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I'm kind of struggling to understand what is the python way of solving this simple problem.

My problem is quite simple. If you use the follwing code it will hang. This is well documented in the subprocess module doc.

import subprocess

proc = subprocess.Popen(['cat','-'],
                        stdin=subprocess.PIPE,
                        stdout=subprocess.PIPE,
                        )
for i in range(100000):
    proc.stdin.write('%d\n' % i)
output = proc.communicate()[0]
print output

Searching for a solution (there is a very insightful thread, but I've lost it now) I found this solution (among others) that uses an explicit fork:

import os
import sys
from subprocess import Popen, PIPE

def produce(to_sed):
    for i in range(100000):
        to_sed.write("%d\n" % i)
        to_sed.flush()
    #this would happen implicitly, anyway, but is here for the example
    to_sed.close()

def consume(from_sed):
    while 1:
        res = from_sed.readline()
        if not res:
            sys.exit(0)
            #sys.exit(proc.poll())
        print 'received: ', [res]

def main():
    proc = Popen(['cat','-'],stdin=PIPE,stdout=PIPE)
    to_sed = proc.stdin
    from_sed = proc.stdout

    pid = os.fork()
    if pid == 0 :
        from_sed.close()
        produce(to_sed)
        return
    else :
        to_sed.close()
        consume(from_sed)

if __name__ == '__main__':
    main()

While this solution is conceptually very easy to understand, it uses one more process and stuck as too low level compared to the subprocess module (that is there just to hide this kind of things...).

I'm wondering: is there a simple and clean solution using the subprocess module that won't hung or to implement this patter I have to do a step back and implement an old-style select loop or an explicit fork?

Thanks

share|improve this question
    
You could use a thread instead of a fork (better compatibility with non-UNIX, arguably more readable), but apart from that, I think the example you give is good. A select loop would probably work as well to "multiplex" the operations in one thread, but it wouldn't be simpler than this. –  wump May 6 '11 at 12:59
    
Naïvely blocking using Popen.wait() is supposed to create a deadlock (and hang), but I've used Popen.communicate() to get out of that situation. I thought it used some internal poll loop to stuff the data in a buffer. Does it really hang when you try it, or does it simply take a long time to run? –  André Caron May 6 '11 at 13:05
    
uhmmm ... Since the subprocess module is an abstraction over low-level process management, I'm surprised it does not cover this simple user case. –  user741720 May 6 '11 at 14:13

6 Answers 6

If you want a pure Python solution, you need to put either the reader or the writer in a separate thread. The threading package is a lightweight way to do this, with convenient access to common objects and no messy forking.

import subprocess
import threading
import sys

proc = subprocess.Popen(['cat','-'],
                        stdin=subprocess.PIPE,
                        stdout=subprocess.PIPE,
                        )
def writer():
    for i in range(100000):
        proc.stdin.write('%d\n' % i)
    proc.stdin.close()
thread = threading.Thread(target=writer)
thread.start()
for line in proc.stdout:
    sys.stdout.write(line)
thread.join()
proc.wait()

It might be neat to see the subprocess module modernized to support streams and coroutines, which would allow pipelines that mix Python pieces and shell pieces to be constructed more elegantly.

share|improve this answer

If you don't want to keep all the data in memory, you have to use select. E.g. something like:

import subprocess
from select import select
import os

proc = subprocess.Popen(['cat'], stdin=subprocess.PIPE, stdout=subprocess.PIPE)

i = 0;
while True:
    rlist, wlist, xlist = [proc.stdout], [], []
    if i < 100000:
        wlist.append(proc.stdin)
    rlist, wlist, xlist = select(rlist, wlist, xlist)
    if proc.stdout in rlist:
        out = os.read(proc.stdout.fileno(), 10)
        print out,
        if not out:
            break
    if proc.stdin in wlist:
        proc.stdin.write('%d\n' % i)
        i += 1
        if i >= 100000:
            proc.stdin.close()
share|improve this answer
    
yes this would be conceptually correct solution. A bit complicated maybe, but if Popen does not implement these pattern out of the box this is the way I would implement it... –  user741720 May 6 '11 at 15:51
1  
I don't think it implements this out of the box because usually, when you need to resort to this, you also need fine control over the poll/select loop. Have you checked the asyncore module? –  André Caron May 6 '11 at 16:14
1  
I found this interesting blog post : dcreager.net/2009/08/13/subprocess-callbacks –  user741720 May 6 '11 at 16:24

Here's something I used to load 6G mysql dump file loads via subprocess. Stay away from shell=True. Not secure and start out of process wasting resources.

import subprocess

fhandle = None

cmd = [mysql_path,
      "-u", mysql_user, "-p" + mysql_pass],
      "-h", host, database]

fhandle = open(dump_file, 'r')
p = subprocess.Popen(cmd, stdin=fhandle, stdout=subprocess.PIPE, stderr=subprocess.PIPE)

(stdout,stderr) = p.communicate()

fhandle.close()
share|improve this answer

For this kind of thing, the shell works a lot better than subprocess.

Write very simple Python apps which read from sys.stdin and write to sys.stdout.

Connect the simple apps together using a shell pipeline.

If you want, start the pipeline using subprocess or simply write a one-line shell script.

python part1.py | python part2.py

This is very, very efficient. It's also portable to all Linux (and Windows) as long as you keep it very simple.

share|improve this answer
    
I know there are a 1001 way of doing it. I'm asking for the python way :) Call me a purist :) –  user741720 May 6 '11 at 12:35
    
@user741720: I gave you the Pythonic solution. Use sys.stdin and sys.stdout and avoid needless fooling around with complex subprocess code. The purist approach is to write as little code as possible and write that little bit of code as cleanly as possible. The OS does this best (and fastest and with least overhead) if you don't interpose additional Python processing in the middle of what is already highly-optimized OS code. –  S.Lott May 6 '11 at 12:38

Here is an example (Python 3) of reading one record at a time from gzip using a pipe:

cmd = 'gzip -dc compressed_file.gz'
pipe = Popen(cmd, stdout=PIPE).stdout

for line in pipe:
    print(":", line.decode(), end="")

I know there is a standard module for that, it is just meant as an example. You can read the whole output in one go (like shell back-ticks) using the communicate method, but obviously you hav eto be careful of memory size.

Here is an example (Python 3 again) of writing records to the lp(1) program on Linux:

cmd = 'lp -'
proc = Popen(cmd, stdin=PIPE)
proc.communicate(some_data.encode())
share|improve this answer
    
this is the standard example you find a bit everywhere. the point is that I don't want the input to be piped from another process and I'd like to avoid writing all the input in memory before sending it to the consumer... passing everything to proc.communicate at once of course solves the problem... –  user741720 May 6 '11 at 14:08

Now I know this is not going to satisfy the purist in you completely, as the input will have to fit in memory, and you have no option to work interactively with input-output, but at least this works fine on your example. The communicate method optionally takes the input as an argument, and if you feed your process its input this way, it will work.

import subprocess

proc = subprocess.Popen(['cat','-'],
                        stdin=subprocess.PIPE,
                        stdout=subprocess.PIPE,
                        )

input = "".join('{0:d}\n'.format(i) for i in range(100000))
output = proc.communicate(input)[0]
print output

As for the larger problem, you can subclass Popen, rewrite __init__ to accept stream-like objects as arguments to stdin, stdout, stderr, and rewrite the _communicate method (hairy for crossplatform, you need to do it twice, see the subprocess.py source) to call read() on the stdin stream and write() the output to the stdout and stderr streams. What bothers me about this approach is that as far as I know, it hasn't already been done. When obvious things have not been done before, there's usually a reason (it doesn't work as intended), but I can't see why it shoudn't, apart from the fact you need the streams to be thread-safe in Windows.

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