I know the compiler can't convert an async lambda expression to an expression tree, but is it possible to generate the expression tree manually ?

var expr = Expression.Lambda<Func<Task>>(
     // how do I use 'await' in the body here?
var func = expr.Compile();

I can't find any method related to async or await in the Expression class, but perhaps there's another way?


await involves significant compiler re-writing; the generated IL is quite dissimilar to the original C#, with variable hoisting (onto a class) and branching, tasks, continuations, etc. It certainly isn't something that can be represented in a simple lambda, although in recent versions of .NET with richer Expression support (Expression.Block etc), technically I suppose it is probably possible to mimic most of the things the compiler does for await - but you'd probably go quite loopy trying to do it by hand.

No, AFAIK, no facility to automate this translation exists in the Expression API, and frankly I wouldn't ever expect there to be.

The same probably could be say of ILGenerator; frankly, AFAIK the only "easy" way (and I use the word "easy" quite incorrectly) to use await in meta-programming would be to generate C# and run it through roslyn or CSharpCodeProvider.

  • Thanks Marc. Unfortunately using Roslyn or CSharpCodeProvider isn't an option for me; I'm working on a Windows Store app, and the only codegen mechanism available on this platform (AFAIK) is Linq Expressions. I guess I will have to change my approach to avoid async code. – Thomas Levesque Jun 16 '14 at 10:26
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    @ThomasLevesque or the other option, of course, is to embrace the instanity, perhaps writing an open source library that does all the Expression.Block work to make it work. I have a suspicion, however, that even this would not be enough, and that it is simply outside of what the Expression API is capable of representing. – Marc Gravell Jun 16 '14 at 10:29
  • Well, maybe I'll give it a try someday if I'm bored ;) – Thomas Levesque Jun 16 '14 at 12:01
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    I suspect it can be done, simply because the transforms applied to async/await are similar to those of custom iterators (yield), and the DLR, which is built atop System.Linq.Expressions is capable of generating that kind of code. Still, it'd be no small amount of work. The OP may be better off using Task.ContinueWith() in lieu of await. – Mike Strobel Jun 23 '14 at 13:53
  • There is alternative Expression tree implementations (FastExpressionCompiler), and there you may help to implement the support for async-await github.com/dadhi/FastExpressionCompiler/issues/47 – dadhi Nov 13 '17 at 6:25

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