test_ok2/py/path/common.py

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"""
module with base functionality for std.path package
"""
from __future__ import generators
import os, sys
import py
def checktype(pathinstance, kw):
names = ('local', 'svnwc', 'svnurl', 'py', )
for name,value in kw.items():
if name in names:
cls = getattr(py.path, name)
if bool(isinstance(pathinstance, cls)) ^ bool(value):
return False
del kw[name]
return True
class checker:
""" deprecated: return checker callable checking for the given
kwargs-specified specification.
"""
def __init__(self, **kwargs):
py.std.warnings.warn("py.path.checker is deprecated, construct "
"calls to pathobj.check() instead",
DeprecationWarning, stacklevel=2)
self.kwargs = kwargs
def __call__(self, p):
return p.check(**self.kwargs)
class Checkers:
_depend_on_existence = 'exists', 'link'
def __init__(self, path):
self.path = path
def exists(self):
raise NotImplementedError
def basename(self, arg):
return self.path.basename == arg
def basestarts(self, arg):
return self.path.basename.startswith(arg)
def relto(self, arg):
return self.path.relto(arg)
def fnmatch(self, arg):
return fnmatch(arg)(self.path)
def endswith(self, arg):
return str(self.path).endswith(arg)
def _evaluate(self, kw):
for name, value in kw.items():
invert = False
meth = None
try:
meth = getattr(self, name)
except AttributeError:
if name[:3] == 'not':
invert = True
try:
meth = getattr(self, name[3:])
except AttributeError:
pass
if meth is None:
raise TypeError, "no %r checker available for %r" % (name, self.path)
try:
if meth.im_func.func_code.co_argcount > 1:
if (not meth(value)) ^ invert:
return False
else:
if bool(value) ^ bool(meth()) ^ invert:
return False
except (py.error.ENOENT, py.error.ENOTDIR):
for name in self._depend_on_existence:
if name in kw:
if kw.get(name):
return False
name = 'not' + name
if name in kw:
if not kw.get(name):
return False
return True
class _dummyclass:
pass
class PathBase(object):
""" shared implementation for filesystem path objects."""
Checkers = Checkers
def check(self, **kw):
""" check a path for existence, or query its properties
without arguments, this returns True if the path exists (on the
filesystem), False if not
with (keyword only) arguments, the object compares the value
of the argument with the value of a property with the same name
(if it has one, else it raises a TypeError)
when for example the keyword argument 'ext' is '.py', this will
return True if self.ext == '.py', False otherwise
"""
if kw:
kw = kw.copy()
if not checktype(self, kw):
return False
else:
kw = {'exists' : 1}
return self.Checkers(self)._evaluate(kw)
def __iter__(self):
for i in self.listdir():
yield i
def __contains__(self, other):
if isinstance(other, str):
return self.join(other).check()
else:
if other.dirpath() != self:
return False
p = self.join(other.basename)
return p.check()
def basename(self):
return self._getbyspec('basename')[0]
basename = property(basename, None, None, 'basename part of path')
def relto(self, relpath):
""" return a string which is the relative part of the path
to the given 'relpath'.
"""
if not isinstance(relpath, (str, PathBase)):
raise TypeError("%r: not a string or path object" %(relpath,))
strrelpath = str(relpath)
if strrelpath and strrelpath[-1] != self.sep:
strrelpath += self.sep
#assert strrelpath[-1] == self.sep
#assert strrelpath[-2] != self.sep
strself = str(self)
if strself.startswith(strrelpath):
return strself[len(strrelpath):]
return ""
def parts(self, reverse=False):
""" return a root-first list of all ancestor directories
plus the path itself.
"""
current = self
l = [self]
while 1:
last = current
current = current.dirpath()
if last == current:
break
l.insert(0, current)
if reverse:
l.reverse()
return l
def common(self, other):
""" return the common part shared with the other path
or None if there is no common part.
"""
last = None
for x, y in zip(self.parts(), other.parts()):
if x != y:
return last
last = x
return last
def __add__(self, other):
""" return new path object with 'other' added to the basename"""
return self.new(basename=self.basename+str(other))
def __cmp__(self, other):
""" return sort value (-1, 0, +1). """
try:
return cmp(self.strpath, other.strpath)
except AttributeError:
return cmp(str(self), str(other)) # self.path, other.path)
def __repr__(self):
""" return a string representation of this path. """
return repr(str(self))
def visit(self, fil=None, rec=None, ignore=_dummyclass):
""" yields all paths below the current one
fil is a filter (glob pattern or callable), if not matching the
path will not be yielded, defaulting to None (everything is
returned)
rec is a filter (glob pattern or callable) that controls whether
a node is descended, defaulting to None
ignore is an Exception class that is ignoredwhen calling dirlist()
on any of the paths (by default, all exceptions are reported)
"""
if isinstance(fil, str):
fil = fnmatch(fil)
if rec:
if isinstance(rec, str):
rec = fnmatch(fil)
elif not callable(rec):
rec = lambda x: True
reclist = [self]
while reclist:
current = reclist.pop(0)
try:
dirlist = current.listdir()
except ignore:
return
for p in dirlist:
if fil is None or fil(p):
yield p
if p.check(dir=1) and (rec is None or rec(p)):
reclist.append(p)
def _callex(self, func, *args):
""" call a function and raise errno-exception if applicable. """
__tracebackhide__ = True
try:
return func(*args)
except py.error.Error:
raise
except EnvironmentError, e:
if not hasattr(e, 'errno'):
raise
__tracebackhide__ = False
cls, value, tb = sys.exc_info()
errno = e.errno
try:
if not isinstance(e, WindowsError):
raise NameError
except NameError:
# we are not on Windows, or we got a proper OSError
cls = py.error._geterrnoclass(errno)
else:
try:
cls = py.error._getwinerrnoclass(errno)
except KeyError:
raise cls, value, tb
value = cls("%s%r" % (func.__name__, args))
__tracebackhide__ = True
raise cls, value
def _gethashinstance(self, hashtype):
if hashtype == "md5":
return py.std.md5.md5()
elif hashtype == "sha":
return py.std.sha.sha()
else:
raise ValueError("unknown hash type: %r" %(hashtype,))
class fnmatch:
def __init__(self, pattern):
self.pattern = pattern
def __call__(self, path):
"""return true if the basename/fullname matches the glob-'pattern'.
* matches everything
? matches any single character
[seq] matches any character in seq
[!seq] matches any char not in seq
if the pattern contains a path-separator then the full path
is used for pattern matching and a '*' is prepended to the
pattern.
if the pattern doesn't contain a path-separator the pattern
is only matched against the basename.
"""
pattern = self.pattern
if pattern.find(path.sep) == -1:
name = path.basename
else:
name = str(path) # path.strpath # XXX svn?
pattern = '*' + path.sep + pattern
from fnmatch import fnmatch
return fnmatch(name, pattern)
class FSCheckers(Checkers):
_depend_on_existence = Checkers._depend_on_existence+('dir', 'file')
def dir(self):
raise NotImplementedError
def file(self):
raise NotImplementedError
def dotfile(self):
return self.path.basename.startswith('.')
def ext(self, arg):
if not arg.startswith('.'):
arg = '.' + arg
return self.path.ext == arg
class FSPathBase(PathBase):
""" shared implementation for filesystem path objects."""
Checkers = FSCheckers
def __div__(self, other):
return self.join(str(other))
def dirpath(self, *args, **kwargs):
""" return the directory Path of the current Path joined
with any given path arguments.
"""
return self.new(basename='').join(*args, **kwargs)
def ext(self):
""" extension of the path (including the '.')."""
return self._getbyspec('ext')[0]
ext = property(ext, None, None, 'extension part of path')
def purebasename(self):
""" pure base name of the path."""
return self._getbyspec('purebasename')[0]
purebasename = property(purebasename, None, None, 'basename without extension')
def read(self, mode='rb'):
""" read and return a bytestring from reading the path. """
if py.std.sys.version_info < (2,3):
for x in 'u', 'U':
if x in mode:
mode = mode.replace(x, '')
f = self.open(mode)
try:
return f.read()
finally:
f.close()
def readlines(self, cr=1):
""" read and return a list of lines from the path. if cr is False, the
newline will be removed from the end of each line. """
if not cr:
content = self.read('rU')
return content.split('\n')
else:
f = self.open('rU')
try:
return f.readlines()
finally:
f.close()
def load(self):
""" return object unpickled from self.read() """
f = self.open('rb')
try:
from cPickle import load
return self._callex(load, f)
finally:
f.close()
def move(self, target):
""" move this path to target. """
if target.relto(self):
raise py.error.EINVAL(target, "cannot move path into a subdirectory of itself")
try:
self.rename(target)
except py.error.EXDEV: # invalid cross-device link
self.copy(target)
self.remove()
def getpymodule(self):
"""resolve this path to a module python object. """
modname = str(self)
modname = modname.replace('.', self.sep)
try:
return sys.modules[modname]
except KeyError:
co = self.getpycodeobj()
mod = py.std.new.module(modname)
mod.__file__ = PathStr(self)
if self.basename == '__init__.py':
mod.__path__ = [str(self.dirpath())]
sys.modules[modname] = mod
try:
exec co in mod.__dict__
except:
del sys.modules[modname]
raise
return mod
def getpycodeobj(self):
""" read the path and compile it to a py.code.Code object. """
s = self.read('rU')
# XXX str(self) should show up somewhere in the code's filename
return py.code.compile(s)
class PathStr(str):
def __init__(self, path):
global old_import_hook
self.__path__ = path
if old_import_hook is None:
import __builtin__
old_import_hook = __builtin__.__import__
__builtin__.__import__ = custom_import_hook
def relativeimport(p, name, parent=None):
names = name.split('.')
last_list = [False] * (len(names)-1) + [True]
modules = []
for name, is_last in zip(names, last_list):
if hasattr(parent, name):
# shortcut if there is already the correct name
# in the parent package
submodule = getattr(parent, name)
else:
if is_last and p.new(basename=name+'.py').check():
p = p.new(basename=name+'.py')
else:
p = p.new(basename=name).join('__init__.py')
if not p.check():
return None # not found
submodule = p.getpymodule()
if parent is not None:
setattr(parent, name, submodule)
modules.append(submodule)
parent = submodule
return modules # success
old_import_hook = None
def custom_import_hook(name, glob=None, loc=None, fromlist=None):
__tracebackhide__ = False
__file__ = glob and glob.get('__file__')
if isinstance(__file__, PathStr):
# try to perform a relative import
# for cooperation with py.magic.autopath, first look in the pkgdir
modules = None
if hasattr(__file__.__path__, 'pkgdir'):
modules = relativeimport(__file__.__path__.pkgdir, name)
if not modules:
modules = relativeimport(__file__.__path__, name)
if modules:
if fromlist:
submodule = modules[-1] # innermost submodule
# try to import submodules named in the 'fromlist' if the
# 'submodule' is a package
p = submodule.__file__.__path__
if p.check(basename='__init__.py'):
for name in fromlist:
relativeimport(p, name, parent=submodule)
# failures are fine
return submodule
else:
return modules[0] # outermost package
# fall-back
__tracebackhide__ = True
return old_import_hook(name, glob, loc, fromlist)