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# orm/path_registry.py # Copyright (C) 2005-2020 the SQLAlchemy authors and contributors # <see AUTHORS file> # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php """Path tracking utilities, representing mapper graph traversals. """ from itertools import chain import logging from .base import class_mapper from .. import exc from .. import inspection from .. import util log = logging.getLogger(__name__) def _unreduce_path(path): return PathRegistry.deserialize(path) _WILDCARD_TOKEN = "*" _DEFAULT_TOKEN = "_sa_default" class PathRegistry(object): """Represent query load paths and registry functions. Basically represents structures like: (<User mapper>, "orders", <Order mapper>, "items", <Item mapper>) These structures are generated by things like query options (joinedload(), subqueryload(), etc.) and are used to compose keys stored in the query._attributes dictionary for various options. They are then re-composed at query compile/result row time as the query is formed and as rows are fetched, where they again serve to compose keys to look up options in the context.attributes dictionary, which is copied from query._attributes. The path structure has a limited amount of caching, where each "root" ultimately pulls from a fixed registry associated with the first mapper, that also contains elements for each of its property keys. However paths longer than two elements, which are the exception rather than the rule, are generated on an as-needed basis. """ __slots__ = () is_token = False is_root = False def __eq__(self, other): try: return other is not None and self.path == other.path except AttributeError: util.warn( "Comparison of PathRegistry to %r is not supported" % (type(other)) ) return False def __ne__(self, other): try: return other is None or self.path != other.path except AttributeError: util.warn( "Comparison of PathRegistry to %r is not supported" % (type(other)) ) return True def set(self, attributes, key, value): log.debug("set '%s' on path '%s' to '%s'", key, self, value) attributes[(key, self.natural_path)] = value def setdefault(self, attributes, key, value): log.debug("setdefault '%s' on path '%s' to '%s'", key, self, value) attributes.setdefault((key, self.natural_path), value) def get(self, attributes, key, value=None): key = (key, self.natural_path) if key in attributes: return attributes[key] else: return value def __len__(self): return len(self.path) @property def length(self): return len(self.path) def pairs(self): path = self.path for i in range(0, len(path), 2): yield path[i], path[i + 1] def contains_mapper(self, mapper): for path_mapper in [self.path[i] for i in range(0, len(self.path), 2)]: if path_mapper.is_mapper and path_mapper.isa(mapper): return True else: return False def contains(self, attributes, key): return (key, self.path) in attributes def __reduce__(self): return _unreduce_path, (self.serialize(),) @classmethod def _serialize_path(cls, path): return list( zip( [m.class_ for m in [path[i] for i in range(0, len(path), 2)]], [path[i].key for i in range(1, len(path), 2)] + [None], ) ) @classmethod def _deserialize_path(cls, path): p = tuple( chain( *[ ( class_mapper(mcls), class_mapper(mcls).attrs[key] if key is not None else None, ) for mcls, key in path ] ) ) if p and p[-1] is None: p = p[0:-1] return p @classmethod def serialize_context_dict(cls, dict_, tokens): return [ ((key, cls._serialize_path(path)), value) for (key, path), value in [ (k, v) for k, v in dict_.items() if isinstance(k, tuple) and k[0] in tokens ] ] @classmethod def deserialize_context_dict(cls, serialized): return util.OrderedDict( ((key, tuple(cls._deserialize_path(path))), value) for (key, path), value in serialized ) def serialize(self): path = self.path return self._serialize_path(path) @classmethod def deserialize(cls, path): if path is None: return None p = cls._deserialize_path(path) return cls.coerce(p) @classmethod def per_mapper(cls, mapper): if mapper.is_mapper: return CachingEntityRegistry(cls.root, mapper) else: return SlotsEntityRegistry(cls.root, mapper) @classmethod def coerce(cls, raw): return util.reduce(lambda prev, next: prev[next], raw, cls.root) def token(self, token): if token.endswith(":" + _WILDCARD_TOKEN): return TokenRegistry(self, token) elif token.endswith(":" + _DEFAULT_TOKEN): return TokenRegistry(self.root, token) else: raise exc.ArgumentError("invalid token: %s" % token) def __add__(self, other): return util.reduce(lambda prev, next: prev[next], other.path, self) def __repr__(self): return "%s(%r)" % (self.__class__.__name__, self.path) class RootRegistry(PathRegistry): """Root registry, defers to mappers so that paths are maintained per-root-mapper. """ path = natural_path = () has_entity = False is_aliased_class = False is_root = True def __getitem__(self, entity): return entity._path_registry PathRegistry.root = RootRegistry() class TokenRegistry(PathRegistry): __slots__ = ("token", "parent", "path", "natural_path") def __init__(self, parent, token): self.token = token self.parent = parent self.path = parent.path + (token,) self.natural_path = parent.natural_path + (token,) has_entity = False is_token = True def generate_for_superclasses(self): if not self.parent.is_aliased_class and not self.parent.is_root: for ent in self.parent.mapper.iterate_to_root(): yield TokenRegistry(self.parent.parent[ent], self.token) elif ( self.parent.is_aliased_class and self.parent.entity._is_with_polymorphic ): yield self for ent in self.parent.entity._with_polymorphic_entities: yield TokenRegistry(self.parent.parent[ent], self.token) else: yield self def __getitem__(self, entity): raise NotImplementedError() class PropRegistry(PathRegistry): is_unnatural = False def __init__(self, parent, prop): # restate this path in terms of the # given MapperProperty's parent. insp = inspection.inspect(parent[-1]) natural_parent = parent if not insp.is_aliased_class or insp._use_mapper_path: parent = natural_parent = parent.parent[prop.parent] elif ( insp.is_aliased_class and insp.with_polymorphic_mappers and prop.parent in insp.with_polymorphic_mappers ): subclass_entity = parent[-1]._entity_for_mapper(prop.parent) parent = parent.parent[subclass_entity] # when building a path where with_polymorphic() is in use, # special logic to determine the "natural path" when subclass # entities are used. # # here we are trying to distinguish between a path that starts # on a the with_polymorhpic entity vs. one that starts on a # normal entity that introduces a with_polymorphic() in the # middle using of_type(): # # # as in test_polymorphic_rel-> # # test_subqueryload_on_subclass_uses_path_correctly # wp = with_polymorphic(RegularEntity, "*") # sess.query(wp).options(someload(wp.SomeSubEntity.foos)) # # vs # # # as in test_relationship->JoinedloadWPolyOfTypeContinued # wp = with_polymorphic(SomeFoo, "*") # sess.query(RegularEntity).options( # someload(RegularEntity.foos.of_type(wp)) # .someload(wp.SubFoo.bar) # ) # # in the former case, the Query as it generates a path that we # want to match will be in terms of the with_polymorphic at the # beginning. in the latter case, Query will generate simple # paths that don't know about this with_polymorphic, so we must # use a separate natural path. # # if parent.parent: natural_parent = parent.parent[subclass_entity.mapper] self.is_unnatural = True else: natural_parent = parent elif ( natural_parent.parent and insp.is_aliased_class and prop.parent # this should always be the case here is not insp.mapper and insp.mapper.isa(prop.parent) ): natural_parent = parent.parent[prop.parent] self.prop = prop self.parent = parent self.path = parent.path + (prop,) self.natural_path = natural_parent.natural_path + (prop,) self._wildcard_path_loader_key = ( "loader", parent.path + self.prop._wildcard_token, ) self._default_path_loader_key = self.prop._default_path_loader_key self._loader_key = ("loader", self.path) def __str__(self): return " -> ".join(str(elem) for elem in self.path) @util.memoized_property def has_entity(self): return hasattr(self.prop, "mapper") @util.memoized_property def entity(self): return self.prop.mapper @property def mapper(self): return self.entity @property def entity_path(self): return self[self.entity] def __getitem__(self, entity): if isinstance(entity, (int, slice)): return self.path[entity] else: return SlotsEntityRegistry(self, entity) class AbstractEntityRegistry(PathRegistry): __slots__ = () has_entity = True def __init__(self, parent, entity): self.key = entity self.parent = parent self.is_aliased_class = entity.is_aliased_class self.entity = entity self.path = parent.path + (entity,) # the "natural path" is the path that we get when Query is traversing # from the lead entities into the various relationships; it corresponds # to the structure of mappers and relationships. when we are given a # path that comes from loader options, as of 1.3 it can have ac-hoc # with_polymorphic() and other AliasedInsp objects inside of it, which # are usually not present in mappings. So here we track both the # "enhanced" path in self.path and the "natural" path that doesn't # include those objects so these two traversals can be matched up. # the test here for "(self.is_aliased_class or parent.is_unnatural)" # are to avoid the more expensive conditional logic that follows if we # know we don't have to do it. This conditional can just as well be # "if parent.path:", it just is more function calls. if parent.path and (self.is_aliased_class or parent.is_unnatural): # this is an infrequent code path used only for loader strategies # that also make use of of_type(). if entity.mapper.isa(parent.natural_path[-1].entity): self.natural_path = parent.natural_path + (entity.mapper,) else: self.natural_path = parent.natural_path + ( parent.natural_path[-1].entity, ) else: self.natural_path = self.path @property def entity_path(self): return self @property def mapper(self): return inspection.inspect(self.entity).mapper def __bool__(self): return True __nonzero__ = __bool__ def __getitem__(self, entity): if isinstance(entity, (int, slice)): return self.path[entity] else: return PropRegistry(self, entity) class SlotsEntityRegistry(AbstractEntityRegistry): # for aliased class, return lightweight, no-cycles created # version __slots__ = ( "key", "parent", "is_aliased_class", "entity", "path", "natural_path", ) class CachingEntityRegistry(AbstractEntityRegistry, dict): # for long lived mapper, return dict based caching # version that creates reference cycles def __getitem__(self, entity): if isinstance(entity, (int, slice)): return self.path[entity] else: return dict.__getitem__(self, entity) def __missing__(self, key): self[key] = item = PropRegistry(self, key) return item