I have a python subprocess that I'm trying to read output and error streams from. Currently I have it working, but I'm only able to read from stderr after I've finished reading from stdout. Here's what it looks like:

process = subprocess.Popen(command, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
stdout_iterator = iter(process.stdout.readline, b"")
stderr_iterator = iter(process.stderr.readline, b"")

for line in stdout_iterator:
    # Do stuff with line
    print line

for line in stderr_iterator:
    # Do stuff with line
    print line

As you can see, the stderr for loop can't start until the stdout loop completes. How can I modify this to be able to read from both in the correct order the lines come in?

To clarify: I still need to be able to tell whether a line came from stdout or stderr because they will be treated differently in my code.


7 Answers 7


The code in your question may deadlock if the child process produces enough output on stderr (~100KB on my Linux machine).

There is a communicate() method that allows to read from both stdout and stderr separately:

from subprocess import Popen, PIPE

process = Popen(command, stdout=PIPE, stderr=PIPE)
output, err = process.communicate()

If you need to read the streams while the child process is still running then the portable solution is to use threads (not tested):

from subprocess import Popen, PIPE
from threading import Thread
from Queue import Queue # Python 2

def reader(pipe, queue):
        with pipe:
            for line in iter(pipe.readline, b''):
                queue.put((pipe, line))

process = Popen(command, stdout=PIPE, stderr=PIPE, bufsize=1)
q = Queue()
Thread(target=reader, args=[process.stdout, q]).start()
Thread(target=reader, args=[process.stderr, q]).start()
for _ in range(2):
    for source, line in iter(q.get, None):
        print "%s: %s" % (source, line),


  • 2
    Unfortunately this answer doesn't preserve the order that the lines come in from stdout and stderr. It is very close to what I need though! It's just important for me to know when an stderr line is piped relative to an stdout line.
    – Leah Sapan
    Aug 7, 2015 at 4:34
  • 3
    @LukeSapan: I don't see any way to preserve the order and to capture stdout/stderr separately. You can get one or the other easily. On Unix you could try a select loop that can make the effect less apparent. It is starting to look like XY problem: edit your question and provide some context on what you are trying to do.
    – jfs
    Aug 7, 2015 at 4:44
  • 7
    @LukeSapan As both FDs are independent of each other, a message coming through one may be delayed, so there is no concept of "before" and "after" in this case...
    – glglgl
    Sep 23, 2015 at 14:29
  • 3
    @LukeSapan why preserve the order? Just add timestamps and sort at the end.
    – nurettin
    Sep 24, 2018 at 15:27
  • 1
    Is there any solution how to interrupt the process while queue.get blocks?
    Jan 28, 2020 at 17:34

Here's a solution based on selectors, but one that preserves order, and streams variable-length characters (even single chars).

The trick is to use read1(), instead of read().

import selectors
import subprocess
import sys

p = subprocess.Popen(
    ["python", "random_out.py"], stdout=subprocess.PIPE, stderr=subprocess.PIPE

sel = selectors.DefaultSelector()
sel.register(p.stdout, selectors.EVENT_READ)
sel.register(p.stderr, selectors.EVENT_READ)

while True:
    for key, _ in sel.select():
        data = key.fileobj.read1().decode()
        if not data:
        if key.fileobj is p.stdout:
            print(data, end="")
            print(data, end="", file=sys.stderr)

If you want a test program, use this.

import sys
from time import sleep

for i in range(10):
    print(f" x{i} ", file=sys.stderr, end="")
    print(f" y{i} ", end="")

This works for Python3 (3.6):

    p = subprocess.Popen(cmd, stdout=subprocess.PIPE, 
                         stderr=subprocess.PIPE, universal_newlines=True)
    # Read both stdout and stderr simultaneously
    sel = selectors.DefaultSelector()
    sel.register(p.stdout, selectors.EVENT_READ)
    sel.register(p.stderr, selectors.EVENT_READ)
    ok = True
    while ok:
        for key, val1 in sel.select():
            line = key.fileobj.readline()
            if not line:
                ok = False
            if key.fileobj is p.stdout:
                print(f"STDOUT: {line}", end="")
                print(f"STDERR: {line}", end="", file=sys.stderr)

The order in which a process writes data to different pipes is lost after write.

There is no way you can tell if stdout has been written before stderr.

You can try to read data simultaneously from multiple file descriptors in a non-blocking way as soon as data is available, but this would only minimize the probability that the order is incorrect.

This program should demonstrate this:

#!/usr/bin/env python
# -*- coding: utf-8 -*-

import os
import select
import subprocess

    'slow': '''
import os
import time
os.write(1, 'aaa')
os.write(2, 'bbb')
os.write(1, 'ccc')
    'fast': '''
import os
os.write(1, 'aaa')
os.write(2, 'bbb')
os.write(1, 'ccc')
    'fast2': '''
import os
os.write(1, 'aaa')
os.write(2, 'bbbbbbbbbbbbbbb')
os.write(1, 'ccc')

def readfds(fds, maxread):
    while True:
        fdsin, _, _ = select.select(fds,[],[])
        for fd in fdsin:
            s = os.read(fd, maxread)
            if len(s) == 0:
            yield fd, s
        if fds == []:

def readfromapp(app, rounds=10, maxread=1024):
    f=open('testapp.py', 'w')

    for i in range(0, rounds):
        p = subprocess.Popen(['python', 'testapp.py'], stdout=subprocess.PIPE
                                                     , stderr=subprocess.PIPE)
        for (fd, s) in readfds([p.stdout.fileno(), p.stderr.fileno()], maxread):
            data = data + s
        results[data] = results[data] + 1 if data in results else 1

    print 'running %i rounds %s with maxread=%i' % (rounds, app, maxread)
    results = sorted(results.items(), key=lambda (k,v): k, reverse=False)
    for data, count in results:
        print '%03i x %s' % (count, data)

print "=> if output is produced slowly this should work as whished"
print "   and should return: aaabbbccc"
readfromapp('slow',  rounds=100, maxread=1024)

print "=> now mostly aaacccbbb is returnd, not as it should be"
readfromapp('fast',  rounds=100, maxread=1024)

print "=> you could try to read data one by one, and return"
print "   e.g. a whole line only when LF is read"
print "   (b's should be finished before c's)"
readfromapp('fast',  rounds=100, maxread=1)

print "=> but even this won't work ..."
readfromapp('fast2', rounds=100, maxread=1)

and outputs something like this:

=> if output is produced slowly this should work as whished
   and should return: aaabbbccc
running 100 rounds slow with maxread=1024
100 x aaabbbccc

=> now mostly aaacccbbb is returnd, not as it should be
running 100 rounds fast with maxread=1024
006 x aaabbbccc
094 x aaacccbbb

=> you could try to read data one by one, and return
   e.g. a whole line only when LF is read
   (b's should be finished before c's)
running 100 rounds fast with maxread=1
003 x aaabbbccc
003 x aababcbcc
094 x abababccc

=> but even this won't work ...
running 100 rounds fast2 with maxread=1
003 x aaabbbbbbbbbbbbbbbccc
001 x aaacbcbcbbbbbbbbbbbbb
008 x aababcbcbcbbbbbbbbbbb
088 x abababcbcbcbbbbbbbbbb
  • 1
    unrelated: use if not s: instead of if len(s) == 0: here. Use while fds: instead of while True: ... if fds == []: break. Use results = collections.defaultdict(int); ...; results[data]+=1 instead of results = {}; ...; results[data] = results[data] + 1 if data in results else 1
    – jfs
    Sep 23, 2015 at 15:49
  • Or use results = collections.Counter(); ...; results[data]+=1; ...; for data, count in results.most_common():
    – jfs
    Sep 23, 2015 at 15:57
  • you could use data = b''.join([s for _, s in readfds(...)])
    – jfs
    Sep 23, 2015 at 16:00
  • you should close the pipes to avoid relying on the garbage colleciton to free file descriptors in the parent and call p.wait() to reap the child process explicitly.
    – jfs
    Sep 23, 2015 at 16:03

from https://docs.python.org/3/library/subprocess.html#using-the-subprocess-module

If you wish to capture and combine both streams into one, use stdout=PIPE and stderr=STDOUT instead of capture_output.

so the easiest solution would be:

process = subprocess.Popen(command, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
stdout_iterator = iter(process.stdout.readline, b"")

for line in stdout_iterator:
    # Do stuff with line
    print line
  • 1
    This doesn't read the streams separately, but merges stderr into stdout.
    – Stan Svec
    Jan 19 at 3:09

I know this question is very old, but this answer may help others who stumble upon this page in researching a solution for a similar situation, so I'm posting it anyway.

I've built a simple python snippet that will merge any number of pipes into a single one. Of course, as stated above, the order cannot be guaranteed, but this is as close as I think you can get in Python.

It spawns a thread for each of the pipes, reads them line by line and puts them into a Queue (which is FIFO). The main thread loops through the queue, yielding each line.

import threading, queue
def merge_pipes(**named_pipes):
    Merges multiple pipes from subprocess.Popen (maybe other sources as well).
    The keyword argument keys will be used in the output to identify the source
    of the line.

    p = subprocess.Popen(['some', 'call'],
    outputs = {'out': log.info, 'err': log.warn}
    for name, line in merge_pipes(out=p.stdout, err=p.stderr):

    This will output stdout to the info logger, and stderr to the warning logger

    # Constants. Could also be placed outside of the method. I just put them here
    # so the method is fully self-contained

    # Create a queue where the pipes will be read into
    output = queue.Queue()

    # This method is the run body for the threads that are instatiated below
    # This could be easily rewritten to be outside of the merge_pipes method,
    # but to make it fully self-contained I put it here
    def pipe_reader(name, pipe):
        reads a single pipe into the queue
        output.put( ( PIPE_OPENED, name, ) )
            for line in iter(pipe.readline,''):
                output.put( ( PIPE_OUTPUT, name, line.rstrip(), ) )
            output.put( ( PIPE_CLOSED, name, ) )

    # Start a reader for each pipe
    for name, pipe in named_pipes.items():
        t=threading.Thread(target=pipe_reader, args=(name, pipe, ))
        t.daemon = True

    # Use a counter to determine how many pipes are left open.
    # If all are closed, we can return
    pipe_count = 0

    # Read the queue in order, blocking if there's no data
    for data in iter(output.get,''):
        if code == PIPE_OPENED:
            pipe_count += 1
        elif code == PIPE_CLOSED:
            pipe_count -= 1
        elif code == PIPE_OUTPUT:
            yield data[1:]
        if pipe_count == 0:

This works for me (on windows): https://github.com/waszil/subpiper

from subpiper import subpiper

def my_stdout_callback(line: str):
    print(f'STDOUT: {line}')

def my_stderr_callback(line: str):
    print(f'STDERR: {line}')

my_additional_path_list = [r'c:\important_location']

retcode = subpiper(cmd='echo magic',

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