AlkantarClanX12
Current Path : /opt/cloudlinux/venv/lib/python3.11/site-packages/_pytest/_py/ |
Current File : //opt/cloudlinux/venv/lib/python3.11/site-packages/_pytest/_py/path.py |
"""local path implementation.""" from __future__ import annotations import atexit import fnmatch import importlib.util import io import os import posixpath import sys import uuid import warnings from contextlib import contextmanager from os.path import abspath from os.path import dirname from os.path import exists from os.path import isabs from os.path import isdir from os.path import isfile from os.path import islink from os.path import normpath from stat import S_ISDIR from stat import S_ISLNK from stat import S_ISREG from typing import Any from typing import Callable from typing import cast from typing import overload from typing import TYPE_CHECKING from . import error if TYPE_CHECKING: from typing import Literal # Moved from local.py. iswin32 = sys.platform == "win32" or (getattr(os, "_name", False) == "nt") class Checkers: _depend_on_existence = "exists", "link", "dir", "file" def __init__(self, path): self.path = path def dotfile(self): return self.path.basename.startswith(".") def ext(self, arg): if not arg.startswith("."): arg = "." + arg return self.path.ext == arg 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 self.path.fnmatch(arg) def endswith(self, arg): return str(self.path).endswith(arg) def _evaluate(self, kw): from .._code.source import getrawcode 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(f"no {name!r} checker available for {self.path!r}") try: if getrawcode(meth).co_argcount > 1: if (not meth(value)) ^ invert: return False else: if bool(value) ^ bool(meth()) ^ invert: return False except (error.ENOENT, error.ENOTDIR, error.EBUSY): # EBUSY feels not entirely correct, # but its kind of necessary since ENOMEDIUM # is not accessible in python 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 _statcache: Stat def _stat(self) -> Stat: try: return self._statcache except AttributeError: try: self._statcache = self.path.stat() except error.ELOOP: self._statcache = self.path.lstat() return self._statcache def dir(self): return S_ISDIR(self._stat().mode) def file(self): return S_ISREG(self._stat().mode) def exists(self): return self._stat() def link(self): st = self.path.lstat() return S_ISLNK(st.mode) class NeverRaised(Exception): pass class Visitor: def __init__(self, fil, rec, ignore, bf, sort): if isinstance(fil, str): fil = FNMatcher(fil) if isinstance(rec, str): self.rec: Callable[[LocalPath], bool] = FNMatcher(rec) elif not hasattr(rec, "__call__") and rec: self.rec = lambda path: True else: self.rec = rec self.fil = fil self.ignore = ignore self.breadthfirst = bf self.optsort = cast(Callable[[Any], Any], sorted) if sort else (lambda x: x) def gen(self, path): try: entries = path.listdir() except self.ignore: return rec = self.rec dirs = self.optsort( [p for p in entries if p.check(dir=1) and (rec is None or rec(p))] ) if not self.breadthfirst: for subdir in dirs: for p in self.gen(subdir): yield p for p in self.optsort(entries): if self.fil is None or self.fil(p): yield p if self.breadthfirst: for subdir in dirs: for p in self.gen(subdir): yield p class FNMatcher: def __init__(self, pattern): self.pattern = pattern def __call__(self, path): pattern = self.pattern if ( pattern.find(path.sep) == -1 and iswin32 and pattern.find(posixpath.sep) != -1 ): # Running on Windows, the pattern has no Windows path separators, # and the pattern has one or more Posix path separators. Replace # the Posix path separators with the Windows path separator. pattern = pattern.replace(posixpath.sep, path.sep) if pattern.find(path.sep) == -1: name = path.basename else: name = str(path) # path.strpath # XXX svn? if not os.path.isabs(pattern): pattern = "*" + path.sep + pattern return fnmatch.fnmatch(name, pattern) def map_as_list(func, iter): return list(map(func, iter)) class Stat: if TYPE_CHECKING: @property def size(self) -> int: ... @property def mtime(self) -> float: ... def __getattr__(self, name: str) -> Any: return getattr(self._osstatresult, "st_" + name) def __init__(self, path, osstatresult): self.path = path self._osstatresult = osstatresult @property def owner(self): if iswin32: raise NotImplementedError("XXX win32") import pwd entry = error.checked_call(pwd.getpwuid, self.uid) # type:ignore[attr-defined] return entry[0] @property def group(self): """Return group name of file.""" if iswin32: raise NotImplementedError("XXX win32") import grp entry = error.checked_call(grp.getgrgid, self.gid) # type:ignore[attr-defined] return entry[0] def isdir(self): return S_ISDIR(self._osstatresult.st_mode) def isfile(self): return S_ISREG(self._osstatresult.st_mode) def islink(self): self.path.lstat() return S_ISLNK(self._osstatresult.st_mode) def getuserid(user): import pwd if not isinstance(user, int): user = pwd.getpwnam(user)[2] # type:ignore[attr-defined] return user def getgroupid(group): import grp if not isinstance(group, int): group = grp.getgrnam(group)[2] # type:ignore[attr-defined] return group class LocalPath: """Object oriented interface to os.path and other local filesystem related information. """ class ImportMismatchError(ImportError): """raised on pyimport() if there is a mismatch of __file__'s""" sep = os.sep def __init__(self, path=None, expanduser=False): """Initialize and return a local Path instance. Path can be relative to the current directory. If path is None it defaults to the current working directory. If expanduser is True, tilde-expansion is performed. 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 path is None: self.strpath = error.checked_call(os.getcwd) else: try: path = os.fspath(path) except TypeError: raise ValueError( "can only pass None, Path instances " "or non-empty strings to LocalPath" ) if expanduser: path = os.path.expanduser(path) self.strpath = abspath(path) if sys.platform != "win32": def chown(self, user, group, rec=0): """Change ownership to the given user and group. user and group may be specified by a number or by a name. if rec is True change ownership recursively. """ uid = getuserid(user) gid = getgroupid(group) if rec: for x in self.visit(rec=lambda x: x.check(link=0)): if x.check(link=0): error.checked_call(os.chown, str(x), uid, gid) error.checked_call(os.chown, str(self), uid, gid) def readlink(self) -> str: """Return value of a symbolic link.""" # https://github.com/python/mypy/issues/12278 return error.checked_call(os.readlink, self.strpath) # type: ignore[arg-type,return-value] def mklinkto(self, oldname): """Posix style hard link to another name.""" error.checked_call(os.link, str(oldname), str(self)) def mksymlinkto(self, value, absolute=1): """Create a symbolic link with the given value (pointing to another name).""" if absolute: error.checked_call(os.symlink, str(value), self.strpath) else: base = self.common(value) # with posix local paths '/' is always a common base relsource = self.__class__(value).relto(base) reldest = self.relto(base) n = reldest.count(self.sep) target = self.sep.join(("..",) * n + (relsource,)) error.checked_call(os.symlink, target, self.strpath) def __div__(self, other): return self.join(os.fspath(other)) __truediv__ = __div__ # py3k @property def basename(self): """Basename part of path.""" return self._getbyspec("basename")[0] @property def dirname(self): """Dirname part of path.""" return self._getbyspec("dirname")[0] @property def purebasename(self): """Pure base name of the path.""" return self._getbyspec("purebasename")[0] @property def ext(self): """Extension of the path (including the '.').""" return self._getbyspec("ext")[0] def read_binary(self): """Read and return a bytestring from reading the path.""" with self.open("rb") as f: return f.read() def read_text(self, encoding): """Read and return a Unicode string from reading the path.""" with self.open("r", encoding=encoding) as f: return f.read() def read(self, mode="r"): """Read and return a bytestring from reading the path.""" with self.open(mode) as f: return f.read() 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.""" mode = "r" if not cr: content = self.read(mode) return content.split("\n") else: f = self.open(mode) try: return f.readlines() finally: f.close() def load(self): """(deprecated) return object unpickled from self.read()""" f = self.open("rb") try: import pickle return error.checked_call(pickle.load, f) finally: f.close() def move(self, target): """Move this path to target.""" if target.relto(self): raise error.EINVAL(target, "cannot move path into a subdirectory of itself") try: self.rename(target) except error.EXDEV: # invalid cross-device link self.copy(target) self.remove() def fnmatch(self, pattern): """Return true if the basename/fullname matches the glob-'pattern'. valid pattern characters:: * 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. """ return FNMatcher(pattern)(self) def relto(self, relpath): """Return a string which is the relative part of the path to the given 'relpath'. """ if not isinstance(relpath, (str, LocalPath)): raise TypeError(f"{relpath!r}: not a string or path object") strrelpath = str(relpath) if strrelpath and strrelpath[-1] != self.sep: strrelpath += self.sep # assert strrelpath[-1] == self.sep # assert strrelpath[-2] != self.sep strself = self.strpath if sys.platform == "win32" or getattr(os, "_name", None) == "nt": if os.path.normcase(strself).startswith(os.path.normcase(strrelpath)): return strself[len(strrelpath) :] elif strself.startswith(strrelpath): return strself[len(strrelpath) :] return "" def ensure_dir(self, *args): """Ensure the path joined with args is a directory.""" return self.ensure(*args, **{"dir": True}) def bestrelpath(self, dest): """Return a string which is a relative path from self (assumed to be a directory) to dest such that self.join(bestrelpath) == dest and if not such path can be determined return dest. """ try: if self == dest: return os.curdir base = self.common(dest) if not base: # can be the case on windows return str(dest) self2base = self.relto(base) reldest = dest.relto(base) if self2base: n = self2base.count(self.sep) + 1 else: n = 0 lst = [os.pardir] * n if reldest: lst.append(reldest) target = dest.sep.join(lst) return target except AttributeError: return str(dest) def exists(self): return self.check() def isdir(self): return self.check(dir=1) def isfile(self): return self.check(file=1) def parts(self, reverse=False): """Return a root-first list of all ancestor directories plus the path itself. """ current = self lst = [self] while 1: last = current current = current.dirpath() if last == current: break lst.append(current) if not reverse: lst.reverse() return lst 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 visit(self, fil=None, rec=None, ignore=NeverRaised, bf=False, sort=False): """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) bf if True will cause a breadthfirst search instead of the default depthfirst. Default: False sort if True will sort entries within each directory level. """ yield from Visitor(fil, rec, ignore, bf, sort).gen(self) def _sortlist(self, res, sort): if sort: if hasattr(sort, "__call__"): warnings.warn( DeprecationWarning( "listdir(sort=callable) is deprecated and breaks on python3" ), stacklevel=3, ) res.sort(sort) else: res.sort() def __fspath__(self): return self.strpath def __hash__(self): s = self.strpath if iswin32: s = s.lower() return hash(s) def __eq__(self, other): s1 = os.fspath(self) try: s2 = os.fspath(other) except TypeError: return False if iswin32: s1 = s1.lower() try: s2 = s2.lower() except AttributeError: return False return s1 == s2 def __ne__(self, other): return not (self == other) def __lt__(self, other): return os.fspath(self) < os.fspath(other) def __gt__(self, other): return os.fspath(self) > os.fspath(other) def samefile(self, other): """Return True if 'other' references the same file as 'self'.""" other = os.fspath(other) if not isabs(other): other = abspath(other) if self == other: return True if not hasattr(os.path, "samefile"): return False return error.checked_call(os.path.samefile, self.strpath, other) def remove(self, rec=1, ignore_errors=False): """Remove a file or directory (or a directory tree if rec=1). if ignore_errors is True, errors while removing directories will be ignored. """ if self.check(dir=1, link=0): if rec: # force remove of readonly files on windows if iswin32: self.chmod(0o700, rec=1) import shutil error.checked_call( shutil.rmtree, self.strpath, ignore_errors=ignore_errors ) else: error.checked_call(os.rmdir, self.strpath) else: if iswin32: self.chmod(0o700) error.checked_call(os.remove, self.strpath) def computehash(self, hashtype="md5", chunksize=524288): """Return hexdigest of hashvalue for this file.""" try: try: import hashlib as mod except ImportError: if hashtype == "sha1": hashtype = "sha" mod = __import__(hashtype) hash = getattr(mod, hashtype)() except (AttributeError, ImportError): raise ValueError(f"Don't know how to compute {hashtype!r} hash") 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 xx drive xxxxxxxxxxxxxxxxx dirname xxxxxxxx basename xxxx purebasename xxx ext """ obj = object.__new__(self.__class__) if not kw: obj.strpath = self.strpath return obj 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 if "dirname" in kw and not kw["dirname"]: kw["dirname"] = drive else: kw.setdefault("dirname", dirname) kw.setdefault("sep", self.sep) obj.strpath = normpath("%(dirname)s%(sep)s%(basename)s" % kw) return obj def _getbyspec(self, spec: str) -> list[str]: """See new for what 'spec' can be.""" res = [] parts = self.strpath.split(self.sep) args = filter(None, spec.split(",")) for name in args: if name == "drive": res.append(parts[0]) elif name == "dirname": res.append(self.sep.join(parts[:-1])) else: basename = parts[-1] if name == "basename": res.append(basename) else: i = basename.rfind(".") if i == -1: purebasename, ext = basename, "" else: purebasename, ext = basename[:i], basename[i:] if name == "purebasename": res.append(purebasename) elif name == "ext": res.append(ext) else: raise ValueError("invalid part specification %r" % name) return res def dirpath(self, *args, **kwargs): """Return the directory path joined with any given path arguments.""" if not kwargs: path = object.__new__(self.__class__) path.strpath = dirname(self.strpath) if args: path = path.join(*args) return path return self.new(basename="").join(*args, **kwargs) def join(self, *args: os.PathLike[str], abs: bool = False) -> LocalPath: """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. """ sep = self.sep strargs = [os.fspath(arg) for arg in args] strpath = self.strpath if abs: newargs: list[str] = [] for arg in reversed(strargs): if isabs(arg): strpath = arg strargs = newargs break newargs.insert(0, arg) # special case for when we have e.g. strpath == "/" actual_sep = "" if strpath.endswith(sep) else sep for arg in strargs: arg = arg.strip(sep) if iswin32: # allow unix style paths even on windows. arg = arg.strip("/") arg = arg.replace("/", sep) strpath = strpath + actual_sep + arg actual_sep = sep obj = object.__new__(self.__class__) obj.strpath = normpath(strpath) return obj def open(self, mode="r", ensure=False, encoding=None): """Return an opened file with the given mode. If ensure is True, create parent directories if needed. """ if ensure: self.dirpath().ensure(dir=1) if encoding: return error.checked_call(io.open, self.strpath, mode, encoding=encoding) return error.checked_call(open, self.strpath, mode) def _fastjoin(self, name): child = object.__new__(self.__class__) child.strpath = self.strpath + self.sep + name return child def islink(self): return islink(self.strpath) def check(self, **kw): """Check a path for existence and properties. Without arguments, return True if the path exists, otherwise False. valid checkers:: file=1 # is a file file=0 # is not a file (may not even exist) dir=1 # is a dir link=1 # is a link exists=1 # exists You can specify multiple checker definitions, for example:: path.check(file=1, link=1) # a link pointing to a file """ if not kw: return exists(self.strpath) if len(kw) == 1: if "dir" in kw: return not kw["dir"] ^ isdir(self.strpath) if "file" in kw: return not kw["file"] ^ isfile(self.strpath) if not kw: kw = {"exists": 1} return Checkers(self)._evaluate(kw) _patternchars = set("*?[" + os.sep) def listdir(self, fil=None, sort=None): """List directory contents, possibly filter by the given fil func and possibly sorted. """ if fil is None and sort is None: names = error.checked_call(os.listdir, self.strpath) return map_as_list(self._fastjoin, names) if isinstance(fil, str): if not self._patternchars.intersection(fil): child = self._fastjoin(fil) if exists(child.strpath): return [child] return [] fil = FNMatcher(fil) names = error.checked_call(os.listdir, self.strpath) res = [] for name in names: child = self._fastjoin(name) if fil is None or fil(child): res.append(child) self._sortlist(res, sort) return res def size(self) -> int: """Return size of the underlying file object""" return self.stat().size def mtime(self) -> float: """Return last modification time of the path.""" return self.stat().mtime def copy(self, target, mode=False, stat=False): """Copy path to target. If mode is True, will copy copy permission from path to target. If stat is True, copy permission, last modification time, last access time, and flags from path to target. """ if self.check(file=1): if target.check(dir=1): target = target.join(self.basename) assert self != target copychunked(self, target) if mode: copymode(self.strpath, target.strpath) if stat: copystat(self, target) else: def rec(p): return p.check(link=0) for x in self.visit(rec=rec): relpath = x.relto(self) newx = target.join(relpath) newx.dirpath().ensure(dir=1) if x.check(link=1): newx.mksymlinkto(x.readlink()) continue elif x.check(file=1): copychunked(x, newx) elif x.check(dir=1): newx.ensure(dir=1) if mode: copymode(x.strpath, newx.strpath) if stat: copystat(x, newx) def rename(self, target): """Rename this path to target.""" target = os.fspath(target) return error.checked_call(os.rename, self.strpath, target) def dump(self, obj, bin=1): """Pickle object into path location""" f = self.open("wb") import pickle try: error.checked_call(pickle.dump, obj, f, bin) finally: f.close() def mkdir(self, *args): """Create & return the directory joined with args.""" p = self.join(*args) error.checked_call(os.mkdir, os.fspath(p)) return p def write_binary(self, data, ensure=False): """Write binary data into path. If ensure is True create missing parent directories. """ if ensure: self.dirpath().ensure(dir=1) with self.open("wb") as f: f.write(data) def write_text(self, data, encoding, ensure=False): """Write text data into path using the specified encoding. If ensure is True create missing parent directories. """ if ensure: self.dirpath().ensure(dir=1) with self.open("w", encoding=encoding) as f: f.write(data) def write(self, data, mode="w", ensure=False): """Write data into path. If ensure is True create missing parent directories. """ if ensure: self.dirpath().ensure(dir=1) if "b" in mode: if not isinstance(data, bytes): raise ValueError("can only process bytes") else: if not isinstance(data, str): if not isinstance(data, bytes): data = str(data) else: data = data.decode(sys.getdefaultencoding()) f = self.open(mode) try: f.write(data) 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 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.open("wb").close() return p @overload def stat(self, raising: Literal[True] = ...) -> Stat: ... @overload def stat(self, raising: Literal[False]) -> Stat | None: ... def stat(self, raising: bool = True) -> Stat | None: """Return an os.stat() tuple.""" if raising: return Stat(self, error.checked_call(os.stat, self.strpath)) try: return Stat(self, os.stat(self.strpath)) except KeyboardInterrupt: raise except Exception: return None def lstat(self) -> Stat: """Return an os.lstat() tuple.""" return Stat(self, error.checked_call(os.lstat, self.strpath)) 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 error.checked_call(os.utime, self.strpath, mtime) try: return error.checked_call(os.utime, self.strpath, (-1, mtime)) except error.EINVAL: return error.checked_call(os.utime, self.strpath, (self.atime(), mtime)) def chdir(self): """Change directory to self and return old current directory""" try: old = self.__class__() except error.ENOENT: old = None error.checked_call(os.chdir, self.strpath) return old @contextmanager def as_cwd(self): """ Return a context manager, which changes to the path's dir during the managed "with" context. On __enter__ it returns the old dir, which might be ``None``. """ old = self.chdir() try: yield old finally: if old is not None: old.chdir() 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 chmod(self, mode, rec=0): """Change permissions to the given mode. If mode is an integer it directly encodes the os-specific modes. if rec is True perform recursively. """ if not isinstance(mode, int): raise TypeError(f"mode {mode!r} must be an integer") if rec: for x in self.visit(rec=rec): error.checked_call(os.chmod, str(x), mode) error.checked_call(os.chmod, self.strpath, mode) def pypkgpath(self): """Return the Python package path by looking 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 parent.isdir(): if not parent.join("__init__.py").exists(): break if not isimportable(parent.basename): break pkgpath = parent return pkgpath def _ensuresyspath(self, ensuremode, path): if ensuremode: s = str(path) if ensuremode == "append": if s not in sys.path: sys.path.append(s) else: if s != sys.path[0]: 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 ensuresyspath is True then the root dir for importing the file (taking __init__.py files into account) will be prepended to sys.path if it isn't there already. If ensuresyspath=="append" the root dir will be appended if it isn't already contained in sys.path. if ensuresyspath is False no modification of syspath happens. Special value of ensuresyspath=="importlib" is intended purely for using in pytest, it is capable only of importing separate .py files outside packages, e.g. for test suite without any __init__.py file. It effectively allows having same-named test modules in different places and offers mild opt-in via this option. Note that it works only in recent versions of python. """ if not self.check(): raise error.ENOENT(self) if ensuresyspath == "importlib": if modname is None: modname = self.purebasename spec = importlib.util.spec_from_file_location(modname, str(self)) if spec is None or spec.loader is None: raise ImportError( f"Can't find module {modname} at location {str(self)}" ) mod = importlib.util.module_from_spec(spec) spec.loader.exec_module(mod) return mod pkgpath = None if modname is None: pkgpath = self.pypkgpath() if pkgpath is not None: pkgroot = pkgpath.dirpath() names = self.new(ext="").relto(pkgroot).split(self.sep) if names[-1] == "__init__": names.pop() modname = ".".join(names) else: pkgroot = self.dirpath() modname = self.purebasename self._ensuresyspath(ensuresyspath, pkgroot) __import__(modname) mod = sys.modules[modname] if self.basename == "__init__.py": return mod # we don't check anything as we might # be in a namespace package ... too icky to check modfile = mod.__file__ assert modfile is not None if modfile[-4:] in (".pyc", ".pyo"): modfile = modfile[:-1] elif modfile.endswith("$py.class"): modfile = modfile[:-9] + ".py" if modfile.endswith(os.sep + "__init__.py"): if self.basename != "__init__.py": modfile = modfile[:-12] try: issame = self.samefile(modfile) except error.ENOENT: issame = False if not issame: ignore = os.getenv("PY_IGNORE_IMPORTMISMATCH") if ignore != "1": raise self.ImportMismatchError(modname, modfile, self) return mod else: try: return sys.modules[modname] except KeyError: # we have a custom modname, do a pseudo-import import types mod = types.ModuleType(modname) mod.__file__ = str(self) sys.modules[modname] = mod try: with open(str(self), "rb") as f: exec(f.read(), mod.__dict__) except BaseException: del sys.modules[modname] raise return mod def sysexec(self, *argv: os.PathLike[str], **popen_opts: Any) -> str: """Return stdout text from executing a system child process, where the 'self' path points to executable. The process is directly invoked and not through a system shell. """ from subprocess import Popen, PIPE popen_opts.pop("stdout", None) popen_opts.pop("stderr", None) proc = Popen( [str(self)] + [str(arg) for arg in argv], **popen_opts, stdout=PIPE, stderr=PIPE, ) stdout: str | bytes stdout, stderr = proc.communicate() ret = proc.wait() if isinstance(stdout, bytes): stdout = stdout.decode(sys.getdefaultencoding()) if ret != 0: if isinstance(stderr, bytes): stderr = stderr.decode(sys.getdefaultencoding()) raise RuntimeError( ret, ret, str(self), stdout, stderr, ) return stdout @classmethod def sysfind(cls, name, checker=None, paths=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 isabs(name): p = local(name) if p.check(file=1): return p else: if paths is None: if iswin32: paths = os.environ["Path"].split(";") if "" not in paths and "." not in paths: paths.append(".") try: systemroot = os.environ["SYSTEMROOT"] except KeyError: pass else: paths = [ path.replace("%SystemRoot%", systemroot) for path in paths ] else: paths = os.environ["PATH"].split(":") tryadd = [] if iswin32: tryadd += os.environ["PATHEXT"].split(os.pathsep) tryadd.append("") for x in paths: for addext in tryadd: p = local(x).join(name, abs=True) + addext try: if p.check(file=1): if checker: if not checker(p): continue return p except error.EACCES: pass return None @classmethod def _gethomedir(cls): try: x = os.environ["HOME"] except KeyError: try: x = os.environ["HOMEDRIVE"] + os.environ["HOMEPATH"] except KeyError: return None return cls(x) # """ # special class constructors for local filesystem paths # """ @classmethod def get_temproot(cls): """Return the system's temporary directory (where tempfiles are usually created in) """ import tempfile return local(tempfile.gettempdir()) @classmethod def mkdtemp(cls, rootdir=None): """Return a Path object pointing to a fresh new temporary directory (which we created ourself). """ import tempfile if rootdir is None: rootdir = cls.get_temproot() return cls(error.checked_call(tempfile.mkdtemp, dir=str(rootdir))) @classmethod 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 .lock files are used (lock_timeout non-zero), algorithm is multi-process safe. """ if rootdir is None: rootdir = cls.get_temproot() nprefix = prefix.lower() def parse_num(path): """Parse the number out of a path (if it matches the prefix)""" nbasename = path.basename.lower() if nbasename.startswith(nprefix): try: return int(nbasename[len(nprefix) :]) except ValueError: pass def create_lockfile(path): """Exclusively create lockfile. Throws when failed""" mypid = os.getpid() lockfile = path.join(".lock") if hasattr(lockfile, "mksymlinkto"): lockfile.mksymlinkto(str(mypid)) else: fd = error.checked_call( os.open, str(lockfile), os.O_WRONLY | os.O_CREAT | os.O_EXCL, 0o644 ) with os.fdopen(fd, "w") as f: f.write(str(mypid)) return lockfile def atexit_remove_lockfile(lockfile): """Ensure lockfile is removed at process exit""" mypid = os.getpid() def try_remove_lockfile(): # in a fork() situation, only the last process should # remove the .lock, otherwise the other processes run the # risk of seeing their temporary dir disappear. For now # we remove the .lock in the parent only (i.e. we assume # that the children finish before the parent). if os.getpid() != mypid: return try: lockfile.remove() except error.Error: pass atexit.register(try_remove_lockfile) # 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)) if lock_timeout: lockfile = create_lockfile(udir) atexit_remove_lockfile(lockfile) except (error.EEXIST, error.ENOENT, error.EBUSY): # race condition (1): another thread/process created the dir # in the meantime - try again # race condition (2): another thread/process spuriously acquired # lock treating empty directory as candidate # for removal - try again # race condition (3): another thread/process tried to create the lock at # the same time (happened in Python 3.3 on Windows) # https://ci.appveyor.com/project/pytestbot/py/build/1.0.21/job/ffi85j4c0lqwsfwa if lastmax == maxnum: raise lastmax = maxnum continue break def get_mtime(path): """Read file modification time""" try: return path.lstat().mtime except error.Error: pass garbage_prefix = prefix + "garbage-" def is_garbage(path): """Check if path denotes directory scheduled for removal""" bn = path.basename return bn.startswith(garbage_prefix) # prune old directories udir_time = get_mtime(udir) if keep and udir_time: for path in rootdir.listdir(): num = parse_num(path) if num is not None and num <= (maxnum - keep): try: # try acquiring lock to remove directory as exclusive user if lock_timeout: create_lockfile(path) except (error.EEXIST, error.ENOENT, error.EBUSY): path_time = get_mtime(path) if not path_time: # assume directory doesn't exist now continue if abs(udir_time - path_time) < lock_timeout: # assume directory with lockfile exists # and lock timeout hasn't expired yet continue # path dir locked for exclusive use # and scheduled for removal to avoid another thread/process # treating it as a new directory or removal candidate garbage_path = rootdir.join(garbage_prefix + str(uuid.uuid4())) try: path.rename(garbage_path) garbage_path.remove(rec=1) except KeyboardInterrupt: raise except Exception: # this might be error.Error, WindowsError ... pass if is_garbage(path): try: path.remove(rec=1) except KeyboardInterrupt: raise except Exception: # this might be error.Error, WindowsError ... 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, NotImplementedError): pass return udir def copymode(src, dest): """Copy permission from src to dst.""" import shutil shutil.copymode(src, dest) def copystat(src, dest): """Copy permission, last modification time, last access time, and flags from src to dst.""" import shutil shutil.copystat(str(src), str(dest)) 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() def isimportable(name): if name and (name[0].isalpha() or name[0] == "_"): name = name.replace("_", "") return not name or name.isalnum() local = LocalPath