From your description what you want is a queue & a locking mechanism around that queue. The queue is a first in first out container, which means objects will be dequeued in the order they are enqueued, guaranteeing your update order constraint. As for the synchronization constraint, because you want to do the work inside of the lock, you'll need a lock at a higher level than your queue. Something like this should do the trick but needs to be used the correct way, as a LockingDequeu() without dispose will permanently lock the queue.
public class MyQueue<T>
{
private readonly Queue<T> internalQueue = new Queue<T>();
private readonly object queueLocker = new object();
public Enqueue(T data)
{
internalQueue(data);
}
public IDisposable LockingDequeue(out T data)
{
var queueLock = new QueueLock(queueLocker);
data = internalQueue.Dequeue();
return queueLock;
}
private class QueueLock :IDisposable
{
private readonly object lockObject;
public QueueLock(object lockObject)
{
this.lockObject = lockObject;
Monitor.Enter(lockObject);
}
public void Dispose()
{
Monitor.Exit(lockObject);
}
}
}
Understand that the LockingDequeue
call needs to be used within a using block. But the calling syntaxt would look like this:
var myQueue = new MyQueue<object>();
object obj;
using(myQueue.LockingDequeue(out obj))
{
//update date
//do some work
myQueue.Enqueue(obj);
}