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 decrementsremainingto 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.Decrementand I thought reading a 32 bit int was atomic?remainingwill still be set to 1 when it is decremented back to 0 andcompletewill be set too early,