test_ok1/py/path/local/local.py

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"""
specialized local path implementation.
This Path implementation offers some methods like chmod(), owner()
and so on that may only make sense on unix.
"""
from __future__ import generators
import sys, os, stat, re, atexit
import py
from py.__.path import common
if sys.platform == 'win32':
from py.__.path.local.win import WinMixin as PlatformMixin
else:
from py.__.path.local.posix import PosixMixin as PlatformMixin
class LocalPath(common.FSPathBase, PlatformMixin):
""" Local path implementation offering access/modification
methods similar to os.path.
"""
_path_cache = {}
sep = os.sep
class Checkers(common.FSCheckers):
def _stat(self):
try:
return self._statcache
except AttributeError:
try:
self._statcache = self.path.stat()
except py.error.ELOOP:
self._statcache = self.path.lstat()
return self._statcache
def dir(self):
return stat.S_ISDIR(self._stat().mode)
def file(self):
return stat.S_ISREG(self._stat().mode)
def exists(self):
return self._stat()
def link(self):
st = self.path.lstat()
return stat.S_ISLNK(st.mode)
def __new__(cls, path=None):
""" Initialize and return a local Path instance.
Path can be relative to the current directory.
If it is None then the current working directory is taken.
Note that Path instances always carry an absolute path.
Note also that passing in a local path object will simply return
the exact same path object. Use new() to get a new copy.
"""
if isinstance(path, common.FSPathBase):
if path.__class__ == cls:
return path
path = path.strpath
# initialize the path
self = object.__new__(cls)
if not path:
self.strpath = os.getcwd()
elif isinstance(path, str):
self.strpath = os.path.abspath(os.path.normpath(str(path)))
else:
raise ValueError(
"can only pass None, Path instances "
"or non-empty strings to LocalPath")
assert isinstance(self.strpath, str)
return self
def __hash__(self):
return hash(self.strpath)
def computehash(self, hashtype="md5", chunksize=524288):
""" return hexdigest of hashvalue for this file. """
hash = self._gethashinstance(hashtype)
f = self.open('rb')
try:
while 1:
buf = f.read(chunksize)
if not buf:
return hash.hexdigest()
hash.update(buf)
finally:
f.close()
def new(self, **kw):
""" create a modified version of this path.
the following keyword arguments modify various path parts:
a:/some/path/to/a/file.ext
|| drive
|-------------| dirname
|------| basename
|--| purebasename
|--| ext
"""
obj = object.__new__(self.__class__)
drive, dirname, basename, purebasename,ext = self._getbyspec(
"drive,dirname,basename,purebasename,ext")
if 'basename' in kw:
if 'purebasename' in kw or 'ext' in kw:
raise ValueError("invalid specification %r" % kw)
else:
pb = kw.setdefault('purebasename', purebasename)
try:
ext = kw['ext']
except KeyError:
pass
else:
if ext and not ext.startswith('.'):
ext = '.' + ext
kw['basename'] = pb + ext
kw.setdefault('drive', drive)
kw.setdefault('dirname', dirname)
kw.setdefault('sep', self.sep)
obj.strpath = os.path.normpath(
"%(drive)s%(dirname)s%(sep)s%(basename)s" % kw)
return obj
def _getbyspec(self, spec):
""" return a sequence of specified path parts. 'spec' is
a comma separated string containing path part names.
according to the following convention:
a:/some/path/to/a/file.ext
|| drive
|-------------| dirname
|------| basename
|--| purebasename
|--| ext
"""
res = []
parts = self.strpath.split(self.sep)
args = filter(None, spec.split(',') )
append = res.append
for name in args:
if name == 'drive':
append(parts[0])
elif name == 'dirname':
append(self.sep.join(['']+parts[1:-1]))
else:
basename = parts[-1]
if name == 'basename':
append(basename)
else:
i = basename.rfind('.')
if i == -1:
purebasename, ext = basename, ''
else:
purebasename, ext = basename[:i], basename[i:]
if name == 'purebasename':
append(purebasename)
elif name == 'ext':
append(ext)
else:
raise ValueError, "invalid part specification %r" % name
return res
def join(self, *args, **kwargs):
""" return a new path by appending all 'args' as path
components. if abs=1 is used restart from root if any
of the args is an absolute path.
"""
if not args:
return self
strpath = self.strpath
sep = self.sep
strargs = [str(x) for x in args]
if kwargs.get('abs', 0):
for i in range(len(strargs)-1, -1, -1):
if os.path.isabs(strargs[i]):
strpath = strargs[i]
strargs = strargs[i+1:]
break
for arg in strargs:
arg = arg.strip(sep)
if py.std.sys.platform == 'win32':
# allow unix style paths even on windows.
arg = arg.strip('/')
arg = arg.replace('/', sep)
if arg:
if not strpath.endswith(sep):
strpath += sep
strpath += arg
obj = self.new()
obj.strpath = os.path.normpath(strpath)
return obj
def __eq__(self, other):
return str(self) == str(other)
def open(self, mode='r'):
""" return an opened file with the given mode. """
return self._callex(open, self.strpath, mode)
def listdir(self, fil=None, sort=None):
""" list directory contents, possibly filter by the given fil func
and possibly sorted.
"""
if isinstance(fil, str):
fil = common.fnmatch(fil)
res = []
for name in self._callex(os.listdir, self.strpath):
childurl = self.join(name)
if fil is None or fil(childurl):
res.append(childurl)
if callable(sort):
res.sort(sort)
elif sort:
res.sort()
return res
def size(self):
""" return size of the underlying file object """
return self.stat().size
def mtime(self):
""" return last modification time of the path. """
return self.stat().mtime
def copy(self, target, archive=False):
""" copy path to target."""
assert not archive, "XXX archive-mode not supported"
if self.check(file=1):
if target.check(dir=1):
target = target.join(self.basename)
assert self!=target
copychunked(self, target)
else:
target.ensure(dir=1)
def rec(p):
return p.check(link=0)
for x in self.visit(rec=rec):
relpath = x.relto(self)
newx = target.join(relpath)
if x.check(link=1):
newx.mksymlinkto(x.readlink())
elif x.check(file=1):
copychunked(x, newx)
elif x.check(dir=1):
newx.ensure(dir=1)
def rename(self, target):
""" rename this path to target. """
return self._callex(os.rename, str(self), str(target))
def dump(self, obj, bin=1):
""" pickle object into path location"""
f = self.open('wb')
try:
self._callex(py.std.cPickle.dump, obj, f, bin)
finally:
f.close()
def mkdir(self, *args):
""" create & return the directory joined with args. """
p = self.join(*args)
self._callex(os.mkdir, str(p))
return p
def write(self, content, mode='wb'):
""" write string content into path. """
s = str(content)
f = self.open(mode)
try:
f.write(s)
finally:
f.close()
def _ensuredirs(self):
parent = self.dirpath()
if parent == self:
return self
if parent.check(dir=0):
parent._ensuredirs()
if self.check(dir=0):
try:
self.mkdir()
except py.error.EEXIST:
# race condition: file/dir created by another thread/process.
# complain if it is not a dir
if self.check(dir=0):
raise
return self
def ensure(self, *args, **kwargs):
""" ensure that an args-joined path exists (by default as
a file). if you specify a keyword argument 'dir=True'
then the path is forced to be a directory path.
"""
p = self.join(*args)
if kwargs.get('dir', 0):
return p._ensuredirs()
else:
p.dirpath()._ensuredirs()
if not p.check(file=1):
p.write("")
return p
def stat(self):
""" Return an os.stat() tuple. """
stat = self._callex(os.stat, self.strpath)
return self._makestat(stat)
def lstat(self):
""" Return an os.lstat() tuple. """
return self._makestat(self._callex(os.lstat, self.strpath))
# xlocal implementation
def setmtime(self, mtime=None):
""" set modification time for the given path. if 'mtime' is None
(the default) then the file's mtime is set to current time.
Note that the resolution for 'mtime' is platform dependent.
"""
if mtime is None:
return self._callex(os.utime, self.strpath, mtime)
try:
return self._callex(os.utime, self.strpath, (-1, mtime))
except py.error.EINVAL:
return self._callex(os.utime, self.strpath, (self.atime(), mtime))
def chdir(self):
""" change directory to self and return old current directory """
old = self.__class__()
self._callex(os.chdir, self.strpath)
return old
def realpath(self):
""" return a new path which contains no symbolic links."""
return self.__class__(os.path.realpath(self.strpath))
def atime(self):
""" return last access time of the path. """
return self.stat().atime
def __repr__(self):
return 'local(%r)' % self.strpath
def __str__(self):
""" return string representation of the Path. """
return self.strpath
def pypkgpath(self, pkgname=None):
""" return the path's package path by looking for the given
pkgname. If pkgname is None then look for the last
directory upwards which still contains an __init__.py.
Return None if a pkgpath can not be determined.
"""
pkgpath = None
for parent in self.parts(reverse=True):
if pkgname is None:
if parent.check(file=1):
continue
if parent.join('__init__.py').check():
pkgpath = parent
continue
return pkgpath
else:
if parent.basename == pkgname:
return parent
return pkgpath
def _prependsyspath(self, path):
s = str(path)
if s != sys.path[0]:
#print "prepending to sys.path", s
sys.path.insert(0, s)
def pyimport(self, modname=None, ensuresyspath=True):
""" return path as an imported python module.
if modname is None, look for the containing package
and construct an according module name.
The module will be put/looked up in sys.modules.
"""
if not self.check():
raise py.error.ENOENT(self)
#print "trying to import", self
pkgpath = None
if modname is None:
#try:
# return self._module
#except AttributeError:
# pass
pkgpath = self.pypkgpath()
if pkgpath is not None:
if ensuresyspath:
self._prependsyspath(pkgpath.dirpath())
pkg = __import__(pkgpath.basename, None, None, [])
if hasattr(pkg, '__package__'):
modname = pkg.__package__.getimportname(self)
assert modname is not None, "package %s doesn't know %s" % (
pkg.__name__, self)
else:
names = self.new(ext='').relto(pkgpath.dirpath())
names = names.split(self.sep)
modname = ".".join(names)
else:
# no package scope, still make it possible
if ensuresyspath:
self._prependsyspath(self.dirpath())
modname = self.purebasename
mod = __import__(modname, None, None, ['__doc__'])
#self._module = mod
return mod
else:
try:
return sys.modules[modname]
except KeyError:
# we have a custom modname, do a pseudo-import
mod = py.std.new.module(modname)
mod.__file__ = str(self)
sys.modules[modname] = mod
try:
execfile(str(self), mod.__dict__)
except:
del sys.modules[modname]
raise
return mod
def getpymodule(self):
"""resolve this path to a module python object. """
if self.ext != '.c':
return super(LocalPath, self).getpymodule()
from py.__.misc.buildcmodule import make_module_from_c
mod = make_module_from_c(self)
return mod
def getpycodeobj(self):
""" read the path and compile it to a code object. """
dotpy = self.check(ext='.py')
if dotpy:
my_magic = py.std.imp.get_magic()
my_timestamp = int(self.mtime())
if __debug__:
pycfile = self + 'c'
else:
pycfile = self + 'o'
try:
f = pycfile.open('rb')
try:
header = f.read(8)
if len(header) == 8:
magic, timestamp = py.std.struct.unpack('<4si', header)
if magic == my_magic and timestamp == my_timestamp:
co = py.std.marshal.load(f)
path1 = co.co_filename
path2 = str(self)
if path1 == path2:
return co
try:
if os.path.samefile(path1, path2):
return co
except (OSError, # probably path1 not found
AttributeError): # samefile() not available
pass
finally:
f.close()
except py.error.Error:
pass
s = self.read(mode='rU') + '\n'
codeobj = compile(s, str(self), 'exec', generators.compiler_flag)
if dotpy:
try:
f = pycfile.open('wb')
f.write(py.std.struct.pack('<4si', 'TEMP', -1)) # fixed below
py.std.marshal.dump(codeobj, f)
f.flush()
f.seek(0)
f.write(py.std.struct.pack('<4si', my_magic, my_timestamp))
f.close()
except py.error.Error:
pass
return codeobj
def sysexec(self, *argv):
""" return stdout-put from executing a system child process,
where the self path points to the binary (XXX or script)
to be executed. Note that this process is directly
invoked and not through a system shell.
"""
from py.compat.subprocess import Popen, PIPE
argv = map(str, argv)
proc = Popen([str(self)] + list(argv), stdout=PIPE, stderr=PIPE)
stdout, stderr = proc.communicate()
ret = proc.wait()
if ret != 0:
raise py.process.cmdexec.Error(ret, ret, str(self),
stdout, stderr,)
return stdout
def sysfind(cls, name, checker=None):
""" return a path object found by looking at the systems
underlying PATH specification. If the checker is not None
it will be invoked to filter matching paths. If a binary
cannot be found, None is returned
Note: This is probably not working on plain win32 systems
but may work on cygwin.
"""
if os.path.isabs(name):
p = py.path.local(name)
if p.check(file=1):
return p
else:
if py.std.sys.platform == 'win32':
paths = py.std.os.environ['Path'].split(';')
try:
systemroot = os.environ['SYSTEMROOT']
except KeyError:
pass
else:
paths = [re.sub('%SystemRoot%', systemroot, path)
for path in paths]
tryadd = '', '.exe', '.com', '.bat' # XXX add more?
else:
paths = py.std.os.environ['PATH'].split(':')
tryadd = ('',)
for x in paths:
for addext in tryadd:
p = py.path.local(x).join(name, abs=True) + addext
try:
if p.check(file=1):
if checker:
if not checker(p):
continue
return p
except py.error.EACCES:
pass
return None
sysfind = classmethod(sysfind)
#"""
#special class constructors for local filesystem paths
#"""
def get_temproot(cls):
""" return the system's temporary directory
(where tempfiles are usually created in)
"""
return py.path.local(py.std.tempfile.gettempdir())
get_temproot = classmethod(get_temproot)
def mkdtemp(cls):
""" return a Path object pointing to a fresh new temporary directory
(which we created ourself).
"""
import tempfile
tries = 10
for i in range(tries):
dname = tempfile.mktemp()
dpath = cls(tempfile.mktemp())
try:
dpath.mkdir()
except (py.error.EEXIST, py.error.EPERM, py.error.EACCES):
continue
return dpath
raise py.error.ENOENT(dpath, "could not create tempdir, %d tries" % tries)
mkdtemp = classmethod(mkdtemp)
def make_numbered_dir(cls, prefix='session-', rootdir=None, keep=3,
lock_timeout = 172800): # two days
""" return unique directory with a number greater than the current
maximum one. The number is assumed to start directly after prefix.
if keep is true directories with a number less than (maxnum-keep)
will be removed.
"""
if rootdir is None:
rootdir = cls.get_temproot()
def parse_num(path):
""" parse the number out of a path (if it matches the prefix) """
bn = path.basename
if bn.startswith(prefix):
try:
return int(bn[len(prefix):])
except ValueError:
pass
# compute the maximum number currently in use with the
# prefix
lastmax = None
while True:
maxnum = -1
for path in rootdir.listdir():
num = parse_num(path)
if num is not None:
maxnum = max(maxnum, num)
# make the new directory
try:
udir = rootdir.mkdir(prefix + str(maxnum+1))
except py.error.EEXIST:
# race condition: another thread/process created the dir
# in the meantime. Try counting again
if lastmax == maxnum:
raise
lastmax = maxnum
continue
break
# put a .lock file in the new directory that will be removed at
# process exit
lockfile = udir.join('.lock')
if hasattr(lockfile, 'mksymlinkto'):
lockfile.mksymlinkto(str(os.getpid()))
else:
lockfile.write(str(os.getpid()))
def try_remove_lockfile():
try:
lockfile.remove()
except py.error.Error:
pass
atexit.register(try_remove_lockfile)
# prune old directories
if keep:
for path in rootdir.listdir():
num = parse_num(path)
if num is not None and num <= (maxnum - keep):
lf = path.join('.lock')
try:
t1 = lf.lstat().mtime
t2 = lockfile.lstat().mtime
if abs(t2-t1) < lock_timeout:
continue # skip directories still locked
except py.error.Error:
pass # assume that it means that there is no 'lf'
try:
path.remove(rec=1)
except py.error.Error:
pass
# make link...
try:
username = os.environ['USER'] #linux, et al
except KeyError:
try:
username = os.environ['USERNAME'] #windows
except KeyError:
username = 'current'
src = str(udir)
dest = src[:src.rfind('-')] + '-' + username
try:
os.unlink(dest)
except OSError:
pass
try:
os.symlink(src, dest)
except (OSError, AttributeError): # AttributeError on win32
pass
return udir
make_numbered_dir = classmethod(make_numbered_dir)
def copychunked(src, dest):
chunksize = 524288 # half a meg of bytes
fsrc = src.open('rb')
try:
fdest = dest.open('wb')
try:
while 1:
buf = fsrc.read(chunksize)
if not buf:
break
fdest.write(buf)
finally:
fdest.close()
finally:
fsrc.close()