| public static Void ( Expression expression ) : Expression | ||
| expression | Expression | An |
| return | Expression | |
private MSAst.LambdaExpression CreateGeneratorFactoryLambda(MSAst.Expression generatorBody)
{
MSAst.Expression body = Ast.Block(
Ast.Call(
typeof(RuntimeOps).GetMethod("ReplaceLiftedLocals"),
_frame,
Ast.RuntimeVariables(_pendingLocals)
),
generatorBody
);
if (_retVal != null)
{
body = Ast.Block(
Ast.Assign(_retVal, body),
AstUtils.YieldReturn(
_generatorLabelTarget, Ast.Convert(_retVal, typeof(object))
)
);
}
List <Type> argTypes = new List <Type>();
for (int i = 0; i < _variableInfos.Count; i++)
{
VariableInfo varInfo = _variableInfos[i];
if (varInfo.IsParameter)
{
argTypes.Add(varInfo.VariableType);
}
}
if (body.Type != typeof(void))
{
body = AstUtils.Void(body);
}
return(AstUtils.GeneratorLambda(
InvokeTargets.GetGeneratorFactoryTarget(argTypes.ToArray()),
_generatorLabelTarget,
Ast.Block(
_generatorVars,
body
),
_alias,
_generatorParams));
}
private MSAst.LambdaExpression CreateOuterGeneratorFactory(Type lambdaType)
{
MSAst.LabelTarget returnLabelTarget = Ast.Label(lambdaType.GetMethod("Invoke").ReturnType);
MSAst.Expression body = Ast.Return(
returnLabelTarget,
Ast.Call(
typeof(RuntimeOps),
"CreateDebugGenerator",
new[] { _generatorLabelTarget.Type },
Ast.Call(
typeof(RuntimeOps).GetMethod("CreateFrameForGenerator"),
_debugContextExpression,
_functionInfo
)
)
);
MSAst.LabelExpression returnLabel = null;
if (returnLabelTarget.Type == typeof(void))
{
returnLabel = Ast.Label(returnLabelTarget, AstUtils.Void(body));
}
else
{
returnLabel = Ast.Label(returnLabelTarget, AstUtils.Convert(body, returnLabelTarget.Type));
}
return(Ast.Lambda(
lambdaType,
Ast.Block(
_lambdaVars,
returnLabel
),
_alias,
_lambdaParams));
}
protected override Expression VisitTry(TryExpression node)
{
int startYields = _yields.Count;
bool savedInTryWithFinally = _inTryWithFinally;
if (node.Finally != null || node.Fault != null)
{
_inTryWithFinally = true;
}
Expression @try = Visit(node.Body);
int tryYields = _yields.Count;
IList <CatchBlock> handlers = Visit(node.Handlers, VisitCatchBlock);
int catchYields = _yields.Count;
// push a new return label in case the finally block yields
_returnLabels.Push(Expression.Label());
// only one of these can be non-null
Expression @finally = Visit(node.Finally);
Expression fault = Visit(node.Fault);
LabelTarget finallyReturn = _returnLabels.Pop();
int finallyYields = _yields.Count;
_inTryWithFinally = savedInTryWithFinally;
if (@try == node.Body &&
handlers == node.Handlers &&
@finally == node.Finally &&
fault == node.Fault)
{
return(node);
}
// No yields, just return
if (startYields == _yields.Count)
{
return(Expression.MakeTry(null, @try, @finally, fault, handlers));
}
if (fault != null && finallyYields != catchYields)
{
// No one needs this yet, and it's not clear how we should get back to
// the fault
throw new NotSupportedException("yield in fault block is not supported");
}
// If try has yields, we need to build a new try body that
// dispatches to the yield labels
var tryStart = Expression.Label();
if (tryYields != startYields)
{
@try = Expression.Block(MakeYieldRouter(node.Body.Type, startYields, tryYields, tryStart), @try);
}
// Transform catches with yield to deferred handlers
if (catchYields != tryYields)
{
var block = new List <Expression>();
block.Add(MakeYieldRouter(node.Body.Type, tryYields, catchYields, tryStart));
block.Add(null); // empty slot to fill in later
for (int i = 0, n = handlers.Count; i < n; i++)
{
CatchBlock c = handlers[i];
if (c == node.Handlers[i])
{
continue;
}
if (handlers.IsReadOnly)
{
handlers = handlers.ToArray();
}
// the variable that will be scoped to the catch block
var exceptionVar = Expression.Variable(c.Test, null);
// the variable that the catch block body will use to
// access the exception. We reuse the original variable if
// the catch block had one. It needs to be hoisted because
// the catch might contain yields.
var deferredVar = c.Variable ?? Expression.Variable(c.Test, null);
_vars.Add(deferredVar);
// We need to ensure that filters can access the exception
// variable
Expression filter = c.Filter;
if (filter != null && c.Variable != null)
{
filter = Expression.Block(new[] { c.Variable }, Expression.Assign(c.Variable, exceptionVar), filter);
}
// catch (ExceptionType exceptionVar) {
// deferredVar = exceptionVar;
// }
handlers[i] = Expression.Catch(
exceptionVar,
Expression.Block(
Expression.Assign(deferredVar, exceptionVar),
Expression.Default(node.Body.Type)
),
filter
);
// We need to rewrite rethrows into "throw deferredVar"
var catchBody = new RethrowRewriter {
Exception = deferredVar
}.Visit(c.Body);
// if (deferredVar != null) {
// ... catch body ...
// }
block.Add(
Expression.Condition(
Expression.NotEqual(deferredVar, AstUtils.Constant(null, deferredVar.Type)),
catchBody,
Expression.Default(node.Body.Type)
)
);
}
block[1] = Expression.MakeTry(null, @try, null, null, new ReadOnlyCollection <CatchBlock>(handlers));
@try = Expression.Block(block);
handlers = new CatchBlock[0]; // so we don't reuse these
}
if (finallyYields != catchYields)
{
// We need to add a catch block to save the exception, so we
// can rethrow in case there is a yield in the finally. Also,
// add logic for returning. It looks like this:
//
// try { ... } catch (Exception all) { saved = all; }
// finally {
// if (_finallyReturnVar) goto finallyReturn;
// ...
// if (saved != null) throw saved;
// finallyReturn:
// }
// if (_finallyReturnVar) goto _return;
// We need to add a catch(Exception), so if we have catches,
// wrap them in a try
if (handlers.Count > 0)
{
@try = Expression.MakeTry(null, @try, null, null, handlers);
handlers = new CatchBlock[0];
}
// NOTE: the order of these routers is important
// The first call changes the labels to all point at "tryEnd",
// so the second router will jump to "tryEnd"
var tryEnd = Expression.Label();
Expression inFinallyRouter = MakeYieldRouter(node.Body.Type, catchYields, finallyYields, tryEnd);
Expression inTryRouter = MakeYieldRouter(node.Body.Type, catchYields, finallyYields, tryStart);
var all = Expression.Variable(typeof(Exception), "e");
var saved = Expression.Variable(typeof(Exception), "$saved$" + _temps.Count);
_temps.Add(saved);
@try = Expression.Block(
Expression.TryCatchFinally(
Expression.Block(
inTryRouter,
@try,
Expression.Assign(saved, AstUtils.Constant(null, saved.Type)),
Expression.Label(tryEnd)
),
Expression.Block(
MakeSkipFinallyBlock(finallyReturn),
inFinallyRouter,
@finally,
Expression.Condition(
Expression.NotEqual(saved, AstUtils.Constant(null, saved.Type)),
Expression.Throw(saved),
Utils.Empty()
),
Expression.Label(finallyReturn)
),
Expression.Catch(all, Utils.Void(Expression.Assign(saved, all)))
),
Expression.Condition(
Expression.Equal(_gotoRouter, AstUtils.Constant(GotoRouterYielding)),
Expression.Goto(_returnLabels.Peek()),
Utils.Empty()
)
);
@finally = null;
}
else if (@finally != null)
{
// try or catch had a yield, modify finally so we can skip over it
@finally = Expression.Block(
MakeSkipFinallyBlock(finallyReturn),
@finally,
Expression.Label(finallyReturn)
);
}
// Make the outer try, if needed
if (handlers.Count > 0 || @finally != null || fault != null)
{
@try = Expression.MakeTry(null, @try, @finally, fault, handlers);
}
return(Expression.Block(Expression.Label(tryStart), @try));
}