Doc/library/packaging.util.rst - platform/external/python/cpython3 - Gitiles

 :mod:`packaging.util` --- Miscellaneous utility functions
 =========================================================

 .. module:: packaging.util
    :synopsis: Miscellaneous utility functions.


 This module contains various helpers for the other modules.

 .. XXX a number of functions are missing, but the module may be split first
    (it's ginormous right now, some things could go to compat for example)

 .. function:: get_platform()

    Return a string that identifies the current platform.  This is used mainly to
    distinguish platform-specific build directories and platform-specific built
    distributions.  Typically includes the OS name and version and the
    architecture (as supplied by 'os.uname()'), although the exact information
    included depends on the OS; e.g. for IRIX the architecture isn't particularly
    important (IRIX only runs on SGI hardware), but for Linux the kernel version
    isn't particularly important.

    Examples of returned values:

    * ``linux-i586``
    * ``linux-alpha``
    * ``solaris-2.6-sun4u``
    * ``irix-5.3``
    * ``irix64-6.2``

    For non-POSIX platforms, currently just returns ``sys.platform``.

    For Mac OS X systems the OS version reflects the minimal version on which
    binaries will run (that is, the value of ``MACOSX_DEPLOYMENT_TARGET``
    during the build of Python), not the OS version of the current system.

    For universal binary builds on Mac OS X the architecture value reflects
    the univeral binary status instead of the architecture of the current
    processor. For 32-bit universal binaries the architecture is ``fat``,
    for 64-bit universal binaries the architecture is ``fat64``, and
    for 4-way universal binaries the architecture is ``universal``. Starting
    from Python 2.7 and Python 3.2 the architecture ``fat3`` is used for
    a 3-way universal build (ppc, i386, x86_64) and ``intel`` is used for
    a univeral build with the i386 and x86_64 architectures

    Examples of returned values on Mac OS X:

    * ``macosx-10.3-ppc``

    * ``macosx-10.3-fat``

    * ``macosx-10.5-universal``

    * ``macosx-10.6-intel``

    .. XXX reinvention of platform module?


 .. function:: convert_path(pathname)

    Return 'pathname' as a name that will work on the native filesystem, i.e.
    split it on '/' and put it back together again using the current directory
    separator. Needed because filenames in the setup script are always supplied
    in Unix style, and have to be converted to the local convention before we
    can actually use them in the filesystem.  Raises :exc:`ValueError` on
    non-Unix-ish systems if *pathname* either starts or ends with a slash.


 .. function:: change_root(new_root, pathname)

    Return *pathname* with *new_root* prepended.  If *pathname* is relative, this
    is equivalent to ``os.path.join(new_root,pathname)`` Otherwise, it requires
    making *pathname* relative and then joining the two, which is tricky on
    DOS/Windows.


 .. function:: check_environ()

    Ensure that 'os.environ' has all the environment variables we guarantee that
    users can use in config files, command-line options, etc.  Currently this
    includes:

    * :envvar:`HOME` - user's home directory (Unix only)
    * :envvar:`PLAT` - description of the current platform, including hardware
      and OS (see :func:`get_platform`)


 .. function:: find_executable(executable, path=None)

    Search the path for a given executable name.


 .. function:: execute(func, args, msg=None, dry_run=False)

    Perform some action that affects the outside world (for instance, writing to
    the filesystem).  Such actions are special because they are disabled by the
    *dry_run* flag.  This method takes care of all that bureaucracy for you;
    all you have to do is supply the function to call and an argument tuple for
    it (to embody the "external action" being performed), and an optional message
    to print.


 .. function:: newer(source, target)

    Return true if *source* exists and is more recently modified than *target*,
    or if *source* exists and *target* doesn't. Return false if both exist and
    *target* is the same age or newer than *source*. Raise
    :exc:`PackagingFileError` if *source* does not exist.


 .. function:: strtobool(val)

    Convert a string representation of truth to true (1) or false (0).

    True values are ``y``, ``yes``, ``t``, ``true``, ``on`` and ``1``; false
    values are ``n``, ``no``, ``f``, ``false``, ``off`` and ``0``.  Raises
    :exc:`ValueError` if *val* is anything else.


 .. function:: byte_compile(py_files, optimize=0, force=0, prefix=None, \
                            base_dir=None, dry_run=0, direct=None)

    Byte-compile a collection of Python source files to either :file:`.pyc` or
    :file:`.pyo` files in a :file:`__pycache__` subdirectory (see :pep:`3147`),
    or to the same directory when using the distutils2 backport on Python
    versions older than 3.2.

    *py_files* is a list of files to compile; any files that don't end in
    :file:`.py` are silently skipped.  *optimize* must be one of the following:

    * ``0`` - don't optimize (generate :file:`.pyc`)
    * ``1`` - normal optimization (like ``python -O``)
    * ``2`` - extra optimization (like ``python -OO``)

    This function is independent from the running Python's :option:`-O` or
    :option:`-B` options; it is fully controlled by the parameters passed in.

    If *force* is true, all files are recompiled regardless of timestamps.

    The source filename encoded in each :term:`bytecode` file defaults to the filenames
    listed in *py_files*; you can modify these with *prefix* and *basedir*.
    *prefix* is a string that will be stripped off of each source filename, and
    *base_dir* is a directory name that will be prepended (after *prefix* is
    stripped).  You can supply either or both (or neither) of *prefix* and
    *base_dir*, as you wish.

    If *dry_run* is true, doesn't actually do anything that would affect the
    filesystem.

    Byte-compilation is either done directly in this interpreter process with the
    standard :mod:`py_compile` module, or indirectly by writing a temporary
    script and executing it.  Normally, you should let :func:`byte_compile`
    figure out to use direct compilation or not (see the source for details).
    The *direct* flag is used by the script generated in indirect mode; unless
    you know what you're doing, leave it set to ``None``.
	:mod:`packaging.util` --- Miscellaneous utility functions
	=========================================================

	.. module:: packaging.util
	:synopsis: Miscellaneous utility functions.


	This module contains various helpers for the other modules.

	.. XXX a number of functions are missing, but the module may be split first
	(it's ginormous right now, some things could go to compat for example)

	.. function:: get_platform()

	Return a string that identifies the current platform. This is used mainly to
	distinguish platform-specific build directories and platform-specific built
	distributions. Typically includes the OS name and version and the
	architecture (as supplied by 'os.uname()'), although the exact information
	included depends on the OS; e.g. for IRIX the architecture isn't particularly
	important (IRIX only runs on SGI hardware), but for Linux the kernel version
	isn't particularly important.

	Examples of returned values:

	* ``linux-i586``
	* ``linux-alpha``
	* ``solaris-2.6-sun4u``
	* ``irix-5.3``
	* ``irix64-6.2``

	For non-POSIX platforms, currently just returns ``sys.platform``.

	For Mac OS X systems the OS version reflects the minimal version on which
	binaries will run (that is, the value of ``MACOSX_DEPLOYMENT_TARGET``
	during the build of Python), not the OS version of the current system.

	For universal binary builds on Mac OS X the architecture value reflects
	the univeral binary status instead of the architecture of the current
	processor. For 32-bit universal binaries the architecture is ``fat``,
	for 64-bit universal binaries the architecture is ``fat64``, and
	for 4-way universal binaries the architecture is ``universal``. Starting
	from Python 2.7 and Python 3.2 the architecture ``fat3`` is used for
	a 3-way universal build (ppc, i386, x86_64) and ``intel`` is used for
	a univeral build with the i386 and x86_64 architectures

	Examples of returned values on Mac OS X:

	* ``macosx-10.3-ppc``

	* ``macosx-10.3-fat``

	* ``macosx-10.5-universal``

	* ``macosx-10.6-intel``

	.. XXX reinvention of platform module?


	.. function:: convert_path(pathname)

	Return 'pathname' as a name that will work on the native filesystem, i.e.
	split it on '/' and put it back together again using the current directory
	separator. Needed because filenames in the setup script are always supplied
	in Unix style, and have to be converted to the local convention before we
	can actually use them in the filesystem. Raises :exc:`ValueError` on
	non-Unix-ish systems if pathname either starts or ends with a slash.


	.. function:: change_root(new_root, pathname)

	Return pathname with new_root prepended. If pathname is relative, this
	is equivalent to ``os.path.join(new_root,pathname)`` Otherwise, it requires
	making pathname relative and then joining the two, which is tricky on
	DOS/Windows.


	.. function:: check_environ()

	Ensure that 'os.environ' has all the environment variables we guarantee that
	users can use in config files, command-line options, etc. Currently this
	includes:

	* :envvar:`HOME` - user's home directory (Unix only)
	* :envvar:`PLAT` - description of the current platform, including hardware
	and OS (see :func:`get_platform`)


	.. function:: find_executable(executable, path=None)

	Search the path for a given executable name.


	.. function:: execute(func, args, msg=None, dry_run=False)

	Perform some action that affects the outside world (for instance, writing to
	the filesystem). Such actions are special because they are disabled by the
	dry_run flag. This method takes care of all that bureaucracy for you;
	all you have to do is supply the function to call and an argument tuple for
	it (to embody the "external action" being performed), and an optional message
	to print.


	.. function:: newer(source, target)

	Return true if source exists and is more recently modified than target,
	or if source exists and target doesn't. Return false if both exist and
	target is the same age or newer than source. Raise
	:exc:`PackagingFileError` if source does not exist.


	.. function:: strtobool(val)

	Convert a string representation of truth to true (1) or false (0).

	True values are ``y``, ``yes``, ``t``, ``true``, ``on`` and ``1``; false
	values are ``n``, ``no``, ``f``, ``false``, ``off`` and ``0``. Raises
	:exc:`ValueError` if val is anything else.


	.. function:: byte_compile(py_files, optimize=0, force=0, prefix=None, \
	base_dir=None, dry_run=0, direct=None)

	Byte-compile a collection of Python source files to either :file:`.pyc` or
	:file:`.pyo` files in a :file:`__pycache__` subdirectory (see :pep:`3147`),
	or to the same directory when using the distutils2 backport on Python
	versions older than 3.2.

	py_files is a list of files to compile; any files that don't end in
	:file:`.py` are silently skipped. optimize must be one of the following:

	* ``0`` - don't optimize (generate :file:`.pyc`)
	* ``1`` - normal optimization (like ``python -O``)
	* ``2`` - extra optimization (like ``python -OO``)

	This function is independent from the running Python's :option:`-O` or
	:option:`-B` options; it is fully controlled by the parameters passed in.

	If force is true, all files are recompiled regardless of timestamps.

	The source filename encoded in each :term:`bytecode` file defaults to the filenames
	listed in py_files; you can modify these with prefix and basedir.
	prefix is a string that will be stripped off of each source filename, and
	base_dir is a directory name that will be prepended (after prefix is
	stripped). You can supply either or both (or neither) of prefix and
	base_dir, as you wish.

	If dry_run is true, doesn't actually do anything that would affect the
	filesystem.

	Byte-compilation is either done directly in this interpreter process with the
	standard :mod:`py_compile` module, or indirectly by writing a temporary
	script and executing it. Normally, you should let :func:`byte_compile`
	figure out to use direct compilation or not (see the source for details).
	The direct flag is used by the script generated in indirect mode; unless
	you know what you're doing, leave it set to ``None``.