17.5. popen2 — Subprocesses with accessible I/O streams

Obsoleto desde a versão 2.6: This module is obsolete. Use the subprocess module. Check especially the Replacing Older Functions with the subprocess Module section.

This module allows you to spawn processes and connect to their input/output/error pipes and obtain their return codes under Unix and Windows.

The subprocess module provides more powerful facilities for spawning new processes and retrieving their results. Using the subprocess module is preferable to using the popen2 module.

The primary interface offered by this module is a trio of factory functions. For each of these, if bufsize is specified, it specifies the buffer size for the I/O pipes. mode, if provided, should be the string 'b' or 't'; on Windows this is needed to determine whether the file objects should be opened in binary or text mode. The default value for mode is 't'.

On Unix, cmd may be a sequence, in which case arguments will be passed directly to the program without shell intervention (as with os.spawnv()). If cmd is a string it will be passed to the shell (as with os.system()).

The only way to retrieve the return codes for the child processes is by using the poll() or wait() methods on the Popen3 and Popen4 classes; these are only available on Unix. This information is not available when using the popen2(), popen3(), and popen4() functions, or the equivalent functions in the os module. (Note that the tuples returned by the os module’s functions are in a different order from the ones returned by the popen2 module.)

popen2.popen2(cmd[, bufsize[, mode]])

Executes cmd as a sub-process. Returns the file objects (child_stdout, child_stdin).

popen2.popen3(cmd[, bufsize[, mode]])

Executes cmd as a sub-process. Returns the file objects (child_stdout, child_stdin, child_stderr).

popen2.popen4(cmd[, bufsize[, mode]])

Executes cmd as a sub-process. Returns the file objects (child_stdout_and_stderr, child_stdin).

Novo na versão 2.0.

On Unix, a class defining the objects returned by the factory functions is also available. These are not used for the Windows implementation, and are not available on that platform.

class popen2.Popen3(cmd[, capturestderr[, bufsize]])

This class represents a child process. Normally, Popen3 instances are created using the popen2() and popen3() factory functions described above.

If not using one of the helper functions to create Popen3 objects, the parameter cmd is the shell command to execute in a sub-process. The capturestderr flag, if true, specifies that the object should capture standard error output of the child process. The default is false. If the bufsize parameter is specified, it specifies the size of the I/O buffers to/from the child process.

class popen2.Popen4(cmd[, bufsize])

Similar to Popen3, but always captures standard error into the same file object as standard output. These are typically created using popen4().

Novo na versão 2.0.

17.5.1. Popen3 and Popen4 Objects

Instances of the Popen3 and Popen4 classes have the following methods:

Popen3.poll()

Returns -1 if child process hasn’t completed yet, or its status code (see wait()) otherwise.

Popen3.wait()

Waits for and returns the status code of the child process. The status code encodes both the return code of the process and information about whether it exited using the exit() system call or died due to a signal. Functions to help interpret the status code are defined in the os module; see section Process Management for the W*() family of functions.

The following attributes are also available:

Popen3.fromchild

A file object that provides output from the child process. For Popen4 instances, this will provide both the standard output and standard error streams.

Popen3.tochild

A file object that provides input to the child process.

Popen3.childerr

A file object that provides error output from the child process, if capturestderr was true for the constructor, otherwise None. This will always be None for Popen4 instances.

Popen3.pid

The process ID of the child process.

17.5.2. Flow Control Issues

Any time you are working with any form of inter-process communication, control flow needs to be carefully thought out. This remains the case with the file objects provided by this module (or the os module equivalents).

When reading output from a child process that writes a lot of data to standard error while the parent is reading from the child’s standard output, a deadlock can occur. A similar situation can occur with other combinations of reads and writes. The essential factors are that more than _PC_PIPE_BUF bytes are being written by one process in a blocking fashion, while the other process is reading from the first process, also in a blocking fashion.

There are several ways to deal with this situation.

The simplest application change, in many cases, will be to follow this model in the parent process:

import popen2

r, w, e = popen2.popen3('python slave.py')
e.readlines()
r.readlines()
r.close()
e.close()
w.close()

with code like this in the child:

import os
import sys

# note that each of these print statements
# writes a single long string

print >>sys.stderr, 400 * 'this is a test\n'
os.close(sys.stderr.fileno())
print >>sys.stdout, 400 * 'this is another test\n'

In particular, note that sys.stderr must be closed after writing all data, or readlines() won’t return. Also note that os.close() must be used, as sys.stderr.close() won’t close stderr (otherwise assigning to sys.stderr will silently close it, so no further errors can be printed).

Applications which need to support a more general approach should integrate I/O over pipes with their select() loops, or use separate threads to read each of the individual files provided by whichever popen*() function or Popen* class was used.

Ver também

Module subprocess

Module for spawning and managing subprocesses.