I have four threads which has its own private queue and a private'int
*count' member, whenever a task is produced from the program thread, i*t
should be enqueued to a thread's queue which has minimum 'int count'
*among the threads.*
whenever a task is pushed into the queue, the private 'int count'
*should be increased by 1 whenever a task is popped out of the queue,*
the private 'int count' should be decreased by 1
Ok, so Basically your program thread is the producer and you have 4 consumer threads. By using a queue in each thread you will be minimizing the time spent by the main thread interacting with the consumers. N.B. You need to consider whether your threads are going to be starved / or overflow - I.E. if the single producer will create "work" at a rate that warrants 4 consumers, or if 4 consumers will be swamped.
So you need to synchronize the queue access / increment meaning that you need a
mutex to stop the consumer accessing anything while the
queue are modified. The easiest way is to do the synchronization would be to have a method (E.G.
enqueue(Item& item) ) which locks the
mutex within it.
C++11 : Mutex http://en.cppreference.com/w/cpp/thread/mutex
Additionally if starvation is an issue (or overflow) you will need to use some signalling to stop the relevant threads activity (Starved - stop consumers to avoid CPU usage, Overflow - stop producer while consumers catch up). Usually these signals are implemented using condition variables.
C++11 : Condition variables : http://en.cppreference.com/w/cpp/thread/condition_variable
so, the 'int count' is dynamically changing regarding to tasks
*push,pop operation and the program thread will dispatch the task t*o
the queue with the lowest, (or first zero found), count.
So the situation is slightly complicated here, in that the threads that you want to populate will be the ones with the least work to do. This requires that you inspect the 4
counts and choose the queue. However because there is only one producer you can probably just scan for the queue without locking. The logic here is that the consumers will not be affected by the read, and the choice of thread would not really be incorrect even with the consumers working during that choice.
So I would have an array of thread objects, each of which would have the count, and a mutex for locking.
1.Initializing all private int queue counter =0
Initialize the counts in the constructors - make sure that the producer isn't working during initialization and synchronization won't be an issue.
2.counter++ when task are pushed,
*3.counter-- when tasks are popped,*
Implement 2 methods on the thread object to do the enqueing / dequeuing and in each use a lock_guard to lock the mutex (RAII technique). Then push/pop item to/from the queue and increment/decrement as applicable.
C++11: lock_guard http://en.cppreference.com/w/cpp/thread/lock_guard
4.Task disptacher sees the private int count of each thread.
*5.Dispatches tasks to queue which has minimum count*
As I said above if there is only one you can simply scan through the array of objects and choose (maintain an index to) the thread object where the counter (add a
getCount() method)is the lowest. It will most likely be the lowest even with the consumers continuing their work.
If there are multiple threads producing work then you might need to think about how you want to handle the 2 threads enquing to the same thread (It might not matter)