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Current File : /proc/self/root/proc/self/root/proc/thread-self/root/proc/thread-self/root/opt/alt/python39/lib/python3.9/site-packages/pip/_internal/resolution/resolvelib//provider.py
import collections
import math
from typing import TYPE_CHECKING, Dict, Iterable, Iterator, Mapping, Sequence, Union

from pip._vendor.resolvelib.providers import AbstractProvider

from .base import Candidate, Constraint, Requirement
from .candidates import REQUIRES_PYTHON_IDENTIFIER
from .factory import Factory

if TYPE_CHECKING:
    from pip._vendor.resolvelib.providers import Preference
    from pip._vendor.resolvelib.resolvers import RequirementInformation

    PreferenceInformation = RequirementInformation[Requirement, Candidate]

    _ProviderBase = AbstractProvider[Requirement, Candidate, str]
else:
    _ProviderBase = AbstractProvider

# Notes on the relationship between the provider, the factory, and the
# candidate and requirement classes.
#
# The provider is a direct implementation of the resolvelib class. Its role
# is to deliver the API that resolvelib expects.
#
# Rather than work with completely abstract "requirement" and "candidate"
# concepts as resolvelib does, pip has concrete classes implementing these two
# ideas. The API of Requirement and Candidate objects are defined in the base
# classes, but essentially map fairly directly to the equivalent provider
# methods. In particular, `find_matches` and `is_satisfied_by` are
# requirement methods, and `get_dependencies` is a candidate method.
#
# The factory is the interface to pip's internal mechanisms. It is stateless,
# and is created by the resolver and held as a property of the provider. It is
# responsible for creating Requirement and Candidate objects, and provides
# services to those objects (access to pip's finder and preparer).


class PipProvider(_ProviderBase):
    """Pip's provider implementation for resolvelib.

    :params constraints: A mapping of constraints specified by the user. Keys
        are canonicalized project names.
    :params ignore_dependencies: Whether the user specified ``--no-deps``.
    :params upgrade_strategy: The user-specified upgrade strategy.
    :params user_requested: A set of canonicalized package names that the user
        supplied for pip to install/upgrade.
    """

    def __init__(
        self,
        factory: Factory,
        constraints: Dict[str, Constraint],
        ignore_dependencies: bool,
        upgrade_strategy: str,
        user_requested: Dict[str, int],
    ) -> None:
        self._factory = factory
        self._constraints = constraints
        self._ignore_dependencies = ignore_dependencies
        self._upgrade_strategy = upgrade_strategy
        self._user_requested = user_requested
        self._known_depths: Dict[str, float] = collections.defaultdict(lambda: math.inf)

    def identify(self, requirement_or_candidate: Union[Requirement, Candidate]) -> str:
        return requirement_or_candidate.name

    def get_preference(  # type: ignore
        self,
        identifier: str,
        resolutions: Mapping[str, Candidate],
        candidates: Mapping[str, Iterator[Candidate]],
        information: Mapping[str, Iterable["PreferenceInformation"]],
        backtrack_causes: Sequence["PreferenceInformation"],
    ) -> "Preference":
        """Produce a sort key for given requirement based on preference.

        The lower the return value is, the more preferred this group of
        arguments is.

        Currently pip considers the followings in order:

        * Prefer if any of the known requirements is "direct", e.g. points to an
          explicit URL.
        * If equal, prefer if any requirement is "pinned", i.e. contains
          operator ``===`` or ``==``.
        * If equal, calculate an approximate "depth" and resolve requirements
          closer to the user-specified requirements first.
        * Order user-specified requirements by the order they are specified.
        * If equal, prefers "non-free" requirements, i.e. contains at least one
          operator, such as ``>=`` or ``<``.
        * If equal, order alphabetically for consistency (helps debuggability).
        """
        lookups = (r.get_candidate_lookup() for r, _ in information[identifier])
        candidate, ireqs = zip(*lookups)
        operators = [
            specifier.operator
            for specifier_set in (ireq.specifier for ireq in ireqs if ireq)
            for specifier in specifier_set
        ]

        direct = candidate is not None
        pinned = any(op[:2] == "==" for op in operators)
        unfree = bool(operators)

        try:
            requested_order: Union[int, float] = self._user_requested[identifier]
        except KeyError:
            requested_order = math.inf
            parent_depths = (
                self._known_depths[parent.name] if parent is not None else 0.0
                for _, parent in information[identifier]
            )
            inferred_depth = min(d for d in parent_depths) + 1.0
        else:
            inferred_depth = 1.0
        self._known_depths[identifier] = inferred_depth

        requested_order = self._user_requested.get(identifier, math.inf)

        # Requires-Python has only one candidate and the check is basically
        # free, so we always do it first to avoid needless work if it fails.
        requires_python = identifier == REQUIRES_PYTHON_IDENTIFIER

        # HACK: Setuptools have a very long and solid backward compatibility
        # track record, and extremely few projects would request a narrow,
        # non-recent version range of it since that would break a lot things.
        # (Most projects specify it only to request for an installer feature,
        # which does not work, but that's another topic.) Intentionally
        # delaying Setuptools helps reduce branches the resolver has to check.
        # This serves as a temporary fix for issues like "apache-airlfow[all]"
        # while we work on "proper" branch pruning techniques.
        delay_this = identifier == "setuptools"

        # Prefer the causes of backtracking on the assumption that the problem
        # resolving the dependency tree is related to the failures that caused
        # the backtracking
        backtrack_cause = self.is_backtrack_cause(identifier, backtrack_causes)

        return (
            not requires_python,
            delay_this,
            not direct,
            not pinned,
            not backtrack_cause,
            inferred_depth,
            requested_order,
            not unfree,
            identifier,
        )

    def _get_constraint(self, identifier: str) -> Constraint:
        if identifier in self._constraints:
            return self._constraints[identifier]

        # HACK: Theoratically we should check whether this identifier is a valid
        # "NAME[EXTRAS]" format, and parse out the name part with packaging or
        # some regular expression. But since pip's resolver only spits out
        # three kinds of identifiers: normalized PEP 503 names, normalized names
        # plus extras, and Requires-Python, we can cheat a bit here.
        name, open_bracket, _ = identifier.partition("[")
        if open_bracket and name in self._constraints:
            return self._constraints[name]

        return Constraint.empty()

    def find_matches(
        self,
        identifier: str,
        requirements: Mapping[str, Iterator[Requirement]],
        incompatibilities: Mapping[str, Iterator[Candidate]],
    ) -> Iterable[Candidate]:
        def _eligible_for_upgrade(name: str) -> bool:
            """Are upgrades allowed for this project?

            This checks the upgrade strategy, and whether the project was one
            that the user specified in the command line, in order to decide
            whether we should upgrade if there's a newer version available.

            (Note that we don't need access to the `--upgrade` flag, because
            an upgrade strategy of "to-satisfy-only" means that `--upgrade`
            was not specified).
            """
            if self._upgrade_strategy == "eager":
                return True
            elif self._upgrade_strategy == "only-if-needed":
                return name in self._user_requested
            return False

        return self._factory.find_candidates(
            identifier=identifier,
            requirements=requirements,
            constraint=self._get_constraint(identifier),
            prefers_installed=(not _eligible_for_upgrade(identifier)),
            incompatibilities=incompatibilities,
        )

    def is_satisfied_by(self, requirement: Requirement, candidate: Candidate) -> bool:
        return requirement.is_satisfied_by(candidate)

    def get_dependencies(self, candidate: Candidate) -> Sequence[Requirement]:
        with_requires = not self._ignore_dependencies
        return [r for r in candidate.iter_dependencies(with_requires) if r is not None]

    @staticmethod
    def is_backtrack_cause(
        identifier: str, backtrack_causes: Sequence["PreferenceInformation"]
    ) -> bool:
        for backtrack_cause in backtrack_causes:
            if identifier == backtrack_cause.requirement.name:
                return True
            if backtrack_cause.parent and identifier == backtrack_cause.parent.name:
                return True
        return False

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