Generally speaking, pthread_cond_wait() and pthread_cond_signal() are called as below:

//thread 1:
pthread_cond_wait(&cond, &mutex);

//thread 2:

The steps are

  1. pthread_cond_wait(&cond, &mutex); is called, it unlocks the mutex

  2. Thread 2 locks the mutex and calls pthread_cond_signal(), which unlocks the mutex

  3. In thread 1, pthread_cond_wait() is called and locks the mutex again

Now in thread 2, after pthread_cond_signal() is called, pthread_mutex_unlock(&mutex) is going to run, it seems to me that it wants to unlock a the mutex which is now locked by thread 1. Is there anything wrong in my understanding?

Besides, it also seems to me that pthread_cond_wait() can be called by only 1 thread for the same cond-mutex pair. But there is a saying "The pthread_cond_signal() function shall unblock at least one of the threads that are blocked on the specified condition variable cond (if any threads are blocked on cond)." So, it means pthread_cond_wait() can be called by many threads for the same cond-mutex pair?

up vote 63 down vote accepted

pthread_cond_signal does not unlock the mutex (it can't as it has no reference to the mutex, so how could it know what to unlock?) In fact, the signal need not have any connection to the mutex; the signalling thread does not need to hold the mutex, though for most algorithms based on condition variables it will.

pthread_cond_wait unlocks the mutex just before it sleeps (as you note), but then it reaquires the mutex (which may require waiting) when it is signalled, before it wakes up. So if the signalling thread holds the mutex (the usual case), the waiting thread will not proceed until the signalling thread also unlocks the mutex.

The common use of condition vars is something like:

thread 1:
    while (!condition)
        pthread_cond_wait(&cond, &mutex);
    /* do something that requires holding the mutex and condition is true */

    /* do something that might make condition true */

The two threads have some shared data structure that the mutex is protecting access to. The first thread wants to wait until some condition is true then immediately do some operation (with no race condition opportunity for some other thread to come in between the condition check and action and make the condition false.) The second thread is doing something that might make the condition true, so it needs to wake up anyone that might be waiting for it.

  • you see steps: (1) thread 2 locks mutext (2) in thread 2, pthread_cond_signal is called (3) in thread 1,pthread_cond_wait is signaled, it needs to reacquire the mutext, but now it is locked by steps (1), is it right? – user1944267 May 13 '13 at 14:32
  • 5
    @user1944267: thread 1 won't be able to reaquire the lock (and continue) until thread 2 calls pthread_mutex_unlock. But since that happens immediately after the call the pthread_cond_signal returns, there will be very little delay. – Chris Dodd May 13 '13 at 23:32
  • 1
    @ChrisDodd, Just one question here in thread 1, just before while loop, i think that we should "do something that trigger thread2" because if thread is triggerer before thread 1 execute pthread_wait_cond the signal is lost and thread 1 will be in an infinite wait – Mouin Jan 14 '17 at 8:41
  • @Mouin: In that case the condition will be true and thread 1 will not wait. The idea is that 'condition' and the action after it is something that cannot be checked and done atomically (some complex condition and/or action), so using the mutex and condition var makes it effectively atomic -- as long as noone does anything that affects the condition without holding the lock. – Chris Dodd Jan 14 '17 at 19:06
  • @ChrisDodd, thx for the feedback "In that case the condition will be true and thread 1 will not wait": by triggering thread 2 i don't mean set condition true. In my opinion thread 1 has to tell thread 2 just after locking the mutex : "go ahead do your check and set condition to true", at that point thread 2 will try to set condition but get blocked on the mutex only when thread 1 execute pthread_cond_wait that it get the mutex. but in the above code we cannot guarantee that thread 2 will call pthread_cond_signal after thread1 execute it's wait. – Mouin Jan 14 '17 at 19:43

Here is a typical example: thread 1 is waiting for a condition, which may be fulfilled by thread 2.

We use one mutex and one condition.

pthread_mutex_t mutex;
pthread_cond_t condition;

thread 1 :

pthread_mutex_lock(&mutex); //mutex lock
    pthread_cond_wait(&condition, &mutex); //wait for the condition

/* do what you want */


thread 2:


/* do something that may fulfill the condition */

pthread_cond_signal(&condition); //wake up thread 1


As you can see in the pthread_cond_wait manual:

It atomically releases mutex and causes the calling thread to block on the condition variable cond; atomically here means "atomically with respect to access by another thread to the mutex and then the condition variable".

  • you see steps: (1) thread 2 locks mutext (2) in thread 2, pthread_cond_signal is called (3) in thread 1,pthread_cond_wait is signaled, it needs to reacquire the mutext, but now it is locked by steps (1), is it right? – user1944267 May 13 '13 at 15:16
  • hi, is there anything not clear about my comments? thanks – user1944267 May 13 '13 at 17:04
  • The trick is, in thread 1, pthread_cond_wait temporarily releases the mutex. – Ludzu May 14 '13 at 6:43
  • 1) TH1 locks the mutex 2) TH1 unlocks the mutex (with pthread_cond) 3) TH2 locks the mutex 4) TH2 unlocks the mutex and sends the signal 5) TH1 gets the mutex back 6) TH1 unlocks the mutex – Ludzu May 14 '13 at 6:50
  • in thread2, pthread_cond_signal can also be signalled while the mutex is locked. – Viren May 10 '14 at 4:04

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