public static ToInt32 ( |
||
generator | The IL generator. | |
fromType | PrimitiveType | The type to convert from. |
Résultat | void |
/// <summary> /// Generates CIL for the expression. /// </summary> /// <param name="generator"> The generator to output the CIL to. </param> /// <param name="optimizationInfo"> Information about any optimizations that should be performed. </param> public override void GenerateCode(ILGenerator generator, OptimizationInfo optimizationInfo) { // Special-case the delete operator. if (this.OperatorType == OperatorType.Delete) { GenerateDelete(generator, optimizationInfo); return; } // If a return value is not expected, generate only the side-effects. /*if (optimizationInfo.SuppressReturnValue == true) * { * this.GenerateSideEffects(generator, optimizationInfo); * return; * }*/ // Special-case the typeof operator. if (this.OperatorType == OperatorType.Typeof) { GenerateTypeof(generator, optimizationInfo); return; } // Load the operand onto the stack. this.Operand.GenerateCode(generator, optimizationInfo); // Convert the operand to the correct type. switch (this.OperatorType) { case OperatorType.Plus: case OperatorType.Minus: EmitConversion.ToNumber(generator, this.Operand.ResultType); break; case OperatorType.BitwiseNot: EmitConversion.ToInt32(generator, this.Operand.ResultType); break; case OperatorType.LogicalNot: EmitConversion.ToBool(generator, this.Operand.ResultType); break; } // Apply the operator. switch (this.OperatorType) { case OperatorType.Plus: break; case OperatorType.Minus: generator.Negate(); break; case OperatorType.BitwiseNot: generator.BitwiseNot(); break; case OperatorType.LogicalNot: generator.LoadBoolean(false); generator.CompareEqual(); break; case OperatorType.Void: generator.Pop(); EmitHelpers.EmitUndefined(generator); break; default: throw new NotImplementedException(string.Format("Unsupported operator {0}", this.OperatorType)); } }
/// <summary> /// Generates CIL for the expression. /// </summary> /// <param name="generator"> The generator to output the CIL to. </param> /// <param name="optimizationInfo"> Information about any optimizations that should be performed. </param> public override void GenerateCode(ILGenerator generator, OptimizationInfo optimizationInfo) { // If a return value is not expected, generate only the side-effects. /*if (optimizationInfo.SuppressReturnValue == true) * { * this.GenerateSideEffects(generator, optimizationInfo); * return; * }*/ // Special case the addition operator. if (this.OperatorType == OperatorType.Add) { GenerateAdd(generator, optimizationInfo); return; } // Special case the instanceof operator. if (this.OperatorType == OperatorType.InstanceOf) { GenerateInstanceOf(generator, optimizationInfo); return; } // Special case the in operator. if (this.OperatorType == OperatorType.In) { GenerateIn(generator, optimizationInfo); return; } // Special case the relational operators. if (this.OperatorType == OperatorType.LessThan || this.OperatorType == OperatorType.LessThanOrEqual || this.OperatorType == OperatorType.GreaterThan || this.OperatorType == OperatorType.GreaterThanOrEqual) { GenerateRelational(generator, optimizationInfo); return; } // Special case the logical operators. if (this.OperatorType == OperatorType.LogicalAnd || this.OperatorType == OperatorType.LogicalOr) { GenerateLogical(generator, optimizationInfo); return; } // Load the left hand side onto the stack. this.Left.GenerateCode(generator, optimizationInfo); // Convert the left argument. switch (this.OperatorType) { // Arithmetic operations. case OperatorType.Subtract: case OperatorType.Multiply: case OperatorType.Divide: case OperatorType.Modulo: case OperatorType.Exponentiation: EmitConversion.ToNumber(generator, this.Left.ResultType); break; // Bitwise operations. case OperatorType.BitwiseAnd: case OperatorType.BitwiseOr: case OperatorType.BitwiseXor: case OperatorType.LeftShift: case OperatorType.SignedRightShift: case OperatorType.UnsignedRightShift: EmitConversion.ToInt32(generator, this.Left.ResultType); break; // Equality operations. case OperatorType.Equal: case OperatorType.StrictlyEqual: case OperatorType.NotEqual: case OperatorType.StrictlyNotEqual: EmitConversion.ToAny(generator, this.Left.ResultType); break; } // Load the right hand side onto the stack. this.Right.GenerateCode(generator, optimizationInfo); // Convert the right argument. switch (this.OperatorType) { // Arithmetic operations. case OperatorType.Subtract: case OperatorType.Multiply: case OperatorType.Divide: case OperatorType.Modulo: case OperatorType.Exponentiation: EmitConversion.ToNumber(generator, this.Right.ResultType); break; // Bitwise operations. case OperatorType.BitwiseAnd: case OperatorType.BitwiseOr: case OperatorType.BitwiseXor: EmitConversion.ToInt32(generator, this.Right.ResultType); break; case OperatorType.LeftShift: case OperatorType.SignedRightShift: case OperatorType.UnsignedRightShift: EmitConversion.ToUInt32(generator, this.Right.ResultType); generator.LoadInt32(0x1F); generator.BitwiseAnd(); break; // Equality operations. case OperatorType.Equal: case OperatorType.StrictlyEqual: case OperatorType.NotEqual: case OperatorType.StrictlyNotEqual: EmitConversion.ToAny(generator, this.Right.ResultType); break; } // Apply the operator. switch (this.OperatorType) { // Arithmetic operations. case OperatorType.Subtract: generator.Subtract(); break; case OperatorType.Multiply: generator.Multiply(); break; case OperatorType.Divide: generator.Divide(); break; case OperatorType.Modulo: generator.Remainder(); break; case OperatorType.Exponentiation: generator.CallStatic(ReflectionHelpers.Math_Pow); break; // Bitwise operations. case OperatorType.BitwiseAnd: generator.BitwiseAnd(); break; case OperatorType.BitwiseOr: generator.BitwiseOr(); break; case OperatorType.BitwiseXor: generator.BitwiseXor(); break; // Shift operations. case OperatorType.LeftShift: generator.ShiftLeft(); break; case OperatorType.SignedRightShift: generator.ShiftRight(); break; case OperatorType.UnsignedRightShift: generator.ShiftRightUnsigned(); EmitConversion.ToNumber(generator, PrimitiveType.UInt32); break; // Equality operations. case OperatorType.Equal: generator.Call(ReflectionHelpers.TypeComparer_Equals); break; case OperatorType.StrictlyEqual: generator.Call(ReflectionHelpers.TypeComparer_StrictEquals); break; case OperatorType.NotEqual: generator.Call(ReflectionHelpers.TypeComparer_Equals); generator.LoadBoolean(false); generator.CompareEqual(); break; case OperatorType.StrictlyNotEqual: generator.Call(ReflectionHelpers.TypeComparer_StrictEquals); generator.LoadBoolean(false); generator.CompareEqual(); break; default: throw new NotImplementedException(string.Format("Unsupported operator {0}", this.OperatorType)); } }
/// <summary> /// Pops the value on the stack, converts it from an object to the given type, then pushes /// the result onto the stack. /// </summary> /// <param name="generator"> The IL generator. </param> /// <param name="toType"> The type to convert to. </param> /// <param name="convertToAddress"> <c>true</c> if the value is intended for use as an /// instance pointer; <c>false</c> otherwise. </param> internal static void EmitConversionToType(ILGenerator generator, Type toType, bool convertToAddress) { // Convert Null.Value to null if the target type is a reference type. ILLabel endOfNullCheck = null; if (toType.IsValueType == false) { var startOfElse = generator.CreateLabel(); endOfNullCheck = generator.CreateLabel(); generator.Duplicate(); EmitHelpers.EmitNull(generator); generator.BranchIfNotEqual(startOfElse); generator.Pop(); generator.LoadNull(); generator.Branch(endOfNullCheck); generator.DefineLabelPosition(startOfElse); } switch (Type.GetTypeCode(toType)) { case TypeCode.Boolean: EmitConversion.ToBool(generator, PrimitiveType.Any); break; case TypeCode.Byte: EmitConversion.ToInt32(generator, PrimitiveType.Any); break; case TypeCode.Char: EmitConversion.ToString(generator, PrimitiveType.Any); generator.Duplicate(); generator.Call(ReflectionHelpers.String_Length); generator.LoadInt32(1); var endOfCharCheck = generator.CreateLabel(); generator.BranchIfEqual(endOfCharCheck); EmitHelpers.EmitThrow(generator, ErrorType.TypeError, "Cannot convert string to char - the string must be exactly one character long"); generator.DefineLabelPosition(endOfCharCheck); generator.LoadInt32(0); generator.Call(ReflectionHelpers.String_GetChars); break; case TypeCode.DBNull: throw new NotSupportedException("DBNull is not a supported parameter type."); case TypeCode.Decimal: EmitConversion.ToNumber(generator, PrimitiveType.Any); generator.NewObject(ReflectionHelpers.Decimal_Constructor_Double); break; case TypeCode.Double: EmitConversion.ToNumber(generator, PrimitiveType.Any); break; case TypeCode.Empty: throw new NotSupportedException("Empty is not a supported return type."); case TypeCode.Int16: EmitConversion.ToInt32(generator, PrimitiveType.Any); break; case TypeCode.Int32: EmitConversion.ToInt32(generator, PrimitiveType.Any); break; case TypeCode.Int64: EmitConversion.ToNumber(generator, PrimitiveType.Any); generator.ConvertToInt64(); break; case TypeCode.DateTime: case TypeCode.Object: // Check if the type must be unwrapped. generator.Duplicate(); generator.IsInstance(typeof(Jurassic.Library.ClrInstanceWrapper)); var endOfUnwrapCheck = generator.CreateLabel(); generator.BranchIfFalse(endOfUnwrapCheck); // Unwrap the wrapped instance. generator.Call(ReflectionHelpers.ClrInstanceWrapper_GetWrappedInstance); generator.DefineLabelPosition(endOfUnwrapCheck); // Value types must be unboxed. if (toType.IsValueType == true) { if (convertToAddress == true) { // Unbox. generator.Unbox(toType); } else { // Unbox and copy to the stack. generator.UnboxAny(toType); } //// Calling methods on value required the address of the value type, not the value type itself. //if (argument.Source == BinderArgumentSource.ThisValue && argument.Type.IsValueType == true) //{ // var temp = generator.CreateTemporaryVariable(argument.Type); // generator.StoreVariable(temp); // generator.LoadAddressOfVariable(temp); // generator.ReleaseTemporaryVariable(temp); //} } break; case TypeCode.SByte: EmitConversion.ToInt32(generator, PrimitiveType.Any); break; case TypeCode.Single: EmitConversion.ToNumber(generator, PrimitiveType.Any); break; case TypeCode.String: EmitConversion.ToString(generator, PrimitiveType.Any); break; case TypeCode.UInt16: EmitConversion.ToInt32(generator, PrimitiveType.Any); break; case TypeCode.UInt32: EmitConversion.ToUInt32(generator, PrimitiveType.Any); break; case TypeCode.UInt64: EmitConversion.ToNumber(generator, PrimitiveType.Any); generator.ConvertToUnsignedInt64(); break; } // Label the end of the null check. if (toType.IsValueType == false) { generator.DefineLabelPosition(endOfNullCheck); } }