As Anders wrote, conditional wait is the solution. In the POSIX Thread API you use pthread_cond_wait together with a mutex. It is quite easy, the following pattern works:
int ready_flag = 0;
pthread_mutex_t ready_mutex = PTHREAD_MUTEX_INITIALIZER;
pthread_cond_t ready_cond = PTHREAD_COND_INITIALIZER;
void set_ready(int ready)
ready_flag = ready;
// or using pthread_cond_broadcast(&ready_cond);
The difference between pthread_cond_signal and pthread_cond_broadcast is that if more than one thread waits for the flag to be set, pthread_cond_signal only releases one thread but broadcast releases all threads.
Not that the while loop created around your condition is up to you, you can test multiple conditions or do whatever you want. The code pattern ensures that your tests are performed on protected variables so that race conditions can never cause problems for example
while(resource_a_busy && resource_b_busy) ...
Is a typical problem where both resource states must be protected by a mutex.
The cond_wait can be removed from the loop, but then it would translate the wait_ready to a polling loop which consumes CPU, the pthread_wait_cond does not consume any CPU.
There are porting libraries that provides a Win32 like API on top of pthreads as well as libraries that gives a phread like API on top of Win32 event API, the later is called Pthreads-w32