Doc/libos.tex - platform/external/python/cpython3 - Gitiles

 \section{Standard Module \sectcode{os}}

 \stmodindex{os}
 This module provides a more portable way of using operating system
 (OS) dependent functionality than importing an OS dependent built-in
 module like \code{posix}.

 When the optional built-in module \code{posix} is available, this
 module exports the same functions and data as \code{posix}; otherwise,
 it searches for an OS dependent built-in module like \code{mac} and
 exports the same functions and data as found there.  The design of all
 Python's built-in OS dependen modules is such that as long as the same
 functionality is available, it uses the same interface; e.g., the
 function \code{os.stat(\var{file})} returns stat info about a \var{file} in a
 format compatible with the POSIX interface.

 Extensions peculiar to a particular OS are also available through the
 \code{os} module, but using them is of course a threat to portability!

 Note that after the first time \code{os} is imported, there is \emph{no}
 performance penalty in using functions from \code{os} instead of
 directly from the OS dependent built-in module, so there should be
 \emph{no} reason not to use \code{os}!

 In addition to whatever the correct OS dependent module exports, the
 following variables and functions are always exported by \code{os}:

 \renewcommand{\indexsubitem}{(in module os)}
 \begin{datadesc}{name}
 The name of the OS dependent module imported, e.g. \code{'posix'} or
 \code{'mac'}.
 \end{datadesc}

 \begin{datadesc}{path}
 The corresponding OS dependent standard module for pathname
 operations, e.g., \code{posixpath} or \code{macpath}.  Thus, (given
 the proper imports), \code{os.path.split(\var{file})} is equivalent to but
 more portable than \code{posixpath.split(\var{file})}.
 \end{datadesc}

 \begin{datadesc}{curdir}
 The constant string used by the OS to refer to the current directory,
 e.g. \code{'.'} for POSIX or \code{':'} for the Mac.
 \end{datadesc}

 \begin{datadesc}{pardir}
 The constant string used by the OS to refer to the parent directory,
 e.g. \code{'..'} for POSIX or \code{'::'} for the Mac.
 \end{datadesc}

 \begin{datadesc}{sep}
 The character used by the OS to separate pathname components, e.g.
 \code{'/'} for POSIX or \code{':'} for the Mac.  Note that knowing this
 is not sufficient to be able to parse or concatenate pathnames---better
 use \code{os.path.split()} and \code{os.path.join()}---but it is
 occasionally useful.
 \end{datadesc}

 \begin{funcdesc}{execl}{path\, arg0\, arg1\, ...}
 This is equivalent to a call to \code{os.execv} with an \var{argv}
 of \code{[\var{arg0}, \var{arg1}, ...]}.
 \end{funcdesc}

 \begin{funcdesc}{execle}{path\, arg0\, arg1\, ...\, env}
 This is equivalent to a call to \code{os.execve} with an \var{argv}
 of \code{[\var{arg0}, \var{arg1}, ...]}.
 \end{funcdesc}

 \begin{funcdesc}{execlp}{path\, arg0\, arg1\, ...}
 This is like \code{execl} but duplicates the shell's actions in
 searching for an executable file in a list of directories.  The
 directory list is obtained from \code{environ['PATH']}.
 \end{funcdesc}

 \begin{funcdesc}{execvp}{path\, arg0\, arg1\, ...}
 \code{execvp} is for \code{execv} what \code{execlp} is for \code{execl}.
 \end{funcdesc}
	\section{Standard Module \sectcode{os}}

	\stmodindex{os}
	This module provides a more portable way of using operating system
	(OS) dependent functionality than importing an OS dependent built-in
	module like \code{posix}.

	When the optional built-in module \code{posix} is available, this
	module exports the same functions and data as \code{posix}; otherwise,
	it searches for an OS dependent built-in module like \code{mac} and
	exports the same functions and data as found there. The design of all
	Python's built-in OS dependen modules is such that as long as the same
	functionality is available, it uses the same interface; e.g., the
	function \code{os.stat(\var{file})} returns stat info about a \var{file} in a
	format compatible with the POSIX interface.

	Extensions peculiar to a particular OS are also available through the
	\code{os} module, but using them is of course a threat to portability!

	Note that after the first time \code{os} is imported, there is \emph{no}
	performance penalty in using functions from \code{os} instead of
	directly from the OS dependent built-in module, so there should be
	\emph{no} reason not to use \code{os}!

	In addition to whatever the correct OS dependent module exports, the
	following variables and functions are always exported by \code{os}:

	\renewcommand{\indexsubitem}{(in module os)}
	\begin{datadesc}{name}
	The name of the OS dependent module imported, e.g. \code{'posix'} or
	\code{'mac'}.
	\end{datadesc}

	\begin{datadesc}{path}
	The corresponding OS dependent standard module for pathname
	operations, e.g., \code{posixpath} or \code{macpath}. Thus, (given
	the proper imports), \code{os.path.split(\var{file})} is equivalent to but
	more portable than \code{posixpath.split(\var{file})}.
	\end{datadesc}

	\begin{datadesc}{curdir}
	The constant string used by the OS to refer to the current directory,
	e.g. \code{'.'} for POSIX or \code{':'} for the Mac.
	\end{datadesc}

	\begin{datadesc}{pardir}
	The constant string used by the OS to refer to the parent directory,
	e.g. \code{'..'} for POSIX or \code{'::'} for the Mac.
	\end{datadesc}

	\begin{datadesc}{sep}
	The character used by the OS to separate pathname components, e.g.
	\code{'/'} for POSIX or \code{':'} for the Mac. Note that knowing this
	is not sufficient to be able to parse or concatenate pathnames---better
	use \code{os.path.split()} and \code{os.path.join()}---but it is
	occasionally useful.
	\end{datadesc}

	\begin{funcdesc}{execl}{path\, arg0\, arg1\, ...}
	This is equivalent to a call to \code{os.execv} with an \var{argv}
	of \code{[\var{arg0}, \var{arg1}, ...]}.
	\end{funcdesc}

	\begin{funcdesc}{execle}{path\, arg0\, arg1\, ...\, env}
	This is equivalent to a call to \code{os.execve} with an \var{argv}
	of \code{[\var{arg0}, \var{arg1}, ...]}.
	\end{funcdesc}

	\begin{funcdesc}{execlp}{path\, arg0\, arg1\, ...}
	This is like \code{execl} but duplicates the shell's actions in
	searching for an executable file in a list of directories. The
	directory list is obtained from \code{environ['PATH']}.
	\end{funcdesc}

	\begin{funcdesc}{execvp}{path\, arg0\, arg1\, ...}
	\code{execvp} is for \code{execv} what \code{execlp} is for \code{execl}.
	\end{funcdesc}