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I want to use boost::timed_wait to wait for an event or to timeout after 5 seconds. My problem is that my timed_wait only accepts the notification for the first time.

To be more precise:

I have some kind of little state machine. It does nothing more than just dispatch some Command asynchronously and then check if it was successfully. This means after dispatching the command my state machine calls m_Condition.timed_wait(lock,timeout). (m_Condition is a member variable with the type boost::condition_variable ).

Now if this asynchronous call was successfull it shall call a callback function which notifies m_Condition so I know everything went OK. When the command failed it doesn't call the callback function and so my timed_wait should time out. So the callback function does nothing more and nothing less than calling m_Condition.notify_all().

The problem is that this only works the first time. This means, after the first time notify_all() has been called it doesn't work with that condition variable again. I checked at my callback and it always calls notify_all() again but the timed_wait just times out.

Maybe some example code to make it a bit clearer:


class myClass_A
    void runStateMachine();                 // Starts the state machine
    void callbackEvent();                   // Gets called when Async Command was successful
    void stateMachine();                    // Contains the state machine
    void dispatchAsyncCommand();            // Dispatches an Asynchronous command
    boost::thread m_Thread;                 // Thread for the state machine
    boost::condition_variable m_Condition;  // Condition variable for timed_wait
    boost::mutex m_Mutex;                   // Mutex


void myClass_A::runStateMachine()
     m_Thread = boost::thread(boost::bind(&myClass_A,this));
void myClass_A::dispatchAsyncCommand()
     /* Dispatch some command Async and then return */
     /* The dispatched Command will call callbackEvent() when done */
void myClass_A::stateMachine()
    boost::mutex::scoped_lock lock(m_Mutex);
        if(!m_Condition.timed_wait(lock, boost::posix_time::milliseconds(5000)))
            // Timeout
            // Event
void myClass_A::callbackEvent()
    boost::mutex::scoped_lock lock(m_Mutex);

So what can I do now? Is it not possible to use the condition_variable multiple times? Or do I need to reset it somehow? Any suggestions are welcome!

share|improve this question
Not an answer, because I'm not sure what is going on in your code, but condition variables are not just signals, they should be used to signal a change in a shared condition. See this example:… – stefaanv Mar 28 '12 at 11:12
In your code, the condition could be a busy flag, so stateMachine could have "busy = true; while (busy && ! rc) { rc = m_Condition.timed_wait(...); }" – stefaanv Mar 28 '12 at 11:16
@stefaanv Thanks for your suggestions. I read that article you posted and okay, maybe I am using the timed_wait not for usual intended purpose, but still it should do the deal. Actually the implementation they used there is quite the same as mine. To your second comment: What should that busy flag do? I mean my problem is that my timed_wait only returns with a timeout and a return value of false after the first call. I can call notify_all() all I want .. doesn't change anything :/ – Toby Mar 28 '12 at 11:22
actually, I don't see where it could fail in your code because notify_all can only be called when the mutex is locked which means that the other thread is in timed_wait, but still, it's not that difficult to include the busy flag and see (the doc's mention that you better pass the predicate when doing a relative timed_wait) – stefaanv Mar 28 '12 at 11:39
If however in your while(true) loop, you unlock the mutex, then the notify_all could be called before the thread is in timed_wait. – stefaanv Mar 28 '12 at 11:42

No, you do not have to reset the condition variable, and yes it works multiple times.

I believe what you are seeing is a deadlock, rather than failure when waiting the second time on m_condition. When you call timed_wait() in stateMachine() your mutex will be unlocked, and it is re-locked when timed_wait() returns. I'm guessing that in the missing code which follows the wait you are calling callbackEvent(). That method attempts to lock the mutex, but it cannot because (a) it is already locked in the caller (stateMachine()) and (b) boost::mutex isn't re-entrant. You could try using e.g. recursive_mutex instead.

share|improve this answer
I thought so too, but the code ( which I omitted -> Timeout or Event ) is not very much. So if I play this through it would go like this: 1. timed_wait returns ( first time ) 2. "Event" Code is executed. 3. Next Command is dispatched 4. timed_wait unlocks the mutex 5. Callback can be executed Besides - I checked with the debugger - my code actually executes the notify_all multiple times – Toby Mar 28 '12 at 11:07
up vote 0 down vote accepted

Okay, not the brightest hour for me I actually solved the problem. The above posted code is compiling and works as intended. The actual problem lied within the handling of Event or Timeout. Since the stuff that happened there is absolutely unrelated to the timed_wait I guess I don't need to explain it here. So this question can be closed.


Of course the above code won't work since the lack of a dispatch method. Just for the sake of it I am gonna mention it here: For testing purposes I just create an Object of myClass_A in my main function, start the state machine and then call the callbackEvent from my main function. This actually works!

share|improve this answer
Well, the above posted code can't work as intended, because there is no dispatch and no callback, but your problem is solved, so that is the most important. – stefaanv Mar 28 '12 at 15:13
Okay made a little update – Toby Mar 29 '12 at 9:23

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