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I am using the below code snippet to try and run jobs (selected by user from UI) non-blocking from main thread (asynchronously) and concurrently w.r.t each other, with some throttling set up to prevent too many jobs hogging all RAM. I used many sources such as Stephen Cleary's blog, this link on ActionBlock as well as this one from @i3arnon

public class ActionBlockJobsAsyncImpl {
    private ActionBlock<Job> qJobs;
    private Dictionary<Job, CancellationTokenSource> cTokSrcs;
    public ActionBlockJobsAsyncImpl () {
        qJobs = new ActionBlock<Job>(
               async a_job => await RunJobAsync(a_job),
               new ExecutionDataflowBlockOptions
               {
                   BoundedCapacity = boundedCapacity,
                   MaxDegreeOfParallelism = maxDegreeOfParallelism,
               });
        cTokSrcs = new Dictionary<Job, CancellationTokenSource>();
    }

    private async Task<bool> RunJobAsync(Job a_job) {
        JobArgs args = JobAPI.GetJobArgs(a_job);
        bool ok = await JobAPI.RunJobAsync(args, cTokSrcs[a_job].Token);

        return ok;
    }

    private async Task Produce(IEnumerable<Job> jobs) {
        foreach (var job in jobs)
        {
            await qJobs.SendAsync(job);
        }
        //qJobs.Complete();
    }

    public override async Task SubmitJobs(IEnumerable<Job> jobs) {
        //-Establish new cancellation token and task status
        foreach (var job in jobs) {
            cTokSrcs[job] = new CancellationTokenSource();
        }

        // Start the producer.
        var producer = Produce(jobs);

        // Wait for everything to complete.
        await Task.WhenAll(producer);
    }
}

The reason I commented out the qJobs.Complete() method call was because the user should be able to submit jobs continuously from the UI (same ones or different ones), and I learnt from implementing and testing in my first pass using BufferBlock that I shouldn't have that Complete() call if I wanted such a continuous producer/consumer queue. But BufferBlock as I learnt doesn't support running concurrent jobs; hence this is my second pass with ActionBlock instead.

In the above code using ActionBlock, when the user selects jobs and clicks to run from UI, this calls the SubmitJobs method. The int parameters boundedCapacity=8 and maxDegreeOfParallelism=DataflowBlockOptions.Unbounded But the code as is, currently does nothing (i.e., it doesn't run any job) - my analogous BufferBlock implementation on the other hand, used to at least run the jobs asynchronously, albeit sequentially w.r.t each other. Here, it never runs any of the jobs and I don't see any error messages either. Appreciate any ideas on what I'm doing wrong and perhaps some useful ideas on how to fix the problem. Thanks for your interest.

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    Use the debugger to see if RunJobAsync is entered. A simpler design would be to just use SemaphoreSlim to throttle. No need to dataflow. Also note, that when SubmitJobs completes not all jobs will have completed because SendAsync does not wait for processing. Maybe this effect caused you to conclude that the jobs did not run at all when in reality they were just about to start.
    – usr
    Aug 25, 2016 at 18:36
  • @usr: yes, it does enter. The same behavior is also seen when I uncommented the qJobs.Complete() and added the await qjobs.Completion like in the link provided. I enabled all exceptions and saw that it throws System.InvalidOperationException something about cross thread access of an object not being legal. I am not sure how this is different from the example of i3arnon. Aug 25, 2016 at 22:09
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    @squashed.bugaboo: Can you post a complete example that others can copy into VS and execute? Aug 26, 2016 at 2:27
  • @usr: maybe so, but I doubt it. If it works for BufferBlock with the same code pretty much, and not for ActionBlock, and it could be very well be a bug, but it has to do with dataflow. Aug 26, 2016 at 13:44
  • @Stephen, thanks, let me try to come up with something like that. Aug 26, 2016 at 13:46

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