    else
                                    {
                                        statements.Add(initializer);
                                        anyNonDefault = true;
                                    }
                                }

                                if (anyNonDefault)
                                {
                                    boundStatements = statements.ToImmutableAndFree();
                                }
                                else
                                {
                                    statements.Free();
                                }
                            }
                            else
                            {
                                boundStatements = boundStatements.Concat(processedInitializers.LoweredInitializers.Statements);
                            }
                        }

                        if (hasBody)
                        {
                            boundStatements = boundStatements.Concat(ImmutableArray.Create(loweredBody));
                        }
                    }

                    CSharpSyntaxNode syntax = methodSymbol.GetNonNullSyntaxNode();

                    var boundBody = BoundStatementList.Synthesized(syntax, boundStatements);

                    var emittedBody = Compiler.GenerateMethodBody(
                        compilationState,
                        methodSymbol,
                        boundBody,
                        diagsForCurrentMethod,
                        optimize,
                        debugDocumentProvider,
                        GetNamespaceScopes(methodSymbol, debugImports));

                    moduleBeingBuilt.SetMethodBody(methodSymbol, emittedBody);
                }

                this.diagnostics.AddRange(diagsForCurrentMethod);
            }
            finally
            {
                diagsForCurrentMethod.Free();
                compilationState.CurrentDebugImports = oldDebugImports;
            }
        }