25

Is it because coroutines may be preempted in the future? Or it allows people to use yield from in critical section (which IMO shouldn't be encouraged)?

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    It's a lock, not sure what it has to do with preemption, when you try to acquire a lock you specifically yield control in hopes it'll be given back to you with you holding the lock. It is in order to have a critical section one coroutine can enter at a time. It's all in the docs. – Benjamin Gruenbaum Sep 12 '14 at 1:58
  • I don't think you either read the official docs carefully or understand the question. – user3761759 Sep 12 '14 at 6:24
50

You use it for the same reason you'd use a lock in threaded code: to protect a critical section. asyncio is primarily meant for use in single-threaded code, but there is still concurrent execution happening (any time you hit a yield from or await), which means sometimes you need synchronization.

For example, consider a function that fetches some data from a web server, and then caches the results:

async def get_stuff(url):
    if url in cache:
        return cache[url]
    stuff = await aiohttp.request('GET', url)
    cache[url] = stuff
    return stuff

Now assume that you've got multiple co-routines running concurrently that might potentially need to use the return value of get_stuff:

async def parse_stuff():
    stuff = await get_stuff()
    # do some parsing

async def use_stuff():
    stuff = await get_stuff()
    # use stuff to do something interesting

async def do_work():
     out = await aiohttp.request("www.awebsite.com")
     # do some work with out


loop = asyncio.get_event_loop()
loop.run_until_complete(asyncio.gather(
    parse_stuff(),
    use_stuff(),
    do_work(),
))

Now, pretend that fetching data from url is slow. If both parse_stuff and use_stuff run concurrently, each will be hit with the full cost of going over the network to fetch stuff. If you protect the method with a lock, you avoid this:

stuff_lock = asyncio.Lock()

async def get_stuff(url):
    async with stuff_lock:
        if url in cache:
            return cache[url]
        stuff = await aiohttp.request('GET', url)
        cache[url] = stuff
        return stuff

One other thing to note is that while one coroutine is inside get_stuff, making the aiohttp call, and another waits on stuff_lock, a third coroutine that doesn't need to call get_stuff at all can also be running, without being affected by the coroutine blocking on the Lock.

Obviously this example is a little bit contrived, but hopefully it gives you an idea of why asyncio.Lock can useful; it allows you to protect a critical section, without blocking other coroutines from running which don't need access to that critical section.

| improve this answer | |
  • 6
    Thanks for the detailed explanation. Let's me summarize it (for people who don't understand the question). 1) coroutines can't be preempted - they run until "yield from" returns the control back to the loop. 2) asyncio.Lock() is used to protect critical sections that call "yield from" - there is no need to use the lock otherwise. The discussion is under assumption of single-threaded asyncio usage mode. – user3761759 Sep 12 '14 at 6:41
  • As a good example as dano gave, I have to repeat what I said in the question - I personally don't like the idea of using "yield from" in critical section. It sounds irrelevant but I have to say it. – user3761759 Sep 12 '14 at 6:59
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    dano - In this particular example (keeping in mind that it is indeed contrived), wouldn't you get equivalent performance if you just removed the yield from and made a blocking HTTP request? Because with the locking as it is, only 1 instance of get_stuff() will ever be in progress. (As in, instance B can only start when instance A has fully completed.) – Nick Chammas Apr 8 '15 at 3:37
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    @NickChammas If the only coroutines running in the entire application are waiting on get_stuff, then the performance would be equivalent. But if you've got other coroutines running other methods that don't need the lock, then no; a blocking HTTP request would block all those other coroutines, completely halting your application until it completes. Using an asyncio.Lock allows all those other coroutines to continue to run. – dano Apr 8 '15 at 3:41
  • 1
    @SamanthaAtkins they can't run in parallel, but they can run concurrently. Again my answer gives a use-case where concurrent execution without locking causes unintended behavior. – dano Dec 19 '17 at 16:49

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