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As the title suggests, I'm working on a site written in python and it makes several calls to the urllib2 module to read websites. I then parse them with BeautifulSoup.

As I have to read 5-10 sites, the page takes a while to load.

I'm just wondering if there's a way to read the sites all at once? Or anytricks to make it faster, like should I close the urllib2.urlopen after each read, or keep it open?

Added: also, if I were to just switch over to php, would that be faster for fetching and Parsi g HTML and XML files from other sites? I just want it to load faster, as opposed to the ~20 seconds it currently takes

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My bad. I think it's actually urllib2.urlopen –  Jack z Aug 12 '10 at 22:27
What makes you think open is slow? BeautifulSoup (as useful as it is) does far more work and I'd presume it is the bottleneck in the code. Did you try it without parsing? A code sample here would help. –  msw Aug 12 '10 at 22:30
@Jack z: it is best to edit your post rather than add a comment. –  msw Aug 12 '10 at 22:33
No just going PHP will not help. Python has tons of room to be fast, you just need to optimize your code. –  bwawok Aug 12 '10 at 22:41
I'm going to strongly suggest you change your accepted answer if you want to keep your codebase sane. –  habnabit Aug 12 '10 at 22:58

8 Answers 8

up vote 10 down vote accepted

Why is Dumb Guy's answer got -1? He is using old modules alright. But he is the first guy that propose a right approach using threads and provided a working example.

I'm rewriting his code using modern Python modules like threading and Queue.

import threading, urllib2
import Queue

urls_to_load = [

def read_url(url, queue):
    data = urllib2.urlopen(url).read()
    print('Fetched %s from %s' % (len(data), url))

def fetch_parallel():
    result = Queue.Queue()
    threads = [threading.Thread(target=read_url, args = (url,result)) for url in urls_to_load]
    for t in threads:
    for t in threads:
    return result

def fetch_sequencial():
    result = Queue.Queue()
    for url in urls_to_load:
    return result

Best time for find_sequencial() is 2s. Best time for fetch_parallel() is 0.9s.

Also it is incorrect to say thread is useless in Python because of GIL. This is one of those case when thread is useful in Python because the the threads are blocked on I/O. As you can see in my result the parallel case is 2 times faster.

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Yes, if this was the only way to fetch URLs, this would be closer to the correct way to use threads. However, async IO is still going to be faster, more maintainable, allow for deterministic debugging, and so on. Even without the GIL, it would be a superior solution. –  habnabit Aug 12 '10 at 23:52
Oops, it looks like Dump Guy has retracted his answer. Hey I say you were going on the right track! –  Wai Yip Tung Aug 12 '10 at 23:53
Aaron, can you provide a working example to show that async IO code is more maintainable? –  Wai Yip Tung Aug 12 '10 at 23:56
Thanks, wai! I'll give this code a try! :) –  Jack z Aug 13 '10 at 0:00
@Wai Yip Tung, less code is going to be more maintainable than more code, especially if it's immediately obvious what that code does. Threads require more code to do less in order to work around the problems with shared-state concurrency (i.e. you need locks). You could use worker processes instead of worker threads in order to eliminate the shared-state part, but still, you could just use twisted and be done with it. –  habnabit Aug 13 '10 at 0:07

Edit: Please take a look at Wai's post for a better version of this code. Note that there is nothing wrong with this code and it will work properly, despite the comments below.

The speed of reading web pages is probably bounded by your Internet connection, not Python.

You could use threads to load them all at once.

import thread, time, urllib
websites = {}
def read_url(url):
  websites[url] = urllib.open(url).read()

for url in urls_to_load: thread.start_new_thread(read_url, (url,))
while websites.keys() != urls_to_load: time.sleep(0.1)

# Now websites will contain the contents of all the web pages in urls_to_load
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The bottleneck is probably not even the internet connection but the remote server. However, BeautifulSoup is slow in any case. So it will add an extra delay. –  Wolph Aug 12 '10 at 22:36
Oh okay, that makes sense. And I appreciate the example code thanks! –  Jack z Aug 12 '10 at 22:45
-1 for threads and suggesting the thread module and not doing any locking or even using the Queue module. You're just going to add way more complexity and locking overhead for no gain if you use threads. Even if this wasn't true, your code demonstrates that you don't really know how to use threads. –  habnabit Aug 12 '10 at 22:53
The global interpreter lock should keep the dictionary assignment from happening simultaneously in two different threads. I should have mentioned it, though. –  Dumb Guy Aug 12 '10 at 23:04
@Dumb Guy, no, it doesn't. The GIL isn't a replacement for proper locking, and also isn't present in all python implementations. Either way, mutating global state is a horrible, horrible way to communicate between threads. This is what the Queue module is for. –  habnabit Aug 12 '10 at 23:08

As a general rule, a given construct in any language is not slow until it is measured.

In Python, not only do timings often run counter to intuition but the tools for measuring execution time are exceptionally good.

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This is a GREAT comment -- Unfortunately, I don't really think it's an "answer"... –  mgilson Jan 24 '14 at 22:12

Scrapy might be useful for you. If you don't need all of its functionality, you might just use twisted's twisted.web.client.getPage instead. Asynchronous IO in one thread is going to be way more performant and easy to debug than anything that uses multiple threads and blocking IO.

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Okay, I've heard about that being faster. Thanks! –  Jack z Aug 12 '10 at 23:29
@msw, is my answer cut off in your browser? The full sentence is "Asynchronous IO in one thread is going to be way more performant and easy to debug than anything that uses multiple threads and blocking IO." –  habnabit Aug 13 '10 at 0:08
I should have been more clear; sorry. The OP hasn't even made a case for needing asynchronous IO, and your philosophy of "get it right, first" noted above is a good stance. But I fear it isn't impressing the OP, oh well ;) –  msw Aug 13 '10 at 1:30

1) Are you opening the same site many times, or many different site? If many different sites, I think urllib2 is good. If doing the same site over and over again, I have had some personal luck with urllib3 http://code.google.com/p/urllib3/

2) BeautifulSoup is easy to use, but is pretty slow. If you do have to use it, make sure to decompose your tags to get rid of memory leaks.. or it will likely lead to memory issues (did for me).

What do your memory and cpu look like? If you are maxing your CPU, make sure you are using real heavyweight threads, so you can run on more than 1 core.

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I'm accessing XML pages for Amazon, eBay, and Half. So while similar, the products and prices change –  Jack z Aug 12 '10 at 22:31
Okay so then urllib2 is fine. You need to thread out your program to use heavyweight threads, and parse as efficiently as possibly. –  bwawok Aug 12 '10 at 22:40
Okay, thanks much! –  Jack z Aug 12 '10 at 22:46

It is maby not perfect. But when I need the data from a site. I just do this:

import socket
def geturldata(url):
    server = url.split("/")[0]
    args = url.replace(server,"")
    returndata = str()
    s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
    s.connect((server, 80)) #lets connect :p

    s.send("GET /%s HTTP/1.0\r\nHost: %s\r\n\r\n" % (args, server)) #simple http request
    while 1:
        data = s.recv(1024) #buffer
        if not data: break
        returndata = returndata + data
    return returndata.split("\n\r")[1]
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How about using pycurl?

You can apt-get it by

$ sudo apt-get python-pycurl
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Pycurl is not faster than urllib2 in my experience –  bwawok Aug 12 '10 at 22:40

Not sure why nobody mentions multiprocessing (if anyone knows why this might be a bad idea, let me know):

import multiprocessing
from urllib2 import urlopen

URLS = [....]

def get_content(url):
    return urlopen(url).read()

pool = multiprocessing.Pool(processes=8)  # play with ``processes`` for best results
results = pool.map(get_content, URLS) # This line blocks, look at map_async 
                                      # for non-blocking map() call
pool.close()  # the process pool no longer accepts new tasks
pool.join()   # join the processes: this blocks until all URLs are processed
for result in results:
   # do something

There are a few caveats with multiprocessing pools. First, unlike threads, these are completely new Python processes (interpreter). While it's not subject to global interpreter lock, it means you are limited in what you can pass across to the new process.

You cannot pass lambdas and functions that are defined dynamically. The function that is used in the map() call must be defined in your module in a way that allows the other process to import it.

The Pool.map(), which is the most straightforward way to process multiple tasks concurrently, doesn't provide a way to pass multiple arguments, so you may need to write wrapper functions or change function signatures, and/or pass multiple arguments as part of the iterable that is being mapped.

You cannot have child processes spawn new ones. Only the parent can spawn child processes. This means you have to carefully plan and benchmark (and sometimes write multiple versions of your code) in order to determine what the most effective use of processes would be.

Drawbacks notwithstanding, I find multiprocessing to be one of the most straightforward ways to do concurrent blocking calls. You can also combine multiprocessing and threads (afaik, but please correct me if I'm wrong), or combine multiprocessing with green threads.

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