from sqlalchemy.testing import eq_, assert_raises, \ assert_raises_message, is_, is_true, is_false from sqlalchemy.ext import declarative as decl import sqlalchemy as sa from sqlalchemy import testing from sqlalchemy import Integer, String, ForeignKey from sqlalchemy.testing.schema import Table, Column from sqlalchemy.orm import relationship, create_session, class_mapper, \ configure_mappers, clear_mappers, \ polymorphic_union, deferred, Session from sqlalchemy.ext.declarative import declared_attr, AbstractConcreteBase, \ ConcreteBase, has_inherited_table from sqlalchemy.testing import fixtures, mock from test.orm.test_events import _RemoveListeners Base = None class DeclarativeTestBase(fixtures.TestBase, testing.AssertsExecutionResults): def setup(self): global Base Base = decl.declarative_base(testing.db) def teardown(self): Session.close_all() clear_mappers() Base.metadata.drop_all() class DeclarativeInheritanceTest(DeclarativeTestBase): def test_we_must_copy_mapper_args(self): class Person(Base): __tablename__ = 'people' id = Column(Integer, primary_key=True) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator, 'polymorphic_identity': 'person'} class Engineer(Person): primary_language = Column(String(50)) assert 'inherits' not in Person.__mapper_args__ assert class_mapper(Engineer).polymorphic_identity is None assert class_mapper(Engineer).polymorphic_on is Person.__table__.c.type def test_we_must_only_copy_column_mapper_args(self): class Person(Base): __tablename__ = 'people' id = Column(Integer, primary_key=True) a = Column(Integer) b = Column(Integer) c = Column(Integer) d = Column(Integer) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator, 'polymorphic_identity': 'person', 'version_id_col': 'a', 'column_prefix': 'bar', 'include_properties': ['id', 'a', 'b'], } assert class_mapper(Person).version_id_col == 'a' assert class_mapper(Person).include_properties == set(['id', 'a', 'b']) def test_custom_join_condition(self): class Foo(Base): __tablename__ = 'foo' id = Column('id', Integer, primary_key=True) class Bar(Foo): __tablename__ = 'bar' bar_id = Column('id', Integer, primary_key=True) foo_id = Column('foo_id', Integer) __mapper_args__ = {'inherit_condition': foo_id == Foo.id} # compile succeeds because inherit_condition is honored configure_mappers() def test_joined(self): class Company(Base, fixtures.ComparableEntity): __tablename__ = 'companies' id = Column('id', Integer, primary_key=True, test_needs_autoincrement=True) name = Column('name', String(50)) employees = relationship('Person') class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column('id', Integer, primary_key=True, test_needs_autoincrement=True) company_id = Column('company_id', Integer, ForeignKey('companies.id')) name = Column('name', String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Engineer(Person): __tablename__ = 'engineers' __mapper_args__ = {'polymorphic_identity': 'engineer'} id = Column('id', Integer, ForeignKey('people.id'), primary_key=True) primary_language = Column('primary_language', String(50)) class Manager(Person): __tablename__ = 'managers' __mapper_args__ = {'polymorphic_identity': 'manager'} id = Column('id', Integer, ForeignKey('people.id'), primary_key=True) golf_swing = Column('golf_swing', String(50)) Base.metadata.create_all() sess = create_session() c1 = Company( name='MegaCorp, Inc.', employees=[ Engineer(name='dilbert', primary_language='java'), Engineer(name='wally', primary_language='c++'), Manager(name='dogbert', golf_swing='fore!')]) c2 = Company(name='Elbonia, Inc.', employees=[Engineer(name='vlad', primary_language='cobol')]) sess.add(c1) sess.add(c2) sess.flush() sess.expunge_all() eq_(sess.query(Company).filter(Company.employees.of_type(Engineer). any(Engineer.primary_language == 'cobol')).first(), c2) # ensure that the Manager mapper was compiled with the Manager id # column as higher priority. this ensures that "Manager.id" # is appropriately treated as the "id" column in the "manager" # table (reversed from 0.6's behavior.) eq_( Manager.id.property.columns, [Manager.__table__.c.id, Person.__table__.c.id] ) # assert that the "id" column is available without a second # load. as of 0.7, the ColumnProperty tests all columns # in its list to see which is present in the row. sess.expunge_all() def go(): assert sess.query(Manager).filter(Manager.name == 'dogbert' ).one().id self.assert_sql_count(testing.db, go, 1) sess.expunge_all() def go(): assert sess.query(Person).filter(Manager.name == 'dogbert' ).one().id self.assert_sql_count(testing.db, go, 1) def test_add_subcol_after_the_fact(self): class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column('id', Integer, primary_key=True, test_needs_autoincrement=True) name = Column('name', String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Engineer(Person): __tablename__ = 'engineers' __mapper_args__ = {'polymorphic_identity': 'engineer'} id = Column('id', Integer, ForeignKey('people.id'), primary_key=True) Engineer.primary_language = Column('primary_language', String(50)) Base.metadata.create_all() sess = create_session() e1 = Engineer(primary_language='java', name='dilbert') sess.add(e1) sess.flush() sess.expunge_all() eq_(sess.query(Person).first(), Engineer(primary_language='java', name='dilbert')) def test_add_parentcol_after_the_fact(self): class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column('id', Integer, primary_key=True, test_needs_autoincrement=True) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Engineer(Person): __tablename__ = 'engineers' __mapper_args__ = {'polymorphic_identity': 'engineer'} primary_language = Column(String(50)) id = Column('id', Integer, ForeignKey('people.id'), primary_key=True) Person.name = Column('name', String(50)) Base.metadata.create_all() sess = create_session() e1 = Engineer(primary_language='java', name='dilbert') sess.add(e1) sess.flush() sess.expunge_all() eq_(sess.query(Person).first(), Engineer(primary_language='java', name='dilbert')) def test_add_sub_parentcol_after_the_fact(self): class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column('id', Integer, primary_key=True, test_needs_autoincrement=True) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Engineer(Person): __tablename__ = 'engineers' __mapper_args__ = {'polymorphic_identity': 'engineer'} primary_language = Column(String(50)) id = Column('id', Integer, ForeignKey('people.id'), primary_key=True) class Admin(Engineer): __tablename__ = 'admins' __mapper_args__ = {'polymorphic_identity': 'admin'} workstation = Column(String(50)) id = Column('id', Integer, ForeignKey('engineers.id'), primary_key=True) Person.name = Column('name', String(50)) Base.metadata.create_all() sess = create_session() e1 = Admin(primary_language='java', name='dilbert', workstation='foo') sess.add(e1) sess.flush() sess.expunge_all() eq_(sess.query(Person).first(), Admin(primary_language='java', name='dilbert', workstation='foo')) def test_subclass_mixin(self): class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column('id', Integer, primary_key=True) name = Column('name', String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class MyMixin(object): pass class Engineer(MyMixin, Person): __tablename__ = 'engineers' __mapper_args__ = {'polymorphic_identity': 'engineer'} id = Column('id', Integer, ForeignKey('people.id'), primary_key=True) primary_language = Column('primary_language', String(50)) assert class_mapper(Engineer).inherits is class_mapper(Person) def test_with_undefined_foreignkey(self): class Parent(Base): __tablename__ = 'parent' id = Column('id', Integer, primary_key=True) tp = Column('type', String(50)) __mapper_args__ = dict(polymorphic_on=tp) class Child1(Parent): __tablename__ = 'child1' id = Column('id', Integer, ForeignKey('parent.id'), primary_key=True) related_child2 = Column('c2', Integer, ForeignKey('child2.id')) __mapper_args__ = dict(polymorphic_identity='child1') # no exception is raised by the ForeignKey to "child2" even # though child2 doesn't exist yet class Child2(Parent): __tablename__ = 'child2' id = Column('id', Integer, ForeignKey('parent.id'), primary_key=True) related_child1 = Column('c1', Integer) __mapper_args__ = dict(polymorphic_identity='child2') sa.orm.configure_mappers() # no exceptions here def test_foreign_keys_with_col(self): """Test that foreign keys that reference a literal 'id' subclass 'id' attribute behave intuitively. See [ticket:1892]. """ class Booking(Base): __tablename__ = 'booking' id = Column(Integer, primary_key=True) class PlanBooking(Booking): __tablename__ = 'plan_booking' id = Column(Integer, ForeignKey(Booking.id), primary_key=True) # referencing PlanBooking.id gives us the column # on plan_booking, not booking class FeatureBooking(Booking): __tablename__ = 'feature_booking' id = Column(Integer, ForeignKey(Booking.id), primary_key=True) plan_booking_id = Column(Integer, ForeignKey(PlanBooking.id)) plan_booking = relationship(PlanBooking, backref='feature_bookings') assert FeatureBooking.__table__.c.plan_booking_id.\ references(PlanBooking.__table__.c.id) assert FeatureBooking.__table__.c.id.\ references(Booking.__table__.c.id) def test_single_colsonbase(self): """test single inheritance where all the columns are on the base class.""" class Company(Base, fixtures.ComparableEntity): __tablename__ = 'companies' id = Column('id', Integer, primary_key=True, test_needs_autoincrement=True) name = Column('name', String(50)) employees = relationship('Person') class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column('id', Integer, primary_key=True, test_needs_autoincrement=True) company_id = Column('company_id', Integer, ForeignKey('companies.id')) name = Column('name', String(50)) discriminator = Column('type', String(50)) primary_language = Column('primary_language', String(50)) golf_swing = Column('golf_swing', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Engineer(Person): __mapper_args__ = {'polymorphic_identity': 'engineer'} class Manager(Person): __mapper_args__ = {'polymorphic_identity': 'manager'} Base.metadata.create_all() sess = create_session() c1 = Company( name='MegaCorp, Inc.', employees=[ Engineer(name='dilbert', primary_language='java'), Engineer(name='wally', primary_language='c++'), Manager(name='dogbert', golf_swing='fore!')]) c2 = Company(name='Elbonia, Inc.', employees=[Engineer(name='vlad', primary_language='cobol')]) sess.add(c1) sess.add(c2) sess.flush() sess.expunge_all() eq_(sess.query(Person).filter(Engineer.primary_language == 'cobol').first(), Engineer(name='vlad')) eq_(sess.query(Company).filter(Company.employees.of_type(Engineer). any(Engineer.primary_language == 'cobol')).first(), c2) def test_single_colsonsub(self): """test single inheritance where the columns are local to their class. this is a newer usage. """ class Company(Base, fixtures.ComparableEntity): __tablename__ = 'companies' id = Column('id', Integer, primary_key=True, test_needs_autoincrement=True) name = Column('name', String(50)) employees = relationship('Person') class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column(Integer, primary_key=True, test_needs_autoincrement=True) company_id = Column(Integer, ForeignKey('companies.id')) name = Column(String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Engineer(Person): __mapper_args__ = {'polymorphic_identity': 'engineer'} primary_language = Column(String(50)) class Manager(Person): __mapper_args__ = {'polymorphic_identity': 'manager'} golf_swing = Column(String(50)) # we have here a situation that is somewhat unique. the Person # class is mapped to the "people" table, but it was mapped when # the table did not include the "primary_language" or # "golf_swing" columns. declarative will also manipulate the # exclude_properties collection so that sibling classes don't # cross-pollinate. assert Person.__table__.c.company_id is not None assert Person.__table__.c.golf_swing is not None assert Person.__table__.c.primary_language is not None assert Engineer.primary_language is not None assert Manager.golf_swing is not None assert not hasattr(Person, 'primary_language') assert not hasattr(Person, 'golf_swing') assert not hasattr(Engineer, 'golf_swing') assert not hasattr(Manager, 'primary_language') Base.metadata.create_all() sess = create_session() e1 = Engineer(name='dilbert', primary_language='java') e2 = Engineer(name='wally', primary_language='c++') m1 = Manager(name='dogbert', golf_swing='fore!') c1 = Company(name='MegaCorp, Inc.', employees=[e1, e2, m1]) e3 = Engineer(name='vlad', primary_language='cobol') c2 = Company(name='Elbonia, Inc.', employees=[e3]) sess.add(c1) sess.add(c2) sess.flush() sess.expunge_all() eq_(sess.query(Person).filter(Engineer.primary_language == 'cobol').first(), Engineer(name='vlad')) eq_(sess.query(Company).filter(Company.employees.of_type(Engineer). any(Engineer.primary_language == 'cobol')).first(), c2) eq_(sess.query(Engineer).filter_by(primary_language='cobol' ).one(), Engineer(name='vlad', primary_language='cobol')) def test_single_cols_on_sub_base_of_joined(self): """test [ticket:3895]""" class Person(Base): __tablename__ = "person" id = Column(Integer, primary_key=True) type = Column(String) __mapper_args__ = { "polymorphic_on": type, } class Contractor(Person): contractor_field = Column(String) __mapper_args__ = { "polymorphic_identity": "contractor", } class Employee(Person): __tablename__ = "employee" id = Column(Integer, ForeignKey(Person.id), primary_key=True) class Engineer(Employee): __mapper_args__ = { "polymorphic_identity": "engineer", } configure_mappers() is_false(hasattr(Person, 'contractor_field')) is_true(hasattr(Contractor, 'contractor_field')) is_false(hasattr(Employee, 'contractor_field')) is_false(hasattr(Engineer, 'contractor_field')) def test_single_cols_on_sub_to_joined(self): """test [ticket:3797]""" class BaseUser(Base): __tablename__ = 'root' id = Column(Integer, primary_key=True) row_type = Column(String) __mapper_args__ = { 'polymorphic_on': row_type, 'polymorphic_identity': 'baseuser' } class User(BaseUser): __tablename__ = 'user' __mapper_args__ = { 'polymorphic_identity': 'user' } baseuser_id = Column( Integer, ForeignKey('root.id'), primary_key=True) class Bat(Base): __tablename__ = 'bat' id = Column(Integer, primary_key=True) class Thing(Base): __tablename__ = 'thing' id = Column(Integer, primary_key=True) owner_id = Column(Integer, ForeignKey('user.baseuser_id')) owner = relationship('User') class SubUser(User): __mapper_args__ = { 'polymorphic_identity': 'subuser' } sub_user_custom_thing = Column(Integer, ForeignKey('bat.id')) eq_( User.__table__.foreign_keys, User.baseuser_id.foreign_keys.union( SubUser.sub_user_custom_thing.foreign_keys)) is_true(Thing.owner.property.primaryjoin.compare( Thing.owner_id == User.baseuser_id)) def test_single_constraint_on_sub(self): """test the somewhat unusual case of [ticket:3341]""" class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Engineer(Person): __mapper_args__ = {'polymorphic_identity': 'engineer'} primary_language = Column(String(50)) __hack_args_one__ = sa.UniqueConstraint( Person.name, primary_language) __hack_args_two__ = sa.CheckConstraint( Person.name != primary_language) uq = [c for c in Person.__table__.constraints if isinstance(c, sa.UniqueConstraint)][0] ck = [c for c in Person.__table__.constraints if isinstance(c, sa.CheckConstraint)][0] eq_( list(uq.columns), [Person.__table__.c.name, Person.__table__.c.primary_language] ) eq_( list(ck.columns), [Person.__table__.c.name, Person.__table__.c.primary_language] ) @testing.skip_if(lambda: testing.against('oracle'), "Test has an empty insert in it at the moment") def test_columns_single_inheritance_conflict_resolution(self): """Test that a declared_attr can return the existing column and it will be ignored. this allows conditional columns to be added. See [ticket:2472]. """ class Person(Base): __tablename__ = 'person' id = Column(Integer, primary_key=True) class Engineer(Person): """single table inheritance""" @declared_attr def target_id(cls): return cls.__table__.c.get( 'target_id', Column(Integer, ForeignKey('other.id'))) @declared_attr def target(cls): return relationship("Other") class Manager(Person): """single table inheritance""" @declared_attr def target_id(cls): return cls.__table__.c.get( 'target_id', Column(Integer, ForeignKey('other.id'))) @declared_attr def target(cls): return relationship("Other") class Other(Base): __tablename__ = 'other' id = Column(Integer, primary_key=True) is_( Engineer.target_id.property.columns[0], Person.__table__.c.target_id ) is_( Manager.target_id.property.columns[0], Person.__table__.c.target_id ) # do a brief round trip on this Base.metadata.create_all() session = Session() o1, o2 = Other(), Other() session.add_all([ Engineer(target=o1), Manager(target=o2), Manager(target=o1) ]) session.commit() eq_(session.query(Engineer).first().target, o1) def test_joined_from_single(self): class Company(Base, fixtures.ComparableEntity): __tablename__ = 'companies' id = Column('id', Integer, primary_key=True, test_needs_autoincrement=True) name = Column('name', String(50)) employees = relationship('Person') class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column(Integer, primary_key=True, test_needs_autoincrement=True) company_id = Column(Integer, ForeignKey('companies.id')) name = Column(String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Manager(Person): __mapper_args__ = {'polymorphic_identity': 'manager'} golf_swing = Column(String(50)) class Engineer(Person): __tablename__ = 'engineers' __mapper_args__ = {'polymorphic_identity': 'engineer'} id = Column(Integer, ForeignKey('people.id'), primary_key=True) primary_language = Column(String(50)) assert Person.__table__.c.golf_swing is not None assert 'primary_language' not in Person.__table__.c assert Engineer.__table__.c.primary_language is not None assert Engineer.primary_language is not None assert Manager.golf_swing is not None assert not hasattr(Person, 'primary_language') assert not hasattr(Person, 'golf_swing') assert not hasattr(Engineer, 'golf_swing') assert not hasattr(Manager, 'primary_language') Base.metadata.create_all() sess = create_session() e1 = Engineer(name='dilbert', primary_language='java') e2 = Engineer(name='wally', primary_language='c++') m1 = Manager(name='dogbert', golf_swing='fore!') c1 = Company(name='MegaCorp, Inc.', employees=[e1, e2, m1]) e3 = Engineer(name='vlad', primary_language='cobol') c2 = Company(name='Elbonia, Inc.', employees=[e3]) sess.add(c1) sess.add(c2) sess.flush() sess.expunge_all() eq_(sess.query(Person).with_polymorphic(Engineer). filter(Engineer.primary_language == 'cobol').first(), Engineer(name='vlad')) eq_(sess.query(Company).filter(Company.employees.of_type(Engineer). any(Engineer.primary_language == 'cobol')).first(), c2) eq_(sess.query(Engineer).filter_by(primary_language='cobol' ).one(), Engineer(name='vlad', primary_language='cobol')) def test_single_from_joined_colsonsub(self): class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Manager(Person): __tablename__ = 'manager' __mapper_args__ = {'polymorphic_identity': 'manager'} id = Column(Integer, ForeignKey('people.id'), primary_key=True) golf_swing = Column(String(50)) class Boss(Manager): boss_name = Column(String(50)) is_( Boss.__mapper__.column_attrs['boss_name'].columns[0], Manager.__table__.c.boss_name ) def test_polymorphic_on_converted_from_inst(self): class A(Base): __tablename__ = 'A' id = Column(Integer, primary_key=True) discriminator = Column(String) @declared_attr def __mapper_args__(cls): return { 'polymorphic_identity': cls.__name__, 'polymorphic_on': cls.discriminator } class B(A): pass is_(B.__mapper__.polymorphic_on, A.__table__.c.discriminator) def test_add_deferred(self): class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column('id', Integer, primary_key=True, test_needs_autoincrement=True) Person.name = deferred(Column(String(10))) Base.metadata.create_all() sess = create_session() p = Person(name='ratbert') sess.add(p) sess.flush() sess.expunge_all() eq_(sess.query(Person).all(), [Person(name='ratbert')]) sess.expunge_all() person = sess.query(Person).filter(Person.name == 'ratbert' ).one() assert 'name' not in person.__dict__ def test_single_fksonsub(self): """test single inheritance with a foreign key-holding column on a subclass. """ class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Engineer(Person): __mapper_args__ = {'polymorphic_identity': 'engineer'} primary_language_id = Column(Integer, ForeignKey('languages.id')) primary_language = relationship('Language') class Language(Base, fixtures.ComparableEntity): __tablename__ = 'languages' id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) assert not hasattr(Person, 'primary_language_id') Base.metadata.create_all() sess = create_session() java, cpp, cobol = Language(name='java'), Language(name='cpp'), \ Language(name='cobol') e1 = Engineer(name='dilbert', primary_language=java) e2 = Engineer(name='wally', primary_language=cpp) e3 = Engineer(name='vlad', primary_language=cobol) sess.add_all([e1, e2, e3]) sess.flush() sess.expunge_all() eq_(sess.query(Person).filter(Engineer.primary_language.has( Language.name == 'cobol')).first(), Engineer(name='vlad', primary_language=Language(name='cobol'))) eq_(sess.query(Engineer).filter(Engineer.primary_language.has( Language.name == 'cobol')).one(), Engineer(name='vlad', primary_language=Language(name='cobol'))) eq_(sess.query(Person).join(Engineer.primary_language).order_by( Language.name).all(), [Engineer(name='vlad', primary_language=Language(name='cobol')), Engineer(name='wally', primary_language=Language(name='cpp' )), Engineer(name='dilbert', primary_language=Language(name='java'))]) def test_single_three_levels(self): class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column(Integer, primary_key=True) name = Column(String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Engineer(Person): __mapper_args__ = {'polymorphic_identity': 'engineer'} primary_language = Column(String(50)) class JuniorEngineer(Engineer): __mapper_args__ = \ {'polymorphic_identity': 'junior_engineer'} nerf_gun = Column(String(50)) class Manager(Person): __mapper_args__ = {'polymorphic_identity': 'manager'} golf_swing = Column(String(50)) assert JuniorEngineer.nerf_gun assert JuniorEngineer.primary_language assert JuniorEngineer.name assert Manager.golf_swing assert Engineer.primary_language assert not hasattr(Engineer, 'golf_swing') assert not hasattr(Engineer, 'nerf_gun') assert not hasattr(Manager, 'nerf_gun') assert not hasattr(Manager, 'primary_language') def test_single_detects_conflict(self): class Person(Base): __tablename__ = 'people' id = Column(Integer, primary_key=True) name = Column(String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} class Engineer(Person): __mapper_args__ = {'polymorphic_identity': 'engineer'} primary_language = Column(String(50)) # test sibling col conflict def go(): class Manager(Person): __mapper_args__ = {'polymorphic_identity': 'manager'} golf_swing = Column(String(50)) primary_language = Column(String(50)) assert_raises(sa.exc.ArgumentError, go) # test parent col conflict def go(): class Salesman(Person): __mapper_args__ = {'polymorphic_identity': 'manager'} name = Column(String(50)) assert_raises(sa.exc.ArgumentError, go) def test_single_no_special_cols(self): class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column('id', Integer, primary_key=True) name = Column('name', String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} def go(): class Engineer(Person): __mapper_args__ = {'polymorphic_identity': 'engineer'} primary_language = Column('primary_language', String(50)) foo_bar = Column(Integer, primary_key=True) assert_raises_message(sa.exc.ArgumentError, 'place primary key', go) def test_single_no_table_args(self): class Person(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column('id', Integer, primary_key=True) name = Column('name', String(50)) discriminator = Column('type', String(50)) __mapper_args__ = {'polymorphic_on': discriminator} def go(): class Engineer(Person): __mapper_args__ = {'polymorphic_identity': 'engineer'} primary_language = Column('primary_language', String(50)) # this should be on the Person class, as this is single # table inheritance, which is why we test that this # throws an exception! __table_args__ = {'mysql_engine': 'InnoDB'} assert_raises_message(sa.exc.ArgumentError, 'place __table_args__', go) @testing.emits_warning("This declarative") def test_dupe_name_in_hierarchy(self): class A(Base): __tablename__ = "a" id = Column(Integer, primary_key=True) a_1 = A class A(a_1): __tablename__ = 'b' id = Column(Integer(), ForeignKey(a_1.id), primary_key=True) assert A.__mapper__.inherits is a_1.__mapper__ class OverlapColPrecedenceTest(DeclarativeTestBase): """test #1892 cases when declarative does column precedence.""" def _run_test(self, Engineer, e_id, p_id): p_table = Base.metadata.tables['person'] e_table = Base.metadata.tables['engineer'] assert Engineer.id.property.columns[0] is e_table.c[e_id] assert Engineer.id.property.columns[1] is p_table.c[p_id] def test_basic(self): class Person(Base): __tablename__ = 'person' id = Column(Integer, primary_key=True) class Engineer(Person): __tablename__ = 'engineer' id = Column(Integer, ForeignKey('person.id'), primary_key=True) self._run_test(Engineer, "id", "id") def test_alt_name_base(self): class Person(Base): __tablename__ = 'person' id = Column("pid", Integer, primary_key=True) class Engineer(Person): __tablename__ = 'engineer' id = Column(Integer, ForeignKey('person.pid'), primary_key=True) self._run_test(Engineer, "id", "pid") def test_alt_name_sub(self): class Person(Base): __tablename__ = 'person' id = Column(Integer, primary_key=True) class Engineer(Person): __tablename__ = 'engineer' id = Column("eid", Integer, ForeignKey('person.id'), primary_key=True) self._run_test(Engineer, "eid", "id") def test_alt_name_both(self): class Person(Base): __tablename__ = 'person' id = Column("pid", Integer, primary_key=True) class Engineer(Person): __tablename__ = 'engineer' id = Column("eid", Integer, ForeignKey('person.pid'), primary_key=True) self._run_test(Engineer, "eid", "pid") class ConcreteInhTest(_RemoveListeners, DeclarativeTestBase): def _roundtrip(self, Employee, Manager, Engineer, Boss, polymorphic=True, explicit_type=False): Base.metadata.create_all() sess = create_session() e1 = Engineer(name='dilbert', primary_language='java') e2 = Engineer(name='wally', primary_language='c++') m1 = Manager(name='dogbert', golf_swing='fore!') e3 = Engineer(name='vlad', primary_language='cobol') b1 = Boss(name="pointy haired") if polymorphic: for obj in [e1, e2, m1, e3, b1]: if explicit_type: eq_(obj.type, obj.__mapper__.polymorphic_identity) else: assert_raises_message( AttributeError, "does not implement attribute .?'type' " "at the instance level.", getattr, obj, "type" ) else: assert "type" not in Engineer.__dict__ assert "type" not in Manager.__dict__ assert "type" not in Boss.__dict__ sess.add_all([e1, e2, m1, e3, b1]) sess.flush() sess.expunge_all() if polymorphic: eq_(sess.query(Employee).order_by(Employee.name).all(), [Engineer(name='dilbert'), Manager(name='dogbert'), Boss(name='pointy haired'), Engineer(name='vlad'), Engineer(name='wally')]) else: eq_(sess.query(Engineer).order_by(Engineer.name).all(), [Engineer(name='dilbert'), Engineer(name='vlad'), Engineer(name='wally')]) eq_(sess.query(Manager).all(), [Manager(name='dogbert')]) eq_(sess.query(Boss).all(), [Boss(name='pointy haired')]) e1 = sess.query(Engineer).order_by(Engineer.name).first() sess.expire(e1) eq_(e1.name, 'dilbert') def test_explicit(self): engineers = Table( 'engineers', Base.metadata, Column('id', Integer, primary_key=True, test_needs_autoincrement=True), Column('name', String(50)), Column('primary_language', String(50))) managers = Table('managers', Base.metadata, Column('id', Integer, primary_key=True, test_needs_autoincrement=True), Column('name', String(50)), Column('golf_swing', String(50)) ) boss = Table('boss', Base.metadata, Column('id', Integer, primary_key=True, test_needs_autoincrement=True), Column('name', String(50)), Column('golf_swing', String(50)) ) punion = polymorphic_union({ 'engineer': engineers, 'manager': managers, 'boss': boss}, 'type', 'punion') class Employee(Base, fixtures.ComparableEntity): __table__ = punion __mapper_args__ = {'polymorphic_on': punion.c.type} class Engineer(Employee): __table__ = engineers __mapper_args__ = {'polymorphic_identity': 'engineer', 'concrete': True} class Manager(Employee): __table__ = managers __mapper_args__ = {'polymorphic_identity': 'manager', 'concrete': True} class Boss(Manager): __table__ = boss __mapper_args__ = {'polymorphic_identity': 'boss', 'concrete': True} self._roundtrip(Employee, Manager, Engineer, Boss) def test_concrete_inline_non_polymorphic(self): """test the example from the declarative docs.""" class Employee(Base, fixtures.ComparableEntity): __tablename__ = 'people' id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) class Engineer(Employee): __tablename__ = 'engineers' __mapper_args__ = {'concrete': True} id = Column(Integer, primary_key=True, test_needs_autoincrement=True) primary_language = Column(String(50)) name = Column(String(50)) class Manager(Employee): __tablename__ = 'manager' __mapper_args__ = {'concrete': True} id = Column(Integer, primary_key=True, test_needs_autoincrement=True) golf_swing = Column(String(50)) name = Column(String(50)) class Boss(Manager): __tablename__ = 'boss' __mapper_args__ = {'concrete': True} id = Column(Integer, primary_key=True, test_needs_autoincrement=True) golf_swing = Column(String(50)) name = Column(String(50)) self._roundtrip(Employee, Manager, Engineer, Boss, polymorphic=False) def test_abstract_concrete_extension(self): class Employee(AbstractConcreteBase, Base, fixtures.ComparableEntity): pass class Manager(Employee): __tablename__ = 'manager' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) golf_swing = Column(String(40)) __mapper_args__ = { 'polymorphic_identity': 'manager', 'concrete': True} class Boss(Manager): __tablename__ = 'boss' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) golf_swing = Column(String(40)) __mapper_args__ = { 'polymorphic_identity': 'boss', 'concrete': True} class Engineer(Employee): __tablename__ = 'engineer' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) primary_language = Column(String(40)) __mapper_args__ = {'polymorphic_identity': 'engineer', 'concrete': True} self._roundtrip(Employee, Manager, Engineer, Boss) def test_abstract_concrete_extension_descriptor_refresh(self): class Employee(AbstractConcreteBase, Base, fixtures.ComparableEntity): @declared_attr def name(cls): return Column(String(50)) class Manager(Employee): __tablename__ = 'manager' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) paperwork = Column(String(10)) __mapper_args__ = { 'polymorphic_identity': 'manager', 'concrete': True} class Engineer(Employee): __tablename__ = 'engineer' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) @property def paperwork(self): return "p" __mapper_args__ = { 'polymorphic_identity': 'engineer', 'concrete': True} Base.metadata.create_all() sess = Session() sess.add(Engineer(name='d')) sess.commit() # paperwork is excluded because there's a descritor; so it is # not in the Engineers mapped properties at all, though is inside the # class manager. Maybe it shouldn't be in the class manager either. assert 'paperwork' in Engineer.__mapper__.class_manager assert 'paperwork' not in Engineer.__mapper__.attrs.keys() # type currently does get mapped, as a # ConcreteInheritedProperty, which means, "ignore this thing inherited # from the concrete base". if we didn't specify concrete=True, then # this one gets stuck in the error condition also. assert 'type' in Engineer.__mapper__.class_manager assert 'type' in Engineer.__mapper__.attrs.keys() e1 = sess.query(Engineer).first() eq_(e1.name, 'd') sess.expire(e1) eq_(e1.name, 'd') def test_concrete_extension(self): class Employee(ConcreteBase, Base, fixtures.ComparableEntity): __tablename__ = 'employee' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) __mapper_args__ = { 'polymorphic_identity': 'employee', 'concrete': True} class Manager(Employee): __tablename__ = 'manager' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) golf_swing = Column(String(40)) __mapper_args__ = { 'polymorphic_identity': 'manager', 'concrete': True} class Boss(Manager): __tablename__ = 'boss' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) golf_swing = Column(String(40)) __mapper_args__ = { 'polymorphic_identity': 'boss', 'concrete': True} class Engineer(Employee): __tablename__ = 'engineer' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) primary_language = Column(String(40)) __mapper_args__ = {'polymorphic_identity': 'engineer', 'concrete': True} self._roundtrip(Employee, Manager, Engineer, Boss) def test_has_inherited_table_doesnt_consider_base(self): class A(Base): __tablename__ = 'a' id = Column(Integer, primary_key=True) assert not has_inherited_table(A) class B(A): __tablename__ = 'b' id = Column(Integer, ForeignKey('a.id'), primary_key=True) assert has_inherited_table(B) def test_has_inherited_table_in_mapper_args(self): class Test(Base): __tablename__ = 'test' id = Column(Integer, primary_key=True) type = Column(String(20)) @declared_attr def __mapper_args__(cls): if not has_inherited_table(cls): ret = { 'polymorphic_identity': 'default', 'polymorphic_on': cls.type, } else: ret = {'polymorphic_identity': cls.__name__} return ret class PolyTest(Test): __tablename__ = 'poly_test' id = Column(Integer, ForeignKey(Test.id), primary_key=True) configure_mappers() assert Test.__mapper__.polymorphic_on is Test.__table__.c.type assert PolyTest.__mapper__.polymorphic_on is Test.__table__.c.type def test_ok_to_override_type_from_abstract(self): class Employee(AbstractConcreteBase, Base, fixtures.ComparableEntity): pass class Manager(Employee): __tablename__ = 'manager' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) golf_swing = Column(String(40)) @property def type(self): return "manager" __mapper_args__ = { 'polymorphic_identity': "manager", 'concrete': True} class Boss(Manager): __tablename__ = 'boss' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) golf_swing = Column(String(40)) @property def type(self): return "boss" __mapper_args__ = { 'polymorphic_identity': "boss", 'concrete': True} class Engineer(Employee): __tablename__ = 'engineer' employee_id = Column(Integer, primary_key=True, test_needs_autoincrement=True) name = Column(String(50)) primary_language = Column(String(40)) @property def type(self): return "engineer" __mapper_args__ = {'polymorphic_identity': "engineer", 'concrete': True} self._roundtrip(Employee, Manager, Engineer, Boss, explicit_type=True) class ConcreteExtensionConfigTest( _RemoveListeners, testing.AssertsCompiledSQL, DeclarativeTestBase): __dialect__ = 'default' def test_classreg_setup(self): class A(Base, fixtures.ComparableEntity): __tablename__ = 'a' id = Column(Integer, primary_key=True, test_needs_autoincrement=True) data = Column(String(50)) collection = relationship("BC", primaryjoin="BC.a_id == A.id", collection_class=set) class BC(AbstractConcreteBase, Base, fixtures.ComparableEntity): pass class B(BC): __tablename__ = 'b' id = Column(Integer, primary_key=True, test_needs_autoincrement=True) a_id = Column(Integer, ForeignKey('a.id')) data = Column(String(50)) b_data = Column(String(50)) __mapper_args__ = { "polymorphic_identity": "b", "concrete": True } class C(BC): __tablename__ = 'c' id = Column(Integer, primary_key=True, test_needs_autoincrement=True) a_id = Column(Integer, ForeignKey('a.id')) data = Column(String(50)) c_data = Column(String(50)) __mapper_args__ = { "polymorphic_identity": "c", "concrete": True } Base.metadata.create_all() sess = Session() sess.add_all([ A(data='a1', collection=set([ B(data='a1b1', b_data='a1b1'), C(data='a1b2', c_data='a1c1'), B(data='a1b2', b_data='a1b2'), C(data='a1c2', c_data='a1c2'), ])), A(data='a2', collection=set([ B(data='a2b1', b_data='a2b1'), C(data='a2c1', c_data='a2c1'), B(data='a2b2', b_data='a2b2'), C(data='a2c2', c_data='a2c2'), ])) ]) sess.commit() sess.expunge_all() eq_( sess.query(A).filter_by(data='a2').all(), [ A(data='a2', collection=set([ B(data='a2b1', b_data='a2b1'), B(data='a2b2', b_data='a2b2'), C(data='a2c1', c_data='a2c1'), C(data='a2c2', c_data='a2c2'), ])) ] ) self.assert_compile( sess.query(A).join(A.collection), "SELECT a.id AS a_id, a.data AS a_data FROM a JOIN " "(SELECT c.id AS id, c.a_id AS a_id, c.data AS data, " "c.c_data AS c_data, CAST(NULL AS VARCHAR(50)) AS b_data, " "'c' AS type FROM c UNION ALL SELECT b.id AS id, b.a_id AS a_id, " "b.data AS data, CAST(NULL AS VARCHAR(50)) AS c_data, " "b.b_data AS b_data, 'b' AS type FROM b) AS pjoin " "ON pjoin.a_id = a.id" ) def test_prop_on_base(self): """test [ticket:2670] """ counter = mock.Mock() class Something(Base): __tablename__ = 'something' id = Column(Integer, primary_key=True) class AbstractConcreteAbstraction(AbstractConcreteBase, Base): id = Column(Integer, primary_key=True) x = Column(Integer) y = Column(Integer) @declared_attr def something_id(cls): return Column(ForeignKey(Something.id)) @declared_attr def something(cls): counter(cls, "something") return relationship("Something") @declared_attr def something_else(cls): counter(cls, "something_else") return relationship("Something") class ConcreteConcreteAbstraction(AbstractConcreteAbstraction): __tablename__ = 'cca' __mapper_args__ = { 'polymorphic_identity': 'ccb', 'concrete': True} # concrete is mapped, the abstract base is not (yet) assert ConcreteConcreteAbstraction.__mapper__ assert not hasattr(AbstractConcreteAbstraction, '__mapper__') session = Session() self.assert_compile( session.query(ConcreteConcreteAbstraction).filter( ConcreteConcreteAbstraction.something.has(id=1)), "SELECT cca.id AS cca_id, cca.x AS cca_x, cca.y AS cca_y, " "cca.something_id AS cca_something_id FROM cca WHERE EXISTS " "(SELECT 1 FROM something WHERE something.id = cca.something_id " "AND something.id = :id_1)" ) # now it is assert AbstractConcreteAbstraction.__mapper__ self.assert_compile( session.query(ConcreteConcreteAbstraction).filter( ConcreteConcreteAbstraction.something_else.has(id=1)), "SELECT cca.id AS cca_id, cca.x AS cca_x, cca.y AS cca_y, " "cca.something_id AS cca_something_id FROM cca WHERE EXISTS " "(SELECT 1 FROM something WHERE something.id = cca.something_id " "AND something.id = :id_1)" ) self.assert_compile( session.query(AbstractConcreteAbstraction).filter( AbstractConcreteAbstraction.something.has(id=1)), "SELECT pjoin.id AS pjoin_id, pjoin.x AS pjoin_x, " "pjoin.y AS pjoin_y, pjoin.something_id AS pjoin_something_id, " "pjoin.type AS pjoin_type FROM " "(SELECT cca.id AS id, cca.x AS x, cca.y AS y, " "cca.something_id AS something_id, 'ccb' AS type FROM cca) " "AS pjoin WHERE EXISTS (SELECT 1 FROM something " "WHERE something.id = pjoin.something_id AND something.id = :id_1)" ) self.assert_compile( session.query(AbstractConcreteAbstraction).filter( AbstractConcreteAbstraction.something_else.has(id=1)), "SELECT pjoin.id AS pjoin_id, pjoin.x AS pjoin_x, " "pjoin.y AS pjoin_y, pjoin.something_id AS pjoin_something_id, " "pjoin.type AS pjoin_type FROM " "(SELECT cca.id AS id, cca.x AS x, cca.y AS y, " "cca.something_id AS something_id, 'ccb' AS type FROM cca) " "AS pjoin WHERE EXISTS (SELECT 1 FROM something " "WHERE something.id = pjoin.something_id AND something.id = :id_1)" ) def test_abstract_in_hierarchy(self): class Document(Base, AbstractConcreteBase): doctype = Column(String) class ContactDocument(Document): __abstract__ = True send_method = Column(String) class ActualDocument(ContactDocument): __tablename__ = 'actual_documents' __mapper_args__ = { 'concrete': True, 'polymorphic_identity': 'actual'} id = Column(Integer, primary_key=True) configure_mappers() session = Session() self.assert_compile( session.query(Document), "SELECT pjoin.doctype AS pjoin_doctype, " "pjoin.send_method AS pjoin_send_method, " "pjoin.id AS pjoin_id, pjoin.type AS pjoin_type " "FROM (SELECT actual_documents.doctype AS doctype, " "actual_documents.send_method AS send_method, " "actual_documents.id AS id, 'actual' AS type " "FROM actual_documents) AS pjoin" ) def test_column_attr_names(self): """test #3480""" class Document(Base, AbstractConcreteBase): documentType = Column('documenttype', String) class Offer(Document): __tablename__ = 'offers' id = Column(Integer, primary_key=True) __mapper_args__ = { 'polymorphic_identity': 'offer' } configure_mappers() session = Session() self.assert_compile( session.query(Document), "SELECT pjoin.documenttype AS pjoin_documenttype, " "pjoin.id AS pjoin_id, pjoin.type AS pjoin_type FROM " "(SELECT offers.documenttype AS documenttype, offers.id AS id, " "'offer' AS type FROM offers) AS pjoin" ) self.assert_compile( session.query(Document.documentType), "SELECT pjoin.documenttype AS pjoin_documenttype FROM " "(SELECT offers.documenttype AS documenttype, offers.id AS id, " "'offer' AS type FROM offers) AS pjoin" )