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I have a method like this:

public static async Task SaveAllAsync() {
        foreach (var kvp in configurationFileMap) {
            await SaveConfigurationAsync(kvp.Key);

Where SaveConfigurationAsync() involves some latent I/O operation.

But I'm struggling to follow what will happen when someone calls SaveAllAsync().

When someone first calls it, I believe SaveAllAsync() will return control to the caller the first time it hits the line await SaveConfigurationAsync(kvp.Key);.

But then I'm unclear; without the use of threading; how can SaveConfigurationAsync(kvp.Key) continue? Or is threading actually involved (I've read that it isn't necessarily).

Also, when the first await SaveConfigurationAsync(kvp.Key) is completed, does SaveAllAsync() continue on to the next line?

Or do all the calls to SaveConfigurationAsync(kvp.Key) get 'blocked up' until the caller awaits SaveAllAsync()?

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Have you tried writing a simple program which simulates this behavior and checked the result? –  Default Aug 26 '13 at 14:12
@Default It's actually rather hard to write an effective simulator to show you what's going on unless you already know what it's doing. That said, there are a million books/blogs/articles/etc. out there on the subject, which will give you a basic idea of what's going on here. –  Servy Aug 26 '13 at 14:14
@Servy the question was about a method with several awaits. Writing a program which awaits methods with Task.Delays in them and outputting some debugmessages isn't very complicated.. unless I'm missing something. –  Default Aug 26 '13 at 14:22
@Default No, that's not complicated, but being able to determine what's really going on under the covers as a result of those printed messages is. It's not immediately obvious from the obvious observed behaviors what's really going on, at least not unless you have a basic idea of how to start. –  Servy Aug 26 '13 at 14:24
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3 Answers 3

up vote 10 down vote accepted

You can think of await as "pausing" the async method until that operation is complete. As a special case, if the operation is already completed (or is extremely fast), then the await will not "pause" the method; it will continue executing immediately.

So in this case (assuming that WriteStartDocumentAsync is not already completed), await will pause the method and return an uncompleted task to the caller. Note that the Task returned by an async method represents that method; when the method completes, then that Task is completed.

Eventually, WriteStartDocumentAsync will complete, and that will schedule the rest of the async method to continue running. In this case, it'll execute the next part of the method until the next await, when it gets paused again, etc. Eventually, the async method will complete, which will complete the Task that was returned to represent that method.

For more information, I have an async/await intro on my blog.

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So, in the meantime, when different parts of the called method ( some awaited and some not ) are executing, the caller ( as long as it has awaited the callee ) can actually return control to its caller. ...which is good, because the the upper level code can maintain control ( and check to see if there is any reason to abort the thing altogether ), but even though control is returned, the awaited methods are guaranteed to get some time to do their tasks –  Andyz Smith Aug 26 '13 at 14:38
So additionally, if a method with multiple awaits is called by a caller, the responsibility for finishing every statement of that method is with the caller. So even if the callee has multiple awaits, the caller is ultimately responsible for completing every ststement, and will ask the .Net threading infrastructure to keep going into this method, trying to get something done, maybe getting awaited again and again, but the caller is still responsible for executing code after the awaited sections in the calee. –  Andyz Smith Aug 26 '13 at 14:50
@AndyzSmith "the awaited methods are guaranteed to get some time to do their tasks" No, they are not. It's possible for some code somewhere to refuse to give up control and perform a blocking wait, thus preventing these continuations from running. That's why it's important, when using async code, to "async all the way up". If someone, somewhere, is doing a blocking wait on something else, and that something else can't run because the SynchronizationContext is busy doing a blocking wait, you have hit a "Deadlock". –  Servy Aug 26 '13 at 14:52
Isn't any kind of UI thread a blocking routine? It keeps running indefinitely, doesn't ever call the awaited methods again, and consumes infinite cycles, forever if left alone. So what you are saying, is that some badly behaved code can actually preempt the preemptive multitasking provided by the SynchronizationContext? –  Andyz Smith Aug 26 '13 at 14:56
@AndyzSmith: @Servy is correct. Also, it's incorrect to say the "caller is ultimately responsible for completing every statement". What you're probably thinking of is the situation where you have a UI thread context, and the async method resumes on the UI thread. async and await themselves are thread-agnostic, and work just fine (with different threading semantics) in Console apps, ASP.NET, etc. –  Stephen Cleary Aug 26 '13 at 14:56
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Stephens answer is of course correct. Here's another way to think about it that might help.

The continuation of a hunk of code is what happens after the code completes. When you hit an await two things happen. First, the current position in the execution becomes the continuation of the awaited task. Second, control leaves the current method and some other code runs. The other code is maybe the continuation of the first call, or maybe is something else entirely, an event handler, say.

But when the call to xmlWriter.WriteStartDocumentAsync() has completed; what happens? Is the current execution interrupted and returned back to SaveAllAsync()?

It is not clear what you mean by the call "completing". WriteStartDocumentAsync starts an asynchronous write, probably on an I/O completion thread, and returns you a Task that represents that asynchronous work. Awaiting that task does two things, like I said. First, the continuation of this task becomes the current position of the code. Second, control leaves the current method and some other code runs. In this case, whatever code called SaveAllAsync runs the continuation of that call.

Now lets suppose that code -- the caller of SaveAllAsync continues to run, and lets suppose further that you are in an application with a UI thread, like a Windows Forms application or a WPF application. Now we have two threads: the UI thread and an IO completion thread. The UI thread is running the caller of SaveAllAsync, which eventually returns, and now the UI thread is just sitting there in a loop handling Windows messages to trigger event handlers.

Eventually the IO completes and the IO completion thread sends a note to the UI thread that says "you can run the continuation of this task now". If the UI thread is busy, that message gets queued up; eventually the UI thread gets to it and invokes the continuation. Control resumes after the first await, and you enter the loop.

Now WriteStartElementAsync is invoked. It again starts some code running that depends on something happening on the IO completion thread (presumably; how it does its work is up to it, but this is a reasonable guess), that returns a Task representing that work, and the UI thread awaits that task. Again, the current position in the execution is signed up as the continuation of that task and control returns to the caller that invoked the first continuation -- namely, the UI thread's event processor. It continues merrily processing messages until one day the IO thread signals it and says that hey, the work you asked for is done on the IO completion thread, please invoke the continuation of this task, and so we go around the loop again...

Make sense?

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But when the call to xmlWriter.WriteStartDocumentAsync() has completed; what happens? Is the current execution interrupted and returned back to SaveAllAsync()? –  Motig Aug 26 '13 at 14:31
@Motig No, it won't interrupt anything. If there is a SynchronizationContext then that will be used. A sync context is specifically a way of saying, "If you give me a delegate, I can execute it under a particular set of conditions." Usually those "conditions" means running it in a particular thread, but not always. If there is no sync context then the rest of the method will be scheduled to run in the thread pool. If there is a sync context it generally means it will run whenever whatever else is running finishes up what it was doing. That's why blocking waits cause problems. –  Servy Aug 26 '13 at 14:50
Yeah... I really don't get how any of this works without a threading model. All it seems to do is what threading does on a single-core machine; i.e. switching between two different tasks... I don't get what async/await provides over a simple threading model or the use of the TPL. I think it is prudent in my case (considering my lack of understanding) to not provide an async overload until I can really understand what I would expect to happen, and what I would expect the caller to do with it. –  Motig Aug 26 '13 at 15:09
@Motig: What happens next depends on the context in which the task was awaited. If it was a UI thread then as I said, the thread which wishes to trigger the continuation sends a message to the UI thread. That message sits there in a queue, and when the UI thread gets around to it, the continuation runs. In a context without a UI thread then the continuation could run on the thread that did the work, or it could run on a new worker thread, or whatever. The context associated with the task decides how to safely run the continuation. –  Eric Lippert Aug 26 '13 at 15:24
@Motig: No worries. The TPL blog is a great source for articles. Also you might want to read my articles on CPS (blogs.msdn.com/b/ericlippert/archive/tags/…) and on how we motivated and designed async. (blogs.msdn.com/b/ericlippert/archive/tags/async) Start from the bottom; they are listed in newest-to-oldest order. –  Eric Lippert Aug 26 '13 at 15:35
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So, based upon the discussion of others, the OP's original concern/question:

Does it use threads?

But then I'm unclear; without the use of threading; how can SaveConfigurationAsync(kvp.Key) continue? Or is threading actually involved (I've read that it isn't necessarily).

Please correct me, but as I understand.

Yes, it does use threads, but you ( the consumer of async await) , do not need to do anything with the Threading library. basically, the async await depends on a threading infrastructure that is baked into the compiler and the runtime. So, for example, when Eric L. responds that the awaited code 'sends a message' to the UI thread, be advised, that this message is only listened to by the UI thread because it baked in by the compiler and runtime. So, in fact, the new compiler actually generates quite different executable code, because it is constantly checking the message queue, possibly between each statement line in the UI thread. Without you being aware of it at all.

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