What is the convention for suffixing method names with "Async"?

Should the "Async" suffix be appended only to a method that is declared with the async modifier?

public async Task<bool> ConnectAsync()

Or is it enough that the method just returns Task<T> or Task?

public Task<bool> ConnectAsync()
  • 4
    For the naming part, the TAP doc says: Asynchronous methods in TAP include the Async suffix after the operation name; for example, GetAsync for a get operation. If you're adding a TAP method to a class that already contains that method name with the Async suffix, use the suffix TaskAsync instead. For example, if the class already has a GetAsync method, use the name GetTaskAsync. – James Manning Apr 11 '13 at 16:25
  • 4
    ok, I guess I was confused by the question title of "Naming convention for async methods" – James Manning Apr 11 '13 at 19:39
  • 1
    This is a poorly constructed question. People bickering, equivocal answers. – Luke Puplett Jul 8 '14 at 8:08
  • 3
    Because many people have misunderstood it and are arguing as to the actual thing being asked, wondering whether its a two-part question etc. The proof that its confusing is that people are confused. – Luke Puplett Jul 8 '14 at 8:45
  • 2
    @DavidRR To this day I still don't understand the amount of confusion that this question apparently has caused. If your edits bring some order in the confusion such that it has helped you and possibly can help others, then I welcome your edits for you have achieved something that I could not in the original formulation. The question is now so old now that I can hardly recall my mindset when I asked it here and so the original intent is less important. Luke's answer reflect that not all were confused. I found it immensely helpful. – kasperhj May 26 '16 at 18:16
up vote 74 down vote accepted

I think the truth is ambiguous even from Microsoft documentation:

In Visual Studio 2012 and the .NET Framework 4.5, any method that is attributed with the async keyword (Async in Visual Basic) is considered an asynchronous method, and the C# and Visual Basic compilers perform the necessary transformations to implement the method asynchronously by using TAP. An asynchronous method should return either a Task or a Task<TResult> object.


That's not right already. Any method with async is asynchronous and then its saying it should return either a Task or Task<T> - which isn't right for methods at the top of a call stack, Button_Click for example, or async void.

Of course, you have to consider what is the point of the convention?

You could say that the Async suffix convention is to communicate to the API user that the method is awaitable. For a method to be awaitable, it must return Task for a void, or Task<T> for a value-returning method, which means only the latter can be suffixed with Async.

Or you might say that the Async suffix convention is to communicate that the method can return immediately, relinquishing the current thread to perform other work and potentially causing races.

This Microsoft doc quote says:

By convention, you append "Async" to the names of methods that have an Async or async modifier.


Which doesn't even mention that your own asynchronous methods returning Task need the Async suffix, which I think we all agree they do.

So the answer to this question could be: both. In both cases, you need to append Async to methods with async keyword and that return Task or Task<T>.

I'm going to ask Stephen Toub to clarify the situation.


So I did. And here's what our good man wrote:

If a public method is Task-returning and is asynchronous in nature (as opposed to a method that is known to always execute synchronously to completion but still returns a Task for some reason), it should have an “Async” suffix. That’s the guideline. The primary goal here with the naming is to make it very obvious to a consumer of the functionality that the method being invoked will likely not complete all of its work synchronously; it of course also helps with the case where functionality is exposed with both synchronous and asynchronous methods such that you need a name difference to distinguish them. How the method achieves its asynchronous implementation is immaterial to the naming: whether async/await is used to garner the compiler’s help, or whether types and methods from System.Threading.Tasks are used directly (e.g. TaskCompletionSource) doesn’t really matter, as that doesn’t affect the method’s signature as far as a consumer of the method is concerned.

Of course, there are always exceptions to a guideline. The most notable one in the case of naming would be cases where an entire type’s raison d’etre is to provide async-focused functionality, in which case having Async on every method would be overkill, e.g. the methods on Task itself that produce other Tasks.

As for void-returning asynchronous methods, it’s not desirable to have those in public surface area, since the caller has no good way of knowing when the asynchronous work has completed. If you must expose a void-returning asynchronous method publicly, though, you likely do want to have a name that conveys that asynchronous work is being initiated, and you could use the “Async” suffix here if it made sense. Given how rare this case should be, I’d argue it’s really a case-by-case kind of decision.

I hope that helps, Steve

The succinct guidance from Stephen’s opening sentence is clear enough. It excludes async void because it is unusual to want to create a public API with such a design since the correct way to implement an asynchronous void is to return a plain Task instance and let the compiler to its magic. However, if you did want a public async void, then appending Async is advised. Other top-of-stack async void methods such as event handlers are usually not public and don’t matter/qualify.

For me, it tells me that if I find myself wondering about suffixing Async on an async void, I probably should turn it into an async Task so that callers can await it, then append Async.

  • 3
    Well its a shame we don't have compile time checks for method calls.. oh wait. If I name the Method Get or GetAsync and don't use await from the calling side, the compile will fail to build. So this convention is SILLY and really going against many Microsoft Style guidelines, like avoiding things like PersonString or PriceDecimal so why use GetAsync - API consumers of async API's need not worry about this as the request always returns after all tasks complete anyway. Its silly and really annoying me. But its just another convention that nobody really knows why its there. – ppumkin May 30 '17 at 14:42
  • For code conventions propose.. Should signature method show implementation details? – m.rufca Jun 7 '17 at 13:38
  • 1
    @ppumkin: As Stephen pointed out, a method can easily be asynchronous in nature without using async/await, thus the caller doesn't have any indication other than the name whether or not the functionality runs asynchronous. – Hannobo Sep 7 '17 at 22:06
  • @ppumkin: Failing to await an async method, by default, results in a compile-time warning; not a build error. – Dustin Cleveland May 26 at 14:25
  • I find this convention silly. There are three automatic indications that a method is async: 1. The return type is Task. 2. Code completion presents an awaitable hint 3. the IDE will warn you by underlining in green and presenting a compiler warning. So I totally agree with @ppumkin. The Async-suffix is as silly as if you wrote a property like so: public Lazy<Customer> CustomerLazy. Who would do this!?? – Marco Jun 24 at 8:53

What is the convention for suffixing method names with "Async".

The Task-based Asynchronous Pattern (TAP) dictates that methods should always return a Task<T> (or Task) and be named with an Async suffix; this is separate from the use of async. Both Task<bool> Connect() and asyncTask<bool> Connect() will compile and run just fine, but you won't be following the TAP naming convention.

Should the method contain the async modifier, or it enough that it just returns Task?

If the body of the method (regardless of the return type or name) includes await, you must use async; and the compiler will tell you "The 'await' operator can only be used within an async method. ...". Returning Task<T> or Task is not "enough" to avoid using async. See async (C# Reference) for details.

I.e. which of these signatures are correct:

Both asyncTask<bool> ConnectAsync() and Task<bool> ConnectAsync() properly follow the TAP conventions. You could always use the async keyword, but you'll get a compiler warning "This async method lacks 'await' operators and will run synchronously. ..." if the body doesn't use await.

  • 1
    He's referring to whether or not you append "Async" to the method name, not whether you use the async keyword. – Servy Apr 11 '13 at 14:47
  • 1
    @Servy wether or not using the keyword async is the second part of the question. – Corak Apr 11 '13 at 14:56
  • 2
    @Servy It is a two part question. The first part, as you said is whether or not to append "Async" to the method name. The second part is whether or not to use the async modifier. See also OPs examples, public async Task<bool> ConnectAsync() (with async modifier) vs public Task<bool> ConnectAsync() (without async modifier). The method name itself has the suffix "Async" in both cases. – Corak Apr 11 '13 at 15:04
  • 2
    It is not a two part question. The question is, should "Async" be appended to methods names of methods that return Task or methods that have async Task. – kasperhj Apr 11 '13 at 15:06
  • 3
    @lejon: you should improve the question; the "vs." code snippets make it clear the question (in its entirety) is about async as that's the only difference. – Ðаn Apr 11 '13 at 15:44

or it enough that it just returns Task?

That. The async keyword isn't the real issue here. If you implement the asynchrony without using the async keyword the method is still "Async", in the general sense.

Since Task and Task<T> are both awaitable types, they represent some asynchronous operation. Or at least they should represent.

You should add suffix Async to a method which, in some cases (not necessarily all), doesn't return a value but rather returns a wrapper around an ongoing operation. That wrapper is usually a Task, but on Windows RT it can be IAsyncInfo. Follow your gut feeling and remember that if a user of your code sees the Async function, he or she will know that the invocation of that method is decoupled from the result of that method and that they need to act accordingly.

Note that there are methods such as Task.Delay and Task.WhenAll which return Task and yet don't have the Async suffix.

Also note that there are async void methods which represent fire and forget asynchronous method and you should better be aware that the method is built in such way.

I build a lot API-services and other applications that call others systems where most of my code is running asynchronous.

My own rule of thumb I'm following is:

If there is both non-async and async method that return the same thing I suffix the async one with Async. Otherwise not.


Only one method:

public async Task<User> GetUser() { [...] }

Same method with two signatures:

public User GetUser() { [...] }

public async Task<User> GetUserAsync() { [...] }

This makes sense since it's the same data that is returned but the only thing that differs is the way of returning data, not the data itself.

I also think this naming conventions exists due to the need to introduce async methods and still maintain backwards compatibility.

I argue that new code shouldn't use the Async suffix. It is just as obvious as return type of String, or Int as mentioned before in this thread.

  • 1
    I agree, especially that usually you need to go 'async all the way', in which case the suffix is redundant - what is the point of appending it to 90% of the code;) – Bartosz May 20 at 18:58
  • this is the best solution. Without noticing it, I've been doing the same way in my APIs. – Marco Jun 24 at 9:07

In Asynchronous Programming with async and await (C#), Microsoft offers the following guidance:

Naming Convention

By convention, you append "Async" to the names of methods that have an async modifier.

You can ignore the convention where an event, base class, or interface contract suggests a different name. For example, you shouldn’t rename common event handlers, such as Button1_Click.

I find this guidance incomplete and unsatisfying. Does this mean that in the absence of the async modifier, this method should be named Connect instead of ConnectAsync?

public Task<bool> ConnectAsync()
    return ConnectAsyncInternal();

I don't think so. As indicated in the concise answer by @Servy and the more detailed answer by @Luke Puplett, I believe that it is appropriate and indeed expected that this method should be named ConnectAsync (because it returns an awaitable). In further support of this, @John Skeet in this answer to another question appends Async to the method name regardless of the presence of the async modifier.

Finally, on another question, consider this comment by @Damien_The_Unbeliever:

async/await are implementation details of your methods. It matters not one jot whether your method is declared async Task Method() or just Task Method(), so far as your callers are concerned. (In fact, you are free to change between these two at a later point in time without it being considered a breaking change.)

From that, I infer that it is the asynchronous nature of the method that dictates how it should be named. The user of the method won't even know whether the async modifier is used in its implementation (without the C# source code or CIL).

I would argue that it should use the Async-suffix if it returns a Task regardless if the method is declared with the async modifier.

The reason behind it being that the name is declared in the interface. The interface declares the return type which is a Task. Then there are two implementations of that interface, one implementation implements it using the async modifier, the other does not.

public interface IFoo
    Task FooAsync();

public class FooA : IFoo
    public Task FooAsync() { /* ... */ }

public class FooB : IFoo
    public async Task FooAsync() { /* ... */ }

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.