Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I need to run some python files over and over with different settings and different file names.

Here is an example of a task I need to do. This is for Linux, but I need to do the same thing in Windows. Is there a way to use python to be the caller and run other python scripts which are already set to work on STD I/O? Does python have a shell like this? I would rather do this than switch over to maintaining batch code on both Linux and Windows.

#!/bin/bash
#run scripts to generate and manipulate data

for ((i=1; i<=3 ; i++))
do
    randfuncgen.py -k 12 > randomvalues_$i.fitdata
    probe.py -k 12 < randomvalues_$i.fitdata > randomvalues_$i.walshdata
    std.py -m s < randomvalue_$i.walshdata > randomvalues_separate_std_$i.walshdata
    std.py -m a < randomvalue_$i.walshdata > randomvalues_all_std_$i.walshdata
done
share|improve this question

2 Answers 2

Yes, you can use the python subprocess module to do exactly what you are trying to achieve.

Your code could look like

import subprocess
for i in range(3):
    subprocess.Popen(['-k', 12],                                  # args
                     -1,                                          # buffer_sie
                     'python randfuncgen.py',                     # executable
                     stdout=open("randomvalues_%i.fitdata"%i,'w') # output
                     )
    # Other such processes/executions
share|improve this answer

Each one of your programs (randfuncgen.py, probe.py, std.py) would need to support outputting via sys.stdout.write('your output'), and inputting via sys.stdin.

You can take a look at the documentation on the subprocess module and the relevant section on "replacing the shell pipeline" here http://docs.python.org/2/library/subprocess.html#replacing-shell-pipeline

so for example:

import subprocess as sp
for counter in range(1,4):
    p1 = sp.Popen(['randfuncgen.py','-k','12',], stout=sp.PIPE)
    p2 = sp.Popen(['probe.py', '-k', '12'], stdin=p1.stdout, stdout=PIPE)
    p3 = sp.Popen(['std.py', '-m', 's'], stdin=p2.stdout, stdout='randomvalues_separate_std_%d.walshdata'%counter)
    p4 = sp.Popen(['std.py', '-m', 'a'], stdin=p2.stdout, stdout='randomvalues_all_std_%d.walshdata'%counter)

You may have to do output from p2 as a file, as I'm not sure if the pipe is exhausted before p4 runs

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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