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I've been using boost::mutex::scoped_lock in this manner:

void ClassName::FunctionName()
     boost::mutex::scoped_lock scopedLock(mutex_);
     //do stuff
    while(waitBoolean == true ){
    //get on with the thread's activities

Basically it sets waitBoolean, and the other thread signals that it is done by setting waitBoolean to false;

This doesn't seem to work, however, because the other thread can't get a lock on mutex_ !!

I was assuming that by wrapping the scoped_lock in brackets I would be terminating its lock. This isn't the case? Reading online says that it only gives up the mutex when the destructor is called. Won't it be destroyed when it goes out of that local scope?

Signaling part of code:

   boost::mutex::scoped_lock scopedLock(mutex_);
   //Run some function that need to be done...


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The scoped_lock object is destroyed at your closing bracket and the mutex is released. Please, post the signaling part of the code. By the way, a boost::condition_variable is better for your needs – neuro Aug 10 '09 at 17:55
Well seeing your signaling code it can work in certain cases, but depends on the processing you do (your comments). If there is other synchro it is worse. A condition variable is the way to do that. I've posted code I use to do this sort of synchro. – neuro Aug 10 '09 at 18:19
The signaling thread's "work" does not lock anything else. It runs independently. – Alex Aug 10 '09 at 18:27
up vote 16 down vote accepted

The scoped_lock should indeed be released at the end of the scope. However you don't lock the waitBoolean when you're looping on it, suggesting you don't protect it properly other places as well - e.g. where it's set to false, and you'll end up with nasty race conditions.

I'd say you should use a boost::condition_variable to do this sort of things, instead of sleep + thread-unsafe checking.

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To synchronize two threads use a condition variable. That is the state of the art way to synchronize two threads the way you want :

Using boost, the waiting part is something like :

void BoostSynchronisationPoint::waitSynchronisation()
    boost::unique_lock<boost::mutex> lock(_mutex);

    _synchronisationSent = false;
        _condition.wait(lock); // unlock and wait

The notify part is something like :

void BoostSynchronisationPoint::sendSynchronisation()
        boost::lock_guard<boost::mutex> lock(_mutex);
        _synchronisationSent = true;


The business with _synchronisationSent is to avoid spurrious wakeups : see wikipedia

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Also I would suggest to mark as volatile that waitBoolean, however you have to use a condition or even better a barrier.

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