Exemplo n.º 1
0
            private BoundExpression SelectField(SimpleNameSyntax node, BoundExpression receiver, string name, DiagnosticBag diagnostics)
            {
                var receiverType = receiver.Type as NamedTypeSymbol;

                if ((object)receiverType == null || !receiverType.IsAnonymousType)
                {
                    // We only construct transparent query variables using anonymous types, so if we're trying to navigate through
                    // some other type, we must have some query API where the types don't match up as expected.
                    var info = new CSDiagnosticInfo(ErrorCode.ERR_UnsupportedTransparentIdentifierAccess, name, receiver.ExpressionSymbol ?? receiverType);
                    if (receiver.Type?.IsErrorType() != true)
                    {
                        Error(diagnostics, info, node);
                    }

                    return(new BoundBadExpression(
                               node,
                               LookupResultKind.Empty,
                               ImmutableArray.Create <Symbol>(receiver.ExpressionSymbol),
                               ImmutableArray.Create(receiver),
                               new ExtendedErrorTypeSymbol(this.Compilation, "", 0, info)));
                }

                LookupResult             lookupResult       = LookupResult.GetInstance();
                LookupOptions            options            = LookupOptions.MustBeInstance;
                HashSet <DiagnosticInfo> useSiteDiagnostics = null;

                LookupMembersWithFallback(lookupResult, receiver.Type, name, 0, ref useSiteDiagnostics, basesBeingResolved: null, options: options);
                diagnostics.Add(node, useSiteDiagnostics);

                var result = BindMemberOfType(node, node, name, 0, indexed: false, receiver, default(SeparatedSyntaxList <TypeSyntax>), default(ImmutableArray <TypeSymbolWithAnnotations>), lookupResult, BoundMethodGroupFlags.None, diagnostics);

                lookupResult.Free();
                return(result);
            }
Exemplo n.º 2
0
        private ImmutableArray <Symbol> ComputeSortedCrefMembers(NamespaceOrTypeSymbol containerOpt, string memberName, int arity, bool hasParameterList, ref HashSet <DiagnosticInfo> useSiteDiagnostics)
        {
            // Since we may find symbols without going through the lookup API,
            // expose the symbols via an ArrayBuilder.
            ArrayBuilder <Symbol> builder;

            {
                LookupResult result = LookupResult.GetInstance();
                this.LookupSymbolsOrMembersInternal(
                    result,
                    containerOpt,
                    name: memberName,
                    arity: arity,
                    basesBeingResolved: null,
                    options: LookupOptions.AllMethodsOnArityZero,
                    diagnose: false,
                    useSiteDiagnostics: ref useSiteDiagnostics);

                // CONSIDER: Dev11 also checks for a constructor in the event of an ambiguous result.
                if (result.IsMultiViable)
                {
                    // Dev11 doesn't consider members from System.Object when the container is an interface.
                    // Lookup should already have dropped such members.
                    builder = ArrayBuilder <Symbol> .GetInstance();

                    builder.AddRange(result.Symbols);
                    result.Free();
                }
                else
                {
                    result.Free(); // Won't be using this.

                    // Dev11 has a complicated two-stage process for determining when a cref is really referring to a constructor.
                    // Under two sets of conditions, XmlDocCommentBinder::bindXMLReferenceName will decide that a name refers
                    // to a constructor and under one set of conditions, the calling method, XmlDocCommentBinder::bindXMLReference,
                    // will roll back that decision and return null.

                    // In XmlDocCommentBinder::bindXMLReferenceName:
                    //   1) If an unqualified, non-generic name didn't bind to anything and the name matches the name of the type
                    //      to which the doc comment is applied, then bind to a constructor.
                    //   2) If a qualified, non-generic name didn't bind to anything and the LHS of the qualified name is a type
                    //      with the same name, then bind to a constructor.

                    // Quoted from XmlDocCommentBinder::bindXMLReference:
                    //   Filtering out the case where specifying the name of a generic type without specifying
                    //   any arity returns a constructor. This case shouldn't return anything. Note that
                    //   returning the constructors was a fix for the wonky constructor behavior, but in order
                    //   to not introduce a regression and breaking change we return NULL in this case.
                    //   e.g.
                    //
                    //   /// <see cref="Goo"/>
                    //   class Goo<T> { }
                    //
                    //   This cref used not to bind to anything, because before it was looking for a type and
                    //   since there was no arity, it didn't find Goo<T>. Now however, it finds Goo<T>.ctor,
                    //   which is arguably correct, but would be a breaking change (albeit with minimal impact)
                    //   so we catch this case and chuck out the symbol found.

                    // In Roslyn, we're doing everything in one pass, rather than guessing and rolling back.

                    // As in the native compiler, we treat this as a fallback case - something that actually has the
                    // specified name is preferred.

                    NamedTypeSymbol constructorType = null;

                    if (arity == 0) // Member arity
                    {
                        NamedTypeSymbol containerType = containerOpt as NamedTypeSymbol;
                        if ((object)containerType != null)
                        {
                            // Case 1: If the name is qualified by a type with the same name, then we want a
                            // constructor (unless the type is generic, the cref is on/in the type (but not
                            // on/in a nested type), and there were no parens after the member name).

                            if (containerType.Name == memberName && (hasParameterList || containerType.Arity == 0 || !TypeSymbol.Equals(this.ContainingType, containerType.OriginalDefinition, TypeCompareKind.ConsiderEverything2)))
                            {
                                constructorType = containerType;
                            }
                        }
                        else if ((object)containerOpt == null && hasParameterList)
                        {
                            // Case 2: If the name is not qualified by anything, but we're in the scope
                            // of a type with the same name (regardless of arity), then we want a constructor,
                            // as long as there were parens after the member name.

                            NamedTypeSymbol binderContainingType = this.ContainingType;
                            if ((object)binderContainingType != null && memberName == binderContainingType.Name)
                            {
                                constructorType = binderContainingType;
                            }
                        }
                    }

                    if ((object)constructorType != null)
                    {
                        ImmutableArray <MethodSymbol> instanceConstructors = constructorType.InstanceConstructors;
                        int numInstanceConstructors = instanceConstructors.Length;

                        if (numInstanceConstructors == 0)
                        {
                            return(ImmutableArray <Symbol> .Empty);
                        }

                        builder = ArrayBuilder <Symbol> .GetInstance(numInstanceConstructors);

                        builder.AddRange(instanceConstructors);
                    }
                    else
                    {
                        return(ImmutableArray <Symbol> .Empty);
                    }
                }
            }

            Debug.Assert(builder != null);

            // Since we resolve ambiguities by just picking the first symbol we encounter,
            // the order of the symbols matters for repeatability.
            if (builder.Count > 1)
            {
                builder.Sort(ConsistentSymbolOrder.Instance);
            }

            return(builder.ToImmutableAndFree());
        }