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Enso-Bot/venv/Lib/site-packages/pip/_internal/resolution/resolvelib/resolver.py

175 lines
6.5 KiB
Python

5 years ago
import functools
import logging
from pip._vendor import six
from pip._vendor.packaging.utils import canonicalize_name
from pip._vendor.resolvelib import BaseReporter, ResolutionImpossible
from pip._vendor.resolvelib import Resolver as RLResolver
from pip._internal.exceptions import InstallationError
from pip._internal.req.req_set import RequirementSet
from pip._internal.resolution.base import BaseResolver
from pip._internal.resolution.resolvelib.provider import PipProvider
from pip._internal.utils.typing import MYPY_CHECK_RUNNING
from .factory import Factory
if MYPY_CHECK_RUNNING:
from typing import Dict, List, Optional, Tuple
from pip._vendor.resolvelib.resolvers import Result
from pip._internal.cache import WheelCache
from pip._internal.index.package_finder import PackageFinder
from pip._internal.operations.prepare import RequirementPreparer
from pip._internal.req.req_install import InstallRequirement
from pip._internal.resolution.base import InstallRequirementProvider
logger = logging.getLogger(__name__)
class Resolver(BaseResolver):
def __init__(
self,
preparer, # type: RequirementPreparer
finder, # type: PackageFinder
wheel_cache, # type: Optional[WheelCache]
make_install_req, # type: InstallRequirementProvider
use_user_site, # type: bool
ignore_dependencies, # type: bool
ignore_installed, # type: bool
ignore_requires_python, # type: bool
force_reinstall, # type: bool
upgrade_strategy, # type: str
py_version_info=None, # type: Optional[Tuple[int, ...]]
):
super(Resolver, self).__init__()
self.factory = Factory(
finder=finder,
preparer=preparer,
make_install_req=make_install_req,
force_reinstall=force_reinstall,
ignore_installed=ignore_installed,
ignore_requires_python=ignore_requires_python,
py_version_info=py_version_info,
)
self.ignore_dependencies = ignore_dependencies
self._result = None # type: Optional[Result]
def resolve(self, root_reqs, check_supported_wheels):
# type: (List[InstallRequirement], bool) -> RequirementSet
# FIXME: Implement constraints.
if any(r.constraint for r in root_reqs):
raise InstallationError("Constraints are not yet supported.")
provider = PipProvider(
factory=self.factory,
ignore_dependencies=self.ignore_dependencies,
)
reporter = BaseReporter()
resolver = RLResolver(provider, reporter)
requirements = [
self.factory.make_requirement_from_install_req(r)
for r in root_reqs
]
try:
self._result = resolver.resolve(requirements)
except ResolutionImpossible as e:
error = self.factory.get_installation_error(e)
if not error:
# TODO: This needs fixing, we need to look at the
# factory.get_installation_error infrastructure, as that
# doesn't really allow for the logger.critical calls I'm
# using here.
for req, parent in e.causes:
logger.critical(
"Could not find a version that satisfies " +
"the requirement " +
str(req) +
("" if parent is None else " (from {})".format(
parent.name
))
)
raise InstallationError(
"No matching distribution found for " +
", ".join([r.name for r, _ in e.causes])
)
raise
six.raise_from(error, e)
req_set = RequirementSet(check_supported_wheels=check_supported_wheels)
for candidate in self._result.mapping.values():
ireq = provider.get_install_requirement(candidate)
if ireq is None:
continue
ireq.should_reinstall = self.factory.should_reinstall(candidate)
req_set.add_named_requirement(ireq)
return req_set
def get_installation_order(self, req_set):
# type: (RequirementSet) -> List[InstallRequirement]
"""Create a list that orders given requirements for installation.
The returned list should contain all requirements in ``req_set``,
so the caller can loop through it and have a requirement installed
before the requiring thing.
The current implementation walks the resolved dependency graph, and
make sure every node has a greater "weight" than all its parents.
"""
assert self._result is not None, "must call resolve() first"
weights = {} # type: Dict[Optional[str], int]
graph = self._result.graph
key_count = len(self._result.mapping) + 1 # Packages plus sentinal.
while len(weights) < key_count:
progressed = False
for key in graph:
if key in weights:
continue
parents = list(graph.iter_parents(key))
if not all(p in weights for p in parents):
continue
if parents:
weight = max(weights[p] for p in parents) + 1
else:
weight = 0
weights[key] = weight
progressed = True
# FIXME: This check will fail if there are unbreakable cycles.
# Implement something to forcifully break them up to continue.
if not progressed:
raise InstallationError(
"Could not determine installation order due to cicular "
"dependency."
)
sorted_items = sorted(
req_set.requirements.items(),
key=functools.partial(_req_set_item_sorter, weights=weights),
reverse=True,
)
return [ireq for _, ireq in sorted_items]
def _req_set_item_sorter(
item, # type: Tuple[str, InstallRequirement]
weights, # type: Dict[Optional[str], int]
):
# type: (...) -> Tuple[int, str]
"""Key function used to sort install requirements for installation.
Based on the "weight" mapping calculated in ``get_installation_order()``.
The canonical package name is returned as the second member as a tie-
breaker to ensure the result is predictable, which is useful in tests.
"""
name = canonicalize_name(item[0])
return weights[name], name