I've created a simple method which is supposed to take a list of, say, 100 items, and process them asynchronously (up to MAX_CONCURRENT
elements at a time), and return only once all elements have been processed:
/// <summary>Generic method to perform an action or set of actions
/// in parallel on each item in a collection of items, returning
/// only when all actions have been completed.</summary>
/// <typeparam name="T">The element type</typeparam>
/// <param name="elements">A collection of elements, each of which to
/// perform the action on.</param>
/// <param name="action">The action to perform on each element. The
/// action should of course be thread safe.</param>
/// <param name="MAX_CONCURRENT">The maximum number of concurrent actions.</param>
public static void PerformActionsInParallel<T>(IEnumerable<T> elements, Action<T> action)
{
// Semaphore limiting the number of parallel requests
Semaphore limit = new Semaphore(MAX_CONCURRENT, MAX_CONCURRENT);
// Count of the number of remaining threads to be completed
int remaining = 0;
// Signal to notify the main thread when a worker is done
AutoResetEvent onComplete = new AutoResetEvent(false);
foreach (T element in elements)
{
Interlocked.Increment(ref remaining);
limit.WaitOne();
new Thread(() =>
{
try
{
action(element);
}
catch (Exception ex)
{
Console.WriteLine("Error performing concurrent action: " + ex);
}
finally
{
Interlocked.Decrement(ref remaining);
limit.Release();
onComplete.Set();
}
}).Start();
}
// Wait for all requests to complete
while (remaining > 0)
onComplete.WaitOne(10); // Slightly better than Thread.Sleep(10)
}
/* We include a timeout on the `WaitOne()` before checking `remaining` again
* to protect against the rare case where the last outstanding thread
* decrements 'remaining' and then signals completion *between* the main thread
* checking 'remaining' and waiting for the next completion signal, which would
* otherwise result in the main thread missing the last signal and locking forever. */
Most of the time, this code behaves exactly as expected, but in rare occasions, I discover that the method returns (i.e. breaks out of that final while loop) before every element in the list is finished processing. It always seems to happen when there's only a few elements left - e.g. I'll have processed 97 elements, and then the method returns, and then elements 98-100 complete.
Is there anything I'm doing wrong that's maybe resulting in the remaining
count hitting 0 before all elements have actually been processed?
Volatile.Read()
to access the value at the end (that's where the lack of thread safety is a problem). I still wouldn't recommend doing it that way; polling a variable like that is wasteful and unnecessary. Use an appropriate synchronization mechanism that works. Frankly, it's not clear to me why you poll the variable anyway; just have the last thread (i.e. the one that decrementsremaining
to 0) set the event, and wait on the event. Or useCountdownEvent
, which is made for thisParallel.ForEach()
. If this is an academic exercise, fine...but if not, consider using the built-in features instead of writing them again. :)Interlocked.Decrement
and I thought reading a 32 bit int was atomic?remaining
will still be set to 1 when it is decremented back to 0 andcomplete
will be set too early,