# SPDX-License-Identifier: MIT """ Tests for PEP-526 type annotations. """ import sys import types import typing import pytest import attr from attr._make import _is_class_var from attr.exceptions import UnannotatedAttributeError def assert_init_annotations(cls, **annotations): """ Assert cls.__init__ has the correct annotations. """ __tracebackhide__ = True annotations["return"] = type(None) assert annotations == typing.get_type_hints(cls.__init__) class TestAnnotations: """ Tests for types derived from variable annotations (PEP-526). """ def test_basic_annotations(self): """ Sets the `Attribute.type` attr from basic type annotations. """ @attr.resolve_types @attr.s class C: x: int = attr.ib() y = attr.ib(type=str) z = attr.ib() assert int is attr.fields(C).x.type assert str is attr.fields(C).y.type assert None is attr.fields(C).z.type assert_init_annotations(C, x=int, y=str) def test_catches_basic_type_conflict(self): """ Raises ValueError if type is specified both ways. """ with pytest.raises(ValueError) as e: @attr.s class C: x: int = attr.ib(type=int) assert ( "Type annotation and type argument cannot both be present", ) == e.value.args def test_typing_annotations(self): """ Sets the `Attribute.type` attr from typing annotations. """ @attr.resolve_types @attr.s class C: x: typing.List[int] = attr.ib() y = attr.ib(type=typing.Optional[str]) assert typing.List[int] is attr.fields(C).x.type assert typing.Optional[str] is attr.fields(C).y.type assert_init_annotations(C, x=typing.List[int], y=typing.Optional[str]) def test_only_attrs_annotations_collected(self): """ Annotations that aren't set to an attr.ib are ignored. """ @attr.resolve_types @attr.s class C: x: typing.List[int] = attr.ib() y: int assert 1 == len(attr.fields(C)) assert_init_annotations(C, x=typing.List[int]) @pytest.mark.skipif( sys.version_info[:2] < (3, 11), reason="Incompatible behavior on older Pythons", ) def test_auto_attribs(self, slots): """ If *auto_attribs* is True, bare annotations are collected too. Defaults work and class variables are ignored. """ @attr.s(auto_attribs=True, slots=slots) class C: cls_var: typing.ClassVar[int] = 23 a: int x: typing.List[int] = attr.Factory(list) y: int = 2 z: int = attr.ib(default=3) foo: typing.Any = None i = C(42) assert "C(a=42, x=[], y=2, z=3, foo=None)" == repr(i) attr_names = {a.name for a in C.__attrs_attrs__} assert "a" in attr_names # just double check that the set works assert "cls_var" not in attr_names attr.resolve_types(C) assert int is attr.fields(C).a.type assert attr.Factory(list) == attr.fields(C).x.default assert typing.List[int] is attr.fields(C).x.type assert int is attr.fields(C).y.type assert 2 == attr.fields(C).y.default assert int is attr.fields(C).z.type assert typing.Any == attr.fields(C).foo.type # Class body is clean. if slots is False: with pytest.raises(AttributeError): C.y assert 2 == i.y else: assert isinstance(C.y, types.MemberDescriptorType) i.y = 23 assert 23 == i.y assert_init_annotations( C, a=int, x=typing.List[int], y=int, z=int, foo=typing.Any, ) def test_auto_attribs_unannotated(self, slots): """ Unannotated `attr.ib`s raise an error. """ with pytest.raises(UnannotatedAttributeError) as e: @attr.s(slots=slots, auto_attribs=True) class C: v = attr.ib() x: int y = attr.ib() z: str assert ( "The following `attr.ib`s lack a type annotation: v, y.", ) == e.value.args def test_auto_attribs_subclassing(self, slots): """ Attributes from base classes are inherited, it doesn't matter if the subclass has annotations or not. Ref #291 """ @attr.resolve_types @attr.s(slots=slots, auto_attribs=True) class A: a: int = 1 @attr.resolve_types @attr.s(slots=slots, auto_attribs=True) class B(A): b: int = 2 @attr.resolve_types @attr.s(slots=slots, auto_attribs=True) class C(A): pass assert "B(a=1, b=2)" == repr(B()) assert "C(a=1)" == repr(C()) assert_init_annotations(A, a=int) assert_init_annotations(B, a=int, b=int) assert_init_annotations(C, a=int) def test_converter_annotations(self): """ An unannotated attribute with an annotated converter gets its annotation from the converter. """ def int2str(x: int) -> str: return str(x) @attr.s class A: a = attr.ib(converter=int2str) assert_init_annotations(A, a=int) def int2str_(x: int, y: str = ""): return str(x) @attr.s class A: a = attr.ib(converter=int2str_) assert_init_annotations(A, a=int) def test_converter_attrib_annotations(self): """ If a converter is provided, an explicit type annotation has no effect on an attribute's type annotation. """ def int2str(x: int) -> str: return str(x) @attr.s class A: a: str = attr.ib(converter=int2str) b = attr.ib(converter=int2str, type=str) assert_init_annotations(A, a=int, b=int) def test_non_introspectable_converter(self): """ A non-introspectable converter doesn't cause a crash. """ @attr.s class A: a = attr.ib(converter=print) def test_nullary_converter(self): """ A converter with no arguments doesn't cause a crash. """ def noop(): pass @attr.s class A: a = attr.ib(converter=noop) assert A.__init__.__annotations__ == {"return": None} def test_pipe(self): """ pipe() uses the input annotation of its first argument and the output annotation of its last argument. """ def int2str(x: int) -> str: return str(x) def strlen(y: str) -> int: return len(y) def identity(z): return z assert attr.converters.pipe(int2str).converter.__annotations__ == { "val": int, "return": str, } assert attr.converters.pipe( int2str, strlen ).converter.__annotations__ == { "val": int, "return": int, } assert attr.converters.pipe( identity, strlen ).converter.__annotations__ == {"return": int} assert attr.converters.pipe( int2str, identity ).converter.__annotations__ == {"val": int} def int2str_(x: int, y: int = 0) -> str: return str(x) assert attr.converters.pipe(int2str_).converter.__annotations__ == { "val": int, "return": str, } def test_pipe_empty(self): """ pipe() with no converters is annotated like the identity. """ p = attr.converters.pipe() assert "val" in p.converter.__annotations__ t = p.converter.__annotations__["val"] assert isinstance(t, typing.TypeVar) assert p.converter.__annotations__ == {"val": t, "return": t} def test_pipe_non_introspectable(self): """ pipe() doesn't crash when passed a non-introspectable converter. """ assert attr.converters.pipe(print).converter.__annotations__ == {} def test_pipe_nullary(self): """ pipe() doesn't crash when passed a nullary converter. """ def noop(): pass assert attr.converters.pipe(noop).converter.__annotations__ == {} def test_optional(self): """ optional() uses the annotations of the converter it wraps. """ def int2str(x: int) -> str: return str(x) def int_identity(x: int): return x def strify(x) -> str: return str(x) def identity(x): return x assert attr.converters.optional(int2str).__annotations__ == { "val": typing.Optional[int], "return": typing.Optional[str], } assert attr.converters.optional(int_identity).__annotations__ == { "val": typing.Optional[int] } assert attr.converters.optional(strify).__annotations__ == { "return": typing.Optional[str] } assert attr.converters.optional(identity).__annotations__ == {} def int2str_(x: int, y: int = 0) -> str: return str(x) assert attr.converters.optional(int2str_).__annotations__ == { "val": typing.Optional[int], "return": typing.Optional[str], } def test_optional_non_introspectable(self): """ optional() doesn't crash when passed a non-introspectable converter. """ assert attr.converters.optional(print).__annotations__ == {} def test_optional_nullary(self): """ optional() doesn't crash when passed a nullary converter. """ def noop(): pass assert attr.converters.optional(noop).__annotations__ == {} @pytest.mark.skipif( sys.version_info[:2] < (3, 11), reason="Incompatible behavior on older Pythons", ) def test_annotations_strings(self, slots): """ String annotations are passed into __init__ as is. The strings keep changing between releases. """ import typing as t from typing import ClassVar @attr.s(auto_attribs=True, slots=slots) class C: cls_var1: "typing.ClassVar[int]" = 23 cls_var2: "ClassVar[int]" = 23 cls_var3: "t.ClassVar[int]" = 23 a: "int" x: "typing.List[int]" = attr.Factory(list) y: "int" = 2 z: "int" = attr.ib(default=3) foo: "typing.Any" = None attr.resolve_types(C, locals(), globals()) assert_init_annotations( C, a=int, x=typing.List[int], y=int, z=int, foo=typing.Any, ) def test_typing_extensions_classvar(self, slots): """ If ClassVar is coming from typing_extensions, it is recognized too. """ @attr.s(auto_attribs=True, slots=slots) class C: cls_var: "typing_extensions.ClassVar" = 23 # noqa: F821 assert_init_annotations(C) def test_keyword_only_auto_attribs(self): """ `kw_only` propagates to attributes defined via `auto_attribs`. """ @attr.s(auto_attribs=True, kw_only=True) class C: x: int y: int with pytest.raises(TypeError): C(0, 1) with pytest.raises(TypeError): C(x=0) c = C(x=0, y=1) assert c.x == 0 assert c.y == 1 def test_base_class_variable(self): """ Base class' class variables can be overridden with an attribute without resorting to using an explicit `attr.ib()`. """ class Base: x: int = 42 @attr.s(auto_attribs=True) class C(Base): x: int assert 1 == C(1).x def test_removes_none_too(self): """ Regression test for #523: make sure defaults that are set to None are removed too. """ @attr.s(auto_attribs=True) class C: x: int = 42 y: typing.Any = None with pytest.raises(AttributeError): C.x with pytest.raises(AttributeError): C.y def test_non_comparable_defaults(self): """ Regression test for #585: objects that are not directly comparable (for example numpy arrays) would cause a crash when used as default values of an attrs auto-attrib class. """ class NonComparable: def __eq__(self, other): raise ValueError @attr.s(auto_attribs=True) class C: x: typing.Any = NonComparable() def test_basic_resolve(self): """ Resolve the `Attribute.type` attr from basic type annotations. Unannotated types are ignored. """ @attr.s class C: x: "int" = attr.ib() y = attr.ib(type=str) z = attr.ib() attr.resolve_types(C) assert int is attr.fields(C).x.type assert str is attr.fields(C).y.type assert None is attr.fields(C).z.type @pytest.mark.skipif( sys.version_info[:2] < (3, 9), reason="Incompatible behavior on older Pythons", ) def test_extra_resolve(self): """ `get_type_hints` returns extra type hints. """ from typing import Annotated globals = {"Annotated": Annotated} @attr.define class C: x: 'Annotated[float, "test"]' attr.resolve_types(C, globals) assert Annotated[float, "test"] is attr.fields(C).x.type @attr.define class D: x: 'Annotated[float, "test"]' attr.resolve_types(D, globals, include_extras=False) assert float is attr.fields(D).x.type def test_resolve_types_auto_attrib(self, slots): """ Types can be resolved even when strings are involved. """ @attr.s(slots=slots, auto_attribs=True) class A: a: typing.List[int] b: typing.List["int"] c: "typing.List[int]" # Note: I don't have to pass globals and locals here because # int is a builtin and will be available in any scope. attr.resolve_types(A) assert typing.List[int] == attr.fields(A).a.type assert typing.List[int] == attr.fields(A).b.type assert typing.List[int] == attr.fields(A).c.type def test_resolve_types_decorator(self, slots): """ Types can be resolved using it as a decorator. """ @attr.resolve_types @attr.s(slots=slots, auto_attribs=True) class A: a: typing.List[int] b: typing.List["int"] c: "typing.List[int]" assert typing.List[int] == attr.fields(A).a.type assert typing.List[int] == attr.fields(A).b.type assert typing.List[int] == attr.fields(A).c.type def test_self_reference(self, slots): """ References to self class using quotes can be resolved. """ @attr.s(slots=slots, auto_attribs=True) class A: a: "A" b: typing.Optional["A"] # will resolve below -- noqa: F821 attr.resolve_types(A, globals(), locals()) assert A == attr.fields(A).a.type assert typing.Optional[A] == attr.fields(A).b.type def test_forward_reference(self, slots): """ Forward references can be resolved. """ @attr.s(slots=slots, auto_attribs=True) class A: a: typing.List["B"] # will resolve below -- noqa: F821 @attr.s(slots=slots, auto_attribs=True) class B: a: A attr.resolve_types(A, globals(), locals()) attr.resolve_types(B, globals(), locals()) assert typing.List[B] == attr.fields(A).a.type assert A == attr.fields(B).a.type assert typing.List[B] == attr.fields(A).a.type assert A == attr.fields(B).a.type def test_init_type_hints(self): """ Forward references in __init__ can be automatically resolved. """ @attr.s class C: x = attr.ib(type="typing.List[int]") assert_init_annotations(C, x=typing.List[int]) def test_init_type_hints_fake_module(self): """ If you somehow set the __module__ to something that doesn't exist you'll lose __init__ resolution. """ class C: x = attr.ib(type="typing.List[int]") C.__module__ = "totally fake" C = attr.s(C) with pytest.raises(NameError): typing.get_type_hints(C.__init__) def test_inheritance(self): """ Subclasses can be resolved after the parent is resolved. """ @attr.define() class A: n: "int" @attr.define() class B(A): pass attr.resolve_types(A) attr.resolve_types(B) assert int is attr.fields(A).n.type assert int is attr.fields(B).n.type def test_resolve_twice(self): """ You can call resolve_types as many times as you like. This test is here mostly for coverage. """ @attr.define() class A: n: "int" attr.resolve_types(A) assert int is attr.fields(A).n.type attr.resolve_types(A) assert int is attr.fields(A).n.type @pytest.mark.parametrize( "annot", [ typing.ClassVar, "typing.ClassVar", "'typing.ClassVar[dict]'", "t.ClassVar[int]", ], ) def test_is_class_var(annot): """ ClassVars are detected, even if they're a string or quoted. """ assert _is_class_var(annot)