Пример #1
0
        private BoundExpression MakeUnaryOperator(
            BoundUnaryOperator oldNode,
            UnaryOperatorKind kind,
            SyntaxNode syntax,
            MethodSymbol method,
            BoundExpression loweredOperand,
            TypeSymbol type)
        {
            if (kind.IsLifted())
            {
                return(LowerLiftedUnaryOperator(kind, syntax, method, loweredOperand, type));
            }
            else if (kind.IsUserDefined())
            {
                Debug.Assert((object)method != null);
                Debug.Assert(TypeSymbol.Equals(type, method.ReturnType.TypeSymbol, TypeCompareKind.ConsiderEverything2));
                return(BoundCall.Synthesized(syntax, null, method, loweredOperand));
            }
            else if (kind.Operator() == UnaryOperatorKind.UnaryPlus)
            {
                // We do not call the operator even for decimal; we simply optimize it away entirely.
                return(loweredOperand);
            }

            if (kind == UnaryOperatorKind.EnumBitwiseComplement)
            {
                var underlyingType       = loweredOperand.Type.GetEnumUnderlyingType();
                var upconvertSpecialType = Binder.GetEnumPromotedType(underlyingType.SpecialType);
                var upconvertType        = upconvertSpecialType == underlyingType.SpecialType ?
                                           underlyingType :
                                           _compilation.GetSpecialType(upconvertSpecialType);


                var newOperand            = MakeConversionNode(loweredOperand, upconvertType, false);
                UnaryOperatorKind newKind = kind.Operator().WithType(upconvertSpecialType);

                var newNode = (oldNode != null) ?
                              oldNode.Update(
                    newKind,
                    newOperand,
                    oldNode.ConstantValueOpt,
                    method,
                    newOperand.ResultKind,
                    upconvertType) :
                              new BoundUnaryOperator(
                    syntax,
                    newKind,
                    newOperand,
                    null,
                    method,
                    LookupResultKind.Viable,
                    upconvertType);

                return(MakeConversionNode(newNode.Syntax, newNode, Conversion.ExplicitEnumeration, type, @checked: false));
            }

            return((oldNode != null) ?
                   oldNode.Update(kind, loweredOperand, oldNode.ConstantValueOpt, method, oldNode.ResultKind, type) :
                   new BoundUnaryOperator(syntax, kind, loweredOperand, null, method, LookupResultKind.Viable, type));
        }
Пример #2
0
        private BoundExpression MakeUnaryOperator(
            BoundUnaryOperator?oldNode,
            UnaryOperatorKind kind,
            SyntaxNode syntax,
            MethodSymbol?method,
            BoundExpression loweredOperand,
            TypeSymbol type)
        {
            if (kind.IsDynamic())
            {
                Debug.Assert((kind == UnaryOperatorKind.DynamicTrue || kind == UnaryOperatorKind.DynamicFalse) && type.SpecialType == SpecialType.System_Boolean ||
                             type.IsDynamic());
                Debug.Assert(method is null);

                // Logical operators on boxed Boolean constants:
                var constant = UnboxConstant(loweredOperand);
                if (constant == ConstantValue.True || constant == ConstantValue.False)
                {
                    switch (kind)
                    {
                    case UnaryOperatorKind.DynamicTrue:
                        return(_factory.Literal(constant.BooleanValue));

                    case UnaryOperatorKind.DynamicLogicalNegation:
                        return(MakeConversionNode(_factory.Literal(!constant.BooleanValue), type, @checked: false));
                    }
                }

                return(_dynamicFactory.MakeDynamicUnaryOperator(kind, loweredOperand, type).ToExpression());
            }
            else if (kind.IsLifted())
            {
                if (!_inExpressionLambda)
                {
                    return(LowerLiftedUnaryOperator(kind, syntax, method, loweredOperand, type));
                }
            }
            else if (kind.IsUserDefined())
            {
                Debug.Assert(method is { });
Пример #3
0
        private BoundExpression MakeUnaryOperator(
            BoundUnaryOperator oldNode,
            UnaryOperatorKind kind,
            SyntaxNode syntax,
            MethodSymbol method,
            BoundExpression loweredOperand,
            TypeSymbol type)
        {
            if (kind.IsDynamic())
            {
                Debug.Assert(kind == UnaryOperatorKind.DynamicTrue && type.SpecialType == SpecialType.System_Boolean || type.IsDynamic());
                Debug.Assert((object)method == null);

                // Logical operators on boxed Boolean constants:
                var constant = UnboxConstant(loweredOperand);
                if (constant == ConstantValue.True || constant == ConstantValue.False)
                {
                    if (kind == UnaryOperatorKind.DynamicTrue)
                    {
                        return(_factory.Literal(constant.BooleanValue));
                    }
                    else if (kind == UnaryOperatorKind.DynamicLogicalNegation)
                    {
                        return(MakeConversionNode(_factory.Literal(!constant.BooleanValue), type, @checked: false));
                    }
                }

                return(_dynamicFactory.MakeDynamicUnaryOperator(kind, loweredOperand, type).ToExpression());
            }
            else if (kind.IsLifted())
            {
                if (!_inExpressionLambda)
                {
                    return(LowerLiftedUnaryOperator(kind, syntax, method, loweredOperand, type));
                }
            }
            else if (kind.IsUserDefined())
            {
                Debug.Assert((object)method != null);
                Debug.Assert(type == method.ReturnType);
                if (!_inExpressionLambda || kind == UnaryOperatorKind.UserDefinedTrue || kind == UnaryOperatorKind.UserDefinedFalse)
                {
                    return(BoundCall.Synthesized(syntax, null, method, loweredOperand));
                }
            }
            else if (kind.Operator() == UnaryOperatorKind.UnaryPlus)
            {
                // We do not call the operator even for decimal; we simply optimize it away entirely.
                return(loweredOperand);
            }

            if (kind == UnaryOperatorKind.EnumBitwiseComplement)
            {
                var underlyingType       = loweredOperand.Type.GetEnumUnderlyingType();
                var upconvertSpecialType = Binder.GetEnumPromotedType(underlyingType.SpecialType);
                var upconvertType        = upconvertSpecialType == underlyingType.SpecialType ?
                                           underlyingType :
                                           _compilation.GetSpecialType(upconvertSpecialType);


                var newOperand            = MakeConversionNode(loweredOperand, upconvertType, false);
                UnaryOperatorKind newKind = kind.Operator().WithType(upconvertSpecialType);

                var newNode = (oldNode != null) ?
                              oldNode.Update(
                    newKind,
                    newOperand,
                    oldNode.ConstantValueOpt,
                    method,
                    newOperand.ResultKind,
                    upconvertType) :
                              new BoundUnaryOperator(
                    syntax,
                    newKind,
                    newOperand,
                    null,
                    method,
                    LookupResultKind.Viable,
                    upconvertType);

                return(MakeConversionNode(newNode.Syntax, newNode, Conversion.ExplicitEnumeration, type, @checked: false));
            }

            if (kind == UnaryOperatorKind.DecimalUnaryMinus)
            {
                method = (MethodSymbol)_compilation.Assembly.GetSpecialTypeMember(SpecialMember.System_Decimal__op_UnaryNegation);
                if (!_inExpressionLambda)
                {
                    return(BoundCall.Synthesized(syntax, null, method, loweredOperand));
                }
            }

            return((oldNode != null) ?
                   oldNode.Update(kind, loweredOperand, oldNode.ConstantValueOpt, method, oldNode.ResultKind, type) :
                   new BoundUnaryOperator(syntax, kind, loweredOperand, null, method, LookupResultKind.Viable, type));
        }
        private BoundExpression MakeUnaryOperator(
            BoundUnaryOperator oldNode,
            UnaryOperatorKind kind,
            CSharpSyntaxNode syntax,
            MethodSymbol method,
            BoundExpression loweredOperand,
            TypeSymbol type)
        {
            if (kind.IsDynamic())
            {
                Debug.Assert(kind == UnaryOperatorKind.DynamicTrue && type.SpecialType == SpecialType.System_Boolean || type.IsDynamic());
                Debug.Assert((object)method == null);

                // Logical operators on boxed Boolean constants:
                var constant = UnboxConstant(loweredOperand);
                if (constant == ConstantValue.True || constant == ConstantValue.False)
                {
                    if (kind == UnaryOperatorKind.DynamicTrue)
                    {
                        return _factory.Literal(constant.BooleanValue);
                    }
                    else if (kind == UnaryOperatorKind.DynamicLogicalNegation)
                    {
                        return MakeConversionNode(_factory.Literal(!constant.BooleanValue), type, @checked: false);
                    }
                }

                return _dynamicFactory.MakeDynamicUnaryOperator(kind, loweredOperand, type).ToExpression();
            }
            else if (kind.IsLifted())
            {
                if (!_inExpressionLambda)
                {
                    return LowerLiftedUnaryOperator(kind, syntax, method, loweredOperand, type);
                }
            }
            else if (kind.IsUserDefined())
            {
                Debug.Assert((object)method != null);
                Debug.Assert(type == method.ReturnType);
                if (!_inExpressionLambda || kind == UnaryOperatorKind.UserDefinedTrue || kind == UnaryOperatorKind.UserDefinedFalse)
                {
                    return BoundCall.Synthesized(syntax, null, method, loweredOperand);
                }
            }
            else if (kind.Operator() == UnaryOperatorKind.UnaryPlus)
            {
                // We do not call the operator even for decimal; we simply optimize it away entirely.
                return loweredOperand;
            }

            if (kind == UnaryOperatorKind.EnumBitwiseComplement)
            {
                var underlyingType = loweredOperand.Type.GetEnumUnderlyingType();
                var upconvertSpecialType = Binder.GetEnumPromotedType(underlyingType.SpecialType);
                var upconvertType = upconvertSpecialType == underlyingType.SpecialType ?
                    underlyingType :
                    _compilation.GetSpecialType(upconvertSpecialType);


                var newOperand = MakeConversionNode(loweredOperand, upconvertType, false);
                UnaryOperatorKind newKind = kind.Operator().WithType(upconvertSpecialType);

                var newNode = (oldNode != null) ?
                    oldNode.Update(
                        newKind,
                        newOperand,
                        oldNode.ConstantValueOpt,
                        method,
                        newOperand.ResultKind,
                        upconvertType) :
                    new BoundUnaryOperator(
                        syntax,
                        newKind,
                        newOperand,
                        null,
                        method,
                        LookupResultKind.Viable,
                        upconvertType);

                return MakeConversionNode(newNode.Syntax, newNode, Conversion.ExplicitEnumeration, type, @checked: false);
            }

            if (kind == UnaryOperatorKind.DecimalUnaryMinus)
            {
                method = (MethodSymbol)_compilation.Assembly.GetSpecialTypeMember(SpecialMember.System_Decimal__op_UnaryNegation);
                if (!_inExpressionLambda)
                {
                    return BoundCall.Synthesized(syntax, null, method, loweredOperand);
                }
            }

            return (oldNode != null) ?
                oldNode.Update(kind, loweredOperand, oldNode.ConstantValueOpt, method, oldNode.ResultKind, type) :
                new BoundUnaryOperator(syntax, kind, loweredOperand, null, method, LookupResultKind.Viable, type);
        }
Пример #5
0
        private BoundExpression MakeUnaryOperator(
            BoundUnaryOperator oldNode,
            UnaryOperatorKind kind,
            CSharpSyntaxNode syntax,
            MethodSymbol method,
            BoundExpression loweredOperand,
            TypeSymbol type)
        {
            if (kind.IsDynamic())
            {
                Debug.Assert(kind == UnaryOperatorKind.DynamicTrue && type.SpecialType == SpecialType.System_Boolean || type.IsDynamic());
                Debug.Assert((object)method == null);

                // Logical operators on boxed Boolean constants:
                var constant = UnboxConstant(loweredOperand);
                if (constant == ConstantValue.True || constant == ConstantValue.False)
                {
                    if (kind == UnaryOperatorKind.DynamicTrue)
                    {
                        return(_factory.Literal(constant.BooleanValue));
                    }
                    else if (kind == UnaryOperatorKind.DynamicLogicalNegation)
                    {
                        return(MakeConversionNode(_factory.Literal(!constant.BooleanValue), type, @checked: false));
                    }
                }

                return(_dynamicFactory.MakeDynamicUnaryOperator(kind, loweredOperand, type).ToExpression());
            }
            else if (kind.IsLifted())
            {
                if (!_inExpressionLambda)
                {
                    return(LowerLiftedUnaryOperator(kind, syntax, method, loweredOperand, type));
                }
            }
            else if (kind.IsUserDefined())
            {
                Debug.Assert((object)method != null);
                Debug.Assert(type == method.ReturnType);
                if (!_inExpressionLambda || kind == UnaryOperatorKind.UserDefinedTrue || kind == UnaryOperatorKind.UserDefinedFalse)
                {
                    // @t-mawind
                    //   As usual, concept accesses need to be rewritten down to their
                    //   default() form.
                    // Is this correct?  It's mostly a copy over from the binary case,
                    // but the unary case is different enough to make me nervous.
                    if (method is SynthesizedWitnessMethodSymbol)
                    {
                        return(BoundCall.Synthesized(syntax, SynthesizeWitnessInvocationReceiver(syntax, ((SynthesizedWitnessMethodSymbol)method).Parent), method, loweredOperand));
                    }

                    return(BoundCall.Synthesized(syntax, null, method, loweredOperand));
                }
            }
            else if (kind.Operator() == UnaryOperatorKind.UnaryPlus)
            {
                // We do not call the operator even for decimal; we simply optimize it away entirely.
                return(loweredOperand);
            }

            if (kind == UnaryOperatorKind.EnumBitwiseComplement)
            {
                var underlyingType       = loweredOperand.Type.GetEnumUnderlyingType();
                var upconvertSpecialType = Binder.GetEnumPromotedType(underlyingType.SpecialType);
                var upconvertType        = upconvertSpecialType == underlyingType.SpecialType ?
                                           underlyingType :
                                           _compilation.GetSpecialType(upconvertSpecialType);


                var newOperand            = MakeConversionNode(loweredOperand, upconvertType, false);
                UnaryOperatorKind newKind = kind.Operator().WithType(upconvertSpecialType);

                var newNode = (oldNode != null) ?
                              oldNode.Update(
                    newKind,
                    newOperand,
                    oldNode.ConstantValueOpt,
                    method,
                    newOperand.ResultKind,
                    upconvertType) :
                              new BoundUnaryOperator(
                    syntax,
                    newKind,
                    newOperand,
                    null,
                    method,
                    LookupResultKind.Viable,
                    upconvertType);

                return(MakeConversionNode(newNode.Syntax, newNode, Conversion.ExplicitEnumeration, type, @checked: false));
            }

            if (kind == UnaryOperatorKind.DecimalUnaryMinus)
            {
                method = (MethodSymbol)_compilation.Assembly.GetSpecialTypeMember(SpecialMember.System_Decimal__op_UnaryNegation);
                if (!_inExpressionLambda)
                {
                    return(BoundCall.Synthesized(syntax, null, method, loweredOperand));
                }
            }

            return((oldNode != null) ?
                   oldNode.Update(kind, loweredOperand, oldNode.ConstantValueOpt, method, oldNode.ResultKind, type) :
                   new BoundUnaryOperator(syntax, kind, loweredOperand, null, method, LookupResultKind.Viable, type));
        }