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I'm trying to implement a sort of thread pool whereby I keep threads in a FIFO and process a bunch of images. Unfortunately, for some reason my cond_wait doesn't always wake even though it's been signaled.

        // Initialize the thread pool

            pthread_t *tmpthread = (pthread_t *) malloc(sizeof(pthread_t));

            struct Node* newNode;
            newNode=(struct Node *) malloc(sizeof(struct Node));
            newNode->Thread = tmpthread;
            newNode->Id = i;
            newNode->threadParams = 0;

            pthread_create( tmpthread, NULL, someprocess, (void*) newNode);
            push_back(newNode, &threadPool);


    for() //stuff here
            struct Node *tmpNode = pop_front(&threadPool);

        if(tmpNode != 0)
                pthread_cond_signal(&(tmpNode->cond)); // Not starting mutex sometimes? 

 //loop through and signal all the threads again so they can exit. 
 //pthread_join here


    void *someprocess(void* threadarg)
                pthread_cond_wait(&(threadNode->cond), &(threadNode->mutx));
                // Doesn't always seem to resume here after signalled.
        } while(!destroy_threads);


Am I missing something? It works about half of the time, so I would assume that I have a race somewhere, but the only thing I can think of is that I'm screwing up the mutexes? I read something about not signalling before locking or something, but I don't really understand what's going on.

Any suggestions?


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2 Answers 2

up vote 3 down vote accepted

Firstly, your example shows you locking the queueMutex around the call to pop_front, but not round push_back. Typically you would need to lock round both, unless you can guarantee that all the pushes happen-before all the pops.

Secondly, your call to pthread_cond_wait doesn't seem to have an associated predicate. Typical usage of condition variables is:


In this example, ready is some variable that is set by another thread whilst that thread holds a lock on mtx.

If the waiting thread is not blocked in the pthread_cond_wait when pthread_cond_signal is called then the signal will be ignored. The associated ready variable allows you to handle this scenario, and also allows you to handle so-called spurious wake-ups where the call to pthread_cond_wait returns without a corresponding call to pthread_cond_signal from another thread.

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Unfortunately, 'pthread_cond_wait' is confusingly named. It is not a conditional wait, it is an UNconditional wait for a condition. You must not call it if you do not need to wait. –  David Schwartz Aug 27 '11 at 11:35
Yes; that is yet another reason why you need the ready variable, or other associated predicate. –  Anthony Williams Aug 30 '11 at 9:01

I'm not sure, but I think you don't have to (you must not) lock the mutex in the thread pool before calling pthread_cond_signal(&(tmpNode->cond)); , otherwise, the thread which is woken up won't be able to lock the mutex as part of pthread_cond_wait(&(threadNode->cond), &(threadNode->mutx)); operation.

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Thanks, but it still causes the same problem unfortunately :( –  Jordan Feb 14 '11 at 16:46
Sure it will. It will lock the mutex as soon as the mutex is released. You can hold the mutex as long as you need it so long as you release is eventually. –  David Schwartz Sep 17 '11 at 7:22

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