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Consider the following code, which takes place in a background thread ("thread B"):

List<T> invocationQueueCopy;
lock (invocationQueue)
    invocationQueueCopy = invocationQueue;
    invocationQueue = new List<T>();

In another thread ("thread A") I simply lock "invocationQueue" before adding to it:

lock (invocationQueue)

I have read that reference assignment is atomic, but could it ever occur that "thread A" will end up writing to the old list (the one replaced in "thread B") after receiving the lock? I have read other answers that imply it could, if the value of the reference were stored in a register on "thread A" then it would not know that "thread B" had modified the value in the class. If this is so, would declaring "invocationQueue" volatile prevent this?


  • I know I could clone then clear the list.
  • I know I could have a separate lock object for the list.

But I'd rather not do either of these things unless it is required.

Thanks in advance.


Just to clarify from Adam's comments: invocationQueue is a private field which is created internally to this class and never exposed to the outside world so nothing could lock on it except these two methods.

share|improve this question
the code is quite bad, you need a separate (non-modifiable, read-only) object to serve as monitor and lock() on it, not the queue itself. – bestsss Jul 9 '11 at 11:42
+1 to bestsss, but it also looks like you should be using a real queue such as Queue<T> rather than trying to roll your own. you could also use ConcurrentQueue<T> but I usually prefer to do my own explicit thread synchronization to keep it to a minimum – Adam Ralph Jul 9 '11 at 11:55
@best, that is slightly exaggerated. As long as invocationQueue is private there is no practical difference. Just a theoretical argument that a future version of List<> could start doing lock(this). Very unlikely. – Henk Holterman Jul 9 '11 at 11:56
@Henk, what do you mean? you can't guard an object reference via the reference itself, private or not. it's one of the common mistakes to put the lock into the object it guards. – bestsss Jul 9 '11 at 11:58
@Henk: agreed that the initial comment is slightly exaggerated. However, @OP - I think it's usually worth having explicit lock objects, e.g. at some point even a private List<T> may be assigned from an argument constructor and then who knows which code may have a reference to it? Also with explicit lock objects it's easier to express an intended locking context by the name of the variable which may be useful in some cases. – Adam Ralph Jul 9 '11 at 12:00
up vote 4 down vote accepted

EDIT: Your solution will work. Lock creates a full fence so any caching is prevented, basically meaning you'll always get the most recent value for the list reference. The only thing, as suggested in the comments is the fact that you should do the locking on a neutral object, not the list itself.

The following is wrong!! But I let it here anyway to show how fu*** hard threading might be... the fact is the following reasoning is defeated by the fact that lock creates a full fence.

Yeah, it can happen so don't do it that way.

It won't get better even if you did the lock into a readonly whatever object.

See what might happen (although most of the time it WON'T happen).

ThreadA and ThreadB are executing on different processors, each one with its own cache memory which holds the reference to incovationQueue.

  • ThreadB locks invocationQueue, the lock is done to a reference which is taken for the cache of processor1, not to a variable name.
  • ThreadB copies the invocationQueue.
  • ThreadA locks invocationQueue, the lock is done to a reference which is taken for the cache on processor2 and which, in this moment is the same as the one in processor1, and starts waiting.
  • ThreadB creates a new List and assigns it to the invocationQueue, the cache in the processor1 is updated but since the variable is NOT volatile that's all that happens.
  • ThreadA enters the lock and gets the reference from his cache, which points to the old reference, therefore you end up adding the variable to the old list.

So you need to make the list volatile AND use the lock if you're going to be playing with the reference itself.

share|improve this answer
Yes, +1 for needing to do both things the OP wanted to avoid. And it still looks flaky, queued items are being discarded. They better not be important. – Henk Holterman Jul 9 '11 at 12:10
@Jorge I want to make sure I understand your answer before I mark it. Are you saying my code would be fine (and not lose any items) as long as I replaced lock (invocationQueue) with lock (specialLockObject) ? – OlduwanSteve Jul 9 '11 at 12:33
Yeah, that's exactly what I'm saying :) The thing is the lock will establish a full memory barrier, so threadA is guaranteed to get the most actual value of the invocationQueue anyway. – Jorge Córdoba Jul 9 '11 at 12:44

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