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I'm programming in C++, but I'm only using pthread.h, no boost or C++11 threads.

So I'm trying to use threads but based on one of my previous questions (link), this doesn't seem feasible since threads terminate right after completion of its task, and one of the more prevalent reasons to use a thread-pool implementation is to reduce thread-creation overhead by reusing these threads for multiple tasks.

So is the only other way to implement this in C to use fork(), and create a pipe from the main to child processes? Or is there a way to set up a pipe between threads and their parent that I don't know about?

Many thanks in advance!

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Hiding thread creation and having a queue of jobs (function + object) with some wake-up event should do it. Are you looking for some specific behavior? –  Dmitry Shkuropatsky May 4 '12 at 15:47
2  
Decide whether you want a C or C++ solutions. Whether the underlying library is pthreads (i.e. C only) is much less important than the language for which you want to provide the thread pool. –  David Rodríguez - dribeas May 4 '12 at 15:51
    
.. and then choose C++ –  Martin James May 4 '12 at 15:53
    
If you want C++ then TBB is a great choice. –  user7116 May 4 '12 at 15:54
    

6 Answers 6

up vote 5 down vote accepted

Yes, you can create a thread-safe queue between the threads. Then the threads in the pool will sit in a loop retrieving an item from the queue, executing whatever it needs, then going back and getting another.

That's generally a bit easier/simpler in C++ because it's a little easier to agree on some of the interface (e.g., overload operator() to execute the code for a task), but at a fundamental level you can do all the same things in C (e.g., each task struct you put in the queue will contain a pointer to a function to carry out the work for that task).

In your case, since you are using C++, it's probably easier to use an overload of operator() to do the work though. The rest of the task struct (or whatever you choose to call it) will contain any data needed, etc.

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So ideally, the queue would need to be thread safe and use a semaphore with a max val of the max number of threads that I'm going to spawn, right? This implementation seems a bit dirty...I never feel right setting data/containers "out in plain sight", not encapsulated by a class. That's why I asked about a master-child_thread pipe implementation –  K-RAN May 4 '12 at 20:50
    
Is the overhead of having a parent-child_PROCESS pipe worth data encapsulation? –  K-RAN May 4 '12 at 20:53
    
@K-RAN: The one I linked (scroll down to the "final code") is encapsulated in a class. –  Jerry Coffin May 4 '12 at 21:15
    
oh dur. Thank you! –  K-RAN May 5 '12 at 5:11

'doesn't seem feasible since threads terminate right after completion of its task' what??

for(;;){
  Task *myTask=theCommonProducerConsumerQueue->pop();
  myTask->run();
}

.. never return anything, in fact, never return.

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I never thought about that prior to this post, nor did I know about pthread sleep methods; my understanding of threads before this was that they're one-shot things. –  K-RAN May 4 '12 at 21:03

From the POSIX standard:

int pthread_create(pthread_t *restrict thread,
   const pthread_attr_t *restrict attr,
   void *(*start_routine)(void*), void *restrict arg);

(...) The thread is created executing start_routine with arg as its sole argument.

So, you should create a bunch of threads with this function, and have them all execute a function that goes something like

void *consumer(void *arg)
{
    WorkQueue *queue = static_cast<WorkQueue *>(arg);

    for (task in queue) {
        if (task == STOP_WORKING)
            break;
        do work;
    }
    return WHATEVER;
}

(At the end of input, push n STOP_WORKING items to the queue where n is the number of threads.)

Mind you, pthreads is a very low-level API that offers very little type-safety (all data is passed as void pointers). If you're trying to parallelize CPU-intensive tasks, you might want to look at OpenMP instead.

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You may find it helpful to look at the source code for libdispatch, which is the basis for Apple's Grand Central Dispatch and uses thread pools.

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1  
Whoa, interesting. Thanks! –  K-RAN May 4 '12 at 20:54

I would suggest using Threaded Building Blocks from Intel to accomplish work-queue/threadpool like tasks. A fairly contrived example using TBB 3.0:

class PoorExampleTask : public tbb::task {
    PoorExampleTask(int foo, tbb::concurrent_queue<float>& results)
    : _bar(foo), _results(results)
    { }

    tbb::task* execute() {
        _results.push(pow(2.0, foo));
        return NULL;
    }

private:
    int _bar;
    tbb::concurrent_queue<float>& _results;
}

Used later on like so:

tbb::concurrent_queue<float> powers;
for (int ww = 0; ww < LotsOfWork; ++ww) {
    PoorExampleTask* tt
        = new (tbb::task::allocate_root()) PoorExampleTask(ww, powers);
    tbb::task::enqueue(*tt);
}
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http://people.clarkson.edu/~jmatthew/cs644.archive/cs644.fa2001/proj/locksmith/code/ExampleTest/threadpool.c

I used google a couple months ago, you should try it.

Edit: it seems maybe you want a group instead. I was able to create one with some minor alteration of the above so that the worker didn't perform work, but just joined threads.

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Do you have any idea how to integrate this threadpool to event library like libevent. It seems to have own infinite loop that waits for task for thread. –  Pritesh Acharya May 13 '13 at 5:58

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