"""This file includes annotation-sensitive tests while having ``from __future__ import annotations`` in effect. Only tests that don't have an equivalent in ``test_typed_mapping`` are specified here. All test from ``test_typed_mapping`` are copied over to the ``test_tm_future_annotations_sync`` by the ``sync_test_file`` script. """ from __future__ import annotations import enum from typing import ClassVar from typing import Dict from typing import List from typing import Optional from typing import TYPE_CHECKING from typing import TypeVar import uuid from sqlalchemy import exc from sqlalchemy import ForeignKey from sqlalchemy import inspect from sqlalchemy import Integer from sqlalchemy import select from sqlalchemy import testing from sqlalchemy import Uuid import sqlalchemy.orm from sqlalchemy.orm import attribute_keyed_dict from sqlalchemy.orm import KeyFuncDict from sqlalchemy.orm import Mapped from sqlalchemy.orm import mapped_column from sqlalchemy.orm import relationship from sqlalchemy.orm.util import _cleanup_mapped_str_annotation from sqlalchemy.sql import sqltypes from sqlalchemy.testing import eq_ from sqlalchemy.testing import expect_raises_message from sqlalchemy.testing import fixtures from sqlalchemy.testing import is_ from sqlalchemy.testing import is_true from .test_typed_mapping import expect_annotation_syntax_error from .test_typed_mapping import MappedColumnTest as _MappedColumnTest from .test_typed_mapping import RelationshipLHSTest as _RelationshipLHSTest _R = TypeVar("_R") M = Mapped class M3: pass class AnnoUtilTest(fixtures.TestBase): @testing.combinations( ("Mapped[Address]", 'Mapped["Address"]'), ('Mapped["Address"]', 'Mapped["Address"]'), ("Mapped['Address']", "Mapped['Address']"), ("Mapped[Address | None]", 'Mapped["Address | None"]'), ("Mapped[None | Address]", 'Mapped["None | Address"]'), ('Mapped["Address | None"]', 'Mapped["Address | None"]'), ("Mapped['None | Address']", "Mapped['None | Address']"), ('Mapped["Address" | "None"]', 'Mapped["Address" | "None"]'), ('Mapped["None" | "Address"]', 'Mapped["None" | "Address"]'), ("Mapped[A_]", 'Mapped["A_"]'), ("Mapped[_TypingLiteral]", 'Mapped["_TypingLiteral"]'), ("Mapped[datetime.datetime]", 'Mapped["datetime.datetime"]'), ("Mapped[List[Edge]]", 'Mapped[List["Edge"]]'), ( "Mapped[collections.abc.MutableSequence[B]]", 'Mapped[collections.abc.MutableSequence["B"]]', ), ("Mapped[typing.Sequence[B]]", 'Mapped[typing.Sequence["B"]]'), ("Mapped[dict[str, str]]", 'Mapped[dict["str", "str"]]'), ("Mapped[Dict[str, str]]", 'Mapped[Dict["str", "str"]]'), ("Mapped[list[str]]", 'Mapped[list["str"]]'), ("Mapped[dict[str, str] | None]", "Mapped[dict[str, str] | None]"), ("Mapped[Optional[anno_str_mc]]", 'Mapped[Optional["anno_str_mc"]]'), ( "Mapped[Optional[Dict[str, str]]]", 'Mapped[Optional[Dict["str", "str"]]]', ), ( "Mapped[Optional[Union[Decimal, float]]]", 'Mapped[Optional[Union["Decimal", "float"]]]', ), ( "Mapped[Optional[Union[list[int], list[str]]]]", "Mapped[Optional[Union[list[int], list[str]]]]", ), ("Mapped[TestType[str]]", 'Mapped[TestType["str"]]'), ("Mapped[TestType[str, str]]", 'Mapped[TestType["str", "str"]]'), ("Mapped[Union[A, None]]", 'Mapped[Union["A", "None"]]'), ("Mapped[Union[Decimal, float]]", 'Mapped[Union["Decimal", "float"]]'), ( "Mapped[Union[Decimal, float, None]]", 'Mapped[Union["Decimal", "float", "None"]]', ), ( "Mapped[Union[Dict[str, str], None]]", "Mapped[Union[Dict[str, str], None]]", ), ("Mapped[Union[float, Decimal]]", 'Mapped[Union["float", "Decimal"]]'), ( "Mapped[Union[list[int], list[str]]]", "Mapped[Union[list[int], list[str]]]", ), ( "Mapped[Union[list[int], list[str], None]]", "Mapped[Union[list[int], list[str], None]]", ), ( "Mapped[Union[None, Dict[str, str]]]", "Mapped[Union[None, Dict[str, str]]]", ), ( "Mapped[Union[None, list[int], list[str]]]", "Mapped[Union[None, list[int], list[str]]]", ), ("Mapped[A | None]", 'Mapped["A | None"]'), ("Mapped[Decimal | float]", 'Mapped["Decimal | float"]'), ("Mapped[Decimal | float | None]", 'Mapped["Decimal | float | None"]'), ( "Mapped[list[int] | list[str] | None]", "Mapped[list[int] | list[str] | None]", ), ("Mapped[None | dict[str, str]]", "Mapped[None | dict[str, str]]"), ( "Mapped[None | list[int] | list[str]]", "Mapped[None | list[int] | list[str]]", ), ) def test_cleanup_mapped_str_annotation(self, given, expected): eq_(_cleanup_mapped_str_annotation(given, __name__), expected) class MappedColumnTest(_MappedColumnTest): def test_fully_qualified_mapped_name(self, decl_base): """test #8853, regression caused by #8759 ;) See same test in test_abs_import_only """ class Foo(decl_base): __tablename__ = "foo" id: sqlalchemy.orm.Mapped[int] = mapped_column(primary_key=True) data: sqlalchemy.orm.Mapped[int] = mapped_column() data2: sqlalchemy.orm.Mapped[int] self.assert_compile( select(Foo), "SELECT foo.id, foo.data, foo.data2 FROM foo" ) def test_indirect_mapped_name_module_level(self, decl_base): """test #8759 Note that M by definition has to be at the module level to be valid, and not locally declared here, this is in accordance with mypy:: def make_class() -> None: ll = list x: ll[int] = [1, 2, 3] Will return:: $ mypy test3.py test3.py:4: error: Variable "ll" is not valid as a type [valid-type] test3.py:4: note: See https://mypy.readthedocs.io/en/stable/common_issues.html#variables-vs-type-aliases Found 1 error in 1 file (checked 1 source file) Whereas the correct form is:: ll = list def make_class() -> None: x: ll[int] = [1, 2, 3] """ # noqa: E501 class Foo(decl_base): __tablename__ = "foo" id: M[int] = mapped_column(primary_key=True) data: M[int] = mapped_column() data2: M[int] self.assert_compile( select(Foo), "SELECT foo.id, foo.data, foo.data2 FROM foo" ) def test_type_favors_outer(self, decl_base): """test #10899, that we maintain favoring outer names vs. inner. this is for backwards compatibility as well as what people usually expect regarding the names of attributes in the class. """ class User(decl_base): __tablename__ = "user" id: Mapped[int] = mapped_column(primary_key=True) uuid: Mapped[uuid.UUID] = mapped_column() is_true(isinstance(User.__table__.c.uuid.type, sqltypes.Uuid)) def test_type_inline_cls_qualified(self, decl_base): """test #10899, where we test that we can refer to the class name directly to refer to class-bound elements. """ class User(decl_base): __tablename__ = "user" class Role(enum.Enum): admin = "admin" user = "user" id: Mapped[int] = mapped_column(primary_key=True) role: Mapped[User.Role] is_true(isinstance(User.__table__.c.role.type, sqltypes.Enum)) eq_(User.__table__.c.role.type.length, 5) is_(User.__table__.c.role.type.enum_class, User.Role) def test_type_inline_disambiguate(self, decl_base): """test #10899, where we test that we can refer to an inner name that's not in conflict directly without qualification. """ class User(decl_base): __tablename__ = "user" class Role(enum.Enum): admin = "admin" user = "user" id: Mapped[int] = mapped_column(primary_key=True) role: Mapped[Role] is_true(isinstance(User.__table__.c.role.type, sqltypes.Enum)) eq_(User.__table__.c.role.type.length, 5) is_(User.__table__.c.role.type.enum_class, User.Role) eq_(User.__table__.c.role.type.name, "role") # and not 'enum' def test_type_inner_can_be_qualified(self, decl_base): """test #10899, same test as that of Role, using it to qualify against a global variable with the same name. """ global SomeGlobalName SomeGlobalName = None class User(decl_base): __tablename__ = "user" class SomeGlobalName(enum.Enum): admin = "admin" user = "user" id: Mapped[int] = mapped_column(primary_key=True) role: Mapped[User.SomeGlobalName] is_true(isinstance(User.__table__.c.role.type, sqltypes.Enum)) eq_(User.__table__.c.role.type.length, 5) is_(User.__table__.c.role.type.enum_class, User.SomeGlobalName) def test_indirect_mapped_name_local_level(self, decl_base): """test #8759. this should raise an error. """ M2 = Mapped with expect_raises_message( exc.ArgumentError, r"Could not interpret annotation M2\[int\]. Check that it " "uses names that are correctly imported at the module level.", ): class Foo(decl_base): __tablename__ = "foo" id: M2[int] = mapped_column(primary_key=True) data2: M2[int] def test_indirect_mapped_name_itswrong(self, decl_base): """test #8759. this should raise an error. """ with expect_annotation_syntax_error("Foo.id"): class Foo(decl_base): __tablename__ = "foo" id: M3[int] = mapped_column(primary_key=True) data2: M3[int] def test_typ_not_in_cls_namespace(self, decl_base): """test #8742. This tests that when types are resolved, they use the ``__module__`` of they class they are used within, not the mapped class. """ class Mixin: id: Mapped[int] = mapped_column(primary_key=True) data: Mapped[uuid.UUID] class MyClass(Mixin, decl_base): # basically no type will be resolvable here __module__ = "some.module" __tablename__ = "mytable" is_(MyClass.id.expression.type._type_affinity, Integer) is_(MyClass.data.expression.type._type_affinity, Uuid) def test_dont_ignore_unresolvable(self, decl_base): """test #8888""" with expect_raises_message( exc.ArgumentError, r"Could not resolve all types within mapped annotation: " r"\"Mapped\[fake\]\". Ensure all types are written correctly and " r"are imported within the module in use.", ): class A(decl_base): __tablename__ = "a" id: Mapped[int] = mapped_column(primary_key=True) data: Mapped[fake] # noqa @testing.variation( "reference_type", [ "plain", "plain_optional", "container_w_local_mapped", "container_w_remote_mapped", ], ) def test_i_have_a_classvar_on_my_class(self, decl_base, reference_type): if reference_type.container_w_remote_mapped: class MyOtherClass(decl_base): __tablename__ = "myothertable" id: Mapped[int] = mapped_column(primary_key=True) class MyClass(decl_base): __tablename__ = "mytable" id: Mapped[int] = mapped_column(primary_key=True) data: Mapped[str] = mapped_column(default="some default") if reference_type.container_w_remote_mapped: status: ClassVar[Dict[str, MyOtherClass]] elif reference_type.container_w_local_mapped: status: ClassVar[Dict[str, MyClass]] elif reference_type.plain_optional: status: ClassVar[Optional[int]] elif reference_type.plain: status: ClassVar[int] m1 = MyClass(id=1, data=5) assert "status" not in inspect(m1).mapper.attrs class MappedOneArg(KeyFuncDict[str, _R]): pass class RelationshipLHSTest(_RelationshipLHSTest): def test_bidirectional_literal_annotations(self, decl_base): """test the 'string cleanup' function in orm/util.py, where we receive a string annotation like:: "Mapped[List[B]]" Which then fails to evaluate because we don't have "B" yet. The annotation is converted on the fly to:: 'Mapped[List["B"]]' so that when we evaluated it, we get ``Mapped[List["B"]]`` and can extract "B" as a string. """ class A(decl_base): __tablename__ = "a" id: Mapped[int] = mapped_column(primary_key=True) data: Mapped[str] = mapped_column() bs: Mapped[List[B]] = relationship(back_populates="a") class B(decl_base): __tablename__ = "b" id: Mapped[int] = mapped_column(Integer, primary_key=True) a_id: Mapped[int] = mapped_column(ForeignKey("a.id")) a: Mapped[A] = relationship( back_populates="bs", primaryjoin=a_id == A.id ) a1 = A(data="data") b1 = B() a1.bs.append(b1) is_(a1, b1.a) def test_collection_class_dict_attr_mapped_collection_literal_annotations( self, decl_base ): class A(decl_base): __tablename__ = "a" id: Mapped[int] = mapped_column(primary_key=True) data: Mapped[str] = mapped_column() bs: Mapped[KeyFuncDict[str, B]] = relationship( # noqa: F821 collection_class=attribute_keyed_dict("name") ) class B(decl_base): __tablename__ = "b" id: Mapped[int] = mapped_column(Integer, primary_key=True) a_id: Mapped[int] = mapped_column(ForeignKey("a.id")) name: Mapped[str] = mapped_column() self._assert_dict(A, B) def test_collection_cls_attr_mapped_collection_dbl_literal_annotations( self, decl_base ): class A(decl_base): __tablename__ = "a" id: Mapped[int] = mapped_column(primary_key=True) data: Mapped[str] = mapped_column() bs: Mapped[KeyFuncDict[str, "B"]] = relationship( # noqa: F821 collection_class=attribute_keyed_dict("name") ) class B(decl_base): __tablename__ = "b" id: Mapped[int] = mapped_column(Integer, primary_key=True) a_id: Mapped[int] = mapped_column(ForeignKey("a.id")) name: Mapped[str] = mapped_column() self._assert_dict(A, B) def test_collection_cls_not_locatable(self, decl_base): class MyCollection(KeyFuncDict): pass with expect_raises_message( exc.ArgumentError, r"Could not interpret annotation Mapped\[MyCollection\['B'\]\].", ): class A(decl_base): __tablename__ = "a" id: Mapped[int] = mapped_column(primary_key=True) data: Mapped[str] = mapped_column() bs: Mapped[MyCollection["B"]] = relationship( # noqa: F821 collection_class=attribute_keyed_dict("name") ) def test_collection_cls_one_arg(self, decl_base): class A(decl_base): __tablename__ = "a" id: Mapped[int] = mapped_column(primary_key=True) data: Mapped[str] = mapped_column() bs: Mapped[MappedOneArg["B"]] = relationship( # noqa: F821 collection_class=attribute_keyed_dict("name") ) class B(decl_base): __tablename__ = "b" id: Mapped[int] = mapped_column(Integer, primary_key=True) a_id: Mapped[int] = mapped_column(ForeignKey("a.id")) name: Mapped[str] = mapped_column() self._assert_dict(A, B) def _assert_dict(self, A, B): A.registry.configure() a1 = A() b1 = B(name="foo") # collection appender on MappedCollection a1.bs.set(b1) is_(a1.bs["foo"], b1) def test_indirect_name_relationship_arg_override(self, decl_base): """test #8759 in this test we assume a case where the type for the Mapped annnotation a. has to be a different name than the actual class name and b. cannot be imported outside of TYPE CHECKING. user will then put the real name inside of relationship(). we have to succeed even though we can't resolve the annotation. """ class B(decl_base): __tablename__ = "b" id: Mapped[int] = mapped_column(Integer, primary_key=True) a_id: Mapped[int] = mapped_column(ForeignKey("a.id")) if TYPE_CHECKING: BNonExistent = B class A(decl_base): __tablename__ = "a" id: Mapped[int] = mapped_column(primary_key=True) data: Mapped[str] = mapped_column() bs: Mapped[List[BNonExistent]] = relationship("B") self.assert_compile( select(A).join(A.bs), "SELECT a.id, a.data FROM a JOIN b ON a.id = b.a_id", )