import random import threading import time from unittest.mock import Mock from unittest.mock import patch from sqlalchemy import create_engine from sqlalchemy import exc as sa_exc from sqlalchemy import ForeignKey from sqlalchemy import Integer from sqlalchemy import MetaData from sqlalchemy import select from sqlalchemy import String from sqlalchemy import testing from sqlalchemy.ext.automap import automap_base from sqlalchemy.ext.automap import AutomapBase from sqlalchemy.ext.automap import generate_relationship from sqlalchemy.orm import configure_mappers from sqlalchemy.orm import exc as orm_exc from sqlalchemy.orm import interfaces from sqlalchemy.orm import relationship from sqlalchemy.orm import Session from sqlalchemy.testing import assert_raises_message from sqlalchemy.testing import AssertsCompiledSQL from sqlalchemy.testing import config from sqlalchemy.testing import expect_raises_message from sqlalchemy.testing import expect_warnings from sqlalchemy.testing import fixtures from sqlalchemy.testing import is_ from sqlalchemy.testing.schema import Column from sqlalchemy.testing.schema import Table from ..orm._fixtures import FixtureTest class AutomapTest(fixtures.MappedTest): @classmethod def define_tables(cls, metadata): FixtureTest.define_tables(metadata) def test_relationship_o2m_default(self): Base = automap_base(metadata=self.tables_test_metadata) Base.prepare() User = Base.classes.users Address = Base.classes.addresses a1 = Address(email_address="e1") u1 = User(name="u1", addresses_collection=[a1]) assert a1.users is u1 def test_relationship_explicit_override_o2m(self): Base = automap_base(metadata=self.tables_test_metadata) prop = relationship("addresses", collection_class=set) class User(Base): __tablename__ = "users" addresses_collection = prop Base.prepare() assert User.addresses_collection.property is prop Address = Base.classes.addresses a1 = Address(email_address="e1") u1 = User(name="u1", addresses_collection={a1}) assert a1.user is u1 def test_prepare_from_subclass(self): """test #9367""" Base = automap_base() class User(Base): __tablename__ = "users" User.prepare(testing.db) assert not hasattr(Base.classes, "users") assert hasattr(Base.classes, "addresses") def test_prepare_w_only(self): Base = automap_base() Base.prepare( testing.db, reflection_options={"only": ["users"], "resolve_fks": False}, ) assert hasattr(Base.classes, "users") assert not hasattr(Base.classes, "addresses") def test_prepare_call_multiple_times(self): """newly added in 2.0 as part of #5145""" Base = automap_base() Base.prepare( testing.db, reflection_options={"only": ["users"], "resolve_fks": False}, ) assert hasattr(Base.classes, "users") assert not hasattr(Base.classes, "addresses") um = Base.classes.users.__mapper__ Base.prepare( testing.db, reflection_options={"only": ["users"], "resolve_fks": False}, ) assert hasattr(Base.classes, "users") assert not hasattr(Base.classes, "addresses") is_(Base.classes.users.__mapper__, um) Base.prepare(testing.db) assert hasattr(Base.classes, "users") assert hasattr(Base.classes, "addresses") am = Base.classes.addresses.__mapper__ Base.prepare() Base.prepare() is_(Base.classes.users.__mapper__, um) is_(Base.classes.addresses.__mapper__, am) def test_prepare_call_dont_rely_on_reflected(self): """newly added in 2.0 as part of #5145""" Base = automap_base() Base.metadata.reflect(testing.db, only=["users"], resolve_fks=False) Base.prepare( testing.db, reflection_options={"only": ["addresses"]}, ) # check that users was prepared also, even though it wasn't in # the second reflection call assert hasattr(Base.classes, "users") assert hasattr(Base.classes, "addresses") def test_exception_prepare_not_called(self): Base = automap_base(metadata=self.tables_test_metadata) class User(Base): __tablename__ = "users" s = Session() assert_raises_message( orm_exc.UnmappedClassError, "Class test.ext.test_automap.User is a subclass of AutomapBase. " r"Mappings are not produced until the .prepare\(\) method is " "called on the class hierarchy.", s.query, User, ) def test_relationship_explicit_override_m2o(self): Base = automap_base(metadata=self.tables_test_metadata) prop = relationship("users") class Address(Base): __tablename__ = "addresses" users = prop Base.prepare() User = Base.classes.users assert Address.users.property is prop a1 = Address(email_address="e1") u1 = User(name="u1", address_collection=[a1]) assert a1.users is u1 def test_relationship_self_referential(self): Base = automap_base(metadata=self.tables_test_metadata) Base.prepare() Node = Base.classes.nodes n1 = Node() n2 = Node() n1.nodes_collection.append(n2) assert n2.nodes is n1 def test_prepare_accepts_optional_schema_arg(self): """ The underlying reflect call accepts an optional schema argument. This is for determining which database schema to load. This test verifies that prepare can accept an optional schema argument and pass it to reflect. """ Base = automap_base(metadata=self.tables_test_metadata) engine_mock = Mock() with patch.object(Base.metadata, "reflect") as reflect_mock: Base.prepare(autoload_with=engine_mock, schema="some_schema") reflect_mock.assert_called_once_with( engine_mock, schema="some_schema", extend_existing=True, autoload_replace=False, ) def test_prepare_defaults_to_no_schema(self): """ The underlying reflect call accepts an optional schema argument. This is for determining which database schema to load. This test verifies that prepare passes a default None if no schema is provided. """ Base = automap_base(metadata=self.tables_test_metadata) engine_mock = Mock() with patch.object(Base.metadata, "reflect") as reflect_mock: Base.prepare(autoload_with=engine_mock) reflect_mock.assert_called_once_with( engine_mock, schema=None, extend_existing=True, autoload_replace=False, ) def test_prepare_w_dialect_kwargs(self): Base = automap_base(metadata=self.tables_test_metadata) engine_mock = Mock() with patch.object(Base.metadata, "reflect") as reflect_mock: Base.prepare( autoload_with=engine_mock, reflection_options={"oracle_resolve_synonyms": True}, ) reflect_mock.assert_called_once_with( engine_mock, schema=None, extend_existing=True, autoload_replace=False, oracle_resolve_synonyms=True, ) def test_naming_schemes(self): Base = automap_base(metadata=self.tables_test_metadata) def classname_for_table(base, tablename, table): return str("cls_" + tablename) def name_for_scalar_relationship( base, local_cls, referred_cls, constraint ): return "scalar_" + referred_cls.__name__ def name_for_collection_relationship( base, local_cls, referred_cls, constraint ): return "coll_" + referred_cls.__name__ Base.prepare( classname_for_table=classname_for_table, name_for_scalar_relationship=name_for_scalar_relationship, name_for_collection_relationship=name_for_collection_relationship, ) User = Base.classes.cls_users Address = Base.classes.cls_addresses u1 = User() a1 = Address() u1.coll_cls_addresses.append(a1) assert a1.scalar_cls_users is u1 def test_relationship_m2m(self): Base = automap_base(metadata=self.tables_test_metadata) Base.prepare() Order, Item = Base.classes.orders, Base.classes["items"] o1 = Order() i1 = Item() o1.items_collection.append(i1) assert o1 in i1.orders_collection def test_relationship_explicit_override_forwards_m2m(self): Base = automap_base(metadata=self.tables_test_metadata) class Order(Base): __tablename__ = "orders" items_collection = relationship( "items", secondary="order_items", collection_class=set ) Base.prepare() Item = Base.classes["items"] o1 = Order() i1 = Item() o1.items_collection.add(i1) # it is 'order_collection' because the class name is # "Order" ! assert isinstance(i1.order_collection, list) assert o1 in i1.order_collection def test_m2m_relationship_also_map_the_secondary(self): """test #6679""" Base = automap_base(metadata=self.tables_test_metadata) # extend the table to have pk cols Table( "order_items", self.tables_test_metadata, Column("item_id", None, ForeignKey("items.id"), primary_key=True), Column( "order_id", None, ForeignKey("orders.id"), primary_key=True ), extend_existing=True, ) # then also map to it class OrderItem(Base): __tablename__ = "order_items" Base.prepare() Order = Base.classes["orders"] Item = Base.classes["items"] o1 = Order() i1 = Item(description="x") o1.items_collection.append(i1) s = fixtures.fixture_session() s.add(o1) s.flush() oi = s.execute(select(OrderItem)).scalars().one() is_(oi.items, i1) is_(oi.orders, o1) def test_relationship_pass_params(self): Base = automap_base(metadata=self.tables_test_metadata) mock = Mock() def _gen_relationship( base, direction, return_fn, attrname, local_cls, referred_cls, **kw ): mock(base, direction, attrname) return generate_relationship( base, direction, return_fn, attrname, local_cls, referred_cls, **kw, ) Base.prepare(generate_relationship=_gen_relationship) assert {tuple(c[1]) for c in mock.mock_calls}.issuperset( [ (Base, interfaces.MANYTOONE, "nodes"), (Base, interfaces.MANYTOMANY, "keywords_collection"), (Base, interfaces.MANYTOMANY, "items_collection"), (Base, interfaces.MANYTOONE, "users"), (Base, interfaces.ONETOMANY, "addresses_collection"), ] ) class MultipleSchemaTest(AssertsCompiledSQL, fixtures.MappedTest): """test #5145""" __requires__ = ("schemas",) __dialect__ = "default" @classmethod def define_tables(cls, metadata): Table( "user", metadata, Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ), Column("name", String(30), nullable=False), ) Table( "user", metadata, Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ), Column("name", String(30), nullable=False), schema=config.test_schema, ) @testing.variation("reflect_method", ["reflect", "prepare"]) def test_by_schema_collection(self, reflect_method): m2 = MetaData() Base: AutomapBase = automap_base(metadata=m2) def mnft(cls, tablename, table): return table.schema if reflect_method.reflect: m2.reflect(testing.db) m2.reflect(testing.db, schema=config.test_schema) Base.prepare(modulename_for_table=mnft) elif reflect_method.prepare: Base.prepare(autoload_with=testing.db, modulename_for_table=mnft) Base.prepare( autoload_with=testing.db, modulename_for_table=mnft, schema=config.test_schema, ) else: reflect_method.fail() # only class with None for __module__ gets placed in .classes is_(Base.classes.user, Base.by_module.sqlalchemy.ext.automap.user) self.assert_compile( select(Base.by_module.sqlalchemy.ext.automap.user), 'SELECT "user".id, "user".name FROM "user"', ) self.assert_compile( select(Base.by_module[config.test_schema].user), f'SELECT {config.test_schema}."user".id, ' f'{config.test_schema}."user".name ' f'FROM {config.test_schema}."user"', ) def test_named_not_in_classes(self): Base: AutomapBase = automap_base() def mnft(cls, tablename, table): assert table.schema is not None return table.schema Base.prepare( autoload_with=testing.db, schema=config.test_schema, modulename_for_table=mnft, ) assert "user" not in Base.classes assert "user" in Base.by_module[config.test_schema] Base.prepare(autoload_with=testing.db) assert "user" in Base.classes def test_cls_schema_name_conflict(self): m2 = MetaData() Base: AutomapBase = automap_base(metadata=m2) m2.reflect(testing.db) m2.reflect(testing.db, schema=config.test_schema) def mnft(cls, tablename, table): if table.schema is not None: return "user.user" else: return "user" with expect_raises_message( sa_exc.InvalidRequestError, 'name "user" matches both a class name and a module name', ): Base.prepare(modulename_for_table=mnft) def test_dupe_clsname_warning(self): Base: AutomapBase = automap_base() Base.prepare(testing.db) with expect_warnings( "Ignoring duplicate class name 'user' received in automap base " f"for table {config.test_schema}.user " "without ``__module__`` being set;", ): Base.prepare(testing.db, schema=config.test_schema) def test_dupe_tablename_ok_w_explicit_classes(self): Base = automap_base() class User1(Base): __tablename__ = "user" class User2(Base): __tablename__ = "user" __table_args__ = {"schema": config.test_schema} # currently we have to do the reflection separate since prepare() # tries to map all the classes at once Base.metadata.reflect(testing.db, extend_existing=True) Base.metadata.reflect( testing.db, schema=config.test_schema, extend_existing=True ) Base.prepare() class CascadeTest(fixtures.MappedTest): @classmethod def define_tables(cls, metadata): Table("a", metadata, Column("id", Integer, primary_key=True)) Table( "b", metadata, Column("id", Integer, primary_key=True), Column("aid", ForeignKey("a.id"), nullable=True), ) Table( "c", metadata, Column("id", Integer, primary_key=True), Column("aid", ForeignKey("a.id"), nullable=False), ) Table( "d", metadata, Column("id", Integer, primary_key=True), Column( "aid", ForeignKey("a.id", ondelete="cascade"), nullable=False ), ) Table( "e", metadata, Column("id", Integer, primary_key=True), Column( "aid", ForeignKey("a.id", ondelete="set null"), nullable=True ), ) def test_o2m_relationship_cascade(self): Base = automap_base(metadata=self.tables_test_metadata) Base.prepare() configure_mappers() b_rel = Base.classes.a.b_collection assert not b_rel.property.cascade.delete assert not b_rel.property.cascade.delete_orphan assert not b_rel.property.passive_deletes assert b_rel.property.cascade.save_update c_rel = Base.classes.a.c_collection assert c_rel.property.cascade.delete assert c_rel.property.cascade.delete_orphan assert not c_rel.property.passive_deletes assert c_rel.property.cascade.save_update d_rel = Base.classes.a.d_collection assert d_rel.property.cascade.delete assert d_rel.property.cascade.delete_orphan assert d_rel.property.passive_deletes assert d_rel.property.cascade.save_update e_rel = Base.classes.a.e_collection assert not e_rel.property.cascade.delete assert not e_rel.property.cascade.delete_orphan assert e_rel.property.passive_deletes assert e_rel.property.cascade.save_update class AutomapInhTest(fixtures.MappedTest): @classmethod def define_tables(cls, metadata): Table( "single", metadata, Column("id", Integer, primary_key=True), Column("type", String(10)), test_needs_fk=True, ) Table( "joined_base", metadata, Column("id", Integer, primary_key=True), Column("type", String(10)), test_needs_fk=True, ) Table( "joined_inh", metadata, Column( "id", Integer, ForeignKey("joined_base.id"), primary_key=True ), test_needs_fk=True, ) FixtureTest.define_tables(metadata) def test_single_inheritance_reflect(self): Base = automap_base() class Single(Base): __tablename__ = "single" type = Column(String) __mapper_args__ = { "polymorphic_identity": "u0", "polymorphic_on": type, } class SubUser1(Single): __mapper_args__ = {"polymorphic_identity": "u1"} class SubUser2(Single): __mapper_args__ = {"polymorphic_identity": "u2"} Base.prepare(autoload_with=testing.db) assert SubUser2.__mapper__.inherits is Single.__mapper__ def test_joined_inheritance_reflect(self): Base = automap_base() class Joined(Base): __tablename__ = "joined_base" type = Column(String) __mapper_args__ = { "polymorphic_identity": "u0", "polymorphic_on": type, } class SubJoined(Joined): __tablename__ = "joined_inh" __mapper_args__ = {"polymorphic_identity": "u1"} Base.prepare(autoload_with=testing.db) assert SubJoined.__mapper__.inherits is Joined.__mapper__ assert not Joined.__mapper__.relationships assert not SubJoined.__mapper__.relationships def test_conditional_relationship(self): Base = automap_base() def _gen_relationship(*arg, **kw): return None Base.prepare( autoload_with=testing.db, generate_relationship=_gen_relationship, ) class ConcurrentAutomapTest(fixtures.TestBase): __only_on__ = "sqlite+pysqlite" def _make_tables(self, e): m = MetaData() for i in range(15): Table( "table_%d" % i, m, Column("id", Integer, primary_key=True), Column("data", String(50)), ( Column( "t_%d_id" % (i - 1), ForeignKey("table_%d.id" % (i - 1)), ) if i > 4 else None ), ) m.drop_all(e) m.create_all(e) def _automap(self, e): Base = automap_base() Base.prepare(autoload_with=e) time.sleep(0.01) configure_mappers() def _chaos(self): e = create_engine("sqlite://") try: self._make_tables(e) for i in range(2): try: self._automap(e) except: self._success = False raise time.sleep(random.random()) finally: e.dispose() def test_concurrent_automaps_w_configure(self): self._success = True threads = [threading.Thread(target=self._chaos) for i in range(30)] for t in threads: t.start() for t in threads: t.join() assert self._success, "One or more threads failed"