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pty.fork()¶ Fork. Connect the child’s controlling terminal to a pseudo-terminal. Return value is (pid, fd). Note that the child gets pid 0, and the fd is invalid. The parent’s return value is the pid of the child, and fd is a file descriptor connected to the child’s controlling terminal (and also to the child’s standard input and output).

What's does this mean ? Every process has 3 fd (stdin,stdout,stderr). Does this affects these fds now ? will child process won't have any of these fds? I'm confused.--totally.

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I think I finally got a minimal example for pty.fork in Python - and since I found it extremely difficult to find a similar example, I'm posting it here as an illustration of @joni's answer. It is essentially based on:

Particularly nasty bits are finding documentation that still refers to master_open() which is obsolete; and the fact that pty.fork will not spawn a child process, unless the file descriptor (returned by the fork method) is read from by the parent process! (note that in os.fork there is no such requirement) Also, it seems that os.fork is a bit more portable (read a few comments noting that pty.fork doesn't work on some platforms).

Anyways, here's first a script ( that acts as an executable (it simply reads lines from standard input, and writes them back in uppercase):

#!/usr/bin/env python

import sys;

print "pyecho starting..."

while True:
  print sys.stdin.readline().upper()

... and then, here is the actual script (it will require that is in the same directory):

#!/usr/bin/env python

import sys
import os
import time
import pty

def my_pty_fork():

  # fork this script
    ( child_pid, fd ) = pty.fork()    # OK
    #~ child_pid, fd = os.forkpty()      # OK
  except OSError as e:
    print str(e)

  #~ print "%d - %d" % (fd, child_pid)
  # NOTE - unlike OS fork; in pty fork we MUST use the fd variable
  #   somewhere (i.e. in parent process; it does not exist for child)
  # ... actually, we must READ from fd in parent process...
  #   if we don't - child process will never be spawned!

  if child_pid == 0:
    print "In Child Process: PID# %s" % os.getpid()
    # note: fd for child is invalid (-1) for pty fork!
    #~ print "%d - %d" % (fd, child_pid)

    # the os.exec replaces the child process
      #Note: "the first of these arguments is passed to the new program as its own name"
      # so:: "python": actual executable; "ThePythonProgram": name of executable in process list (`ps axf`); "": first argument to executable..
      print "Cannot spawn execlp..."
    print "In Parent Process: PID# %s" % os.getpid()
    # MUST read from fd; else no spawn of child!
    print, 100) # in fact, this line prints out the "In Child Process..." sentence above!

    os.write(fd,"message one\n")
    print, 100)        # message one
    os.write(fd,"message two\n")
    print, 10000)      # pyecho starting...\n MESSAGE ONE
    print, 10000)      # message two \n MESSAGE TWO
    # uncomment to lock (can exit with Ctrl-C)
    #~ while True:
      #~ print, 10000)

if __name__ == "__main__":

Well, hope this helps someone,

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This code doesn't work for me. Here's the output: – Rose Perrone Mar 20 '13 at 22:17

The main point of using pty.fork() is that the returned pseudoterminal (pty) file descriptor can be used to communicate with the spawned process in a different way, ie. via direct writing to and reading from its (pseudo-) terminal - rather than stdin/out/err.

There's also more information about pty's and tty's (from StackOverflow), and a link to a simple example of using pty.fork().

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"and fd is a file descriptor connected to the child’s controlling terminal" --> The child process will not see any difference, it will be able to access stdin/out normally (I dont know about stderr). The only difference is that on the other side of the "pipe" is not a terminal where an user is reading/typing, but the parent process which can access is by the returned fd.

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Thanks Joni.Here is what i understood.When pty.fork() is invoked. parent process is connected to ptmx master. parent will wait for input from keyboard or data from master.

child closes its stdin,stdout and stderr. And duplicates slaves stdin,stdout.stderr. now child executed a program (say bc).The program is waiting for input,when you type 1+1--its passed to master (remember both child and slave has some stdin,stdout,stderr) by child/slave. master computes its answer "2" and writes into stdout- since parent is waiting for data from master -it picks up "2" and writes into stdout.

I came this conclusion after going through few good old c programs on pseudo-terminal :) I don't think python's logic won't be different from them. HTH someone.

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