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In My Parallel.ForEach Loop the localFinally delegate does get called on all the threads. I have found this to happen as my Parallel Loop stalls. In my Parallel Loop I have about three condition check stages that return before completion of the Loop. And it seems that it is when the Threads are returned from these stages and not the execution of the entire body that it does not execute the localFinally delegate.

The Loop structure is as follows:

 var startingThread = Thread.CurrentThread;
 Parallel.ForEach(fullList, opt,
         ()=> new MultipleValues(),
         (item, loopState, index, loop) =>
            if (cond 1)
                return loop;
            if (cond 2)
                return loop;
            if (cond 3)
                return loop;

            Do Work(item);
            return loop;
          partial =>
              Log State of startingThread and threads
            } );

I have run the loop on a small data set and logged in detail and found that while the Parallel.ForEach completes all the iterations and the Log at the last thread of localFinally is -- Calling Thread State is WaitSleepJoin for Thread 6 Loop Indx 16
the Loop still does not complete gracefully and remains stalled... any clues why the stalls ?


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Might be a deadlock somewhere –  Alex Jun 7 '12 at 10:59
Might be just the pseudo code, but cond 3 will never be reached in its current state. the if(cond2) has no parenthesis around the conditions (so only process(item) falls under it). –  Me.Name Jun 7 '12 at 11:06
@RobertVerpalen No that is just an error in the pseudo code caused by leaving out the parenthesis ... –  Brian Antao Jun 7 '12 at 11:20
Just a quick one, how is the logging mechanism implemented? Could the logging mechanism be the problem? I spent a day once looking for a problem which my slightly faulty logs told me existed (but didn't) =P –  flindeberg Jun 7 '12 at 11:46
Maybe you just misunderstood what localFinally means. It's not called for each item, it's called for each thread that is used by Paralle.ForEach(). And many items can share the same thread. –  svick Jun 7 '12 at 12:29

2 Answers 2

up vote 1 down vote accepted

Just did a quick test run after seeing the definition of localFinally (executed after each thread finished), which had me suspecting that that could mean there would be far less threads created by parallelism than loops executed. e.g.

        var test = new List<List<string>> ();
        for (int i = 0; i < 1000; i++)

        int finalcount = 0;
        int itemcount = 0;
        int loopcount = 0;

        Parallel.ForEach(test, () => new List<string>(),
            (item, loopState, index, loop) =>
                Interlocked.Increment(ref loopcount);
                return loop;
            l =>
                Interlocked.Add(ref itemcount, l.Count);                    
                Interlocked.Increment(ref finalcount);                    

at the end of this loop, itemcount and loopcount were 1000 as expected, and (on my machine) finalcount 1 or 2 depending on the speed of execution. In the situation with the conditions: when returned directly the execution is probably much faster and no extra threads are needed. only when the dowork is executed more threads are needed. However the parameter (l in my case) contains the combined list of all executions. Could this be the cause of the logging difference?

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Shouldn't you use Interlocked.Increment and Interlocked.Add methods to avoid possible threaded race conditions with your various counters? –  Chris Sinclair Jun 7 '12 at 12:18
had them volatile in my local test scenario so they should be thread safe and the results are the same, but for the posted example you're right, some sort of locking should be used –  Me.Name Jun 7 '12 at 12:22
@RobertVerpalen Marking a field as volatile doesn't magically make it thread-safe. In particular, it doesn't mean that ++ will work correctly, because ++ is not atomic. –  svick Jun 7 '12 at 12:30
Hmmm, then again seems volatile isn't enough, just did a quick check with thread sleep to see the number of threads increase and my loopcount was 987. Changed the code to use the interlocked functions. Thanks for the heads up –  Me.Name Jun 7 '12 at 12:31
@svick, so I noticed, you and Chris are absolutely right! I'll keep that in mind from now on. For all clarity: the results remain the same. –  Me.Name Jun 7 '12 at 12:32

I think you just misunderstood what localFinally means. It's not called for each item, it's called for each thread that is used by Parallel.ForEach(). And many items can share the same thread.

The reason why it exists is that you can perform some aggregation independently on each thread, and join them together only in the end. This way, you have to deal with synchronization (and have it impact your performance) only in a very small piece of code.

For example, if you want to compute the sum of score for a collection of items, you could do it like this:

int totalSum = 0;
    collection, item => Interlocked.Add(ref totalSum, ComputeScore(item)));

But here, you call Interlocked.Add() for every item, which can be slow. Using localInit and localFinally, you can rewrite the code like this:

int totalSum = 0;
    () => 0,
    (item, state, localSum) => localSum + ComputeScore(item),
    localSum => Interlocked.Add(ref totalSum, localSum));

Notice that the code uses Interlocked.Add() only in the localFinally and does access the global state in body. This way, the cost of synchronization is paid only a few times, once for each thread used.

Note: I used Interlocked in this example, because it is very simple and quite obviously correct. If the code was more complicated, I would use lock first, and try to use Interlocked only when it was necessary for good performance.

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Many thanks for the Enlightening response ... In my implementation I don't have any use for localFinally except use it for debugging purposes as my parallel.ForEach Loop executes all the iterations but still remains stalled. This is the Log output from localFinally which prints the state of the CurrentThread before invoking the Loop -- Calling Thread State is WaitSleepJoin for Thread 6 Loop Indx 16, but despite completing all the iterations the Parallel.ForEach does not exit gracefully any clues why the Loop will not terminate gracefully ? –  Brian Antao Jun 7 '12 at 17:09
Many thanks for your responses !! I managed to locate the point where the code was blocking in one of the calls and I got the Loop to progress to completion ! Cheers ! –  Brian Antao Jun 8 '12 at 14:11

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