What is the difference between Task.WaitAll() and Task.WhenAll() from the Async CTP ? Can you provide some sample code to illustrate the different use cases ?


Task.WaitAll blocks the current thread until everything has completed.

Task.WhenAll returns a task which represents the action of waiting until everything has completed.

That means that from an async method, you can use:

await Task.WhenAll(tasks);

... which means your method will continue when everything's completed, but you won't tie up a thread to just hang around until that time.

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    @Vince: I think "nothing to do with threads" is an overstatement, and it's important to understand how async operations interact with threads. – Jon Skeet Jan 18 '15 at 11:47
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    @KevinBui: No, it shouldn't block it - it will await the task returned by WhenAll, but that's not the same as blocking the thread. – Jon Skeet Sep 18 '15 at 10:24
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    @CatShoes: Not really - I've explained it as well as I can already. I guess I could give an analogy - it's like the difference between ordering a takeaway and then standing by the door waiting for it to arrive, vs ordering a takeaway, doing other stuff and then opening the door when the courier arrives... – Jon Skeet Dec 1 '15 at 21:37
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    @RachitGupta: Make sure you specified a cancellation token for each of them (assuming they're doing work which can be cancelled) and cancel the token for each task that hasn't completed. – Jon Skeet Sep 14 '16 at 5:58
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    @RachitGupta: Well it's up to the code involved - if the way you're creating a task accepts a cancellation token, and checks it regularly, then cancelling that token should cancel the job. I suggest you read up on cancellation tokens on MSDN. – Jon Skeet Sep 14 '16 at 6:05

While JonSkeet's answer explains the difference in a typically excellent way for me the biggest practical difference is exception handling. EDIT: Agreed - it's not the biggest practical difference, it's a difference.

Task.WaitAll throws an AggregateException when any of the tasks throws and you can examine all thrown exceptions. The await in await Task.WhenAll unwraps the AggregateException and 'returns' only the first exception.

When the program below executes with await Task.WhenAll(taskArray) the output is as follows.

19/11/2016 12:18:37 AM: Task 1 started
19/11/2016 12:18:37 AM: Task 3 started
19/11/2016 12:18:37 AM: Task 2 started
Caught Exception in Main at 19/11/2016 12:18:40 AM: Task 1 throwing at 19/11/2016 12:18:38 AM

When the program below is executed with Task.WaitAll(taskArray) the output is as follows.

19/11/2016 12:19:29 AM: Task 1 started
19/11/2016 12:19:29 AM: Task 2 started
19/11/2016 12:19:29 AM: Task 3 started
Caught AggregateException in Main at 19/11/2016 12:19:32 AM: Task 1 throwing at 19/11/2016 12:19:30 AM
Caught AggregateException in Main at 19/11/2016 12:19:32 AM: Task 2 throwing at 19/11/2016 12:19:31 AM
Caught AggregateException in Main at 19/11/2016 12:19:32 AM: Task 3 throwing at 19/11/2016 12:19:32 AM

The program:

class MyAmazingProgram
    public class CustomException : Exception
        public CustomException(String message) : base(message)
        { }

    static void WaitAndThrow(int id, int waitInMs)
        Console.WriteLine($"{DateTime.UtcNow}: Task {id} started");

        throw new CustomException($"Task {id} throwing at {DateTime.UtcNow}");

    static void Main(string[] args)
        Task.Run(async () =>
            await MyAmazingMethodAsync();


    static async Task MyAmazingMethodAsync()
            Task[] taskArray = { Task.Factory.StartNew(() => WaitAndThrow(1, 1000)),
                                 Task.Factory.StartNew(() => WaitAndThrow(2, 2000)),
                                 Task.Factory.StartNew(() => WaitAndThrow(3, 3000)) };

            //await Task.WhenAll(taskArray);
            Console.WriteLine("This isn't going to happen");
        catch (AggregateException ex)
            foreach (var inner in ex.InnerExceptions)
                Console.WriteLine($"Caught AggregateException in Main at {DateTime.UtcNow}: " + inner.Message);
        catch (Exception ex)
            Console.WriteLine($"Caught Exception in Main at {DateTime.UtcNow}: " + ex.Message);
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    the biggest practical difference is exception handling. Really? Because that really isn't the biggest practical difference. The biggest practical difference is one is async and non blocking where as the other is blocking. This is much more important than how it handles exceptions. – Liam Oct 3 '17 at 14:47
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    Thanks for pointing this out. This explanation was useful in the scenario I'm currently working. Perhaps not the "biggest practical difference", but definitely a good call out. – Urk Apr 24 '18 at 19:25
  • The exception handling being biggest practical difference might be more applicable to the comparison between await t1; await t2; await t3; vs await Task.WhenAll(t1,t2,t3); – frostshoxx Mar 13 at 15:51
  • Doesn't this exception behaviour contradict the docs here (docs.microsoft.com/en-us/dotnet/api/…) "If any of the supplied tasks completes in a faulted state, the returned task will also complete in a Faulted state, where its exceptions will contain the aggregation of the set of unwrapped exceptions from each of the supplied tasks." – Dasith Wijes Apr 4 at 12:29

As an example of the difference -- if you have a task the does something with the UI thread (e.g. a task that represents an animation in a Storyboard) if you Task.WaitAll() then the UI thread is blocked and the UI is never updated. if you use await Task.WhenAll() then the UI thread is not blocked, and the UI will be updated.


What do they do:

  • Internally both do the same thing.

What's the difference:

  • WaitAll is a blocking call
  • WhenAll - not - code will continue executing

Use which when:

  • WaitAll when cannot continue without having the result
  • WhenAll when what just to be notified, not blocked
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    This is wrong. In both cases, if you await WaitAll or WhenAll, code below will not continue executing until the methods have returned. The difference is that WaitAll blocks the current thread, whereas WhenAll does not. Please see Jon Skeet's accepted answer - specifically "your method will continue when everything's completed, but you won't tie up a thread to just hang around until that time." – Martin Rhodes Jan 25 at 15:11
  • @MartinRhodes But what if you don't await it immediately, but continue with some other work and then await it? You don't have that possibility with WaitAll as I understand it. – Jeppe Mar 31 at 14:59

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