// Author:
// Miguel de Icaza (miguel@ximian.com)
// Martin Baulig (martin@ximian.com)
+// Marek Safar (marek.safar@gmail.com)
//
-// (C) 2001, 2002, 2003 Ximian, Inc.
-// (C) 2004 Novell, Inc
+// Dual licensed under the terms of the MIT X11 or GNU GPL
+//
+// Copyright 2001, 2002, 2003 Ximian, Inc.
+// Copyright 2004-2008 Novell, Inc
//
using System;
using System.Reflection;
/// </summary>
/// <remarks>
/// The LocalTemporary class is used to hold temporary values of a given
- /// type to "simulate" the expression semantics on property and indexer
- /// access whose return values are void.
+ /// type to "simulate" the expression semantics. The local variable is
+ /// never captured.
///
/// The local temporary is used to alter the normal flow of code generation
/// basically it creates a local variable, and its emit instruction generates
/// Does not happen with a class because a class is a pointer -- so you always
/// get the indirection.
///
- /// The `is_address' stuff is really just a hack. We need to come up with a better
- /// way to handle it.
/// </remarks>
- public class LocalTemporary : Expression, IMemoryLocation {
+ public class LocalTemporary : Expression, IMemoryLocation, IAssignMethod {
LocalBuilder builder;
- bool is_address;
-
- public LocalTemporary (Type t) : this (t, false) {}
- public LocalTemporary (Type t, bool is_address)
+ public LocalTemporary (TypeSpec t)
{
type = t;
eclass = ExprClass.Value;
- this.is_address = is_address;
}
- public LocalTemporary (LocalBuilder b, Type t)
+ public LocalTemporary (LocalBuilder b, TypeSpec t)
+ : this (t)
{
- type = t;
- eclass = ExprClass.Value;
- loc = Location.Null;
builder = b;
}
builder = null;
}
- public override Expression DoResolve (EmitContext ec)
+ public override Expression CreateExpressionTree (ResolveContext ec)
+ {
+ Arguments args = new Arguments (1);
+ args.Add (new Argument (this));
+ return CreateExpressionFactoryCall (ec, "Constant", args);
+ }
+
+ protected override Expression DoResolve (ResolveContext ec)
{
return this;
}
- public override void Emit (EmitContext ec)
+ public override Expression DoResolveLValue (ResolveContext ec, Expression right_side)
{
- ILGenerator ig = ec.ig;
+ return this;
+ }
+ public override void Emit (EmitContext ec)
+ {
if (builder == null)
throw new InternalErrorException ("Emit without Store, or after Release");
- ig.Emit (OpCodes.Ldloc, builder);
- // we need to copy from the pointer
- if (is_address)
- LoadFromPtr (ig, type);
+ ec.Emit (OpCodes.Ldloc, builder);
}
- // NB: if you have `is_address' on the stack there must
- // be a managed pointer. Otherwise, it is the type from
- // the ctor.
- public void Store (EmitContext ec)
+ #region IAssignMethod Members
+
+ public void Emit (EmitContext ec, bool leave_copy)
{
- ILGenerator ig = ec.ig;
- if (builder == null)
- builder = ec.GetTemporaryLocal (is_address ? TypeManager.GetReferenceType (type): type);
+ Emit (ec);
- ig.Emit (OpCodes.Stloc, builder);
+ if (leave_copy)
+ Emit (ec);
}
- public void AddressOf (EmitContext ec, AddressOp mode)
+ public void EmitAssign (EmitContext ec, Expression source, bool leave_copy, bool prepare_for_load)
{
- if (builder == null)
- builder = ec.GetTemporaryLocal (is_address ? TypeManager.GetReferenceType (type): type);
+ if (prepare_for_load)
+ throw new NotImplementedException ();
- // if is_address, than this is just the address anyways,
- // so we just return this.
- ILGenerator ig = ec.ig;
+ source.Emit (ec);
- if (is_address)
- ig.Emit (OpCodes.Ldloc, builder);
- else
- ig.Emit (OpCodes.Ldloca, builder);
+ Store (ec);
+
+ if (leave_copy)
+ Emit (ec);
}
- public bool PointsToAddress {
- get {
- return is_address;
+ #endregion
+
+ public LocalBuilder Builder {
+ get { return builder; }
+ }
+
+ public void Store (EmitContext ec)
+ {
+ if (builder == null)
+ builder = ec.GetTemporaryLocal (type);
+
+ ec.Emit (OpCodes.Stloc, builder);
+ }
+
+ public void AddressOf (EmitContext ec, AddressOp mode)
+ {
+ if (builder == null)
+ builder = ec.GetTemporaryLocal (type);
+
+ if (builder.LocalType.IsByRef) {
+ //
+ // if is_address, than this is just the address anyways,
+ // so we just return this.
+ //
+ ec.Emit (OpCodes.Ldloc, builder);
+ } else {
+ ec.Emit (OpCodes.Ldloca, builder);
}
}
}
/// The Assign node takes care of assigning the value of source into
/// the expression represented by target.
/// </summary>
- public class Assign : ExpressionStatement {
- protected Expression target, source, real_source;
- protected LocalTemporary temp = null, real_temp = null;
- protected Assign embedded = null;
- protected bool is_embedded = false;
- protected bool must_free_temp = false;
-
- public Assign (Expression target, Expression source)
- : this (target, source, target.Location)
- {
- }
+ public abstract class Assign : ExpressionStatement {
+ protected Expression target, source;
- public Assign (Expression target, Expression source, Location l)
+ protected Assign (Expression target, Expression source, Location loc)
{
this.target = target;
- this.source = this.real_source = source;
- this.loc = l;
- }
-
- protected Assign (Assign embedded, Location l)
- : this (embedded.target, embedded.source, l)
- {
- this.is_embedded = true;
+ this.source = source;
+ this.loc = loc;
}
-
- protected virtual Assign GetEmbeddedAssign (Location loc)
+
+ public override Expression CreateExpressionTree (ResolveContext ec)
{
- return new Assign (this, loc);
+ ec.Report.Error (832, loc, "An expression tree cannot contain an assignment operator");
+ return null;
}
public Expression Target {
- get {
- return target;
- }
-
- set {
- target = value;
- }
+ get { return target; }
}
public Expression Source {
- get {
- return source;
- }
-
- set {
- source = value;
- }
- }
-
- public static void error70 (EventInfo ei, Location l)
- {
- Report.Error (70, l, "The event `" + TypeManager.CSharpSignature (ei) +
- "' can only appear on the left hand side of += or -= (except when" +
- " used from within the type `" + ei.DeclaringType + "')");
+ get { return source; }
}
- //
- // Will return either `this' or an instance of `New'.
- //
- public override Expression DoResolve (EmitContext ec)
+ protected override Expression DoResolve (ResolveContext ec)
{
- // Create an embedded assignment if our source is an assignment.
- if (source is Assign)
- source = embedded = ((Assign) source).GetEmbeddedAssign (loc);
-
- real_source = source = source.Resolve (ec);
+ bool ok = true;
+ source = source.Resolve (ec);
if (source == null) {
- // Ensure that we don't propagate the error as spurious "uninitialized variable" errors.
- target = target.ResolveLValue (ec, EmptyExpression.Null, Location);
- return null;
+ ok = false;
+ source = EmptyExpression.Null;
}
- //
- // This is used in an embedded assignment.
- // As an example, consider the statement "A = X = Y = Z".
- //
- if (is_embedded && !(source is Constant)) {
- // If this is the innermost assignment (the "Y = Z" in our example),
- // create a new temporary local, otherwise inherit that variable
- // from our child (the "X = (Y = Z)" inherits the local from the
- // "Y = Z" assignment).
-
- if (embedded == null) {
- if (this is CompoundAssign)
- real_temp = temp = new LocalTemporary (target.Type);
- else
- real_temp = temp = new LocalTemporary (source.Type);
- } else
- temp = embedded.temp;
-
- // Set the source to the new temporary variable.
- // This means that the following target.ResolveLValue () will tell
- // the target to read it's source value from that variable.
- source = temp;
- }
-
- // If we have an embedded assignment, use the embedded assignment's temporary
- // local variable as source.
- if (embedded != null)
- source = (embedded.temp != null) ? embedded.temp : embedded.source;
-
- target = target.ResolveLValue (ec, source, Location);
+ target = target.ResolveLValue (ec, source);
- if (target == null)
+ if (target == null || !ok)
return null;
-
- bool same_assignment = (embedded != null) ? embedded.Target.Equals(target) : source.Equals (target);
- if (same_assignment) {
- Report.Warning (1717, 3, loc, "Assignment made to same variable; did you mean to assign something else?");
- }
- Type target_type = target.Type;
- Type source_type = real_source.Type;
+ TypeSpec target_type = target.Type;
+ TypeSpec source_type = source.Type;
- // If we're an embedded assignment, our parent will reuse our source as its
- // source, it won't read from our target.
- if (is_embedded)
- type = source_type;
- else
- type = target_type;
eclass = ExprClass.Value;
+ type = target_type;
- if (target is EventExpr) {
- EventInfo ei = ((EventExpr) target).EventInfo;
-
- Expression ml = MemberLookup (
- ec.ContainerType, ec.ContainerType, ei.Name,
- MemberTypes.Event, AllBindingFlags | BindingFlags.DeclaredOnly, loc);
-
- if (ml == null) {
- //
- // If this is the case, then the Event does not belong
- // to this Type and so, according to the spec
- // is allowed to only appear on the left hand of
- // the += and -= operators
- //
- // Note that target will not appear as an EventExpr
- // in the case it is being referenced within the same type container;
- // it will appear as a FieldExpr in that case.
- //
-
- if (!(source is BinaryDelegate)) {
- error70 (ei, loc);
- return null;
- }
- }
- }
-
- if (!(target is IAssignMethod) && (target.eclass != ExprClass.EventAccess)) {
- Error_ValueAssignment (loc);
- return null;
- }
-
- if ((source.eclass == ExprClass.Type) && (source is TypeExpr)) {
- source.Error_UnexpectedKind (ec.DeclContainer, "variable or value", loc);
- return null;
- } else if ((RootContext.Version == LanguageVersion.ISO_1) &&
- (source is MethodGroupExpr)){
- ((MethodGroupExpr) source).ReportUsageError ();
- return null;
-
- }
-
- if (target_type == source_type) {
- if (target.eclass == ExprClass.Variable) {
- New n = source as New;
- if (n == null)
- return this;
-
- if (n.HasInitializer) {
- n.SetTargetVariable (target);
- } else if (target_type.IsValueType) {
- n.SetTargetVariable (target);
- return n;
- }
- }
-
- return this;
- }
-
- //
- // If this assignment/operator was part of a compound binary
- // operator, then we allow an explicit conversion, as detailed
- // in the spec.
- //
-
- if (this is CompoundAssign){
- CompoundAssign a = (CompoundAssign) this;
-
- Binary b = source as Binary;
- if (b != null){
- //
- // 1. if the source is explicitly convertible to the
- // target_type
- //
-
- source = Convert.ExplicitConversion (ec, source, target_type, loc);
- if (source == null){
- a.original_source.Error_ValueCannotBeConverted (ec, loc, target_type, true);
- return null;
- }
-
- //
- // 2. and the original right side is implicitly convertible to
- // the type of target
- //
- if (Convert.ImplicitConversionExists (ec, a.original_source, target_type))
- return this;
-
- //
- // In the spec 2.4 they added: or if type of the target is int
- // and the operator is a shift operator...
- //
- if (source_type == TypeManager.int32_type &&
- (b.Oper == Binary.Operator.LeftShift || b.Oper == Binary.Operator.RightShift))
- return this;
-
- a.original_source.Error_ValueCannotBeConverted (ec, loc, target_type, false);
- return null;
- }
- }
-
- if (source.eclass == ExprClass.MethodGroup && !TypeManager.IsDelegateType (target_type)) {
- Report.Error (428, source.Location, "Cannot convert method group `{0}' to non-delegate type `{1}'. Did you intend to invoke the method?",
- ((MethodGroupExpr)source).Name, target.GetSignatureForError ());
+ if (!(target is IAssignMethod)) {
+ Error_ValueAssignment (ec, loc);
return null;
}
- source = Convert.ImplicitConversionRequired (ec, source, target_type, loc);
- if (source == null)
- return null;
+ if (target_type != source_type) {
+ Expression resolved = ResolveConversions (ec);
- // If we're an embedded assignment, we need to create a new temporary variable
- // for the converted value. Our parent will use this new variable as its source.
- // The same applies when we have an embedded assignment - in this case, we need
- // to convert our embedded assignment's temporary local variable to the correct
- // type and store it in a new temporary local.
- if (is_embedded || embedded != null) {
- type = target_type;
- temp = new LocalTemporary (type);
- must_free_temp = true;
+ if (resolved != this)
+ return resolved;
}
return this;
}
- Expression EmitEmbedded (EmitContext ec)
+#if NET_4_0
+ public override System.Linq.Expressions.Expression MakeExpression (BuilderContext ctx)
{
- // Emit an embedded assignment.
-
- if (real_temp != null) {
- // If we're the innermost assignment, `real_source' is the right-hand
- // expression which gets assigned to all the variables left of it.
- // Emit this expression and store its result in real_temp.
- real_source.Emit (ec);
- real_temp.Store (ec);
- }
+ var tassign = target as IDynamicAssign;
+ if (tassign == null)
+ throw new InternalErrorException (target.GetType () + " does not support dynamic assignment");
- if (embedded != null)
- embedded.EmitEmbedded (ec);
+ var target_object = tassign.MakeAssignExpression (ctx, source);
- // This happens when we've done a type conversion, in this case source will be
- // the expression which does the type conversion from real_temp.
- // So emit it and store the result in temp; this is the var which will be read
- // by our parent.
- if (temp != real_temp) {
- source.Emit (ec);
- temp.Store (ec);
- }
+ //
+ // Some hacking is needed as DLR does not support void type and requires
+ // always have object convertible return type to support caching and chaining
+ //
+ // We do this by introducing an explicit block which returns RHS value when
+ // available or null
+ //
+ if (target_object.NodeType == System.Linq.Expressions.ExpressionType.Block)
+ return target_object;
- Expression temp_source = (temp != null) ? temp : source;
- ((IAssignMethod) target).EmitAssign (ec, temp_source, false, false);
- return temp_source;
+ var source_object = System.Linq.Expressions.Expression.Convert (source.MakeExpression (ctx), target_object.Type);
+ return System.Linq.Expressions.Expression.Assign (target_object, source_object);
}
-
- void ReleaseEmbedded (EmitContext ec)
+#endif
+ protected virtual Expression ResolveConversions (ResolveContext ec)
{
- if (embedded != null)
- embedded.ReleaseEmbedded (ec);
-
- if (real_temp != null)
- real_temp.Release (ec);
+ source = Convert.ImplicitConversionRequired (ec, source, target.Type, loc);
+ if (source == null)
+ return null;
- if (must_free_temp)
- temp.Release (ec);
+ return this;
}
void Emit (EmitContext ec, bool is_statement)
{
- if (target is EventExpr) {
- ((EventExpr) target).EmitAddOrRemove (ec, source);
- return;
- }
-
- IAssignMethod am = (IAssignMethod) target;
-
- Expression temp_source;
- if (embedded != null) {
- temp_source = embedded.EmitEmbedded (ec);
-
- if (temp != null) {
- source.Emit (ec);
- temp.Store (ec);
- temp_source = temp;
- }
- } else
- temp_source = source;
-
- am.EmitAssign (ec, temp_source, !is_statement, this is CompoundAssign);
-
- if (embedded != null) {
- if (temp != null)
- temp.Release (ec);
- embedded.ReleaseEmbedded (ec);
- }
+ IAssignMethod t = (IAssignMethod) target;
+ t.EmitAssign (ec, source, !is_statement, this is CompoundAssign);
}
public override void Emit (EmitContext ec)
}
}
+ public class SimpleAssign : Assign {
+ public SimpleAssign (Expression target, Expression source)
+ : this (target, source, target.Location)
+ {
+ }
+
+ public SimpleAssign (Expression target, Expression source, Location loc)
+ : base (target, source, loc)
+ {
+ }
+
+ bool CheckEqualAssign (Expression t)
+ {
+ if (source is Assign) {
+ Assign a = (Assign) source;
+ if (t.Equals (a.Target))
+ return true;
+ return a is SimpleAssign && ((SimpleAssign) a).CheckEqualAssign (t);
+ }
+ return t.Equals (source);
+ }
+
+ protected override Expression DoResolve (ResolveContext ec)
+ {
+ Expression e = base.DoResolve (ec);
+ if (e == null || e != this)
+ return e;
+
+ if (CheckEqualAssign (target))
+ ec.Report.Warning (1717, 3, loc, "Assignment made to same variable; did you mean to assign something else?");
+
+ return this;
+ }
+ }
// This class implements fields and events class initializers
public class FieldInitializer : Assign
{
- public FieldInitializer (FieldBuilder field, Expression expression)
- : base (new FieldExpr (field, expression.Location, true), expression)
+ //
+ // Keep resolved value because field initializers have their own rules
+ //
+ ExpressionStatement resolved;
+ IMemberContext rc;
+
+ public FieldInitializer (FieldSpec spec, Expression expression, IMemberContext rc)
+ : base (new FieldExpr (spec, expression.Location), expression, expression.Location)
{
- if (!field.IsStatic)
+ this.rc = rc;
+ if (!spec.IsStatic)
((FieldExpr)target).InstanceExpression = CompilerGeneratedThis.Instance;
}
- public override Expression DoResolve (EmitContext ec)
+ protected override Expression DoResolve (ResolveContext ec)
{
// Field initializer can be resolved (fail) many times
- if (Source == null)
+ if (source == null)
return null;
- return base.DoResolve (ec);
+ if (resolved == null) {
+ //
+ // Field initializers are tricky for partial classes. They have to
+ // share same constructor (block) but they have they own resolve scope.
+ //
+
+ IMemberContext old = ec.MemberContext;
+ ec.MemberContext = rc;
+
+ using (ec.Set (ResolveContext.Options.FieldInitializerScope)) {
+ resolved = base.DoResolve (ec) as ExpressionStatement;
+ }
+
+ ec.MemberContext = old;
+ }
+
+ return resolved;
+ }
+
+ public override void EmitStatement (EmitContext ec)
+ {
+ if (resolved == null)
+ return;
+
+ if (resolved != this)
+ resolved.EmitStatement (ec);
+ else
+ base.EmitStatement (ec);
}
public bool IsComplexInitializer {
- get {
- if (embedded != null)
- return true;
-
- return !(source is Constant);
- }
+ get { return !(source is Constant); }
}
public bool IsDefaultInitializer {
}
}
-
//
// This class is used for compound assignments.
//
- class CompoundAssign : Assign {
- Binary.Operator op;
- public Expression original_source;
-
- public CompoundAssign (Binary.Operator op, Expression target, Expression source)
- : base (target, source, target.Location)
+ public class CompoundAssign : Assign
+ {
+ // This is just a hack implemented for arrays only
+ public sealed class TargetExpression : Expression
{
- original_source = source;
- this.op = op;
+ Expression child;
+ public TargetExpression (Expression child)
+ {
+ this.child = child;
+ this.loc = child.Location;
+ }
+
+ public override Expression CreateExpressionTree (ResolveContext ec)
+ {
+ throw new NotSupportedException ("ET");
+ }
+
+ protected override Expression DoResolve (ResolveContext ec)
+ {
+ type = child.Type;
+ eclass = ExprClass.Value;
+ return this;
+ }
+
+ public override void Emit (EmitContext ec)
+ {
+ child.Emit (ec);
+ }
}
- protected CompoundAssign (CompoundAssign embedded, Location l)
- : this (embedded.op, embedded.target, embedded.source)
+ // Used for underlying binary operator
+ readonly Binary.Operator op;
+ Expression right;
+ Expression left;
+
+ public CompoundAssign (Binary.Operator op, Expression target, Expression source, Location loc)
+ : base (target, source, loc)
{
- this.is_embedded = true;
+ right = source;
+ this.op = op;
}
- protected override Assign GetEmbeddedAssign (Location loc)
+ public CompoundAssign (Binary.Operator op, Expression target, Expression source, Expression left, Location loc)
+ : this (op, target, source, loc)
{
- return new CompoundAssign (this, loc);
+ this.left = left;
}
- public override Expression DoResolve (EmitContext ec)
+ protected override Expression DoResolve (ResolveContext ec)
{
- original_source = original_source.Resolve (ec);
- if (original_source == null)
+ right = right.Resolve (ec);
+ if (right == null)
return null;
- target = target.Resolve (ec);
+ MemberAccess ma = target as MemberAccess;
+ using (ec.Set (ResolveContext.Options.CompoundAssignmentScope)) {
+ target = target.Resolve (ec);
+ }
+
if (target == null)
return null;
if (target is MethodGroupExpr){
- Error_CannotAssign (((MethodGroupExpr)target).Name, target.ExprClassName);
+ ec.Report.Error (1656, loc,
+ "Cannot assign to `{0}' because it is a `{1}'",
+ ((MethodGroupExpr)target).Name, target.ExprClassName);
return null;
}
+
+ var event_expr = target as EventExpr;
+ if (event_expr != null) {
+ source = Convert.ImplicitConversionRequired (ec, right, target.Type, loc);
+ if (source == null)
+ return null;
+
+ Expression rside;
+ if (op == Binary.Operator.Addition)
+ rside = EmptyExpression.EventAddition;
+ else if (op == Binary.Operator.Subtraction)
+ rside = EmptyExpression.EventSubtraction;
+ else
+ rside = null;
+
+ target = target.ResolveLValue (ec, rside);
+ if (target == null)
+ return null;
+
+ eclass = ExprClass.Value;
+ type = event_expr.Operator.ReturnType;
+ return this;
+ }
+
//
// Only now we can decouple the original source/target
// into a tree, to guarantee that we do not have side
// effects.
//
- source = new Binary (op, target, original_source, true);
+ if (left == null)
+ left = new TargetExpression (target);
+
+ source = new Binary (op, left, right, true, loc);
+
+ if (target is DynamicMemberBinder) {
+ Arguments targs = ((DynamicMemberBinder) target).Arguments;
+ source = source.Resolve (ec);
+
+ Arguments args = new Arguments (2);
+ args.AddRange (targs);
+ args.Add (new Argument (source));
+ source = new DynamicMemberBinder (ma.Name, args, loc).ResolveLValue (ec, right);
+
+ // Handles possible event addition/subtraction
+ if (op == Binary.Operator.Addition || op == Binary.Operator.Subtraction) {
+ args = new Arguments (2);
+ args.AddRange (targs);
+ args.Add (new Argument (right));
+ string method_prefix = op == Binary.Operator.Addition ?
+ Event.AEventAccessor.AddPrefix : Event.AEventAccessor.RemovePrefix;
+
+ var invoke = DynamicInvocation.CreateSpecialNameInvoke (
+ new MemberAccess (right, method_prefix + ma.Name, loc), args, loc).Resolve (ec);
+
+ args = new Arguments (1);
+ args.AddRange (targs);
+ source = new DynamicEventCompoundAssign (ma.Name, args,
+ (ExpressionStatement) source, (ExpressionStatement) invoke, loc).Resolve (ec);
+ }
+
+ return source;
+ }
+
return base.DoResolve (ec);
}
+ protected override Expression ResolveConversions (ResolveContext ec)
+ {
+ TypeSpec target_type = target.Type;
+
+ //
+ // 1. the return type is implicitly convertible to the type of target
+ //
+ if (Convert.ImplicitConversionExists (ec, source, target_type)) {
+ source = Convert.ImplicitConversion (ec, source, target_type, loc);
+ return this;
+ }
+
+ //
+ // Otherwise, if the selected operator is a predefined operator
+ //
+ Binary b = source as Binary;
+ if (b != null) {
+ //
+ // 2a. the operator is a shift operator
+ //
+ // 2b. the return type is explicitly convertible to the type of x, and
+ // y is implicitly convertible to the type of x
+ //
+ if ((b.Oper & Binary.Operator.ShiftMask) != 0 ||
+ Convert.ImplicitConversionExists (ec, right, target_type)) {
+ source = Convert.ExplicitConversion (ec, source, target_type, loc);
+ return this;
+ }
+ }
+
+ if (source.Type == InternalType.Dynamic) {
+ Arguments arg = new Arguments (1);
+ arg.Add (new Argument (source));
+ return new SimpleAssign (target, new DynamicConversion (target_type, CSharpBinderFlags.ConvertExplicit, arg, loc), loc).Resolve (ec);
+ }
+
+ right.Error_ValueCannotBeConverted (ec, loc, target_type, false);
+ return null;
+ }
+
protected override void CloneTo (CloneContext clonectx, Expression t)
{
- CompoundAssign target = (CompoundAssign) t;
+ CompoundAssign ctarget = (CompoundAssign) t;
- target.original_source = original_source.Clone (clonectx);
+ ctarget.right = ctarget.source = source.Clone (clonectx);
+ ctarget.target = target.Clone (clonectx);
}
}
}