I would like to handle a collection in parallel, but I'm having trouble implementing it and I'm therefore hoping for some help.
The trouble arises if I want to call a method marked async in C#, within the lambda of the parallel loop. For example:
var bag = new ConcurrentBag<object>();
Parallel.ForEach(myCollection, async item =>
{
// some pre stuff
var response = await GetData(item);
bag.Add(response);
// some post stuff
}
var count = bag.Count;
The problem occurs with the count being 0, because all the threads created are effectively just background threads and the Parallel.ForEach call doesn't wait for completion. If I remove the async keyword, the method looks like this:
var bag = new ConcurrentBag<object>();
Parallel.ForEach(myCollection, item =>
{
// some pre stuff
var responseTask = await GetData(item);
responseTask.Wait();
var response = responseTask.Result;
bag.Add(response);
// some post stuff
}
var count = bag.Count;
It works, but it completely disables the await cleverness and I have to do some manual exception handling.. (Removed for brevity).
How can I implement a Parallel.ForEach loop, that uses the await keyword within the lambda? Is it possible?
The prototype of the Parallel.ForEach method takes an Action<T> as parameter, but I want it to wait for my asynchronous lambda.
If you just want simple parallelism, you can do this:
var bag = new ConcurrentBag<object>();
var tasks = myCollection.Select(async item =>
{
// some pre stuff
var response = await GetData(item);
bag.Add(response);
// some post stuff
});
await Task.WhenAll(tasks);
var count = bag.Count;
If you need something more complex, check out Stephen Toub's ForEachAsync post.
You can use the ParallelForEachAsync extension method from AsyncEnumerator NuGet Package:
using Dasync.Collections;
var bag = new ConcurrentBag<object>();
await myCollection.ParallelForEachAsync(async item =>
{
// some pre stuff
var response = await GetData(item);
bag.Add(response);
// some post stuff
}, maxDegreeOfParallelism: 10);
var count = bag.Count;
With SemaphoreSlim you can achieve parallelism control.
var bag = new ConcurrentBag<object>();
var maxParallel = 20;
var throttler = new SemaphoreSlim(initialCount: maxParallel);
var tasks = myCollection.Select(async item =>
{
try
{
await throttler.WaitAsync();
var response = await GetData(item);
bag.Add(response);
}
finally
{
throttler.Release();
}
});
await Task.WhenAll(tasks);
var count = bag.Count;
My lightweight implementation of ParallelForEach async.
Features:
- Throttling (max degree of parallelism).
- Exception handling (aggregation exception will be thrown at completion).
- Memory efficient (no need to store the list of tasks).
public static class AsyncEx
{
public static async Task ParallelForEachAsync<T>(this IEnumerable<T> source, Func<T, Task> asyncAction, int maxDegreeOfParallelism = 10)
{
var semaphoreSlim = new SemaphoreSlim(maxDegreeOfParallelism);
var tcs = new TaskCompletionSource<object>();
var exceptions = new ConcurrentBag<Exception>();
bool addingCompleted = false;
foreach (T item in source)
{
await semaphoreSlim.WaitAsync();
asyncAction(item).ContinueWith(t =>
{
semaphoreSlim.Release();
if (t.Exception != null)
{
exceptions.Add(t.Exception);
}
if (Volatile.Read(ref addingCompleted) && semaphoreSlim.CurrentCount == maxDegreeOfParallelism)
{
tcs.SetResult(null);
}
});
}
Volatile.Write(ref addingCompleted, true);
await tcs.Task;
if (exceptions.Count > 0)
{
throw new AggregateException(exceptions);
}
}
}
Usage example:
await Enumerable.Range(1, 10000).ParallelForEachAsync(async (i) =>
{
var data = await GetData(i);
}, maxDegreeOfParallelism: 100);
I've created an extension method for this which makes use of SemaphoreSlim and also allows to set maximum degree of parallelism
/// <summary>
/// Concurrently Executes async actions for each item of <see cref="IEnumerable<typeparamref name="T"/>
/// </summary>
/// <typeparam name="T">Type of IEnumerable</typeparam>
/// <param name="enumerable">instance of <see cref="IEnumerable<typeparamref name="T"/>"/></param>
/// <param name="action">an async <see cref="Action" /> to execute</param>
/// <param name="maxDegreeOfParallelism">Optional, An integer that represents the maximum degree of parallelism,
/// Must be grater than 0</param>
/// <returns>A Task representing an async operation</returns>
/// <exception cref="ArgumentOutOfRangeException">If the maxActionsToRunInParallel is less than 1</exception>
public static async Task ForEachAsyncConcurrent<T>(
this IEnumerable<T> enumerable,
Func<T, Task> action,
int? maxDegreeOfParallelism = null)
{
if (maxDegreeOfParallelism.HasValue)
{
using (var semaphoreSlim = new SemaphoreSlim(
maxDegreeOfParallelism.Value, maxDegreeOfParallelism.Value))
{
var tasksWithThrottler = new List<Task>();
foreach (var item in enumerable)
{
// Increment the number of currently running tasks and wait if they are more than limit.
await semaphoreSlim.WaitAsync();
tasksWithThrottler.Add(Task.Run(async () =>
{
await action(item).ContinueWith(res =>
{
// action is completed, so decrement the number of currently running tasks
semaphoreSlim.Release();
});
}));
}
// Wait for all tasks to complete.
await Task.WhenAll(tasksWithThrottler.ToArray());
}
}
else
{
await Task.WhenAll(enumerable.Select(item => action(item)));
}
}
Sample Usage:
await enumerable.ForEachAsyncConcurrent(
async item =>
{
await SomeAsyncMethod(item);
},
5);
