public void EmitPrologue(EmitContext ec)
{
awaiter = ((AsyncTaskStorey)machine_initializer.Storey).AddAwaiter(expr.Type);
var fe_awaiter = new FieldExpr(awaiter, loc);
fe_awaiter.InstanceExpression = new CompilerGeneratedThis(ec.CurrentType, loc);
Label skip_continuation = ec.DefineLabel();
using (ec.With(BuilderContext.Options.OmitDebugInfo, true)) {
//
// awaiter = expr.GetAwaiter ();
//
fe_awaiter.EmitAssign(ec, expr, false, false);
Expression completed_expr;
if (IsDynamic)
{
var rc = new ResolveContext(ec.MemberContext);
Arguments dargs = new Arguments(1);
dargs.Add(new Argument(fe_awaiter));
completed_expr = new DynamicMemberBinder("IsCompleted", dargs, loc).Resolve(rc);
dargs = new Arguments(1);
dargs.Add(new Argument(completed_expr));
completed_expr = new DynamicConversion(ec.Module.Compiler.BuiltinTypes.Bool, 0, dargs, loc).Resolve(rc);
}
else
{
var pe = PropertyExpr.CreatePredefined(awaiter_definition.IsCompleted, loc);
pe.InstanceExpression = fe_awaiter;
completed_expr = pe;
}
completed_expr.EmitBranchable(ec, skip_continuation, true);
}
base.DoEmit(ec);
//
// The stack has to be empty before calling await continuation. We handle this
// by lifting values which would be left on stack into class fields. The process
// is quite complicated and quite hard to test because any expression can possibly
// leave a value on the stack.
//
// Following assert fails when some of expression called before is missing EmitToField
// or parent expression fails to find await in children expressions
//
ec.AssertEmptyStack();
var storey = (AsyncTaskStorey)machine_initializer.Storey;
if (IsDynamic)
{
storey.EmitAwaitOnCompletedDynamic(ec, fe_awaiter);
}
else
{
storey.EmitAwaitOnCompleted(ec, fe_awaiter);
}
// Return ok
machine_initializer.EmitLeave(ec, unwind_protect);
ec.MarkLabel(resume_point);
ec.MarkLabel(skip_continuation);
}
protected override Expression DoResolve (ResolveContext ec)
{
right = right.Resolve (ec);
if (right == null)
return null;
MemberAccess ma = target as MemberAccess;
using (ec.Set (ResolveContext.Options.CompoundAssignmentScope)) {
target = target.Resolve (ec);
}
if (target == null)
return null;
if (target is MethodGroupExpr){
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.
//
if (left == null)
left = new TargetExpression (target);
source = new Binary (op, left, right, true);
if (target is DynamicMemberAssignable) {
Arguments targs = ((DynamicMemberAssignable) target).Arguments;
source = source.Resolve (ec);
Arguments args = new Arguments (targs.Count + 1);
args.AddRange (targs);
args.Add (new Argument (source));
var binder_flags = CSharpBinderFlags.ValueFromCompoundAssignment;
//
// Compound assignment does target conversion using additional method
// call, set checked context as the binary operation can overflow
//
if (ec.HasSet (ResolveContext.Options.CheckedScope))
binder_flags |= CSharpBinderFlags.CheckedContext;
if (target is DynamicMemberBinder) {
source = new DynamicMemberBinder (ma.Name, binder_flags, args, loc).Resolve (ec);
// Handles possible event addition/subtraction
if (op == Binary.Operator.Addition || op == Binary.Operator.Subtraction) {
args = new Arguments (targs.Count + 1);
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 (targs.Count);
args.AddRange (targs);
source = new DynamicEventCompoundAssign (ma.Name, args,
(ExpressionStatement) source, (ExpressionStatement) invoke, loc).Resolve (ec);
}
} else {
source = new DynamicIndexBinder (binder_flags, args, loc).Resolve (ec);
}
return source;
}
return base.DoResolve (ec);
}
protected override Expression DoResolve(ResolveContext ec)
{
right = right.Resolve(ec);
if (right == null)
{
return(null);
}
MemberAccess ma = target as MemberAccess;
using (ec.Set(ResolveContext.Options.CompoundAssignmentScope)) {
target = target.Resolve(ec);
}
if (target == null)
{
return(null);
}
if (target is MethodGroupExpr)
{
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.
//
if (left == null)
{
left = new TargetExpression(target);
}
source = new Binary(op, left, right, true, loc);
if (target is DynamicMemberAssignable)
{
Arguments targs = ((DynamicMemberAssignable)target).Arguments;
source = source.Resolve(ec);
Arguments args = new Arguments(targs.Count + 1);
args.AddRange(targs);
args.Add(new Argument(source));
var binder_flags = CSharpBinderFlags.ValueFromCompoundAssignment;
//
// Compound assignment does target conversion using additional method
// call, set checked context as the binary operation can overflow
//
if (ec.HasSet(ResolveContext.Options.CheckedScope))
{
binder_flags |= CSharpBinderFlags.CheckedContext;
}
if (target is DynamicMemberBinder)
{
source = new DynamicMemberBinder(ma.Name, binder_flags, args, loc).Resolve(ec);
// Handles possible event addition/subtraction
if (op == Binary.Operator.Addition || op == Binary.Operator.Subtraction)
{
args = new Arguments(targs.Count + 1);
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(targs.Count);
args.AddRange(targs);
source = new DynamicEventCompoundAssign(ma.Name, args,
(ExpressionStatement)source, (ExpressionStatement)invoke, loc).Resolve(ec);
}
}
else
{
source = new DynamicIndexBinder(binder_flags, args, loc).Resolve(ec);
}
return(source);
}
return(base.DoResolve(ec));
}
protected override Expression DoResolve (ResolveContext ec)
{
right = right.Resolve (ec);
if (right == null)
return null;
MemberAccess ma = target as MemberAccess;
using (ec.Set (ResolveContext.Options.CompoundAssignmentScope)) {
target = target.Resolve (ec);
}
if (target == null)
return null;
if (target is MethodGroupExpr){
ec.Report.Error (1656, loc,
"Cannot assign to `{0}' because it is a `{1}'",
((MethodGroupExpr)target).Name, target.ExprClassName);
return null;
}
if (target is EventExpr)
return new EventAddOrRemove (target, op, right, loc).Resolve (ec);
//
// Only now we can decouple the original source/target
// into a tree, to guarantee that we do not have side
// effects.
//
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);
}
public void EmitPrologue(EmitContext ec)
{
var fe_awaiter = new FieldExpr(awaiter, loc);
fe_awaiter.InstanceExpression = new CompilerGeneratedThis(ec.CurrentType, loc);
//
// awaiter = expr.GetAwaiter ();
//
fe_awaiter.EmitAssign(ec, expr, false, false);
Label skip_continuation = ec.DefineLabel();
Expression completed_expr;
if (IsDynamic)
{
var rc = new ResolveContext(ec.MemberContext);
Arguments dargs = new Arguments(1);
dargs.Add(new Argument(fe_awaiter));
completed_expr = new DynamicMemberBinder("IsCompleted", dargs, loc).Resolve(rc);
}
else
{
var pe = PropertyExpr.CreatePredefined(is_completed, loc);
pe.InstanceExpression = fe_awaiter;
completed_expr = pe;
}
completed_expr.EmitBranchable(ec, skip_continuation, true);
base.DoEmit(ec);
//
// The stack has to be empty before calling await continuation. We handle this
// by lifting values which would be left on stack into class fields. The process
// is quite complicated and quite hard to test because any expression can possibly
// leave a value on the stack.
//
// Following assert fails when some of expression called before is missing EmitToField
// or parent expression fails to find await in children expressions
//
ec.AssertEmptyStack();
var args = new Arguments(1);
var storey = (AsyncTaskStorey)machine_initializer.Storey;
var fe_cont = new FieldExpr(storey.Continuation, loc);
fe_cont.InstanceExpression = new CompilerGeneratedThis(ec.CurrentType, loc);
args.Add(new Argument(fe_cont));
if (IsDynamic)
{
var rc = new ResolveContext(ec.MemberContext);
var mg_expr = new Invocation(new MemberAccess(fe_awaiter, "OnCompleted"), args).Resolve(rc);
ExpressionStatement es = (ExpressionStatement)mg_expr;
es.EmitStatement(ec);
}
else
{
var mg_completed = MethodGroupExpr.CreatePredefined(on_completed, fe_awaiter.Type, loc);
mg_completed.InstanceExpression = fe_awaiter;
//
// awaiter.OnCompleted (continuation);
//
mg_completed.EmitCall(ec, args);
}
// Return ok
machine_initializer.EmitLeave(ec, unwind_protect);
ec.MarkLabel(resume_point);
ec.MarkLabel(skip_continuation);
}
public override Expression DoResolve(ResolveContext ec)
{
right = right.Resolve(ec);
if (right == null)
{
return(null);
}
MemberAccess ma = target as MemberAccess;
using (ec.Set(ResolveContext.Options.CompoundAssignmentScope)) {
target = target.Resolve(ec);
}
if (target == null)
{
return(null);
}
if (target is MethodGroupExpr)
{
ec.Report.Error(1656, loc,
"Cannot assign to `{0}' because it is a `{1}'",
((MethodGroupExpr)target).Name, target.ExprClassName);
return(null);
}
if (target is EventExpr)
{
return(new EventAddOrRemove(target, op, right, loc).DoResolve(ec));
}
//
// Only now we can decouple the original source/target
// into a tree, to guarantee that we do not have side
// effects.
//
if (left == null)
{
left = new TargetExpression(target);
}
source = new Binary(op, left, right, true);
// TODO: TargetExpression breaks MemberAccess composition
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(true, ma.Name, args, loc).Resolve(ec);
// 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;
Expression invoke = new DynamicInvocation(
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));
}
