In the Classical producer consumer problem. producer sleeps when
itemCount == BUFFER_SIZE amd wakes up again when it goes down. But once
itemCount grows up, producer thread is put to sleep. how can it know that
itemCount has gone down and it needs to
You need conditional variables.
A typical usage of conditional variable is this:
If your compiler supports
If your compiler doesn't support it, and you work with win32 threads, then see this:
And here is a complete example.
And if you work with POSIX threads, then see this:
You can see my implementation of
Scroll down and see it's implementation first, then see the usage in the concurrent queue implementation.
In pseudo-code the producer is something like:
so consider the queue push method (I've used pthreads here, but the same logic applies with other libraries)
and the pop method used by the consumer:
It does not need to know - the OS will wake it up when a consumers signals. In the P-C queue code, the producer will make a wait() call on some OS synchronization primitive. This call will not return until a consumer thread makes space and signals the OS synchro object, (unless your faulty OS 'supports' spurious wakeups), at which point the waiting producer thread will be made ready and, if there is an available core, run immedaitely - the wait() call will return.
Traditionally, P-C queues are constructed from a simple non-thread-safe queue, a mutex to protect its indexes/pointers and two semaphores - one initialized to 0 to count items in the queue and one initialized to [queue size] to count empty spaces. The producer waits on the 'emptySpace' and, when it gets a signal, locks the mutex, enqueues an object, locks the mutex and signals 'itemCount'. The consumer waits on 'itemCount' and, when it gets a signal, locks the mutex, dequeues an object, locks the mutex and signals 'emptySpace'.