mirror of
https://github.com/Sneed-Group/Poodletooth-iLand
synced 2024-12-24 12:12:36 -06:00
740 lines
25 KiB
Python
740 lines
25 KiB
Python
r"""OS routines for Mac, NT, or Posix depending on what system we're on.
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This exports:
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- all functions from posix, nt, os2, or ce, e.g. unlink, stat, etc.
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- os.path is one of the modules posixpath, or ntpath
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- os.name is 'posix', 'nt', 'os2', 'ce' or 'riscos'
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- os.curdir is a string representing the current directory ('.' or ':')
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- os.pardir is a string representing the parent directory ('..' or '::')
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- os.sep is the (or a most common) pathname separator ('/' or ':' or '\\')
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- os.extsep is the extension separator ('.' or '/')
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- os.altsep is the alternate pathname separator (None or '/')
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- os.pathsep is the component separator used in $PATH etc
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- os.linesep is the line separator in text files ('\r' or '\n' or '\r\n')
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- os.defpath is the default search path for executables
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- os.devnull is the file path of the null device ('/dev/null', etc.)
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Programs that import and use 'os' stand a better chance of being
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portable between different platforms. Of course, they must then
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only use functions that are defined by all platforms (e.g., unlink
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and opendir), and leave all pathname manipulation to os.path
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(e.g., split and join).
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"""
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#'
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import sys, errno
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_names = sys.builtin_module_names
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# Note: more names are added to __all__ later.
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__all__ = ["altsep", "curdir", "pardir", "sep", "extsep", "pathsep", "linesep",
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"defpath", "name", "path", "devnull",
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"SEEK_SET", "SEEK_CUR", "SEEK_END"]
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def _get_exports_list(module):
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try:
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return list(module.__all__)
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except AttributeError:
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return [n for n in dir(module) if n[0] != '_']
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if 'posix' in _names:
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name = 'posix'
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linesep = '\n'
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from posix import *
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try:
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from posix import _exit
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except ImportError:
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pass
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import posixpath as path
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import posix
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__all__.extend(_get_exports_list(posix))
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del posix
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elif 'nt' in _names:
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name = 'nt'
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linesep = '\r\n'
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from nt import *
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try:
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from nt import _exit
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except ImportError:
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pass
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import ntpath as path
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import nt
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__all__.extend(_get_exports_list(nt))
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del nt
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elif 'os2' in _names:
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name = 'os2'
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linesep = '\r\n'
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from os2 import *
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try:
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from os2 import _exit
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except ImportError:
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pass
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if sys.version.find('EMX GCC') == -1:
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import ntpath as path
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else:
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import os2emxpath as path
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from _emx_link import link
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import os2
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__all__.extend(_get_exports_list(os2))
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del os2
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elif 'ce' in _names:
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name = 'ce'
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linesep = '\r\n'
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from ce import *
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try:
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from ce import _exit
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except ImportError:
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pass
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# We can use the standard Windows path.
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import ntpath as path
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import ce
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__all__.extend(_get_exports_list(ce))
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del ce
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elif 'riscos' in _names:
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name = 'riscos'
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linesep = '\n'
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from riscos import *
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try:
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from riscos import _exit
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except ImportError:
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pass
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import riscospath as path
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import riscos
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__all__.extend(_get_exports_list(riscos))
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del riscos
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else:
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raise ImportError, 'no os specific module found'
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sys.modules['os.path'] = path
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from os.path import (curdir, pardir, sep, pathsep, defpath, extsep, altsep,
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devnull)
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del _names
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# Python uses fixed values for the SEEK_ constants; they are mapped
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# to native constants if necessary in posixmodule.c
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SEEK_SET = 0
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SEEK_CUR = 1
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SEEK_END = 2
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#'
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# Super directory utilities.
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# (Inspired by Eric Raymond; the doc strings are mostly his)
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def makedirs(name, mode=0777):
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"""makedirs(path [, mode=0777])
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Super-mkdir; create a leaf directory and all intermediate ones.
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Works like mkdir, except that any intermediate path segment (not
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just the rightmost) will be created if it does not exist. This is
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recursive.
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"""
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head, tail = path.split(name)
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if not tail:
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head, tail = path.split(head)
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if head and tail and not path.exists(head):
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try:
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makedirs(head, mode)
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except OSError, e:
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# be happy if someone already created the path
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if e.errno != errno.EEXIST:
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raise
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if tail == curdir: # xxx/newdir/. exists if xxx/newdir exists
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return
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mkdir(name, mode)
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def removedirs(name):
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"""removedirs(path)
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Super-rmdir; remove a leaf directory and all empty intermediate
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ones. Works like rmdir except that, if the leaf directory is
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successfully removed, directories corresponding to rightmost path
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segments will be pruned away until either the whole path is
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consumed or an error occurs. Errors during this latter phase are
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ignored -- they generally mean that a directory was not empty.
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"""
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rmdir(name)
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head, tail = path.split(name)
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if not tail:
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head, tail = path.split(head)
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while head and tail:
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try:
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rmdir(head)
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except error:
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break
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head, tail = path.split(head)
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def renames(old, new):
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"""renames(old, new)
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Super-rename; create directories as necessary and delete any left
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empty. Works like rename, except creation of any intermediate
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directories needed to make the new pathname good is attempted
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first. After the rename, directories corresponding to rightmost
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path segments of the old name will be pruned way until either the
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whole path is consumed or a nonempty directory is found.
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Note: this function can fail with the new directory structure made
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if you lack permissions needed to unlink the leaf directory or
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file.
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"""
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head, tail = path.split(new)
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if head and tail and not path.exists(head):
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makedirs(head)
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rename(old, new)
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head, tail = path.split(old)
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if head and tail:
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try:
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removedirs(head)
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except error:
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pass
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__all__.extend(["makedirs", "removedirs", "renames"])
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def walk(top, topdown=True, onerror=None, followlinks=False):
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"""Directory tree generator.
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For each directory in the directory tree rooted at top (including top
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itself, but excluding '.' and '..'), yields a 3-tuple
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dirpath, dirnames, filenames
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dirpath is a string, the path to the directory. dirnames is a list of
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the names of the subdirectories in dirpath (excluding '.' and '..').
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filenames is a list of the names of the non-directory files in dirpath.
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Note that the names in the lists are just names, with no path components.
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To get a full path (which begins with top) to a file or directory in
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dirpath, do os.path.join(dirpath, name).
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If optional arg 'topdown' is true or not specified, the triple for a
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directory is generated before the triples for any of its subdirectories
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(directories are generated top down). If topdown is false, the triple
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for a directory is generated after the triples for all of its
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subdirectories (directories are generated bottom up).
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When topdown is true, the caller can modify the dirnames list in-place
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(e.g., via del or slice assignment), and walk will only recurse into the
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subdirectories whose names remain in dirnames; this can be used to prune
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the search, or to impose a specific order of visiting. Modifying
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dirnames when topdown is false is ineffective, since the directories in
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dirnames have already been generated by the time dirnames itself is
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generated.
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By default errors from the os.listdir() call are ignored. If
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optional arg 'onerror' is specified, it should be a function; it
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will be called with one argument, an os.error instance. It can
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report the error to continue with the walk, or raise the exception
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to abort the walk. Note that the filename is available as the
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filename attribute of the exception object.
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By default, os.walk does not follow symbolic links to subdirectories on
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systems that support them. In order to get this functionality, set the
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optional argument 'followlinks' to true.
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Caution: if you pass a relative pathname for top, don't change the
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current working directory between resumptions of walk. walk never
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changes the current directory, and assumes that the client doesn't
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either.
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Example:
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import os
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from os.path import join, getsize
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for root, dirs, files in os.walk('python/Lib/email'):
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print root, "consumes",
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print sum([getsize(join(root, name)) for name in files]),
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print "bytes in", len(files), "non-directory files"
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if 'CVS' in dirs:
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dirs.remove('CVS') # don't visit CVS directories
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"""
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islink, join, isdir = path.islink, path.join, path.isdir
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# We may not have read permission for top, in which case we can't
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# get a list of the files the directory contains. os.path.walk
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# always suppressed the exception then, rather than blow up for a
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# minor reason when (say) a thousand readable directories are still
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# left to visit. That logic is copied here.
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try:
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# Note that listdir and error are globals in this module due
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# to earlier import-*.
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names = listdir(top)
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except error, err:
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if onerror is not None:
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onerror(err)
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return
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dirs, nondirs = [], []
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for name in names:
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if isdir(join(top, name)):
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dirs.append(name)
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else:
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nondirs.append(name)
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if topdown:
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yield top, dirs, nondirs
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for name in dirs:
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new_path = join(top, name)
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if followlinks or not islink(new_path):
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for x in walk(new_path, topdown, onerror, followlinks):
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yield x
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if not topdown:
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yield top, dirs, nondirs
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__all__.append("walk")
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# Make sure os.environ exists, at least
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try:
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environ
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except NameError:
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environ = {}
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def execl(file, *args):
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"""execl(file, *args)
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Execute the executable file with argument list args, replacing the
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current process. """
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execv(file, args)
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def execle(file, *args):
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"""execle(file, *args, env)
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Execute the executable file with argument list args and
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environment env, replacing the current process. """
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env = args[-1]
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execve(file, args[:-1], env)
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def execlp(file, *args):
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"""execlp(file, *args)
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Execute the executable file (which is searched for along $PATH)
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with argument list args, replacing the current process. """
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execvp(file, args)
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def execlpe(file, *args):
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"""execlpe(file, *args, env)
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Execute the executable file (which is searched for along $PATH)
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with argument list args and environment env, replacing the current
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process. """
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env = args[-1]
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execvpe(file, args[:-1], env)
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def execvp(file, args):
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"""execvp(file, args)
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Execute the executable file (which is searched for along $PATH)
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with argument list args, replacing the current process.
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args may be a list or tuple of strings. """
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_execvpe(file, args)
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def execvpe(file, args, env):
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"""execvpe(file, args, env)
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Execute the executable file (which is searched for along $PATH)
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with argument list args and environment env , replacing the
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current process.
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args may be a list or tuple of strings. """
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_execvpe(file, args, env)
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__all__.extend(["execl","execle","execlp","execlpe","execvp","execvpe"])
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def _execvpe(file, args, env=None):
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if env is not None:
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func = execve
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argrest = (args, env)
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else:
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func = execv
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argrest = (args,)
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env = environ
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head, tail = path.split(file)
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if head:
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func(file, *argrest)
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return
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if 'PATH' in env:
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envpath = env['PATH']
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else:
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envpath = defpath
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PATH = envpath.split(pathsep)
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saved_exc = None
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saved_tb = None
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for dir in PATH:
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fullname = path.join(dir, file)
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try:
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func(fullname, *argrest)
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except error, e:
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tb = sys.exc_info()[2]
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if (e.errno != errno.ENOENT and e.errno != errno.ENOTDIR
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and saved_exc is None):
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saved_exc = e
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saved_tb = tb
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if saved_exc:
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raise error, saved_exc, saved_tb
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raise error, e, tb
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# Change environ to automatically call putenv() if it exists
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try:
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# This will fail if there's no putenv
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putenv
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except NameError:
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pass
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else:
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import UserDict
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# Fake unsetenv() for Windows
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# not sure about os2 here but
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# I'm guessing they are the same.
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if name in ('os2', 'nt'):
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def unsetenv(key):
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putenv(key, "")
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if name == "riscos":
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# On RISC OS, all env access goes through getenv and putenv
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from riscosenviron import _Environ
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elif name in ('os2', 'nt'): # Where Env Var Names Must Be UPPERCASE
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# But we store them as upper case
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class _Environ(UserDict.IterableUserDict):
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def __init__(self, environ):
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UserDict.UserDict.__init__(self)
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data = self.data
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for k, v in environ.items():
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data[k.upper()] = v
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def __setitem__(self, key, item):
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putenv(key, item)
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self.data[key.upper()] = item
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def __getitem__(self, key):
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return self.data[key.upper()]
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try:
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unsetenv
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except NameError:
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def __delitem__(self, key):
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del self.data[key.upper()]
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else:
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def __delitem__(self, key):
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unsetenv(key)
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del self.data[key.upper()]
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def clear(self):
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for key in self.data.keys():
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unsetenv(key)
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del self.data[key]
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def pop(self, key, *args):
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unsetenv(key)
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return self.data.pop(key.upper(), *args)
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def has_key(self, key):
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return key.upper() in self.data
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def __contains__(self, key):
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return key.upper() in self.data
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def get(self, key, failobj=None):
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return self.data.get(key.upper(), failobj)
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def update(self, dict=None, **kwargs):
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if dict:
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try:
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keys = dict.keys()
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except AttributeError:
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# List of (key, value)
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for k, v in dict:
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self[k] = v
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else:
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# got keys
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# cannot use items(), since mappings
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# may not have them.
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for k in keys:
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self[k] = dict[k]
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if kwargs:
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self.update(kwargs)
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def copy(self):
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return dict(self)
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else: # Where Env Var Names Can Be Mixed Case
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class _Environ(UserDict.IterableUserDict):
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def __init__(self, environ):
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UserDict.UserDict.__init__(self)
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self.data = environ
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def __setitem__(self, key, item):
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putenv(key, item)
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self.data[key] = item
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def update(self, dict=None, **kwargs):
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if dict:
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try:
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keys = dict.keys()
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except AttributeError:
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# List of (key, value)
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for k, v in dict:
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self[k] = v
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else:
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# got keys
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# cannot use items(), since mappings
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# may not have them.
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for k in keys:
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self[k] = dict[k]
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if kwargs:
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self.update(kwargs)
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try:
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unsetenv
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except NameError:
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pass
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else:
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def __delitem__(self, key):
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unsetenv(key)
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del self.data[key]
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def clear(self):
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for key in self.data.keys():
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unsetenv(key)
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del self.data[key]
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def pop(self, key, *args):
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unsetenv(key)
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return self.data.pop(key, *args)
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def copy(self):
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return dict(self)
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environ = _Environ(environ)
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def getenv(key, default=None):
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"""Get an environment variable, return None if it doesn't exist.
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The optional second argument can specify an alternate default."""
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return environ.get(key, default)
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__all__.append("getenv")
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def _exists(name):
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return name in globals()
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# Supply spawn*() (probably only for Unix)
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if _exists("fork") and not _exists("spawnv") and _exists("execv"):
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P_WAIT = 0
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P_NOWAIT = P_NOWAITO = 1
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# XXX Should we support P_DETACH? I suppose it could fork()**2
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# and close the std I/O streams. Also, P_OVERLAY is the same
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# as execv*()?
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def _spawnvef(mode, file, args, env, func):
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# Internal helper; func is the exec*() function to use
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pid = fork()
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if not pid:
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# Child
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try:
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if env is None:
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func(file, args)
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else:
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func(file, args, env)
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except:
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_exit(127)
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else:
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# Parent
|
|
if mode == P_NOWAIT:
|
|
return pid # Caller is responsible for waiting!
|
|
while 1:
|
|
wpid, sts = waitpid(pid, 0)
|
|
if WIFSTOPPED(sts):
|
|
continue
|
|
elif WIFSIGNALED(sts):
|
|
return -WTERMSIG(sts)
|
|
elif WIFEXITED(sts):
|
|
return WEXITSTATUS(sts)
|
|
else:
|
|
raise error, "Not stopped, signaled or exited???"
|
|
|
|
def spawnv(mode, file, args):
|
|
"""spawnv(mode, file, args) -> integer
|
|
|
|
Execute file with arguments from args in a subprocess.
|
|
If mode == P_NOWAIT return the pid of the process.
|
|
If mode == P_WAIT return the process's exit code if it exits normally;
|
|
otherwise return -SIG, where SIG is the signal that killed it. """
|
|
return _spawnvef(mode, file, args, None, execv)
|
|
|
|
def spawnve(mode, file, args, env):
|
|
"""spawnve(mode, file, args, env) -> integer
|
|
|
|
Execute file with arguments from args in a subprocess with the
|
|
specified environment.
|
|
If mode == P_NOWAIT return the pid of the process.
|
|
If mode == P_WAIT return the process's exit code if it exits normally;
|
|
otherwise return -SIG, where SIG is the signal that killed it. """
|
|
return _spawnvef(mode, file, args, env, execve)
|
|
|
|
# Note: spawnvp[e] is't currently supported on Windows
|
|
|
|
def spawnvp(mode, file, args):
|
|
"""spawnvp(mode, file, args) -> integer
|
|
|
|
Execute file (which is looked for along $PATH) with arguments from
|
|
args in a subprocess.
|
|
If mode == P_NOWAIT return the pid of the process.
|
|
If mode == P_WAIT return the process's exit code if it exits normally;
|
|
otherwise return -SIG, where SIG is the signal that killed it. """
|
|
return _spawnvef(mode, file, args, None, execvp)
|
|
|
|
def spawnvpe(mode, file, args, env):
|
|
"""spawnvpe(mode, file, args, env) -> integer
|
|
|
|
Execute file (which is looked for along $PATH) with arguments from
|
|
args in a subprocess with the supplied environment.
|
|
If mode == P_NOWAIT return the pid of the process.
|
|
If mode == P_WAIT return the process's exit code if it exits normally;
|
|
otherwise return -SIG, where SIG is the signal that killed it. """
|
|
return _spawnvef(mode, file, args, env, execvpe)
|
|
|
|
if _exists("spawnv"):
|
|
# These aren't supplied by the basic Windows code
|
|
# but can be easily implemented in Python
|
|
|
|
def spawnl(mode, file, *args):
|
|
"""spawnl(mode, file, *args) -> integer
|
|
|
|
Execute file with arguments from args in a subprocess.
|
|
If mode == P_NOWAIT return the pid of the process.
|
|
If mode == P_WAIT return the process's exit code if it exits normally;
|
|
otherwise return -SIG, where SIG is the signal that killed it. """
|
|
return spawnv(mode, file, args)
|
|
|
|
def spawnle(mode, file, *args):
|
|
"""spawnle(mode, file, *args, env) -> integer
|
|
|
|
Execute file with arguments from args in a subprocess with the
|
|
supplied environment.
|
|
If mode == P_NOWAIT return the pid of the process.
|
|
If mode == P_WAIT return the process's exit code if it exits normally;
|
|
otherwise return -SIG, where SIG is the signal that killed it. """
|
|
env = args[-1]
|
|
return spawnve(mode, file, args[:-1], env)
|
|
|
|
|
|
__all__.extend(["spawnv", "spawnve", "spawnl", "spawnle",])
|
|
|
|
|
|
if _exists("spawnvp"):
|
|
# At the moment, Windows doesn't implement spawnvp[e],
|
|
# so it won't have spawnlp[e] either.
|
|
def spawnlp(mode, file, *args):
|
|
"""spawnlp(mode, file, *args) -> integer
|
|
|
|
Execute file (which is looked for along $PATH) with arguments from
|
|
args in a subprocess with the supplied environment.
|
|
If mode == P_NOWAIT return the pid of the process.
|
|
If mode == P_WAIT return the process's exit code if it exits normally;
|
|
otherwise return -SIG, where SIG is the signal that killed it. """
|
|
return spawnvp(mode, file, args)
|
|
|
|
def spawnlpe(mode, file, *args):
|
|
"""spawnlpe(mode, file, *args, env) -> integer
|
|
|
|
Execute file (which is looked for along $PATH) with arguments from
|
|
args in a subprocess with the supplied environment.
|
|
If mode == P_NOWAIT return the pid of the process.
|
|
If mode == P_WAIT return the process's exit code if it exits normally;
|
|
otherwise return -SIG, where SIG is the signal that killed it. """
|
|
env = args[-1]
|
|
return spawnvpe(mode, file, args[:-1], env)
|
|
|
|
|
|
__all__.extend(["spawnvp", "spawnvpe", "spawnlp", "spawnlpe",])
|
|
|
|
|
|
# Supply popen2 etc. (for Unix)
|
|
if _exists("fork"):
|
|
if not _exists("popen2"):
|
|
def popen2(cmd, mode="t", bufsize=-1):
|
|
"""Execute the shell command 'cmd' in a sub-process. 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()). If
|
|
'bufsize' is specified, it sets the buffer size for the I/O pipes. The
|
|
file objects (child_stdin, child_stdout) are returned."""
|
|
import warnings
|
|
msg = "os.popen2 is deprecated. Use the subprocess module."
|
|
warnings.warn(msg, DeprecationWarning, stacklevel=2)
|
|
|
|
import subprocess
|
|
PIPE = subprocess.PIPE
|
|
p = subprocess.Popen(cmd, shell=isinstance(cmd, basestring),
|
|
bufsize=bufsize, stdin=PIPE, stdout=PIPE,
|
|
close_fds=True)
|
|
return p.stdin, p.stdout
|
|
__all__.append("popen2")
|
|
|
|
if not _exists("popen3"):
|
|
def popen3(cmd, mode="t", bufsize=-1):
|
|
"""Execute the shell command 'cmd' in a sub-process. 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()). If
|
|
'bufsize' is specified, it sets the buffer size for the I/O pipes. The
|
|
file objects (child_stdin, child_stdout, child_stderr) are returned."""
|
|
import warnings
|
|
msg = "os.popen3 is deprecated. Use the subprocess module."
|
|
warnings.warn(msg, DeprecationWarning, stacklevel=2)
|
|
|
|
import subprocess
|
|
PIPE = subprocess.PIPE
|
|
p = subprocess.Popen(cmd, shell=isinstance(cmd, basestring),
|
|
bufsize=bufsize, stdin=PIPE, stdout=PIPE,
|
|
stderr=PIPE, close_fds=True)
|
|
return p.stdin, p.stdout, p.stderr
|
|
__all__.append("popen3")
|
|
|
|
if not _exists("popen4"):
|
|
def popen4(cmd, mode="t", bufsize=-1):
|
|
"""Execute the shell command 'cmd' in a sub-process. 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()). If
|
|
'bufsize' is specified, it sets the buffer size for the I/O pipes. The
|
|
file objects (child_stdin, child_stdout_stderr) are returned."""
|
|
import warnings
|
|
msg = "os.popen4 is deprecated. Use the subprocess module."
|
|
warnings.warn(msg, DeprecationWarning, stacklevel=2)
|
|
|
|
import subprocess
|
|
PIPE = subprocess.PIPE
|
|
p = subprocess.Popen(cmd, shell=isinstance(cmd, basestring),
|
|
bufsize=bufsize, stdin=PIPE, stdout=PIPE,
|
|
stderr=subprocess.STDOUT, close_fds=True)
|
|
return p.stdin, p.stdout
|
|
__all__.append("popen4")
|
|
|
|
import copy_reg as _copy_reg
|
|
|
|
def _make_stat_result(tup, dict):
|
|
return stat_result(tup, dict)
|
|
|
|
def _pickle_stat_result(sr):
|
|
(type, args) = sr.__reduce__()
|
|
return (_make_stat_result, args)
|
|
|
|
try:
|
|
_copy_reg.pickle(stat_result, _pickle_stat_result, _make_stat_result)
|
|
except NameError: # stat_result may not exist
|
|
pass
|
|
|
|
def _make_statvfs_result(tup, dict):
|
|
return statvfs_result(tup, dict)
|
|
|
|
def _pickle_statvfs_result(sr):
|
|
(type, args) = sr.__reduce__()
|
|
return (_make_statvfs_result, args)
|
|
|
|
try:
|
|
_copy_reg.pickle(statvfs_result, _pickle_statvfs_result,
|
|
_make_statvfs_result)
|
|
except NameError: # statvfs_result may not exist
|
|
pass
|