134 lines
5.7 KiB
Python
134 lines
5.7 KiB
Python
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class AbstractProvider(object):
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"""Delegate class to provide requirement interface for the resolver."""
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def identify(self, requirement_or_candidate):
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"""Given a requirement, return an identifier for it.
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This is used to identify a requirement, e.g. whether two requirements
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should have their specifier parts merged.
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"""
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raise NotImplementedError
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def get_preference(
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self,
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identifier,
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resolutions,
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candidates,
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information,
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backtrack_causes,
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):
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"""Produce a sort key for given requirement based on preference.
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The preference is defined as "I think this requirement should be
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resolved first". The lower the return value is, the more preferred
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this group of arguments is.
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:param identifier: An identifier as returned by ``identify()``. This
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identifies the dependency matches of which should be returned.
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:param resolutions: Mapping of candidates currently pinned by the
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resolver. Each key is an identifier, and the value a candidate.
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The candidate may conflict with requirements from ``information``.
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:param candidates: Mapping of each dependency's possible candidates.
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Each value is an iterator of candidates.
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:param information: Mapping of requirement information of each package.
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Each value is an iterator of *requirement information*.
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:param backtrack_causes: Sequence of requirement information that were
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the requirements that caused the resolver to most recently backtrack.
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A *requirement information* instance is a named tuple with two members:
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* ``requirement`` specifies a requirement contributing to the current
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list of candidates.
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* ``parent`` specifies the candidate that provides (dependend on) the
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requirement, or ``None`` to indicate a root requirement.
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The preference could depend on a various of issues, including (not
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necessarily in this order):
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* Is this package pinned in the current resolution result?
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* How relaxed is the requirement? Stricter ones should probably be
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worked on first? (I don't know, actually.)
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* How many possibilities are there to satisfy this requirement? Those
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with few left should likely be worked on first, I guess?
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* Are there any known conflicts for this requirement? We should
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probably work on those with the most known conflicts.
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A sortable value should be returned (this will be used as the ``key``
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parameter of the built-in sorting function). The smaller the value is,
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the more preferred this requirement is (i.e. the sorting function
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is called with ``reverse=False``).
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"""
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raise NotImplementedError
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def find_matches(self, identifier, requirements, incompatibilities):
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"""Find all possible candidates that satisfy given constraints.
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:param identifier: An identifier as returned by ``identify()``. This
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identifies the dependency matches of which should be returned.
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:param requirements: A mapping of requirements that all returned
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candidates must satisfy. Each key is an identifier, and the value
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an iterator of requirements for that dependency.
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:param incompatibilities: A mapping of known incompatibilities of
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each dependency. Each key is an identifier, and the value an
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iterator of incompatibilities known to the resolver. All
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incompatibilities *must* be excluded from the return value.
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This should try to get candidates based on the requirements' types.
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For VCS, local, and archive requirements, the one-and-only match is
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returned, and for a "named" requirement, the index(es) should be
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consulted to find concrete candidates for this requirement.
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The return value should produce candidates ordered by preference; the
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most preferred candidate should come first. The return type may be one
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of the following:
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* A callable that returns an iterator that yields candidates.
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* An collection of candidates.
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* An iterable of candidates. This will be consumed immediately into a
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list of candidates.
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"""
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raise NotImplementedError
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def is_satisfied_by(self, requirement, candidate):
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"""Whether the given requirement can be satisfied by a candidate.
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The candidate is guarenteed to have been generated from the
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requirement.
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A boolean should be returned to indicate whether ``candidate`` is a
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viable solution to the requirement.
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"""
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raise NotImplementedError
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def get_dependencies(self, candidate):
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"""Get dependencies of a candidate.
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This should return a collection of requirements that `candidate`
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specifies as its dependencies.
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"""
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raise NotImplementedError
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class AbstractResolver(object):
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"""The thing that performs the actual resolution work."""
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base_exception = Exception
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def __init__(self, provider, reporter):
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self.provider = provider
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self.reporter = reporter
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def resolve(self, requirements, **kwargs):
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"""Take a collection of constraints, spit out the resolution result.
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This returns a representation of the final resolution state, with one
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guarenteed attribute ``mapping`` that contains resolved candidates as
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values. The keys are their respective identifiers.
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:param requirements: A collection of constraints.
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:param kwargs: Additional keyword arguments that subclasses may accept.
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:raises: ``self.base_exception`` or its subclass.
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"""
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raise NotImplementedError
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