class ResultBase {}
class Result : ResultBase {}

Task<ResultBase> GetResult() {
    return Task.FromResult(new Result());

The compiler tells me that it cannot implicitly convert Task<Result> to Task<ResultBase>. Can someone explain why this is? I would have expected co-variance to enable me to write the code in this way.


According to someone who may be in the know...

The justification is that the advantage of covariance is outweighed by the disadvantage of clutter (i.e. everyone would have to make a decision about whether to use Task or ITask in every single place in their code).

It sounds to me like there is not a very compelling motivation either way. ITask<out T> would require a lot of new overloads, probably quite a bit under the hood (I cannot attest to how the actual base class is implemented or how special it is compared to a naive implementation) but way more in the form of these linq-like extension methods.

Somebody else made a good point - the time would be better spent making classes covariant and contravariant. I don't know how hard that would be, but that sounds like a better use of time to me.

On the other hand, somebody mentioned that it would be very cool to have a real yield return like feature available in an async method. I mean, without sleight of hand.

  • 6
    async, await relies on the existence of a suitable GetAwaiter method so it's already decoupled from the Task class. – Lee Jun 23 '15 at 8:00
  • Actually Task, Task<>, IAsyncEnumerable<> or IAsyncEnumerator<> is required to make async await code in c#. A class with the GetAwaiter method alone is not enough. At least, this is what the compiler says. – Francisco Neto Nov 25 '19 at 20:25
  • 4
    @FranciscoNeto That's simply not true. async/await only rely on the existence of a GetAwaiter method which returns an object having IsCompleted, OnCompleted and GetResult members with appropriate signatures. Custom implementations of awaitables are therefore possible. See here – Luke Caswell Samuel Mar 7 '20 at 6:10

I realize I'm late to the party, but here's an extension method I've been using to account for this missing feature:

/// <summary>
/// Casts the result type of the input task as if it were covariant
/// </summary>
/// <typeparam name="T">The original result type of the task</typeparam>
/// <typeparam name="TResult">The covariant type to return</typeparam>
/// <param name="task">The target task to cast</param>
public static async Task<TResult> AsTask<T, TResult>(this Task<T> task) 
    where T : TResult 
    where TResult : class
    return await task;

This way you can just do:

class ResultBase {}
class Result : ResultBase {}

Task<Result> GetResultAsync() => ...; // Some async code that returns Result

Task<ResultBase> GetResultBaseAsync() 
    return GetResultAsync().AsTask<Result, ResultBase>();
  • From what namespace? – BennyM Apr 25 '18 at 12:25
  • @BennyM Task<T> and the ContinueWith method are in the System.Threading.Tasks namespace, while the MethodImpl attribute is in System.Runtime.CompilerServices. – Sergio0694 Apr 25 '18 at 15:05
  • 7
    Some additional advice: If you just want to downcast, like in the example, this works as well: Task.FromResult<ResultBase>(new Result()); – Bluuu May 17 '18 at 7:12
  • 2
    Actually this latter comment should be the accepted answer since the whole problem is not about covariance but a situation that is an already supported by the framework. – Daniel Leiszen Dec 14 '18 at 23:17
  • 1
    This code is creating additional async state machine which will have impact on performance. This is still not ideal solution. I wonder if there is ideal one though. – Shoter Nov 24 '19 at 19:14

In my case I didn't know Task generic argument in compile time and had to work with System.Threading.Tasks.Task base class. Here is my solution created from the example above, perhaps will help someone.

    public static async Task<T> AsTask<T>(this Task task)
        var taskType = task.GetType();
        await task;
        return (T)taskType.GetProperty("Result").GetValue(task);
  • If you don't know the type at compile-time then you shouldn't be using generics at all. Also, this function will perform very slowly because you're using reflection - and it will fail if Task is not Task<T> at runtime. – Dai Jun 8 at 14:40
  • @Dai, yep, it's just a prototype, there should be a type check – Oleg Bevz Jun 9 at 16:01

I've had success with the MorseCode.ITask NuGet package. At this point it's pretty stable (no updates in a few years) but it was trivial to install and the only thing you needed to do to translate from an ITask to a Task was call .AsTask() (and the reverse extension method also ships with the package).

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