According to Thread synchronisation mechanisms in Python, reading a single item from a list and modifying a list in place are guaranteed to be atomic. If this is right (although it seems to be partially contradicted by the very existence of the Queue module), then if your code is all of the form:
val = mylist.pop()
# wait for a while or exit
# process val
And everything put into
mylist is done by
.append(), then your code is already threadsafe. If you don't trust that one document on that score, use a queue.queue, which does all synchronisation for you, and has a better API than
list for concurrent programs - particularly, it gives you the option of blocking indefinitely, or for a timeout, waiting for
.pop() to work if you don't have anything else the thread could be getting on with in the mean time.
For numpy arrays, and in general any case where you need more than a producer/consumer queue, use a
threading - these implement the context manager protocol, so using them is quite simple:
# Process as necessarry
And python will guarantee that the lock gets released once you fall off the end of the
with block - including in tricky cases like if something you do raises an exception.
Finally, consider whether
multiprocessing is a better fit for your application than
threading - threads in Python aren't guaranteed to actually run concurrently, and in CPython only can if the drop to C-level code.
multiprocessing gets around that issue, but may have some extra overhead - if you haven't already, you should read the docs to determine which one suits your needs better.