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I'm trying to make a list of solutions to implement the functionality of Python's threading.Event [1] in C.

Normally, when synchronization between threads is needed, the first mechanism to be used/explained is a Lock (aka mutex). The python's threading.Event class, is another mechanism for synchronization that can be used to atomically block threads until a particular condition is true.

With pthread I think this is possible to do this with condition variable attributes [2].

What about omp, is this possible? Based on what happens in python, I have written the following example with the fictional types Event and EventsQueue:

int nthreads;
Event *evt;
EventsQueue *queue;

#pragma omp parallel private(evt)
    #pragma omp single
        nthreads = omp_get_num_threads()-1;
    if (!omp_get_thread_num()) /*master thread*/
        while (nthreads)
            evt = events_queue_pop(queue);
    else                       /*other threads */
        evt = alloc_event();
        events_queue_append(queue, evt);
        /* each threads waits for master thread to set its event*/
        #pragma omp critical

As you can see, I can get a similar effect of Python's threading.Lock with #pragma omp critical (in the example I protect nthreads with it). The problem is threading.Event. I cant find anything like it for OpenMP.



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For what it's worth, I don't think OpenMP has any concept like events; you could certainly use locks (omp_lock_t) and explicitly spin-wait on them until they are unset, if that was good enough. – Jonathan Dursi Mar 27 '13 at 1:21
@JonathanDursi Yes, but that's not a good idea. Imagine a program like that running on a production server 24/7... the electricity bill would bankrupt everything lol – Funenga Mar 27 '13 at 1:27

1 Answer 1

NOTE: This solution is not correct. Look at the EDIT in the end of this answer.

Well... I think I've found how to do it. Looking at the source of Python's threading module, [1], it actually seems simple.

Its a matter of keeping a FIFO of reentrant locks (which in OpenMP is implemented as omp_nest_lock_t). Whenever a Event.wait([timeout]) is called, a new lock is appended to the FIFO and immediately acquired two times (the second time will block until the first is released!). Then, when Event.set() is called, all the locks in the FIFO are released and removed from it.

I hope this answer can be of some use to anyone who has this problem in the future.


EDIT: I've found an article that says that this solution is not correct and talks about this problem:


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