0

What is the actual difference between monitors and other synchronization primitives like mutexes, WinAPI events and critical sections? It looks for me that it's quite the same thing -- one thread at the time can lock the monitor, while other threads should wait for it to become free, much like in the case of events and critical sections.

So, what is the difference? Where am I wrong?

  • What do you mean by "monitors"? – Jonathan Potter Nov 11 '15 at 8:48
  • @Jonathan Potter en.wikipedia.org/wiki/Monitor_(synchronization) – FrozenHeart Nov 11 '15 at 8:51
  • It is the Swiss army knife of synchronization primitives. It trivially replaces Mutex but adds elegant solutions for, say, bounded producer/consumer that are hard to implement with mutants or semaphores. The winapi doesn't provide monitors, you'll have to use a condition variable or the concurrency runtime. – Hans Passant Nov 11 '15 at 10:46
  • Read the MSDN documentation: About Synchronization. It explains what the various primitives are and how they are used. – Remy Lebeau Nov 11 '15 at 17:25
0

All these synchronization primitives under Windows have similar operations(wait and signal), but slightly different behaviour of these operations. So primitives' usage is usually differs.

  1. Critical section has owner thread, so it can be released(signaled) only by the owner.

Also, unlike to other primitives, operations for critical section use pointer instead of HANDLE, so critical sections cannot be used by WaitForMultipleObjects and similar functions.

  1. Mutexes are very similar to critical sections, but they are identified by a HANDLE, so they can be waited for together with other objects (using WaitForMultipleObjects).

SignalObjectAndWait function can also be used for mutexes.

  1. Events support manually-reset mode, when successfull waiting on event doesn't reset it. So several waiters can bypass waiting for single event at the same time.

  2. Semaphores (WinAPI variant for monitors) allows usage limit above 1, that is code section protected by semaphore is no longer exclusive, like with critical section and mutexes.

Also, semaphores has no owner semantic, so they can be signalled by any thread. This feature is critical for some algorithms.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.