internal SourceFieldLikeEventSymbol(SourceMemberContainerTypeSymbol containingType, Binder binder, SyntaxTokenList modifiers, VariableDeclaratorSyntax declaratorSyntax, DiagnosticBag diagnostics)
            : base(containingType, declaratorSyntax, modifiers, isFieldLike: true, interfaceSpecifierSyntaxOpt: null,
                   nameTokenSyntax: declaratorSyntax.Identifier, diagnostics: diagnostics)
        {
            _name = declaratorSyntax.Identifier.ValueText;

            var declaratorDiagnostics = DiagnosticBag.GetInstance();
            var declarationSyntax     = (VariableDeclarationSyntax)declaratorSyntax.Parent;

            _type = BindEventType(binder, declarationSyntax.Type, declaratorDiagnostics);

            // The runtime will not treat the accessors of this event as overrides or implementations
            // of those of another event unless both the signatures and the custom modifiers match.
            // Hence, in the case of overrides and *explicit* implementations (not possible for field-like
            // events), we need to copy the custom modifiers that are in the signatures of the
            // overridden/implemented event accessors. (From source, we know that there can only be one
            // overridden/implemented event, so there are no conflicts.)  This is unnecessary for implicit
            // implementations because, if the custom modifiers don't match, we'll insert bridge methods
            // for the accessors (explicit implementations that delegate to the implicit implementations)
            // with the correct custom modifiers (see SourceMemberContainerTypeSymbol.SynthesizeInterfaceMemberImplementation).

            // If this event is an override, we may need to copy custom modifiers from
            // the overridden event (so that the runtime will recognize it as an override).
            // We check for this case here, while we can still modify the parameters and
            // return type without losing the appearance of immutability.
            if (this.IsOverride)
            {
                EventSymbol overriddenEvent = this.OverriddenEvent;
                if ((object)overriddenEvent != null)
                {
                    CopyEventCustomModifiers(overriddenEvent, ref _type, ContainingAssembly);
                }
            }

            bool hasInitializer  = declaratorSyntax.Initializer != null;
            bool inInterfaceType = containingType.IsInterfaceType();

            if (hasInitializer)
            {
                if (inInterfaceType && !this.IsStatic)
                {
                    diagnostics.Add(ErrorCode.ERR_InterfaceEventInitializer, this.Locations[0], this);
                }
                else if (this.IsAbstract)
                {
                    diagnostics.Add(ErrorCode.ERR_AbstractEventInitializer, this.Locations[0], this);
                }
            }

            // NOTE: if there's an initializer in source, we'd better create a backing field, regardless of
            // whether or not the initializer is legal.
            if (hasInitializer || !(this.IsExtern || this.IsAbstract))
            {
                _associatedField = MakeAssociatedField(declaratorSyntax);
                // Don't initialize this.type - we'll just use the type of the field (which is lazy and handles var)
            }

            if (!IsStatic && ContainingType.IsReadOnly)
            {
                diagnostics.Add(ErrorCode.ERR_FieldlikeEventsInRoStruct, this.Locations[0]);
            }

            if (inInterfaceType)
            {
                if (this.IsExtern || this.IsStatic)
                {
                    if (!ContainingAssembly.RuntimeSupportsDefaultInterfaceImplementation)
                    {
                        diagnostics.Add(ErrorCode.ERR_RuntimeDoesNotSupportDefaultInterfaceImplementation, this.Locations[0]);
                    }
                }
                else if (!this.IsAbstract)
                {
                    diagnostics.Add(ErrorCode.ERR_EventNeedsBothAccessors, this.Locations[0], this);
                }
            }

            // Accessors will assume that Type is available.
            _addMethod    = new SynthesizedFieldLikeEventAccessorSymbol(this, isAdder: true);
            _removeMethod = new SynthesizedFieldLikeEventAccessorSymbol(this, isAdder: false);

            if (declarationSyntax.Variables[0] == declaratorSyntax)
            {
                // Don't report these diagnostics for every declarator in this declaration.
                diagnostics.AddRange(declaratorDiagnostics);
            }

            declaratorDiagnostics.Free();
        }
Exemplo n.º 2
0
        internal SourceCustomEventSymbol(SourceMemberContainerTypeSymbol containingType, Binder binder, EventDeclarationSyntax syntax, DiagnosticBag diagnostics) :
            base(containingType, syntax, syntax.Modifiers, syntax.ExplicitInterfaceSpecifier, syntax.Identifier, diagnostics)
        {
            ExplicitInterfaceSpecifierSyntax interfaceSpecifier = syntax.ExplicitInterfaceSpecifier;
            SyntaxToken nameToken = syntax.Identifier;
            bool isExplicitInterfaceImplementation = interfaceSpecifier != null;

            string aliasQualifierOpt;
            _name = ExplicitInterfaceHelpers.GetMemberNameAndInterfaceSymbol(binder, interfaceSpecifier, nameToken.ValueText, diagnostics, out _explicitInterfaceType, out aliasQualifierOpt);

            _type = BindEventType(binder, syntax.Type, diagnostics);

            var explicitlyImplementedEvent = this.FindExplicitlyImplementedEvent(_explicitInterfaceType, nameToken.ValueText, interfaceSpecifier, diagnostics);

            // The runtime will not treat the accessors of this event as overrides or implementations
            // of those of another event unless both the signatures and the custom modifiers match.
            // Hence, in the case of overrides and *explicit* implementations, we need to copy the custom
            // modifiers that are in the signatures of the overridden/implemented event accessors.
            // (From source, we know that there can only be one overridden/implemented event, so there
            // are no conflicts.)  This is unnecessary for implicit implementations because, if the custom
            // modifiers don't match, we'll insert bridge methods for the accessors (explicit implementations 
            // that delegate to the implicit implementations) with the correct custom modifiers
            // (see SourceNamedTypeSymbol.ImplementInterfaceMember).

            // Note: we're checking if the syntax indicates explicit implementation rather,
            // than if explicitInterfaceType is null because we don't want to look for an
            // overridden event if this is supposed to be an explicit implementation.
            if (!isExplicitInterfaceImplementation)
            {
                // If this event is an override, we may need to copy custom modifiers from
                // the overridden event (so that the runtime will recognize it as an override).
                // We check for this case here, while we can still modify the parameters and
                // return type without losing the appearance of immutability.
                if (this.IsOverride)
                {
                    EventSymbol overriddenEvent = this.OverriddenEvent;
                    if ((object)overriddenEvent != null)
                    {
                        CopyEventCustomModifiers(overriddenEvent, ref _type, ContainingAssembly);
                    }
                }
            }
            else if ((object)explicitlyImplementedEvent != null)
            {
                CopyEventCustomModifiers(explicitlyImplementedEvent, ref _type, ContainingAssembly);
            }

            AccessorDeclarationSyntax addSyntax = null;
            AccessorDeclarationSyntax removeSyntax = null;
            foreach (AccessorDeclarationSyntax accessor in syntax.AccessorList.Accessors)
            {
                switch (accessor.Kind())
                {
                    case SyntaxKind.AddAccessorDeclaration:
                        if (addSyntax == null || addSyntax.Keyword.Span.IsEmpty)
                        {
                            addSyntax = accessor;
                        }
                        break;
                    case SyntaxKind.RemoveAccessorDeclaration:
                        if (removeSyntax == null || removeSyntax.Keyword.Span.IsEmpty)
                        {
                            removeSyntax = accessor;
                        }
                        break;
                }
            }

            _addMethod = CreateAccessorSymbol(addSyntax, explicitlyImplementedEvent, aliasQualifierOpt, diagnostics);
            _removeMethod = CreateAccessorSymbol(removeSyntax, explicitlyImplementedEvent, aliasQualifierOpt, diagnostics);

            if (containingType.IsInterfaceType())
            {
                if (addSyntax == null && removeSyntax == null) //NOTE: AND - different error code produced if one is present
                {
                    // CONSIDER: we're matching dev10, but it would probably be more helpful to give
                    // an error like ERR_EventPropertyInInterface.
                    diagnostics.Add(ErrorCode.ERR_EventNeedsBothAccessors, this.Locations[0], this);
                }
            }
            else
            {
                if (addSyntax == null || removeSyntax == null)
                {
                    diagnostics.Add(ErrorCode.ERR_EventNeedsBothAccessors, this.Locations[0], this);
                }
            }

            _explicitInterfaceImplementations =
                (object)explicitlyImplementedEvent == null ?
                    ImmutableArray<EventSymbol>.Empty :
                    ImmutableArray.Create<EventSymbol>(explicitlyImplementedEvent);
        }
Exemplo n.º 3
0
        internal SourceCustomEventSymbol(SourceMemberContainerTypeSymbol containingType, Binder binder, EventDeclarationSyntax syntax, DiagnosticBag diagnostics) :
            base(containingType, syntax, syntax.Modifiers, syntax.ExplicitInterfaceSpecifier, syntax.Identifier, diagnostics)
        {
            ExplicitInterfaceSpecifierSyntax interfaceSpecifier = syntax.ExplicitInterfaceSpecifier;
            SyntaxToken nameToken = syntax.Identifier;
            bool        isExplicitInterfaceImplementation = interfaceSpecifier != null;

            string aliasQualifierOpt;

            _name = ExplicitInterfaceHelpers.GetMemberNameAndInterfaceSymbol(binder, interfaceSpecifier, nameToken.ValueText, diagnostics, out _explicitInterfaceType, out aliasQualifierOpt);

            _type = BindEventType(binder, syntax.Type, diagnostics);

            var explicitlyImplementedEvent = this.FindExplicitlyImplementedEvent(_explicitInterfaceType, nameToken.ValueText, interfaceSpecifier, diagnostics);

            this.FindExplicitlyImplementedMemberVerification(explicitlyImplementedEvent, diagnostics);

            // The runtime will not treat the accessors of this event as overrides or implementations
            // of those of another event unless both the signatures and the custom modifiers match.
            // Hence, in the case of overrides and *explicit* implementations, we need to copy the custom
            // modifiers that are in the signatures of the overridden/implemented event accessors.
            // (From source, we know that there can only be one overridden/implemented event, so there
            // are no conflicts.)  This is unnecessary for implicit implementations because, if the custom
            // modifiers don't match, we'll insert bridge methods for the accessors (explicit implementations
            // that delegate to the implicit implementations) with the correct custom modifiers
            // (see SourceMemberContainerTypeSymbol.SynthesizeInterfaceMemberImplementation).

            // Note: we're checking if the syntax indicates explicit implementation rather,
            // than if explicitInterfaceType is null because we don't want to look for an
            // overridden event if this is supposed to be an explicit implementation.
            if (!isExplicitInterfaceImplementation)
            {
                // If this event is an override, we may need to copy custom modifiers from
                // the overridden event (so that the runtime will recognize it as an override).
                // We check for this case here, while we can still modify the parameters and
                // return type without losing the appearance of immutability.
                if (this.IsOverride)
                {
                    EventSymbol overriddenEvent = this.OverriddenEvent;
                    if ((object)overriddenEvent != null)
                    {
                        CopyEventCustomModifiers(overriddenEvent, ref _type, ContainingAssembly);
                    }
                }
            }
            else if ((object)explicitlyImplementedEvent != null)
            {
                CopyEventCustomModifiers(explicitlyImplementedEvent, ref _type, ContainingAssembly);
            }

            AccessorDeclarationSyntax addSyntax    = null;
            AccessorDeclarationSyntax removeSyntax = null;

            foreach (AccessorDeclarationSyntax accessor in syntax.AccessorList.Accessors)
            {
                switch (accessor.Kind())
                {
                case SyntaxKind.AddAccessorDeclaration:
                    if (addSyntax == null)
                    {
                        addSyntax = accessor;
                    }
                    else
                    {
                        diagnostics.Add(ErrorCode.ERR_DuplicateAccessor, accessor.Keyword.GetLocation());
                    }
                    break;

                case SyntaxKind.RemoveAccessorDeclaration:
                    if (removeSyntax == null)
                    {
                        removeSyntax = accessor;
                    }
                    else
                    {
                        diagnostics.Add(ErrorCode.ERR_DuplicateAccessor, accessor.Keyword.GetLocation());
                    }
                    break;

                case SyntaxKind.GetAccessorDeclaration:
                case SyntaxKind.SetAccessorDeclaration:
                    diagnostics.Add(ErrorCode.ERR_AddOrRemoveExpected, accessor.Keyword.GetLocation());
                    break;

                case SyntaxKind.UnknownAccessorDeclaration:
                    // Don't need to handle UnknownAccessorDeclaration.  An error will have
                    // already been produced for it in the parser.
                    break;

                default:
                    throw ExceptionUtilities.UnexpectedValue(accessor.Kind());
                }
            }

            _addMethod    = CreateAccessorSymbol(addSyntax, explicitlyImplementedEvent, aliasQualifierOpt, diagnostics);
            _removeMethod = CreateAccessorSymbol(removeSyntax, explicitlyImplementedEvent, aliasQualifierOpt, diagnostics);

            if (containingType.IsInterfaceType())
            {
                if (addSyntax == null && removeSyntax == null) //NOTE: AND - different error code produced if one is present
                {
                    // CONSIDER: we're matching dev10, but it would probably be more helpful to give
                    // an error like ERR_EventPropertyInInterface.
                    diagnostics.Add(ErrorCode.ERR_EventNeedsBothAccessors, this.Locations[0], this);
                }
            }
            else
            {
                if (addSyntax == null || removeSyntax == null)
                {
                    diagnostics.Add(ErrorCode.ERR_EventNeedsBothAccessors, this.Locations[0], this);
                }
            }

            _explicitInterfaceImplementations =
                (object)explicitlyImplementedEvent == null ?
                ImmutableArray <EventSymbol> .Empty :
                ImmutableArray.Create <EventSymbol>(explicitlyImplementedEvent);
        }
        internal SourceFieldLikeEventSymbol(SourceMemberContainerTypeSymbol containingType, Binder binder, SyntaxTokenList modifiers, VariableDeclaratorSyntax declaratorSyntax, DiagnosticBag diagnostics)
            : base(containingType, declaratorSyntax, modifiers, null, declaratorSyntax.Identifier, diagnostics)
        {
            this.name = declaratorSyntax.Identifier.ValueText;


            var declaratorDiagnostics = DiagnosticBag.GetInstance();
            var declarationSyntax = (VariableDeclarationSyntax)declaratorSyntax.Parent;
            this.type = BindEventType(binder, declarationSyntax.Type, declaratorDiagnostics);

            // The runtime will not treat the accessors of this event as overrides or implementations
            // of those of another event unless both the signatures and the custom modifiers match.
            // Hence, in the case of overrides and *explicit* implementations (not possible for field-like
            // events), we need to copy the custom modifiers that are in the signatures of the 
            // overridden/implemented event accessors. (From source, we know that there can only be one 
            // overridden/implemented event, so there are no conflicts.)  This is unnecessary for implicit 
            // implementations because, if the custom modifiers don't match, we'll insert bridge methods 
            // for the accessors (explicit implementations that delegate to the implicit implementations) 
            // with the correct custom modifiers (see SourceNamedTypeSymbol.ImplementInterfaceMember).

            // If this event is an override, we may need to copy custom modifiers from
            // the overridden event (so that the runtime will recognize it as an override).
            // We check for this case here, while we can still modify the parameters and
            // return type without losing the appearance of immutability.
            if (this.IsOverride)
            {
                EventSymbol overriddenEvent = this.OverriddenEvent;
                if ((object)overriddenEvent != null)
                {
                    CopyEventCustomModifiers(overriddenEvent, ref this.type);
                }
            }

            bool hasInitializer = declaratorSyntax.Initializer != null;
            bool inInterfaceType = containingType.IsInterfaceType();

            if (hasInitializer)
            {
                if (inInterfaceType)
                {
                    diagnostics.Add(ErrorCode.ERR_InterfaceEventInitializer, this.Locations[0], this);
                }
                else if (this.IsAbstract)
                {
                    diagnostics.Add(ErrorCode.ERR_AbstractEventInitializer, this.Locations[0], this);
                }
            }

            // NOTE: if there's an initializer in source, we'd better create a backing field, regardless of
            // whether or not the initializer is legal.
            if (hasInitializer || !(inInterfaceType || this.IsExtern || this.IsAbstract))
            {
                this.associatedField = MakeAssociatedField(declaratorSyntax);
                // Don't initialize this.type - we'll just use the type of the field (which is lazy and handles var)
            }

            // Accessors will assume that Type is available.
            this.addMethod = new SynthesizedFieldLikeEventAccessorSymbol(this, isAdder: true);
            this.removeMethod = new SynthesizedFieldLikeEventAccessorSymbol(this, isAdder: false);

            if (declarationSyntax.Variables[0] == declaratorSyntax)
            {
                // Don't report these diagnostics for every declarator in this declaration.
                diagnostics.AddRange(declaratorDiagnostics);
            }

            declaratorDiagnostics.Free();
        }