I would like to ask whether it is OK to use 1 condition variable associated with 2 mutex, for 2 kind of data update.
Basically, I have thread1 and thread2. Thread1 could wait for 2 kinds of data update, so it got 2 mutex, one for each. (I know I could use one mutex for all these data, but this is not the point of this question, right?) And I certainly does not want it be waiting on data1 while data2 is already available, so it only got 1 condition variable. And thread2 would provide both data1 and data2. The problem is that in thread2, I don't know whether thread1 is now waiting for data1 or data2 or not waiting at all.
Pseudo code would look like below:
global data: cond_var mutex1 data1 mutex2 data2 thread1: while true lock1.lock(mutex1) if data1 is not available cond_var.wait(lock1) if data1 is available process data1 lock1.unlock() lock2.lock(mutex2) if data2 is not available cond_var.wait(lock2) if data2 is available process data2 lock2.unlock() thread2: func1: lock1.lock(mutex1) update data1 cond_var.notify_all() lock1.unlock() func2: lock2.lock(mutex2) update data2 cond_var.notify_all() lock2.unlock()
Outside world will call func1 or func2 to update the data. When func1 or func2 is called, it will signal cond_var, whether it is in lock1 or lock2. The wait of cond_var is not surrounded by while, so if cond_var is waked on lock1 but data2 is available, thread1 will go on to process data2.
The actual implementation is via boost::thread, and since the platform for my test is Linux, boost::thread should be implemented via pthread.
In almost all tutorial and documents I read about condition variable, it is associated with only 1 mutex. So I am curious to know whether the above program is OK to use, or is fundamentally flawed.