I'm wondering if it's possible to lock multiple mutexes at the same time, like:

          // Code locked by mutex 1 and 2.

     // Code locked by mutex 1.

It would be very useful for some situations. Thanks.

  • 2
    Yes, it's possible. Just be careful, doing so without the proper diligence can easily lead to deadlocks. – Michael Burr Nov 20 '12 at 23:09

It is possible but the order of locking must be consistent throughout the application otherwise deadlock is a likely result (if two threads acquire the locks in opposite order then each thread could be waiting on the other to release one of the locks).

Recommend using a scoped lock and unlock facility for exception safety, to ensure locks are always released (std::lock_guard with std::mutex for example):

std::mutex mtx1;
std::mutex mtx2;

std::lock_guard<std::mutex> mtx1_lock(mtx1);
    std::lock_guard<std::mutex> mtx2_lock(mtx2);

If your compiler does not support these C++11 features boost has similar in boost::mutex and boost::lock_guard.

  • I'm using pthreads, is it possible to protect my program from deadlocks without using c++11? I'm using pthread_mutex_lock and unlock inside the .Lock() and .Unlock() functions. – grimgrom Nov 20 '12 at 23:27
  • @grimgrom, yes it is. The lock_guard is mentioned as it makes exception safety much simpler to achieve but it is not required to avoid deadlocks. To avoid deadlocks ensure the locks are always acquired in the same order and always released, regardless of how the code following the lock acquisition exits. – hmjd Nov 20 '12 at 23:29
  • @grimgrom, note you could easily write your own Lock_guard class for your Mutex class. Just Lock() in the constructor and Unlock() in the destructor. Just be sure that Lock_guard stores a reference to the Mutex instance and does not copy it. – hmjd Nov 20 '12 at 23:33
  • How come there would be any difference if I use an additional class called Lock_guard instead of just using my Mutex class. I mean, I'm just calling Lock/Unlock in both cases? – grimgrom Nov 20 '12 at 23:37
  • It makes handling exceptions simpler, that's all. – hmjd Nov 20 '12 at 23:52

std::lock seems to exist for this purpose.

Locks the given Lockable objects lock1, lock2, ..., lockn using a deadlock avoidance algorithm to avoid deadlock. The objects are locked by an unspecified series of calls to lock, try_lock, unlock. If a call to lock or unlock results in an exception, unlock is called for any locked objects before rethrowing.



C++17 also provides scoped_lock for the specific purpose of locking multiple mutexes that prevents deadlock in a RAII style, similar to lock_guard.


std::mutex mtx1, mtx2;
void foo()
    std::scoped_lock lck{mtx1, mtx2};
    // proceed
  • Unfortunately current gcc v5.4 which is default in ubuntu has no support for std::scoped_lock yet. Boost analog could be used though. – mc.dev Mar 23 '18 at 21:40
  • this answer HAS to be the accepted one and not the primitive implementation above because of error proneness operation of the other – newhouse Jun 26 at 6:26

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