/// <summary>
/// Generates CIL for the logical operators.
/// </summary>
/// <param name="generator"> The generator to output the CIL to. </param>
/// <param name="optimizationInfo"> Information about any optimizations that should be performed. </param>
private void GenerateLogical(ILGenerator generator, OptimizationInfo optimizationInfo)
{
// Get the statically-determined types of the left and right operands.
PrimitiveType leftType = this.Left.ResultType;
PrimitiveType rightType = this.Right.ResultType;
// Load the left-hand side operand.
this.Left.GenerateCode(generator, optimizationInfo);
// Make sure the output type is consistant.
if (leftType != rightType)
{
if (PrimitiveTypeUtilities.IsNumeric(leftType) && PrimitiveTypeUtilities.IsNumeric(rightType))
{
EmitConversion.ToNumber(generator, leftType);
leftType = PrimitiveType.Number;
}
else
{
EmitConversion.ToAny(generator, leftType);
leftType = PrimitiveType.Any;
}
}
// Duplicate and convert to a Boolean.
generator.Duplicate();
EmitConversion.ToBool(generator, leftType);
// Stack contains "left, (bool)left"
var endOfIf = generator.CreateLabel();
if (this.OperatorType == OperatorType.LogicalAnd)
{
generator.BranchIfFalse(endOfIf);
}
else
{
generator.BranchIfTrue(endOfIf);
}
// Stack contains "left". Load the right-hand side operand.
generator.Pop();
this.Right.GenerateCode(generator, optimizationInfo);
// Make sure the output type is consistant.
if (leftType != rightType)
{
if (PrimitiveTypeUtilities.IsNumeric(leftType) && PrimitiveTypeUtilities.IsNumeric(rightType))
{
EmitConversion.ToNumber(generator, rightType);
}
else
{
EmitConversion.ToAny(generator, rightType);
}
}
// Define the label used above.
generator.DefineLabelPosition(endOfIf);
}
/// <summary>
/// Generates CIL for the relational operators.
/// </summary>
/// <param name="generator"> The generator to output the CIL to. </param>
/// <param name="optimizationInfo"> Information about any optimizations that should be performed. </param>
private void GenerateRelational(ILGenerator generator, OptimizationInfo optimizationInfo)
{
// Get the statically-determined types of the left and right operands.
PrimitiveType leftType = this.Left.ResultType;
PrimitiveType rightType = this.Right.ResultType;
// The relational operators compare strings if both of the operands are strings.
if (leftType == PrimitiveType.String && rightType == PrimitiveType.String)
{
// Both of the operands are strings.
// Load the left hand side operand onto the stack.
this.Left.GenerateCode(generator, optimizationInfo);
// Load the right hand side operand onto the stack.
this.Right.GenerateCode(generator, optimizationInfo);
// Compare the two strings.
generator.Call(ReflectionHelpers.String_CompareOrdinal.Value);
switch (this.OperatorType)
{
case OperatorType.LessThan:
generator.LoadInt32(0);
generator.CompareLessThan();
break;
case OperatorType.LessThanOrEqual:
generator.LoadInt32(1);
generator.CompareLessThan();
break;
case OperatorType.GreaterThan:
generator.LoadInt32(0);
generator.CompareGreaterThan();
break;
case OperatorType.GreaterThanOrEqual:
generator.LoadInt32(-1);
generator.CompareGreaterThan();
break;
}
}
else if (leftType == PrimitiveType.Int32 && rightType == PrimitiveType.Int32)
{
// Both of the operands are integers.
// Load the left hand side operand onto the stack.
this.Left.GenerateCode(generator, optimizationInfo);
// Load the right hand side operand onto the stack.
this.Right.GenerateCode(generator, optimizationInfo);
// Compare the two numbers.
switch (this.OperatorType)
{
case OperatorType.LessThan:
generator.CompareLessThan();
break;
case OperatorType.GreaterThan:
generator.CompareGreaterThan();
break;
case OperatorType.LessThanOrEqual:
// a <= b <--> (a > b) == false
generator.CompareGreaterThan();
generator.LoadBoolean(false);
generator.CompareEqual();
break;
case OperatorType.GreaterThanOrEqual:
// a >= b <--> (a < b) == false
generator.CompareLessThan();
generator.LoadBoolean(false);
generator.CompareEqual();
break;
}
}
else if (PrimitiveTypeUtilities.IsNumeric(leftType) || PrimitiveTypeUtilities.IsNumeric(rightType))
{
// At least one of the operands is a number.
// Load the left hand side operand onto the stack.
this.Left.GenerateCode(generator, optimizationInfo);
// Convert the operand to a number.
EmitConversion.ToNumber(generator, leftType);
// Load the right hand side operand onto the stack.
this.Right.GenerateCode(generator, optimizationInfo);
// Convert the operand to a number.
EmitConversion.ToNumber(generator, rightType);
// Compare the two numbers.
switch (this.OperatorType)
{
case OperatorType.LessThan:
generator.CompareLessThan();
break;
case OperatorType.GreaterThan:
generator.CompareGreaterThan();
break;
case OperatorType.LessThanOrEqual:
// a <= b <--> (a > b) == false
generator.CompareGreaterThanUnsigned();
generator.LoadBoolean(false);
generator.CompareEqual();
break;
case OperatorType.GreaterThanOrEqual:
// a >= b <--> (a < b) == false
generator.CompareLessThanUnsigned();
generator.LoadBoolean(false);
generator.CompareEqual();
break;
}
}
else
{
// It is unknown whether one of the operands is a string.
// Load the left hand side operand onto the stack.
this.Left.GenerateCode(generator, optimizationInfo);
EmitConversion.ToAny(generator, leftType);
// Load the right hand side operand onto the stack.
this.Right.GenerateCode(generator, optimizationInfo);
EmitConversion.ToAny(generator, rightType);
switch (this.OperatorType)
{
case OperatorType.LessThan:
generator.Call(ReflectionHelpers.TypeComparer_LessThan.Value);
break;
case OperatorType.LessThanOrEqual:
generator.Call(ReflectionHelpers.TypeComparer_LessThanOrEqual.Value);
break;
case OperatorType.GreaterThan:
generator.Call(ReflectionHelpers.TypeComparer_GreaterThan.Value);
break;
case OperatorType.GreaterThanOrEqual:
generator.Call(ReflectionHelpers.TypeComparer_GreaterThanOrEqual.Value);
break;
}
}
}