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import itertools import operator from pip._vendor.six.moves import collections_abc # type: ignore from pip._internal.utils.compat import lru_cache from pip._internal.utils.typing import MYPY_CHECK_RUNNING if MYPY_CHECK_RUNNING: from typing import Callable, Iterator, Optional, Set from pip._vendor.packaging.version import _BaseVersion from .base import Candidate def _deduplicated_by_version(candidates): # type: (Iterator[Candidate]) -> Iterator[Candidate] returned = set() # type: Set[_BaseVersion] for candidate in candidates: if candidate.version in returned: continue returned.add(candidate.version) yield candidate def _insert_installed(installed, others): # type: (Candidate, Iterator[Candidate]) -> Iterator[Candidate] """Iterator for ``FoundCandidates``. This iterator is used when the resolver prefers to upgrade an already-installed package. Candidates from index are returned in their normal ordering, except replaced when the version is already installed. Since candidates from index are already sorted by reverse version order, `sorted()` here would keep the ordering mostly intact, only shuffling the already-installed candidate into the correct position. We put the already- installed candidate in front of those from the index, so it's put in front after sorting due to Python sorting's stableness guarentee. """ candidates = sorted( itertools.chain([installed], others), key=operator.attrgetter("version"), reverse=True, ) return iter(candidates) class FoundCandidates(collections_abc.Sequence): """A lazy sequence to provide candidates to the resolver. The intended usage is to return this from `find_matches()` so the resolver can iterate through the sequence multiple times, but only access the index page when remote packages are actually needed. This improve performances when suitable candidates are already installed on disk. """ def __init__( self, get_others, # type: Callable[[], Iterator[Candidate]] installed, # type: Optional[Candidate] prefers_installed, # type: bool ): self._get_others = get_others self._installed = installed self._prefers_installed = prefers_installed def __getitem__(self, index): # type: (int) -> Candidate # Implemented to satisfy the ABC check. This is not needed by the # resolver, and should not be used by the provider either (for # performance reasons). raise NotImplementedError("don't do this") def __iter__(self): # type: () -> Iterator[Candidate] if not self._installed: candidates = self._get_others() elif self._prefers_installed: candidates = itertools.chain([self._installed], self._get_others()) else: candidates = _insert_installed(self._installed, self._get_others()) return _deduplicated_by_version(candidates) def __len__(self): # type: () -> int # Implemented to satisfy the ABC check. This is not needed by the # resolver, and should not be used by the provider either (for # performance reasons). raise NotImplementedError("don't do this") @lru_cache(maxsize=1) def __bool__(self): # type: () -> bool if self._prefers_installed and self._installed: return True return any(self) __nonzero__ = __bool__ # XXX: Python 2.