public override object VisitAssignmentExpression(AssignmentExpression assignment, object data)
{
base.VisitAssignmentExpression(assignment, data);
// Combine "x = x op y" into "x op= y"
BinaryOperatorExpression binary = assignment.Right as BinaryOperatorExpression;
if (binary != null && assignment.Operator == AssignmentOperatorType.Assign)
{
if (CanConvertToCompoundAssignment(assignment.Left) && assignment.Left.IsMatch(binary.Left))
{
assignment.Operator = GetAssignmentOperatorForBinaryOperator(binary.Operator);
if (assignment.Operator != AssignmentOperatorType.Assign)
{
// If we found a shorter operator, get rid of the BinaryOperatorExpression:
assignment.CopyAnnotationsFrom(binary);
assignment.Right = binary.Right.WithAnnotation(assignment.Right.GetAllRecursiveILRanges());
assignment.AddAnnotation(new RestoreOriginalAssignOperatorAnnotation(binary));
}
}
}
if (context.Settings.IntroduceIncrementAndDecrement && (assignment.Operator == AssignmentOperatorType.Add || assignment.Operator == AssignmentOperatorType.Subtract))
{
// detect increment/decrement
if (assignment.Right.IsMatch(new PrimitiveExpression(1)))
{
// only if it's not a custom operator
if (assignment.Annotation <IMethod>() == null)
{
UnaryOperatorType type;
// When the parent is an expression statement, pre- or post-increment doesn't matter;
// so we can pick post-increment which is more commonly used (for (int i = 0; i < x; i++))
if (assignment.Parent is ExpressionStatement)
{
type = (assignment.Operator == AssignmentOperatorType.Add) ? UnaryOperatorType.PostIncrement : UnaryOperatorType.PostDecrement;
}
else
{
type = (assignment.Operator == AssignmentOperatorType.Add) ? UnaryOperatorType.Increment : UnaryOperatorType.Decrement;
}
assignment.ReplaceWith(new UnaryOperatorExpression(type, assignment.Left.Detach()).CopyAnnotationsFrom(assignment).WithAnnotation(assignment.GetAllRecursiveILRanges()));
}
}
}
return(null);
}
public override void VisitAssignmentExpression(AssignmentExpression assignment)
{
base.VisitAssignmentExpression(assignment);
// Combine "x = x op y" into "x op= y"
BinaryOperatorExpression binary = assignment.Right as BinaryOperatorExpression;
if (binary != null && assignment.Operator == AssignmentOperatorType.Assign)
{
if (CanConvertToCompoundAssignment(assignment.Left) && assignment.Left.IsMatch(binary.Left))
{
assignment.Operator = GetAssignmentOperatorForBinaryOperator(binary.Operator);
if (assignment.Operator != AssignmentOperatorType.Assign)
{
// If we found a shorter operator, get rid of the BinaryOperatorExpression:
assignment.CopyAnnotationsFrom(binary);
assignment.Right = binary.Right;
}
}
}
// TODO: context.Settings.IntroduceIncrementAndDecrement
if (assignment.Operator == AssignmentOperatorType.Add || assignment.Operator == AssignmentOperatorType.Subtract)
{
// detect increment/decrement
var rr = assignment.Right.GetResolveResult();
if (rr.IsCompileTimeConstant && rr.Type.IsCSharpPrimitiveIntegerType() && CSharpPrimitiveCast.Cast(rr.Type.GetTypeCode(), 1, false).Equals(rr.ConstantValue))
{
// only if it's not a custom operator
if (assignment.Annotation <IL.CallInstruction>() == null)
{
UnaryOperatorType type;
// When the parent is an expression statement, pre- or post-increment doesn't matter;
// so we can pick post-increment which is more commonly used (for (int i = 0; i < x; i++))
if (assignment.Parent is ExpressionStatement)
{
type = (assignment.Operator == AssignmentOperatorType.Add) ? UnaryOperatorType.PostIncrement : UnaryOperatorType.PostDecrement;
}
else
{
type = (assignment.Operator == AssignmentOperatorType.Add) ? UnaryOperatorType.Increment : UnaryOperatorType.Decrement;
}
assignment.ReplaceWith(new UnaryOperatorExpression(type, assignment.Left.Detach()).CopyAnnotationsFrom(assignment));
}
}
}
}
public DoWhileStatement TransformDoWhile(WhileStatement whileLoop)
{
Match m = doWhilePattern.Match(whileLoop);
if (m.Success)
{
DoWhileStatement doLoop = new DoWhileStatement();
doLoop.Condition = new UnaryOperatorExpression(UnaryOperatorType.Not, m.Get <Expression>("condition").Single().Detach());
//doLoop.Condition.AcceptVisitor(new PushNegation(), null);
BlockStatement block = (BlockStatement)whileLoop.EmbeddedStatement;
block.Statements.Last().Remove(); // remove if statement
doLoop.EmbeddedStatement = block.Detach();
doLoop.CopyAnnotationsFrom(whileLoop);
whileLoop.ReplaceWith(doLoop);
// we may have to extract variable definitions out of the loop if they were used in the condition:
foreach (var varDecl in block.Statements.OfType <VariableDeclarationStatement>())
{
VariableInitializer v = varDecl.Variables.Single();
if (doLoop.Condition.DescendantsAndSelf.OfType <IdentifierExpression>().Any(i => i.Identifier == v.Name))
{
AssignmentExpression assign = new AssignmentExpression(new IdentifierExpression(v.Name), v.Initializer.Detach());
// move annotations from v to assign:
assign.CopyAnnotationsFrom(v);
v.RemoveAnnotations <object>();
// remove varDecl with assignment; and move annotations from varDecl to the ExpressionStatement:
varDecl.ReplaceWith(new ExpressionStatement(assign).CopyAnnotationsFrom(varDecl));
varDecl.RemoveAnnotations <object>();
// insert the varDecl above the do-while loop:
doLoop.Parent.InsertChildBefore(doLoop, varDecl, BlockStatement.StatementRole);
}
}
return(doLoop);
}
return(null);
}
public override object VisitAssignmentExpression(AssignmentExpression assignment, object data)
{
base.VisitAssignmentExpression(assignment, data);
// Combine "x = x op y" into "x op= y"
BinaryOperatorExpression binary = assignment.Right as BinaryOperatorExpression;
if (binary != null && assignment.Operator == AssignmentOperatorType.Assign)
{
if (IsWithoutSideEffects(assignment.Left) && assignment.Left.Match(binary.Left) != null)
{
switch (binary.Operator)
{
case BinaryOperatorType.Add:
assignment.Operator = AssignmentOperatorType.Add;
break;
case BinaryOperatorType.Subtract:
assignment.Operator = AssignmentOperatorType.Subtract;
break;
case BinaryOperatorType.Multiply:
assignment.Operator = AssignmentOperatorType.Multiply;
break;
case BinaryOperatorType.Divide:
assignment.Operator = AssignmentOperatorType.Divide;
break;
case BinaryOperatorType.Modulus:
assignment.Operator = AssignmentOperatorType.Modulus;
break;
case BinaryOperatorType.ShiftLeft:
assignment.Operator = AssignmentOperatorType.ShiftLeft;
break;
case BinaryOperatorType.ShiftRight:
assignment.Operator = AssignmentOperatorType.ShiftRight;
break;
case BinaryOperatorType.BitwiseAnd:
assignment.Operator = AssignmentOperatorType.BitwiseAnd;
break;
case BinaryOperatorType.BitwiseOr:
assignment.Operator = AssignmentOperatorType.BitwiseOr;
break;
case BinaryOperatorType.ExclusiveOr:
assignment.Operator = AssignmentOperatorType.ExclusiveOr;
break;
}
if (assignment.Operator != AssignmentOperatorType.Assign)
{
// If we found a shorter operator, get rid of the BinaryOperatorExpression:
assignment.CopyAnnotationsFrom(binary);
assignment.Right = binary.Right;
}
}
}
if (assignment.Operator == AssignmentOperatorType.Add || assignment.Operator == AssignmentOperatorType.Subtract)
{
// detect increment/decrement
if (assignment.Right.Match(new PrimitiveExpression(1)) != null)
{
// only if it's not a custom operator
if (assignment.Annotation <MethodReference>() == null)
{
UnaryOperatorType type;
// When the parent is an expression statement, pre- or post-increment doesn't matter;
// so we can pick post-increment which is more commonly used (for (int i = 0; i < x; i++))
if (assignment.Parent is ExpressionStatement)
{
type = (assignment.Operator == AssignmentOperatorType.Add) ? UnaryOperatorType.PostIncrement : UnaryOperatorType.PostDecrement;
}
else
{
type = (assignment.Operator == AssignmentOperatorType.Add) ? UnaryOperatorType.Increment : UnaryOperatorType.Decrement;
}
assignment.ReplaceWith(new UnaryOperatorExpression(type, assignment.Left.Detach()).CopyAnnotationsFrom(assignment));
}
}
}
return(null);
}