# orm/strategies.py # Copyright (C) 2005-2015 the SQLAlchemy authors and contributors # # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php """sqlalchemy.orm.interfaces.LoaderStrategy implementations, and related MapperOptions.""" from .. import exc as sa_exc, inspect from .. import util, log, event from ..sql import util as sql_util, visitors from .. import sql from . import ( attributes, interfaces, exc as orm_exc, loading, unitofwork, util as orm_util ) from .state import InstanceState from .util import _none_set from . import properties from .interfaces import ( LoaderStrategy, StrategizedProperty ) from .base import _SET_DEFERRED_EXPIRED, _DEFER_FOR_STATE from .session import _state_session import itertools def _register_attribute( strategy, mapper, useobject, compare_function=None, typecallable=None, uselist=False, callable_=None, proxy_property=None, active_history=False, impl_class=None, **kw ): prop = strategy.parent_property attribute_ext = list(util.to_list(prop.extension, default=[])) listen_hooks = [] if useobject and prop.single_parent: listen_hooks.append(single_parent_validator) if prop.key in prop.parent.validators: fn, opts = prop.parent.validators[prop.key] listen_hooks.append( lambda desc, prop: orm_util._validator_events( desc, prop.key, fn, **opts) ) if useobject: listen_hooks.append(unitofwork.track_cascade_events) # need to assemble backref listeners # after the singleparentvalidator, mapper validator backref = kw.pop('backref', None) if backref: listen_hooks.append( lambda desc, prop: attributes.backref_listeners( desc, backref, uselist ) ) for m in mapper.self_and_descendants: if prop is m._props.get(prop.key): desc = attributes.register_attribute_impl( m.class_, prop.key, parent_token=prop, uselist=uselist, compare_function=compare_function, useobject=useobject, extension=attribute_ext, trackparent=useobject and ( prop.single_parent or prop.direction is interfaces.ONETOMANY), typecallable=typecallable, callable_=callable_, active_history=active_history, impl_class=impl_class, send_modified_events=not useobject or not prop.viewonly, doc=prop.doc, **kw ) for hook in listen_hooks: hook(desc, prop) @properties.ColumnProperty.strategy_for(instrument=False, deferred=False) class UninstrumentedColumnLoader(LoaderStrategy): """Represent the a non-instrumented MapperProperty. The polymorphic_on argument of mapper() often results in this, if the argument is against the with_polymorphic selectable. """ __slots__ = 'columns', def __init__(self, parent): super(UninstrumentedColumnLoader, self).__init__(parent) self.columns = self.parent_property.columns def setup_query( self, context, entity, path, loadopt, adapter, column_collection=None, **kwargs): for c in self.columns: if adapter: c = adapter.columns[c] column_collection.append(c) def create_row_processor( self, context, path, loadopt, mapper, result, adapter, populators): pass @log.class_logger @properties.ColumnProperty.strategy_for(instrument=True, deferred=False) class ColumnLoader(LoaderStrategy): """Provide loading behavior for a :class:`.ColumnProperty`.""" __slots__ = 'columns', 'is_composite' def __init__(self, parent): super(ColumnLoader, self).__init__(parent) self.columns = self.parent_property.columns self.is_composite = hasattr(self.parent_property, 'composite_class') def setup_query( self, context, entity, path, loadopt, adapter, column_collection, memoized_populators, **kwargs): for c in self.columns: if adapter: c = adapter.columns[c] column_collection.append(c) fetch = self.columns[0] if adapter: fetch = adapter.columns[fetch] memoized_populators[self.parent_property] = fetch def init_class_attribute(self, mapper): self.is_class_level = True coltype = self.columns[0].type # TODO: check all columns ? check for foreign key as well? active_history = self.parent_property.active_history or \ self.columns[0].primary_key or \ mapper.version_id_col in set(self.columns) _register_attribute( self, mapper, useobject=False, compare_function=coltype.compare_values, active_history=active_history ) def create_row_processor( self, context, path, loadopt, mapper, result, adapter, populators): # look through list of columns represented here # to see which, if any, is present in the row. for col in self.columns: if adapter: col = adapter.columns[col] getter = result._getter(col) if getter: populators["quick"].append((self.key, getter)) break else: populators["expire"].append((self.key, True)) @log.class_logger @properties.ColumnProperty.strategy_for(deferred=True, instrument=True) class DeferredColumnLoader(LoaderStrategy): """Provide loading behavior for a deferred :class:`.ColumnProperty`.""" __slots__ = 'columns', 'group' def __init__(self, parent): super(DeferredColumnLoader, self).__init__(parent) if hasattr(self.parent_property, 'composite_class'): raise NotImplementedError("Deferred loading for composite " "types not implemented yet") self.columns = self.parent_property.columns self.group = self.parent_property.group def create_row_processor( self, context, path, loadopt, mapper, result, adapter, populators): # this path currently does not check the result # for the column; this is because in most cases we are # working just with the setup_query() directive which does # not support this, and the behavior here should be consistent. if not self.is_class_level: set_deferred_for_local_state = \ self.parent_property._deferred_column_loader populators["new"].append((self.key, set_deferred_for_local_state)) else: populators["expire"].append((self.key, False)) def init_class_attribute(self, mapper): self.is_class_level = True _register_attribute( self, mapper, useobject=False, compare_function=self.columns[0].type.compare_values, callable_=self._load_for_state, expire_missing=False ) def setup_query( self, context, entity, path, loadopt, adapter, column_collection, memoized_populators, only_load_props=None, **kw): if ( ( loadopt and 'undefer_pks' in loadopt.local_opts and set(self.columns).intersection( self.parent._should_undefer_in_wildcard) ) or ( loadopt and self.group and loadopt.local_opts.get('undefer_group', False) == self.group ) or ( only_load_props and self.key in only_load_props ) ): self.parent_property._get_strategy_by_cls(ColumnLoader).\ setup_query(context, entity, path, loadopt, adapter, column_collection, memoized_populators, **kw) elif self.is_class_level: memoized_populators[self.parent_property] = _SET_DEFERRED_EXPIRED else: memoized_populators[self.parent_property] = _DEFER_FOR_STATE def _load_for_state(self, state, passive): if not state.key: return attributes.ATTR_EMPTY if not passive & attributes.SQL_OK: return attributes.PASSIVE_NO_RESULT localparent = state.manager.mapper if self.group: toload = [ p.key for p in localparent.iterate_properties if isinstance(p, StrategizedProperty) and isinstance(p.strategy, DeferredColumnLoader) and p.group == self.group ] else: toload = [self.key] # narrow the keys down to just those which have no history group = [k for k in toload if k in state.unmodified] session = _state_session(state) if session is None: raise orm_exc.DetachedInstanceError( "Parent instance %s is not bound to a Session; " "deferred load operation of attribute '%s' cannot proceed" % (orm_util.state_str(state), self.key) ) query = session.query(localparent) if loading.load_on_ident( query, state.key, only_load_props=group, refresh_state=state) is None: raise orm_exc.ObjectDeletedError(state) return attributes.ATTR_WAS_SET class LoadDeferredColumns(object): """serializable loader object used by DeferredColumnLoader""" def __init__(self, key): self.key = key def __call__(self, state, passive=attributes.PASSIVE_OFF): key = self.key localparent = state.manager.mapper prop = localparent._props[key] strategy = prop._strategies[DeferredColumnLoader] return strategy._load_for_state(state, passive) class AbstractRelationshipLoader(LoaderStrategy): """LoaderStratgies which deal with related objects.""" __slots__ = 'mapper', 'target', 'uselist' def __init__(self, parent): super(AbstractRelationshipLoader, self).__init__(parent) self.mapper = self.parent_property.mapper self.target = self.parent_property.target self.uselist = self.parent_property.uselist @log.class_logger @properties.RelationshipProperty.strategy_for(lazy="noload") @properties.RelationshipProperty.strategy_for(lazy=None) class NoLoader(AbstractRelationshipLoader): """Provide loading behavior for a :class:`.RelationshipProperty` with "lazy=None". """ __slots__ = () def init_class_attribute(self, mapper): self.is_class_level = True _register_attribute( self, mapper, useobject=True, uselist=self.parent_property.uselist, typecallable=self.parent_property.collection_class, ) def create_row_processor( self, context, path, loadopt, mapper, result, adapter, populators): def invoke_no_load(state, dict_, row): if self.uselist: state.manager.get_impl(self.key).initialize(state, dict_) else: dict_[self.key] = None populators["new"].append((self.key, invoke_no_load)) @log.class_logger @properties.RelationshipProperty.strategy_for(lazy=True) @properties.RelationshipProperty.strategy_for(lazy="select") class LazyLoader(AbstractRelationshipLoader, util.MemoizedSlots): """Provide loading behavior for a :class:`.RelationshipProperty` with "lazy=True", that is loads when first accessed. """ __slots__ = ( '_lazywhere', '_rev_lazywhere', 'use_get', '_bind_to_col', '_equated_columns', '_rev_bind_to_col', '_rev_equated_columns', '_simple_lazy_clause') def __init__(self, parent): super(LazyLoader, self).__init__(parent) join_condition = self.parent_property._join_condition self._lazywhere, \ self._bind_to_col, \ self._equated_columns = join_condition.create_lazy_clause() self._rev_lazywhere, \ self._rev_bind_to_col, \ self._rev_equated_columns = join_condition.create_lazy_clause( reverse_direction=True) self.logger.info("%s lazy loading clause %s", self, self._lazywhere) # determine if our "lazywhere" clause is the same as the mapper's # get() clause. then we can just use mapper.get() self.use_get = not self.uselist and \ self.mapper._get_clause[0].compare( self._lazywhere, use_proxies=True, equivalents=self.mapper._equivalent_columns ) if self.use_get: for col in list(self._equated_columns): if col in self.mapper._equivalent_columns: for c in self.mapper._equivalent_columns[col]: self._equated_columns[c] = self._equated_columns[col] self.logger.info("%s will use query.get() to " "optimize instance loads", self) def init_class_attribute(self, mapper): self.is_class_level = True active_history = ( self.parent_property.active_history or self.parent_property.direction is not interfaces.MANYTOONE or not self.use_get ) # MANYTOONE currently only needs the # "old" value for delete-orphan # cascades. the required _SingleParentValidator # will enable active_history # in that case. otherwise we don't need the # "old" value during backref operations. _register_attribute( self, mapper, useobject=True, callable_=self._load_for_state, uselist=self.parent_property.uselist, backref=self.parent_property.back_populates, typecallable=self.parent_property.collection_class, active_history=active_history ) def _memoized_attr__simple_lazy_clause(self): criterion, bind_to_col = ( self._lazywhere, self._bind_to_col ) params = [] def visit_bindparam(bindparam): bindparam.unique = False if bindparam._identifying_key in bind_to_col: params.append(( bindparam.key, bind_to_col[bindparam._identifying_key], None)) else: params.append((bindparam.key, None, bindparam.value)) criterion = visitors.cloned_traverse( criterion, {}, {'bindparam': visit_bindparam} ) return criterion, params def _generate_lazy_clause(self, state, passive): criterion, param_keys = self._simple_lazy_clause if state is None: return sql_util.adapt_criterion_to_null( criterion, [key for key, ident, value in param_keys]) mapper = self.parent_property.parent o = state.obj() # strong ref dict_ = attributes.instance_dict(o) if passive & attributes.INIT_OK: passive ^= attributes.INIT_OK params = {} for key, ident, value in param_keys: if ident is not None: if passive and passive & attributes.LOAD_AGAINST_COMMITTED: value = mapper._get_committed_state_attr_by_column( state, dict_, ident, passive) else: value = mapper._get_state_attr_by_column( state, dict_, ident, passive) params[key] = value return criterion, params def _load_for_state(self, state, passive): if not state.key and ( ( not self.parent_property.load_on_pending and not state._load_pending ) or not state.session_id ): return attributes.ATTR_EMPTY pending = not state.key ident_key = None if ( (not passive & attributes.SQL_OK and not self.use_get) or (not passive & attributes.NON_PERSISTENT_OK and pending) ): return attributes.PASSIVE_NO_RESULT session = _state_session(state) if not session: raise orm_exc.DetachedInstanceError( "Parent instance %s is not bound to a Session; " "lazy load operation of attribute '%s' cannot proceed" % (orm_util.state_str(state), self.key) ) # if we have a simple primary key load, check the # identity map without generating a Query at all if self.use_get: ident = self._get_ident_for_use_get( session, state, passive ) if attributes.PASSIVE_NO_RESULT in ident: return attributes.PASSIVE_NO_RESULT elif attributes.NEVER_SET in ident: return attributes.NEVER_SET if _none_set.issuperset(ident): return None ident_key = self.mapper.identity_key_from_primary_key(ident) instance = loading.get_from_identity(session, ident_key, passive) if instance is not None: return instance elif not passive & attributes.SQL_OK or \ not passive & attributes.RELATED_OBJECT_OK: return attributes.PASSIVE_NO_RESULT return self._emit_lazyload(session, state, ident_key, passive) def _get_ident_for_use_get(self, session, state, passive): instance_mapper = state.manager.mapper if passive & attributes.LOAD_AGAINST_COMMITTED: get_attr = instance_mapper._get_committed_state_attr_by_column else: get_attr = instance_mapper._get_state_attr_by_column dict_ = state.dict return [ get_attr( state, dict_, self._equated_columns[pk], passive=passive) for pk in self.mapper.primary_key ] @util.dependencies("sqlalchemy.orm.strategy_options") def _emit_lazyload( self, strategy_options, session, state, ident_key, passive): q = session.query(self.mapper)._adapt_all_clauses() if self.parent_property.secondary is not None: q = q.select_from(self.mapper, self.parent_property.secondary) q = q._with_invoke_all_eagers(False) pending = not state.key # don't autoflush on pending if pending or passive & attributes.NO_AUTOFLUSH: q = q.autoflush(False) if state.load_path: q = q._with_current_path(state.load_path[self.parent_property]) if state.load_options: q = q._conditional_options(*state.load_options) if self.use_get: return loading.load_on_ident(q, ident_key) if self.parent_property.order_by: q = q.order_by(*util.to_list(self.parent_property.order_by)) for rev in self.parent_property._reverse_property: # reverse props that are MANYTOONE are loading *this* # object from get(), so don't need to eager out to those. if rev.direction is interfaces.MANYTOONE and \ rev._use_get and \ not isinstance(rev.strategy, LazyLoader): q = q.options( strategy_options.Load(rev.parent).lazyload(rev.key)) lazy_clause, params = self._generate_lazy_clause( state, passive=passive) if pending: if util.has_intersection( orm_util._none_set, params.values()): return None elif util.has_intersection(orm_util._never_set, params.values()): return None q = q.filter(lazy_clause).params(params) result = q.all() if self.uselist: return result else: l = len(result) if l: if l > 1: util.warn( "Multiple rows returned with " "uselist=False for lazily-loaded attribute '%s' " % self.parent_property) return result[0] else: return None def create_row_processor( self, context, path, loadopt, mapper, result, adapter, populators): key = self.key if not self.is_class_level: # we are not the primary manager for this attribute # on this class - set up a # per-instance lazyloader, which will override the # class-level behavior. # this currently only happens when using a # "lazyload" option on a "no load" # attribute - "eager" attributes always have a # class-level lazyloader installed. set_lazy_callable = InstanceState._instance_level_callable_processor( mapper.class_manager, LoadLazyAttribute(key, self._strategy_keys[0]), key) populators["new"].append((self.key, set_lazy_callable)) elif context.populate_existing or mapper.always_refresh: def reset_for_lazy_callable(state, dict_, row): # we are the primary manager for this attribute on # this class - reset its # per-instance attribute state, so that the class-level # lazy loader is # executed when next referenced on this instance. # this is needed in # populate_existing() types of scenarios to reset # any existing state. state._reset(dict_, key) populators["new"].append((self.key, reset_for_lazy_callable)) class LoadLazyAttribute(object): """serializable loader object used by LazyLoader""" def __init__(self, key, strategy_key=(('lazy', 'select'),)): self.key = key self.strategy_key = strategy_key def __call__(self, state, passive=attributes.PASSIVE_OFF): key = self.key instance_mapper = state.manager.mapper prop = instance_mapper._props[key] strategy = prop._strategies[self.strategy_key] return strategy._load_for_state(state, passive) @properties.RelationshipProperty.strategy_for(lazy="immediate") class ImmediateLoader(AbstractRelationshipLoader): __slots__ = () def init_class_attribute(self, mapper): self.parent_property.\ _get_strategy_by_cls(LazyLoader).\ init_class_attribute(mapper) def setup_query( self, context, entity, path, loadopt, adapter, column_collection=None, parentmapper=None, **kwargs): pass def create_row_processor( self, context, path, loadopt, mapper, result, adapter, populators): def load_immediate(state, dict_, row): state.get_impl(self.key).get(state, dict_) populators["delayed"].append((self.key, load_immediate)) @log.class_logger @properties.RelationshipProperty.strategy_for(lazy="subquery") class SubqueryLoader(AbstractRelationshipLoader): __slots__ = 'join_depth', def __init__(self, parent): super(SubqueryLoader, self).__init__(parent) self.join_depth = self.parent_property.join_depth def init_class_attribute(self, mapper): self.parent_property.\ _get_strategy_by_cls(LazyLoader).\ init_class_attribute(mapper) def setup_query( self, context, entity, path, loadopt, adapter, column_collection=None, parentmapper=None, **kwargs): if not context.query._enable_eagerloads: return elif context.query._yield_per: context.query._no_yield_per("subquery") path = path[self.parent_property] # build up a path indicating the path from the leftmost # entity to the thing we're subquery loading. with_poly_info = path.get( context.attributes, "path_with_polymorphic", None) if with_poly_info is not None: effective_entity = with_poly_info.entity else: effective_entity = self.mapper subq_path = context.attributes.get( ('subquery_path', None), orm_util.PathRegistry.root) subq_path = subq_path + path # if not via query option, check for # a cycle if not path.contains(context.attributes, "loader"): if self.join_depth: if path.length / 2 > self.join_depth: return elif subq_path.contains_mapper(self.mapper): return leftmost_mapper, leftmost_attr, leftmost_relationship = \ self._get_leftmost(subq_path) orig_query = context.attributes.get( ("orig_query", SubqueryLoader), context.query) # generate a new Query from the original, then # produce a subquery from it. left_alias = self._generate_from_original_query( orig_query, leftmost_mapper, leftmost_attr, leftmost_relationship, entity.entity_zero ) # generate another Query that will join the # left alias to the target relationships. # basically doing a longhand # "from_self()". (from_self() itself not quite industrial # strength enough for all contingencies...but very close) q = orig_query.session.query(effective_entity) q._attributes = { ("orig_query", SubqueryLoader): orig_query, ('subquery_path', None): subq_path } q = q._set_enable_single_crit(False) to_join, local_attr, parent_alias = \ self._prep_for_joins(left_alias, subq_path) q = q.order_by(*local_attr) q = q.add_columns(*local_attr) q = self._apply_joins( q, to_join, left_alias, parent_alias, effective_entity) q = self._setup_options(q, subq_path, orig_query, effective_entity) q = self._setup_outermost_orderby(q) # add new query to attributes to be picked up # by create_row_processor path.set(context.attributes, "subquery", q) def _get_leftmost(self, subq_path): subq_path = subq_path.path subq_mapper = orm_util._class_to_mapper(subq_path[0]) # determine attributes of the leftmost mapper if self.parent.isa(subq_mapper) and \ self.parent_property is subq_path[1]: leftmost_mapper, leftmost_prop = \ self.parent, self.parent_property else: leftmost_mapper, leftmost_prop = \ subq_mapper, \ subq_path[1] leftmost_cols = leftmost_prop.local_columns leftmost_attr = [ getattr( subq_path[0].entity, leftmost_mapper._columntoproperty[c].key) for c in leftmost_cols ] return leftmost_mapper, leftmost_attr, leftmost_prop def _generate_from_original_query( self, orig_query, leftmost_mapper, leftmost_attr, leftmost_relationship, orig_entity ): # reformat the original query # to look only for significant columns q = orig_query._clone().correlate(None) # set a real "from" if not present, as this is more # accurate than just going off of the column expression if not q._from_obj and orig_entity.mapper.isa(leftmost_mapper): q._set_select_from([orig_entity], False) target_cols = q._adapt_col_list(leftmost_attr) # select from the identity columns of the outer q._set_entities(target_cols) distinct_target_key = leftmost_relationship.distinct_target_key if distinct_target_key is True: q._distinct = True elif distinct_target_key is None: # if target_cols refer to a non-primary key or only # part of a composite primary key, set the q as distinct for t in set(c.table for c in target_cols): if not set(target_cols).issuperset(t.primary_key): q._distinct = True break if q._order_by is False: q._order_by = leftmost_mapper.order_by # don't need ORDER BY if no limit/offset if q._limit is None and q._offset is None: q._order_by = None # the original query now becomes a subquery # which we'll join onto. embed_q = q.with_labels().subquery() left_alias = orm_util.AliasedClass( leftmost_mapper, embed_q, use_mapper_path=True) return left_alias def _prep_for_joins(self, left_alias, subq_path): # figure out what's being joined. a.k.a. the fun part to_join = [] pairs = list(subq_path.pairs()) for i, (mapper, prop) in enumerate(pairs): if i > 0: # look at the previous mapper in the chain - # if it is as or more specific than this prop's # mapper, use that instead. # note we have an assumption here that # the non-first element is always going to be a mapper, # not an AliasedClass prev_mapper = pairs[i - 1][1].mapper to_append = prev_mapper if prev_mapper.isa(mapper) else mapper else: to_append = mapper to_join.append((to_append, prop.key)) # determine the immediate parent class we are joining from, # which needs to be aliased. if len(to_join) > 1: info = inspect(to_join[-1][0]) if len(to_join) < 2: # in the case of a one level eager load, this is the # leftmost "left_alias". parent_alias = left_alias elif info.mapper.isa(self.parent): # In the case of multiple levels, retrieve # it from subq_path[-2]. This is the same as self.parent # in the vast majority of cases, and [ticket:2014] # illustrates a case where sub_path[-2] is a subclass # of self.parent parent_alias = orm_util.AliasedClass( to_join[-1][0], use_mapper_path=True) else: # if of_type() were used leading to this relationship, # self.parent is more specific than subq_path[-2] parent_alias = orm_util.AliasedClass( self.parent, use_mapper_path=True) local_cols = self.parent_property.local_columns local_attr = [ getattr(parent_alias, self.parent._columntoproperty[c].key) for c in local_cols ] return to_join, local_attr, parent_alias def _apply_joins( self, q, to_join, left_alias, parent_alias, effective_entity): for i, (mapper, key) in enumerate(to_join): # we need to use query.join() as opposed to # orm.join() here because of the # rich behavior it brings when dealing with # "with_polymorphic" mappers. "aliased" # and "from_joinpoint" take care of most of # the chaining and aliasing for us. first = i == 0 middle = i < len(to_join) - 1 second_to_last = i == len(to_join) - 2 last = i == len(to_join) - 1 if first: attr = getattr(left_alias, key) if last and effective_entity is not self.mapper: attr = attr.of_type(effective_entity) else: if last and effective_entity is not self.mapper: attr = getattr(parent_alias, key).\ of_type(effective_entity) else: attr = getattr(mapper.entity, key) if second_to_last: q = q.join(parent_alias, attr, from_joinpoint=True) else: q = q.join(attr, aliased=middle, from_joinpoint=True) return q def _setup_options(self, q, subq_path, orig_query, effective_entity): # propagate loader options etc. to the new query. # these will fire relative to subq_path. q = q._with_current_path(subq_path) q = q._conditional_options(*orig_query._with_options) if orig_query._populate_existing: q._populate_existing = orig_query._populate_existing return q def _setup_outermost_orderby(self, q): if self.parent_property.order_by: # if there's an ORDER BY, alias it the same # way joinedloader does, but we have to pull out # the "eagerjoin" from the query. # this really only picks up the "secondary" table # right now. eagerjoin = q._from_obj[0] eager_order_by = \ eagerjoin._target_adapter.\ copy_and_process( util.to_list( self.parent_property.order_by ) ) q = q.order_by(*eager_order_by) return q class _SubqCollections(object): """Given a :class:`.Query` used to emit the "subquery load", provide a load interface that executes the query at the first moment a value is needed. """ _data = None def __init__(self, subq): self.subq = subq def get(self, key, default): if self._data is None: self._load() return self._data.get(key, default) def _load(self): self._data = dict( (k, [vv[0] for vv in v]) for k, v in itertools.groupby( self.subq, lambda x: x[1:] ) ) def loader(self, state, dict_, row): if self._data is None: self._load() def create_row_processor( self, context, path, loadopt, mapper, result, adapter, populators): if not self.parent.class_manager[self.key].impl.supports_population: raise sa_exc.InvalidRequestError( "'%s' does not support object " "population - eager loading cannot be applied." % self) path = path[self.parent_property] subq = path.get(context.attributes, 'subquery') if subq is None: return assert subq.session is context.session, ( "Subquery session doesn't refer to that of " "our context. Are there broken context caching " "schemes being used?" ) local_cols = self.parent_property.local_columns # cache the loaded collections in the context # so that inheriting mappers don't re-load when they # call upon create_row_processor again collections = path.get(context.attributes, "collections") if collections is None: collections = self._SubqCollections(subq) path.set(context.attributes, 'collections', collections) if adapter: local_cols = [adapter.columns[c] for c in local_cols] if self.uselist: self._create_collection_loader( context, collections, local_cols, populators) else: self._create_scalar_loader( context, collections, local_cols, populators) def _create_collection_loader( self, context, collections, local_cols, populators): def load_collection_from_subq(state, dict_, row): collection = collections.get( tuple([row[col] for col in local_cols]), () ) state.get_impl(self.key).\ set_committed_value(state, dict_, collection) populators["new"].append((self.key, load_collection_from_subq)) if context.invoke_all_eagers: populators["eager"].append((self.key, collections.loader)) def _create_scalar_loader( self, context, collections, local_cols, populators): def load_scalar_from_subq(state, dict_, row): collection = collections.get( tuple([row[col] for col in local_cols]), (None,) ) if len(collection) > 1: util.warn( "Multiple rows returned with " "uselist=False for eagerly-loaded attribute '%s' " % self) scalar = collection[0] state.get_impl(self.key).\ set_committed_value(state, dict_, scalar) populators["new"].append((self.key, load_scalar_from_subq)) if context.invoke_all_eagers: populators["eager"].append((self.key, collections.loader)) @log.class_logger @properties.RelationshipProperty.strategy_for(lazy="joined") @properties.RelationshipProperty.strategy_for(lazy=False) class JoinedLoader(AbstractRelationshipLoader): """Provide loading behavior for a :class:`.RelationshipProperty` using joined eager loading. """ __slots__ = 'join_depth', def __init__(self, parent): super(JoinedLoader, self).__init__(parent) self.join_depth = self.parent_property.join_depth def init_class_attribute(self, mapper): self.parent_property.\ _get_strategy_by_cls(LazyLoader).init_class_attribute(mapper) def setup_query( self, context, entity, path, loadopt, adapter, column_collection=None, parentmapper=None, chained_from_outerjoin=False, **kwargs): """Add a left outer join to the statement that's being constructed.""" if not context.query._enable_eagerloads: return elif context.query._yield_per and self.uselist: context.query._no_yield_per("joined collection") path = path[self.parent_property] with_polymorphic = None user_defined_adapter = self._init_user_defined_eager_proc( loadopt, context) if loadopt else False if user_defined_adapter is not False: clauses, adapter, add_to_collection = \ self._setup_query_on_user_defined_adapter( context, entity, path, adapter, user_defined_adapter ) else: # if not via query option, check for # a cycle if not path.contains(context.attributes, "loader"): if self.join_depth: if path.length / 2 > self.join_depth: return elif path.contains_mapper(self.mapper): return clauses, adapter, add_to_collection, chained_from_outerjoin = \ self._generate_row_adapter( context, entity, path, loadopt, adapter, column_collection, parentmapper, chained_from_outerjoin ) with_poly_info = path.get( context.attributes, "path_with_polymorphic", None ) if with_poly_info is not None: with_polymorphic = with_poly_info.with_polymorphic_mappers else: with_polymorphic = None path = path[self.mapper] loading._setup_entity_query( context, self.mapper, entity, path, clauses, add_to_collection, with_polymorphic=with_polymorphic, parentmapper=self.mapper, chained_from_outerjoin=chained_from_outerjoin) if with_poly_info is not None and \ None in set(context.secondary_columns): raise sa_exc.InvalidRequestError( "Detected unaliased columns when generating joined " "load. Make sure to use aliased=True or flat=True " "when using joined loading with with_polymorphic()." ) def _init_user_defined_eager_proc(self, loadopt, context): # check if the opt applies at all if "eager_from_alias" not in loadopt.local_opts: # nope return False path = loadopt.path.parent # the option applies. check if the "user_defined_eager_row_processor" # has been built up. adapter = path.get( context.attributes, "user_defined_eager_row_processor", False) if adapter is not False: # just return it return adapter # otherwise figure it out. alias = loadopt.local_opts["eager_from_alias"] root_mapper, prop = path[-2:] #from .mapper import Mapper #from .interfaces import MapperProperty #assert isinstance(root_mapper, Mapper) #assert isinstance(prop, MapperProperty) if alias is not None: if isinstance(alias, str): alias = prop.target.alias(alias) adapter = sql_util.ColumnAdapter( alias, equivalents=prop.mapper._equivalent_columns) else: if path.contains(context.attributes, "path_with_polymorphic"): with_poly_info = path.get( context.attributes, "path_with_polymorphic") adapter = orm_util.ORMAdapter( with_poly_info.entity, equivalents=prop.mapper._equivalent_columns) else: adapter = context.query._polymorphic_adapters.get( prop.mapper, None) path.set( context.attributes, "user_defined_eager_row_processor", adapter) return adapter def _setup_query_on_user_defined_adapter( self, context, entity, path, adapter, user_defined_adapter): # apply some more wrapping to the "user defined adapter" # if we are setting up the query for SQL render. adapter = entity._get_entity_clauses(context.query, context) if adapter and user_defined_adapter: user_defined_adapter = user_defined_adapter.wrap(adapter) path.set( context.attributes, "user_defined_eager_row_processor", user_defined_adapter) elif adapter: user_defined_adapter = adapter path.set( context.attributes, "user_defined_eager_row_processor", user_defined_adapter) add_to_collection = context.primary_columns return user_defined_adapter, adapter, add_to_collection def _generate_row_adapter( self, context, entity, path, loadopt, adapter, column_collection, parentmapper, chained_from_outerjoin): with_poly_info = path.get( context.attributes, "path_with_polymorphic", None ) if with_poly_info: to_adapt = with_poly_info.entity else: to_adapt = orm_util.AliasedClass( self.mapper, flat=True, use_mapper_path=True) clauses = orm_util.ORMAdapter( to_adapt, equivalents=self.mapper._equivalent_columns, adapt_required=True, allow_label_resolve=False, anonymize_labels=True) assert clauses.aliased_class is not None if self.parent_property.uselist: context.multi_row_eager_loaders = True innerjoin = ( loadopt.local_opts.get( 'innerjoin', self.parent_property.innerjoin) if loadopt is not None else self.parent_property.innerjoin ) if not innerjoin: # if this is an outer join, all non-nested eager joins from # this path must also be outer joins chained_from_outerjoin = True context.create_eager_joins.append( ( self._create_eager_join, context, entity, path, adapter, parentmapper, clauses, innerjoin, chained_from_outerjoin ) ) add_to_collection = context.secondary_columns path.set(context.attributes, "eager_row_processor", clauses) return clauses, adapter, add_to_collection, chained_from_outerjoin def _create_eager_join( self, context, entity, path, adapter, parentmapper, clauses, innerjoin, chained_from_outerjoin): if parentmapper is None: localparent = entity.mapper else: localparent = parentmapper # whether or not the Query will wrap the selectable in a subquery, # and then attach eager load joins to that (i.e., in the case of # LIMIT/OFFSET etc.) should_nest_selectable = context.multi_row_eager_loaders and \ context.query._should_nest_selectable entity_key = None if entity not in context.eager_joins and \ not should_nest_selectable and \ context.from_clause: index, clause = sql_util.find_join_source( context.from_clause, entity.selectable) if clause is not None: # join to an existing FROM clause on the query. # key it to its list index in the eager_joins dict. # Query._compile_context will adapt as needed and # append to the FROM clause of the select(). entity_key, default_towrap = index, clause if entity_key is None: entity_key, default_towrap = entity, entity.selectable towrap = context.eager_joins.setdefault(entity_key, default_towrap) if adapter: if getattr(adapter, 'aliased_class', None): # joining from an adapted entity. The adapted entity # might be a "with_polymorphic", so resolve that to our # specific mapper's entity before looking for our attribute # name on it. efm = inspect(adapter.aliased_class).\ _entity_for_mapper( parentmapper if parentmapper.isa(self.parent) else self.parent) # look for our attribute on the adapted entity, else fall back # to our straight property onclause = getattr( efm.entity, self.key, self.parent_property) else: onclause = getattr( orm_util.AliasedClass( self.parent, adapter.selectable, use_mapper_path=True ), self.key, self.parent_property ) else: onclause = self.parent_property assert clauses.aliased_class is not None attach_on_outside = ( not chained_from_outerjoin or not innerjoin or innerjoin == 'unnested') if attach_on_outside: # this is the "classic" eager join case. eagerjoin = orm_util._ORMJoin( towrap, clauses.aliased_class, onclause, isouter=not innerjoin or ( chained_from_outerjoin and isinstance(towrap, sql.Join) ), _left_memo=self.parent, _right_memo=self.mapper ) else: # all other cases are innerjoin=='nested' approach eagerjoin = self._splice_nested_inner_join( path, towrap, clauses, onclause) context.eager_joins[entity_key] = eagerjoin # send a hint to the Query as to where it may "splice" this join eagerjoin.stop_on = entity.selectable if not parentmapper: # for parentclause that is the non-eager end of the join, # ensure all the parent cols in the primaryjoin are actually # in the # columns clause (i.e. are not deferred), so that aliasing applied # by the Query propagates those columns outward. # This has the effect # of "undefering" those columns. for col in sql_util._find_columns( self.parent_property.primaryjoin): if localparent.mapped_table.c.contains_column(col): if adapter: col = adapter.columns[col] context.primary_columns.append(col) if self.parent_property.order_by: context.eager_order_by += eagerjoin._target_adapter.\ copy_and_process( util.to_list( self.parent_property.order_by ) ) def _splice_nested_inner_join( self, path, join_obj, clauses, onclause, splicing=False): if splicing is False: # first call is always handed a join object # from the outside assert isinstance(join_obj, orm_util._ORMJoin) elif isinstance(join_obj, sql.selectable.FromGrouping): return self._splice_nested_inner_join( path, join_obj.element, clauses, onclause, splicing ) elif not isinstance(join_obj, orm_util._ORMJoin): if path[-2] is splicing: return orm_util._ORMJoin( join_obj, clauses.aliased_class, onclause, isouter=False, _left_memo=splicing, _right_memo=path[-1].mapper ) else: # only here if splicing == True return None target_join = self._splice_nested_inner_join( path, join_obj.right, clauses, onclause, join_obj._right_memo) if target_join is None: right_splice = False target_join = self._splice_nested_inner_join( path, join_obj.left, clauses, onclause, join_obj._left_memo) if target_join is None: # should only return None when recursively called, # e.g. splicing==True assert splicing is not False, \ "assertion failed attempting to produce joined eager loads" return None else: right_splice = True if right_splice: # for a right splice, attempt to flatten out # a JOIN b JOIN c JOIN .. to avoid needless # parenthesis nesting if not join_obj.isouter and not target_join.isouter: eagerjoin = join_obj._splice_into_center(target_join) else: eagerjoin = orm_util._ORMJoin( join_obj.left, target_join, join_obj.onclause, isouter=join_obj.isouter, _left_memo=join_obj._left_memo) else: eagerjoin = orm_util._ORMJoin( target_join, join_obj.right, join_obj.onclause, isouter=join_obj.isouter, _right_memo=join_obj._right_memo) eagerjoin._target_adapter = target_join._target_adapter return eagerjoin def _create_eager_adapter(self, context, result, adapter, path, loadopt): user_defined_adapter = self._init_user_defined_eager_proc( loadopt, context) if loadopt else False if user_defined_adapter is not False: decorator = user_defined_adapter # user defined eagerloads are part of the "primary" # portion of the load. # the adapters applied to the Query should be honored. if context.adapter and decorator: decorator = decorator.wrap(context.adapter) elif context.adapter: decorator = context.adapter else: decorator = path.get(context.attributes, "eager_row_processor") if decorator is None: return False if self.mapper._result_has_identity_key(result, decorator): return decorator else: # no identity key - don't return a row # processor, will cause a degrade to lazy return False def create_row_processor( self, context, path, loadopt, mapper, result, adapter, populators): if not self.parent.class_manager[self.key].impl.supports_population: raise sa_exc.InvalidRequestError( "'%s' does not support object " "population - eager loading cannot be applied." % self ) our_path = path[self.parent_property] eager_adapter = self._create_eager_adapter( context, result, adapter, our_path, loadopt) if eager_adapter is not False: key = self.key _instance = loading._instance_processor( self.mapper, context, result, our_path[self.mapper], eager_adapter) if not self.uselist: self._create_scalar_loader(context, key, _instance, populators) else: self._create_collection_loader( context, key, _instance, populators) else: self.parent_property._get_strategy_by_cls(LazyLoader).\ create_row_processor( context, path, loadopt, mapper, result, adapter, populators) def _create_collection_loader(self, context, key, _instance, populators): def load_collection_from_joined_new_row(state, dict_, row): collection = attributes.init_state_collection( state, dict_, key) result_list = util.UniqueAppender(collection, 'append_without_event') context.attributes[(state, key)] = result_list inst = _instance(row) if inst is not None: result_list.append(inst) def load_collection_from_joined_existing_row(state, dict_, row): if (state, key) in context.attributes: result_list = context.attributes[(state, key)] else: # appender_key can be absent from context.attributes # with isnew=False when self-referential eager loading # is used; the same instance may be present in two # distinct sets of result columns collection = attributes.init_state_collection( state, dict_, key) result_list = util.UniqueAppender( collection, 'append_without_event') context.attributes[(state, key)] = result_list inst = _instance(row) if inst is not None: result_list.append(inst) def load_collection_from_joined_exec(state, dict_, row): _instance(row) populators["new"].append((self.key, load_collection_from_joined_new_row)) populators["existing"].append( (self.key, load_collection_from_joined_existing_row)) if context.invoke_all_eagers: populators["eager"].append( (self.key, load_collection_from_joined_exec)) def _create_scalar_loader(self, context, key, _instance, populators): def load_scalar_from_joined_new_row(state, dict_, row): # set a scalar object instance directly on the parent # object, bypassing InstrumentedAttribute event handlers. dict_[key] = _instance(row) def load_scalar_from_joined_existing_row(state, dict_, row): # call _instance on the row, even though the object has # been created, so that we further descend into properties existing = _instance(row) if existing is not None \ and key in dict_ \ and existing is not dict_[key]: util.warn( "Multiple rows returned with " "uselist=False for eagerly-loaded attribute '%s' " % self) def load_scalar_from_joined_exec(state, dict_, row): _instance(row) populators["new"].append((self.key, load_scalar_from_joined_new_row)) populators["existing"].append( (self.key, load_scalar_from_joined_existing_row)) if context.invoke_all_eagers: populators["eager"].append((self.key, load_scalar_from_joined_exec)) def single_parent_validator(desc, prop): def _do_check(state, value, oldvalue, initiator): if value is not None and initiator.key == prop.key: hasparent = initiator.hasparent(attributes.instance_state(value)) if hasparent and oldvalue is not value: raise sa_exc.InvalidRequestError( "Instance %s is already associated with an instance " "of %s via its %s attribute, and is only allowed a " "single parent." % (orm_util.instance_str(value), state.class_, prop) ) return value def append(state, value, initiator): return _do_check(state, value, None, initiator) def set_(state, value, oldvalue, initiator): return _do_check(state, value, oldvalue, initiator) event.listen( desc, 'append', append, raw=True, retval=True, active_history=True) event.listen( desc, 'set', set_, raw=True, retval=True, active_history=True)