/// <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>
/// 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:
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:
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;
// 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));
}
}
