67
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.

4
29

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.

3
  • 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
15

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>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
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>();
}
9
  • 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
0

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.

    [MethodImpl(MethodImplOptions.AggressiveInlining)]
    public static async Task<T> AsTask<T>(this Task task)
    {
        var taskType = task.GetType();
        await task;
        return (T)taskType.GetProperty("Result").GetValue(task);
    }
2
  • 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
0

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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