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from tornado import web, gen
import tornado, time

class CoroutineFactorialHandler(web.RequestHandler):
    @web.asynchronous
    @gen.coroutine
    def get(self, n, *args, **kwargs):
        n = int(n)
        def callbacker(iterator, callback):
            try:
                value = next(iterator)
            except StopIteration:
                value = StopIteration
            callback(value)

        def factorial(n):
            x = 1
            for i in range(1, n+1):
                x *= i
                yield

            yield x

        iterator = factorial(n)
        t = time.time()
        self.set_header("Content-Type", "text/plain")
        while True:
            response = yield gen.Task(callbacker, iterator)
            #log.debug("response: %r" %response)
            if response is StopIteration:
                break
            elif response:
                self.write("took : %f sec" %(time.time() - t))
                self.write("\n")
                self.write("f(%d) = %d" %(n, response))

        self.finish()

application = tornado.web.Application([
    (r"^/coroutine/factorial/(?P<n>\d+)", CoroutineFactorialHandler),
    #http://localhost:8888/coroutine/factorial/<int:n>
])

if __name__ == "__main__":
    application.listen(8888)
    ioloop = tornado.ioloop.IOLoop.instance()
    ioloop.start()

21 lines yanked above is the simple factorial calculator. it loops N times, in generator fashion.

the problem is, when this code is executing it blocks the whole tornado.

what I want to achieve is writing some helper for tornado that treats generators as coroutine, and therefore can serve requests in asynchronous manner. (I have read Using a simple python generator as a co-routine in a Tornado async handler?)

why does the simple increase-and-multiply-by-n loop block the whole tornado?

edit : I edited the code to include the whole application, that you can run and test it. I'm running tornado 3.1.1 on python 2.7

share|improve this question
    
Can your get actually take arguments like that? (When I try this with Tornado 3.1.1 on Python 2.7.2, I get a TypeError: get() takes at least 2 arguments (1 given). I don't think this is your problem here—if I change it to take no args and use self.get_argument(n), I think it demonstrates your problem anyway. But I'm not sure. So, is this actually your code? If so, which version are you using? –  abarnert Sep 20 '13 at 19:03
    
@abarnert I edited the code. If you're still interested please take a look. –  thkang Sep 20 '13 at 20:45
    
Ah, I see, you wanted to use a path component, not a query string. Makes sense. Anyway, I didn't think that was your problem—as I said, my edited version using self.get_argument to read the query string demonstrates the same behavior. I don't have an answer for you. I'll take a closer look when I get a chance, but hopefully someone else who uses Tornado more than me will come along first. –  abarnert Sep 20 '13 at 20:54

1 Answer 1

up vote 5 down vote accepted

You have to remember that Tornado runs in one thread. The code is split into task that are called sequentially in main loop. If one of these task takes long to finish (because of blocking functions like time.sleep() or some heavy computation like factorial) it will block entire loop as a result.

So what you can do...? One solution is to create loop using IOLoop.add_callback():

from tornado import web, gen
import tornado, time

class CoroutineFactorialHandler(web.RequestHandler):
    def factorial(self, limit=1):
        count = 1
        fact = 1
        while count <= limit:
            yield fact
            count = count + 1
            fact = fact * count 

    def loop(self):
        try:
            self.fact = self.generator.next()
            tornado.ioloop.IOLoop.instance().add_callback(self.loop)
        except StopIteration:
            self.write("took : %f sec" %(time.time() - self.t))
            self.write("\n")
            self.write("f(%d) = %d" % (self.n, self.fact))
            self.finish()

    @web.asynchronous
    def get(self, n, *args, **kwargs):
        self.n = int(n)
        self.generator = self.factorial(self.n)
        self.t = time.time()
        self.set_header("Content-Type", "text/plain")
        tornado.ioloop.IOLoop.instance().add_callback(self.loop)

application = tornado.web.Application([
    (r"^/coroutine/factorial/(?P<n>\d+)", CoroutineFactorialHandler),
    #http://localhost:8888/coroutine/factorial/<int:n>
])

if __name__ == "__main__":
    application.listen(8888)
    ioloop = tornado.ioloop.IOLoop.instance()
    ioloop.start()

Every multiplication is a separate task here, which allows mixing factorial generator calls from different requests. This is a good approach if every call to generator took same amount of time. However if you will be computing 100000! then at some point in time tasks in sequence will be looking like 90000!*90001, 90001!*90002 and so on. It takes some time to have this computed even if its only one multiplication instead of whole loop so the other request will be delayed. For such big input integer you have to make computations in another thread to have fair share of processor time for a request. Here is example how to do this: http://lbolla.info/blog/2013/01/22/blocking-tornado

As a side note, in factorial you have a lot of redundancy so you should keep list of solutions for some n at memory to turn them back instantly without wasting processor time for same computation over and over again.

share|improve this answer
    
Hi, I checked out the blog pointed at this answer, it uses Thread pool with given MAXIMUM NUMBER OF THREADS. How do I configure maximum number of threads? And If I'm going to apply this logic for every actions of my web portal, I'll end up creating many threads ... typically what most web servers do! –  giga Jan 23 at 12:05
    
Remember that creating threads is something you should avoid. The whole point of asynchronous programming is to use single thread and alternate between calls. You should try to rewrite your code to make it asynchronous, use calls that are computed quickly, use asynchronous library (Tornado can use Twisted libraries) or move part of work to client with JavaScript (the code in answer above is just an example since client's browser can do it just fine). Making threads should be avoided since it brings you back all problems with threads that Tornado lets you avoid, like one in your question. –  Nykakin Jan 23 at 12:38

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