Esempio n. 1
0
        internal BoundStatement BindForOrUsingOrFixedDeclarations(VariableDeclarationSyntax nodeOpt, LocalDeclarationKind localKind, DiagnosticBag diagnostics, out ImmutableArray<BoundLocalDeclaration> declarations)
        {
            if (nodeOpt == null)
            {
                declarations = ImmutableArray<BoundLocalDeclaration>.Empty;
                return null;
            }

            var typeSyntax = nodeOpt.Type;

            AliasSymbol alias;
            bool isVar;
            TypeSymbol declType = BindType(typeSyntax, diagnostics, out isVar, out alias);

            Debug.Assert((object)declType != null || isVar);

            var variables = nodeOpt.Variables;
            int count = variables.Count;
            Debug.Assert(count > 0);

            if (isVar && count > 1)
            {
                // There are a number of ways in which a var decl can be illegal, but in these 
                // cases we should report an error and then keep right on going with the inference.

                Error(diagnostics, ErrorCode.ERR_ImplicitlyTypedVariableMultipleDeclarator, nodeOpt);
            }

            var declarationArray = new BoundLocalDeclaration[count];

            for (int i = 0; i < count; i++)
            {
                var variableDeclarator = variables[i];
                var declaration = BindVariableDeclaration(localKind, isVar, variableDeclarator, typeSyntax, declType, alias, diagnostics);

                declarationArray[i] = declaration;
            }

            declarations = declarationArray.AsImmutableOrNull();

            return (count == 1) ?
                (BoundStatement)declarations[0] :
                new BoundMultipleLocalDeclarations(nodeOpt, declarations);
        }
Esempio n. 2
0
        private BoundStatement BindDeclarationStatement(LocalDeclarationStatementSyntax node, DiagnosticBag diagnostics)
        {
            var typeSyntax = node.Declaration.Type;
            bool isConst = node.IsConst;

            bool isVar;
            AliasSymbol alias;
            TypeSymbol declType = BindVariableType(node, diagnostics, typeSyntax, ref isConst, isVar: out isVar, alias: out alias);

            // UNDONE: "possible expression" feature for IDE

            LocalDeclarationKind kind = LocalDeclarationKind.RegularVariable;
            if (isConst)
            {
                kind = LocalDeclarationKind.Constant;
            }

            var variableList = node.Declaration.Variables;
            int variableCount = variableList.Count;

            if (variableCount == 1)
            {
                return BindVariableDeclaration(kind, isVar, variableList[0], typeSyntax, declType, alias, diagnostics, node);
            }
            else
            {
                BoundLocalDeclaration[] boundDeclarations = new BoundLocalDeclaration[variableCount];

                int i = 0;
                foreach (var variableDeclaratorSyntax in variableList)
                {
                    boundDeclarations[i++] = BindVariableDeclaration(kind, isVar, variableDeclaratorSyntax, typeSyntax, declType, alias, diagnostics);
                }

                return new BoundMultipleLocalDeclarations(node, boundDeclarations.AsImmutableOrNull());
            }
        }
Esempio n. 3
0
        private BoundStatement BindDeclarationStatement(LocalDeclarationStatementSyntax node, DiagnosticBag diagnostics)
        {
            var typeSyntax = node.Declaration.Type;
            bool isConst = node.IsConst;
            bool isFixed = node.IsFixed;

            // If the type is "var" then suppress errors when binding it. "var" might be a legal type
            // or it might not; if it is not then we do not want to report an error. If it is, then
            // we want to treat the declaration as an explicitly typed declaration.

            bool isVar;
            AliasSymbol alias;
            TypeSymbol declType = BindType(typeSyntax, diagnostics, out isVar, out alias);

            Debug.Assert((object)declType != null || isVar);

            if (isVar)
            {
                // There are a number of ways in which a var decl can be illegal, but in these 
                // cases we should report an error and then keep right on going with the inference.

                if (isFixed)
                {
                    Error(diagnostics, ErrorCode.ERR_ImplicitlyTypedLocalCannotBeFixed, node);
                }

                if (isConst)
                {
                    Error(diagnostics, ErrorCode.ERR_ImplicitlyTypedVariableCannotBeConst, node);
                    // Keep processing it as a non-const local.
                    isConst = false;
                }

                // In the dev10 compiler the error recovery semantics for the illegal case
                // "var x = 10, y = 123.4;" are somewhat undesirable.
                //
                // First off, this is an error because a straw poll of language designers and
                // users showed that there was no consensus on whether the above should mean
                // "double x = 10, y = 123.4;", taking the best type available and substituting
                // that for "var", or treating it as "var x = 10; var y = 123.4;" -- since there
                // was no consensus we decided to simply make it illegal. 
                //
                // In dev10 for error recovery in the IDE we do an odd thing -- we simply take
                // the type of the first variable and use it. So that is "int x = 10, y = 123.4;".
                // 
                // This seems less than ideal. In the error recovery scenario it probably makes
                // more sense to treat that as "var x = 10; var y = 123.4;" and do each inference
                // separately.

                if (node.Declaration.Variables.Count > 1 && !node.HasErrors)
                {
                    Error(diagnostics, ErrorCode.ERR_ImplicitlyTypedVariableMultipleDeclarator, node);
                }
            }
            else
            {
                // In the native compiler when given a situation like
                //
                // D[] x;
                // 
                // where D is a static type we report both that D cannot be an element type
                // of an array, and that D[] is not a valid type for a local variable.
                // This seems silly; the first error is entirely sufficient. We no longer
                // produce additional errors for local variables of arrays of static types.

                if (declType.IsStatic)
                {
                    Error(diagnostics, ErrorCode.ERR_VarDeclIsStaticClass, typeSyntax, declType);
                }

                if (isFixed && !(declType is PointerTypeSymbol))
                {
                    Error(diagnostics, ErrorCode.ERR_BadFixedInitType, node);
                }

                if (isConst && !declType.CanBeConst())
                {
                    Error(diagnostics, ErrorCode.ERR_BadConstType, typeSyntax, declType);
                    // Keep processing it as a non-const local.
                    isConst = false;
                }
            }

            // UNDONE: "possible expression" feature for IDE

            LocalDeclarationKind kind = LocalDeclarationKind.Variable;
            if (isFixed)
            {
                kind = LocalDeclarationKind.Fixed;
            }

            if (isConst)
            {
                kind = LocalDeclarationKind.Constant;
            }

            var variableList = node.Declaration.Variables;
            int variableCount = variableList.Count;

            if (variableCount == 1)
            {
                return BindVariableDeclaration(kind, isVar, variableList[0], typeSyntax, declType, alias, diagnostics, node);
            }
            else
            {
                BoundLocalDeclaration[] boundDeclarations = new BoundLocalDeclaration[variableCount];

                int i = 0;
                foreach (var variableDeclaratorSyntax in variableList)
                {
                    boundDeclarations[i++] = BindVariableDeclaration(kind, isVar, variableDeclaratorSyntax, typeSyntax, declType, alias, diagnostics);
                }

                return new BoundMultipleLocalDeclarations(node, boundDeclarations.AsImmutableOrNull());
            }
        }