I'm sorry if this is a silly question (or a duplicate).

I have a function A:

public async Task<int> A(/* some parameters */)
    var result = await SomeOtherFuncAsync(/* some other parameters */);

    return (result);

the I have another function B, calling A but not using the return value:

public Task B(/* some parameters */)
    var taskA = A(/* parameters */); // #1

    return (taskA);

Note that B is not declared async and is not awaiting the call to A. The call to A is not a fire-and-forget call - B is called by C like so:

public async Task C()
    await B(/* parameters */);

Notice that at #1, there's no await. I have a coworker that claims that this makes the call to A synchronous and he keeps coming up with Console.WriteLine logs that seemingly prove his point.

I tried pointing out that just because we don't wait for the results inside B, the task chain is awaited and the nature of the code inside A doesn't change just because we don't await it. Since the return value from A is not needed, there's no need to await the task at the call site, as long as someone up the chain awaits it (which happens in C).

My coworker is very insistent and I began to doubt myself. Is my understanding wrong?

  • 6
    I'd love to see the Console.WriteLine code that seemingly proves that this is synchronous.
    – juharr
    Sep 20, 2019 at 22:07
  • 5
    "Insistent" is not the same thing as "demonstrably correct". Your co-worker may have a point, or may be completely mistaken. (Your contrived example may also be removing something else in the overall operation.) Remove personalities from the equation and create a test to demonstrate what you expect the code to be doing. A console app which immediately ends (doesn't read input) is particularly useful for this because if the async operation takes some time and isn't awaited then the application would terminate before whatever the side-effect is of that operation can be observed.
    – David
    Sep 20, 2019 at 22:11
  • 2
    @David There was actually a great example of that in a question last week, except it was because the Main method was async void, thus the framework had no idea any task was still running and terminated the program. It was running asynchronously, even though the framework wasn't awaiting it. Sep 21, 2019 at 0:13
  • 1
    @GabrielLuci: Nice example. I've seen some interesting "tests" my similarly insistent co-workers, and I'm bookmarking Eric Lippert's answer below for future reference the next time it happens. One example on a previous project was a programmer who was sure that his "fire and forget" code (hiding something asynchronous behind a synchronous interface and never awaiting it) would always work, because it "worked" in his WinForms app. Which was only a coincidence because the operation "worked" in the time it took him to close the app. In a Console App the operation never completed.
    – David
    Sep 21, 2019 at 0:34
  • @David Why do you call this example contrived? It exactly demonstrates the scenario in question (of course, the actual functions are different and they take actual parameters, etc.)
    – xxbbcc
    Sep 21, 2019 at 1:35

2 Answers 2


I'm sorry if this is a silly question

It is not a silly question. It is an important question.

I have a coworker that claims that this makes the call to A synchronous and he keeps coming up with Console.WriteLine logs that seemingly prove his point.

That is the fundamental problem right there, and you need to educate your coworker so that they stop misleading themselves and others. There is no such thing as an asynchronous call. The call is not the thing that is asynchronous, ever. Say it with me. Calls are not asynchronous in C#. In C#, when you call a function, that function is called immediately after all the arguments are computed.

If your coworker or you believes that there is such a thing as an asynchronous call, you are in for a world of pain because your beliefs about how asynchrony works will be very disconnected from reality.

So, is your coworker correct? Of course they are. The call to A is synchronous because all function calls are synchronous. But the fact that they believe that there is such a thing as an "asynchronous call" means that they are badly mistaken about how asynchrony works in C#.

If specifically your coworker believes that await M() somehow makes the call to M() "asynchronous", then your coworker has a big misunderstanding. await is an operator. It's a complicated operator, to be sure, but it is an operator, and it operates on values. await M() and var t = M(); await t; are the same thing. The await happens after the call because the await operates on the value that is returned. await is NOT an instruction to the compiler to "generate an asynchronous call to M()" or any such thing; there is no such thing as an "asynchronous call".

If that is the nature of their false belief, then you've got an opportunity to educate your coworker as to what await means. await means something simple but powerful. It means:

  • Look at the Task that I'm operating on.
  • If the task is completed exceptionally, throw that exception
  • If the task is completed normally, extract that value and use it
  • If the task is incomplete, sign up the remainder of this method as the continuation of the awaited task, and return a new Task representing this call's incomplete asynchronous workflow to my caller.

That's all that await does. It just examines the contents of a task, and if the task is incomplete, it says "well, we can't make any progress on this workflow until that task is complete, so return to my caller who will find something else for this CPU to do".

the nature of the code inside A doesn't change just because we don't await it.

That's correct. We synchronously call A, and it returns a Task. The code after the call site does not run until A returns. The interesting thing about A is that A is allowed to return an incomplete Task to its caller, and that task represents a node in an asynchronous workflow. The workflow is already asynchronous, and as you note, it makes no difference to A what you do with its return value after it returns; A has no idea whether you are going to await the returned Task or not. A just runs as long as it can, and then either it returns a completed-normally task, or a completed-exceptionally task, or it returns an incomplete task. But nothing you do at the call site changes that.

Since the return value from A is not needed, there's no need to await the task at the call site


there's no need to await the task at the call site, as long as someone up the chain awaits it (which happens in C).

Now you've lost me. Why does anyone have to await the Task returned by A? Say why you believe that someone is required to await that Task, because you might have a false belief.

My coworker is very insistent and I began to doubt myself. Is my understanding wrong?

Your coworker is almost certainly wrong. Your analysis seems correct right up to the bit where you say that there is a requirement that every Task be awaited, which is not true. It is strange to not await a Task because it means that you wrote a program where you started an operation and do not care about when or how it completes, and it certainly smells bad to write a program like that, but there is not a requirement to await every Task. If you believe that there is, again, say what that belief is and we'll sort it out.

  • 1
    @GabrielLuci: Not at all. Calls in C# are very straightforward. Control leaves the caller, enters the callee, and remains in the callee until the callee either returns or throws. Asynchronous methods are special because they can return before their workflow is complete. How does that work? When they do so, they make a delegate that, when called, resumes the workflow from where it left off, and that delegate is the continuation of the returned task. When the task completes, the continuation is invoked and the workflow resumes. Sep 21, 2019 at 0:00
  • 1
    @GabrielLuci: But the fact that asynchronous methods can return before their workflow is complete does not change the fact that control remains in the callee until it returns. How could it not? The thread only has one point of control; that's what a thread is! Sep 21, 2019 at 0:01
  • 1
    Right, there are some optimizations that can be made in practice. But it is conceptually more clear to envision the continuation as a delegate that magically picks up where the workflow left off. Sep 21, 2019 at 0:20
  • 1
    @EricLippert I'm also sorry, I think loosely using the word "call" gave you the impression that I think function calls can be asynchronous - I do not, in fact, think so. I think I probably should've used "workflow" instead, as you did. I think you correctly assume that my coworker believes await makes the call asynchronous (I have several coworkers with similar beliefs). It was his insistence (which I thought was misplaced but couldn't think of a quick way to disprove it) with some console outputs that made me question my understanding. Thank you.
    – xxbbcc
    Sep 21, 2019 at 1:48
  • 2
    @GabrielLuci I think in everyday discussion it's hard to consciously separate "call" and "workflow" - I think Eric's history with the compiler makes it easier for him to do so. I regularly talk about "asynchronous calls", even though I understand how statements are executed in a function one at a time. (I had to rewrite this comment 3 times for precision and I'm still not sure I wrote what I tried to say.)
    – xxbbcc
    Sep 21, 2019 at 1:52

You are right. Creating a task does only that and it does not care when and who will await its result. Try putting await Task.Delay(veryBigNumber); in SomeOtherFuncAsync and the console output should be what you would expect.

This is called eliding and I suggest you read this blogpost, where you can see why you should or should not do such thing.

Also some minimal (little convoluted) example copying your code proving you right:

class Program
        static async Task Main(string[] args)
            Console.WriteLine($"Start of main {Thread.CurrentThread.ManagedThreadId}");
            var task = First();
            Console.WriteLine($"Middle of main {Thread.CurrentThread.ManagedThreadId}");
            await task;
            Console.WriteLine($"End of main {Thread.CurrentThread.ManagedThreadId}");

        static Task First()
            return SecondAsync();

        static async Task SecondAsync()
            await ThirdAsync();

        static async Task ThirdAsync()
            Console.WriteLine($"Start of third {Thread.CurrentThread.ManagedThreadId}");
            await Task.Delay(1000);
            Console.WriteLine($"End of third {Thread.CurrentThread.ManagedThreadId}");

This writes Middle of main before End of third, proving that it is in fact asynchronous. Furhtermore you can (most likely) see that the ends of functions run on different thread than the rest of the program. Both beginnings and the middle of main will always run on the same thread because those are in fact synchrnous (main starts, calls the function chain, third returns (it may return at the line with the await keyword) and then main continues as if there was no asynchronous function ever involved. The endings after the await keywords in both functions may run on any thread in the ThreadPool (or in synchronization context you are using).

Now it is interesting to note, that if Task.Delay in Third did not take very long and actually finished synchronously, all of this would run on a single thread. What's more, even though it would run asynchronously, it might all run on a single thread. There is no rule stating that an async function will use more than one thread, it may very well just do some other work while waiting for some I/O task to finish.

  • You can print thread id at each step to follow execution flow Console.WriteLine("StepX" + Thread.CurrentThread.ManagedThreadId);
    – Kalten
    Sep 20, 2019 at 22:49
  • 1
    @Kalten I added it there, but it is important to note, that asynchronous does not mean parallel and the thread might be the same.
    – Ordoshsen
    Sep 21, 2019 at 0:37

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