Example #1
0
        internal Conversion(ConversionKind kind, DeconstructMethodInfo deconstructMethodInfo, ImmutableArray <Conversion> nestedConversions)
        {
            Debug.Assert(kind == ConversionKind.Deconstruction);

            this._kind    = kind;
            _uncommonData = new DeconstructionUncommonData(deconstructMethodInfo, nestedConversions);
        }
Example #2
0
 internal DeconstructionUncommonData(
     DeconstructMethodInfo deconstructMethodInfoOpt,
     ImmutableArray <Conversion> nestedConversions
     )
     : base(
         isExtensionMethod: false,
         isArrayIndex: false,
         conversionResult: default,
         conversionMethod: null,
         nestedConversions
         )
 {
     Debug.Assert(!nestedConversions.IsDefaultOrEmpty);
     DeconstructMethodInfo = deconstructMethodInfoOpt;
 }
Example #3
0
        /// <summary>
        /// Recursively builds a Conversion object with Kind=Deconstruction including information about any necessary
        /// Deconstruct method and any element-wise conversion.
        ///
        /// Note that the variables may either be plain or nested variables.
        /// The variables may be updated with inferred types if they didn't have types initially.
        /// Returns false if there was an error.
        /// </summary>
        private bool MakeDeconstructionConversion(
            TypeSymbol type,
            SyntaxNode syntax,
            SyntaxNode rightSyntax,
            DiagnosticBag diagnostics,
            ArrayBuilder <DeconstructionVariable> variables,
            out Conversion conversion)
        {
            Debug.Assert(type != null);
            ImmutableArray <TypeSymbol> tupleOrDeconstructedTypes;

            conversion = Conversion.Deconstruction;

            // Figure out the deconstruct method (if one is required) and determine the types we get from the RHS at this level
            var deconstructMethod = default(DeconstructMethodInfo);

            if (type.IsTupleType)
            {
                // tuple literal such as `(1, 2)`, `(null, null)`, `(x.P, y.M())`
                tupleOrDeconstructedTypes = type.TupleElementTypes;
                SetInferredTypes(variables, tupleOrDeconstructedTypes, diagnostics);

                if (variables.Count != tupleOrDeconstructedTypes.Length)
                {
                    Error(diagnostics, ErrorCode.ERR_DeconstructWrongCardinality, syntax, tupleOrDeconstructedTypes.Length, variables.Count);
                    return(false);
                }
            }
            else
            {
                ImmutableArray <BoundDeconstructValuePlaceholder> outPlaceholders;
                var inputPlaceholder      = new BoundDeconstructValuePlaceholder(syntax, this.LocalScopeDepth, type);
                var deconstructInvocation = MakeDeconstructInvocationExpression(variables.Count,
                                                                                inputPlaceholder, rightSyntax, diagnostics, out outPlaceholders);

                if (deconstructInvocation.HasAnyErrors)
                {
                    return(false);
                }

                deconstructMethod = new DeconstructMethodInfo(deconstructInvocation, inputPlaceholder, outPlaceholders);

                tupleOrDeconstructedTypes = outPlaceholders.SelectAsArray(p => p.Type);
                SetInferredTypes(variables, tupleOrDeconstructedTypes, diagnostics);
            }

            // Figure out whether those types will need conversions, including further deconstructions
            bool hasErrors = false;

            int count             = variables.Count;
            var nestedConversions = ArrayBuilder <Conversion> .GetInstance(count);

            for (int i = 0; i < count; i++)
            {
                var variable = variables[i];

                Conversion nestedConversion;
                if (variable.HasNestedVariables)
                {
                    var elementSyntax = syntax.Kind() == SyntaxKind.TupleExpression ? ((TupleExpressionSyntax)syntax).Arguments[i] : syntax;

                    hasErrors |= !MakeDeconstructionConversion(tupleOrDeconstructedTypes[i], syntax, rightSyntax, diagnostics,
                                                               variable.NestedVariables, out nestedConversion);
                }
                else
                {
                    var single = variable.Single;
                    HashSet <DiagnosticInfo> useSiteDiagnostics = null;
                    nestedConversion = this.Conversions.ClassifyConversionFromType(tupleOrDeconstructedTypes[i], single.Type, ref useSiteDiagnostics);
                    diagnostics.Add(single.Syntax, useSiteDiagnostics);

                    if (!nestedConversion.IsImplicit)
                    {
                        hasErrors = true;
                        GenerateImplicitConversionError(diagnostics, Compilation, single.Syntax, nestedConversion, tupleOrDeconstructedTypes[i], single.Type);
                    }
                }
                nestedConversions.Add(nestedConversion);
            }

            conversion = new Conversion(ConversionKind.Deconstruction, deconstructMethod, nestedConversions.ToImmutableAndFree());

            return(!hasErrors);
        }
Example #4
0
        /// <summary>
        /// Recursively builds a Conversion object with Kind=Deconstruction including information about any necessary
        /// Deconstruct method and any element-wise conversion.
        ///
        /// Note that the variables may either be plain or nested variables.
        /// The variables may be updated with inferred types if they didn't have types initially.
        /// Returns false if there was an error.
        /// </summary>
        private bool MakeDeconstructionConversion(
            TypeSymbol type,
            SyntaxNode syntax,
            SyntaxNode rightSyntax,
            BindingDiagnosticBag diagnostics,
            ArrayBuilder <DeconstructionVariable> variables,
            out Conversion conversion)
        {
            Debug.Assert((object)type != null);
            ImmutableArray <TypeSymbol> tupleOrDeconstructedTypes;

            conversion = Conversion.Deconstruction;

            // Figure out the deconstruct method (if one is required) and determine the types we get from the RHS at this level
            var deconstructMethod = default(DeconstructMethodInfo);

            if (type.IsTupleType)
            {
                // tuple literal such as `(1, 2)`, `(null, null)`, `(x.P, y.M())`
                tupleOrDeconstructedTypes = type.TupleElementTypesWithAnnotations.SelectAsArray(TypeMap.AsTypeSymbol);
                SetInferredTypes(variables, tupleOrDeconstructedTypes, diagnostics);

                if (variables.Count != tupleOrDeconstructedTypes.Length)
                {
                    Error(diagnostics, ErrorCode.ERR_DeconstructWrongCardinality, syntax, tupleOrDeconstructedTypes.Length, variables.Count);
                    return(false);
                }
            }
            else
            {
                if (variables.Count < 2)
                {
                    Error(diagnostics, ErrorCode.ERR_DeconstructTooFewElements, syntax);
                    return(false);
                }

                var             inputPlaceholder      = new BoundDeconstructValuePlaceholder(syntax, this.LocalScopeDepth, type);
                BoundExpression deconstructInvocation = MakeDeconstructInvocationExpression(variables.Count,
                                                                                            inputPlaceholder, rightSyntax, diagnostics, outPlaceholders: out ImmutableArray <BoundDeconstructValuePlaceholder> outPlaceholders, out _);

                if (deconstructInvocation.HasAnyErrors)
                {
                    return(false);
                }

                deconstructMethod = new DeconstructMethodInfo(deconstructInvocation, inputPlaceholder, outPlaceholders);

                tupleOrDeconstructedTypes = outPlaceholders.SelectAsArray(p => p.Type);
                SetInferredTypes(variables, tupleOrDeconstructedTypes, diagnostics);
            }

            // Figure out whether those types will need conversions, including further deconstructions
            bool hasErrors = false;

            int count             = variables.Count;
            var nestedConversions = ArrayBuilder <(BoundValuePlaceholder?, BoundExpression?)> .GetInstance(count);

            for (int i = 0; i < count; i++)
            {
                var variable = variables[i];

                Conversion nestedConversion;
                if (variable.NestedVariables is object)
                {
                    var elementSyntax = syntax.Kind() == SyntaxKind.TupleExpression ? ((TupleExpressionSyntax)syntax).Arguments[i] : syntax;

                    hasErrors |= !MakeDeconstructionConversion(tupleOrDeconstructedTypes[i], elementSyntax, rightSyntax, diagnostics,
                                                               variable.NestedVariables, out nestedConversion);

                    Debug.Assert(nestedConversion.Kind == ConversionKind.Deconstruction);
                    var operandPlaceholder = new BoundValuePlaceholder(syntax, ErrorTypeSymbol.UnknownResultType).MakeCompilerGenerated();
                    nestedConversions.Add((operandPlaceholder, new BoundConversion(syntax, operandPlaceholder, nestedConversion,
                                                                                   @checked: false, explicitCastInCode: false,
                                                                                   conversionGroupOpt: null, constantValueOpt: null,
#pragma warning disable format
                                                                                   type: ErrorTypeSymbol.UnknownResultType)
                    {
                        WasCompilerGenerated = true
                    }));