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NB. I have seen Log output of multiprocessing.Process - unfortunately, it doesn't answer this question.

I am creating a child process (on windows) via multiprocessing. I want all of the child process's stdout and stderr output to be redirected to a log file, rather than appearing at the console. The only suggestion I have seen is for the child process to set sys.stdout to a file. However, this does not effectively redirect all stdout output, due to the behaviour of stdout redirection on Windows.

To illustrate the problem, build a Windows DLL with the following code

#include <iostream>

extern "C"
    __declspec(dllexport) void writeToStdOut()
        std::cout << "Writing to STDOUT from test DLL" << std::endl;

Then create and run a python script like the following, which imports this DLL and calls the function:

from ctypes import *
import sys

print "Writing to STDOUT from python, before redirect"
sys.stdout = open("stdout_redirect_log.txt", "w")
print "Writing to STDOUT from python, after redirect"

testdll = CDLL("Release/stdout_test.dll")

In order to see the same behaviour as me, it is probably necessary for the DLL to be built against a different C runtime than than the one Python uses. In my case, python is built with Visual Studio 2010, but my DLL is built with VS 2005.

The behaviour I see is that the console shows:

> stdout_test.py

Writing to STDOUT from python, before redirect

Writing to STDOUT from test DLL

While the file stdout_redirect_log.txt ends up containing:

Writing to STDOUT from python, after redirect

In other words, setting sys.stdout failed to redirect the stdout output generated by the DLL. This is unsurprising given the nature of the underlying APIs for stdout redirection in Windows. I have encountered this problem at the native/C++ level before and never found a way to reliably redirect stdout from within a process. It has to be done externally.

This is actually the very reason I am launching a child process - it's so that I can connect externally to its pipes and thus guarantee that I am intercepting all of its output. I can definitely do this by launching the process manually with pywin32, but I would very much like to be able to use the facilities of multiprocessing, in particular the ability to communicate with the child process via a multiprocessing Pipe object, in order to get progress updates. The question is whether there is any way to both use multiprocessing for its IPC facilities and to reliably redirect all of the child's stdout and stderr output to a file.

UPDATE: Looking at the source code for multiprocessing.Processs, it has a static member, _Popen, which looks like it can be used to override the class used to create the process. If it's set to None (default), it uses a multiprocessing.forking._Popen, but it looks like by saying

multiprocessing.Process._Popen = MyPopenClass

I could override the process creation. However, although I could derive this from multiprocessing.forking._Popen, it looks like I would have to copy a bunch of internal stuff into my implementation, which sounds flaky and not very future-proof. If that's the only choice I think I'd probably plump for doing the whole thing manually with pywin32 instead.

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Can you use the Win32 API to launch the subprocess, or does it have to be done using existing Python libraries? –  Harry Johnston Oct 10 '11 at 20:55
Yes, I mentioned in the question that "I can definitely do this by launching the process manually with pywin32". It just seemed a shame to abandon the higher-level, platform independent multiprocessing module because of what seems like a trivial bit of missing functionality - the ability to specify stdin/stdout handles for the child. –  Tom Oct 11 '11 at 9:09
The approach I'm taking (unless someone comes up with a better alternative) is to launch the process via the subprocess module, with stdin/stdout redirected to a file, and use a native Windows named pipe for the progress communication. –  Tom Oct 11 '11 at 9:10
Didn't it work properly if you redirect sys.stdout of the parent process, before launching the child? –  alexis Mar 26 '12 at 16:35

4 Answers 4

up vote 6 down vote accepted

The solution you suggest is a good one: create your processes manually such that you have explicit access to their stdout/stderr file handles. You can then create a socket to communicate with the sub-process and use multiprocessing.connection over that socket (multiprocessing.Pipe creates the same type of connection object, so this should give you all the same IPC functionality).

Here's a two-file example.


import multiprocessing.connection
import subprocess
import socket
import sys, os

## Listen for connection from remote process (and find free port number)
port = 10000
while True:
        l = multiprocessing.connection.Listener(('localhost', int(port)), authkey="secret")
    except socket.error as ex:
        if ex.errno != 98:
        port += 1  ## if errno==98, then port is not available.

proc = subprocess.Popen((sys.executable, "subproc.py", str(port)), stdout=subprocess.PIPE, stderr=subprocess.PIPE)

## open connection for remote process
conn = l.accept()
conn.send([1, "asd", None])


import multiprocessing.connection
import subprocess
import sys, os, time

port = int(sys.argv[1])
conn = multiprocessing.connection.Client(('localhost', port), authkey="secret")

while True:
        obj = conn.recv()
        print("received: %s\n" % str(obj))
    except EOFError:  ## connection closed

You may also want to see the first answer to this question to get non-blocking reads from the subprocess.

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I don't think you have a better option than redirecting a subprocess to a file as you mentioned in your comment.

The way consoles stdin/out/err work in windows is each process when it's born has its std handles defined. You can change them with SetStdHandle. When you modify python's sys.stdout you only modify where python prints out stuff, not where other DLL's are printing stuff. Part of the CRT in your DLL is using GetStdHandle to find out where to print out to. If you want, you can do whatever piping you want in windows API in your DLL or in your python script with pywin32. Though I do think it'll be simpler with subprocess.

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I assume I'm off base and missing something, but for what it's worth here is what came to mind when I read your question.

If you can intercept all of the stdout and stderr (I got that impression from your question), then why not add or wrap that capture functionality around each of your processes? Then send what is captured through a queue to a consumer that can do whatever you want with all of the outputs?

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Are you running into an issue because the process is blocking?

Look at this, it's using subprocess, but have to create a way around it to make it non-blocking. I imagine the same trick might work with multiprocessing.

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