5

We have code like this:

var intList = new List<int>{1,2,3};
var asyncEnumerables = intList.Select(Foo);

private async IAsyncEnumerable<int> Foo(int a)
{
  while (true)
  {
    await Task.Delay(5000);
    yield return a;
  } 
}

I need to start await foreach for every asyncEnumerable's entry. Every loop iteration should wait each other, and when every iteration is done i need to collect every iteration's data and process that by another method.

Can i somehow achieve that by TPL? Otherwise, couldn't you give me some ideas?

6
  • 3
    What do you actually want to do? You could use the operators in System.Linq.Async like Concat or Zip to combine multiple async streams into one, and use eg Aggregate or Sum to process the data Dec 27, 2019 at 15:40
  • 3
    You could adapt the code for Zip for example to handle more than two async streams, or use Zip multiple times Dec 27, 2019 at 15:43
  • So the expected output is an IAsyncEnumerable<int[]>, that yields the array [1, 2, 3] every 15,000 msec? Dec 27, 2019 at 20:05
  • @TheodorZoulias exactly. Dec 27, 2019 at 20:52
  • @PanagiotisKanavos thanks! I give it a try. Dec 27, 2019 at 20:52

2 Answers 2

6

What works for me is the Zip function in this repo (81 line)

I'm using it like this

var intList = new List<int> { 1, 2, 3 };
var asyncEnumerables = intList.Select(RunAsyncIterations);
var enumerableToIterate = async_enumerable_dotnet.AsyncEnumerable.Zip(s => s, asyncEnumerables.ToArray());

await foreach (int[] enumerablesConcatenation in enumerableToIterate)
{
    Console.WriteLine(enumerablesConcatenation.Sum()); //Sum returns 6
    await Task.Delay(2000);
}

static async IAsyncEnumerable<int> RunAsyncIterations(int i)
{
    while (true)
        yield return i;
}
1
4

Here is a generic method Zip that you could use, implemented as an iterator. The cancellationToken is decorated with the EnumeratorCancellation attribute, so that the resulting IAsyncEnumerable is WithCancellation friendly.

using System.Runtime.CompilerServices;

public static async IAsyncEnumerable<TSource[]> Zip<TSource>(
    IEnumerable<IAsyncEnumerable<TSource>> sources,
    [EnumeratorCancellation]CancellationToken cancellationToken = default)
{
    var enumerators = sources
        .Select(x => x.GetAsyncEnumerator(cancellationToken))
        .ToArray();
    try
    {
        while (true)
        {
            var array = new TSource[enumerators.Length];
            for (int i = 0; i < enumerators.Length; i++)
            {
                if (!await enumerators[i].MoveNextAsync().ConfigureAwait(false))
                    yield break;
                array[i] = enumerators[i].Current;
            }
            yield return array;
        }
    }
    finally
    {
        foreach (var enumerator in enumerators)
        {
            await enumerator.DisposeAsync().ConfigureAwait(false);
        }
    }
}

Usage example:

await foreach (int[] result in Zip(asyncEnumerables))
{
    Console.WriteLine($"Result: {String.Join(", ", result)}");
}

This implementation is not concurrent. The MoveNextAsync operations are launched subsequently, the one after the completion of the other. Making a concurrent implementation (ZipConcurrent) is possible, and shouldn't be particularly difficult, but it should be done with caution.

This implementation is also not 100% robust. It assumes that no GetAsyncEnumerator call can fail, and no DisposeAsync call can fail synchronously or asynchronously, otherwise some enumerators might be left undisposed. These are reasonable assumptions, but a perfectly robust implementation shouldn't rely on any of those.

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