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pip
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pkg_resources.py
import email.message import email.parser import logging import os import zipfile from typing import ( Collection, Iterable, Iterator, List, Mapping, NamedTuple, Optional, ) from pip._vendor import pkg_resources from pip._vendor.packaging.requirements import Requirement from pip._vendor.packaging.utils import NormalizedName, canonicalize_name from pip._vendor.packaging.version import Version from pip._vendor.packaging.version import parse as parse_version from pip._internal.exceptions import InvalidWheel, NoneMetadataError, UnsupportedWheel from pip._internal.utils.egg_link import egg_link_path_from_location from pip._internal.utils.misc import display_path, normalize_path from pip._internal.utils.wheel import parse_wheel, read_wheel_metadata_file from .base import ( BaseDistribution, BaseEntryPoint, BaseEnvironment, InfoPath, Wheel, ) __all__ = ["NAME", "Distribution", "Environment"] logger = logging.getLogger(__name__) NAME = "pkg_resources" class EntryPoint(NamedTuple): name: str value: str group: str class InMemoryMetadata: """IMetadataProvider that reads metadata files from a dictionary. This also maps metadata decoding exceptions to our internal exception type. """ def __init__(self, metadata: Mapping[str, bytes], wheel_name: str) -> None: self._metadata = metadata self._wheel_name = wheel_name def has_metadata(self, name: str) -> bool: return name in self._metadata def get_metadata(self, name: str) -> str: try: return self._metadata[name].decode() except UnicodeDecodeError as e: # Augment the default error with the origin of the file. raise UnsupportedWheel( f"Error decoding metadata for {self._wheel_name}: {e} in {name} file" ) def get_metadata_lines(self, name: str) -> Iterable[str]: return pkg_resources.yield_lines(self.get_metadata(name)) def metadata_isdir(self, name: str) -> bool: return False def metadata_listdir(self, name: str) -> List[str]: return [] def run_script(self, script_name: str, namespace: str) -> None: pass class Distribution(BaseDistribution): def __init__(self, dist: pkg_resources.Distribution) -> None: self._dist = dist # This is populated lazily, to avoid loading metadata for all possible # distributions eagerly. self.__extra_mapping: Optional[Mapping[NormalizedName, str]] = None @property def _extra_mapping(self) -> Mapping[NormalizedName, str]: if self.__extra_mapping is None: self.__extra_mapping = { canonicalize_name(extra): extra for extra in self._dist.extras } return self.__extra_mapping @classmethod def from_directory(cls, directory: str) -> BaseDistribution: dist_dir = directory.rstrip(os.sep) # Build a PathMetadata object, from path to metadata. :wink: base_dir, dist_dir_name = os.path.split(dist_dir) metadata = pkg_resources.PathMetadata(base_dir, dist_dir) # Determine the correct Distribution object type. if dist_dir.endswith(".egg-info"): dist_cls = pkg_resources.Distribution dist_name = os.path.splitext(dist_dir_name)[0] else: assert dist_dir.endswith(".dist-info") dist_cls = pkg_resources.DistInfoDistribution dist_name = os.path.splitext(dist_dir_name)[0].split("-")[0] dist = dist_cls(base_dir, project_name=dist_name, metadata=metadata) return cls(dist) @classmethod def from_metadata_file_contents( cls, metadata_contents: bytes, filename: str, project_name: str, ) -> BaseDistribution: metadata_dict = { "METADATA": metadata_contents, } dist = pkg_resources.DistInfoDistribution( location=filename, metadata=InMemoryMetadata(metadata_dict, filename), project_name=project_name, ) return cls(dist) @classmethod def from_wheel(cls, wheel: Wheel, name: str) -> BaseDistribution: try: with wheel.as_zipfile() as zf: info_dir, _ = parse_wheel(zf, name) metadata_dict = { path.split("/", 1)[-1]: read_wheel_metadata_file(zf, path) for path in zf.namelist() if path.startswith(f"{info_dir}/") } except zipfile.BadZipFile as e: raise InvalidWheel(wheel.location, name) from e except UnsupportedWheel as e: raise UnsupportedWheel(f"{name} has an invalid wheel, {e}") dist = pkg_resources.DistInfoDistribution( location=wheel.location, metadata=InMemoryMetadata(metadata_dict, wheel.location), project_name=name, ) return cls(dist) @property def location(self) -> Optional[str]: return self._dist.location @property def installed_location(self) -> Optional[str]: egg_link = egg_link_path_from_location(self.raw_name) if egg_link: location = egg_link elif self.location: location = self.location else: return None return normalize_path(location) @property def info_location(self) -> Optional[str]: return self._dist.egg_info @property def installed_by_distutils(self) -> bool: # A distutils-installed distribution is provided by FileMetadata. This # provider has a "path" attribute not present anywhere else. Not the # best introspection logic, but pip has been doing this for a long time. try: return bool(self._dist._provider.path) except AttributeError: return False @property def canonical_name(self) -> NormalizedName: return canonicalize_name(self._dist.project_name) @property def version(self) -> Version: return parse_version(self._dist.version) @property def raw_version(self) -> str: return self._dist.version def is_file(self, path: InfoPath) -> bool: return self._dist.has_metadata(str(path)) def iter_distutils_script_names(self) -> Iterator[str]: yield from self._dist.metadata_listdir("scripts") def read_text(self, path: InfoPath) -> str: name = str(path) if not self._dist.has_metadata(name): raise FileNotFoundError(name) content = self._dist.get_metadata(name) if content is None: raise NoneMetadataError(self, name) return content def iter_entry_points(self) -> Iterable[BaseEntryPoint]: for group, entries in self._dist.get_entry_map().items(): for name, entry_point in entries.items(): name, _, value = str(entry_point).partition("=") yield EntryPoint(name=name.strip(), value=value.strip(), group=group) def _metadata_impl(self) -> email.message.Message: """ :raises NoneMetadataError: if the distribution reports `has_metadata()` True but `get_metadata()` returns None. """ if isinstance(self._dist, pkg_resources.DistInfoDistribution): metadata_name = "METADATA" else: metadata_name = "PKG-INFO" try: metadata = self.read_text(metadata_name) except FileNotFoundError: if self.location: displaying_path = display_path(self.location) else: displaying_path = repr(self.location) logger.warning("No metadata found in %s", displaying_path) metadata = "" feed_parser = email.parser.FeedParser() feed_parser.feed(metadata) return feed_parser.close() def iter_dependencies(self, extras: Collection[str] = ()) -> Iterable[Requirement]: if extras: relevant_extras = set(self._extra_mapping) & set( map(canonicalize_name, extras) ) extras = [self._extra_mapping[extra] for extra in relevant_extras] return self._dist.requires(extras) def iter_provided_extras(self) -> Iterable[NormalizedName]: return self._extra_mapping.keys() class Environment(BaseEnvironment): def __init__(self, ws: pkg_resources.WorkingSet) -> None: self._ws = ws @classmethod def default(cls) -> BaseEnvironment: return cls(pkg_resources.working_set) @classmethod def from_paths(cls, paths: Optional[List[str]]) -> BaseEnvironment: return cls(pkg_resources.WorkingSet(paths)) def _iter_distributions(self) -> Iterator[BaseDistribution]: for dist in self._ws: yield Distribution(dist) def _search_distribution(self, name: str) -> Optional[BaseDistribution]: """Find a distribution matching the ``name`` in the environment. This searches from *all* distributions available in the environment, to match the behavior of ``pkg_resources.get_distribution()``. """ canonical_name = canonicalize_name(name) for dist in self.iter_all_distributions(): if dist.canonical_name == canonical_name: return dist return None def get_distribution(self, name: str) -> Optional[BaseDistribution]: # Search the distribution by looking through the working set. dist = self._search_distribution(name) if dist: return dist # If distribution could not be found, call working_set.require to # update the working set, and try to find the distribution again. # This might happen for e.g. when you install a package twice, once # using setup.py develop and again using setup.py install. Now when # running pip uninstall twice, the package gets removed from the # working set in the first uninstall, so we have to populate the # working set again so that pip knows about it and the packages gets # picked up and is successfully uninstalled the second time too. try: # We didn't pass in any version specifiers, so this can never # raise pkg_resources.VersionConflict. self._ws.require(name) except pkg_resources.DistributionNotFound: return None return self._search_distribution(name)
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