How can I call an external command (as if I'd typed it at the Unix shell or Windows command prompt) from within a Python script?

53 Answers 53

up vote 3760 down vote accepted

Look at the subprocess module in the standard library:

from subprocess import call
call(["ls", "-l"])

The advantage of subprocess vs. system is that it is more flexible (you can get the stdout, stderr, the "real" status code, better error handling, etc...).

The official documentation recommends the subprocess module over the alternative os.system():

The subprocess module provides more powerful facilities for spawning new processes and retrieving their results; using that module is preferable to using this function [os.system()].

The "Replacing Older Functions with the subprocess Module" section in the subprocess documentation may have some helpful recipes.

Official documentation on the subprocess module:

  • Is there a way to use variable substitution? IE I tried to do echo $PATH by using call(["echo", "$PATH"]), but it just echoed the literal string $PATH instead of doing any substitution. I know I could get the PATH environment variable, but I'm wondering if there is an easy way to have the command behave exactly as if I had executed it in bash. – Kevin Wheeler Sep 1 '15 at 23:17
  • @KevinWheeler You'll have to use shell=True for that to work. – SethMMorton Sep 2 '15 at 20:38
  • 9
    @KevinWheeler You should NOT use shell=True, for this purpose Python comes with os.path.expandvars. In your case you can write: os.path.expandvars("$PATH"). @SethMMorton please reconsider your comment -> Why not to use shell=True – Murmel Nov 11 '15 at 20:24
  • 75
    As of Python 3.5, it is suggested that you use subprocess.run instead of subprocess.call. docs.python.org/3/library/subprocess.html – Hannes Karppila Jul 4 '16 at 19:31
  • 3
    To simplify at least conceptually:\n call("ls -l".split()) – slehar Jun 16 at 17:15

Here's a summary of the ways to call external programs and the advantages and disadvantages of each:

  1. os.system("some_command with args") passes the command and arguments to your system's shell. This is nice because you can actually run multiple commands at once in this manner and set up pipes and input/output redirection. For example:

    os.system("some_command < input_file | another_command > output_file")  
    

    However, while this is convenient, you have to manually handle the escaping of shell characters such as spaces, etc. On the other hand, this also lets you run commands which are simply shell commands and not actually external programs. See the documentation.

  2. stream = os.popen("some_command with args") will do the same thing as os.system except that it gives you a file-like object that you can use to access standard input/output for that process. There are 3 other variants of popen that all handle the i/o slightly differently. If you pass everything as a string, then your command is passed to the shell; if you pass them as a list then you don't need to worry about escaping anything. See the documentation.

  3. The Popen class of the subprocess module. This is intended as a replacement for os.popen but has the downside of being slightly more complicated by virtue of being so comprehensive. For example, you'd say:

    print subprocess.Popen("echo Hello World", shell=True, stdout=subprocess.PIPE).stdout.read()
    

    instead of:

    print os.popen("echo Hello World").read()
    

    but it is nice to have all of the options there in one unified class instead of 4 different popen functions. See the documentation.

  4. The call function from the subprocess module. This is basically just like the Popen class and takes all of the same arguments, but it simply waits until the command completes and gives you the return code. For example:

    return_code = subprocess.call("echo Hello World", shell=True)  
    

    See the documentation.

  5. If you're on Python 3.5 or later, you can use the new subprocess.run function, which is a lot like the above but even more flexible and returns a CompletedProcess object when the command finishes executing.

  6. The os module also has all of the fork/exec/spawn functions that you'd have in a C program, but I don't recommend using them directly.

The subprocess module should probably be what you use.

Finally please be aware that for all methods where you pass the final command to be executed by the shell as a string and you are responsible for escaping it. There are serious security implications if any part of the string that you pass can not be fully trusted. For example, if a user is entering some/any part of the string. If you are unsure, only use these methods with constants. To give you a hint of the implications consider this code:

print subprocess.Popen("echo %s " % user_input, stdout=PIPE).stdout.read()

and imagine that the user enters "my mama didnt love me && rm -rf /".

  • 7
    Nice answer/explanation. How is this answer justifying Python's motto as described in this article ? fastcompany.com/3026446/… "Stylistically, Perl and Python have different philosophies. Perl’s best known mottos is " There’s More Than One Way to Do It". Python is designed to have one obvious way to do it" Seem like it should be the other way! In Perl I know only two ways to execute a command - using back-tick or open. – Jean May 26 '15 at 21:16
  • 7
    If using Python 3.5+, use subprocess.run(). docs.python.org/3.5/library/subprocess.html#subprocess.run – phoenix Oct 7 '15 at 16:37
  • 3
    What one typically needs to know is what is done with the child process's STDOUT and STDERR, because if they are ignored, under some (quite common) conditions, eventually the child process will issue a system call to write to STDOUT (STDERR too?) that would exceed the output buffer provided for the process by the OS, and the OS will cause it to block until some process reads from that buffer. So, with the currently recommended ways, subprocess.run(..), what exactly does "This does not capture stdout or stderr by default." imply? What about subprocess.check_output(..) and STDERR? – Evgeni Sergeev Jun 1 '16 at 10:44
  • which of the commands you recommended block my script? i.e. if I want to run multiple commands in a for loop how do I do it without it blocking my python script? I don't care about the output of the command I just want to run lots of them. – Charlie Parker Oct 24 '17 at 19:08
  • 1
    This is arguably the wrong way around. Most people only need subprocess.run() or its older siblings subprocess.check_call() et al. For cases where these do not suffice, see subprocess.Popen(). os.popen() should perhaps not be mentioned at all, or come even after "hack your own fork/exec/spawn code". – tripleee Dec 3 at 6:00

I typically use:

import subprocess

p = subprocess.Popen('ls', shell=True, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
for line in p.stdout.readlines():
    print line,
retval = p.wait()

You are free to do what you want with the stdout data in the pipe. In fact, you can simply omit those parameters (stdout= and stderr=) and it'll behave like os.system().

  • 32
    .readlines() reads all lines at once i.e., it blocks until the subprocess exits (closes its end of the pipe). To read in real time (if there is no buffering issues) you could: for line in iter(p.stdout.readline, ''): print line, – jfs Nov 16 '12 at 14:12
  • Could you elaborate on what you mean by "if there is no buffering issues"? If the process blocks definitely, the subprocess call also blocks. The same could happen with my original example as well. What else could happen with respect to buffering? – EmmEff Nov 17 '12 at 13:25
  • 11
    the child process may use block-buffering in non-interactive mode instead of line-buffering so p.stdout.readline() (note: no s at the end) won't see any data until the child fills its buffer. If the child doesn't produce much data then the output won't be in real time. See the second reason in Q: Why not just use a pipe (popen())?. Some workarounds are provided in this answer (pexpect, pty, stdbuf) – jfs Nov 17 '12 at 13:51
  • 3
    the buffering issue only matters if you want output in real time and doesn't apply to your code that doesn't print anything until all data is received – jfs Nov 17 '12 at 13:53
  • This answer was fine for its time, but we should no longer recommend Popen for simple tasks. This also needlessly specifies shell=True. Try one of the subprocess.run() answers. – tripleee Dec 3 at 5:39

Some hints on detaching the child process from the calling one (starting the child process in background).

Suppose you want to start a long task from a CGI-script, that is the child process should live longer than the CGI-script execution process.

The classical example from the subprocess module docs is:

import subprocess
import sys

# some code here

pid = subprocess.Popen([sys.executable, "longtask.py"]) # call subprocess

# some more code here

The idea here is that you do not want to wait in the line 'call subprocess' until the longtask.py is finished. But it is not clear what happens after the line 'some more code here' from the example.

My target platform was freebsd, but the development was on windows, so I faced the problem on windows first.

On windows (win xp), the parent process will not finish until the longtask.py has finished its work. It is not what you want in CGI-script. The problem is not specific to Python, in PHP community the problems are the same.

The solution is to pass DETACHED_PROCESS Process Creation Flag to the underlying CreateProcess function in win API. If you happen to have installed pywin32 you can import the flag from the win32process module, otherwise you should define it yourself:

DETACHED_PROCESS = 0x00000008

pid = subprocess.Popen([sys.executable, "longtask.py"],
                       creationflags=DETACHED_PROCESS).pid

/* UPD 2015.10.27 @eryksun in a comment below notes, that the semantically correct flag is CREATE_NEW_CONSOLE (0x00000010) */

On freebsd we have another problem: when the parent process is finished, it finishes the child processes as well. And that is not what you want in CGI-script either. Some experiments showed that the problem seemed to be in sharing sys.stdout. And the working solution was the following:

pid = subprocess.Popen([sys.executable, "longtask.py"], stdout=subprocess.PIPE, stderr=subprocess.PIPE, stdin=subprocess.PIPE)

I have not checked the code on other platforms and do not know the reasons of the behaviour on freebsd. If anyone knows, please share your ideas. Googling on starting background processes in Python does not shed any light yet.

  • i noticed a possible "quirk" with developing py2exe apps in pydev+eclipse. i was able to tell that the main script was not detached because eclipse's output window was not terminating; even if the script executes to completion it is still waiting for returns. but, when i tried compiling to a py2exe executable, the expected behavior occurs (runs the processes as detached, then quits). i am not sure, but the executable name is not in the process list anymore. this works for all approaches (os.system("start *"), os.spawnl with os.P_DETACH, subprocs, etc.) – maranas Apr 9 '10 at 8:09
  • Windows gotcha: even though I spawned process with DETACHED_PROCESS, when I killed my Python daemon all ports opened by it wouldn't free until all spawned processes terminate. WScript.Shell solved all my problems. Example here: pastebin.com/xGmuvwSx – Alexey Lebedev Apr 16 '12 at 10:04
  • 1
    you might also need CREATE_NEW_PROCESS_GROUP flag. See Popen waiting for child process even when the immediate child has terminated – jfs Nov 16 '12 at 14:16
  • 4
    The following is incorrect: "[o]n windows (win xp), the parent process will not finish until the longtask.py has finished its work". The parent will exit normally, but the console window (conhost.exe instance) only closes when the last attached process exits, and the child may have inherited the parent's console. Setting DETACHED_PROCESS in creationflags avoids this by preventing the child from inheriting or creating a console. If you instead want a new console, use CREATE_NEW_CONSOLE (0x00000010). – eryksun Oct 27 '15 at 0:27
  • 1
    I didn't mean that executing as a detached process is incorrect. That said, you may need to set the standard handles to files, pipes, or os.devnull because some console programs exit with an error otherwise. Create a new console when you want the child process to interact with the user concurrently with the parent process. It would be confusing to try to do both in a single window. – eryksun Oct 27 '15 at 17:37

I'd recommend using the subprocess module instead of os.system because it does shell escaping for you and is therefore much safer: http://docs.python.org/library/subprocess.html

subprocess.call(['ping', 'localhost'])
import os
cmd = 'ls -al'
os.system(cmd)

If you want to return the results of the command, you can use os.popen. However, this is deprecated since version 2.6 in favor of the subprocess module, which other answers have covered well.

  • 6
    popen is deprecated in favor of subprocess. – Fox Wilson Aug 8 '14 at 0:22
  • You can also save your result with the os.system call, since it works like the UNIX shell itself, like for example os.system('ls -l > test2.txt') – Stefan Gruenwald Nov 7 '17 at 23:19
import os
os.system("your command")

Note that this is dangerous, since the command isn't cleaned. I leave it up to you to google for the relevant documentation on the 'os' and 'sys' modules. There are a bunch of functions (exec* and spawn*) that will do similar things.

  • What do you mean by "the command isn't cleaned"? – Peter Mortensen Jun 3 at 17:10
  • 1
    No idea what I meant nearly a decade ago (check the date!), but if I had to guess, it would be that there's no validation done. – nimish Jun 6 at 16:01
  • This should now point to subprocess as a slightly more versatile and portable solution. Running external commands is of course inherently unportable (you have to make sure the command is available on every architecture you need to support) and passing user input as an external command is inherently unsafe. – tripleee Dec 3 at 5:11
  • Note the timestamp on this guy: the "correct" answer has 40x the votes and is answer #1. – nimish Dec 3 at 18:41

I always use fabric for this things like:

from fabric.operations import local
result = local('ls', capture=True)
print "Content:/n%s" % (result, )

But this seem to be a good tool: sh (Python subprocess interface).

Look an example:

from sh import vgdisplay
print vgdisplay()
print vgdisplay('-v')
print vgdisplay(v=True)

Check the "pexpect" Python library, too.

It allows for interactive controlling of external programs/commands, even ssh, ftp, telnet, etc. You can just type something like:

child = pexpect.spawn('ftp 192.168.0.24')

child.expect('(?i)name .*: ')

child.sendline('anonymous')

child.expect('(?i)password')

There are lots of different libraries which allow you to call external commands with Python. For each library I've given a description and shown an example of calling an external command. The command I used as the example is ls -l (list all files). If you want to find out more about any of the libraries I've listed and linked the documentation for each of them.

Sources:

These are all the libraries:

Hopefully this will help you make a decision on which library to use :)

subprocess

Subprocess allows you to call external commands and connect them to their input/output/error pipes (stdin, stdout, and stderr). Subprocess is the default choice for running commands, but sometimes other modules are better.

subprocess.run(["ls", "-l"]) # Run command
subprocess.run(["ls", "-l"], stdout=subprocess.PIPE) # This will run the command and return any output
subprocess.run(shlex.split("ls -l")) # You can also use the shlex library to split the command

os

os is used for "operating system dependent functionality". It can also be used to call external commands with os.system and os.popen (Note: There is also a subprocess.popen). os will always run the shell and is a simple alternative for people who don't need to, or don't know how to use subprocess.run.

os.system("ls -l") # run command
os.popen("ls -l").read() # This will run the command and return any output

sh

sh is a subprocess interface which lets you call programs as if they were functions. This is useful if you want to run a command multiple times.

sh.ls("-l") # Run command normally
ls_cmd = sh.Command("ls") # Save command as a variable
ls_cmd() # Run command as if it were a function

plumbum

plumbum is a library for "script-like" Python programs. You can call programs like functions as in sh. Plumbum is useful if you want to run a pipeline without the shell.

ls_cmd = plumbum.local("ls -l") # get command
ls_cmd() # run command

pexpect

pexpect lets you spawn child applications, control them and find patterns in their output. This is a better alternative to subprocess for commands that expect a tty on Unix.

pexpect.run("ls -l") # Run command as normal
child = pexpect.spawn('scp foo user@example.com:.') # Spawns child application
child.expect('Password:') # When this is the output
child.sendline('mypassword')

fabric

fabric is a Python 2.5 and 2.7 library. It allows you to execute local and remote shell commands. Fabric is simple alternative for running commands in a secure shell (SSH)

fabric.operations.local('ls -l') # Run command as normal
fabric.operations.local('ls -l', capture = True) # Run command and receive output

envoy

envoy is known as "subprocess for humans". It is used as a convenience wrapper around the subprocess module.

r = envoy.run("ls -l") # Run command
r.std_out # get output

commands

commands contains wrapper functions for os.popen, but it has been removed from Python 3 since subprocess is a better alternative.

The edit was based on J.F. Sebastian's comment.

If you need the output from the command you are calling, then you can use subprocess.check_output (Python 2.7+).

>>> subprocess.check_output(["ls", "-l", "/dev/null"])
'crw-rw-rw- 1 root root 1, 3 Oct 18  2007 /dev/null\n'

Also note the shell parameter.

If shell is True, the specified command will be executed through the shell. This can be useful if you are using Python primarily for the enhanced control flow it offers over most system shells and still want convenient access to other shell features such as shell pipes, filename wildcards, environment variable expansion, and expansion of ~ to a user’s home directory. However, note that Python itself offers implementations of many shell-like features (in particular, glob, fnmatch, os.walk(), os.path.expandvars(), os.path.expanduser(), and shutil).

  • Note that check_output requires a list rather than a string. If you don't rely on quoted spaces to make your call valid, the simplest, most readable way to do this is subprocess.check_output("ls -l /dev/null".split()). – Bruno Bronosky Jan 30 at 18:18

With Standard Library

The Use subprocess module (Python 3):

import subprocess
subprocess.run(['ls', '-l'])

It is the recommended standard way. However, more complicated tasks (pipes, output, input, etc.) can be tedious to construct and write.

Note on Python version: If you are still using Python 2, subprocess.call works in a similar way.

ProTip: shlex.split can help you to parse the command for run, call, and other subprocess functions in case you don't want (or you can't!) provide them in form of lists:

import shlex
import subprocess
subprocess.run(shlex.split('ls -l'))

With External Dependencies

If you do not mind external dependencies, use plumbum:

from plumbum.cmd import ifconfig
print(ifconfig['wlan0']())

It is the best subprocess wrapper. It's cross-platform, i.e. it works on both Windows and Unix-like systems. Install by pip install plumbum.

Another popular library is sh:

from sh import ifconfig
print(ifconfig('wlan0'))

However, sh dropped Windows support, so it's not as awesome as it used to be. Install by pip install sh.

This is how I run my commands. This code has everything you need pretty much

from subprocess import Popen, PIPE
cmd = "ls -l ~/"
p = Popen(cmd , shell=True, stdout=PIPE, stderr=PIPE)
out, err = p.communicate()
print "Return code: ", p.returncode
print out.rstrip(), err.rstrip()
  • 2
    Passing commands as strings is normally a bad idea – Eric Jul 23 '13 at 18:29
  • 2
    I think it's acceptable for hard-coded commands, if it increases readability. – Adam Matan Apr 2 '14 at 13:07

Update:

subprocess.run is the recommended approach as of Python 3.5 if your code does not need to maintain compatibility with earlier Python versions. It's more consistent and offers similar ease-of-use as Envoy. (Piping isn't as straightforward though. See this question for how.)

Here's some examples from the docs.

Run a process:

>>> subprocess.run(["ls", "-l"])  # doesn't capture output
CompletedProcess(args=['ls', '-l'], returncode=0)

Raise on failed run:

>>> subprocess.run("exit 1", shell=True, check=True)
Traceback (most recent call last):
  ...
subprocess.CalledProcessError: Command 'exit 1' returned non-zero exit status 1

Capture output:

>>> subprocess.run(["ls", "-l", "/dev/null"], stdout=subprocess.PIPE)
CompletedProcess(args=['ls', '-l', '/dev/null'], returncode=0,
stdout=b'crw-rw-rw- 1 root root 1, 3 Jan 23 16:23 /dev/null\n')

Original answer:

I recommend trying Envoy. It's a wrapper for subprocess, which in turn aims to replace the older modules and functions. Envoy is subprocess for humans.

Example usage from the readme:

>>> r = envoy.run('git config', data='data to pipe in', timeout=2)

>>> r.status_code
129
>>> r.std_out
'usage: git config [options]'
>>> r.std_err
''

Pipe stuff around too:

>>> r = envoy.run('uptime | pbcopy')

>>> r.command
'pbcopy'
>>> r.status_code
0

>>> r.history
[<Response 'uptime'>]

Without the output of the result:

import os
os.system("your command here")

With output of the result:

import commands
commands.getoutput("your command here")
or
commands.getstatusoutput("your command here")
  • commands is no longer available in Python 3. You should prefer subprocess over os.system() – tripleee Dec 3 at 5:33

https://docs.python.org/2/library/subprocess.html

...or for a very simple command:

import os
os.system('cat testfile')

os.system is OK, but kind of dated. It's also not very secure. Instead, try subprocess. subprocess does not call sh directly and is therefore more secure than os.system.

Get more information here.

  • While I agree with the overall recommendation, subprocess does not remove all of the security problems, and has some pesky issues of its own. – tripleee Dec 3 at 5:36

There is also Plumbum

>>> from plumbum import local
>>> ls = local["ls"]
>>> ls
LocalCommand(<LocalPath /bin/ls>)
>>> ls()
u'build.py\ndist\ndocs\nLICENSE\nplumbum\nREADME.rst\nsetup.py\ntests\ntodo.txt\n'
>>> notepad = local["c:\\windows\\notepad.exe"]
>>> notepad()                                   # Notepad window pops up
u''                                             # Notepad window is closed by user, command returns

Use:

import os

cmd = 'ls -al'

os.system(cmd)

os - This module provides a portable way of using operating system-dependent functionality.

For the more os functions, here is the documentation.

  • 2
    it's also deprecated. use subprocess – Corey Goldberg Dec 9 '15 at 18:13

It can be this simple:

import os
cmd = "your command"
os.system(cmd)
  • This fails to point out the drawbacks, which are explained in much more detail in PEP-324. The documentation for os.system explicitly recommends avoiding it in favor of subprocess. – tripleee Dec 3 at 5:02

Calling an external command in Python

Simple, use subprocess.run, which returns a CompletedProcess object:

>>> import subprocess
>>> completed_process = subprocess.run('python --version')
Python 3.6.1 :: Anaconda 4.4.0 (64-bit)
>>> completed_process
CompletedProcess(args='python --version', returncode=0)

Why?

As of Python 3.5, the documentation recommends subprocess.run:

The recommended approach to invoking subprocesses is to use the run() function for all use cases it can handle. For more advanced use cases, the underlying Popen interface can be used directly.

Here's an example of the simplest possible usage - and it does exactly as asked:

>>> import subprocess
>>> completed_process = subprocess.run('python --version')
Python 3.6.1 :: Anaconda 4.4.0 (64-bit)
>>> completed_process
CompletedProcess(args='python --version', returncode=0)

run waits for the command to successfully finish, then returns a CompletedProcess object. It may instead raise TimeoutExpired (if you give it a timeout= argument) or CalledProcessError (if it fails and you pass check=True).

As you might infer from the above example, stdout and stderr both get piped to your own stdout and stderr by default.

We can inspect the returned object and see the command that was given and the returncode:

>>> completed_process.args
'python --version'
>>> completed_process.returncode
0

Capturing output

If you want to capture the output, you can pass subprocess.PIPE to the appropriate stderr or stdout:

>>> cp = subprocess.run('python --version', 
                        stderr=subprocess.PIPE, 
                        stdout=subprocess.PIPE)
>>> cp.stderr
b'Python 3.6.1 :: Anaconda 4.4.0 (64-bit)\r\n'
>>> cp.stdout
b''

(I find it interesting and slightly counterintuitive that the version info gets put to stderr instead of stdout.)

Pass a command list

One might easily move from manually providing a command string (like the question suggests) to providing a string built programmatically. Don't build strings programmatically. This is a potential security issue. It's better to assume you don't trust the input.

>>> import textwrap
>>> args = ['python', textwrap.__file__]
>>> cp = subprocess.run(args, stdout=subprocess.PIPE)
>>> cp.stdout
b'Hello there.\r\n  This is indented.\r\n'

Note, only args should be passed positionally.

Full Signature

Here's the actual signature in the source and as shown by help(run):

def run(*popenargs, input=None, timeout=None, check=False, **kwargs):

The popenargs and kwargs are given to the Popen constructor. input can be a string of bytes (or unicode, if specify encoding or universal_newlines=True) that will be piped to the subprocess's stdin.

The documentation describes timeout= and check=True better than I could:

The timeout argument is passed to Popen.communicate(). If the timeout expires, the child process will be killed and waited for. The TimeoutExpired exception will be re-raised after the child process has terminated.

If check is true, and the process exits with a non-zero exit code, a CalledProcessError exception will be raised. Attributes of that exception hold the arguments, the exit code, and stdout and stderr if they were captured.

and this example for check=True is better than one I could come up with:

>>> subprocess.run("exit 1", shell=True, check=True)
Traceback (most recent call last):
  ...
subprocess.CalledProcessError: Command 'exit 1' returned non-zero exit status 1

Expanded Signature

Here's an expanded signature, as given in the documentation:

subprocess.run(args, *, stdin=None, input=None, stdout=None, stderr=None, 
shell=False, cwd=None, timeout=None, check=False, encoding=None, 
errors=None)

Note that this indicates that only the args list should be passed positionally. So pass the remaining arguments as keyword arguments.

Popen

When use Popen instead? I would struggle to find use-case based on the arguments alone. Direct usage of Popen would, however, give you access to its methods, including poll, 'send_signal', 'terminate', and 'wait'.

Here's the Popen signature as given in the source. I think this is the most precise encapsulation of the information (as opposed to help(Popen)):

def __init__(self, args, bufsize=-1, executable=None,
             stdin=None, stdout=None, stderr=None,
             preexec_fn=None, close_fds=_PLATFORM_DEFAULT_CLOSE_FDS,
             shell=False, cwd=None, env=None, universal_newlines=False,
             startupinfo=None, creationflags=0,
             restore_signals=True, start_new_session=False,
             pass_fds=(), *, encoding=None, errors=None):

But more informative is the Popen documentation:

subprocess.Popen(args, bufsize=-1, executable=None, stdin=None,
                 stdout=None, stderr=None, preexec_fn=None, close_fds=True,
                 shell=False, cwd=None, env=None, universal_newlines=False,
                 startupinfo=None, creationflags=0, restore_signals=True,
                 start_new_session=False, pass_fds=(), *, encoding=None, errors=None)

Execute a child program in a new process. On POSIX, the class uses os.execvp()-like behavior to execute the child program. On Windows, the class uses the Windows CreateProcess() function. The arguments to Popen are as follows.

Understanding the remaining documentation on Popen will be left as an exercise for the reader.

  • A simple example of two-way communication between a primary process and a subprocess can be found here: stackoverflow.com/a/52841475/1349673 – James Hirschorn Oct 16 at 18:05
  • The first example should probably have shell=True or (better yet) pass the command as a list. – tripleee Dec 3 at 5:16

subprocess.check_call is convenient if you don't want to test return values. It throws an exception on any error.

os.system does not allow you to store results, so if you want to store results in some list or something subprocess.call works.

I tend to use subprocess together with shlex (to handle escaping of quoted strings):

>>> import subprocess, shlex
>>> command = 'ls -l "/your/path/with spaces/"'
>>> call_params = shlex.split(command)
>>> print call_params
["ls", "-l", "/your/path/with spaces/"]
>>> subprocess.call(call_params)

There is another difference here which is not mentioned previously.

subprocess.Popen executes the <command> as a subprocess. In my case, I need to execute file <a> which needs to communicate with another program, <b>.

I tried subprocess, and execution was successful. However <b> could not communicate with <a>. Everything is normal when I run both from the terminal.

One more: (NOTE: kwrite behaves different from other applications. If you try the below with Firefox, the results will not be the same.)

If you try os.system("kwrite"), program flow freezes until the user closes kwrite. To overcome that I tried instead os.system(konsole -e kwrite). This time program continued to flow, but kwrite became the subprocess of the console.

Anyone runs the kwrite not being a subprocess (i.e. in the system monitor it must appear at the leftmost edge of the tree).

  • 1
    What do you mean by "Anyone runs the kwrite not being a subprocess"? – Peter Mortensen Jun 3 at 20:14

Shameless plug, I wrote a library for this :P https://github.com/houqp/shell.py

It's basically a wrapper for popen and shlex for now. It also supports piping commands so you can chain commands easier in Python. So you can do things like:

ex('echo hello shell.py') | "awk '{print $2}'"

I quite like shell_command for its simplicity. It's built on top of the subprocess module.

Here's an example from the docs:

>>> from shell_command import shell_call
>>> shell_call("ls *.py")
setup.py  shell_command.py  test_shell_command.py
0
>>> shell_call("ls -l *.py")
-rw-r--r-- 1 ncoghlan ncoghlan  391 2011-12-11 12:07 setup.py
-rw-r--r-- 1 ncoghlan ncoghlan 7855 2011-12-11 16:16 shell_command.py
-rwxr-xr-x 1 ncoghlan ncoghlan 8463 2011-12-11 16:17 test_shell_command.py
0

Under Linux, in case you would like to call an external command that will execute independently (will keep running after the python script terminates), you can use a simple queue as task spooler or the at command

An example with task spooler:

import os
os.system('ts <your-command>')

Notes about task spooler (ts):

  1. You could set the number of concurrent processes to be run ("slots") with:

    ts -S <number-of-slots>

  2. Installing ts doesn't requires admin privileges. You can download and compile it from source with a simple make, add it to your path and you're done.

  • ts is not standard on any distro I know of, though the pointer to at is mildly useful. You should probably also mention batch. As elsewhere, the os.system() recommendation should probably at least mention that subprocess is its recommended replacement. – tripleee Dec 3 at 5:43

You can use Popen, and then you can check the procedure's status:

from subprocess import Popen

proc = Popen(['ls', '-l'])
if proc.poll() is None:
    proc.kill()

Check out subprocess.Popen.

In Windows you can just import the subprocess module and run external commands by calling subprocess.Popen(), subprocess.Popen().communicate() and subprocess.Popen().wait() as below:

# Python script to run a command line
import subprocess

def execute(cmd):
    """
        Purpose  : To execute a command and return exit status
        Argument : cmd - command to execute
        Return   : exit_code
    """
    process = subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
    (result, error) = process.communicate()

    rc = process.wait()

    if rc != 0:
        print "Error: failed to execute command:", cmd
        print error
    return result
# def

command = "tasklist | grep python"
print "This process detail: \n", execute(command)

Output:

This process detail:
python.exe                     604 RDP-Tcp#0                  4      5,660 K

protected by Martijn Pieters Apr 16 '13 at 20:23

Thank you for your interest in this question. Because it has attracted low-quality or spam answers that had to be removed, posting an answer now requires 10 reputation on this site (the association bonus does not count).

Would you like to answer one of these unanswered questions instead?

Not the answer you're looking for? Browse other questions tagged or ask your own question.