Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm calling a worker method that calls to the database that then iterates and yield returns values for parallel processing. To prevent it from hammering the database, I have a Thread.Sleep in there to pause the execution to the DB. However, this appears to be blocking executions that are still occurring in the Parallel.ForEach. What is the best way to achieve this to prevent blocking?

private void ProcessWorkItems()
{
    _cancellation = new CancellationTokenSource();
    _cancellation.Token.Register(() => WorkItemRepository.ResetAbandonedWorkItems());

    Task.Factory.StartNew(() =>
        Parallel.ForEach(GetWorkItems().AsParallel().WithDegreeOfParallelism(10), workItem =>
        {
            var x = ItemFactory(workItem);
            x.doWork();
        }), _cancellation.Token);
}

private IEnumerable<IAnalysisServiceWorkItem> GetWorkItems()
{
    while (!_cancellation.IsCancellationRequested)
    {
        var workItems = WorkItemRepository.GetItemList(); //database call

        workItems.ForEach(item =>
        {
            item.QueueWorkItem(WorkItemRepository);
        });

        foreach (var item in workItems)
        {
            yield return item;
        }

        if (workItems.Count == 0)
        {
            Thread.Sleep(30000); //sleep this thread for 30 seconds if no work items.
        }
    }

    yield break;
}

Edit: I changed it to include the answer and it's still not working as I'm expecting. I added the .AsParallel().WithDegreeOfParallelism(10) to the GetWorkItems() call. Are my expectations incorrect when I think that Parallel should continue to execute even though the base thread is sleeping?

Example: I have 15 items, it iterates and grabs 10 items and starts them. As each one finishes, it asks for another one from GetWorkItems until it tries to ask for a 16th item. At that point it should stop trying to grab more items but should continue processing items 11-15 until those are complete. Is that how parallel should be working? Because it's not currently doing that. What it's currently doing is when it completes 6, it locks the subsequent 10 still being run in the Parallel.ForEach.

share|improve this question
2  
Thread.Sleep is almost never a good solution. Can you explain a bit more what you're trying to accomplish? What does WorkItemRepository.GetItemList do? –  Jim Mischel Sep 26 '11 at 21:45
1  
Real programs don't Sleep(). You're wasting a Thread and frustrating the Task scheduler. –  Henk Holterman Sep 26 '11 at 21:47
    
@Jim Mischel: I'm pretty sure WorkItemRepository.GetItemList does something like SELECT * FROM workqueue WHERE status = 'unprocessed' and compiles those into a queueable workitem type thingy. –  insta Sep 26 '11 at 22:28
    
@JimMischel WorkItemRepository.GetItemList queries out to the db then builds an IList<WorkItems>. I updated the original post with my edit and example. –  Conway Stern Sep 26 '11 at 22:44
add comment

4 Answers

up vote 6 down vote accepted

I would suggest that you create a BlockingCollection (a queue) of work items, and a timer that calls the database every 30 seconds to populate it. Something like:

BlockingCollection<WorkItem> WorkItems = new BlockingCollection<WorkItem>();

And on initialization:

System.Threading.Timer WorkItemTimer = new Timer((s) =>
    {
        var items = WorkItemRepository.GetItemList(); //database call
        foreach (var item in items)
        {
            WorkItems.Add(item);
        }
    }, null, 30000, 30000);

That will query the database for items every 30 seconds.

For scheduling the work items to be processed, you have a number of different solutions. The closest to what you have would be this:

WorkItem item;

while (WorkItems.TryTake(out item, Timeout.Infinite, _cancellation))
{
    Task.Factory.StartNew((s) =>
        {
            var myItem = (WorkItem)s;
            // process here
        }, item);
}

That eliminates blocking in any of the threads, and lets the TPL decide how best to allocate the parallel tasks.

EDIT:

Actually, closer to what you have is:

foreach (var item in WorkItems.GetConsumingEnumerable(_cancellation))
{
    // start task to process item
}

You might be able to use:

Parallel.Foreach(WorkItems.GetConsumingEnumerable(_cancellation).AsParallel ...

I don't know if that will work or how well. Might be worth a try . . .

END OF EDIT

In general, what I'm suggesting is that you treat this as a producer/consumer application, with the producer being the thread that queries the database periodically for new items. My example queries the database once every N (30 in this case) seconds, which will work well if, on average, you can empty your work queue every 30 seconds. That will give an average latency of less than a minute from the time an item is posted to the database until you have the results.

You can reduce the polling frequency (and thus the latency), but that will cause more database traffic.

You can get fancier with it, too. For example, if you poll the database after 30 seconds and you get a huge number of items, then it's likely that you'll be getting more soon, and you'll want to poll again in 15 seconds (or less). Conversely, if you poll the database after 30 seconds and get nothing, then you can probably wait longer before you poll again.

You can set up that kind of adaptive polling using a one-shot timer. That is, you specify -1 for the last parameter when you create the timer, which causes it to fire only once. Your timer callback figures out how long to wait before the next poll and calls Timer.Change to initialize the timer with the new value.

share|improve this answer
    
I implemented the edit you suggested. However, the timer doesn't appear to be firing multiple times. I added this snippet from above to my constructor and a few other places in hopes to get it to fire multiple times. System.Threading.Timer WorkItemTimer Any ideas on how to get that timer to work? It appears to be working on a single trip through with the BlockingCollection though. Thanks for that. –  Conway Stern Sep 27 '11 at 15:17
    
@ConwayStern: I can't imagine why the timer would fail to fire multiple times. Declare WorkItemTimer at class scope, and then initialize it in the constructor. If you declared it in the constructor, perhaps it's getting garbage collected. –  Jim Mischel Sep 27 '11 at 16:15
    
This helped me with giving me some more ideas of what to search for. Ended up using this as a base example Consumer / Producer using BlockingCollection. Thanks. –  Conway Stern Sep 29 '11 at 13:11
add comment

You can use the .WithDegreeOfParallelism() extension method to force PLinq to run the tasks simultaneously. There's a good example in the Call Blocking or I/O Intensive section in th C# Threading Handbook

share|improve this answer
    
How's that going to help here? It sets a maximum on the nr of threads, the OP seems to need a minimum. –  Henk Holterman Sep 26 '11 at 21:48
1  
@Henk Holterman, It sets the maximum number of processors, not threads. That would be two on a dual core machine. Since there is no need for CPU time on a Thread.Sleep call, Microsoft suggests In cases where a query is performing a significant amount of non-compute-bound work such as File I/O, it might be beneficial to specify a degree of parallelism greater than the number of cores on the machine. –  scottm Sep 26 '11 at 21:52
add comment

What are you trying to accomplish with the sleeping? From what I can tell, you're trying to avoid pounding database calls. I don't know of a better way to do that, but it seems like ideally your GetItemList call would be blocking until data was available to process.

share|improve this answer
add comment

You may be falling foul of the Partitioner.

Because you are passing an IEnumerable, Parallel.ForEach will use a Chunk Partitioner which can try to grab a few elements at a time from the enumeration in a chunk. But your IEnumerable.MoveNext can sleep, which will upset things.

You could write your own Partitioner that returns one element at a time, but in any case, I think a producer/consumer approach such as Jim Mischel's suggestion will work better.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.