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I'm doing data scraping calls with an urllib2, yet they each take around 1 seconds to complete. I was trying to test if I could multi-thread the URL-call loop into threading with different offsets.

I'm doing this now with my update_items() method, where first and second parameter are the offset and limit to do loops:

import threading
t1 = threading.Thread(target=trade.update_items(1, 100))
t2 = threading.Thread(target=trade.update_items(101, 200))
t3 = threading.Thread(target=trade.update_items(201, 300))

t1.start()
t2.start()
t3.start()

#t1.join()
#t2.join()
#t3.join()

Like the code, I tried to commment out the join() to prevent waiting of the threads, but it seems I get the idea of this library wrong. I inserted print() functions into the update_items() method, funny tho it shows that it's still looping just in serial routine and not all 3 threads in parallel, like I wanted to achieve.

My normal scraping protocol takes about 5 hours to complete and it's only very small pieces of data, but the HTTP call always takes some time. I want to multi-thread this task at least a few times to shorten the fetching at least to around 30-45minutes.

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Bit by the GIL? –  Fred Larson Jan 29 '13 at 21:25
    
This tutorial seems to cover almost exactly your use-case. –  Garry Cairns Jan 29 '13 at 21:25
    
It was a lot on that topic for instance here –  Michal Jan 29 '13 at 21:27
3  
Also worth noting, unless trade.update_items(1, 100) returns a function you will want to pass the arguments using this form instead: threading.Thread(target=trade.update_items, args = (1, 100)) –  Paul Seeb Jan 29 '13 at 21:30
1  
@FredLarson: Python releases GIL on I/O. Retrieving multiple urls in parallel is an appropriate use of threads. –  J.F. Sebastian Jan 30 '13 at 0:00
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2 Answers

up vote 2 down vote accepted

To get multiple urls in parallel limiting to 20 connections at a time:

import urllib2
from multiprocessing.dummy import Pool

def generate_urls(): # generate some dummy urls
    for i in range(100):
        yield 'http://example.com?param=%d' % i

def get_url(url):
    try: return url, urllib2.urlopen(url).read(), None
    except EnvironmentError as e:
         return url, None, e

pool = Pool(20) # limit number of concurrent connections
for url, result, error in pool.imap_unordered(get_url, generate_urls()):
    if error is None:
       print result,
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If the process is cpu+io bound, would it be fair to write pool = Pool(multiprocessing.cpu_count()) –  sb32134 Apr 21 at 11:07
    
no. there is not enough information to make the call. –  J.F. Sebastian Apr 21 at 11:26
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Paul Seeb has correctly diagnosed your issue.

You are calling trade.update_items, and then passing the result to the threading.Thread constructor. Thus, you get serial behavior: your threads don't do any work, and the creation of each one is delayed until the update_items call returns.

The correct form is threading.Thread(target=trade.update_items, args=(1, 100) for the first line, and similarly for the later ones. This will pass the update_items function as the thread entry point, and the *[1, 100] as its positional arguments.

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