# TODO: Add Generic type annotations to initialized collections. # For now we'd simply use implicit Any/Unknown which would add redundant annotations # mypy: disable-error-code="var-annotated" """ Package resource API -------------------- A resource is a logical file contained within a package, or a logical subdirectory thereof. The package resource API expects resource names to have their path parts separated with ``/``, *not* whatever the local path separator is. Do not use os.path operations to manipulate resource names being passed into the API. The package resource API is designed to work with normal filesystem packages, .egg files, and unpacked .egg files. It can also work in a limited way with .zip files and with custom PEP 302 loaders that support the ``get_data()`` method. This module is deprecated. Users are directed to :mod:`importlib.resources`, :mod:`importlib.metadata` and :pypi:`packaging` instead. """ from __future__ import annotations import sys if sys.version_info < (3, 8): # noqa: UP036 # Check for unsupported versions raise RuntimeError("Python 3.8 or later is required") import os import io import time import re import types from typing import ( Any, Literal, Dict, Iterator, Mapping, MutableSequence, NamedTuple, NoReturn, Tuple, Union, TYPE_CHECKING, Protocol, Callable, Iterable, TypeVar, overload, ) import zipfile import zipimport import warnings import stat import functools import pkgutil import operator import platform import collections import plistlib import email.parser import errno import tempfile import textwrap import inspect import ntpath import posixpath import importlib import importlib.abc import importlib.machinery from pkgutil import get_importer import _imp # capture these to bypass sandboxing from os import utime from os import open as os_open from os.path import isdir, split try: from os import mkdir, rename, unlink WRITE_SUPPORT = True except ImportError: # no write support, probably under GAE WRITE_SUPPORT = False from pkg_resources.extern.jaraco.text import ( yield_lines, drop_comment, join_continuation, ) from pkg_resources.extern.packaging import markers as _packaging_markers from pkg_resources.extern.packaging import requirements as _packaging_requirements from pkg_resources.extern.packaging import utils as _packaging_utils from pkg_resources.extern.packaging import version as _packaging_version from pkg_resources.extern.platformdirs import user_cache_dir as _user_cache_dir if TYPE_CHECKING: from _typeshed import BytesPath, StrPath, StrOrBytesPath from typing_extensions import Self warnings.warn( "pkg_resources is deprecated as an API. " "See https://setuptools.pypa.io/en/latest/pkg_resources.html", DeprecationWarning, stacklevel=2, ) _T = TypeVar("_T") _DistributionT = TypeVar("_DistributionT", bound="Distribution") # Type aliases _NestedStr = Union[str, Iterable[Union[str, Iterable["_NestedStr"]]]] _InstallerTypeT = Callable[["Requirement"], "_DistributionT"] _InstallerType = Callable[["Requirement"], Union["Distribution", None]] _PkgReqType = Union[str, "Requirement"] _EPDistType = Union["Distribution", _PkgReqType] _MetadataType = Union["IResourceProvider", None] _ResolvedEntryPoint = Any # Can be any attribute in the module _ResourceStream = Any # TODO / Incomplete: A readable file-like object # Any object works, but let's indicate we expect something like a module (optionally has __loader__ or __file__) _ModuleLike = Union[object, types.ModuleType] # Any: Should be _ModuleLike but we end up with issues where _ModuleLike doesn't have _ZipLoaderModule's __loader__ _ProviderFactoryType = Callable[[Any], "IResourceProvider"] _DistFinderType = Callable[[_T, str, bool], Iterable["Distribution"]] _NSHandlerType = Callable[[_T, str, str, types.ModuleType], Union[str, None]] _AdapterT = TypeVar( "_AdapterT", _DistFinderType[Any], _ProviderFactoryType, _NSHandlerType[Any] ) # Use _typeshed.importlib.LoaderProtocol once available https://github.com/python/typeshed/pull/11890 class _LoaderProtocol(Protocol): def load_module(self, fullname: str, /) -> types.ModuleType: ... class _ZipLoaderModule(Protocol): __loader__: zipimport.zipimporter _PEP440_FALLBACK = re.compile(r"^v?(?P(?:[0-9]+!)?[0-9]+(?:\.[0-9]+)*)", re.I) class PEP440Warning(RuntimeWarning): """ Used when there is an issue with a version or specifier not complying with PEP 440. """ parse_version = _packaging_version.Version _state_vars: dict[str, str] = {} def _declare_state(vartype: str, varname: str, initial_value: _T) -> _T: _state_vars[varname] = vartype return initial_value def __getstate__() -> dict[str, Any]: state = {} g = globals() for k, v in _state_vars.items(): state[k] = g['_sget_' + v](g[k]) return state def __setstate__(state: dict[str, Any]) -> dict[str, Any]: g = globals() for k, v in state.items(): g['_sset_' + _state_vars[k]](k, g[k], v) return state def _sget_dict(val): return val.copy() def _sset_dict(key, ob, state): ob.clear() ob.update(state) def _sget_object(val): return val.__getstate__() def _sset_object(key, ob, state): ob.__setstate__(state) _sget_none = _sset_none = lambda *args: None def get_supported_platform(): """Return this platform's maximum compatible version. distutils.util.get_platform() normally reports the minimum version of macOS that would be required to *use* extensions produced by distutils. But what we want when checking compatibility is to know the version of macOS that we are *running*. To allow usage of packages that explicitly require a newer version of macOS, we must also know the current version of the OS. If this condition occurs for any other platform with a version in its platform strings, this function should be extended accordingly. """ plat = get_build_platform() m = macosVersionString.match(plat) if m is not None and sys.platform == "darwin": try: plat = 'macosx-%s-%s' % ('.'.join(_macos_vers()[:2]), m.group(3)) except ValueError: # not macOS pass return plat __all__ = [ # Basic resource access and distribution/entry point discovery 'require', 'run_script', 'get_provider', 'get_distribution', 'load_entry_point', 'get_entry_map', 'get_entry_info', 'iter_entry_points', 'resource_string', 'resource_stream', 'resource_filename', 'resource_listdir', 'resource_exists', 'resource_isdir', # Environmental control 'declare_namespace', 'working_set', 'add_activation_listener', 'find_distributions', 'set_extraction_path', 'cleanup_resources', 'get_default_cache', # Primary implementation classes 'Environment', 'WorkingSet', 'ResourceManager', 'Distribution', 'Requirement', 'EntryPoint', # Exceptions 'ResolutionError', 'VersionConflict', 'DistributionNotFound', 'UnknownExtra', 'ExtractionError', # Warnings 'PEP440Warning', # Parsing functions and string utilities 'parse_requirements', 'parse_version', 'safe_name', 'safe_version', 'get_platform', 'compatible_platforms', 'yield_lines', 'split_sections', 'safe_extra', 'to_filename', 'invalid_marker', 'evaluate_marker', # filesystem utilities 'ensure_directory', 'normalize_path', # Distribution "precedence" constants 'EGG_DIST', 'BINARY_DIST', 'SOURCE_DIST', 'CHECKOUT_DIST', 'DEVELOP_DIST', # "Provider" interfaces, implementations, and registration/lookup APIs 'IMetadataProvider', 'IResourceProvider', 'FileMetadata', 'PathMetadata', 'EggMetadata', 'EmptyProvider', 'empty_provider', 'NullProvider', 'EggProvider', 'DefaultProvider', 'ZipProvider', 'register_finder', 'register_namespace_handler', 'register_loader_type', 'fixup_namespace_packages', 'get_importer', # Warnings 'PkgResourcesDeprecationWarning', # Deprecated/backward compatibility only 'run_main', 'AvailableDistributions', ] class ResolutionError(Exception): """Abstract base for dependency resolution errors""" def __repr__(self): return self.__class__.__name__ + repr(self.args) class VersionConflict(ResolutionError): """ An already-installed version conflicts with the requested version. Should be initialized with the installed Distribution and the requested Requirement. """ _template = "{self.dist} is installed but {self.req} is required" @property def dist(self) -> Distribution: return self.args[0] @property def req(self) -> Requirement: return self.args[1] def report(self): return self._template.format(**locals()) def with_context(self, required_by: set[Distribution | str]): """ If required_by is non-empty, return a version of self that is a ContextualVersionConflict. """ if not required_by: return self args = self.args + (required_by,) return ContextualVersionConflict(*args) class ContextualVersionConflict(VersionConflict): """ A VersionConflict that accepts a third parameter, the set of the requirements that required the installed Distribution. """ _template = VersionConflict._template + ' by {self.required_by}' @property def required_by(self) -> set[str]: return self.args[2] class DistributionNotFound(ResolutionError): """A requested distribution was not found""" _template = ( "The '{self.req}' distribution was not found " "and is required by {self.requirers_str}" ) @property def req(self) -> Requirement: return self.args[0] @property def requirers(self) -> set[str] | None: return self.args[1] @property def requirers_str(self): if not self.requirers: return 'the application' return ', '.join(self.requirers) def report(self): return self._template.format(**locals()) def __str__(self): return self.report() class UnknownExtra(ResolutionError): """Distribution doesn't have an "extra feature" of the given name""" _provider_factories: dict[type[_ModuleLike], _ProviderFactoryType] = {} PY_MAJOR = '{}.{}'.format(*sys.version_info) EGG_DIST = 3 BINARY_DIST = 2 SOURCE_DIST = 1 CHECKOUT_DIST = 0 DEVELOP_DIST = -1 def register_loader_type( loader_type: type[_ModuleLike], provider_factory: _ProviderFactoryType ): """Register `provider_factory` to make providers for `loader_type` `loader_type` is the type or class of a PEP 302 ``module.__loader__``, and `provider_factory` is a function that, passed a *module* object, returns an ``IResourceProvider`` for that module. """ _provider_factories[loader_type] = provider_factory @overload def get_provider(moduleOrReq: str) -> IResourceProvider: ... @overload def get_provider(moduleOrReq: Requirement) -> Distribution: ... def get_provider(moduleOrReq: str | Requirement) -> IResourceProvider | Distribution: """Return an IResourceProvider for the named module or requirement""" if isinstance(moduleOrReq, Requirement): return working_set.find(moduleOrReq) or require(str(moduleOrReq))[0] try: module = sys.modules[moduleOrReq] except KeyError: __import__(moduleOrReq) module = sys.modules[moduleOrReq] loader = getattr(module, '__loader__', None) return _find_adapter(_provider_factories, loader)(module) @functools.lru_cache(maxsize=None) def _macos_vers(): version = platform.mac_ver()[0] # fallback for MacPorts if version == '': plist = '/System/Library/CoreServices/SystemVersion.plist' if os.path.exists(plist): with open(plist, 'rb') as fh: plist_content = plistlib.load(fh) if 'ProductVersion' in plist_content: version = plist_content['ProductVersion'] return version.split('.') def _macos_arch(machine): return {'PowerPC': 'ppc', 'Power_Macintosh': 'ppc'}.get(machine, machine) def get_build_platform(): """Return this platform's string for platform-specific distributions XXX Currently this is the same as ``distutils.util.get_platform()``, but it needs some hacks for Linux and macOS. """ from sysconfig import get_platform plat = get_platform() if sys.platform == "darwin" and not plat.startswith('macosx-'): try: version = _macos_vers() machine = os.uname()[4].replace(" ", "_") return "macosx-%d.%d-%s" % ( int(version[0]), int(version[1]), _macos_arch(machine), ) except ValueError: # if someone is running a non-Mac darwin system, this will fall # through to the default implementation pass return plat macosVersionString = re.compile(r"macosx-(\d+)\.(\d+)-(.*)") darwinVersionString = re.compile(r"darwin-(\d+)\.(\d+)\.(\d+)-(.*)") # XXX backward compat get_platform = get_build_platform def compatible_platforms(provided: str | None, required: str | None): """Can code for the `provided` platform run on the `required` platform? Returns true if either platform is ``None``, or the platforms are equal. XXX Needs compatibility checks for Linux and other unixy OSes. """ if provided is None or required is None or provided == required: # easy case return True # macOS special cases reqMac = macosVersionString.match(required) if reqMac: provMac = macosVersionString.match(provided) # is this a Mac package? if not provMac: # this is backwards compatibility for packages built before # setuptools 0.6. All packages built after this point will # use the new macOS designation. provDarwin = darwinVersionString.match(provided) if provDarwin: dversion = int(provDarwin.group(1)) macosversion = "%s.%s" % (reqMac.group(1), reqMac.group(2)) if ( dversion == 7 and macosversion >= "10.3" or dversion == 8 and macosversion >= "10.4" ): return True # egg isn't macOS or legacy darwin return False # are they the same major version and machine type? if provMac.group(1) != reqMac.group(1) or provMac.group(3) != reqMac.group(3): return False # is the required OS major update >= the provided one? if int(provMac.group(2)) > int(reqMac.group(2)): return False return True # XXX Linux and other platforms' special cases should go here return False @overload def get_distribution(dist: _DistributionT) -> _DistributionT: ... @overload def get_distribution(dist: _PkgReqType) -> Distribution: ... def get_distribution(dist: Distribution | _PkgReqType) -> Distribution: """Return a current distribution object for a Requirement or string""" if isinstance(dist, str): dist = Requirement.parse(dist) if isinstance(dist, Requirement): # Bad type narrowing, dist has to be a Requirement here, so get_provider has to return Distribution dist = get_provider(dist) # type: ignore[assignment] if not isinstance(dist, Distribution): raise TypeError("Expected str, Requirement, or Distribution", dist) return dist def load_entry_point(dist: _EPDistType, group: str, name: str) -> _ResolvedEntryPoint: """Return `name` entry point of `group` for `dist` or raise ImportError""" return get_distribution(dist).load_entry_point(group, name) @overload def get_entry_map( dist: _EPDistType, group: None = None ) -> dict[str, dict[str, EntryPoint]]: ... @overload def get_entry_map(dist: _EPDistType, group: str) -> dict[str, EntryPoint]: ... def get_entry_map(dist: _EPDistType, group: str | None = None): """Return the entry point map for `group`, or the full entry map""" return get_distribution(dist).get_entry_map(group) def get_entry_info(dist: _EPDistType, group: str, name: str): """Return the EntryPoint object for `group`+`name`, or ``None``""" return get_distribution(dist).get_entry_info(group, name) class IMetadataProvider(Protocol): def has_metadata(self, name: str) -> bool: """Does the package's distribution contain the named metadata?""" def get_metadata(self, name: str) -> str: """The named metadata resource as a string""" def get_metadata_lines(self, name: str) -> Iterator[str]: """Yield named metadata resource as list of non-blank non-comment lines Leading and trailing whitespace is stripped from each line, and lines with ``#`` as the first non-blank character are omitted.""" def metadata_isdir(self, name: str) -> bool: """Is the named metadata a directory? (like ``os.path.isdir()``)""" def metadata_listdir(self, name: str) -> list[str]: """List of metadata names in the directory (like ``os.listdir()``)""" def run_script(self, script_name: str, namespace: dict[str, Any]) -> None: """Execute the named script in the supplied namespace dictionary""" class IResourceProvider(IMetadataProvider, Protocol): """An object that provides access to package resources""" def get_resource_filename( self, manager: ResourceManager, resource_name: str ) -> str: """Return a true filesystem path for `resource_name` `manager` must be a ``ResourceManager``""" def get_resource_stream( self, manager: ResourceManager, resource_name: str ) -> _ResourceStream: """Return a readable file-like object for `resource_name` `manager` must be a ``ResourceManager``""" def get_resource_string( self, manager: ResourceManager, resource_name: str ) -> bytes: """Return the contents of `resource_name` as :obj:`bytes` `manager` must be a ``ResourceManager``""" def has_resource(self, resource_name: str) -> bool: """Does the package contain the named resource?""" def resource_isdir(self, resource_name: str) -> bool: """Is the named resource a directory? (like ``os.path.isdir()``)""" def resource_listdir(self, resource_name: str) -> list[str]: """List of resource names in the directory (like ``os.listdir()``)""" class WorkingSet: """A collection of active distributions on sys.path (or a similar list)""" def __init__(self, entries: Iterable[str] | None = None): """Create working set from list of path entries (default=sys.path)""" self.entries: list[str] = [] self.entry_keys = {} self.by_key = {} self.normalized_to_canonical_keys = {} self.callbacks = [] if entries is None: entries = sys.path for entry in entries: self.add_entry(entry) @classmethod def _build_master(cls): """ Prepare the master working set. """ ws = cls() try: from __main__ import __requires__ except ImportError: # The main program does not list any requirements return ws # ensure the requirements are met try: ws.require(__requires__) except VersionConflict: return cls._build_from_requirements(__requires__) return ws @classmethod def _build_from_requirements(cls, req_spec): """ Build a working set from a requirement spec. Rewrites sys.path. """ # try it without defaults already on sys.path # by starting with an empty path ws = cls([]) reqs = parse_requirements(req_spec) dists = ws.resolve(reqs, Environment()) for dist in dists: ws.add(dist) # add any missing entries from sys.path for entry in sys.path: if entry not in ws.entries: ws.add_entry(entry) # then copy back to sys.path sys.path[:] = ws.entries return ws def add_entry(self, entry: str): """Add a path item to ``.entries``, finding any distributions on it ``find_distributions(entry, True)`` is used to find distributions corresponding to the path entry, and they are added. `entry` is always appended to ``.entries``, even if it is already present. (This is because ``sys.path`` can contain the same value more than once, and the ``.entries`` of the ``sys.path`` WorkingSet should always equal ``sys.path``.) """ self.entry_keys.setdefault(entry, []) self.entries.append(entry) for dist in find_distributions(entry, True): self.add(dist, entry, False) def __contains__(self, dist: Distribution) -> bool: """True if `dist` is the active distribution for its project""" return self.by_key.get(dist.key) == dist def find(self, req: Requirement) -> Distribution | None: """Find a distribution matching requirement `req` If there is an active distribution for the requested project, this returns it as long as it meets the version requirement specified by `req`. But, if there is an active distribution for the project and it does *not* meet the `req` requirement, ``VersionConflict`` is raised. If there is no active distribution for the requested project, ``None`` is returned. """ dist = self.by_key.get(req.key) if dist is None: canonical_key = self.normalized_to_canonical_keys.get(req.key) if canonical_key is not None: req.key = canonical_key dist = self.by_key.get(canonical_key) if dist is not None and dist not in req: # XXX add more info raise VersionConflict(dist, req) return dist def iter_entry_points(self, group: str, name: str | None = None): """Yield entry point objects from `group` matching `name` If `name` is None, yields all entry points in `group` from all distributions in the working set, otherwise only ones matching both `group` and `name` are yielded (in distribution order). """ return ( entry for dist in self for entry in dist.get_entry_map(group).values() if name is None or name == entry.name ) def run_script(self, requires: str, script_name: str): """Locate distribution for `requires` and run `script_name` script""" ns = sys._getframe(1).f_globals name = ns['__name__'] ns.clear() ns['__name__'] = name self.require(requires)[0].run_script(script_name, ns) def __iter__(self) -> Iterator[Distribution]: """Yield distributions for non-duplicate projects in the working set The yield order is the order in which the items' path entries were added to the working set. """ seen = set() for item in self.entries: if item not in self.entry_keys: # workaround a cache issue continue for key in self.entry_keys[item]: if key not in seen: seen.add(key) yield self.by_key[key] def add( self, dist: Distribution, entry: str | None = None, insert: bool = True, replace: bool = False, ): """Add `dist` to working set, associated with `entry` If `entry` is unspecified, it defaults to the ``.location`` of `dist`. On exit from this routine, `entry` is added to the end of the working set's ``.entries`` (if it wasn't already present). `dist` is only added to the working set if it's for a project that doesn't already have a distribution in the set, unless `replace=True`. If it's added, any callbacks registered with the ``subscribe()`` method will be called. """ if insert: dist.insert_on(self.entries, entry, replace=replace) if entry is None: entry = dist.location keys = self.entry_keys.setdefault(entry, []) keys2 = self.entry_keys.setdefault(dist.location, []) if not replace and dist.key in self.by_key: # ignore hidden distros return self.by_key[dist.key] = dist normalized_name = _packaging_utils.canonicalize_name(dist.key) self.normalized_to_canonical_keys[normalized_name] = dist.key if dist.key not in keys: keys.append(dist.key) if dist.key not in keys2: keys2.append(dist.key) self._added_new(dist) @overload def resolve( self, requirements: Iterable[Requirement], env: Environment | None, installer: _InstallerTypeT[_DistributionT], replace_conflicting: bool = False, extras: tuple[str, ...] | None = None, ) -> list[_DistributionT]: ... @overload def resolve( self, requirements: Iterable[Requirement], env: Environment | None = None, *, installer: _InstallerTypeT[_DistributionT], replace_conflicting: bool = False, extras: tuple[str, ...] | None = None, ) -> list[_DistributionT]: ... @overload def resolve( self, requirements: Iterable[Requirement], env: Environment | None = None, installer: _InstallerType | None = None, replace_conflicting: bool = False, extras: tuple[str, ...] | None = None, ) -> list[Distribution]: ... def resolve( self, requirements: Iterable[Requirement], env: Environment | None = None, installer: _InstallerType | None | _InstallerTypeT[_DistributionT] = None, replace_conflicting: bool = False, extras: tuple[str, ...] | None = None, ) -> list[Distribution] | list[_DistributionT]: """List all distributions needed to (recursively) meet `requirements` `requirements` must be a sequence of ``Requirement`` objects. `env`, if supplied, should be an ``Environment`` instance. If not supplied, it defaults to all distributions available within any entry or distribution in the working set. `installer`, if supplied, will be invoked with each requirement that cannot be met by an already-installed distribution; it should return a ``Distribution`` or ``None``. Unless `replace_conflicting=True`, raises a VersionConflict exception if any requirements are found on the path that have the correct name but the wrong version. Otherwise, if an `installer` is supplied it will be invoked to obtain the correct version of the requirement and activate it. `extras` is a list of the extras to be used with these requirements. This is important because extra requirements may look like `my_req; extra = "my_extra"`, which would otherwise be interpreted as a purely optional requirement. Instead, we want to be able to assert that these requirements are truly required. """ # set up the stack requirements = list(requirements)[::-1] # set of processed requirements processed = set() # key -> dist best = {} to_activate = [] req_extras = _ReqExtras() # Mapping of requirement to set of distributions that required it; # useful for reporting info about conflicts. required_by = collections.defaultdict(set) while requirements: # process dependencies breadth-first req = requirements.pop(0) if req in processed: # Ignore cyclic or redundant dependencies continue if not req_extras.markers_pass(req, extras): continue dist = self._resolve_dist( req, best, replace_conflicting, env, installer, required_by, to_activate ) # push the new requirements onto the stack new_requirements = dist.requires(req.extras)[::-1] requirements.extend(new_requirements) # Register the new requirements needed by req for new_requirement in new_requirements: required_by[new_requirement].add(req.project_name) req_extras[new_requirement] = req.extras processed.add(req) # return list of distros to activate return to_activate def _resolve_dist( self, req, best, replace_conflicting, env, installer, required_by, to_activate ) -> Distribution: dist = best.get(req.key) if dist is None: # Find the best distribution and add it to the map dist = self.by_key.get(req.key) if dist is None or (dist not in req and replace_conflicting): ws = self if env is None: if dist is None: env = Environment(self.entries) else: # Use an empty environment and workingset to avoid # any further conflicts with the conflicting # distribution env = Environment([]) ws = WorkingSet([]) dist = best[req.key] = env.best_match( req, ws, installer, replace_conflicting=replace_conflicting ) if dist is None: requirers = required_by.get(req, None) raise DistributionNotFound(req, requirers) to_activate.append(dist) if dist not in req: # Oops, the "best" so far conflicts with a dependency dependent_req = required_by[req] raise VersionConflict(dist, req).with_context(dependent_req) return dist @overload def find_plugins( self, plugin_env: Environment, full_env: Environment | None, installer: _InstallerTypeT[_DistributionT], fallback: bool = True, ) -> tuple[list[_DistributionT], dict[Distribution, Exception]]: ... @overload def find_plugins( self, plugin_env: Environment, full_env: Environment | None = None, *, installer: _InstallerTypeT[_DistributionT], fallback: bool = True, ) -> tuple[list[_DistributionT], dict[Distribution, Exception]]: ... @overload def find_plugins( self, plugin_env: Environment, full_env: Environment | None = None, installer: _InstallerType | None = None, fallback: bool = True, ) -> tuple[list[Distribution], dict[Distribution, Exception]]: ... def find_plugins( self, plugin_env: Environment, full_env: Environment | None = None, installer: _InstallerType | None | _InstallerTypeT[_DistributionT] = None, fallback: bool = True, ) -> tuple[ list[Distribution] | list[_DistributionT], dict[Distribution, Exception], ]: """Find all activatable distributions in `plugin_env` Example usage:: distributions, errors = working_set.find_plugins( Environment(plugin_dirlist) ) # add plugins+libs to sys.path map(working_set.add, distributions) # display errors print('Could not load', errors) The `plugin_env` should be an ``Environment`` instance that contains only distributions that are in the project's "plugin directory" or directories. The `full_env`, if supplied, should be an ``Environment`` contains all currently-available distributions. If `full_env` is not supplied, one is created automatically from the ``WorkingSet`` this method is called on, which will typically mean that every directory on ``sys.path`` will be scanned for distributions. `installer` is a standard installer callback as used by the ``resolve()`` method. The `fallback` flag indicates whether we should attempt to resolve older versions of a plugin if the newest version cannot be resolved. This method returns a 2-tuple: (`distributions`, `error_info`), where `distributions` is a list of the distributions found in `plugin_env` that were loadable, along with any other distributions that are needed to resolve their dependencies. `error_info` is a dictionary mapping unloadable plugin distributions to an exception instance describing the error that occurred. Usually this will be a ``DistributionNotFound`` or ``VersionConflict`` instance. """ plugin_projects = list(plugin_env) # scan project names in alphabetic order plugin_projects.sort() error_info: dict[Distribution, Exception] = {} distributions: dict[Distribution, Exception | None] = {} if full_env is None: env = Environment(self.entries) env += plugin_env else: env = full_env + plugin_env shadow_set = self.__class__([]) # put all our entries in shadow_set list(map(shadow_set.add, self)) for project_name in plugin_projects: for dist in plugin_env[project_name]: req = [dist.as_requirement()] try: resolvees = shadow_set.resolve(req, env, installer) except ResolutionError as v: # save error info error_info[dist] = v if fallback: # try the next older version of project continue else: # give up on this project, keep going break else: list(map(shadow_set.add, resolvees)) distributions.update(dict.fromkeys(resolvees)) # success, no need to try any more versions of this project break sorted_distributions = list(distributions) sorted_distributions.sort() return sorted_distributions, error_info def require(self, *requirements: _NestedStr): """Ensure that distributions matching `requirements` are activated `requirements` must be a string or a (possibly-nested) sequence thereof, specifying the distributions and versions required. The return value is a sequence of the distributions that needed to be activated to fulfill the requirements; all relevant distributions are included, even if they were already activated in this working set. """ needed = self.resolve(parse_requirements(requirements)) for dist in needed: self.add(dist) return needed def subscribe( self, callback: Callable[[Distribution], object], existing: bool = True ): """Invoke `callback` for all distributions If `existing=True` (default), call on all existing ones, as well. """ if callback in self.callbacks: return self.callbacks.append(callback) if not existing: return for dist in self: callback(dist) def _added_new(self, dist): for callback in self.callbacks: callback(dist) def __getstate__(self): return ( self.entries[:], self.entry_keys.copy(), self.by_key.copy(), self.normalized_to_canonical_keys.copy(), self.callbacks[:], ) def __setstate__(self, e_k_b_n_c): entries, keys, by_key, normalized_to_canonical_keys, callbacks = e_k_b_n_c self.entries = entries[:] self.entry_keys = keys.copy() self.by_key = by_key.copy() self.normalized_to_canonical_keys = normalized_to_canonical_keys.copy() self.callbacks = callbacks[:] class _ReqExtras(Dict["Requirement", Tuple[str, ...]]): """ Map each requirement to the extras that demanded it. """ def markers_pass(self, req: Requirement, extras: tuple[str, ...] | None = None): """ Evaluate markers for req against each extra that demanded it. Return False if the req has a marker and fails evaluation. Otherwise, return True. """ extra_evals = ( req.marker.evaluate({'extra': extra}) for extra in self.get(req, ()) + (extras or (None,)) ) return not req.marker or any(extra_evals) class Environment: """Searchable snapshot of distributions on a search path""" def __init__( self, search_path: Iterable[str] | None = None, platform: str | None = get_supported_platform(), python: str | None = PY_MAJOR, ): """Snapshot distributions available on a search path Any distributions found on `search_path` are added to the environment. `search_path` should be a sequence of ``sys.path`` items. If not supplied, ``sys.path`` is used. `platform` is an optional string specifying the name of the platform that platform-specific distributions must be compatible with. If unspecified, it defaults to the current platform. `python` is an optional string naming the desired version of Python (e.g. ``'3.6'``); it defaults to the current version. You may explicitly set `platform` (and/or `python`) to ``None`` if you wish to map *all* distributions, not just those compatible with the running platform or Python version. """ self._distmap = {} self.platform = platform self.python = python self.scan(search_path) def can_add(self, dist: Distribution): """Is distribution `dist` acceptable for this environment? The distribution must match the platform and python version requirements specified when this environment was created, or False is returned. """ py_compat = ( self.python is None or dist.py_version is None or dist.py_version == self.python ) return py_compat and compatible_platforms(dist.platform, self.platform) def remove(self, dist: Distribution): """Remove `dist` from the environment""" self._distmap[dist.key].remove(dist) def scan(self, search_path: Iterable[str] | None = None): """Scan `search_path` for distributions usable in this environment Any distributions found are added to the environment. `search_path` should be a sequence of ``sys.path`` items. If not supplied, ``sys.path`` is used. Only distributions conforming to the platform/python version defined at initialization are added. """ if search_path is None: search_path = sys.path for item in search_path: for dist in find_distributions(item): self.add(dist) def __getitem__(self, project_name: str) -> list[Distribution]: """Return a newest-to-oldest list of distributions for `project_name` Uses case-insensitive `project_name` comparison, assuming all the project's distributions use their project's name converted to all lowercase as their key. """ distribution_key = project_name.lower() return self._distmap.get(distribution_key, []) def add(self, dist: Distribution): """Add `dist` if we ``can_add()`` it and it has not already been added""" if self.can_add(dist) and dist.has_version(): dists = self._distmap.setdefault(dist.key, []) if dist not in dists: dists.append(dist) dists.sort(key=operator.attrgetter('hashcmp'), reverse=True) @overload def best_match( self, req: Requirement, working_set: WorkingSet, installer: _InstallerTypeT[_DistributionT], replace_conflicting: bool = False, ) -> _DistributionT: ... @overload def best_match( self, req: Requirement, working_set: WorkingSet, installer: _InstallerType | None = None, replace_conflicting: bool = False, ) -> Distribution | None: ... def best_match( self, req: Requirement, working_set: WorkingSet, installer: _InstallerType | None | _InstallerTypeT[_DistributionT] = None, replace_conflicting: bool = False, ) -> Distribution | None: """Find distribution best matching `req` and usable on `working_set` This calls the ``find(req)`` method of the `working_set` to see if a suitable distribution is already active. (This may raise ``VersionConflict`` if an unsuitable version of the project is already active in the specified `working_set`.) If a suitable distribution isn't active, this method returns the newest distribution in the environment that meets the ``Requirement`` in `req`. If no suitable distribution is found, and `installer` is supplied, then the result of calling the environment's ``obtain(req, installer)`` method will be returned. """ try: dist = working_set.find(req) except VersionConflict: if not replace_conflicting: raise dist = None if dist is not None: return dist for dist in self[req.key]: if dist in req: return dist # try to download/install return self.obtain(req, installer) @overload def obtain( self, requirement: Requirement, installer: _InstallerTypeT[_DistributionT], ) -> _DistributionT: ... @overload def obtain( self, requirement: Requirement, installer: Callable[[Requirement], None] | None = None, ) -> None: ... @overload def obtain( self, requirement: Requirement, installer: _InstallerType | None = None, ) -> Distribution | None: ... def obtain( self, requirement: Requirement, installer: Callable[[Requirement], None] | _InstallerType | None | _InstallerTypeT[_DistributionT] = None, ) -> Distribution | None: """Obtain a distribution matching `requirement` (e.g. via download) Obtain a distro that matches requirement (e.g. via download). In the base ``Environment`` class, this routine just returns ``installer(requirement)``, unless `installer` is None, in which case None is returned instead. This method is a hook that allows subclasses to attempt other ways of obtaining a distribution before falling back to the `installer` argument.""" return installer(requirement) if installer else None def __iter__(self) -> Iterator[str]: """Yield the unique project names of the available distributions""" for key in self._distmap.keys(): if self[key]: yield key def __iadd__(self, other: Distribution | Environment): """In-place addition of a distribution or environment""" if isinstance(other, Distribution): self.add(other) elif isinstance(other, Environment): for project in other: for dist in other[project]: self.add(dist) else: raise TypeError("Can't add %r to environment" % (other,)) return self def __add__(self, other: Distribution | Environment): """Add an environment or distribution to an environment""" new = self.__class__([], platform=None, python=None) for env in self, other: new += env return new # XXX backward compatibility AvailableDistributions = Environment class ExtractionError(RuntimeError): """An error occurred extracting a resource The following attributes are available from instances of this exception: manager The resource manager that raised this exception cache_path The base directory for resource extraction original_error The exception instance that caused extraction to fail """ manager: ResourceManager cache_path: str original_error: BaseException | None class ResourceManager: """Manage resource extraction and packages""" extraction_path: str | None = None def __init__(self): self.cached_files = {} def resource_exists(self, package_or_requirement: _PkgReqType, resource_name: str): """Does the named resource exist?""" return get_provider(package_or_requirement).has_resource(resource_name) def resource_isdir(self, package_or_requirement: _PkgReqType, resource_name: str): """Is the named resource an existing directory?""" return get_provider(package_or_requirement).resource_isdir(resource_name) def resource_filename( self, package_or_requirement: _PkgReqType, resource_name: str ): """Return a true filesystem path for specified resource""" return get_provider(package_or_requirement).get_resource_filename( self, resource_name ) def resource_stream(self, package_or_requirement: _PkgReqType, resource_name: str): """Return a readable file-like object for specified resource""" return get_provider(package_or_requirement).get_resource_stream( self, resource_name ) def resource_string( self, package_or_requirement: _PkgReqType, resource_name: str ) -> bytes: """Return specified resource as :obj:`bytes`""" return get_provider(package_or_requirement).get_resource_string( self, resource_name ) def resource_listdir(self, package_or_requirement: _PkgReqType, resource_name: str): """List the contents of the named resource directory""" return get_provider(package_or_requirement).resource_listdir(resource_name) def extraction_error(self) -> NoReturn: """Give an error message for problems extracting file(s)""" old_exc = sys.exc_info()[1] cache_path = self.extraction_path or get_default_cache() tmpl = textwrap.dedent( """ Can't extract file(s) to egg cache The following error occurred while trying to extract file(s) to the Python egg cache: {old_exc} The Python egg cache directory is currently set to: {cache_path} Perhaps your account does not have write access to this directory? You can change the cache directory by setting the PYTHON_EGG_CACHE environment variable to point to an accessible directory. """ ).lstrip() err = ExtractionError(tmpl.format(**locals())) err.manager = self err.cache_path = cache_path err.original_error = old_exc raise err def get_cache_path(self, archive_name: str, names: Iterable[StrPath] = ()): """Return absolute location in cache for `archive_name` and `names` The parent directory of the resulting path will be created if it does not already exist. `archive_name` should be the base filename of the enclosing egg (which may not be the name of the enclosing zipfile!), including its ".egg" extension. `names`, if provided, should be a sequence of path name parts "under" the egg's extraction location. This method should only be called by resource providers that need to obtain an extraction location, and only for names they intend to extract, as it tracks the generated names for possible cleanup later. """ extract_path = self.extraction_path or get_default_cache() target_path = os.path.join(extract_path, archive_name + '-tmp', *names) try: _bypass_ensure_directory(target_path) except Exception: self.extraction_error() self._warn_unsafe_extraction_path(extract_path) self.cached_files[target_path] = True return target_path @staticmethod def _warn_unsafe_extraction_path(path): """ If the default extraction path is overridden and set to an insecure location, such as /tmp, it opens up an opportunity for an attacker to replace an extracted file with an unauthorized payload. Warn the user if a known insecure location is used. See Distribute #375 for more details. """ if os.name == 'nt' and not path.startswith(os.environ['windir']): # On Windows, permissions are generally restrictive by default # and temp directories are not writable by other users, so # bypass the warning. return mode = os.stat(path).st_mode if mode & stat.S_IWOTH or mode & stat.S_IWGRP: msg = ( "Extraction path is writable by group/others " "and vulnerable to attack when " "used with get_resource_filename ({path}). " "Consider a more secure " "location (set with .set_extraction_path or the " "PYTHON_EGG_CACHE environment variable)." ).format(**locals()) warnings.warn(msg, UserWarning) def postprocess(self, tempname: StrOrBytesPath, filename: StrOrBytesPath): """Perform any platform-specific postprocessing of `tempname` This is where Mac header rewrites should be done; other platforms don't have anything special they should do. Resource providers should call this method ONLY after successfully extracting a compressed resource. They must NOT call it on resources that are already in the filesystem. `tempname` is the current (temporary) name of the file, and `filename` is the name it will be renamed to by the caller after this routine returns. """ if os.name == 'posix': # Make the resource executable mode = ((os.stat(tempname).st_mode) | 0o555) & 0o7777 os.chmod(tempname, mode) def set_extraction_path(self, path: str): """Set the base path where resources will be extracted to, if needed. If you do not call this routine before any extractions take place, the path defaults to the return value of ``get_default_cache()``. (Which is based on the ``PYTHON_EGG_CACHE`` environment variable, with various platform-specific fallbacks. See that routine's documentation for more details.) Resources are extracted to subdirectories of this path based upon information given by the ``IResourceProvider``. You may set this to a temporary directory, but then you must call ``cleanup_resources()`` to delete the extracted files when done. There is no guarantee that ``cleanup_resources()`` will be able to remove all extracted files. (Note: you may not change the extraction path for a given resource manager once resources have been extracted, unless you first call ``cleanup_resources()``.) """ if self.cached_files: raise ValueError("Can't change extraction path, files already extracted") self.extraction_path = path def cleanup_resources(self, force: bool = False) -> list[str]: """ Delete all extracted resource files and directories, returning a list of the file and directory names that could not be successfully removed. This function does not have any concurrency protection, so it should generally only be called when the extraction path is a temporary directory exclusive to a single process. This method is not automatically called; you must call it explicitly or register it as an ``atexit`` function if you wish to ensure cleanup of a temporary directory used for extractions. """ # XXX return [] def get_default_cache() -> str: """ Return the ``PYTHON_EGG_CACHE`` environment variable or a platform-relevant user cache dir for an app named "Python-Eggs". """ return os.environ.get('PYTHON_EGG_CACHE') or _user_cache_dir(appname='Python-Eggs') def safe_name(name: str): """Convert an arbitrary string to a standard distribution name Any runs of non-alphanumeric/. characters are replaced with a single '-'. """ return re.sub('[^A-Za-z0-9.]+', '-', name) def safe_version(version: str): """ Convert an arbitrary string to a standard version string """ try: # normalize the version return str(_packaging_version.Version(version)) except _packaging_version.InvalidVersion: version = version.replace(' ', '.') return re.sub('[^A-Za-z0-9.]+', '-', version) def _forgiving_version(version): """Fallback when ``safe_version`` is not safe enough >>> parse_version(_forgiving_version('0.23ubuntu1')) >>> parse_version(_forgiving_version('0.23-')) >>> parse_version(_forgiving_version('0.-_')) >>> parse_version(_forgiving_version('42.+?1')) >>> parse_version(_forgiving_version('hello world')) """ version = version.replace(' ', '.') match = _PEP440_FALLBACK.search(version) if match: safe = match["safe"] rest = version[len(safe) :] else: safe = "0" rest = version local = f"sanitized.{_safe_segment(rest)}".strip(".") return f"{safe}.dev0+{local}" def _safe_segment(segment): """Convert an arbitrary string into a safe segment""" segment = re.sub('[^A-Za-z0-9.]+', '-', segment) segment = re.sub('-[^A-Za-z0-9]+', '-', segment) return re.sub(r'\.[^A-Za-z0-9]+', '.', segment).strip(".-") def safe_extra(extra: str): """Convert an arbitrary string to a standard 'extra' name Any runs of non-alphanumeric characters are replaced with a single '_', and the result is always lowercased. """ return re.sub('[^A-Za-z0-9.-]+', '_', extra).lower() def to_filename(name: str): """Convert a project or version name to its filename-escaped form Any '-' characters are currently replaced with '_'. """ return name.replace('-', '_') def invalid_marker(text: str): """ Validate text as a PEP 508 environment marker; return an exception if invalid or False otherwise. """ try: evaluate_marker(text) except SyntaxError as e: e.filename = None e.lineno = None return e return False def evaluate_marker(text: str, extra: str | None = None) -> bool: """ Evaluate a PEP 508 environment marker. Return a boolean indicating the marker result in this environment. Raise SyntaxError if marker is invalid. This implementation uses the 'pyparsing' module. """ try: marker = _packaging_markers.Marker(text) return marker.evaluate() except _packaging_markers.InvalidMarker as e: raise SyntaxError(e) from e class NullProvider: """Try to implement resources and metadata for arbitrary PEP 302 loaders""" egg_name: str | None = None egg_info: str | None = None loader: _LoaderProtocol | None = None def __init__(self, module: _ModuleLike): self.loader = getattr(module, '__loader__', None) self.module_path = os.path.dirname(getattr(module, '__file__', '')) def get_resource_filename(self, manager: ResourceManager, resource_name: str): return self._fn(self.module_path, resource_name) def get_resource_stream(self, manager: ResourceManager, resource_name: str): return io.BytesIO(self.get_resource_string(manager, resource_name)) def get_resource_string( self, manager: ResourceManager, resource_name: str ) -> bytes: return self._get(self._fn(self.module_path, resource_name)) def has_resource(self, resource_name: str): return self._has(self._fn(self.module_path, resource_name)) def _get_metadata_path(self, name): return self._fn(self.egg_info, name) def has_metadata(self, name: str) -> bool: if not self.egg_info: return False path = self._get_metadata_path(name) return self._has(path) def get_metadata(self, name: str): if not self.egg_info: return "" path = self._get_metadata_path(name) value = self._get(path) try: return value.decode('utf-8') except UnicodeDecodeError as exc: # Include the path in the error message to simplify # troubleshooting, and without changing the exception type. exc.reason += ' in {} file at path: {}'.format(name, path) raise def get_metadata_lines(self, name: str) -> Iterator[str]: return yield_lines(self.get_metadata(name)) def resource_isdir(self, resource_name: str): return self._isdir(self._fn(self.module_path, resource_name)) def metadata_isdir(self, name: str) -> bool: return bool(self.egg_info and self._isdir(self._fn(self.egg_info, name))) def resource_listdir(self, resource_name: str): return self._listdir(self._fn(self.module_path, resource_name)) def metadata_listdir(self, name: str) -> list[str]: if self.egg_info: return self._listdir(self._fn(self.egg_info, name)) return [] def run_script(self, script_name: str, namespace: dict[str, Any]): script = 'scripts/' + script_name if not self.has_metadata(script): raise ResolutionError( "Script {script!r} not found in metadata at {self.egg_info!r}".format( **locals() ), ) script_text = self.get_metadata(script).replace('\r\n', '\n') script_text = script_text.replace('\r', '\n') script_filename = self._fn(self.egg_info, script) namespace['__file__'] = script_filename if os.path.exists(script_filename): source = _read_utf8_with_fallback(script_filename) code = compile(source, script_filename, 'exec') exec(code, namespace, namespace) else: from linecache import cache cache[script_filename] = ( len(script_text), 0, script_text.split('\n'), script_filename, ) script_code = compile(script_text, script_filename, 'exec') exec(script_code, namespace, namespace) def _has(self, path) -> bool: raise NotImplementedError( "Can't perform this operation for unregistered loader type" ) def _isdir(self, path) -> bool: raise NotImplementedError( "Can't perform this operation for unregistered loader type" ) def _listdir(self, path) -> list[str]: raise NotImplementedError( "Can't perform this operation for unregistered loader type" ) def _fn(self, base: str | None, resource_name: str): if base is None: raise TypeError( "`base` parameter in `_fn` is `None`. Either override this method or check the parameter first." ) self._validate_resource_path(resource_name) if resource_name: return os.path.join(base, *resource_name.split('/')) return base @staticmethod def _validate_resource_path(path): """ Validate the resource paths according to the docs. https://setuptools.pypa.io/en/latest/pkg_resources.html#basic-resource-access >>> warned = getfixture('recwarn') >>> warnings.simplefilter('always') >>> vrp = NullProvider._validate_resource_path >>> vrp('foo/bar.txt') >>> bool(warned) False >>> vrp('../foo/bar.txt') >>> bool(warned) True >>> warned.clear() >>> vrp('/foo/bar.txt') >>> bool(warned) True >>> vrp('foo/../../bar.txt') >>> bool(warned) True >>> warned.clear() >>> vrp('foo/f../bar.txt') >>> bool(warned) False Windows path separators are straight-up disallowed. >>> vrp(r'\\foo/bar.txt') Traceback (most recent call last): ... ValueError: Use of .. or absolute path in a resource path \ is not allowed. >>> vrp(r'C:\\foo/bar.txt') Traceback (most recent call last): ... ValueError: Use of .. or absolute path in a resource path \ is not allowed. Blank values are allowed >>> vrp('') >>> bool(warned) False Non-string values are not. >>> vrp(None) Traceback (most recent call last): ... AttributeError: ... """ invalid = ( os.path.pardir in path.split(posixpath.sep) or posixpath.isabs(path) or ntpath.isabs(path) or path.startswith("\\") ) if not invalid: return msg = "Use of .. or absolute path in a resource path is not allowed." # Aggressively disallow Windows absolute paths if (path.startswith("\\") or ntpath.isabs(path)) and not posixpath.isabs(path): raise ValueError(msg) # for compatibility, warn; in future # raise ValueError(msg) issue_warning( msg[:-1] + " and will raise exceptions in a future release.", DeprecationWarning, ) def _get(self, path) -> bytes: if hasattr(self.loader, 'get_data') and self.loader: # Already checked get_data exists return self.loader.get_data(path) # type: ignore[attr-defined] raise NotImplementedError( "Can't perform this operation for loaders without 'get_data()'" ) register_loader_type(object, NullProvider) def _parents(path): """ yield all parents of path including path """ last = None while path != last: yield path last = path path, _ = os.path.split(path) class EggProvider(NullProvider): """Provider based on a virtual filesystem""" def __init__(self, module: _ModuleLike): super().__init__(module) self._setup_prefix() def _setup_prefix(self): # Assume that metadata may be nested inside a "basket" # of multiple eggs and use module_path instead of .archive. eggs = filter(_is_egg_path, _parents(self.module_path)) egg = next(eggs, None) egg and self._set_egg(egg) def _set_egg(self, path: str): self.egg_name = os.path.basename(path) self.egg_info = os.path.join(path, 'EGG-INFO') self.egg_root = path class DefaultProvider(EggProvider): """Provides access to package resources in the filesystem""" def _has(self, path) -> bool: return os.path.exists(path) def _isdir(self, path) -> bool: return os.path.isdir(path) def _listdir(self, path): return os.listdir(path) def get_resource_stream(self, manager: object, resource_name: str): return open(self._fn(self.module_path, resource_name), 'rb') def _get(self, path) -> bytes: with open(path, 'rb') as stream: return stream.read() @classmethod def _register(cls): loader_names = ( 'SourceFileLoader', 'SourcelessFileLoader', ) for name in loader_names: loader_cls = getattr(importlib.machinery, name, type(None)) register_loader_type(loader_cls, cls) DefaultProvider._register() class EmptyProvider(NullProvider): """Provider that returns nothing for all requests""" # A special case, we don't want all Providers inheriting from NullProvider to have a potentially None module_path module_path: str | None = None # type: ignore[assignment] _isdir = _has = lambda self, path: False def _get(self, path) -> bytes: return b'' def _listdir(self, path): return [] def __init__(self): pass empty_provider = EmptyProvider() class ZipManifests(Dict[str, "MemoizedZipManifests.manifest_mod"]): """ zip manifest builder """ # `path` could be `StrPath | IO[bytes]` but that violates the LSP for `MemoizedZipManifests.load` @classmethod def build(cls, path: str): """ Build a dictionary similar to the zipimport directory caches, except instead of tuples, store ZipInfo objects. Use a platform-specific path separator (os.sep) for the path keys for compatibility with pypy on Windows. """ with zipfile.ZipFile(path) as zfile: items = ( ( name.replace('/', os.sep), zfile.getinfo(name), ) for name in zfile.namelist() ) return dict(items) load = build class MemoizedZipManifests(ZipManifests): """ Memoized zipfile manifests. """ class manifest_mod(NamedTuple): manifest: dict[str, zipfile.ZipInfo] mtime: float def load(self, path: str) -> dict[str, zipfile.ZipInfo]: # type: ignore[override] # ZipManifests.load is a classmethod """ Load a manifest at path or return a suitable manifest already loaded. """ path = os.path.normpath(path) mtime = os.stat(path).st_mtime if path not in self or self[path].mtime != mtime: manifest = self.build(path) self[path] = self.manifest_mod(manifest, mtime) return self[path].manifest class ZipProvider(EggProvider): """Resource support for zips and eggs""" eagers: list[str] | None = None _zip_manifests = MemoizedZipManifests() # ZipProvider's loader should always be a zipimporter or equivalent loader: zipimport.zipimporter def __init__(self, module: _ZipLoaderModule): super().__init__(module) self.zip_pre = self.loader.archive + os.sep def _zipinfo_name(self, fspath): # Convert a virtual filename (full path to file) into a zipfile subpath # usable with the zipimport directory cache for our target archive fspath = fspath.rstrip(os.sep) if fspath == self.loader.archive: return '' if fspath.startswith(self.zip_pre): return fspath[len(self.zip_pre) :] raise AssertionError("%s is not a subpath of %s" % (fspath, self.zip_pre)) def _parts(self, zip_path): # Convert a zipfile subpath into an egg-relative path part list. # pseudo-fs path fspath = self.zip_pre + zip_path if fspath.startswith(self.egg_root + os.sep): return fspath[len(self.egg_root) + 1 :].split(os.sep) raise AssertionError("%s is not a subpath of %s" % (fspath, self.egg_root)) @property def zipinfo(self): return self._zip_manifests.load(self.loader.archive) def get_resource_filename(self, manager: ResourceManager, resource_name: str): if not self.egg_name: raise NotImplementedError( "resource_filename() only supported for .egg, not .zip" ) # no need to lock for extraction, since we use temp names zip_path = self._resource_to_zip(resource_name) eagers = self._get_eager_resources() if '/'.join(self._parts(zip_path)) in eagers: for name in eagers: self._extract_resource(manager, self._eager_to_zip(name)) return self._extract_resource(manager, zip_path) @staticmethod def _get_date_and_size(zip_stat): size = zip_stat.file_size # ymdhms+wday, yday, dst date_time = zip_stat.date_time + (0, 0, -1) # 1980 offset already done timestamp = time.mktime(date_time) return timestamp, size # FIXME: 'ZipProvider._extract_resource' is too complex (12) def _extract_resource(self, manager: ResourceManager, zip_path) -> str: # noqa: C901 if zip_path in self._index(): for name in self._index()[zip_path]: last = self._extract_resource(manager, os.path.join(zip_path, name)) # return the extracted directory name return os.path.dirname(last) timestamp, size = self._get_date_and_size(self.zipinfo[zip_path]) if not WRITE_SUPPORT: raise OSError( '"os.rename" and "os.unlink" are not supported on this platform' ) try: if not self.egg_name: raise OSError( '"egg_name" is empty. This likely means no egg could be found from the "module_path".' ) real_path = manager.get_cache_path(self.egg_name, self._parts(zip_path)) if self._is_current(real_path, zip_path): return real_path outf, tmpnam = _mkstemp( ".$extract", dir=os.path.dirname(real_path), ) os.write(outf, self.loader.get_data(zip_path)) os.close(outf) utime(tmpnam, (timestamp, timestamp)) manager.postprocess(tmpnam, real_path) try: rename(tmpnam, real_path) except OSError: if os.path.isfile(real_path): if self._is_current(real_path, zip_path): # the file became current since it was checked above, # so proceed. return real_path # Windows, del old file and retry elif os.name == 'nt': unlink(real_path) rename(tmpnam, real_path) return real_path raise except OSError: # report a user-friendly error manager.extraction_error() return real_path def _is_current(self, file_path, zip_path): """ Return True if the file_path is current for this zip_path """ timestamp, size = self._get_date_and_size(self.zipinfo[zip_path]) if not os.path.isfile(file_path): return False stat = os.stat(file_path) if stat.st_size != size or stat.st_mtime != timestamp: return False # check that the contents match zip_contents = self.loader.get_data(zip_path) with open(file_path, 'rb') as f: file_contents = f.read() return zip_contents == file_contents def _get_eager_resources(self): if self.eagers is None: eagers = [] for name in ('native_libs.txt', 'eager_resources.txt'): if self.has_metadata(name): eagers.extend(self.get_metadata_lines(name)) self.eagers = eagers return self.eagers def _index(self): try: return self._dirindex except AttributeError: ind = {} for path in self.zipinfo: parts = path.split(os.sep) while parts: parent = os.sep.join(parts[:-1]) if parent in ind: ind[parent].append(parts[-1]) break else: ind[parent] = [parts.pop()] self._dirindex = ind return ind def _has(self, fspath) -> bool: zip_path = self._zipinfo_name(fspath) return zip_path in self.zipinfo or zip_path in self._index() def _isdir(self, fspath) -> bool: return self._zipinfo_name(fspath) in self._index() def _listdir(self, fspath): return list(self._index().get(self._zipinfo_name(fspath), ())) def _eager_to_zip(self, resource_name: str): return self._zipinfo_name(self._fn(self.egg_root, resource_name)) def _resource_to_zip(self, resource_name: str): return self._zipinfo_name(self._fn(self.module_path, resource_name)) register_loader_type(zipimport.zipimporter, ZipProvider) class FileMetadata(EmptyProvider): """Metadata handler for standalone PKG-INFO files Usage:: metadata = FileMetadata("/path/to/PKG-INFO") This provider rejects all data and metadata requests except for PKG-INFO, which is treated as existing, and will be the contents of the file at the provided location. """ def __init__(self, path: StrPath): self.path = path def _get_metadata_path(self, name): return self.path def has_metadata(self, name: str) -> bool: return name == 'PKG-INFO' and os.path.isfile(self.path) def get_metadata(self, name: str): if name != 'PKG-INFO': raise KeyError("No metadata except PKG-INFO is available") with open(self.path, encoding='utf-8', errors="replace") as f: metadata = f.read() self._warn_on_replacement(metadata) return metadata def _warn_on_replacement(self, metadata): replacement_char = '�' if replacement_char in metadata: tmpl = "{self.path} could not be properly decoded in UTF-8" msg = tmpl.format(**locals()) warnings.warn(msg) def get_metadata_lines(self, name: str) -> Iterator[str]: return yield_lines(self.get_metadata(name)) class PathMetadata(DefaultProvider): """Metadata provider for egg directories Usage:: # Development eggs: egg_info = "/path/to/PackageName.egg-info" base_dir = os.path.dirname(egg_info) metadata = PathMetadata(base_dir, egg_info) dist_name = os.path.splitext(os.path.basename(egg_info))[0] dist = Distribution(basedir, project_name=dist_name, metadata=metadata) # Unpacked egg directories: egg_path = "/path/to/PackageName-ver-pyver-etc.egg" metadata = PathMetadata(egg_path, os.path.join(egg_path,'EGG-INFO')) dist = Distribution.from_filename(egg_path, metadata=metadata) """ def __init__(self, path: str, egg_info: str): self.module_path = path self.egg_info = egg_info class EggMetadata(ZipProvider): """Metadata provider for .egg files""" def __init__(self, importer: zipimport.zipimporter): """Create a metadata provider from a zipimporter""" self.zip_pre = importer.archive + os.sep self.loader = importer if importer.prefix: self.module_path = os.path.join(importer.archive, importer.prefix) else: self.module_path = importer.archive self._setup_prefix() _distribution_finders: dict[type, _DistFinderType[Any]] = _declare_state( 'dict', '_distribution_finders', {} ) def register_finder(importer_type: type[_T], distribution_finder: _DistFinderType[_T]): """Register `distribution_finder` to find distributions in sys.path items `importer_type` is the type or class of a PEP 302 "Importer" (sys.path item handler), and `distribution_finder` is a callable that, passed a path item and the importer instance, yields ``Distribution`` instances found on that path item. See ``pkg_resources.find_on_path`` for an example.""" _distribution_finders[importer_type] = distribution_finder def find_distributions(path_item: str, only: bool = False): """Yield distributions accessible via `path_item`""" importer = get_importer(path_item) finder = _find_adapter(_distribution_finders, importer) return finder(importer, path_item, only) def find_eggs_in_zip( importer: zipimport.zipimporter, path_item: str, only: bool = False ) -> Iterator[Distribution]: """ Find eggs in zip files; possibly multiple nested eggs. """ if importer.archive.endswith('.whl'): # wheels are not supported with this finder # they don't have PKG-INFO metadata, and won't ever contain eggs return metadata = EggMetadata(importer) if metadata.has_metadata('PKG-INFO'): yield Distribution.from_filename(path_item, metadata=metadata) if only: # don't yield nested distros return for subitem in metadata.resource_listdir(''): if _is_egg_path(subitem): subpath = os.path.join(path_item, subitem) dists = find_eggs_in_zip(zipimport.zipimporter(subpath), subpath) yield from dists elif subitem.lower().endswith(('.dist-info', '.egg-info')): subpath = os.path.join(path_item, subitem) submeta = EggMetadata(zipimport.zipimporter(subpath)) submeta.egg_info = subpath yield Distribution.from_location(path_item, subitem, submeta) register_finder(zipimport.zipimporter, find_eggs_in_zip) def find_nothing( importer: object | None, path_item: str | None, only: bool | None = False ): return () register_finder(object, find_nothing) def find_on_path(importer: object | None, path_item, only=False): """Yield distributions accessible on a sys.path directory""" path_item = _normalize_cached(path_item) if _is_unpacked_egg(path_item): yield Distribution.from_filename( path_item, metadata=PathMetadata(path_item, os.path.join(path_item, 'EGG-INFO')), ) return entries = (os.path.join(path_item, child) for child in safe_listdir(path_item)) # scan for .egg and .egg-info in directory for entry in sorted(entries): fullpath = os.path.join(path_item, entry) factory = dist_factory(path_item, entry, only) yield from factory(fullpath) def dist_factory(path_item, entry, only): """Return a dist_factory for the given entry.""" lower = entry.lower() is_egg_info = lower.endswith('.egg-info') is_dist_info = lower.endswith('.dist-info') and os.path.isdir( os.path.join(path_item, entry) ) is_meta = is_egg_info or is_dist_info return ( distributions_from_metadata if is_meta else find_distributions if not only and _is_egg_path(entry) else resolve_egg_link if not only and lower.endswith('.egg-link') else NoDists() ) class NoDists: """ >>> bool(NoDists()) False >>> list(NoDists()('anything')) [] """ def __bool__(self): return False def __call__(self, fullpath): return iter(()) def safe_listdir(path: StrOrBytesPath): """ Attempt to list contents of path, but suppress some exceptions. """ try: return os.listdir(path) except (PermissionError, NotADirectoryError): pass except OSError as e: # Ignore the directory if does not exist, not a directory or # permission denied if e.errno not in (errno.ENOTDIR, errno.EACCES, errno.ENOENT): raise return () def distributions_from_metadata(path: str): root = os.path.dirname(path) if os.path.isdir(path): if len(os.listdir(path)) == 0: # empty metadata dir; skip return metadata: _MetadataType = PathMetadata(root, path) else: metadata = FileMetadata(path) entry = os.path.basename(path) yield Distribution.from_location( root, entry, metadata, precedence=DEVELOP_DIST, ) def non_empty_lines(path): """ Yield non-empty lines from file at path """ for line in _read_utf8_with_fallback(path).splitlines(): line = line.strip() if line: yield line def resolve_egg_link(path): """ Given a path to an .egg-link, resolve distributions present in the referenced path. """ referenced_paths = non_empty_lines(path) resolved_paths = ( os.path.join(os.path.dirname(path), ref) for ref in referenced_paths ) dist_groups = map(find_distributions, resolved_paths) return next(dist_groups, ()) if hasattr(pkgutil, 'ImpImporter'): register_finder(pkgutil.ImpImporter, find_on_path) register_finder(importlib.machinery.FileFinder, find_on_path) _namespace_handlers: dict[type, _NSHandlerType[Any]] = _declare_state( 'dict', '_namespace_handlers', {} ) _namespace_packages: dict[str | None, list[str]] = _declare_state( 'dict', '_namespace_packages', {} ) def register_namespace_handler( importer_type: type[_T], namespace_handler: _NSHandlerType[_T] ): """Register `namespace_handler` to declare namespace packages `importer_type` is the type or class of a PEP 302 "Importer" (sys.path item handler), and `namespace_handler` is a callable like this:: def namespace_handler(importer, path_entry, moduleName, module): # return a path_entry to use for child packages Namespace handlers are only called if the importer object has already agreed that it can handle the relevant path item, and they should only return a subpath if the module __path__ does not already contain an equivalent subpath. For an example namespace handler, see ``pkg_resources.file_ns_handler``. """ _namespace_handlers[importer_type] = namespace_handler def _handle_ns(packageName, path_item): """Ensure that named package includes a subpath of path_item (if needed)""" importer = get_importer(path_item) if importer is None: return None # use find_spec (PEP 451) and fall-back to find_module (PEP 302) try: spec = importer.find_spec(packageName) except AttributeError: # capture warnings due to #1111 with warnings.catch_warnings(): warnings.simplefilter("ignore") loader = importer.find_module(packageName) else: loader = spec.loader if spec else None if loader is None: return None module = sys.modules.get(packageName) if module is None: module = sys.modules[packageName] = types.ModuleType(packageName) module.__path__ = [] _set_parent_ns(packageName) elif not hasattr(module, '__path__'): raise TypeError("Not a package:", packageName) handler = _find_adapter(_namespace_handlers, importer) subpath = handler(importer, path_item, packageName, module) if subpath is not None: path = module.__path__ path.append(subpath) importlib.import_module(packageName) _rebuild_mod_path(path, packageName, module) return subpath def _rebuild_mod_path(orig_path, package_name, module: types.ModuleType): """ Rebuild module.__path__ ensuring that all entries are ordered corresponding to their sys.path order """ sys_path = [_normalize_cached(p) for p in sys.path] def safe_sys_path_index(entry): """ Workaround for #520 and #513. """ try: return sys_path.index(entry) except ValueError: return float('inf') def position_in_sys_path(path): """ Return the ordinal of the path based on its position in sys.path """ path_parts = path.split(os.sep) module_parts = package_name.count('.') + 1 parts = path_parts[:-module_parts] return safe_sys_path_index(_normalize_cached(os.sep.join(parts))) new_path = sorted(orig_path, key=position_in_sys_path) new_path = [_normalize_cached(p) for p in new_path] if isinstance(module.__path__, list): module.__path__[:] = new_path else: module.__path__ = new_path def declare_namespace(packageName: str): """Declare that package 'packageName' is a namespace package""" msg = ( f"Deprecated call to `pkg_resources.declare_namespace({packageName!r})`.\n" "Implementing implicit namespace packages (as specified in PEP 420) " "is preferred to `pkg_resources.declare_namespace`. " "See https://setuptools.pypa.io/en/latest/references/" "keywords.html#keyword-namespace-packages" ) warnings.warn(msg, DeprecationWarning, stacklevel=2) _imp.acquire_lock() try: if packageName in _namespace_packages: return path: MutableSequence[str] = sys.path parent, _, _ = packageName.rpartition('.') if parent: declare_namespace(parent) if parent not in _namespace_packages: __import__(parent) try: path = sys.modules[parent].__path__ except AttributeError as e: raise TypeError("Not a package:", parent) from e # Track what packages are namespaces, so when new path items are added, # they can be updated _namespace_packages.setdefault(parent or None, []).append(packageName) _namespace_packages.setdefault(packageName, []) for path_item in path: # Ensure all the parent's path items are reflected in the child, # if they apply _handle_ns(packageName, path_item) finally: _imp.release_lock() def fixup_namespace_packages(path_item: str, parent: str | None = None): """Ensure that previously-declared namespace packages include path_item""" _imp.acquire_lock() try: for package in _namespace_packages.get(parent, ()): subpath = _handle_ns(package, path_item) if subpath: fixup_namespace_packages(subpath, package) finally: _imp.release_lock() def file_ns_handler( importer: object, path_item: StrPath, packageName: str, module: types.ModuleType, ): """Compute an ns-package subpath for a filesystem or zipfile importer""" subpath = os.path.join(path_item, packageName.split('.')[-1]) normalized = _normalize_cached(subpath) for item in module.__path__: if _normalize_cached(item) == normalized: break else: # Only return the path if it's not already there return subpath if hasattr(pkgutil, 'ImpImporter'): register_namespace_handler(pkgutil.ImpImporter, file_ns_handler) register_namespace_handler(zipimport.zipimporter, file_ns_handler) register_namespace_handler(importlib.machinery.FileFinder, file_ns_handler) def null_ns_handler( importer: object, path_item: str | None, packageName: str | None, module: _ModuleLike | None, ): return None register_namespace_handler(object, null_ns_handler) @overload def normalize_path(filename: StrPath) -> str: ... @overload def normalize_path(filename: BytesPath) -> bytes: ... def normalize_path(filename: StrOrBytesPath): """Normalize a file/dir name for comparison purposes""" return os.path.normcase(os.path.realpath(os.path.normpath(_cygwin_patch(filename)))) def _cygwin_patch(filename: StrOrBytesPath): # pragma: nocover """ Contrary to POSIX 2008, on Cygwin, getcwd (3) contains symlink components. Using os.path.abspath() works around this limitation. A fix in os.getcwd() would probably better, in Cygwin even more so, except that this seems to be by design... """ return os.path.abspath(filename) if sys.platform == 'cygwin' else filename if TYPE_CHECKING: # https://github.com/python/mypy/issues/16261 # https://github.com/python/typeshed/issues/6347 @overload def _normalize_cached(filename: StrPath) -> str: ... @overload def _normalize_cached(filename: BytesPath) -> bytes: ... def _normalize_cached(filename: StrOrBytesPath) -> str | bytes: ... else: @functools.lru_cache(maxsize=None) def _normalize_cached(filename): return normalize_path(filename) def _is_egg_path(path): """ Determine if given path appears to be an egg. """ return _is_zip_egg(path) or _is_unpacked_egg(path) def _is_zip_egg(path): return ( path.lower().endswith('.egg') and os.path.isfile(path) and zipfile.is_zipfile(path) ) def _is_unpacked_egg(path): """ Determine if given path appears to be an unpacked egg. """ return path.lower().endswith('.egg') and os.path.isfile( os.path.join(path, 'EGG-INFO', 'PKG-INFO') ) def _set_parent_ns(packageName): parts = packageName.split('.') name = parts.pop() if parts: parent = '.'.join(parts) setattr(sys.modules[parent], name, sys.modules[packageName]) MODULE = re.compile(r"\w+(\.\w+)*$").match EGG_NAME = re.compile( r""" (?P[^-]+) ( -(?P[^-]+) ( -py(?P[^-]+) ( -(?P.+) )? )? )? """, re.VERBOSE | re.IGNORECASE, ).match class EntryPoint: """Object representing an advertised importable object""" def __init__( self, name: str, module_name: str, attrs: Iterable[str] = (), extras: Iterable[str] = (), dist: Distribution | None = None, ): if not MODULE(module_name): raise ValueError("Invalid module name", module_name) self.name = name self.module_name = module_name self.attrs = tuple(attrs) self.extras = tuple(extras) self.dist = dist def __str__(self): s = "%s = %s" % (self.name, self.module_name) if self.attrs: s += ':' + '.'.join(self.attrs) if self.extras: s += ' [%s]' % ','.join(self.extras) return s def __repr__(self): return "EntryPoint.parse(%r)" % str(self) @overload def load( self, require: Literal[True] = True, env: Environment | None = None, installer: _InstallerType | None = None, ) -> _ResolvedEntryPoint: ... @overload def load( self, require: Literal[False], *args: Any, **kwargs: Any, ) -> _ResolvedEntryPoint: ... def load( self, require: bool = True, *args: Environment | _InstallerType | None, **kwargs: Environment | _InstallerType | None, ) -> _ResolvedEntryPoint: """ Require packages for this EntryPoint, then resolve it. """ if not require or args or kwargs: warnings.warn( "Parameters to load are deprecated. Call .resolve and " ".require separately.", PkgResourcesDeprecationWarning, stacklevel=2, ) if require: # We could pass `env` and `installer` directly, # but keeping `*args` and `**kwargs` for backwards compatibility self.require(*args, **kwargs) # type: ignore return self.resolve() def resolve(self) -> _ResolvedEntryPoint: """ Resolve the entry point from its module and attrs. """ module = __import__(self.module_name, fromlist=['__name__'], level=0) try: return functools.reduce(getattr, self.attrs, module) except AttributeError as exc: raise ImportError(str(exc)) from exc def require( self, env: Environment | None = None, installer: _InstallerType | None = None, ): if not self.dist: error_cls = UnknownExtra if self.extras else AttributeError raise error_cls("Can't require() without a distribution", self) # Get the requirements for this entry point with all its extras and # then resolve them. We have to pass `extras` along when resolving so # that the working set knows what extras we want. Otherwise, for # dist-info distributions, the working set will assume that the # requirements for that extra are purely optional and skip over them. reqs = self.dist.requires(self.extras) items = working_set.resolve(reqs, env, installer, extras=self.extras) list(map(working_set.add, items)) pattern = re.compile( r'\s*' r'(?P.+?)\s*' r'=\s*' r'(?P[\w.]+)\s*' r'(:\s*(?P[\w.]+))?\s*' r'(?P\[.*\])?\s*$' ) @classmethod def parse(cls, src: str, dist: Distribution | None = None): """Parse a single entry point from string `src` Entry point syntax follows the form:: name = some.module:some.attr [extra1, extra2] The entry name and module name are required, but the ``:attrs`` and ``[extras]`` parts are optional """ m = cls.pattern.match(src) if not m: msg = "EntryPoint must be in 'name=module:attrs [extras]' format" raise ValueError(msg, src) res = m.groupdict() extras = cls._parse_extras(res['extras']) attrs = res['attr'].split('.') if res['attr'] else () return cls(res['name'], res['module'], attrs, extras, dist) @classmethod def _parse_extras(cls, extras_spec): if not extras_spec: return () req = Requirement.parse('x' + extras_spec) if req.specs: raise ValueError return req.extras @classmethod def parse_group( cls, group: str, lines: _NestedStr, dist: Distribution | None = None, ): """Parse an entry point group""" if not MODULE(group): raise ValueError("Invalid group name", group) this: dict[str, Self] = {} for line in yield_lines(lines): ep = cls.parse(line, dist) if ep.name in this: raise ValueError("Duplicate entry point", group, ep.name) this[ep.name] = ep return this @classmethod def parse_map( cls, data: str | Iterable[str] | dict[str, str | Iterable[str]], dist: Distribution | None = None, ): """Parse a map of entry point groups""" _data: Iterable[tuple[str | None, str | Iterable[str]]] if isinstance(data, dict): _data = data.items() else: _data = split_sections(data) maps: dict[str, dict[str, Self]] = {} for group, lines in _data: if group is None: if not lines: continue raise ValueError("Entry points must be listed in groups") group = group.strip() if group in maps: raise ValueError("Duplicate group name", group) maps[group] = cls.parse_group(group, lines, dist) return maps def _version_from_file(lines): """ Given an iterable of lines from a Metadata file, return the value of the Version field, if present, or None otherwise. """ def is_version_line(line): return line.lower().startswith('version:') version_lines = filter(is_version_line, lines) line = next(iter(version_lines), '') _, _, value = line.partition(':') return safe_version(value.strip()) or None class Distribution: """Wrap an actual or potential sys.path entry w/metadata""" PKG_INFO = 'PKG-INFO' def __init__( self, location: str | None = None, metadata: _MetadataType = None, project_name: str | None = None, version: str | None = None, py_version: str | None = PY_MAJOR, platform: str | None = None, precedence: int = EGG_DIST, ): self.project_name = safe_name(project_name or 'Unknown') if version is not None: self._version = safe_version(version) self.py_version = py_version self.platform = platform self.location = location self.precedence = precedence self._provider = metadata or empty_provider @classmethod def from_location( cls, location: str, basename: StrPath, metadata: _MetadataType = None, **kw: int, # We could set `precedence` explicitly, but keeping this as `**kw` for full backwards and subclassing compatibility ) -> Distribution: project_name, version, py_version, platform = [None] * 4 basename, ext = os.path.splitext(basename) if ext.lower() in _distributionImpl: cls = _distributionImpl[ext.lower()] match = EGG_NAME(basename) if match: project_name, version, py_version, platform = match.group( 'name', 'ver', 'pyver', 'plat' ) return cls( location, metadata, project_name=project_name, version=version, py_version=py_version, platform=platform, **kw, )._reload_version() def _reload_version(self): return self @property def hashcmp(self): return ( self._forgiving_parsed_version, self.precedence, self.key, self.location, self.py_version or '', self.platform or '', ) def __hash__(self): return hash(self.hashcmp) def __lt__(self, other: Distribution): return self.hashcmp < other.hashcmp def __le__(self, other: Distribution): return self.hashcmp <= other.hashcmp def __gt__(self, other: Distribution): return self.hashcmp > other.hashcmp def __ge__(self, other: Distribution): return self.hashcmp >= other.hashcmp def __eq__(self, other: object): if not isinstance(other, self.__class__): # It's not a Distribution, so they are not equal return False return self.hashcmp == other.hashcmp def __ne__(self, other: object): return not self == other # These properties have to be lazy so that we don't have to load any # metadata until/unless it's actually needed. (i.e., some distributions # may not know their name or version without loading PKG-INFO) @property def key(self): try: return self._key except AttributeError: self._key = key = self.project_name.lower() return key @property def parsed_version(self): if not hasattr(self, "_parsed_version"): try: self._parsed_version = parse_version(self.version) except _packaging_version.InvalidVersion as ex: info = f"(package: {self.project_name})" if hasattr(ex, "add_note"): ex.add_note(info) # PEP 678 raise raise _packaging_version.InvalidVersion(f"{str(ex)} {info}") from None return self._parsed_version @property def _forgiving_parsed_version(self): try: return self.parsed_version except _packaging_version.InvalidVersion as ex: self._parsed_version = parse_version(_forgiving_version(self.version)) notes = "\n".join(getattr(ex, "__notes__", [])) # PEP 678 msg = f"""!!\n\n ************************************************************************* {str(ex)}\n{notes} This is a long overdue deprecation. For the time being, `pkg_resources` will use `{self._parsed_version}` as a replacement to avoid breaking existing environments, but no future compatibility is guaranteed. If you maintain package {self.project_name} you should implement the relevant changes to adequate the project to PEP 440 immediately. ************************************************************************* \n\n!! """ warnings.warn(msg, DeprecationWarning) return self._parsed_version @property def version(self): try: return self._version except AttributeError as e: version = self._get_version() if version is None: path = self._get_metadata_path_for_display(self.PKG_INFO) msg = ("Missing 'Version:' header and/or {} file at path: {}").format( self.PKG_INFO, path ) raise ValueError(msg, self) from e return version @property def _dep_map(self): """ A map of extra to its list of (direct) requirements for this distribution, including the null extra. """ try: return self.__dep_map except AttributeError: self.__dep_map = self._filter_extras(self._build_dep_map()) return self.__dep_map @staticmethod def _filter_extras(dm: dict[str | None, list[Requirement]]): """ Given a mapping of extras to dependencies, strip off environment markers and filter out any dependencies not matching the markers. """ for extra in list(filter(None, dm)): new_extra: str | None = extra reqs = dm.pop(extra) new_extra, _, marker = extra.partition(':') fails_marker = marker and ( invalid_marker(marker) or not evaluate_marker(marker) ) if fails_marker: reqs = [] new_extra = safe_extra(new_extra) or None dm.setdefault(new_extra, []).extend(reqs) return dm def _build_dep_map(self): dm = {} for name in 'requires.txt', 'depends.txt': for extra, reqs in split_sections(self._get_metadata(name)): dm.setdefault(extra, []).extend(parse_requirements(reqs)) return dm def requires(self, extras: Iterable[str] = ()): """List of Requirements needed for this distro if `extras` are used""" dm = self._dep_map deps: list[Requirement] = [] deps.extend(dm.get(None, ())) for ext in extras: try: deps.extend(dm[safe_extra(ext)]) except KeyError as e: raise UnknownExtra( "%s has no such extra feature %r" % (self, ext) ) from e return deps def _get_metadata_path_for_display(self, name): """ Return the path to the given metadata file, if available. """ try: # We need to access _get_metadata_path() on the provider object # directly rather than through this class's __getattr__() # since _get_metadata_path() is marked private. path = self._provider._get_metadata_path(name) # Handle exceptions e.g. in case the distribution's metadata # provider doesn't support _get_metadata_path(). except Exception: return '[could not detect]' return path def _get_metadata(self, name): if self.has_metadata(name): yield from self.get_metadata_lines(name) def _get_version(self): lines = self._get_metadata(self.PKG_INFO) return _version_from_file(lines) def activate(self, path: list[str] | None = None, replace: bool = False): """Ensure distribution is importable on `path` (default=sys.path)""" if path is None: path = sys.path self.insert_on(path, replace=replace) if path is sys.path and self.location is not None: fixup_namespace_packages(self.location) for pkg in self._get_metadata('namespace_packages.txt'): if pkg in sys.modules: declare_namespace(pkg) def egg_name(self): """Return what this distribution's standard .egg filename should be""" filename = "%s-%s-py%s" % ( to_filename(self.project_name), to_filename(self.version), self.py_version or PY_MAJOR, ) if self.platform: filename += '-' + self.platform return filename def __repr__(self): if self.location: return "%s (%s)" % (self, self.location) else: return str(self) def __str__(self): try: version = getattr(self, 'version', None) except ValueError: version = None version = version or "[unknown version]" return "%s %s" % (self.project_name, version) def __getattr__(self, attr): """Delegate all unrecognized public attributes to .metadata provider""" if attr.startswith('_'): raise AttributeError(attr) return getattr(self._provider, attr) def __dir__(self): return list( set(super().__dir__()) | set(attr for attr in self._provider.__dir__() if not attr.startswith('_')) ) @classmethod def from_filename( cls, filename: StrPath, metadata: _MetadataType = None, **kw: int, # We could set `precedence` explicitly, but keeping this as `**kw` for full backwards and subclassing compatibility ): return cls.from_location( _normalize_cached(filename), os.path.basename(filename), metadata, **kw ) def as_requirement(self): """Return a ``Requirement`` that matches this distribution exactly""" if isinstance(self.parsed_version, _packaging_version.Version): spec = "%s==%s" % (self.project_name, self.parsed_version) else: spec = "%s===%s" % (self.project_name, self.parsed_version) return Requirement.parse(spec) def load_entry_point(self, group: str, name: str) -> _ResolvedEntryPoint: """Return the `name` entry point of `group` or raise ImportError""" ep = self.get_entry_info(group, name) if ep is None: raise ImportError("Entry point %r not found" % ((group, name),)) return ep.load() @overload def get_entry_map(self, group: None = None) -> dict[str, dict[str, EntryPoint]]: ... @overload def get_entry_map(self, group: str) -> dict[str, EntryPoint]: ... def get_entry_map(self, group: str | None = None): """Return the entry point map for `group`, or the full entry map""" if not hasattr(self, "_ep_map"): self._ep_map = EntryPoint.parse_map( self._get_metadata('entry_points.txt'), self ) if group is not None: return self._ep_map.get(group, {}) return self._ep_map def get_entry_info(self, group: str, name: str): """Return the EntryPoint object for `group`+`name`, or ``None``""" return self.get_entry_map(group).get(name) # FIXME: 'Distribution.insert_on' is too complex (13) def insert_on( # noqa: C901 self, path: list[str], loc=None, replace: bool = False, ): """Ensure self.location is on path If replace=False (default): - If location is already in path anywhere, do nothing. - Else: - If it's an egg and its parent directory is on path, insert just ahead of the parent. - Else: add to the end of path. If replace=True: - If location is already on path anywhere (not eggs) or higher priority than its parent (eggs) do nothing. - Else: - If it's an egg and its parent directory is on path, insert just ahead of the parent, removing any lower-priority entries. - Else: add it to the front of path. """ loc = loc or self.location if not loc: return nloc = _normalize_cached(loc) bdir = os.path.dirname(nloc) npath = [(p and _normalize_cached(p) or p) for p in path] for p, item in enumerate(npath): if item == nloc: if replace: break else: # don't modify path (even removing duplicates) if # found and not replace return elif item == bdir and self.precedence == EGG_DIST: # if it's an .egg, give it precedence over its directory # UNLESS it's already been added to sys.path and replace=False if (not replace) and nloc in npath[p:]: return if path is sys.path: self.check_version_conflict() path.insert(p, loc) npath.insert(p, nloc) break else: if path is sys.path: self.check_version_conflict() if replace: path.insert(0, loc) else: path.append(loc) return # p is the spot where we found or inserted loc; now remove duplicates while True: try: np = npath.index(nloc, p + 1) except ValueError: break else: del npath[np], path[np] # ha! p = np return def check_version_conflict(self): if self.key == 'setuptools': # ignore the inevitable setuptools self-conflicts :( return nsp = dict.fromkeys(self._get_metadata('namespace_packages.txt')) loc = normalize_path(self.location) for modname in self._get_metadata('top_level.txt'): if ( modname not in sys.modules or modname in nsp or modname in _namespace_packages ): continue if modname in ('pkg_resources', 'setuptools', 'site'): continue fn = getattr(sys.modules[modname], '__file__', None) if fn and ( normalize_path(fn).startswith(loc) or fn.startswith(self.location) ): continue issue_warning( "Module %s was already imported from %s, but %s is being added" " to sys.path" % (modname, fn, self.location), ) def has_version(self): try: self.version except ValueError: issue_warning("Unbuilt egg for " + repr(self)) return False except SystemError: # TODO: remove this except clause when python/cpython#103632 is fixed. return False return True def clone(self, **kw: str | int | IResourceProvider | None): """Copy this distribution, substituting in any changed keyword args""" names = 'project_name version py_version platform location precedence' for attr in names.split(): kw.setdefault(attr, getattr(self, attr, None)) kw.setdefault('metadata', self._provider) # Unsafely unpacking. But keeping **kw for backwards and subclassing compatibility return self.__class__(**kw) # type:ignore[arg-type] @property def extras(self): return [dep for dep in self._dep_map if dep] class EggInfoDistribution(Distribution): def _reload_version(self): """ Packages installed by distutils (e.g. numpy or scipy), which uses an old safe_version, and so their version numbers can get mangled when converted to filenames (e.g., 1.11.0.dev0+2329eae to 1.11.0.dev0_2329eae). These distributions will not be parsed properly downstream by Distribution and safe_version, so take an extra step and try to get the version number from the metadata file itself instead of the filename. """ md_version = self._get_version() if md_version: self._version = md_version return self class DistInfoDistribution(Distribution): """ Wrap an actual or potential sys.path entry w/metadata, .dist-info style. """ PKG_INFO = 'METADATA' EQEQ = re.compile(r"([\(,])\s*(\d.*?)\s*([,\)])") @property def _parsed_pkg_info(self): """Parse and cache metadata""" try: return self._pkg_info except AttributeError: metadata = self.get_metadata(self.PKG_INFO) self._pkg_info = email.parser.Parser().parsestr(metadata) return self._pkg_info @property def _dep_map(self): try: return self.__dep_map except AttributeError: self.__dep_map = self._compute_dependencies() return self.__dep_map def _compute_dependencies(self) -> dict[str | None, list[Requirement]]: """Recompute this distribution's dependencies.""" self.__dep_map: dict[str | None, list[Requirement]] = {None: []} reqs: list[Requirement] = [] # Including any condition expressions for req in self._parsed_pkg_info.get_all('Requires-Dist') or []: reqs.extend(parse_requirements(req)) def reqs_for_extra(extra): for req in reqs: if not req.marker or req.marker.evaluate({'extra': extra}): yield req common = types.MappingProxyType(dict.fromkeys(reqs_for_extra(None))) self.__dep_map[None].extend(common) for extra in self._parsed_pkg_info.get_all('Provides-Extra') or []: s_extra = safe_extra(extra.strip()) self.__dep_map[s_extra] = [ r for r in reqs_for_extra(extra) if r not in common ] return self.__dep_map _distributionImpl = { '.egg': Distribution, '.egg-info': EggInfoDistribution, '.dist-info': DistInfoDistribution, } def issue_warning(*args, **kw): level = 1 g = globals() try: # find the first stack frame that is *not* code in # the pkg_resources module, to use for the warning while sys._getframe(level).f_globals is g: level += 1 except ValueError: pass warnings.warn(stacklevel=level + 1, *args, **kw) def parse_requirements(strs: _NestedStr): """ Yield ``Requirement`` objects for each specification in `strs`. `strs` must be a string, or a (possibly-nested) iterable thereof. """ return map(Requirement, join_continuation(map(drop_comment, yield_lines(strs)))) class RequirementParseError(_packaging_requirements.InvalidRequirement): "Compatibility wrapper for InvalidRequirement" class Requirement(_packaging_requirements.Requirement): def __init__(self, requirement_string: str): """DO NOT CALL THIS UNDOCUMENTED METHOD; use Requirement.parse()!""" super().__init__(requirement_string) self.unsafe_name = self.name project_name = safe_name(self.name) self.project_name, self.key = project_name, project_name.lower() self.specs = [(spec.operator, spec.version) for spec in self.specifier] # packaging.requirements.Requirement uses a set for its extras. We use a variable-length tuple self.extras: tuple[str] = tuple(map(safe_extra, self.extras)) self.hashCmp = ( self.key, self.url, self.specifier, frozenset(self.extras), str(self.marker) if self.marker else None, ) self.__hash = hash(self.hashCmp) def __eq__(self, other: object): return isinstance(other, Requirement) and self.hashCmp == other.hashCmp def __ne__(self, other): return not self == other def __contains__(self, item: Distribution | str | tuple[str, ...]) -> bool: if isinstance(item, Distribution): if item.key != self.key: return False item = item.version # Allow prereleases always in order to match the previous behavior of # this method. In the future this should be smarter and follow PEP 440 # more accurately. return self.specifier.contains(item, prereleases=True) def __hash__(self): return self.__hash def __repr__(self): return "Requirement.parse(%r)" % str(self) @staticmethod def parse(s: str | Iterable[str]): (req,) = parse_requirements(s) return req def _always_object(classes): """ Ensure object appears in the mro even for old-style classes. """ if object not in classes: return classes + (object,) return classes def _find_adapter(registry: Mapping[type, _AdapterT], ob: object) -> _AdapterT: """Return an adapter factory for `ob` from `registry`""" types = _always_object(inspect.getmro(getattr(ob, '__class__', type(ob)))) for t in types: if t in registry: return registry[t] # _find_adapter would previously return None, and immediately be called. # So we're raising a TypeError to keep backward compatibility if anyone depended on that behaviour. raise TypeError(f"Could not find adapter for {registry} and {ob}") def ensure_directory(path: StrOrBytesPath): """Ensure that the parent directory of `path` exists""" dirname = os.path.dirname(path) os.makedirs(dirname, exist_ok=True) def _bypass_ensure_directory(path): """Sandbox-bypassing version of ensure_directory()""" if not WRITE_SUPPORT: raise OSError('"os.mkdir" not supported on this platform.') dirname, filename = split(path) if dirname and filename and not isdir(dirname): _bypass_ensure_directory(dirname) try: mkdir(dirname, 0o755) except FileExistsError: pass def split_sections(s: _NestedStr) -> Iterator[tuple[str | None, list[str]]]: """Split a string or iterable thereof into (section, content) pairs Each ``section`` is a stripped version of the section header ("[section]") and each ``content`` is a list of stripped lines excluding blank lines and comment-only lines. If there are any such lines before the first section header, they're returned in a first ``section`` of ``None``. """ section = None content = [] for line in yield_lines(s): if line.startswith("["): if line.endswith("]"): if section or content: yield section, content section = line[1:-1].strip() content = [] else: raise ValueError("Invalid section heading", line) else: content.append(line) # wrap up last segment yield section, content def _mkstemp(*args, **kw): old_open = os.open try: # temporarily bypass sandboxing os.open = os_open return tempfile.mkstemp(*args, **kw) finally: # and then put it back os.open = old_open # Silence the PEP440Warning by default, so that end users don't get hit by it # randomly just because they use pkg_resources. We want to append the rule # because we want earlier uses of filterwarnings to take precedence over this # one. warnings.filterwarnings("ignore", category=PEP440Warning, append=True) class PkgResourcesDeprecationWarning(Warning): """ Base class for warning about deprecations in ``pkg_resources`` This class is not derived from ``DeprecationWarning``, and as such is visible by default. """ # Ported from ``setuptools`` to avoid introducing an import inter-dependency: _LOCALE_ENCODING = "locale" if sys.version_info >= (3, 10) else None def _read_utf8_with_fallback(file: str, fallback_encoding=_LOCALE_ENCODING) -> str: """See setuptools.unicode_utils._read_utf8_with_fallback""" try: with open(file, "r", encoding="utf-8") as f: return f.read() except UnicodeDecodeError: # pragma: no cover msg = f"""\ ******************************************************************************** `encoding="utf-8"` fails with {file!r}, trying `encoding={fallback_encoding!r}`. This fallback behaviour is considered **deprecated** and future versions of `setuptools/pkg_resources` may not implement it. Please encode {file!r} with "utf-8" to ensure future builds will succeed. If this file was produced by `setuptools` itself, cleaning up the cached files and re-building/re-installing the package with a newer version of `setuptools` (e.g. by updating `build-system.requires` in its `pyproject.toml`) might solve the problem. ******************************************************************************** """ # TODO: Add a deadline? # See comment in setuptools.unicode_utils._Utf8EncodingNeeded warnings.warn(msg, PkgResourcesDeprecationWarning, stacklevel=2) with open(file, "r", encoding=fallback_encoding) as f: return f.read() # from jaraco.functools 1.3 def _call_aside(f, *args, **kwargs): f(*args, **kwargs) return f @_call_aside def _initialize(g=globals()): "Set up global resource manager (deliberately not state-saved)" manager = ResourceManager() g['_manager'] = manager g.update( (name, getattr(manager, name)) for name in dir(manager) if not name.startswith('_') ) @_call_aside def _initialize_master_working_set(): """ Prepare the master working set and make the ``require()`` API available. This function has explicit effects on the global state of pkg_resources. It is intended to be invoked once at the initialization of this module. Invocation by other packages is unsupported and done at their own risk. """ working_set = _declare_state('object', 'working_set', WorkingSet._build_master()) require = working_set.require iter_entry_points = working_set.iter_entry_points add_activation_listener = working_set.subscribe run_script = working_set.run_script # backward compatibility run_main = run_script # Activate all distributions already on sys.path with replace=False and # ensure that all distributions added to the working set in the future # (e.g. by calling ``require()``) will get activated as well, # with higher priority (replace=True). tuple(dist.activate(replace=False) for dist in working_set) add_activation_listener( lambda dist: dist.activate(replace=True), existing=False, ) working_set.entries = [] # match order list(map(working_set.add_entry, sys.path)) globals().update(locals()) if TYPE_CHECKING: # All of these are set by the @_call_aside methods above __resource_manager = ResourceManager() # Won't exist at runtime resource_exists = __resource_manager.resource_exists resource_isdir = __resource_manager.resource_isdir resource_filename = __resource_manager.resource_filename resource_stream = __resource_manager.resource_stream resource_string = __resource_manager.resource_string resource_listdir = __resource_manager.resource_listdir set_extraction_path = __resource_manager.set_extraction_path cleanup_resources = __resource_manager.cleanup_resources working_set = WorkingSet() require = working_set.require iter_entry_points = working_set.iter_entry_points add_activation_listener = working_set.subscribe run_script = working_set.run_script run_main = run_script