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How do I execute the following shell command using the Python subprocess module?

echo "input data" | awk -f script.awk | sort > outfile.txt

The input data will come from a string, so I don't actually need echo. I've got this far, can anyone explain how I get it to pipe through sort too?

p_awk = subprocess.Popen(["awk","-f","script.awk"],
                          stdout=file("outfile.txt", "w"))
p_awk.communicate( "input data" )

UPDATE: Note that while the accepted answer below doesn't actually answer the question as asked, I believe S.Lott is right and it's better to avoid having to solve that problem in the first place!

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4 Answers 4

up vote 20 down vote accepted

You'd be a little happier with the following.

import subprocess

awk_sort = subprocess.Popen( ["-c", "awk -f script.awk | sort > outfile.txt" ],
    stdin= subprocess.PIPE, shell=True )
awk_sort.communicate( "input data\n" )

Delegate part of the work to the shell. Let it connect two processes with a pipeline.

You'd be a lot happier rewriting 'script.awk' into Python, eliminating awk and the pipeline.

Edit. Some of the reasons for suggesting that awk isn't helping.

[There are too many reasons to respond via comments.]

  1. Awk is adding a step of no significant value. There's nothing unique about awk's processing that Python doesn't handle.

  2. The pipelining from awk to sort, for large sets of data, may improve elapsed processing time. For short sets of data, it has no significant benefit. A quick measurement of awk >file ; sort file and awk | sort will reveal of concurrency helps. With sort, it rarely helps because sort is not a once-through filter.

  3. The simplicity of "Python to sort" processing (instead of "Python to awk to sort") prevents the exact kind of questions being asked here.

  4. Python -- while wordier than awk -- is also explicit where awk has certain implicit rules that are opaque to newbies, and confusing to non-specialists.

  5. Awk (like the shell script itself) adds Yet Another Programming language. If all of this can be done in one language (Python), eliminating the shell and the awk programming eliminates two programming languages, allowing someone to focus on the value-producing parts of the task.

Bottom line: awk can't add significant value. In this case, awk is a net cost; it added enough complexity that it was necessary to ask this question. Removing awk will be a net gain.

Sidebar Why building a pipeline (a | b) is so hard.

When the shell is confronted with a | b it has to do the following.

  1. Fork a child process of the original shell. This will eventually become b.

  2. Build an os pipe. (not a Python subprocess.PIPE) but call os.pipe() which returns two new file descriptors that are connected via common buffer. At this point the process has stdin, stdout, stderr from its parent, plus a file that will be "a's stdout" and "b's stdin".

  3. Fork a child. The child replaces its stdout with the new a's stdout. Exec the a process.

  4. The b child closes replaces its studin with the new b's stdin. Exec the b process.

  5. The b child waits for a to complete.

  6. The parent is waiting for b to complete.

I think that the above can be used recursively to spawn a | b | c, but you have to implicitly parenthesize long pipelines, treating them as if they're a | (b | c).

Since Python has os.pipe(), os.exec() and os.fork(), and you can replace sys.stdin and sys.stdout, there's a way to do the above in pure Python. Indeed, you may be able to work out some shortcuts using os.pipe() and subprocess.Popen.

However, it's easier to delegate that operation to the shell.

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That's pretty evil! –  Ali Afshar Nov 17 '08 at 23:19
Can you explain what the "-c" does? –  Tom Nov 17 '08 at 23:37
And I think Awk is actually a good fit for what I am doing, the code is shorter and simpler than the equivalent Python code (it's a domain specific language after all.) –  Tom Nov 17 '08 at 23:40
"the code is shorter" does not -- actually -- mean simpler. It only means shorter. Awk has a lot of assumptions and hidden features that make the code very hard to work with. Python, while longer, is explicit. –  S.Lott Nov 18 '08 at 0:27
The -c is already included in shell=True. –  glglgl May 23 '13 at 14:25

http://www.python.org/doc/2.5.2/lib/node535.html covered this pretty well. Is there some part of this you didn't understand?

Your program would be pretty similar, but the second Popen would have stdout= to a file, and you wouldn't need the output of its .communicate().

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What I don't understand (given the documentation's example) is if I say p2.communicate("input data"), does that actually get sent to p1.stdin? –  Tom Nov 17 '08 at 23:35
You wouldn't. p1's stdin arg would be set to PIPE and you'd write p1.communicate('foo') then pick up the results by doing p2.stdout.read() –  geocar Nov 18 '08 at 21:30
The link python.org/doc/2.5.2/lib/node535.html no longer exists. –  Leonid Jun 12 at 1:40
@Leonid - The Python people aren't very good at backwards compatibility. You can get much of the same information from: docs.python.org/2/library/subprocess.html#popen-objects but I've replaced the link with a wayback machine link anyway. –  geocar Jun 28 at 12:48
import subprocess

some_string = 'input_data'

sort_out = file('outfile.txt','w')
sort_in = subprocess.Popen('sort', stdin=subprocess.PIPE, stdout=sort_out).stdin
subprocess.Popen(['awk', '-f', 'script.awk'], stdout=sort_in, \

Not tested.

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excellent! I modified it to make a self-contained example without the awk script, it uses sed: sam.nipl.net/code/python/pipeline.py –  Sam Watkins Mar 14 '13 at 4:41
@SamWatkins: you don't need p1.wait() in your code. p1.communicate() reaps the child process. –  J.F. Sebastian Sep 11 at 18:19

To emulate a shell pipeline:

from subprocess import check_call

check_call('echo "input data" | a | b > outfile.txt', shell=True)

without invoking the shell (see Replacing shell pipeline):

#!/usr/bin/env python
from subprocess import Popen, PIPE

a = Popen(["a"], stdin=PIPE, stdout=PIPE)
with open("outfile.txt", "wb") as outfile:
    b = Popen(["b"], stdin=a.stdout, stdout=outfile)
a.stdout.close() # notify `a` if `b` exits (doesn't accept input anymore)
a.stdin.write(b"input data")
a.stdin.close() # no more input
a.wait() # should return on EOF in stdin or after an attempt to write to stdout

plumbum provides some syntax sugar:

#!/usr/bin/env python
from plumbum.cmd import a, b # magic

(a << "input data" | b > "outfile.txt")()

The analog of:

echo "input data" | awk -f script.awk | sort > outfile.txt


#!/usr/bin/env python
from plumbum.cmd import awk, sort

(awk["-f", "script.awk"] << "input data" | sort > "outfile.txt")()
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plumbum looks great. –  glglgl May 23 '13 at 14:24

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