Having a complex sequence of tasks, implementing error handling can quickly bloat the code when using try/catch blocks and stuff like Choice receivers on
PortSet<ActualResult, Exception> for every little task.
Thankfully the CCR seems to offer a mechanism to handle exceptions in a more general way for a graph of tasks: causalities. A typical example looks like this:
Port<Exception> exceptionPort = new Port<Exception>(); Dispatcher.AddCausality(new Causality("some job", exceptionPort)); Arbiter.Activate( dispatcherQueue, Arbiter.Receive(false, exceptionPort, ex => Console.WriteLine(ex))); // now schedule the real tasks
In my case, I have a computing intensive application using the CCR to implement a scatter/gather scenario, splitting "jobs" into a bunch of parallelized tasks. (Besides that, more then one of these jobs can run at the same time.) In case that one task fails, I want to to stop all the remaining tasks in the job, but not any other job. (The results are of no use to me if I'm missing a piece of the puzzle, so continuing to work on this would be just a waste of CPU time.)
The question is what the best way would be to implement the stopping.
One idea would be:
- Create one single
Dispatcherinstance and keep it over application lifetime.
- Create a new
DispatcherQueuefor every "job" (a group of tasks). Add the
Causalityimmediately after creating the
- In the handler for the exception queue, call
- Before disposing the dispatcher queue, remove the causality.
I wonder if this suggestion can be regarded best practice, or if there is a better approach to deal with such a - probably fairly common - scenario.