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I am using boost::thread_group to create(using thread_group::create_thread()) and dispatch threads. In order to limit the max thread numbers, at the end of each thread, I remove the thread from the thread_group and delete the thread itself(so that I could decide whether new threads need to be created). However it hangs somewhere between the creation and deletion of the last thread (say the 999th one of 999 in total).

My questions are:

  • is it OK to delete the thread from within itself like what I do? if not, what the best way to achieve this
  • why does my code hangs?

Below are the related code:

//1- code to create and dispatch thread

        //mutex for map<thread_id, thread*> operations 
        boost::mutex::scoped_lock lk(m_mutex_for_ptr); 

        // create a thread for this->f(duplicate_hashes) 
        boost::thread* p = m_thread_group.create_thread(boost::bind( 

        // save the <thread_id,thread pointer> map for later lookup & deletion 
        m_thread_ptrs.insert(make_pair(p->get_id(), p)); 

        // log to console for debug 
        cout << "thread created: " 
            << p->get_id() << ", " 
            << m_thread_group.size() << ", " m_thread_ptrs.size() << 

//2- code of the thread execution

void f(list<map_iterator_type>& l) 

//3- code to delete the thread itself

void remove_this_thread() 

        //mutex for map<thread_id, thread*> operations 
        boost::mutex::scoped_lock lk(m_mutex_for_ptr);                   
        boost::thread::id this_id(boost::this_thread::get_id()); 

        map<boost::thread::id, boost::thread*>::iterator itr; 

        itr = (m_thread_ptrs.find(this_id)); 

        if(m_thread_ptrs.end() != itr) 
            // remove it from the control of thread_group 
            // delete it 
            delete itr->second; 

            // remove from the map 

            // log to console for debug 
            cout << "thread erased: " 
                << this_id << ", " 
                << m_thread_group.size() << ", " 
                << m_thread_ptrs.size() << "\n";             
share|improve this question
If you run the program in the debugger, what is happening in the various threads when it hangs? –  David Norman Aug 19 '09 at 4:48
from procexp.exe, I can see all threads are in "Wait:UserRequest" state. I suspect some recursive locks happens between the thread_group internal lock and the outer lock I introduce(i.e. lk(m_mutex_for_ptr)), but not sure how. I was once lucky by commentting out this line " << m_thread_group.size() << ", " " in void remove_this_thread(), but could not reproduce that... –  t.g. Aug 19 '09 at 5:02
@Lightness Races in Orbit: Just call detach() on the thread and delete its object. This will make a thread release its resources automatically upon exit (see kernel.org/doc/man-pages/online/pages/man3/…). Otherwise it will either deadlock joining itself or become a zombie because nobody will join it when it exits. –  user405725 Feb 26 '12 at 5:07
@Vlad: No need to detach() if you delete the object. And I believe there are a whole bunch of potential deadlocks around (a) making the address of the object visible to the thread code (b) threads removing themselves when you also support join_all() operations from the main thread (which you must). Also, no OS was specified, so pthread-only guarantees are not sufficient. –  Lightness Races in Orbit Feb 26 '12 at 12:56
@LightnessRacesinOrbit: Well, right, just because OS was not specified, using abstract wacky wrappers becomes walking in the dark. "Deatch" supposed to detach the thread, make "join()" unnecessary and prevent from thread class from calling join from destructor, or whatever group wrapper is used. I guess you just have to check what the heck that implementation is doing. –  user405725 Feb 26 '12 at 13:01

1 Answer 1

up vote 4 down vote accepted

Why don't you try to recycle the threads, since creation/destruction is expensive?

Code a thread pool class and send tasks to it. The pool will either queue the tasks if it has no more available threads, create threads if current_threads < max_threads or just use what thread is available.

Suggested implementation:

Find out what your ideal thread count is. This is usually equal to the number of processors. Depending on how complicated you want this to be, you could create all the threads in the pool at once or add threads if current-thread-count < ideal-thread-count and all the existing threads are busy executing tasks.

Assuming that you are creating all your threads at once, you need to pass a worker function to each of the threads to execute. This worker function will wait for tasks to become available and then execute them. Because the function either executes a task or waits for it, it won't return and the thread won't be destroyed.

The thread pool can keep track of a task queue and manage a wait condition that indicates when there are tasks available in the queue. Each thread worker function waits on the wait condition and when there's a task available it wakes up and tries to do the task. You will have to do some synchronization; the easiest way would be to try and find an available thread pool implementation, like the one in Windows (Vista+ I think) or the one in QtConcurrent which would allow you to just pass the task, call run and let the OS/library worry about everything.

Later edit:

Check out http://threadpool.sourceforge.net/

share|improve this answer
Can you please elaborate how to recycle a thread? My experience is that the execution of a thread is passed with the ctor, and there's no way to change it and re-use this very thread object again. –  t.g. Aug 19 '09 at 14:42
Thanks for enlightening me, I've found Boost.Task and will try how much I can leverage with it. –  t.g. Aug 20 '09 at 2:49
Although you did not answer my question directly, you suggested a better way to have invalid my problems. So I accepted your reply as the answer. Thanks. –  t.g. Aug 26 '09 at 5:43
You're welcome :) –  rpg Aug 26 '09 at 8:13

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