As it is said that Mutex are needed to protect the Condition Variables.
Is the reference here to the actual condition variable declared as
A normal shared variable
count whose values decide the signaling and wait.
The reference is to both.
The mutex makes it so that the shared variable (
The problem being solved with the mutex is that you have two separate operations that need to be atomic:
The mutex (as long as all threads are following the rules) makes it so that item #2 cannot occur between items 1 and 3. The only way that thread "B" will get a chance to increment
I thought that a better use-case might help better explain conditional variables and their associated mutex.
I use posix conditional variables to implement what is called a Barrier Sync. Basically, I use it in an app where I have 15 (data plane) threads that all do the same thing, and I want them all to wait until all data planes have completed their initialization. Once they have all finished their (internal) data plane initialization, then they can start processing data.
Here is the code. Notice I copied the algorithm from Boost since I couldnt use templates in this particular application:
Notice that every thread that enters the
So to summarize all of this, the mutex associated with the Conditional Variable is not used to protect the Conditional Variable itself, but rather it is used to make the logic associated with the condition (
Here is another resource related to
A condition variable must always be associated with a mutex, to avoid the race condition where a thread prepares to wait on a condition variable and another thread signals the condition just before the first thread actually waits on it.
More info here
Thread 1 (Waits for the condition)
Thread 2 (Signals the condition)
As you can see in the same above, the mutex protects the variable 'i' which is the cause of the condition. When we see that the condition is not met, we go into a condition wait, which implicitly releases the mutex and thereby allowing the thread doing the signalling to acquire the mutex and work on 'i' and avoid race condition.
Now, as per your question, if the signalling thread signals first, it should have acquired the mutex before doing so, else the first thread might simply check the condition and see that it is not being met and might go for condition wait and since the second thread has already signalled it, no one will signal it there after and the first thread will keep waiting forever.So, in this sense, the mutex is for both the condition & the conditional variable.