コード例 #1
0
ファイル: nullable.cs プロジェクト: gongfuPanada/NRefactory
        static Expression LiftExpression(ResolveContext ec, Expression expr)
        {
            var lifted_type = new NullableType (expr.Type, expr.Location);
            if (lifted_type.ResolveAsType (ec) == null)
                return null;

            expr.Type = lifted_type.Type;
            return expr;
        }
コード例 #2
0
ファイル: nullable.cs プロジェクト: yonder/mono
        Expression LiftExpression(ResolveContext ec, Expression expr)
        {
            TypeExpr lifted_type = new NullableType(expr.Type, expr.Location);

            lifted_type = lifted_type.ResolveAsType(ec);
            if (lifted_type == null)
            {
                return(null);
            }

            expr.Type = lifted_type.Type;
            return(expr);
        }
コード例 #3
0
ファイル: nullable.cs プロジェクト: Paccc/SharpDevelop
		static Expression LiftExpression (ResolveContext ec, Expression expr)
		{
			var lifted_type = new NullableType (expr.Type, expr.Location);
			if (lifted_type.ResolveAsType (ec) == null)
				return null;

			expr.Type = lifted_type.Type;
			return expr;
		}
コード例 #4
0
		/// <summary>
		///   Constant expression folder for binary operations.
		///
		///   Returns null if the expression can not be folded.
		/// </summary>
		static public Constant BinaryFold (ResolveContext ec, Binary.Operator oper,
						     Constant left, Constant right, Location loc)
		{
			Constant result = null;

			if (left is EmptyConstantCast)
				return BinaryFold (ec, oper, ((EmptyConstantCast)left).child, right, loc);

			if (left is SideEffectConstant) {
				result = BinaryFold (ec, oper, ((SideEffectConstant) left).value, right, loc);
				if (result == null)
					return null;
				return new SideEffectConstant (result, left, loc);
			}

			if (right is EmptyConstantCast)
				return BinaryFold (ec, oper, left, ((EmptyConstantCast)right).child, loc);

			if (right is SideEffectConstant) {
				result = BinaryFold (ec, oper, left, ((SideEffectConstant) right).value, loc);
				if (result == null)
					return null;
				return new SideEffectConstant (result, right, loc);
			}

			TypeSpec lt = left.Type;
			TypeSpec rt = right.Type;
			bool bool_res;

			if (lt.BuiltinType == BuiltinTypeSpec.Type.Bool && lt == rt) {
				bool lv = (bool) left.GetValue ();
				bool rv = (bool) right.GetValue ();			
				switch (oper) {
				case Binary.Operator.BitwiseAnd:
				case Binary.Operator.LogicalAnd:
					return new BoolConstant (ec.BuiltinTypes, lv && rv, left.Location);
				case Binary.Operator.BitwiseOr:
				case Binary.Operator.LogicalOr:
					return new BoolConstant (ec.BuiltinTypes, lv || rv, left.Location);
				case Binary.Operator.ExclusiveOr:
					return new BoolConstant (ec.BuiltinTypes, lv ^ rv, left.Location);
				case Binary.Operator.Equality:
					return new BoolConstant (ec.BuiltinTypes, lv == rv, left.Location);
				case Binary.Operator.Inequality:
					return new BoolConstant (ec.BuiltinTypes, lv != rv, left.Location);
				}
				return null;
			}

			//
			// During an enum evaluation, none of the rules are valid
			// Not sure whether it is bug in csc or in documentation
			//
			if (ec.HasSet (ResolveContext.Options.EnumScope)){
				if (left is EnumConstant)
					left = ((EnumConstant) left).Child;
				
				if (right is EnumConstant)
					right = ((EnumConstant) right).Child;
			} else if (left is EnumConstant && rt == lt) {
				switch (oper){
					///
					/// E operator |(E x, E y);
					/// E operator &(E x, E y);
					/// E operator ^(E x, E y);
					/// 
					case Binary.Operator.BitwiseOr:
					case Binary.Operator.BitwiseAnd:
					case Binary.Operator.ExclusiveOr:
						result = BinaryFold (ec, oper, ((EnumConstant)left).Child, ((EnumConstant)right).Child, loc);
						if (result != null)
							result = result.TryReduce (ec, lt);
						return result;

					///
					/// U operator -(E x, E y);
					/// 
					case Binary.Operator.Subtraction:
						result = BinaryFold (ec, oper, ((EnumConstant)left).Child, ((EnumConstant)right).Child, loc);
						if (result != null)
							result = result.TryReduce (ec, EnumSpec.GetUnderlyingType (lt));
						return result;

					///
					/// bool operator ==(E x, E y);
					/// bool operator !=(E x, E y);
					/// bool operator <(E x, E y);
					/// bool operator >(E x, E y);
					/// bool operator <=(E x, E y);
					/// bool operator >=(E x, E y);
					/// 
					case Binary.Operator.Equality:				
					case Binary.Operator.Inequality:
					case Binary.Operator.LessThan:				
					case Binary.Operator.GreaterThan:
					case Binary.Operator.LessThanOrEqual:				
					case Binary.Operator.GreaterThanOrEqual:
						return BinaryFold(ec, oper, ((EnumConstant)left).Child, ((EnumConstant)right).Child, loc);
				}
				return null;
			}

			switch (oper){
			case Binary.Operator.BitwiseOr:
				//
				// bool? operator &(bool? x, bool? y);
				//
				if ((lt.BuiltinType == BuiltinTypeSpec.Type.Bool && right is NullLiteral) ||
					(rt.BuiltinType == BuiltinTypeSpec.Type.Bool && left is NullLiteral)) {
					var b = new Nullable.LiftedBinaryOperator (oper, left, right).Resolve (ec);

					// false | null => null
					// null | false => null
					if ((right is NullLiteral && left.IsDefaultValue) || (left is NullLiteral && right.IsDefaultValue))
						return Nullable.LiftedNull.CreateFromExpression (ec, b);

					// true | null => true
					// null | true => true
					return ReducedExpression.Create (new BoolConstant (ec.BuiltinTypes, true, loc), b);					
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				if (left is IntConstant){
					int res = ((IntConstant) left).Value | ((IntConstant) right).Value;

					return new IntConstant (ec.BuiltinTypes, res, left.Location);
				}
				if (left is UIntConstant){
					uint res = ((UIntConstant)left).Value | ((UIntConstant)right).Value;

					return new UIntConstant (ec.BuiltinTypes, res, left.Location);
				}
				if (left is LongConstant){
					long res = ((LongConstant)left).Value | ((LongConstant)right).Value;

					return new LongConstant (ec.BuiltinTypes, res, left.Location);
				}
				if (left is ULongConstant){
					ulong res = ((ULongConstant)left).Value |
						((ULongConstant)right).Value;

					return new ULongConstant (ec.BuiltinTypes, res, left.Location);
				}
				break;
				
			case Binary.Operator.BitwiseAnd:
				//
				// bool? operator &(bool? x, bool? y);
				//
				if ((lt.BuiltinType == BuiltinTypeSpec.Type.Bool && right is NullLiteral) ||
					(rt.BuiltinType == BuiltinTypeSpec.Type.Bool && left is NullLiteral)) {
					var b = new Nullable.LiftedBinaryOperator (oper, left, right).Resolve (ec);

					// false & null => false
					// null & false => false
					if ((right is NullLiteral && left.IsDefaultValue) || (left is NullLiteral && right.IsDefaultValue))
						return ReducedExpression.Create (new BoolConstant (ec.BuiltinTypes, false, loc), b);

					// true & null => null
					// null & true => null
					return Nullable.LiftedNull.CreateFromExpression (ec, b);
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;
				
				///
				/// int operator &(int x, int y);
				/// uint operator &(uint x, uint y);
				/// long operator &(long x, long y);
				/// ulong operator &(ulong x, ulong y);
				///
				if (left is IntConstant){
					int res = ((IntConstant) left).Value & ((IntConstant) right).Value;
					return new IntConstant (ec.BuiltinTypes, res, left.Location);
				}
				if (left is UIntConstant){
					uint res = ((UIntConstant)left).Value & ((UIntConstant)right).Value;
					return new UIntConstant (ec.BuiltinTypes, res, left.Location);
				}
				if (left is LongConstant){
					long res = ((LongConstant)left).Value & ((LongConstant)right).Value;
					return new LongConstant (ec.BuiltinTypes, res, left.Location);
				}
				if (left is ULongConstant){
					ulong res = ((ULongConstant)left).Value &
						((ULongConstant)right).Value;

					return new ULongConstant (ec.BuiltinTypes, res, left.Location);
				}
				break;

			case Binary.Operator.ExclusiveOr:
				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;
				
				if (left is IntConstant){
					int res = ((IntConstant) left).Value ^ ((IntConstant) right).Value;
					return new IntConstant (ec.BuiltinTypes, res, left.Location);
				}
				if (left is UIntConstant){
					uint res = ((UIntConstant)left).Value ^ ((UIntConstant)right).Value;

					return new UIntConstant (ec.BuiltinTypes, res, left.Location);
				}
				if (left is LongConstant){
					long res = ((LongConstant)left).Value ^ ((LongConstant)right).Value;

					return new LongConstant (ec.BuiltinTypes, res, left.Location);
				}
				if (left is ULongConstant){
					ulong res = ((ULongConstant)left).Value ^
						((ULongConstant)right).Value;

					return new ULongConstant (ec.BuiltinTypes, res, left.Location);
				}
				break;

			case Binary.Operator.Addition:
				if (lt == InternalType.NullLiteral)
					return right;

				if (rt == InternalType.NullLiteral)
					return left;

				//
				// If both sides are strings, then concatenate, if
				// one is a string, and the other is not, then defer
				// to runtime concatenation
				//
				if (lt.BuiltinType == BuiltinTypeSpec.Type.String || rt.BuiltinType == BuiltinTypeSpec.Type.String){
					if (lt == rt)
						return new StringConstant (ec.BuiltinTypes, (string)left.GetValue () + (string)right.GetValue (),
							left.Location);
					
					return null;
				}

				//
				// handle "E operator + (E x, U y)"
				// handle "E operator + (Y y, E x)"
				//
				EnumConstant lc = left as EnumConstant;
				EnumConstant rc = right as EnumConstant;
				if (lc != null || rc != null){
					if (lc == null) {
						lc = rc;
						lt = lc.Type;
						right = left;
					}

					// U has to be implicitly convetible to E.base
					right = right.ConvertImplicitly (lc.Child.Type);
					if (right == null)
						return null;

					result = BinaryFold (ec, oper, lc.Child, right, loc);
					if (result == null)
						return null;

					result = result.TryReduce (ec, lt);
					if (result == null)
						return null;

					return new EnumConstant (result, lt);
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				try {
					if (left is DoubleConstant){
						double res;
						
						if (ec.ConstantCheckState)
							res = checked (((DoubleConstant) left).Value +
								       ((DoubleConstant) right).Value);
						else
							res = unchecked (((DoubleConstant) left).Value +
									 ((DoubleConstant) right).Value);

						return new DoubleConstant (ec.BuiltinTypes, res, left.Location);
					}
					if (left is FloatConstant){
						float res;
						
						if (ec.ConstantCheckState)
							res = checked (((FloatConstant) left).Value +
								       ((FloatConstant) right).Value);
						else
							res = unchecked (((FloatConstant) left).Value +
									 ((FloatConstant) right).Value);

						result = new FloatConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is ULongConstant){
						ulong res;
						
						if (ec.ConstantCheckState)
							res = checked (((ULongConstant) left).Value +
								       ((ULongConstant) right).Value);
						else
							res = unchecked (((ULongConstant) left).Value +
									 ((ULongConstant) right).Value);

						result = new ULongConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is LongConstant){
						long res;
						
						if (ec.ConstantCheckState)
							res = checked (((LongConstant) left).Value +
								       ((LongConstant) right).Value);
						else
							res = unchecked (((LongConstant) left).Value +
									 ((LongConstant) right).Value);

						result = new LongConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is UIntConstant){
						uint res;
						
						if (ec.ConstantCheckState)
							res = checked (((UIntConstant) left).Value +
								       ((UIntConstant) right).Value);
						else
							res = unchecked (((UIntConstant) left).Value +
									 ((UIntConstant) right).Value);

						result = new UIntConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is IntConstant){
						int res;

						if (ec.ConstantCheckState)
							res = checked (((IntConstant) left).Value +
								       ((IntConstant) right).Value);
						else
							res = unchecked (((IntConstant) left).Value +
									 ((IntConstant) right).Value);

						result = new IntConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is DecimalConstant) {
						decimal res;

						if (ec.ConstantCheckState)
							res = checked (((DecimalConstant) left).Value +
								((DecimalConstant) right).Value);
						else
							res = unchecked (((DecimalConstant) left).Value +
								((DecimalConstant) right).Value);

						result = new DecimalConstant (ec.BuiltinTypes, res, left.Location);
					}
				} catch (OverflowException){
					Error_CompileTimeOverflow (ec, loc);
				}

				return result;

			case Binary.Operator.Subtraction:
				//
				// handle "E operator - (E x, U y)"
				// handle "E operator - (Y y, E x)"
				//
				lc = left as EnumConstant;
				rc = right as EnumConstant;
				if (lc != null || rc != null){
					if (lc == null) {
						lc = rc;
						lt = lc.Type;
						right = left;
					}

					// U has to be implicitly convetible to E.base
					right = right.ConvertImplicitly (lc.Child.Type);
					if (right == null)
						return null;

					result = BinaryFold (ec, oper, lc.Child, right, loc);
					if (result == null)
						return null;

					result = result.TryReduce (ec, lt);
					if (result == null)
						return null;

					return new EnumConstant (result, lt);
				}

				if (left is NullLiteral && right is NullLiteral) {
					var lifted_int = new Nullable.NullableType (ec.BuiltinTypes.Int, loc);
					lifted_int.ResolveAsType (ec);
					return (Constant) new Nullable.LiftedBinaryOperator (oper, lifted_int, right).Resolve (ec);
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				try {
					if (left is DoubleConstant){
						double res;
						
						if (ec.ConstantCheckState)
							res = checked (((DoubleConstant) left).Value -
								       ((DoubleConstant) right).Value);
						else
							res = unchecked (((DoubleConstant) left).Value -
									 ((DoubleConstant) right).Value);

						result = new DoubleConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is FloatConstant){
						float res;
						
						if (ec.ConstantCheckState)
							res = checked (((FloatConstant) left).Value -
								       ((FloatConstant) right).Value);
						else
							res = unchecked (((FloatConstant) left).Value -
									 ((FloatConstant) right).Value);

						result = new FloatConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is ULongConstant){
						ulong res;
						
						if (ec.ConstantCheckState)
							res = checked (((ULongConstant) left).Value -
								       ((ULongConstant) right).Value);
						else
							res = unchecked (((ULongConstant) left).Value -
									 ((ULongConstant) right).Value);

						result = new ULongConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is LongConstant){
						long res;
						
						if (ec.ConstantCheckState)
							res = checked (((LongConstant) left).Value -
								       ((LongConstant) right).Value);
						else
							res = unchecked (((LongConstant) left).Value -
									 ((LongConstant) right).Value);

						result = new LongConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is UIntConstant){
						uint res;
						
						if (ec.ConstantCheckState)
							res = checked (((UIntConstant) left).Value -
								       ((UIntConstant) right).Value);
						else
							res = unchecked (((UIntConstant) left).Value -
									 ((UIntConstant) right).Value);

						result = new UIntConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is IntConstant){
						int res;

						if (ec.ConstantCheckState)
							res = checked (((IntConstant) left).Value -
								       ((IntConstant) right).Value);
						else
							res = unchecked (((IntConstant) left).Value -
									 ((IntConstant) right).Value);

						result = new IntConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is DecimalConstant) {
						decimal res;

						if (ec.ConstantCheckState)
							res = checked (((DecimalConstant) left).Value -
								((DecimalConstant) right).Value);
						else
							res = unchecked (((DecimalConstant) left).Value -
								((DecimalConstant) right).Value);

						return new DecimalConstant (ec.BuiltinTypes, res, left.Location);
					} else {
						throw new Exception ( "Unexepected subtraction input: " + left);
					}
				} catch (OverflowException){
					Error_CompileTimeOverflow (ec, loc);
				}

				return result;
				
			case Binary.Operator.Multiply:
				if (left is NullLiteral && right is NullLiteral) {
					var lifted_int = new Nullable.NullableType (ec.BuiltinTypes.Int, loc);
					lifted_int.ResolveAsType (ec);
					return (Constant) new Nullable.LiftedBinaryOperator (oper, lifted_int, right).Resolve (ec);
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				try {
					if (left is DoubleConstant){
						double res;
						
						if (ec.ConstantCheckState)
							res = checked (((DoubleConstant) left).Value *
								((DoubleConstant) right).Value);
						else
							res = unchecked (((DoubleConstant) left).Value *
								((DoubleConstant) right).Value);

						return new DoubleConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is FloatConstant){
						float res;
						
						if (ec.ConstantCheckState)
							res = checked (((FloatConstant) left).Value *
								((FloatConstant) right).Value);
						else
							res = unchecked (((FloatConstant) left).Value *
								((FloatConstant) right).Value);

						return new FloatConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is ULongConstant){
						ulong res;
						
						if (ec.ConstantCheckState)
							res = checked (((ULongConstant) left).Value *
								((ULongConstant) right).Value);
						else
							res = unchecked (((ULongConstant) left).Value *
								((ULongConstant) right).Value);

						return new ULongConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is LongConstant){
						long res;
						
						if (ec.ConstantCheckState)
							res = checked (((LongConstant) left).Value *
								((LongConstant) right).Value);
						else
							res = unchecked (((LongConstant) left).Value *
								((LongConstant) right).Value);

						return new LongConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is UIntConstant){
						uint res;
						
						if (ec.ConstantCheckState)
							res = checked (((UIntConstant) left).Value *
								((UIntConstant) right).Value);
						else
							res = unchecked (((UIntConstant) left).Value *
								((UIntConstant) right).Value);

						return new UIntConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is IntConstant){
						int res;

						if (ec.ConstantCheckState)
							res = checked (((IntConstant) left).Value *
								((IntConstant) right).Value);
						else
							res = unchecked (((IntConstant) left).Value *
								((IntConstant) right).Value);

						return new IntConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is DecimalConstant) {
						decimal res;

						if (ec.ConstantCheckState)
							res = checked (((DecimalConstant) left).Value *
								((DecimalConstant) right).Value);
						else
							res = unchecked (((DecimalConstant) left).Value *
								((DecimalConstant) right).Value);

						return new DecimalConstant (ec.BuiltinTypes, res, left.Location);
					} else {
						throw new Exception ( "Unexepected multiply input: " + left);
					}
				} catch (OverflowException){
					Error_CompileTimeOverflow (ec, loc);
				}
				break;

			case Binary.Operator.Division:
				if (left is NullLiteral && right is NullLiteral) {
					var lifted_int = new Nullable.NullableType (ec.BuiltinTypes.Int, loc);
					lifted_int.ResolveAsType (ec);
					return (Constant) new Nullable.LiftedBinaryOperator (oper, lifted_int, right).Resolve (ec);
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				try {
					if (left is DoubleConstant){
						double res;
						
						if (ec.ConstantCheckState)
							res = checked (((DoubleConstant) left).Value /
								((DoubleConstant) right).Value);
						else
							res = unchecked (((DoubleConstant) left).Value /
								((DoubleConstant) right).Value);

						return new DoubleConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is FloatConstant){
						float res;
						
						if (ec.ConstantCheckState)
							res = checked (((FloatConstant) left).Value /
								((FloatConstant) right).Value);
						else
							res = unchecked (((FloatConstant) left).Value /
								((FloatConstant) right).Value);

						return new FloatConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is ULongConstant){
						ulong res;
						
						if (ec.ConstantCheckState)
							res = checked (((ULongConstant) left).Value /
								((ULongConstant) right).Value);
						else
							res = unchecked (((ULongConstant) left).Value /
								((ULongConstant) right).Value);

						return new ULongConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is LongConstant){
						long res;
						
						if (ec.ConstantCheckState)
							res = checked (((LongConstant) left).Value /
								((LongConstant) right).Value);
						else
							res = unchecked (((LongConstant) left).Value /
								((LongConstant) right).Value);

						return new LongConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is UIntConstant){
						uint res;
						
						if (ec.ConstantCheckState)
							res = checked (((UIntConstant) left).Value /
								((UIntConstant) right).Value);
						else
							res = unchecked (((UIntConstant) left).Value /
								((UIntConstant) right).Value);

						return new UIntConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is IntConstant){
						int res;

						if (ec.ConstantCheckState)
							res = checked (((IntConstant) left).Value /
								((IntConstant) right).Value);
						else
							res = unchecked (((IntConstant) left).Value /
								((IntConstant) right).Value);

						return new IntConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is DecimalConstant) {
						decimal res;

						if (ec.ConstantCheckState)
							res = checked (((DecimalConstant) left).Value /
								((DecimalConstant) right).Value);
						else
							res = unchecked (((DecimalConstant) left).Value /
								((DecimalConstant) right).Value);

						return new DecimalConstant (ec.BuiltinTypes, res, left.Location);
					} else {
						throw new Exception ( "Unexepected division input: " + left);
					}
				} catch (OverflowException){
					Error_CompileTimeOverflow (ec, loc);

				} catch (DivideByZeroException) {
					ec.Report.Error (20, loc, "Division by constant zero");
				}
				
				break;
				
			case Binary.Operator.Modulus:
				if (left is NullLiteral && right is NullLiteral) {
					var lifted_int = new Nullable.NullableType (ec.BuiltinTypes.Int, loc);
					lifted_int.ResolveAsType (ec);
					return (Constant) new Nullable.LiftedBinaryOperator (oper, lifted_int, right).Resolve (ec);
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				try {
					if (left is DoubleConstant){
						double res;
						
						if (ec.ConstantCheckState)
							res = checked (((DoubleConstant) left).Value %
								       ((DoubleConstant) right).Value);
						else
							res = unchecked (((DoubleConstant) left).Value %
									 ((DoubleConstant) right).Value);

						return new DoubleConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is FloatConstant){
						float res;
						
						if (ec.ConstantCheckState)
							res = checked (((FloatConstant) left).Value %
								       ((FloatConstant) right).Value);
						else
							res = unchecked (((FloatConstant) left).Value %
									 ((FloatConstant) right).Value);

						return new FloatConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is ULongConstant){
						ulong res;
						
						if (ec.ConstantCheckState)
							res = checked (((ULongConstant) left).Value %
								       ((ULongConstant) right).Value);
						else
							res = unchecked (((ULongConstant) left).Value %
									 ((ULongConstant) right).Value);

						return new ULongConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is LongConstant){
						long res;
						
						if (ec.ConstantCheckState)
							res = checked (((LongConstant) left).Value %
								       ((LongConstant) right).Value);
						else
							res = unchecked (((LongConstant) left).Value %
									 ((LongConstant) right).Value);

						return new LongConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is UIntConstant){
						uint res;
						
						if (ec.ConstantCheckState)
							res = checked (((UIntConstant) left).Value %
								       ((UIntConstant) right).Value);
						else
							res = unchecked (((UIntConstant) left).Value %
									 ((UIntConstant) right).Value);

						return new UIntConstant (ec.BuiltinTypes, res, left.Location);
					} else if (left is IntConstant){
						int res;

						if (ec.ConstantCheckState)
							res = checked (((IntConstant) left).Value %
								       ((IntConstant) right).Value);
						else
							res = unchecked (((IntConstant) left).Value %
									 ((IntConstant) right).Value);

						return new IntConstant (ec.BuiltinTypes, res, left.Location);
					} else {
						throw new Exception ( "Unexepected modulus input: " + left);
					}
				} catch (DivideByZeroException){
					ec.Report.Error (20, loc, "Division by constant zero");
				} catch (OverflowException){
					Error_CompileTimeOverflow (ec, loc);
				}
				break;

				//
				// There is no overflow checking on left shift
				//
			case Binary.Operator.LeftShift:
				if (left is NullLiteral && right is NullLiteral) {
					var lifted_int = new Nullable.NullableType (ec.BuiltinTypes.Int, loc);
					lifted_int.ResolveAsType (ec);
					return (Constant) new Nullable.LiftedBinaryOperator (oper, lifted_int, right).Resolve (ec);
				}

				IntConstant ic = right.ConvertImplicitly (ec.BuiltinTypes.Int) as IntConstant;
				if (ic == null){
					Binary.Error_OperatorCannotBeApplied (ec, left, right, oper, loc);
					return null;
				}

				int lshift_val = ic.Value;
				switch (left.Type.BuiltinType) {
				case BuiltinTypeSpec.Type.ULong:
					return new ULongConstant (ec.BuiltinTypes, ((ULongConstant) left).Value << lshift_val, left.Location);
				case BuiltinTypeSpec.Type.Long:
					return new LongConstant (ec.BuiltinTypes, ((LongConstant) left).Value << lshift_val, left.Location);
				case BuiltinTypeSpec.Type.UInt:
					return new UIntConstant (ec.BuiltinTypes, ((UIntConstant) left).Value << lshift_val, left.Location);
				}

				// null << value => null
				if (left is NullLiteral)
					return (Constant) new Nullable.LiftedBinaryOperator (oper, left, right).Resolve (ec);

				left = left.ConvertImplicitly (ec.BuiltinTypes.Int);
				if (left.Type.BuiltinType == BuiltinTypeSpec.Type.Int)
					return new IntConstant (ec.BuiltinTypes, ((IntConstant) left).Value << lshift_val, left.Location);

				Binary.Error_OperatorCannotBeApplied (ec, left, right, oper, loc);
				break;

				//
				// There is no overflow checking on right shift
				//
			case Binary.Operator.RightShift:
				if (left is NullLiteral && right is NullLiteral) {
					var lifted_int = new Nullable.NullableType (ec.BuiltinTypes.Int, loc);
					lifted_int.ResolveAsType (ec);
					return (Constant) new Nullable.LiftedBinaryOperator (oper, lifted_int, right).Resolve (ec);
				}

				IntConstant sic = right.ConvertImplicitly (ec.BuiltinTypes.Int) as IntConstant;
				if (sic == null){
					Binary.Error_OperatorCannotBeApplied (ec, left, right, oper, loc); ;
					return null;
				}
				int rshift_val = sic.Value;
				switch (left.Type.BuiltinType) {
				case BuiltinTypeSpec.Type.ULong:
					return new ULongConstant (ec.BuiltinTypes, ((ULongConstant) left).Value >> rshift_val, left.Location);
				case BuiltinTypeSpec.Type.Long:
					return new LongConstant (ec.BuiltinTypes, ((LongConstant) left).Value >> rshift_val, left.Location);
				case BuiltinTypeSpec.Type.UInt:
					return new UIntConstant (ec.BuiltinTypes, ((UIntConstant) left).Value >> rshift_val, left.Location);
				}

				// null >> value => null
				if (left is NullLiteral)
					return (Constant) new Nullable.LiftedBinaryOperator (oper, left, right).Resolve (ec);

				left = left.ConvertImplicitly (ec.BuiltinTypes.Int);
				if (left.Type.BuiltinType == BuiltinTypeSpec.Type.Int)
					return new IntConstant (ec.BuiltinTypes, ((IntConstant) left).Value >> rshift_val, left.Location);

				Binary.Error_OperatorCannotBeApplied (ec, left, right, oper, loc);
				break;

			case Binary.Operator.Equality:
				if (TypeSpec.IsReferenceType (lt) && TypeSpec.IsReferenceType (rt) ||
					(left is Nullable.LiftedNull && right.IsNull) ||
					(right is Nullable.LiftedNull && left.IsNull)) {
					if (left.IsNull || right.IsNull) {
						return ReducedExpression.Create (
							new BoolConstant (ec.BuiltinTypes, left.IsNull == right.IsNull, left.Location),
							new Binary (oper, left, right));
					}

					if (left is StringConstant && right is StringConstant)
						return new BoolConstant (ec.BuiltinTypes,
							((StringConstant) left).Value == ((StringConstant) right).Value, left.Location);

					return null;
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				bool_res = false;
				if (left is DoubleConstant)
					bool_res = ((DoubleConstant) left).Value ==
						((DoubleConstant) right).Value;
				else if (left is FloatConstant)
					bool_res = ((FloatConstant) left).Value ==
						((FloatConstant) right).Value;
				else if (left is ULongConstant)
					bool_res = ((ULongConstant) left).Value ==
						((ULongConstant) right).Value;
				else if (left is LongConstant)
					bool_res = ((LongConstant) left).Value ==
						((LongConstant) right).Value;
				else if (left is UIntConstant)
					bool_res = ((UIntConstant) left).Value ==
						((UIntConstant) right).Value;
				else if (left is IntConstant)
					bool_res = ((IntConstant) left).Value ==
						((IntConstant) right).Value;
				else
					return null;

				return new BoolConstant (ec.BuiltinTypes, bool_res, left.Location);

			case Binary.Operator.Inequality:
				if (TypeSpec.IsReferenceType (lt) && TypeSpec.IsReferenceType (rt) ||
					(left is Nullable.LiftedNull && right.IsNull) ||
					(right is Nullable.LiftedNull && left.IsNull)) {
					if (left.IsNull || right.IsNull) {
						return ReducedExpression.Create (
							new BoolConstant (ec.BuiltinTypes, left.IsNull != right.IsNull, left.Location),
							new Binary (oper, left, right));
					}

					if (left is StringConstant && right is StringConstant)
						return new BoolConstant (ec.BuiltinTypes,
							((StringConstant) left).Value != ((StringConstant) right).Value, left.Location);

					return null;
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				bool_res = false;
				if (left is DoubleConstant)
					bool_res = ((DoubleConstant) left).Value !=
						((DoubleConstant) right).Value;
				else if (left is FloatConstant)
					bool_res = ((FloatConstant) left).Value !=
						((FloatConstant) right).Value;
				else if (left is ULongConstant)
					bool_res = ((ULongConstant) left).Value !=
						((ULongConstant) right).Value;
				else if (left is LongConstant)
					bool_res = ((LongConstant) left).Value !=
						((LongConstant) right).Value;
				else if (left is UIntConstant)
					bool_res = ((UIntConstant) left).Value !=
						((UIntConstant) right).Value;
				else if (left is IntConstant)
					bool_res = ((IntConstant) left).Value !=
						((IntConstant) right).Value;
				else
					return null;

				return new BoolConstant (ec.BuiltinTypes, bool_res, left.Location);

			case Binary.Operator.LessThan:
				if (right is NullLiteral) {
					if (left is NullLiteral) {
						var lifted_int = new Nullable.NullableType (ec.BuiltinTypes.Int, loc);
						lifted_int.ResolveAsType (ec);
						return (Constant) new Nullable.LiftedBinaryOperator (oper, lifted_int, right).Resolve (ec);
					}

					if (left is Nullable.LiftedNull) {
						return (Constant) new Nullable.LiftedBinaryOperator (oper, left, right).Resolve (ec);
					}
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				bool_res = false;
				if (left is DoubleConstant)
					bool_res = ((DoubleConstant) left).Value <
						((DoubleConstant) right).Value;
				else if (left is FloatConstant)
					bool_res = ((FloatConstant) left).Value <
						((FloatConstant) right).Value;
				else if (left is ULongConstant)
					bool_res = ((ULongConstant) left).Value <
						((ULongConstant) right).Value;
				else if (left is LongConstant)
					bool_res = ((LongConstant) left).Value <
						((LongConstant) right).Value;
				else if (left is UIntConstant)
					bool_res = ((UIntConstant) left).Value <
						((UIntConstant) right).Value;
				else if (left is IntConstant)
					bool_res = ((IntConstant) left).Value <
						((IntConstant) right).Value;
				else
					return null;

				return new BoolConstant (ec.BuiltinTypes, bool_res, left.Location);
				
			case Binary.Operator.GreaterThan:
				if (right is NullLiteral) {
					if (left is NullLiteral) {
						var lifted_int = new Nullable.NullableType (ec.BuiltinTypes.Int, loc);
						lifted_int.ResolveAsType (ec);
						return (Constant) new Nullable.LiftedBinaryOperator (oper, lifted_int, right).Resolve (ec);
					}

					if (left is Nullable.LiftedNull) {
						return (Constant) new Nullable.LiftedBinaryOperator (oper, left, right).Resolve (ec);
					}
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				bool_res = false;
				if (left is DoubleConstant)
					bool_res = ((DoubleConstant) left).Value >
						((DoubleConstant) right).Value;
				else if (left is FloatConstant)
					bool_res = ((FloatConstant) left).Value >
						((FloatConstant) right).Value;
				else if (left is ULongConstant)
					bool_res = ((ULongConstant) left).Value >
						((ULongConstant) right).Value;
				else if (left is LongConstant)
					bool_res = ((LongConstant) left).Value >
						((LongConstant) right).Value;
				else if (left is UIntConstant)
					bool_res = ((UIntConstant) left).Value >
						((UIntConstant) right).Value;
				else if (left is IntConstant)
					bool_res = ((IntConstant) left).Value >
						((IntConstant) right).Value;
				else
					return null;

				return new BoolConstant (ec.BuiltinTypes, bool_res, left.Location);

			case Binary.Operator.GreaterThanOrEqual:
				if (right is NullLiteral) {
					if (left is NullLiteral) {
						var lifted_int = new Nullable.NullableType (ec.BuiltinTypes.Int, loc);
						lifted_int.ResolveAsType (ec);
						return (Constant) new Nullable.LiftedBinaryOperator (oper, lifted_int, right).Resolve (ec);
					}

					if (left is Nullable.LiftedNull) {
						return (Constant) new Nullable.LiftedBinaryOperator (oper, left, right).Resolve (ec);
					}
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				bool_res = false;
				if (left is DoubleConstant)
					bool_res = ((DoubleConstant) left).Value >=
						((DoubleConstant) right).Value;
				else if (left is FloatConstant)
					bool_res = ((FloatConstant) left).Value >=
						((FloatConstant) right).Value;
				else if (left is ULongConstant)
					bool_res = ((ULongConstant) left).Value >=
						((ULongConstant) right).Value;
				else if (left is LongConstant)
					bool_res = ((LongConstant) left).Value >=
						((LongConstant) right).Value;
				else if (left is UIntConstant)
					bool_res = ((UIntConstant) left).Value >=
						((UIntConstant) right).Value;
				else if (left is IntConstant)
					bool_res = ((IntConstant) left).Value >=
						((IntConstant) right).Value;
				else
					return null;

				return new BoolConstant (ec.BuiltinTypes, bool_res, left.Location);

			case Binary.Operator.LessThanOrEqual:
				if (right is NullLiteral) {
					if (left is NullLiteral) {
						var lifted_int = new Nullable.NullableType (ec.BuiltinTypes.Int, loc);
						lifted_int.ResolveAsType (ec);
						return (Constant) new Nullable.LiftedBinaryOperator (oper, lifted_int, right).Resolve (ec);
					}

					if (left is Nullable.LiftedNull) {
						return (Constant) new Nullable.LiftedBinaryOperator (oper, left, right).Resolve (ec);
					}
				}

				if (!DoBinaryNumericPromotions (ec, ref left, ref right))
					return null;

				bool_res = false;
				if (left is DoubleConstant)
					bool_res = ((DoubleConstant) left).Value <=
						((DoubleConstant) right).Value;
				else if (left is FloatConstant)
					bool_res = ((FloatConstant) left).Value <=
						((FloatConstant) right).Value;
				else if (left is ULongConstant)
					bool_res = ((ULongConstant) left).Value <=
						((ULongConstant) right).Value;
				else if (left is LongConstant)
					bool_res = ((LongConstant) left).Value <=
						((LongConstant) right).Value;
				else if (left is UIntConstant)
					bool_res = ((UIntConstant) left).Value <=
						((UIntConstant) right).Value;
				else if (left is IntConstant)
					bool_res = ((IntConstant) left).Value <=
						((IntConstant) right).Value;
				else
					return null;

				return new BoolConstant (ec.BuiltinTypes, bool_res, left.Location);
			}
					
			return null;
		}
コード例 #5
0
ファイル: nullable.cs プロジェクト: constructor-igor/cudafy
		Expression LiftResult (ResolveContext ec, Expression res_expr)
		{
			TypeExpr lifted_type;

			//
			// Avoid double conversion
			//
			if (left_unwrap == null || IsLeftNullLifted || left_unwrap.Type != left.Type || (left_unwrap != null && IsRightNullLifted)) {
				lifted_type = new NullableType (left.Type, loc);
				lifted_type = lifted_type.ResolveAsType (ec);
				if (lifted_type == null)
					return null;

				if (left is UserCast || left is TypeCast)
					left.Type = lifted_type.Type;
				else
					left = EmptyCast.Create (left, lifted_type.Type);
			}

			if (left != right && (right_unwrap == null || IsRightNullLifted || right_unwrap.Type != right.Type || (right_unwrap != null && IsLeftNullLifted))) {
				lifted_type = new NullableType (right.Type, loc);
				lifted_type = lifted_type.ResolveAsType (ec);
				if (lifted_type == null)
					return null;

				var r = right;
				if (r is ReducedExpression)
					r = ((ReducedExpression) r).OriginalExpression;

				if (r is UserCast || r is TypeCast)
					r.Type = lifted_type.Type;
				else
					right = EmptyCast.Create (right, lifted_type.Type);
			}

			if ((Oper & Operator.ComparisonMask) == 0) {
				lifted_type = new NullableType (res_expr.Type, loc);
				lifted_type = lifted_type.ResolveAsType (ec);
				if (lifted_type == null)
					return null;

				wrap_ctor = NullableInfo.GetConstructor (lifted_type.Type);
				type = res_expr.Type = lifted_type.Type;
			}

			if (IsLeftNullLifted) {
				left = LiftedNull.Create (right.Type, left.Location);

				//
				// Special case for bool?, the result depends on both null right side and left side value
				//
				if ((Oper == Operator.BitwiseAnd || Oper == Operator.BitwiseOr) && NullableInfo.GetUnderlyingType (type).BuiltinType == BuiltinTypeSpec.Type.Bool) {
					return res_expr;
				}

				if ((Oper & (Operator.ArithmeticMask | Operator.ShiftMask | Operator.BitwiseMask)) != 0)
					return LiftedNull.CreateFromExpression (ec, res_expr);

				//
				// Value types and null comparison
				//
				if (right_unwrap == null || (Oper & Operator.RelationalMask) != 0)
					return CreateNullConstant (ec, right_orig);
			}

			if (IsRightNullLifted) {
				right = LiftedNull.Create (left.Type, right.Location);

				//
				// Special case for bool?, the result depends on both null right side and left side value
				//
				if ((Oper == Operator.BitwiseAnd || Oper == Operator.BitwiseOr) && NullableInfo.GetUnderlyingType (type).BuiltinType == BuiltinTypeSpec.Type.Bool) {
					return res_expr;
				}

				if ((Oper & (Operator.ArithmeticMask | Operator.ShiftMask | Operator.BitwiseMask)) != 0)
					return LiftedNull.CreateFromExpression (ec, res_expr);

				//
				// Value types and null comparison
				//
				if (left_unwrap == null || (Oper & Operator.RelationalMask) != 0)
					return CreateNullConstant (ec, left_orig);
			}

			return res_expr;
		}
コード例 #6
0
ファイル: nullable.cs プロジェクト: yonder/mono
        Expression LiftResult(ResolveContext ec, Expression res_expr)
        {
            TypeExpr lifted_type;

            //
            // Avoid double conversion
            //
            if (left_unwrap == null || IsLeftNullLifted || left_unwrap.Type != left.Type || (left_unwrap != null && IsRightNullLifted))
            {
                lifted_type = new NullableType(left.Type, loc);
                lifted_type = lifted_type.ResolveAsType(ec);
                if (lifted_type == null)
                {
                    return(null);
                }

                if (left is UserCast || left is TypeCast)
                {
                    left.Type = lifted_type.Type;
                }
                else
                {
                    left = EmptyCast.Create(left, lifted_type.Type);
                }
            }

            if (left != right && (right_unwrap == null || IsRightNullLifted || right_unwrap.Type != right.Type || (right_unwrap != null && IsLeftNullLifted)))
            {
                lifted_type = new NullableType(right.Type, loc);
                lifted_type = lifted_type.ResolveAsType(ec);
                if (lifted_type == null)
                {
                    return(null);
                }

                var r = right;
                if (r is ReducedExpression)
                {
                    r = ((ReducedExpression)r).OriginalExpression;
                }

                if (r is UserCast || r is TypeCast)
                {
                    r.Type = lifted_type.Type;
                }
                else
                {
                    right = EmptyCast.Create(right, lifted_type.Type);
                }
            }

            if ((Oper & Operator.ComparisonMask) == 0)
            {
                lifted_type = new NullableType(res_expr.Type, loc);
                lifted_type = lifted_type.ResolveAsType(ec);
                if (lifted_type == null)
                {
                    return(null);
                }

                wrap_ctor = NullableInfo.GetConstructor(lifted_type.Type);
                type      = res_expr.Type = lifted_type.Type;
            }

            if (IsLeftNullLifted)
            {
                left = LiftedNull.Create(right.Type, left.Location);

                //
                // Special case for bool?, the result depends on both null right side and left side value
                //
                if ((Oper == Operator.BitwiseAnd || Oper == Operator.BitwiseOr) && NullableInfo.GetUnderlyingType(type).BuiltinType == BuiltinTypeSpec.Type.Bool)
                {
                    return(res_expr);
                }

                if ((Oper & (Operator.ArithmeticMask | Operator.ShiftMask | Operator.BitwiseMask)) != 0)
                {
                    return(LiftedNull.CreateFromExpression(ec, res_expr));
                }

                //
                // Value types and null comparison
                //
                if (right_unwrap == null || (Oper & Operator.RelationalMask) != 0)
                {
                    return(CreateNullConstant(ec, right_orig));
                }
            }

            if (IsRightNullLifted)
            {
                right = LiftedNull.Create(left.Type, right.Location);

                //
                // Special case for bool?, the result depends on both null right side and left side value
                //
                if ((Oper == Operator.BitwiseAnd || Oper == Operator.BitwiseOr) && NullableInfo.GetUnderlyingType(type).BuiltinType == BuiltinTypeSpec.Type.Bool)
                {
                    return(res_expr);
                }

                if ((Oper & (Operator.ArithmeticMask | Operator.ShiftMask | Operator.BitwiseMask)) != 0)
                {
                    return(LiftedNull.CreateFromExpression(ec, res_expr));
                }

                //
                // Value types and null comparison
                //
                if (left_unwrap == null || (Oper & Operator.RelationalMask) != 0)
                {
                    return(CreateNullConstant(ec, left_orig));
                }
            }

            return(res_expr);
        }