""" To ensure compatibility from Python ``2.7`` - ``3.x``, a module has been created. Clearly there is huge need to use conforming syntax. """ from __future__ import print_function import atexit import errno import functools import sys import os import re import pkgutil import warnings import subprocess import weakref try: import importlib except ImportError: pass from zipimport import zipimporter from jedi.file_io import KnownContentFileIO, ZipFileIO is_py3 = sys.version_info[0] >= 3 is_py35 = is_py3 and sys.version_info[1] >= 5 py_version = int(str(sys.version_info[0]) + str(sys.version_info[1])) if sys.version_info[:2] < (3, 5): """ A super-minimal shim around listdir that behave like scandir for the information we need. """ class _DirEntry: def __init__(self, name, basepath): self.name = name self.basepath = basepath def is_dir(self): path_for_name = os.path.join(self.basepath, self.name) return os.path.isdir(path_for_name) def scandir(dir): return [_DirEntry(name, dir) for name in os.listdir(dir)] else: from os import scandir class DummyFile(object): def __init__(self, loader, string): self.loader = loader self.string = string def read(self): return self.loader.get_source(self.string) def close(self): del self.loader def find_module_py34(string, path=None, full_name=None, is_global_search=True): spec = None loader = None for finder in sys.meta_path: if is_global_search and finder != importlib.machinery.PathFinder: p = None else: p = path try: find_spec = finder.find_spec except AttributeError: # These are old-school clases that still have a different API, just # ignore those. continue spec = find_spec(string, p) if spec is not None: loader = spec.loader if loader is None and not spec.has_location: # This is a namespace package. full_name = string if not path else full_name implicit_ns_info = ImplicitNSInfo(full_name, spec.submodule_search_locations._path) return implicit_ns_info, True break return find_module_py33(string, path, loader) def find_module_py33(string, path=None, loader=None, full_name=None, is_global_search=True): loader = loader or importlib.machinery.PathFinder.find_module(string, path) if loader is None and path is None: # Fallback to find builtins try: with warnings.catch_warnings(record=True): # Mute "DeprecationWarning: Use importlib.util.find_spec() # instead." While we should replace that in the future, it's # probably good to wait until we deprecate Python 3.3, since # it was added in Python 3.4 and find_loader hasn't been # removed in 3.6. loader = importlib.find_loader(string) except ValueError as e: # See #491. Importlib might raise a ValueError, to avoid this, we # just raise an ImportError to fix the issue. raise ImportError("Originally " + repr(e)) if loader is None: raise ImportError("Couldn't find a loader for {}".format(string)) return _from_loader(loader, string) def _from_loader(loader, string): try: is_package_method = loader.is_package except AttributeError: is_package = False else: is_package = is_package_method(string) try: get_filename = loader.get_filename except AttributeError: return None, is_package else: module_path = cast_path(get_filename(string)) # To avoid unicode and read bytes, "overwrite" loader.get_source if # possible. try: f = type(loader).get_source except AttributeError: raise ImportError("get_source was not defined on loader") if is_py3 and f is not importlib.machinery.SourceFileLoader.get_source: # Unfortunately we are reading unicode here, not bytes. # It seems hard to get bytes, because the zip importer # logic just unpacks the zip file and returns a file descriptor # that we cannot as easily access. Therefore we just read it as # a string in the cases where get_source was overwritten. code = loader.get_source(string) else: code = _get_source(loader, string) if code is None: return None, is_package if isinstance(loader, zipimporter): return ZipFileIO(module_path, code, cast_path(loader.archive)), is_package return KnownContentFileIO(module_path, code), is_package def _get_source(loader, fullname): """ This method is here as a replacement for SourceLoader.get_source. That method returns unicode, but we prefer bytes. """ path = loader.get_filename(fullname) try: return loader.get_data(path) except OSError: raise ImportError('source not available through get_data()', name=fullname) def find_module_pre_py3(string, path=None, full_name=None, is_global_search=True): # This import is here, because in other places it will raise a # DeprecationWarning. import imp try: module_file, module_path, description = imp.find_module(string, path) module_type = description[2] is_package = module_type is imp.PKG_DIRECTORY if is_package: # In Python 2 directory package imports are returned as folder # paths, not __init__.py paths. p = os.path.join(module_path, '__init__.py') try: module_file = open(p) module_path = p except FileNotFoundError: pass elif module_type != imp.PY_SOURCE: if module_file is not None: module_file.close() module_file = None if module_file is None: return None, is_package with module_file: code = module_file.read() return KnownContentFileIO(cast_path(module_path), code), is_package except ImportError: pass if path is None: path = sys.path for item in path: loader = pkgutil.get_importer(item) if loader: loader = loader.find_module(string) if loader is not None: return _from_loader(loader, string) raise ImportError("No module named {}".format(string)) find_module = find_module_py34 if is_py3 else find_module_pre_py3 find_module.__doc__ = """ Provides information about a module. This function isolates the differences in importing libraries introduced with python 3.3 on; it gets a module name and optionally a path. It will return a tuple containin an open file for the module (if not builtin), the filename or the name of the module if it is a builtin one and a boolean indicating if the module is contained in a package. """ class ImplicitNSInfo(object): """Stores information returned from an implicit namespace spec""" def __init__(self, name, paths): self.name = name self.paths = paths if is_py3: all_suffixes = importlib.machinery.all_suffixes else: def all_suffixes(): # Is deprecated and raises a warning in Python 3.6. import imp return [suffix for suffix, _, _ in imp.get_suffixes()] # unicode function try: unicode = unicode except NameError: unicode = str # re-raise function if is_py3: def reraise(exception, traceback): raise exception.with_traceback(traceback) else: eval(compile(""" def reraise(exception, traceback): raise exception, None, traceback """, 'blub', 'exec')) reraise.__doc__ = """ Re-raise `exception` with a `traceback` object. Usage:: reraise(Exception, sys.exc_info()[2]) """ def use_metaclass(meta, *bases): """ Create a class with a metaclass. """ if not bases: bases = (object,) return meta("Py2CompatibilityMetaClass", bases, {}) try: encoding = sys.stdout.encoding if encoding is None: encoding = 'utf-8' except AttributeError: encoding = 'ascii' def u(string, errors='strict'): """Cast to unicode DAMMIT! Written because Python2 repr always implicitly casts to a string, so we have to cast back to a unicode (and we now that we always deal with valid unicode, because we check that in the beginning). """ if isinstance(string, bytes): return unicode(string, encoding='UTF-8', errors=errors) return string def cast_path(obj): """ Take a bytes or str path and cast it to unicode. Apparently it is perfectly fine to pass both byte and unicode objects into the sys.path. This probably means that byte paths are normal at other places as well. Since this just really complicates everything and Python 2.7 will be EOL soon anyway, just go with always strings. """ return u(obj, errors='replace') def force_unicode(obj): # Intentionally don't mix those two up, because those two code paths might # be different in the future (maybe windows?). return cast_path(obj) try: import builtins # module name in python 3 except ImportError: import __builtin__ as builtins # noqa: F401 import ast # noqa: F401 def literal_eval(string): return ast.literal_eval(string) try: from itertools import zip_longest except ImportError: from itertools import izip_longest as zip_longest # Python 2 # noqa: F401 try: FileNotFoundError = FileNotFoundError except NameError: FileNotFoundError = IOError try: IsADirectoryError = IsADirectoryError except NameError: IsADirectoryError = IOError try: PermissionError = PermissionError except NameError: PermissionError = IOError def no_unicode_pprint(dct): """ Python 2/3 dict __repr__ may be different, because of unicode differens (with or without a `u` prefix). Normally in doctests we could use `pprint` to sort dicts and check for equality, but here we have to write a separate function to do that. """ import pprint s = pprint.pformat(dct) print(re.sub("u'", "'", s)) def utf8_repr(func): """ ``__repr__`` methods in Python 2 don't allow unicode objects to be returned. Therefore cast them to utf-8 bytes in this decorator. """ def wrapper(self): result = func(self) if isinstance(result, unicode): return result.encode('utf-8') else: return result if is_py3: return func else: return wrapper if is_py3: import queue else: import Queue as queue # noqa: F401 try: # Attempt to load the C implementation of pickle on Python 2 as it is way # faster. import cPickle as pickle except ImportError: import pickle def pickle_load(file): try: if is_py3: return pickle.load(file, encoding='bytes') return pickle.load(file) # Python on Windows don't throw EOF errors for pipes. So reraise them with # the correct type, which is caught upwards. except OSError: if sys.platform == 'win32': raise EOFError() raise def _python2_dct_keys_to_unicode(data): """ Python 2 stores object __dict__ entries as bytes, not unicode, correct it here. Python 2 can deal with both, Python 3 expects unicode. """ if isinstance(data, tuple): return tuple(_python2_dct_keys_to_unicode(x) for x in data) elif isinstance(data, list): return list(_python2_dct_keys_to_unicode(x) for x in data) elif hasattr(data, '__dict__') and type(data.__dict__) == dict: data.__dict__ = {unicode(k): v for k, v in data.__dict__.items()} return data def pickle_dump(data, file, protocol): try: if not is_py3: data = _python2_dct_keys_to_unicode(data) pickle.dump(data, file, protocol) # On Python 3.3 flush throws sometimes an error even though the writing # operation should be completed. file.flush() # Python on Windows don't throw EPIPE errors for pipes. So reraise them with # the correct type and error number. except OSError: if sys.platform == 'win32': raise IOError(errno.EPIPE, "Broken pipe") raise # Determine the highest protocol version compatible for a given list of Python # versions. def highest_pickle_protocol(python_versions): protocol = 4 for version in python_versions: if version[0] == 2: # The minimum protocol version for the versions of Python that we # support (2.7 and 3.3+) is 2. return 2 if version[1] < 4: protocol = 3 return protocol try: from inspect import Parameter except ImportError: class Parameter(object): POSITIONAL_ONLY = object() POSITIONAL_OR_KEYWORD = object() VAR_POSITIONAL = object() KEYWORD_ONLY = object() VAR_KEYWORD = object() class GeneralizedPopen(subprocess.Popen): def __init__(self, *args, **kwargs): if os.name == 'nt': try: # Was introduced in Python 3.7. CREATE_NO_WINDOW = subprocess.CREATE_NO_WINDOW except AttributeError: CREATE_NO_WINDOW = 0x08000000 kwargs['creationflags'] = CREATE_NO_WINDOW # The child process doesn't need file descriptors except 0, 1, 2. # This is unix only. kwargs['close_fds'] = 'posix' in sys.builtin_module_names super(GeneralizedPopen, self).__init__(*args, **kwargs) # shutil.which is not available on Python 2.7. def which(cmd, mode=os.F_OK | os.X_OK, path=None): """Given a command, mode, and a PATH string, return the path which conforms to the given mode on the PATH, or None if there is no such file. `mode` defaults to os.F_OK | os.X_OK. `path` defaults to the result of os.environ.get("PATH"), or can be overridden with a custom search path. """ # Check that a given file can be accessed with the correct mode. # Additionally check that `file` is not a directory, as on Windows # directories pass the os.access check. def _access_check(fn, mode): return (os.path.exists(fn) and os.access(fn, mode) and not os.path.isdir(fn)) # If we're given a path with a directory part, look it up directly rather # than referring to PATH directories. This includes checking relative to the # current directory, e.g. ./script if os.path.dirname(cmd): if _access_check(cmd, mode): return cmd return None if path is None: path = os.environ.get("PATH", os.defpath) if not path: return None path = path.split(os.pathsep) if sys.platform == "win32": # The current directory takes precedence on Windows. if os.curdir not in path: path.insert(0, os.curdir) # PATHEXT is necessary to check on Windows. pathext = os.environ.get("PATHEXT", "").split(os.pathsep) # See if the given file matches any of the expected path extensions. # This will allow us to short circuit when given "python.exe". # If it does match, only test that one, otherwise we have to try # others. if any(cmd.lower().endswith(ext.lower()) for ext in pathext): files = [cmd] else: files = [cmd + ext for ext in pathext] else: # On other platforms you don't have things like PATHEXT to tell you # what file suffixes are executable, so just pass on cmd as-is. files = [cmd] seen = set() for dir in path: normdir = os.path.normcase(dir) if normdir not in seen: seen.add(normdir) for thefile in files: name = os.path.join(dir, thefile) if _access_check(name, mode): return name return None if not is_py3: # Simplified backport of Python 3 weakref.finalize: # https://github.com/python/cpython/blob/ded4737989316653469763230036b04513cb62b3/Lib/weakref.py#L502-L662 class finalize(object): """Class for finalization of weakrefable objects. finalize(obj, func, *args, **kwargs) returns a callable finalizer object which will be called when obj is garbage collected. The first time the finalizer is called it evaluates func(*arg, **kwargs) and returns the result. After this the finalizer is dead, and calling it just returns None. When the program exits any remaining finalizers will be run. """ # Finalizer objects don't have any state of their own. # This ensures that they cannot be part of a ref-cycle. __slots__ = () _registry = {} def __init__(self, obj, func, *args, **kwargs): info = functools.partial(func, *args, **kwargs) info.weakref = weakref.ref(obj, self) self._registry[self] = info # To me it's an absolute mystery why in Python 2 we need _=None. It # makes really no sense since it's never really called. Then again it # might be called by Python 2.7 itself, but weakref.finalize is not # documented in Python 2 and therefore shouldn't be randomly called. # We never call this stuff with a parameter and therefore this # parameter should not be needed. But it is. ~dave def __call__(self, _=None): """Return func(*args, **kwargs) if alive.""" info = self._registry.pop(self, None) if info: return info() @classmethod def _exitfunc(cls): if not cls._registry: return for finalizer in list(cls._registry): try: finalizer() except Exception: sys.excepthook(*sys.exc_info()) assert finalizer not in cls._registry atexit.register(finalize._exitfunc) weakref.finalize = finalize if is_py3 and sys.version_info[1] > 5: from inspect import unwrap else: # Only Python >=3.6 does properly limit the amount of unwraps. This is very # relevant in the case of unittest.mock.patch. # Below is the implementation of Python 3.7. def unwrap(func, stop=None): """Get the object wrapped by *func*. Follows the chain of :attr:`__wrapped__` attributes returning the last object in the chain. *stop* is an optional callback accepting an object in the wrapper chain as its sole argument that allows the unwrapping to be terminated early if the callback returns a true value. If the callback never returns a true value, the last object in the chain is returned as usual. For example, :func:`signature` uses this to stop unwrapping if any object in the chain has a ``__signature__`` attribute defined. :exc:`ValueError` is raised if a cycle is encountered. """ if stop is None: def _is_wrapper(f): return hasattr(f, '__wrapped__') else: def _is_wrapper(f): return hasattr(f, '__wrapped__') and not stop(f) f = func # remember the original func for error reporting # Memoise by id to tolerate non-hashable objects, but store objects to # ensure they aren't destroyed, which would allow their IDs to be reused. memo = {id(f): f} recursion_limit = sys.getrecursionlimit() while _is_wrapper(func): func = func.__wrapped__ id_func = id(func) if (id_func in memo) or (len(memo) >= recursion_limit): raise ValueError('wrapper loop when unwrapping {!r}'.format(f)) memo[id_func] = func return func