I am working on an implementation of a very small library in Python that has to be non-blocking.
On some production code, at some point, a call to this library will be done and it needs to do its own work, in its most simple form it would be a callable that needs to pass some information to a service.
This "passing information to a service" is a non-intensive task, probably sending some data to an HTTP service or something similar. It also doesn't need to be concurrent or to share information, however it does need to terminate at some point, possibly with a timeout.
I have used the
threading module before and it seems the most appropriate thing to use, but the application where this library will be used is so big that I am worried of hitting the threading limit.
On local testing I was able to hit that limit at around ~2500 threads spawned.
There is a good possibility (given the size of the application) that I can hit that limit easily. It also makes me weary of using a Queue given the memory implications of placing tasks at a high rate in it.
I have also looked at
gevent but I couldn't see an example of being able to spawn something that would do some work and terminate without joining. The examples I went through where calling
.join() on a spawned
Greenlet or on an array of greenlets.
I don't need to know the result of the work being done! It just needs to fire off and try to talk to the HTTP service and die with a sensible timeout if it didn't.
Have I misinterpreted the guides/tutorials for
gevent ? Is there any other possibility to spawn a callable in fully non-blocking fashion that can't hit a ~2500 limit?
This is a simple example in Threading that does work as I would expect:
from threading import Thread class Synchronizer(Thread): def __init__(self, number): self.number = number Thread.__init__(self) def run(self): # Simulating some work import time time.sleep(5) print self.number for i in range(4000): # totally doesn't get past 2,500 sync = Synchronizer(i) sync.setDaemon(True) sync.start() print "spawned a thread, number %s" % i
And this is what I've tried with gevent, where it obviously blocks at the end to see what the workers did:
def task(pid): """ Some non-deterministic task """ gevent.sleep(1) print('Task', pid, 'done') for i in range(100): gevent.spawn(task, i)
My problem stemmed out from my lack of familiarity with
gevent. While the
Thread code was indeed spawning threads, it also prevented the script from terminating while it did some work.
gevent doesn't really do that in the code above, unless you add a
.join(). All I had to do to see the
gevent code do some work with the spawned greenlets was to make it a long running process. This definitely fixes my problem as the code that needs to spawn the greenlets is done within a framework that is a long running process in itself.