mirror of https://github.com/python/cpython
886 lines
25 KiB
ReStructuredText
886 lines
25 KiB
ReStructuredText
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:mod:`pathlib` --- Object-oriented filesystem paths
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===================================================
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.. module:: pathlib
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:synopsis: Object-oriented filesystem paths
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.. index:: single: path; operations
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.. versionadded:: 3.4
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This module offers classes representing filesystem paths with semantics
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appropriate for different operating systems. Path classes are divided
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between :ref:`pure paths <pure-paths>`, which provide purely computational
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operations without I/O, and :ref:`concrete paths <concrete-paths>`, which
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inherit from pure paths but also provide I/O operations.
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.. image:: pathlib-inheritance.png
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:align: center
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If you've never used this module before or just aren't sure which class is
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right for your task, :class:`Path` is most likely what you need. It instantiates
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a :ref:`concrete path <concrete-paths>` for the platform the code is running on.
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Pure paths are useful in some special cases; for example:
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#. If you want to manipulate Windows paths on a Unix machine (or vice versa).
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You cannot instantiate a :class:`WindowsPath` when running on Unix, but you
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can instantiate :class:`PureWindowsPath`.
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#. You want to make sure that your code only manipulates paths without actually
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accessing the OS. In this case, instantiating one of the pure classes may be
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useful since those simply don't have any OS-accessing operations.
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.. note::
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This module has been included in the standard library on a
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:term:`provisional basis <provisional package>`. Backwards incompatible
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changes (up to and including removal of the package) may occur if deemed
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necessary by the core developers.
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.. seealso::
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:pep:`428`: The pathlib module -- object-oriented filesystem paths.
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.. seealso::
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For low-level path manipulation on strings, you can also use the
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:mod:`os.path` module.
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Basic use
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---------
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Importing the main class::
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>>> from pathlib import Path
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Listing subdirectories::
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>>> p = Path('.')
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>>> [x for x in p.iterdir() if x.is_dir()]
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[PosixPath('.hg'), PosixPath('docs'), PosixPath('dist'),
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PosixPath('__pycache__'), PosixPath('build')]
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Listing Python source files in this directory tree::
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>>> list(p.glob('**/*.py'))
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[PosixPath('test_pathlib.py'), PosixPath('setup.py'),
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PosixPath('pathlib.py'), PosixPath('docs/conf.py'),
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PosixPath('build/lib/pathlib.py')]
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Navigating inside a directory tree::
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>>> p = Path('/etc')
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>>> q = p / 'init.d' / 'reboot'
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>>> q
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PosixPath('/etc/init.d/reboot')
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>>> q.resolve()
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PosixPath('/etc/rc.d/init.d/halt')
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Querying path properties::
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>>> q.exists()
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True
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>>> q.is_dir()
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False
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Opening a file::
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>>> with q.open() as f: f.readline()
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...
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'#!/bin/bash\n'
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.. _pure-paths:
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Pure paths
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----------
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Pure path objects provide path-handling operations which don't actually
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access a filesystem. There are three ways to access these classes, which
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we also call *flavours*:
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.. class:: PurePath(*pathsegments)
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A generic class that represents the system's path flavour (instantiating
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it creates either a :class:`PurePosixPath` or a :class:`PureWindowsPath`)::
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>>> PurePath('setup.py') # Running on a Unix machine
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PurePosixPath('setup.py')
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Each element of *pathsegments* can be either a string or bytes object
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representing a path segment; it can also be another path object::
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>>> PurePath('foo', 'some/path', 'bar')
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PurePosixPath('foo/some/path/bar')
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>>> PurePath(Path('foo'), Path('bar'))
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PurePosixPath('foo/bar')
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When *pathsegments* is empty, the current directory is assumed::
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>>> PurePath()
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PurePosixPath('.')
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When several absolute paths are given, the last is taken as an anchor
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(mimicking :func:`os.path.join`'s behaviour)::
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>>> PurePath('/etc', '/usr', 'lib64')
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PurePosixPath('/usr/lib64')
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>>> PureWindowsPath('c:/Windows', 'd:bar')
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PureWindowsPath('d:bar')
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However, in a Windows path, changing the local root doesn't discard the
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previous drive setting::
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>>> PureWindowsPath('c:/Windows', '/Program Files')
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PureWindowsPath('c:/Program Files')
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Spurious slashes and single dots are collapsed, but double dots (``'..'``)
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are not, since this would change the meaning of a path in the face of
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symbolic links::
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>>> PurePath('foo//bar')
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PurePosixPath('foo/bar')
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>>> PurePath('foo/./bar')
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PurePosixPath('foo/bar')
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>>> PurePath('foo/../bar')
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PurePosixPath('foo/../bar')
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(a naïve approach would make ``PurePosixPath('foo/../bar')`` equivalent
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to ``PurePosixPath('bar')``, which is wrong if ``foo`` is a symbolic link
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to another directory)
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.. class:: PurePosixPath(*pathsegments)
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A subclass of :class:`PurePath`, this path flavour represents non-Windows
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filesystem paths::
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>>> PurePosixPath('/etc')
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PurePosixPath('/etc')
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*pathsegments* is specified similarly to :class:`PurePath`.
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.. class:: PureWindowsPath(*pathsegments)
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A subclass of :class:`PurePath`, this path flavour represents Windows
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filesystem paths::
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>>> PureWindowsPath('c:/Program Files/')
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PureWindowsPath('c:/Program Files')
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*pathsegments* is specified similarly to :class:`PurePath`.
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Regardless of the system you're running on, you can instantiate all of
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these classes, since they don't provide any operation that does system calls.
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General properties
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^^^^^^^^^^^^^^^^^^
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Paths are immutable and hashable. Paths of a same flavour are comparable
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and orderable. These properties respect the flavour's case-folding
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semantics::
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>>> PurePosixPath('foo') == PurePosixPath('FOO')
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False
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>>> PureWindowsPath('foo') == PureWindowsPath('FOO')
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True
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>>> PureWindowsPath('FOO') in { PureWindowsPath('foo') }
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True
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>>> PureWindowsPath('C:') < PureWindowsPath('d:')
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True
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Paths of a different flavour compare unequal and cannot be ordered::
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>>> PureWindowsPath('foo') == PurePosixPath('foo')
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False
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>>> PureWindowsPath('foo') < PurePosixPath('foo')
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Traceback (most recent call last):
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File "<stdin>", line 1, in <module>
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TypeError: unorderable types: PureWindowsPath() < PurePosixPath()
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Operators
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^^^^^^^^^
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The slash operator helps create child paths, similarly to :func:`os.path.join`::
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>>> p = PurePath('/etc')
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>>> p
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PurePosixPath('/etc')
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>>> p / 'init.d' / 'apache2'
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PurePosixPath('/etc/init.d/apache2')
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>>> q = PurePath('bin')
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>>> '/usr' / q
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PurePosixPath('/usr/bin')
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The string representation of a path is the raw filesystem path itself
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(in native form, e.g. with backslashes under Windows), which you can
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pass to any function taking a file path as a string::
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>>> p = PurePath('/etc')
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>>> str(p)
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'/etc'
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>>> p = PureWindowsPath('c:/Program Files')
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>>> str(p)
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'c:\\Program Files'
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Similarly, calling :class:`bytes` on a path gives the raw filesystem path as a
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bytes object, as encoded by :func:`os.fsencode`::
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>>> bytes(p)
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b'/etc'
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.. note::
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Calling :class:`bytes` is only recommended under Unix. Under Windows,
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the unicode form is the canonical representation of filesystem paths.
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Accessing individual parts
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^^^^^^^^^^^^^^^^^^^^^^^^^^
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To access the individual "parts" (components) of a path, use the following
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property:
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.. data:: PurePath.parts
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A tuple giving access to the path's various components::
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>>> p = PurePath('/usr/bin/python3')
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>>> p.parts
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('/', 'usr', 'bin', 'python3')
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>>> p = PureWindowsPath('c:/Program Files/PSF')
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>>> p.parts
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('c:\\', 'Program Files', 'PSF')
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(note how the drive and local root are regrouped in a single part)
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Methods and properties
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^^^^^^^^^^^^^^^^^^^^^^
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Pure paths provide the following methods and properties:
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.. data:: PurePath.drive
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A string representing the drive letter or name, if any::
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>>> PureWindowsPath('c:/Program Files/').drive
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'c:'
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>>> PureWindowsPath('/Program Files/').drive
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''
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>>> PurePosixPath('/etc').drive
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''
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UNC shares are also considered drives::
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>>> PureWindowsPath('//host/share/foo.txt').drive
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'\\\\host\\share'
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.. data:: PurePath.root
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A string representing the (local or global) root, if any::
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>>> PureWindowsPath('c:/Program Files/').root
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'\\'
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>>> PureWindowsPath('c:Program Files/').root
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''
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>>> PurePosixPath('/etc').root
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'/'
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UNC shares always have a root::
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>>> PureWindowsPath('//host/share').root
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'\\'
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.. data:: PurePath.anchor
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The concatenation of the drive and root::
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>>> PureWindowsPath('c:/Program Files/').anchor
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'c:\\'
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>>> PureWindowsPath('c:Program Files/').anchor
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'c:'
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>>> PurePosixPath('/etc').anchor
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'/'
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>>> PureWindowsPath('//host/share').anchor
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'\\\\host\\share\\'
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.. data:: PurePath.parents
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An immutable sequence providing access to the logical ancestors of
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the path::
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>>> p = PureWindowsPath('c:/foo/bar/setup.py')
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>>> p.parents[0]
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PureWindowsPath('c:/foo/bar')
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>>> p.parents[1]
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PureWindowsPath('c:/foo')
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>>> p.parents[2]
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PureWindowsPath('c:/')
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.. data:: PurePath.parent
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The logical parent of the path::
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>>> p = PurePosixPath('/a/b/c/d')
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>>> p.parent
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PurePosixPath('/a/b/c')
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You cannot go past an anchor, or empty path::
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>>> p = PurePosixPath('/')
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>>> p.parent
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PurePosixPath('/')
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>>> p = PurePosixPath('.')
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>>> p.parent
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PurePosixPath('.')
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.. note::
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This is a purely lexical operation, hence the following behaviour::
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>>> p = PurePosixPath('foo/..')
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>>> p.parent
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PurePosixPath('foo')
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If you want to walk an arbitrary filesystem path upwards, it is
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recommended to first call :meth:`Path.resolve` so as to resolve
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symlinks and eliminate `".."` components.
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.. data:: PurePath.name
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A string representing the final path component, excluding the drive and
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root, if any::
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>>> PurePosixPath('my/library/setup.py').name
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'setup.py'
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UNC drive names are not considered::
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>>> PureWindowsPath('//some/share/setup.py').name
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'setup.py'
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>>> PureWindowsPath('//some/share').name
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''
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.. data:: PurePath.suffix
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The file extension of the final component, if any::
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>>> PurePosixPath('my/library/setup.py').suffix
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'.py'
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>>> PurePosixPath('my/library.tar.gz').suffix
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'.gz'
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>>> PurePosixPath('my/library').suffix
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''
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.. data:: PurePath.suffixes
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A list of the path's file extensions::
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>>> PurePosixPath('my/library.tar.gar').suffixes
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['.tar', '.gar']
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>>> PurePosixPath('my/library.tar.gz').suffixes
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['.tar', '.gz']
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>>> PurePosixPath('my/library').suffixes
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[]
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.. data:: PurePath.stem
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The final path component, without its suffix::
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>>> PurePosixPath('my/library.tar.gz').stem
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'library.tar'
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>>> PurePosixPath('my/library.tar').stem
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'library'
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>>> PurePosixPath('my/library').stem
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'library'
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.. method:: PurePath.as_posix()
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Return a string representation of the path with forward slashes (``/``)::
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>>> p = PureWindowsPath('c:\\windows')
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>>> str(p)
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'c:\\windows'
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>>> p.as_posix()
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'c:/windows'
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.. method:: PurePath.as_uri()
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Represent the path as a ``file`` URI. :exc:`ValueError` is raised if
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the path isn't absolute.
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>>> p = PurePosixPath('/etc/passwd')
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>>> p.as_uri()
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'file:///etc/passwd'
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>>> p = PureWindowsPath('c:/Windows')
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>>> p.as_uri()
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'file:///c:/Windows'
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.. method:: PurePath.is_absolute()
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Return whether the path is absolute or not. A path is considered absolute
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if it has both a root and (if the flavour allows) a drive::
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>>> PurePosixPath('/a/b').is_absolute()
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True
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>>> PurePosixPath('a/b').is_absolute()
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False
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>>> PureWindowsPath('c:/a/b').is_absolute()
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True
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>>> PureWindowsPath('/a/b').is_absolute()
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False
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>>> PureWindowsPath('c:').is_absolute()
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False
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>>> PureWindowsPath('//some/share').is_absolute()
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True
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.. method:: PurePath.is_reserved()
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With :class:`PureWindowsPath`, return ``True`` if the path is considered
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reserved under Windows, ``False`` otherwise. With :class:`PurePosixPath`,
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``False`` is always returned.
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>>> PureWindowsPath('nul').is_reserved()
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True
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>>> PurePosixPath('nul').is_reserved()
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False
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File system calls on reserved paths can fail mysteriously or have
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unintended effects.
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.. method:: PurePath.joinpath(*other)
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Calling this method is equivalent to combining the path with each of
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the *other* arguments in turn::
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>>> PurePosixPath('/etc').joinpath('passwd')
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PurePosixPath('/etc/passwd')
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>>> PurePosixPath('/etc').joinpath(PurePosixPath('passwd'))
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PurePosixPath('/etc/passwd')
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>>> PurePosixPath('/etc').joinpath('init.d', 'apache2')
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PurePosixPath('/etc/init.d/apache2')
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>>> PureWindowsPath('c:').joinpath('/Program Files')
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PureWindowsPath('c:/Program Files')
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.. method:: PurePath.match(pattern)
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Match this path against the provided glob-style pattern. Return ``True``
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if matching is successful, ``False`` otherwise.
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If *pattern* is relative, the path can be either relative or absolute,
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and matching is done from the right::
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>>> PurePath('a/b.py').match('*.py')
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True
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>>> PurePath('/a/b/c.py').match('b/*.py')
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True
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>>> PurePath('/a/b/c.py').match('a/*.py')
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False
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If *pattern* is absolute, the path must be absolute, and the whole path
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must match::
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>>> PurePath('/a.py').match('/*.py')
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True
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>>> PurePath('a/b.py').match('/*.py')
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False
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As with other methods, case-sensitivity is observed::
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>>> PureWindowsPath('b.py').match('*.PY')
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True
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.. method:: PurePath.relative_to(*other)
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Compute a version of this path relative to the path represented by
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*other*. If it's impossible, ValueError is raised::
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>>> p = PurePosixPath('/etc/passwd')
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>>> p.relative_to('/')
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PurePosixPath('etc/passwd')
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>>> p.relative_to('/etc')
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PurePosixPath('passwd')
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>>> p.relative_to('/usr')
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Traceback (most recent call last):
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File "<stdin>", line 1, in <module>
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File "pathlib.py", line 694, in relative_to
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.format(str(self), str(formatted)))
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ValueError: '/etc/passwd' does not start with '/usr'
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.. _concrete-paths:
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Concrete paths
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--------------
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Concrete paths are subclasses of the pure path classes. In addition to
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operations provided by the latter, they also provide methods to do system
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calls on path objects. There are three ways to instantiate concrete paths:
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.. class:: Path(*pathsegments)
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A subclass of :class:`PurePath`, this class represents concrete paths of
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the system's path flavour (instantiating it creates either a
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:class:`PosixPath` or a :class:`WindowsPath`)::
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>>> Path('setup.py')
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PosixPath('setup.py')
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*pathsegments* is specified similarly to :class:`PurePath`.
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.. class:: PosixPath(*pathsegments)
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A subclass of :class:`Path` and :class:`PurePosixPath`, this class
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represents concrete non-Windows filesystem paths::
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>>> PosixPath('/etc')
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PosixPath('/etc')
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*pathsegments* is specified similarly to :class:`PurePath`.
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.. class:: WindowsPath(*pathsegments)
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A subclass of :class:`Path` and :class:`PureWindowsPath`, this class
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represents concrete Windows filesystem paths::
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>>> WindowsPath('c:/Program Files/')
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WindowsPath('c:/Program Files')
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*pathsegments* is specified similarly to :class:`PurePath`.
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You can only instantiate the class flavour that corresponds to your system
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(allowing system calls on non-compatible path flavours could lead to
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bugs or failures in your application)::
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>>> import os
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>>> os.name
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'posix'
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>>> Path('setup.py')
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PosixPath('setup.py')
|
|
>>> PosixPath('setup.py')
|
|
PosixPath('setup.py')
|
|
>>> WindowsPath('setup.py')
|
|
Traceback (most recent call last):
|
|
File "<stdin>", line 1, in <module>
|
|
File "pathlib.py", line 798, in __new__
|
|
% (cls.__name__,))
|
|
NotImplementedError: cannot instantiate 'WindowsPath' on your system
|
|
|
|
|
|
Methods
|
|
^^^^^^^
|
|
|
|
Concrete paths provide the following methods in addition to pure paths
|
|
methods. Many of these methods can raise an :exc:`OSError` if a system
|
|
call fails (for example because the path doesn't exist):
|
|
|
|
.. classmethod:: Path.cwd()
|
|
|
|
Return a new path object representing the current directory (as returned
|
|
by :func:`os.getcwd`)::
|
|
|
|
>>> Path.cwd()
|
|
PosixPath('/home/antoine/pathlib')
|
|
|
|
|
|
.. method:: Path.stat()
|
|
|
|
Return information about this path (similarly to :func:`os.stat`).
|
|
The result is looked up at each call to this method.
|
|
|
|
>>> p = Path('setup.py')
|
|
>>> p.stat().st_size
|
|
956
|
|
>>> p.stat().st_mtime
|
|
1327883547.852554
|
|
|
|
|
|
.. method:: Path.chmod(mode)
|
|
|
|
Change the file mode and permissions, like :func:`os.chmod`::
|
|
|
|
>>> p = Path('setup.py')
|
|
>>> p.stat().st_mode
|
|
33277
|
|
>>> p.chmod(0o444)
|
|
>>> p.stat().st_mode
|
|
33060
|
|
|
|
|
|
.. method:: Path.exists()
|
|
|
|
Whether the path points to an existing file or directory::
|
|
|
|
>>> Path('.').exists()
|
|
True
|
|
>>> Path('setup.py').exists()
|
|
True
|
|
>>> Path('/etc').exists()
|
|
True
|
|
>>> Path('nonexistentfile').exists()
|
|
False
|
|
|
|
.. note::
|
|
If the path points to a symlink, :meth:`exists` returns whether the
|
|
symlink *points to* an existing file or directory.
|
|
|
|
|
|
.. method:: Path.glob(pattern)
|
|
|
|
Glob the given *pattern* in the directory represented by this path,
|
|
yielding all matching files (of any kind)::
|
|
|
|
>>> sorted(Path('.').glob('*.py'))
|
|
[PosixPath('pathlib.py'), PosixPath('setup.py'), PosixPath('test_pathlib.py')]
|
|
>>> sorted(Path('.').glob('*/*.py'))
|
|
[PosixPath('docs/conf.py')]
|
|
|
|
The "``**``" pattern means "this directory and all subdirectories,
|
|
recursively". In other words, it enables recursive globbing::
|
|
|
|
>>> sorted(Path('.').glob('**/*.py'))
|
|
[PosixPath('build/lib/pathlib.py'),
|
|
PosixPath('docs/conf.py'),
|
|
PosixPath('pathlib.py'),
|
|
PosixPath('setup.py'),
|
|
PosixPath('test_pathlib.py')]
|
|
|
|
.. note::
|
|
Using the "``**``" pattern in large directory trees may consume
|
|
an inordinate amount of time.
|
|
|
|
|
|
.. method:: Path.group()
|
|
|
|
Return the name of the group owning the file. :exc:`KeyError` is raised
|
|
if the file's gid isn't found in the system database.
|
|
|
|
|
|
.. method:: Path.is_dir()
|
|
|
|
Return ``True`` if the path points to a directory (or a symbolic link
|
|
pointing to a directory), ``False`` if it points to another kind of file.
|
|
|
|
``False`` is also returned if the path doesn't exist or is a broken symlink;
|
|
other errors (such as permission errors) are propagated.
|
|
|
|
|
|
.. method:: Path.is_file()
|
|
|
|
Return ``True`` if the path points to a regular file (or a symbolic link
|
|
pointing to a regular file), ``False`` if it points to another kind of file.
|
|
|
|
``False`` is also returned if the path doesn't exist or is a broken symlink;
|
|
other errors (such as permission errors) are propagated.
|
|
|
|
|
|
.. method:: Path.is_symlink()
|
|
|
|
Return ``True`` if the path points to a symbolic link, ``False`` otherwise.
|
|
|
|
``False`` is also returned if the path doesn't exist; other errors (such
|
|
as permission errors) are propagated.
|
|
|
|
|
|
.. method:: Path.is_socket()
|
|
|
|
Return ``True`` if the path points to a Unix socket (or a symbolic link
|
|
pointing to a Unix socket), ``False`` if it points to another kind of file.
|
|
|
|
``False`` is also returned if the path doesn't exist or is a broken symlink;
|
|
other errors (such as permission errors) are propagated.
|
|
|
|
|
|
.. method:: Path.is_fifo()
|
|
|
|
Return ``True`` if the path points to a FIFO (or a symbolic link
|
|
pointing to a FIFO), ``False`` if it points to another kind of file.
|
|
|
|
``False`` is also returned if the path doesn't exist or is a broken symlink;
|
|
other errors (such as permission errors) are propagated.
|
|
|
|
|
|
.. method:: Path.is_block_device()
|
|
|
|
Return ``True`` if the path points to a block device (or a symbolic link
|
|
pointing to a block device), ``False`` if it points to another kind of file.
|
|
|
|
``False`` is also returned if the path doesn't exist or is a broken symlink;
|
|
other errors (such as permission errors) are propagated.
|
|
|
|
|
|
.. method:: Path.is_char_device()
|
|
|
|
Return ``True`` if the path points to a character device (or a symbolic link
|
|
pointing to a character device), ``False`` if it points to another kind of file.
|
|
|
|
``False`` is also returned if the path doesn't exist or is a broken symlink;
|
|
other errors (such as permission errors) are propagated.
|
|
|
|
|
|
.. method:: Path.iterdir()
|
|
|
|
When the path points to a directory, yield path objects of the directory
|
|
contents::
|
|
|
|
>>> p = Path('docs')
|
|
>>> for child in p.iterdir(): child
|
|
...
|
|
PosixPath('docs/conf.py')
|
|
PosixPath('docs/_templates')
|
|
PosixPath('docs/make.bat')
|
|
PosixPath('docs/index.rst')
|
|
PosixPath('docs/_build')
|
|
PosixPath('docs/_static')
|
|
PosixPath('docs/Makefile')
|
|
|
|
.. method:: Path.lchmod(mode)
|
|
|
|
Like :meth:`Path.chmod` but, if the path points to a symbolic link, the
|
|
symbolic link's mode is changed rather than its target's.
|
|
|
|
|
|
.. method:: Path.lstat()
|
|
|
|
Like :meth:`Path.stat` but, if the path points to a symbolic link, return
|
|
the symbolic link's information rather than its target's.
|
|
|
|
|
|
.. method:: Path.mkdir(mode=0o777, parents=False)
|
|
|
|
Create a new directory at this given path. If *mode* is given, it is
|
|
combined with the process' ``umask`` value to determine the file mode
|
|
and access flags. If the path already exists, :exc:`OSError` is raised.
|
|
|
|
If *parents* is true, any missing parents of this path are created
|
|
as needed. If *parents* is false (the default), a missing parent raises
|
|
:exc:`OSError`.
|
|
|
|
|
|
.. method:: Path.open(mode='r', buffering=-1, encoding=None, errors=None, newline=None)
|
|
|
|
Open the file pointed to by the path, like the built-in :func:`open`
|
|
function does::
|
|
|
|
>>> p = Path('setup.py')
|
|
>>> with p.open() as f:
|
|
... f.readline()
|
|
...
|
|
'#!/usr/bin/env python3\n'
|
|
|
|
|
|
.. method:: Path.owner()
|
|
|
|
Return the name of the user owning the file. :exc:`KeyError` is raised
|
|
if the file's uid isn't found in the system database.
|
|
|
|
|
|
.. method:: Path.rename(target)
|
|
|
|
Rename this file or directory to the given *target*. *target* can be
|
|
either a string or another path object::
|
|
|
|
>>> p = Path('foo')
|
|
>>> p.open('w').write('some text')
|
|
9
|
|
>>> target = Path('bar')
|
|
>>> p.rename(target)
|
|
>>> target.open().read()
|
|
'some text'
|
|
|
|
|
|
.. method:: Path.replace(target)
|
|
|
|
Rename this file or directory to the given *target*. If *target* points
|
|
to an existing file or directory, it will be unconditionally replaced.
|
|
|
|
|
|
.. method:: Path.resolve()
|
|
|
|
Make the path absolute, resolving any symlinks. A new path object is
|
|
returned::
|
|
|
|
>>> p = Path()
|
|
>>> p
|
|
PosixPath('.')
|
|
>>> p.resolve()
|
|
PosixPath('/home/antoine/pathlib')
|
|
|
|
`".."` components are also eliminated (this is the only method to do so)::
|
|
|
|
>>> p = Path('docs/../setup.py')
|
|
>>> p.resolve()
|
|
PosixPath('/home/antoine/pathlib/setup.py')
|
|
|
|
If the path doesn't exist, :exc:`FileNotFoundError` is raised. If an
|
|
infinite loop is encountered along the resolution path,
|
|
:exc:`RuntimeError` is raised.
|
|
|
|
|
|
.. method:: Path.rglob(pattern)
|
|
|
|
This is like calling :meth:`glob` with "``**``" added in front of the
|
|
given *pattern*:
|
|
|
|
>>> sorted(Path().rglob("*.py"))
|
|
[PosixPath('build/lib/pathlib.py'),
|
|
PosixPath('docs/conf.py'),
|
|
PosixPath('pathlib.py'),
|
|
PosixPath('setup.py'),
|
|
PosixPath('test_pathlib.py')]
|
|
|
|
|
|
.. method:: Path.rmdir()
|
|
|
|
Remove this directory. The directory must be empty.
|
|
|
|
|
|
.. method:: Path.symlink_to(target, target_is_directory=False)
|
|
|
|
Make this path a symbolic link to *target*. Under Windows,
|
|
*target_is_directory* must be true (default ``False``) if the link's target
|
|
is a directory. Under POSIX, *target_is_directory*'s value is ignored.
|
|
|
|
>>> p = Path('mylink')
|
|
>>> p.symlink_to('setup.py')
|
|
>>> p.resolve()
|
|
PosixPath('/home/antoine/pathlib/setup.py')
|
|
>>> p.stat().st_size
|
|
956
|
|
>>> p.lstat().st_size
|
|
8
|
|
|
|
.. note::
|
|
The order of arguments (link, target) is the reverse
|
|
of :func:`os.symlink`'s.
|
|
|
|
|
|
.. method:: Path.touch(mode=0o777, exist_ok=True)
|
|
|
|
Create a file at this given path. If *mode* is given, it is combined
|
|
with the process' ``umask`` value to determine the file mode and access
|
|
flags. If the file already exists, the function succeeds if *exist_ok*
|
|
is true (and its modification time is updated to the current time),
|
|
otherwise :exc:`OSError` is raised.
|
|
|
|
|
|
.. method:: Path.unlink()
|
|
|
|
Remove this file or symbolic link. If the path points to a directory,
|
|
use :func:`Path.rmdir` instead.
|