/usr/lib/python2.7/dist-packages/fs/path.py is in python-fs 0.4.0-2.
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fs.path
=======
Useful functions for FS path manipulation.
This is broadly similar to the standard ``os.path`` module but works with
paths in the canonical format expected by all FS objects (that is, separated
by forward slashes and with an optional leading slash).
"""
import re
_requires_normalization = re.compile(r'/\.\.|\./|\.|//|\\').search
def normpath(path):
"""Normalizes a path to be in the format expected by FS objects.
This function remove any leading or trailing slashes, collapses
duplicate slashes, replaces backward with forward slashes, and generally
tries very hard to return a new path string the canonical FS format.
If the path is invalid, ValueError will be raised.
:param path: path to normalize
:returns: a valid FS path
>>> normpath(r"foo\\bar\\baz")
'foo/bar/baz'
>>> normpath("/foo//bar/frob/../baz")
'/foo/bar/baz'
>>> normpath("foo/../../bar")
Traceback (most recent call last)
...
ValueError: too many backrefs in path 'foo/../../bar'
"""
if path in ('', '/'):
return path
path = path.replace('\\', '/')
# An early out if there is no need to normalize this path
if not _requires_normalization(path):
return path.rstrip('/')
components = []
append = components.append
special = ('..', '.', '').__contains__
try:
for component in path.split('/'):
if special(component):
if component == '..':
components.pop()
else:
append(component)
except IndexError:
raise ValueError("too many backrefs in path '%s'" % path)
if path[0] == '/':
return '/%s' % '/'.join(components)
return '/'.join(components)
def iteratepath(path, numsplits=None):
"""Iterate over the individual components of a path.
:param path: Path to iterate over
:numsplits: Maximum number of splits
"""
path = relpath(normpath(path))
if not path:
return []
if numsplits == None:
return path.split('/')
else:
return path.split('/', numsplits)
def recursepath(path, reverse=False):
"""Returns intermediate paths from the root to the given path
:param reverse: reverses the order of the paths
>>> recursepath('a/b/c')
['/', u'/a', u'/a/b', u'/a/b/c']
"""
if path in ('', '/'):
return [u'/']
path = abspath(normpath(path)) + '/'
paths = [u'/']
find = path.find
append = paths.append
pos = 1
len_path = len(path)
while pos < len_path:
pos = find('/', pos)
append(path[:pos])
pos += 1
if reverse:
return paths[::-1]
return paths
def isabs(path):
"""Return True if path is an absolute path."""
return path.startswith('/')
def abspath(path):
"""Convert the given path to an absolute path.
Since FS objects have no concept of a 'current directory' this simply
adds a leading '/' character if the path doesn't already have one.
"""
if not path.startswith('/'):
return u'/' + path
return path
def relpath(path):
"""Convert the given path to a relative path.
This is the inverse of abspath(), stripping a leading '/' from the
path if it is present.
:param path: Path to adjust
>>> relpath('/a/b')
'a/b'
"""
return path.lstrip('/')
def pathjoin(*paths):
"""Joins any number of paths together, returning a new path string.
:param paths: Paths to join are given in positional arguments
>>> pathjoin('foo', 'bar', 'baz')
'foo/bar/baz'
>>> pathjoin('foo/bar', '../baz')
'foo/baz'
>>> pathjoin('foo/bar', '/baz')
'/baz'
"""
absolute = False
relpaths = []
for p in paths:
if p:
if p[0] in '\\/':
del relpaths[:]
absolute = True
relpaths.append(p)
path = normpath(u"/".join(relpaths))
if absolute:
path = abspath(path)
return path
def join(*paths):
"""Joins any number of paths together, returning a new path string.
This is a simple alias for the ``pathjoin`` function, allowing it to be
used as ``fs.path.join`` in direct correspondence with ``os.path.join``.
:param paths: Paths to join are given in positional arguments
"""
return pathjoin(*paths)
def pathsplit(path):
"""Splits a path into (head, tail) pair.
This function splits a path into a pair (head, tail) where 'tail' is the
last pathname component and 'head' is all preceding components.
:param path: Path to split
>>> pathsplit("foo/bar")
('foo', 'bar')
>>> pathsplit("foo/bar/baz")
('foo/bar', 'baz')
>>> pathsplit("/foo/bar/baz")
('/foo/bar', 'baz')
"""
if '/' not in path:
return ('', path)
split = path.rsplit('/', 1)
return (split[0] or '/', split[1])
def split(path):
"""Splits a path into (head, tail) pair.
This is a simple alias for the ``pathsplit`` function, allowing it to be
used as ``fs.path.split`` in direct correspondence with ``os.path.split``.
:param path: Path to split
"""
return pathsplit(path)
def splitext(path):
"""Splits the extension from the path, and returns the path (up to the last
'.' and the extension).
:param path: A path to split
>>> splitext('baz.txt')
('baz', 'txt')
>>> splitext('foo/bar/baz.txt')
('foo/bar/baz', 'txt')
"""
parent_path, pathname = pathsplit(path)
if '.' not in pathname:
return path, ''
pathname, ext = pathname.rsplit('.', 1)
path = pathjoin(parent_path, pathname)
return path, '.' + ext
def isdotfile(path):
"""Detects if a path references a dot file, i.e. a resource who's name
starts with a '.'
:param path: Path to check
>>> isdotfile('.baz')
True
>>> isdotfile('foo/bar/baz')
True
>>> isdotfile('foo/bar.baz').
False
"""
return basename(path).startswith('.')
def dirname(path):
"""Returns the parent directory of a path.
This is always equivalent to the 'head' component of the value returned
by pathsplit(path).
:param path: A FS path
>>> dirname('foo/bar/baz')
'foo/bar'
>>> dirname('/foo/bar')
'/foo'
>>> dirname('/foo')
'/'
"""
return pathsplit(path)[0]
def basename(path):
"""Returns the basename of the resource referenced by a path.
This is always equivalent to the 'tail' component of the value returned
by pathsplit(path).
:param path: A FS path
>>> basename('foo/bar/baz')
'baz'
>>> basename('foo/bar')
'bar'
>>> basename('foo/bar/')
''
"""
return pathsplit(path)[1]
def issamedir(path1, path2):
"""Return true if two paths reference a resource in the same directory.
:param path1: An FS path
:param path2: An FS path
>>> issamedir("foo/bar/baz.txt", "foo/bar/spam.txt")
True
>>> issamedir("foo/bar/baz/txt", "spam/eggs/spam.txt")
False
"""
return dirname(normpath(path1)) == dirname(normpath(path2))
def isbase(path1, path2):
p1 = forcedir(abspath(path1))
p2 = forcedir(abspath(path2))
return p1 == p2 or p1.startswith(p2)
def isprefix(path1, path2):
"""Return true is path1 is a prefix of path2.
:param path1: An FS path
:param path2: An FS path
>>> isprefix("foo/bar", "foo/bar/spam.txt")
True
>>> isprefix("foo/bar/", "foo/bar")
True
>>> isprefix("foo/barry", "foo/baz/bar")
False
>>> isprefix("foo/bar/baz/", "foo/baz/bar")
False
"""
bits1 = path1.split("/")
bits2 = path2.split("/")
while bits1 and bits1[-1] == "":
bits1.pop()
if len(bits1) > len(bits2):
return False
for (bit1,bit2) in zip(bits1,bits2):
if bit1 != bit2:
return False
return True
def forcedir(path):
"""Ensure the path ends with a trailing /
:param path: An FS path
>>> forcedir("foo/bar")
'foo/bar/'
>>> forcedir("foo/bar/")
'foo/bar/'
"""
if not path.endswith('/'):
return path + '/'
return path
def frombase(path1, path2):
if not isprefix(path1, path2):
raise ValueError("path1 must be a prefix of path2")
return path2[len(path1):]
class PathMap(object):
"""Dict-like object with paths for keys.
A PathMap is like a dictionary where the keys are all FS paths. It has
two main advantages over a standard dictionary. First, keys are normalized
automatically::
>>> pm = PathMap()
>>> pm["hello/world"] = 42
>>> print pm["/hello/there/../world"]
42
Second, various dictionary operations (e.g. listing or clearing values)
can be efficiently performed on a subset of keys sharing some common
prefix::
# list all values in the map
pm.values()
# list all values for paths starting with "/foo/bar"
pm.values("/foo/bar")
Under the hood, a PathMap is a trie-like structure where each level is
indexed by path name component. This allows lookups to be performed in
O(number of path components) while permitting efficient prefix-based
operations.
"""
def __init__(self):
self._map = {}
def __getitem__(self,path):
"""Get the value stored under the given path."""
m = self._map
for name in iteratepath(path):
try:
m = m[name]
except KeyError:
raise KeyError(path)
try:
return m[""]
except KeyError:
raise KeyError(path)
def __contains__(self,path):
"""Check whether the given path has a value stored in the map."""
try:
self[path]
except KeyError:
return False
else:
return True
def __setitem__(self,path,value):
"""Set the value stored under the given path."""
m = self._map
for name in iteratepath(path):
try:
m = m[name]
except KeyError:
m = m.setdefault(name,{})
m[""] = value
def __delitem__(self,path):
"""Delete the value stored under the given path."""
ms = [[self._map,None]]
for name in iteratepath(path):
try:
ms.append([ms[-1][0][name],None])
except KeyError:
raise KeyError(path)
else:
ms[-2][1] = name
try:
del ms[-1][0][""]
except KeyError:
raise KeyError(path)
else:
while len(ms) > 1 and not ms[-1][0]:
del ms[-1]
del ms[-1][0][ms[-1][1]]
def get(self,path,default=None):
"""Get the value stored under the given path, or the given default."""
try:
return self[path]
except KeyError:
return default
def pop(self,path,default=None):
"""Pop the value stored under the given path, or the given default."""
ms = [[self._map,None]]
for name in iteratepath(path):
try:
ms.append([ms[-1][0][name],None])
except KeyError:
return default
else:
ms[-2][1] = name
try:
val = ms[-1][0].pop("")
except KeyError:
val = default
else:
while len(ms) > 1 and not ms[-1][0]:
del ms[-1]
del ms[-1][0][ms[-1][1]]
return val
def setdefault(self,path,value):
m = self._map
for name in iteratepath(path):
try:
m = m[name]
except KeyError:
m = m.setdefault(name,{})
return m.setdefault("",value)
def clear(self,root="/"):
"""Clear all entries beginning with the given root path."""
m = self._map
for name in iteratepath(root):
try:
m = m[name]
except KeyError:
return
m.clear()
def iterkeys(self,root="/",m=None):
"""Iterate over all keys beginning with the given root path."""
if m is None:
m = self._map
for name in iteratepath(root):
try:
m = m[name]
except KeyError:
return
for (nm,subm) in m.iteritems():
if not nm:
yield abspath(normpath(root))
else:
k = pathjoin(root,nm)
for subk in self.iterkeys(k,subm):
yield subk
def __iter__(self):
return self.iterkeys()
def keys(self,root="/"):
return list(self.iterkeys(root))
def itervalues(self,root="/",m=None):
"""Iterate over all values whose keys begin with the given root path."""
if m is None:
m = self._map
for name in iteratepath(root):
try:
m = m[name]
except KeyError:
return
for (nm,subm) in m.iteritems():
if not nm:
yield subm
else:
k = pathjoin(root,nm)
for subv in self.itervalues(k,subm):
yield subv
def values(self,root="/"):
return list(self.itervalues(root))
def iteritems(self,root="/",m=None):
"""Iterate over all (key,value) pairs beginning with the given root."""
if m is None:
m = self._map
for name in iteratepath(root):
try:
m = m[name]
except KeyError:
return
for (nm,subm) in m.iteritems():
if not nm:
yield (abspath(normpath(root)),subm)
else:
k = pathjoin(root,nm)
for (subk,subv) in self.iteritems(k,subm):
yield (subk,subv)
def items(self,root="/"):
return list(self.iteritems(root))
def iternames(self,root="/"):
"""Iterate over all names beneath the given root path.
This is basically the equivalent of listdir() for a PathMap - it yields
the next level of name components beneath the given path.
"""
m = self._map
for name in iteratepath(root):
try:
m = m[name]
except KeyError:
return
for (nm,subm) in m.iteritems():
if nm and subm:
yield nm
def names(self,root="/"):
return list(self.iternames(root))
_wild_chars = frozenset('*?[]!{}')
def iswildcard(path):
"""Check if a path ends with a wildcard
>>> is_wildcard('foo/bar/baz.*')
True
>>> is_wildcard('foo/bar')
False
"""
assert path is not None
base_chars = frozenset(basename(path))
return bool(base_chars.intersection(_wild_chars))
if __name__ == "__main__":
print recursepath('a/b/c')
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