Remove backticks from a plaintext PEP.

This commit is contained in:
Brett Cannon 2009-09-09 16:17:44 +00:00
parent d651737d8b
commit cddfac92a6
1 changed files with 23 additions and 31 deletions

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@ -12,10 +12,10 @@ Post-History:
Abstract:
In its present form, the ``subprocess.Popen`` implementation is prone to
In its present form, the subprocess.Popen implementation is prone to
dead-locking and blocking of the parent Python script while waiting on data
from the child process. This PEP proposes to make
``subprocess.Popen`` more asynchronous to help alleviate these
subprocess.Popen more asynchronous to help alleviate these
problems.
Motivation:
@ -26,7 +26,7 @@ Motivation:
blocking to wait for the program to produce data [1] [2] [3]. The current
behavior of the subprocess module is that when a user sends or receives
data via the stdin, stderr and stdout file objects, dead locks are common
and documented [4] [5]. While ``communicate`` can be used to alleviate some of
and documented [4] [5]. While communicate can be used to alleviate some of
the buffering issues, it will still cause the parent process to block while
attempting to read data when none is available to be read from the child
process.
@ -34,14 +34,13 @@ Motivation:
Rationale:
There is a documented need for asynchronous, non-blocking functionality in
``subprocess.Popen`` [6] [7] [2] [3]. Inclusion of the code would improve the
subprocess.Popen [6] [7] [2] [3]. Inclusion of the code would improve the
utility of the Python standard library that can be used on Unix based and
Windows builds of Python. Practically every I/O object in Python has a
file-like wrapper of some sort. Sockets already act as such and for
strings there is ``StringIO``. Popen can be made to act like a file by simply
using the methods attached the the ``subprocess.Popen.stderr``,
``stdout`` and
``stdin`` file-like objects. But when using the read and write methods of
strings there is StringIO. Popen can be made to act like a file by simply
using the methods attached the the subprocess.Popen.stderr, stdout and
stdin file-like objects. But when using the read and write methods of
those options, you do not have the benefit of asynchronous I/O. In the
proposed solution the wrapper wraps the asynchronous methods to mimic a
file object.
@ -53,43 +52,36 @@ Reference Implementation:
the problems I have come across in the development process [10].
I have been working on implementing non-blocking asynchronous I/O in the
``subprocess.Popen`` module as well as a wrapper class for
``subprocess.Popen``
subprocess.Popen module as well as a wrapper class for subprocess.Popen
that makes it so that an executed process can take the place of a file by
duplicating all of the methods and attributes that file objects have.
There are two base functions that have been added to the
``subprocess.Popen``
class: ``Popen.send`` and ``Popen._recv``, each with two separate implementations,
There are two base functions that have been added to the subprocess.Popen
class: Popen.send and Popen._recv, each with two separate implementations,
one for Windows and one for Unix based systems. The Windows
implementation uses ``ctypes`` to access the functions needed to control pipes
implementation uses ctypes to access the functions needed to control pipes
in the kernel 32 DLL in an asynchronous manner. On Unix based systems,
the Python interface for file control serves the same purpose. The
different implementations of ``Popen.send`` and ``Popen._recv`` have identical
different implementations of Popen.send and Popen._recv have identical
arguments to make code that uses these functions work across multiple
platforms.
When calling the ``Popen._recv`` function, it requires the pipe name be
passed as an argument so there exists the ``Popen.recv`` function that passes
selects ``stdout`` as the pipe for ``Popen._recv`` by default.
``Popen.recv_err``
selects ``stderr`` as the pipe by default. ``Popen.recv`` and
``Popen.recv_err``
are much easier to read and understand than
``Popen._recv('stdout' ...)`` and
``Popen._recv('stderr' ...)`` respectively.
When calling the Popen._recv function, it requires the pipe name be
passed as an argument so there exists the Popen.recv function that passes
selects stdout as the pipe for Popen._recv by default. Popen.recv_err
selects stderr as the pipe by default. Popen.recv and Popen.recv_err
are much easier to read and understand than Popen._recv('stdout' ...) and
Popen._recv('stderr' ...) respectively.
Since the ``Popen._recv`` function does not wait on data to be produced
before returning a value, it may return empty bytes.
``Popen.asyncread``
Since the Popen._recv function does not wait on data to be produced
before returning a value, it may return empty bytes. Popen.asyncread
handles this issue by returning all data read over a given time
interval.
The ``ProcessIOWrapper`` class uses the ``asyncread`` and
``asyncwrite`` functions to
The ProcessIOWrapper class uses the asyncread and asyncwrite functions to
allow a process to act like a file so that there are no blocking issues
that can arise from using the ``stdout`` and ``stdin`` file objects produced from
a ``subprocess.Popen`` call.
that can arise from using the stdout and stdin file objects produced from
a subprocess.Popen call.
References: