import sqlalchemy as sa from sqlalchemy import CheckConstraint from sqlalchemy import event from sqlalchemy import exc from sqlalchemy import ForeignKey from sqlalchemy import ForeignKeyConstraint from sqlalchemy import Index from sqlalchemy import inspect from sqlalchemy import Integer from sqlalchemy import MetaData from sqlalchemy import String from sqlalchemy import testing from sqlalchemy import UniqueConstraint from sqlalchemy import util from sqlalchemy.ext import declarative as decl from sqlalchemy.ext.declarative import declared_attr from sqlalchemy.ext.declarative import synonym_for from sqlalchemy.ext.declarative.base import _DeferredMapperConfig from sqlalchemy.ext.hybrid import hybrid_property from sqlalchemy.orm import backref from sqlalchemy.orm import class_mapper from sqlalchemy.orm import clear_mappers from sqlalchemy.orm import close_all_sessions from sqlalchemy.orm import column_property from sqlalchemy.orm import composite from sqlalchemy.orm import configure_mappers from sqlalchemy.orm import create_session from sqlalchemy.orm import deferred from sqlalchemy.orm import exc as orm_exc from sqlalchemy.orm import joinedload from sqlalchemy.orm import mapper from sqlalchemy.orm import properties from sqlalchemy.orm import relationship from sqlalchemy.orm import Session from sqlalchemy.orm.events import MapperEvents from sqlalchemy.testing import assert_raises from sqlalchemy.testing import assert_raises_message from sqlalchemy.testing import assertions from sqlalchemy.testing import eq_ from sqlalchemy.testing import expect_warnings from sqlalchemy.testing import fixtures from sqlalchemy.testing import is_ from sqlalchemy.testing import mock from sqlalchemy.testing.schema import Column from sqlalchemy.testing.schema import Table from sqlalchemy.util import with_metaclass Base = None User = Address = None class DeclarativeTestBase( fixtures.TestBase, testing.AssertsExecutionResults, testing.AssertsCompiledSQL, ): __dialect__ = "default" def setup(self): global Base Base = decl.declarative_base(testing.db) def teardown(self): close_all_sessions() clear_mappers() Base.metadata.drop_all() class DeclarativeTest(DeclarativeTestBase): def test_basic(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) addresses = relationship("Address", backref="user") class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) email = Column(String(50), key="_email") user_id = Column( "user_id", Integer, ForeignKey("users.id"), key="_user_id" ) Base.metadata.create_all() eq_(Address.__table__.c["id"].name, "id") eq_(Address.__table__.c["_email"].name, "email") eq_(Address.__table__.c["_user_id"].name, "user_id") u1 = User( name="u1", addresses=[Address(email="one"), Address(email="two")] ) sess = create_session() sess.add(u1) sess.flush() sess.expunge_all() eq_( sess.query(User).all(), [ User( name="u1", addresses=[Address(email="one"), Address(email="two")], ) ], ) a1 = sess.query(Address).filter(Address.email == "two").one() eq_(a1, Address(email="two")) eq_(a1.user, User(name="u1")) def test_deferred_reflection_default_error(self): class MyExt(object): @classmethod def prepare(cls): "sample prepare method" to_map = _DeferredMapperConfig.classes_for_base(cls) for thingy in to_map: thingy.map() @classmethod def _sa_decl_prepare(cls): pass class User(MyExt, Base): __tablename__ = "user" id = Column(Integer, primary_key=True) assert_raises_message( orm_exc.UnmappedClassError, "Class test.ext.declarative.test_basic.User has a deferred " "mapping on it. It is not yet usable as a mapped class.", Session().query, User, ) User.prepare() self.assert_compile( Session().query(User), 'SELECT "user".id AS user_id FROM "user"' ) def test_unicode_string_resolve(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) addresses = relationship(util.u("Address"), backref="user") class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) email = Column(String(50), key="_email") user_id = Column( "user_id", Integer, ForeignKey("users.id"), key="_user_id" ) assert User.addresses.property.mapper.class_ is Address def test_unicode_string_resolve_backref(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) email = Column(String(50), key="_email") user_id = Column( "user_id", Integer, ForeignKey("users.id"), key="_user_id" ) user = relationship( User, backref=backref("addresses", order_by=util.u("Address.email")), ) assert Address.user.property.mapper.class_ is User def test_no_table(self): def go(): class User(Base): id = Column("id", Integer, primary_key=True) assert_raises_message( sa.exc.InvalidRequestError, "does not have a __table__", go ) def test_table_args_empty_dict(self): class MyModel(Base): __tablename__ = "test" id = Column(Integer, primary_key=True) __table_args__ = {} def test_table_args_empty_tuple(self): class MyModel(Base): __tablename__ = "test" id = Column(Integer, primary_key=True) __table_args__ = () def test_cant_add_columns(self): t = Table( "t", Base.metadata, Column("id", Integer, primary_key=True), Column("data", String), ) def go(): class User(Base): __table__ = t foo = Column(Integer, primary_key=True) # can't specify new columns not already in the table assert_raises_message( sa.exc.ArgumentError, "Can't add additional column 'foo' when " "specifying __table__", go, ) # regular re-mapping works tho class Bar(Base): __table__ = t some_data = t.c.data assert ( class_mapper(Bar).get_property("some_data").columns[0] is t.c.data ) def test_lower_case_c_column_warning(self): with assertions.expect_warnings( r"Attribute 'x' on class sa.func.foo()),) ck = [ c for c in Bar.__table__.constraints if isinstance(c, CheckConstraint) ][0] is_(ck.columns.cprop, Bar.__table__.c.cprop) if testing.requires.python3.enabled: # test the existing failure case in case something changes def go(): class Bat(Base): __tablename__ = "bat" id = Column(Integer, primary_key=True) cprop = deferred(Column(Integer)) # we still can't do an expression like # "cprop > 5" because the column property isn't # a full blown column __table_args__ = (CheckConstraint(cprop > 5),) assert_raises(TypeError, go) def test_relationship_level_msg_for_invalid_callable(self): class A(Base): __tablename__ = "a" id = Column(Integer, primary_key=True) class B(Base): __tablename__ = "b" id = Column(Integer, primary_key=True) a_id = Column(Integer, ForeignKey("a.id")) a = relationship("a") assert_raises_message( sa.exc.ArgumentError, "relationship 'a' expects a class or a mapper " "argument .received: .*Table", configure_mappers, ) def test_relationship_level_msg_for_invalid_object(self): class A(Base): __tablename__ = "a" id = Column(Integer, primary_key=True) class B(Base): __tablename__ = "b" id = Column(Integer, primary_key=True) a_id = Column(Integer, ForeignKey("a.id")) a = relationship(A.__table__) assert_raises_message( sa.exc.ArgumentError, "relationship 'a' expects a class or a mapper " "argument .received: .*Table", configure_mappers, ) def test_difficult_class(self): """test no getattr() errors with a customized class""" # metaclass to mock the way zope.interface breaks getattr() class BrokenMeta(type): def __getattribute__(self, attr): if attr == "xyzzy": raise AttributeError("xyzzy") else: return object.__getattribute__(self, attr) # even though this class has an xyzzy attribute, getattr(cls,"xyzzy") # fails class BrokenParent(with_metaclass(BrokenMeta)): xyzzy = "magic" # _as_declarative() inspects obj.__class__.__bases__ class User(BrokenParent, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) decl.instrument_declarative(User, {}, Base.metadata) def test_reserved_identifiers(self): def go1(): class User1(Base): __tablename__ = "user1" id = Column(Integer, primary_key=True) metadata = Column(Integer) def go2(): class User2(Base): __tablename__ = "user2" id = Column(Integer, primary_key=True) metadata = relationship("Address") for go in (go1, go2): assert_raises_message( exc.InvalidRequestError, "Attribute name 'metadata' is reserved " "for the MetaData instance when using a " "declarative base class.", go, ) def test_undefer_column_name(self): # TODO: not sure if there was an explicit # test for this elsewhere foo = Column(Integer) eq_(str(foo), "(no name)") eq_(foo.key, None) eq_(foo.name, None) decl.base._undefer_column_name("foo", foo) eq_(str(foo), "foo") eq_(foo.key, "foo") eq_(foo.name, "foo") def test_recompile_on_othermapper(self): """declarative version of the same test in mappers.py""" from sqlalchemy.orm import mapperlib class User(Base): __tablename__ = "users" id = Column("id", Integer, primary_key=True) name = Column("name", String(50)) class Address(Base): __tablename__ = "addresses" id = Column("id", Integer, primary_key=True) email = Column("email", String(50)) user_id = Column("user_id", Integer, ForeignKey("users.id")) user = relationship( "User", primaryjoin=user_id == User.id, backref="addresses" ) assert mapperlib.Mapper._new_mappers is True u = User() # noqa assert User.addresses assert mapperlib.Mapper._new_mappers is False def test_string_dependency_resolution(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) name = Column(String(50)) addresses = relationship( "Address", order_by="desc(Address.email)", primaryjoin="User.id==Address.user_id", foreign_keys="[Address.user_id]", backref=backref( "user", primaryjoin="User.id==Address.user_id", foreign_keys="[Address.user_id]", ), ) class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) email = Column(String(50)) user_id = Column(Integer) # note no foreign key Base.metadata.create_all() sess = create_session() u1 = User( name="ed", addresses=[ Address(email="abc"), Address(email="def"), Address(email="xyz"), ], ) sess.add(u1) sess.flush() sess.expunge_all() eq_( sess.query(User).filter(User.name == "ed").one(), User( name="ed", addresses=[ Address(email="xyz"), Address(email="def"), Address(email="abc"), ], ), ) class Foo(Base, fixtures.ComparableEntity): __tablename__ = "foo" id = Column(Integer, primary_key=True) rel = relationship("User", primaryjoin="User.addresses==Foo.id") assert_raises_message( exc.InvalidRequestError, "'addresses' is not an instance of " "ColumnProperty", configure_mappers, ) def test_string_dependency_resolution_synonym(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) name = Column(String(50)) Base.metadata.create_all() sess = create_session() u1 = User(name="ed") sess.add(u1) sess.flush() sess.expunge_all() eq_(sess.query(User).filter(User.name == "ed").one(), User(name="ed")) class Foo(Base, fixtures.ComparableEntity): __tablename__ = "foo" id = Column(Integer, primary_key=True) _user_id = Column(Integer) rel = relationship( "User", uselist=False, foreign_keys=[User.id], primaryjoin="Foo.user_id==User.id", ) @synonym_for("_user_id") @property def user_id(self): return self._user_id foo = Foo() foo.rel = u1 assert foo.rel == u1 def test_string_dependency_resolution_orm_descriptor(self): from sqlalchemy.ext.hybrid import hybrid_property class User(Base): __tablename__ = "user" id = Column(Integer, primary_key=True) firstname = Column(String(50)) lastname = Column(String(50)) game_id = Column(Integer, ForeignKey("game.id")) @hybrid_property def fullname(self): return self.firstname + " " + self.lastname class Game(Base): __tablename__ = "game" id = Column(Integer, primary_key=True) name = Column(String(50)) users = relationship("User", order_by="User.fullname") s = Session() self.assert_compile( s.query(Game).options(joinedload(Game.users)), "SELECT game.id AS game_id, game.name AS game_name, " "user_1.id AS user_1_id, user_1.firstname AS user_1_firstname, " "user_1.lastname AS user_1_lastname, " "user_1.game_id AS user_1_game_id " 'FROM game LEFT OUTER JOIN "user" AS user_1 ON game.id = ' "user_1.game_id ORDER BY " "user_1.firstname || :firstname_1 || user_1.lastname", ) def test_string_dependency_resolution_asselectable(self): class A(Base): __tablename__ = "a" id = Column(Integer, primary_key=True) b_id = Column(ForeignKey("b.id")) d = relationship( "D", secondary="join(B, D, B.d_id == D.id)." "join(C, C.d_id == D.id)", primaryjoin="and_(A.b_id == B.id, A.id == C.a_id)", secondaryjoin="D.id == B.d_id", ) class B(Base): __tablename__ = "b" id = Column(Integer, primary_key=True) d_id = Column(ForeignKey("d.id")) class C(Base): __tablename__ = "c" id = Column(Integer, primary_key=True) a_id = Column(ForeignKey("a.id")) d_id = Column(ForeignKey("d.id")) class D(Base): __tablename__ = "d" id = Column(Integer, primary_key=True) s = Session() self.assert_compile( s.query(A).join(A.d), "SELECT a.id AS a_id, a.b_id AS a_b_id FROM a JOIN " "(b AS b_1 JOIN d AS d_1 ON b_1.d_id = d_1.id " "JOIN c AS c_1 ON c_1.d_id = d_1.id) ON a.b_id = b_1.id " "AND a.id = c_1.a_id JOIN d ON d.id = b_1.d_id", ) def test_string_dependency_resolution_no_table(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) name = Column(String(50)) class Bar(Base, fixtures.ComparableEntity): __tablename__ = "bar" id = Column(Integer, primary_key=True) rel = relationship("User", primaryjoin="User.id==Bar.__table__.id") assert_raises_message( AttributeError, "does not have a mapped column named " "'__table__'", configure_mappers, ) def test_string_w_pj_annotations(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) name = Column(String(50)) class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) email = Column(String(50)) user_id = Column(Integer) user = relationship( "User", primaryjoin="remote(User.id)==foreign(Address.user_id)" ) eq_( Address.user.property._join_condition.local_remote_pairs, [(Address.__table__.c.user_id, User.__table__.c.id)], ) def test_string_dependency_resolution_no_magic(self): """test that full tinkery expressions work as written""" class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column(Integer, primary_key=True) addresses = relationship( "Address", primaryjoin="User.id==Address.user_id.prop.columns[0]", ) class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column(Integer, primary_key=True) user_id = Column(Integer, ForeignKey("users.id")) configure_mappers() eq_( str(User.addresses.prop.primaryjoin), "users.id = addresses.user_id", ) def test_string_dependency_resolution_module_qualified(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column(Integer, primary_key=True) addresses = relationship( "%s.Address" % __name__, primaryjoin="%s.User.id==%s.Address.user_id.prop.columns[0]" % (__name__, __name__), ) class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column(Integer, primary_key=True) user_id = Column(Integer, ForeignKey("users.id")) configure_mappers() eq_( str(User.addresses.prop.primaryjoin), "users.id = addresses.user_id", ) def test_string_dependency_resolution_in_backref(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column(Integer, primary_key=True) name = Column(String(50)) addresses = relationship( "Address", primaryjoin="User.id==Address.user_id", backref="user", ) class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column(Integer, primary_key=True) email = Column(String(50)) user_id = Column(Integer, ForeignKey("users.id")) configure_mappers() eq_( str(User.addresses.property.primaryjoin), str(Address.user.property.primaryjoin), ) def test_string_dependency_resolution_tables(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column(Integer, primary_key=True) name = Column(String(50)) props = relationship( "Prop", secondary="user_to_prop", primaryjoin="User.id==user_to_prop.c.u" "ser_id", secondaryjoin="user_to_prop.c.prop_id=" "=Prop.id", backref="users", ) class Prop(Base, fixtures.ComparableEntity): __tablename__ = "props" id = Column(Integer, primary_key=True) name = Column(String(50)) user_to_prop = Table( "user_to_prop", Base.metadata, Column("user_id", Integer, ForeignKey("users.id")), Column("prop_id", Integer, ForeignKey("props.id")), ) configure_mappers() assert ( class_mapper(User).get_property("props").secondary is user_to_prop ) def test_string_dependency_resolution_schemas(self): Base = decl.declarative_base() class User(Base): __tablename__ = "users" __table_args__ = {"schema": "fooschema"} id = Column(Integer, primary_key=True) name = Column(String(50)) props = relationship( "Prop", secondary="fooschema.user_to_prop", primaryjoin="User.id==fooschema.user_to_prop.c.user_id", secondaryjoin="fooschema.user_to_prop.c.prop_id==Prop.id", backref="users", ) class Prop(Base): __tablename__ = "props" __table_args__ = {"schema": "fooschema"} id = Column(Integer, primary_key=True) name = Column(String(50)) user_to_prop = Table( "user_to_prop", Base.metadata, Column("user_id", Integer, ForeignKey("fooschema.users.id")), Column("prop_id", Integer, ForeignKey("fooschema.props.id")), schema="fooschema", ) configure_mappers() assert ( class_mapper(User).get_property("props").secondary is user_to_prop ) def test_string_dependency_resolution_annotations(self): Base = decl.declarative_base() class Parent(Base): __tablename__ = "parent" id = Column(Integer, primary_key=True) name = Column(String) children = relationship( "Child", primaryjoin="Parent.name==" "remote(foreign(func.lower(Child.name_upper)))", ) class Child(Base): __tablename__ = "child" id = Column(Integer, primary_key=True) name_upper = Column(String) configure_mappers() eq_( Parent.children.property._calculated_foreign_keys, set([Child.name_upper.property.columns[0]]), ) def test_shared_class_registry(self): reg = {} Base1 = decl.declarative_base(testing.db, class_registry=reg) Base2 = decl.declarative_base(testing.db, class_registry=reg) class A(Base1): __tablename__ = "a" id = Column(Integer, primary_key=True) class B(Base2): __tablename__ = "b" id = Column(Integer, primary_key=True) aid = Column(Integer, ForeignKey(A.id)) as_ = relationship("A") assert B.as_.property.mapper.class_ is A def test_uncompiled_attributes_in_relationship(self): class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) email = Column(String(50)) user_id = Column(Integer, ForeignKey("users.id")) class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) name = Column(String(50)) addresses = relationship( "Address", order_by=Address.email, foreign_keys=Address.user_id, remote_side=Address.user_id, ) # get the mapper for User. User mapper will compile, # "addresses" relationship will call upon Address.user_id for # its clause element. Address.user_id is a _CompileOnAttr, # which then calls class_mapper(Address). But ! We're already # "in compilation", but class_mapper(Address) needs to # initialize regardless, or COA's assertion fails and things # generally go downhill from there. class_mapper(User) Base.metadata.create_all() sess = create_session() u1 = User( name="ed", addresses=[ Address(email="abc"), Address(email="xyz"), Address(email="def"), ], ) sess.add(u1) sess.flush() sess.expunge_all() eq_( sess.query(User).filter(User.name == "ed").one(), User( name="ed", addresses=[ Address(email="abc"), Address(email="def"), Address(email="xyz"), ], ), ) def test_nice_dependency_error(self): class User(Base): __tablename__ = "users" id = Column("id", Integer, primary_key=True) addresses = relationship("Address") class Address(Base): __tablename__ = "addresses" id = Column(Integer, primary_key=True) foo = sa.orm.column_property(User.id == 5) # this used to raise an error when accessing User.id but that's # no longer the case since we got rid of _CompileOnAttr. assert_raises(sa.exc.ArgumentError, configure_mappers) def test_nice_dependency_error_works_with_hasattr(self): class User(Base): __tablename__ = "users" id = Column("id", Integer, primary_key=True) addresses = relationship("Address") # hasattr() on a compile-loaded attribute try: hasattr(User.addresses, "property") except exc.InvalidRequestError: assert sa.util.compat.py32 # the exception is preserved. Remains the # same through repeated calls. for i in range(3): assert_raises_message( sa.exc.InvalidRequestError, "^One or more mappers failed to initialize" " - can't proceed with initialization of other mappers. " r"Triggering mapper: 'mapped class User->users'. " "Original exception was: When initializing.*", configure_mappers, ) def test_custom_base(self): class MyBase(object): def foobar(self): return "foobar" Base = decl.declarative_base(cls=MyBase) assert hasattr(Base, "metadata") assert Base().foobar() == "foobar" def test_uses_get_on_class_col_fk(self): # test [ticket:1492] class Master(Base): __tablename__ = "master" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) class Detail(Base): __tablename__ = "detail" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) master_id = Column(None, ForeignKey(Master.id)) master = relationship(Master) Base.metadata.create_all() configure_mappers() assert class_mapper(Detail).get_property("master").strategy.use_get m1 = Master() d1 = Detail(master=m1) sess = create_session() sess.add(d1) sess.flush() sess.expunge_all() d1 = sess.query(Detail).first() m1 = sess.query(Master).first() def go(): assert d1.master self.assert_sql_count(testing.db, go, 0) def test_index_doesnt_compile(self): class User(Base): __tablename__ = "users" id = Column("id", Integer, primary_key=True) name = Column("name", String(50)) error = relationship("Address") i = Index("my_index", User.name) # compile fails due to the nonexistent Addresses relationship assert_raises(sa.exc.InvalidRequestError, configure_mappers) # index configured assert i in User.__table__.indexes assert User.__table__.c.id not in set(i.columns) assert User.__table__.c.name in set(i.columns) # tables create fine Base.metadata.create_all() def test_add_prop(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) User.name = Column("name", String(50)) User.addresses = relationship("Address", backref="user") class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) Address.email = Column(String(50), key="_email") Address.user_id = Column( "user_id", Integer, ForeignKey("users.id"), key="_user_id" ) Base.metadata.create_all() eq_(Address.__table__.c["id"].name, "id") eq_(Address.__table__.c["_email"].name, "email") eq_(Address.__table__.c["_user_id"].name, "user_id") u1 = User( name="u1", addresses=[Address(email="one"), Address(email="two")] ) sess = create_session() sess.add(u1) sess.flush() sess.expunge_all() eq_( sess.query(User).all(), [ User( name="u1", addresses=[Address(email="one"), Address(email="two")], ) ], ) a1 = sess.query(Address).filter(Address.email == "two").one() eq_(a1, Address(email="two")) eq_(a1.user, User(name="u1")) def test_alt_name_attr_subclass_column_inline(self): # [ticket:2900] class A(Base): __tablename__ = "a" id = Column("id", Integer, primary_key=True) data = Column("data") class ASub(A): brap = A.data assert ASub.brap.property is A.data.property assert isinstance( ASub.brap.original_property, properties.SynonymProperty ) def test_alt_name_attr_subclass_relationship_inline(self): # [ticket:2900] class A(Base): __tablename__ = "a" id = Column("id", Integer, primary_key=True) b_id = Column(Integer, ForeignKey("b.id")) b = relationship("B", backref="as_") class B(Base): __tablename__ = "b" id = Column("id", Integer, primary_key=True) configure_mappers() class ASub(A): brap = A.b assert ASub.brap.property is A.b.property assert isinstance( ASub.brap.original_property, properties.SynonymProperty ) ASub(brap=B()) def test_alt_name_attr_subclass_column_attrset(self): # [ticket:2900] class A(Base): __tablename__ = "a" id = Column("id", Integer, primary_key=True) data = Column("data") A.brap = A.data assert A.brap.property is A.data.property assert isinstance(A.brap.original_property, properties.SynonymProperty) def test_alt_name_attr_subclass_relationship_attrset(self): # [ticket:2900] class A(Base): __tablename__ = "a" id = Column("id", Integer, primary_key=True) b_id = Column(Integer, ForeignKey("b.id")) b = relationship("B", backref="as_") A.brap = A.b class B(Base): __tablename__ = "b" id = Column("id", Integer, primary_key=True) assert A.brap.property is A.b.property assert isinstance(A.brap.original_property, properties.SynonymProperty) A(brap=B()) def test_eager_order_by(self): class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) email = Column("email", String(50)) user_id = Column("user_id", Integer, ForeignKey("users.id")) class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) addresses = relationship("Address", order_by=Address.email) Base.metadata.create_all() u1 = User( name="u1", addresses=[Address(email="two"), Address(email="one")] ) sess = create_session() sess.add(u1) sess.flush() sess.expunge_all() eq_( sess.query(User).options(joinedload(User.addresses)).all(), [ User( name="u1", addresses=[Address(email="one"), Address(email="two")], ) ], ) def test_order_by_multi(self): class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) email = Column("email", String(50)) user_id = Column("user_id", Integer, ForeignKey("users.id")) class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) addresses = relationship( "Address", order_by=(Address.email, Address.id) ) Base.metadata.create_all() u1 = User( name="u1", addresses=[Address(email="two"), Address(email="one")] ) sess = create_session() sess.add(u1) sess.flush() sess.expunge_all() u = sess.query(User).filter(User.name == "u1").one() u.addresses def test_as_declarative(self): class User(fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) addresses = relationship("Address", backref="user") class Address(fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) email = Column("email", String(50)) user_id = Column("user_id", Integer, ForeignKey("users.id")) reg = {} decl.instrument_declarative(User, reg, Base.metadata) decl.instrument_declarative(Address, reg, Base.metadata) Base.metadata.create_all() u1 = User( name="u1", addresses=[Address(email="one"), Address(email="two")] ) sess = create_session() sess.add(u1) sess.flush() sess.expunge_all() eq_( sess.query(User).all(), [ User( name="u1", addresses=[Address(email="one"), Address(email="two")], ) ], ) def test_custom_mapper_attribute(self): def mymapper(cls, tbl, **kwargs): m = sa.orm.mapper(cls, tbl, **kwargs) m.CHECK = True return m base = decl.declarative_base() class Foo(base): __tablename__ = "foo" __mapper_cls__ = mymapper id = Column(Integer, primary_key=True) eq_(Foo.__mapper__.CHECK, True) def test_custom_mapper_argument(self): def mymapper(cls, tbl, **kwargs): m = sa.orm.mapper(cls, tbl, **kwargs) m.CHECK = True return m base = decl.declarative_base(mapper=mymapper) class Foo(base): __tablename__ = "foo" id = Column(Integer, primary_key=True) eq_(Foo.__mapper__.CHECK, True) def test_no_change_to_all_descriptors(self): base = decl.declarative_base() class Foo(base): __tablename__ = "foo" id = Column(Integer, primary_key=True) eq_(Foo.__mapper__.all_orm_descriptors.keys(), ["id"]) def test_oops(self): with testing.expect_warnings( "Ignoring declarative-like tuple value of " "attribute 'name'" ): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column("id", Integer, primary_key=True) name = (Column("name", String(50)),) def test_table_args_no_dict(self): class Foo1(Base): __tablename__ = "foo" __table_args__ = (ForeignKeyConstraint(["id"], ["foo.bar"]),) id = Column("id", Integer, primary_key=True) bar = Column("bar", Integer) assert Foo1.__table__.c.id.references(Foo1.__table__.c.bar) def test_table_args_type(self): def err(): class Foo1(Base): __tablename__ = "foo" __table_args__ = ForeignKeyConstraint(["id"], ["foo.id"]) id = Column("id", Integer, primary_key=True) assert_raises_message( sa.exc.ArgumentError, "__table_args__ value must be a tuple, ", err ) def test_table_args_none(self): class Foo2(Base): __tablename__ = "foo" __table_args__ = None id = Column("id", Integer, primary_key=True) assert Foo2.__table__.kwargs == {} def test_table_args_dict_format(self): class Foo2(Base): __tablename__ = "foo" __table_args__ = {"mysql_engine": "InnoDB"} id = Column("id", Integer, primary_key=True) assert Foo2.__table__.kwargs["mysql_engine"] == "InnoDB" def test_table_args_tuple_format(self): class Foo2(Base): __tablename__ = "foo" __table_args__ = {"mysql_engine": "InnoDB"} id = Column("id", Integer, primary_key=True) class Bar(Base): __tablename__ = "bar" __table_args__ = ( ForeignKeyConstraint(["id"], ["foo.id"]), {"mysql_engine": "InnoDB"}, ) id = Column("id", Integer, primary_key=True) assert Bar.__table__.c.id.references(Foo2.__table__.c.id) assert Bar.__table__.kwargs["mysql_engine"] == "InnoDB" def test_table_cls_attribute(self): class Foo(Base): __tablename__ = "foo" @classmethod def __table_cls__(cls, *arg, **kw): name = arg[0] return Table(name + "bat", *arg[1:], **kw) id = Column(Integer, primary_key=True) eq_(Foo.__table__.name, "foobat") def test_table_cls_attribute_return_none(self): from sqlalchemy.schema import Column, PrimaryKeyConstraint class AutoTable(object): @declared_attr def __tablename__(cls): return cls.__name__ @classmethod def __table_cls__(cls, *arg, **kw): for obj in arg[1:]: if ( isinstance(obj, Column) and obj.primary_key ) or isinstance(obj, PrimaryKeyConstraint): return Table(*arg, **kw) return None class Person(AutoTable, Base): id = Column(Integer, primary_key=True) class Employee(Person): employee_name = Column(String) is_(inspect(Employee).local_table, Person.__table__) def test_expression(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) addresses = relationship("Address", backref="user") class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) email = Column("email", String(50)) user_id = Column("user_id", Integer, ForeignKey("users.id")) User.address_count = sa.orm.column_property( sa.select([sa.func.count(Address.id)]) .where(Address.user_id == User.id) .scalar_subquery() ) Base.metadata.create_all() u1 = User( name="u1", addresses=[Address(email="one"), Address(email="two")] ) sess = create_session() sess.add(u1) sess.flush() sess.expunge_all() eq_( sess.query(User).all(), [ User( name="u1", address_count=2, addresses=[Address(email="one"), Address(email="two")], ) ], ) def test_useless_declared_attr(self): class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) email = Column("email", String(50)) user_id = Column("user_id", Integer, ForeignKey("users.id")) class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) addresses = relationship("Address", backref="user") @declared_attr def address_count(cls): # this doesn't really gain us anything. but if # one is used, lets have it function as expected... return sa.orm.column_property( sa.select([sa.func.count(Address.id)]) .where(Address.user_id == cls.id) .scalar_subquery() ) Base.metadata.create_all() u1 = User( name="u1", addresses=[Address(email="one"), Address(email="two")] ) sess = create_session() sess.add(u1) sess.flush() sess.expunge_all() eq_( sess.query(User).all(), [ User( name="u1", address_count=2, addresses=[Address(email="one"), Address(email="two")], ) ], ) def test_declared_on_base_class(self): class MyBase(Base): __tablename__ = "foo" id = Column(Integer, primary_key=True) @declared_attr def somecol(cls): return Column(Integer) class MyClass(MyBase): __tablename__ = "bar" id = Column(Integer, ForeignKey("foo.id"), primary_key=True) # previously, the 'somecol' declared_attr would be ignored # by the mapping and would remain unused. now we take # it as part of MyBase. assert "somecol" in MyBase.__table__.c assert "somecol" not in MyClass.__table__.c def test_decl_cascading_warns_non_mixin(self): with expect_warnings( "Use of @declared_attr.cascading only applies to " "Declarative 'mixin' and 'abstract' classes. " "Currently, this flag is ignored on mapped class " "" ): class MyBase(Base): __tablename__ = "foo" id = Column(Integer, primary_key=True) @declared_attr.cascading def somecol(cls): return Column(Integer) def test_column(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) User.a = Column("a", String(10)) User.b = Column(String(10)) Base.metadata.create_all() u1 = User(name="u1", a="a", b="b") eq_(u1.a, "a") eq_(User.a.get_history(u1), (["a"], (), ())) sess = create_session() sess.add(u1) sess.flush() sess.expunge_all() eq_(sess.query(User).all(), [User(name="u1", a="a", b="b")]) def test_column_properties(self): class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) email = Column(String(50)) user_id = Column(Integer, ForeignKey("users.id")) class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) adr_count = sa.orm.column_property( sa.select( [sa.func.count(Address.id)], Address.user_id == id ).scalar_subquery() ) addresses = relationship(Address) Base.metadata.create_all() u1 = User( name="u1", addresses=[Address(email="one"), Address(email="two")] ) sess = create_session() sess.add(u1) sess.flush() sess.expunge_all() eq_( sess.query(User).all(), [ User( name="u1", adr_count=2, addresses=[Address(email="one"), Address(email="two")], ) ], ) def test_column_properties_2(self): class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column(Integer, primary_key=True) email = Column(String(50)) user_id = Column(Integer, ForeignKey("users.id")) class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column("id", Integer, primary_key=True) name = Column("name", String(50)) # this is not "valid" but we want to test that Address.id # doesn't get stuck into user's table adr_count = Address.id eq_(set(User.__table__.c.keys()), set(["id", "name"])) eq_(set(Address.__table__.c.keys()), set(["id", "email", "user_id"])) def test_deferred(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) name = sa.orm.deferred(Column(String(50))) Base.metadata.create_all() sess = create_session() sess.add(User(name="u1")) sess.flush() sess.expunge_all() u1 = sess.query(User).filter(User.name == "u1").one() assert "name" not in u1.__dict__ def go(): eq_(u1.name, "u1") self.assert_sql_count(testing.db, go, 1) def test_composite_inline(self): class AddressComposite(fixtures.ComparableEntity): def __init__(self, street, state): self.street = street self.state = state def __composite_values__(self): return [self.street, self.state] class User(Base, fixtures.ComparableEntity): __tablename__ = "user" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) address = composite( AddressComposite, Column("street", String(50)), Column("state", String(2)), ) Base.metadata.create_all() sess = Session() sess.add(User(address=AddressComposite("123 anywhere street", "MD"))) sess.commit() eq_( sess.query(User).all(), [User(address=AddressComposite("123 anywhere street", "MD"))], ) def test_composite_separate(self): class AddressComposite(fixtures.ComparableEntity): def __init__(self, street, state): self.street = street self.state = state def __composite_values__(self): return [self.street, self.state] class User(Base, fixtures.ComparableEntity): __tablename__ = "user" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) street = Column(String(50)) state = Column(String(2)) address = composite(AddressComposite, street, state) Base.metadata.create_all() sess = Session() sess.add(User(address=AddressComposite("123 anywhere street", "MD"))) sess.commit() eq_( sess.query(User).all(), [User(address=AddressComposite("123 anywhere street", "MD"))], ) def test_mapping_to_join(self): users = Table( "users", Base.metadata, Column("id", Integer, primary_key=True) ) addresses = Table( "addresses", Base.metadata, Column("id", Integer, primary_key=True), Column("user_id", Integer, ForeignKey("users.id")), ) usersaddresses = sa.join( users, addresses, users.c.id == addresses.c.user_id ) class User(Base): __table__ = usersaddresses __table_args__ = {"primary_key": [users.c.id]} # need to use column_property for now user_id = column_property(users.c.id, addresses.c.user_id) address_id = addresses.c.id assert User.__mapper__.get_property("user_id").columns[0] is users.c.id assert ( User.__mapper__.get_property("user_id").columns[1] is addresses.c.user_id ) def test_synonym_inline(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) _name = Column("name", String(50)) def _set_name(self, name): self._name = "SOMENAME " + name def _get_name(self): return self._name name = sa.orm.synonym( "_name", descriptor=property(_get_name, _set_name) ) Base.metadata.create_all() sess = create_session() u1 = User(name="someuser") eq_(u1.name, "SOMENAME someuser") sess.add(u1) sess.flush() eq_( sess.query(User).filter(User.name == "SOMENAME someuser").one(), u1 ) def test_synonym_no_descriptor(self): from sqlalchemy.orm.properties import ColumnProperty class CustomCompare(ColumnProperty.Comparator): __hash__ = None def __eq__(self, other): return self.__clause_element__() == other + " FOO" class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) _name = Column("name", String(50)) name = sa.orm.synonym("_name", comparator_factory=CustomCompare) Base.metadata.create_all() sess = create_session() u1 = User(name="someuser FOO") sess.add(u1) sess.flush() eq_(sess.query(User).filter(User.name == "someuser").one(), u1) def test_synonym_added(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) _name = Column("name", String(50)) def _set_name(self, name): self._name = "SOMENAME " + name def _get_name(self): return self._name name = property(_get_name, _set_name) User.name = sa.orm.synonym("_name", descriptor=User.name) Base.metadata.create_all() sess = create_session() u1 = User(name="someuser") eq_(u1.name, "SOMENAME someuser") sess.add(u1) sess.flush() eq_( sess.query(User).filter(User.name == "SOMENAME someuser").one(), u1 ) def test_reentrant_compile_via_foreignkey(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) addresses = relationship("Address", backref="user") class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) email = Column("email", String(50)) user_id = Column("user_id", Integer, ForeignKey(User.id)) # previous versions would force a re-entrant mapper compile via # the User.id inside the ForeignKey but this is no longer the # case sa.orm.configure_mappers() eq_( list(Address.user_id.property.columns[0].foreign_keys)[0].column, User.__table__.c.id, ) Base.metadata.create_all() u1 = User( name="u1", addresses=[Address(email="one"), Address(email="two")] ) sess = create_session() sess.add(u1) sess.flush() sess.expunge_all() eq_( sess.query(User).all(), [ User( name="u1", addresses=[Address(email="one"), Address(email="two")], ) ], ) def test_relationship_reference(self): class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) email = Column("email", String(50)) user_id = Column("user_id", Integer, ForeignKey("users.id")) class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) addresses = relationship( "Address", backref="user", primaryjoin=id == Address.user_id ) User.address_count = sa.orm.column_property( sa.select([sa.func.count(Address.id)]) .where(Address.user_id == User.id) .scalar_subquery() ) Base.metadata.create_all() u1 = User( name="u1", addresses=[Address(email="one"), Address(email="two")] ) sess = create_session() sess.add(u1) sess.flush() sess.expunge_all() eq_( sess.query(User).all(), [ User( name="u1", address_count=2, addresses=[Address(email="one"), Address(email="two")], ) ], ) def test_pk_with_fk_init(self): class Bar(Base): __tablename__ = "bar" id = sa.Column( sa.Integer, sa.ForeignKey("foo.id"), primary_key=True ) ex = sa.Column(sa.Integer, primary_key=True) class Foo(Base): __tablename__ = "foo" id = sa.Column(sa.Integer, primary_key=True) bars = sa.orm.relationship(Bar) assert Bar.__mapper__.primary_key[0] is Bar.__table__.c.id assert Bar.__mapper__.primary_key[1] is Bar.__table__.c.ex def test_with_explicit_autoloaded(self): meta = MetaData(testing.db) t1 = Table( "t1", meta, Column("id", String(50), primary_key=True), Column("data", String(50)), ) meta.create_all() try: class MyObj(Base): __table__ = Table("t1", Base.metadata, autoload=True) sess = create_session() m = MyObj(id="someid", data="somedata") sess.add(m) sess.flush() eq_(t1.select().execute().fetchall(), [("someid", "somedata")]) finally: meta.drop_all() def test_synonym_for(self): class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ) name = Column("name", String(50)) @decl.synonym_for("name") @property def namesyn(self): return self.name Base.metadata.create_all() sess = create_session() u1 = User(name="someuser") eq_(u1.name, "someuser") eq_(u1.namesyn, "someuser") sess.add(u1) sess.flush() rt = sess.query(User).filter(User.namesyn == "someuser").one() eq_(rt, u1) def test_duplicate_classes_in_base(self): class Test(Base): __tablename__ = "a" id = Column(Integer, primary_key=True) assert_raises_message( sa.exc.SAWarning, "This declarative base already contains a class with ", lambda: type(Base)( "Test", (Base,), dict(__tablename__="b", id=Column(Integer, primary_key=True)), ), ) @testing.teardown_events(MapperEvents) def test_instrument_class_before_instrumentation(self): # test #3388 canary = mock.Mock() @event.listens_for(mapper, "instrument_class") def instrument_class(mp, cls): canary.instrument_class(mp, cls) @event.listens_for(object, "class_instrument") def class_instrument(cls): canary.class_instrument(cls) class Test(Base): __tablename__ = "test" id = Column(Integer, primary_key=True) eq_( canary.mock_calls, [ mock.call.instrument_class(Test.__mapper__, Test), mock.call.class_instrument(Test), ], ) def test_cls_docstring(self): class MyBase(object): """MyBase Docstring""" Base = decl.declarative_base(cls=MyBase) eq_(Base.__doc__, MyBase.__doc__) def test_delattr_mapped_raises(self): Base = decl.declarative_base() class Foo(Base): __tablename__ = "foo" id = Column(Integer, primary_key=True) data = Column(String) def go(): del Foo.data assert_raises_message( NotImplementedError, "Can't un-map individual mapped attributes on a mapped class.", go, ) def test_delattr_hybrid_fine(self): Base = decl.declarative_base() class Foo(Base): __tablename__ = "foo" id = Column(Integer, primary_key=True) data = Column(String) @hybrid_property def data_hybrid(self): return self.data assert "data_hybrid" in Foo.__mapper__.all_orm_descriptors.keys() del Foo.data_hybrid assert "data_hybrid" not in Foo.__mapper__.all_orm_descriptors.keys() assert not hasattr(Foo, "data_hybrid") def test_setattr_hybrid_updates_descriptors(self): Base = decl.declarative_base() class Foo(Base): __tablename__ = "foo" id = Column(Integer, primary_key=True) data = Column(String) assert "data_hybrid" not in Foo.__mapper__.all_orm_descriptors.keys() @hybrid_property def data_hybrid(self): return self.data Foo.data_hybrid = data_hybrid assert "data_hybrid" in Foo.__mapper__.all_orm_descriptors.keys() del Foo.data_hybrid assert "data_hybrid" not in Foo.__mapper__.all_orm_descriptors.keys() assert not hasattr(Foo, "data_hybrid") def _produce_test(inline, stringbased): class ExplicitJoinTest(fixtures.MappedTest): @classmethod def define_tables(cls, metadata): global User, Address Base = decl.declarative_base(metadata=metadata) class User(Base, fixtures.ComparableEntity): __tablename__ = "users" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) name = Column(String(50)) class Address(Base, fixtures.ComparableEntity): __tablename__ = "addresses" id = Column( Integer, primary_key=True, test_needs_autoincrement=True ) email = Column(String(50)) user_id = Column(Integer, ForeignKey("users.id")) if inline: if stringbased: user = relationship( "User", primaryjoin="User.id==Address.user_id", backref="addresses", ) else: user = relationship( User, primaryjoin=User.id == user_id, backref="addresses", ) if not inline: configure_mappers() if stringbased: Address.user = relationship( "User", primaryjoin="User.id==Address.user_id", backref="addresses", ) else: Address.user = relationship( User, primaryjoin=User.id == Address.user_id, backref="addresses", ) @classmethod def insert_data(cls): params = [ dict(list(zip(("id", "name"), column_values))) for column_values in [ (7, "jack"), (8, "ed"), (9, "fred"), (10, "chuck"), ] ] User.__table__.insert().execute(params) Address.__table__.insert().execute( [ dict(list(zip(("id", "user_id", "email"), column_values))) for column_values in [ (1, 7, "jack@bean.com"), (2, 8, "ed@wood.com"), (3, 8, "ed@bettyboop.com"), (4, 8, "ed@lala.com"), (5, 9, "fred@fred.com"), ] ] ) def test_aliased_join(self): # this query will screw up if the aliasing enabled in # query.join() gets applied to the right half of the join # condition inside the any(). the join condition inside of # any() comes from the "primaryjoin" of the relationship, # and should not be annotated with _orm_adapt. # PropertyLoader.Comparator will annotate the left side with # _orm_adapt, though. sess = create_session() eq_( sess.query(User) .join(User.addresses, aliased=True) .filter(Address.email == "ed@wood.com") .filter(User.addresses.any(Address.email == "jack@bean.com")) .all(), [], ) ExplicitJoinTest.__name__ = "ExplicitJoinTest%s%s" % ( inline and "Inline" or "Separate", stringbased and "String" or "Literal", ) return ExplicitJoinTest for inline in True, False: for stringbased in True, False: testclass = _produce_test(inline, stringbased) exec("%s = testclass" % testclass.__name__) del testclass