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Again, the same question.
The reason is - I still can't make it work after reading the following:

My case is that I have a console app written in C, lets take for example this code in a loop:

tmp = 0.0;   
printf ("\ninput was: %f",tmp); 

It continuously reads some input and writes some output.

My python code to interact with it is the following:

for line in p.stdout: 
    print(">>> " + str(line.rstrip())) 

So far whenever I read form p.stdout it always waits until the process is terminated and then outputs an empty string. I've tried lots of stuff - but still the same result.

I tried Python 2.6 and 3.1, but the version doesn't matter - I just need to make it work somewhere.

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I'm in exactly the same situation, having read all those question and still found nothing elegant that works. –  Mike Chamberlain Mar 8 '12 at 2:48
I came here with the same question, found the answer here stackoverflow.com/q/375427/168034 –  phunehehe Oct 16 '13 at 10:47

4 Answers 4

Trying to write to and read from pipes to a sub-process is tricky because of the default buffering going on in both directions. It's extremely easy to get a deadlock where one or the other process (parent or child) is reading from an empty buffer, writing into a full buffer or doing a blocking read on a buffer that's awaiting data before the system libraries flush it.

For more modest amounts of data the Popen.communicate() method might be sufficient. However, for data that exceeds its buffering you'd probably get stalled processes (similar to what you're already seeing?)

You might want to look for details on using the fcntl module and making one or the other (or both) of your file descriptors non-blocking. In that case, of course, you'll have to wrap all reads and/or writes to those file descriptors in the appropriate exception handling to handle the "EWOULDBLOCK" events. (I don't remember the exact Python exception that's raised for these).

A completely different approach would be for your parent to use the select module and os.fork() ... and for the child process to execve() the target program after directly handling any file dup()ing. (Basically you'd be re-implement parts of Popen() but with different parent file descriptor (PIPE) handling.

Incidentally, .communicate, at least in Python's 2.5 and 2.6 standard libraries, will only handle about 64K of remote data (on Linux and FreeBSD). This number may vary based on various factors (possibly including the build options used to compile your Python interpreter, or the version of libc being linked to it). It is NOT simply limited by available memory (despite J.F. Sebastian's assertion to the contrary) but is limited to a much smaller value.

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Could you provide an example implementation? I just played a bit with the Queue module, but it doesn't work at all. –  Philipp Jun 29 '10 at 12:50
+1 for mentioning the buffering as the main culprit, see also Why not just use a pipe (popen())? from pexpect docs. But the answer is too pessimistic i.e., .communicate() would work for any data that can fit in memory (much larger than pipe buffer sizes). Also fcntl (probably) won't work on Windows and it is not necessary anyway. –  J.F. Sebastian Sep 4 '13 at 15:05
.communicate() does work. Earlier versions probably had a bug that is fixed now. –  J.F. Sebastian Sep 6 '13 at 8:28

Push reading from the pipe into a separate thread that signals when a chunk of output is available:


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The bufsize=256 argument prevents 12345\n from being sent to the child process in a chunk smaller than 256 bytes, as it will be when omitting bufsize or inserting p.stdin.flush() after p.stdin.write(). Default behaviour is line-buffering.

In either case you should at least see one empty line before blocking as emitted by the first printf(\n...) in your example.

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Your particular example doesn't require "real-time" interaction. The following works:

from subprocess import Popen, PIPE

p = Popen(["./a.out"], stdin=PIPE, stdout=PIPE)
output = p.communicate(b"12345")[0] # send input/read all output
print output,

where a.out is your example C program.

In general, for a dialog-based interaction with a subprocess you could use pexpect module (or its analogs on Windows):

import pexpect

child = pexpect.spawn("./a.out")
child.sendline("12345.67890") # send a number
child.expect(r"\d+\.\d+") # expect the number at the end
print float(child.after) # assert that we can parse it
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