import json from typing import TYPE_CHECKING, Any, Dict, List, Union, Optional, cast from datetime import datetime, timezone from typing_extensions import Literal, Annotated, TypeAliasType import pytest import pydantic from pydantic import Field from openai._utils import PropertyInfo from openai._compat import PYDANTIC_V2, parse_obj, model_dump, model_json from openai._models import BaseModel, construct_type class BasicModel(BaseModel): foo: str @pytest.mark.parametrize("value", ["hello", 1], ids=["correct type", "mismatched"]) def test_basic(value: object) -> None: m = BasicModel.construct(foo=value) assert m.foo == value def test_directly_nested_model() -> None: class NestedModel(BaseModel): nested: BasicModel m = NestedModel.construct(nested={"foo": "Foo!"}) assert m.nested.foo == "Foo!" # mismatched types m = NestedModel.construct(nested="hello!") assert cast(Any, m.nested) == "hello!" def test_optional_nested_model() -> None: class NestedModel(BaseModel): nested: Optional[BasicModel] m1 = NestedModel.construct(nested=None) assert m1.nested is None m2 = NestedModel.construct(nested={"foo": "bar"}) assert m2.nested is not None assert m2.nested.foo == "bar" # mismatched types m3 = NestedModel.construct(nested={"foo"}) assert isinstance(cast(Any, m3.nested), set) assert cast(Any, m3.nested) == {"foo"} def test_list_nested_model() -> None: class NestedModel(BaseModel): nested: List[BasicModel] m = NestedModel.construct(nested=[{"foo": "bar"}, {"foo": "2"}]) assert m.nested is not None assert isinstance(m.nested, list) assert len(m.nested) == 2 assert m.nested[0].foo == "bar" assert m.nested[1].foo == "2" # mismatched types m = NestedModel.construct(nested=True) assert cast(Any, m.nested) is True m = NestedModel.construct(nested=[False]) assert cast(Any, m.nested) == [False] def test_optional_list_nested_model() -> None: class NestedModel(BaseModel): nested: Optional[List[BasicModel]] m1 = NestedModel.construct(nested=[{"foo": "bar"}, {"foo": "2"}]) assert m1.nested is not None assert isinstance(m1.nested, list) assert len(m1.nested) == 2 assert m1.nested[0].foo == "bar" assert m1.nested[1].foo == "2" m2 = NestedModel.construct(nested=None) assert m2.nested is None # mismatched types m3 = NestedModel.construct(nested={1}) assert cast(Any, m3.nested) == {1} m4 = NestedModel.construct(nested=[False]) assert cast(Any, m4.nested) == [False] def test_list_optional_items_nested_model() -> None: class NestedModel(BaseModel): nested: List[Optional[BasicModel]] m = NestedModel.construct(nested=[None, {"foo": "bar"}]) assert m.nested is not None assert isinstance(m.nested, list) assert len(m.nested) == 2 assert m.nested[0] is None assert m.nested[1] is not None assert m.nested[1].foo == "bar" # mismatched types m3 = NestedModel.construct(nested="foo") assert cast(Any, m3.nested) == "foo" m4 = NestedModel.construct(nested=[False]) assert cast(Any, m4.nested) == [False] def test_list_mismatched_type() -> None: class NestedModel(BaseModel): nested: List[str] m = NestedModel.construct(nested=False) assert cast(Any, m.nested) is False def test_raw_dictionary() -> None: class NestedModel(BaseModel): nested: Dict[str, str] m = NestedModel.construct(nested={"hello": "world"}) assert m.nested == {"hello": "world"} # mismatched types m = NestedModel.construct(nested=False) assert cast(Any, m.nested) is False def test_nested_dictionary_model() -> None: class NestedModel(BaseModel): nested: Dict[str, BasicModel] m = NestedModel.construct(nested={"hello": {"foo": "bar"}}) assert isinstance(m.nested, dict) assert m.nested["hello"].foo == "bar" # mismatched types m = NestedModel.construct(nested={"hello": False}) assert cast(Any, m.nested["hello"]) is False def test_unknown_fields() -> None: m1 = BasicModel.construct(foo="foo", unknown=1) assert m1.foo == "foo" assert cast(Any, m1).unknown == 1 m2 = BasicModel.construct(foo="foo", unknown={"foo_bar": True}) assert m2.foo == "foo" assert cast(Any, m2).unknown == {"foo_bar": True} assert model_dump(m2) == {"foo": "foo", "unknown": {"foo_bar": True}} def test_strict_validation_unknown_fields() -> None: class Model(BaseModel): foo: str model = parse_obj(Model, dict(foo="hello!", user="Robert")) assert model.foo == "hello!" assert cast(Any, model).user == "Robert" assert model_dump(model) == {"foo": "hello!", "user": "Robert"} def test_aliases() -> None: class Model(BaseModel): my_field: int = Field(alias="myField") m = Model.construct(myField=1) assert m.my_field == 1 # mismatched types m = Model.construct(myField={"hello": False}) assert cast(Any, m.my_field) == {"hello": False} def test_repr() -> None: model = BasicModel(foo="bar") assert str(model) == "BasicModel(foo='bar')" assert repr(model) == "BasicModel(foo='bar')" def test_repr_nested_model() -> None: class Child(BaseModel): name: str age: int class Parent(BaseModel): name: str child: Child model = Parent(name="Robert", child=Child(name="Foo", age=5)) assert str(model) == "Parent(name='Robert', child=Child(name='Foo', age=5))" assert repr(model) == "Parent(name='Robert', child=Child(name='Foo', age=5))" def test_optional_list() -> None: class Submodel(BaseModel): name: str class Model(BaseModel): items: Optional[List[Submodel]] m = Model.construct(items=None) assert m.items is None m = Model.construct(items=[]) assert m.items == [] m = Model.construct(items=[{"name": "Robert"}]) assert m.items is not None assert len(m.items) == 1 assert m.items[0].name == "Robert" def test_nested_union_of_models() -> None: class Submodel1(BaseModel): bar: bool class Submodel2(BaseModel): thing: str class Model(BaseModel): foo: Union[Submodel1, Submodel2] m = Model.construct(foo={"thing": "hello"}) assert isinstance(m.foo, Submodel2) assert m.foo.thing == "hello" def test_nested_union_of_mixed_types() -> None: class Submodel1(BaseModel): bar: bool class Model(BaseModel): foo: Union[Submodel1, Literal[True], Literal["CARD_HOLDER"]] m = Model.construct(foo=True) assert m.foo is True m = Model.construct(foo="CARD_HOLDER") assert m.foo == "CARD_HOLDER" m = Model.construct(foo={"bar": False}) assert isinstance(m.foo, Submodel1) assert m.foo.bar is False def test_nested_union_multiple_variants() -> None: class Submodel1(BaseModel): bar: bool class Submodel2(BaseModel): thing: str class Submodel3(BaseModel): foo: int class Model(BaseModel): foo: Union[Submodel1, Submodel2, None, Submodel3] m = Model.construct(foo={"thing": "hello"}) assert isinstance(m.foo, Submodel2) assert m.foo.thing == "hello" m = Model.construct(foo=None) assert m.foo is None m = Model.construct() assert m.foo is None m = Model.construct(foo={"foo": "1"}) assert isinstance(m.foo, Submodel3) assert m.foo.foo == 1 def test_nested_union_invalid_data() -> None: class Submodel1(BaseModel): level: int class Submodel2(BaseModel): name: str class Model(BaseModel): foo: Union[Submodel1, Submodel2] m = Model.construct(foo=True) assert cast(bool, m.foo) is True m = Model.construct(foo={"name": 3}) if PYDANTIC_V2: assert isinstance(m.foo, Submodel1) assert m.foo.name == 3 # type: ignore else: assert isinstance(m.foo, Submodel2) assert m.foo.name == "3" def test_list_of_unions() -> None: class Submodel1(BaseModel): level: int class Submodel2(BaseModel): name: str class Model(BaseModel): items: List[Union[Submodel1, Submodel2]] m = Model.construct(items=[{"level": 1}, {"name": "Robert"}]) assert len(m.items) == 2 assert isinstance(m.items[0], Submodel1) assert m.items[0].level == 1 assert isinstance(m.items[1], Submodel2) assert m.items[1].name == "Robert" m = Model.construct(items=[{"level": -1}, 156]) assert len(m.items) == 2 assert isinstance(m.items[0], Submodel1) assert m.items[0].level == -1 assert cast(Any, m.items[1]) == 156 def test_union_of_lists() -> None: class SubModel1(BaseModel): level: int class SubModel2(BaseModel): name: str class Model(BaseModel): items: Union[List[SubModel1], List[SubModel2]] # with one valid entry m = Model.construct(items=[{"name": "Robert"}]) assert len(m.items) == 1 assert isinstance(m.items[0], SubModel2) assert m.items[0].name == "Robert" # with two entries pointing to different types m = Model.construct(items=[{"level": 1}, {"name": "Robert"}]) assert len(m.items) == 2 assert isinstance(m.items[0], SubModel1) assert m.items[0].level == 1 assert isinstance(m.items[1], SubModel1) assert cast(Any, m.items[1]).name == "Robert" # with two entries pointing to *completely* different types m = Model.construct(items=[{"level": -1}, 156]) assert len(m.items) == 2 assert isinstance(m.items[0], SubModel1) assert m.items[0].level == -1 assert cast(Any, m.items[1]) == 156 def test_dict_of_union() -> None: class SubModel1(BaseModel): name: str class SubModel2(BaseModel): foo: str class Model(BaseModel): data: Dict[str, Union[SubModel1, SubModel2]] m = Model.construct(data={"hello": {"name": "there"}, "foo": {"foo": "bar"}}) assert len(list(m.data.keys())) == 2 assert isinstance(m.data["hello"], SubModel1) assert m.data["hello"].name == "there" assert isinstance(m.data["foo"], SubModel2) assert m.data["foo"].foo == "bar" # TODO: test mismatched type def test_double_nested_union() -> None: class SubModel1(BaseModel): name: str class SubModel2(BaseModel): bar: str class Model(BaseModel): data: Dict[str, List[Union[SubModel1, SubModel2]]] m = Model.construct(data={"foo": [{"bar": "baz"}, {"name": "Robert"}]}) assert len(m.data["foo"]) == 2 entry1 = m.data["foo"][0] assert isinstance(entry1, SubModel2) assert entry1.bar == "baz" entry2 = m.data["foo"][1] assert isinstance(entry2, SubModel1) assert entry2.name == "Robert" # TODO: test mismatched type def test_union_of_dict() -> None: class SubModel1(BaseModel): name: str class SubModel2(BaseModel): foo: str class Model(BaseModel): data: Union[Dict[str, SubModel1], Dict[str, SubModel2]] m = Model.construct(data={"hello": {"name": "there"}, "foo": {"foo": "bar"}}) assert len(list(m.data.keys())) == 2 assert isinstance(m.data["hello"], SubModel1) assert m.data["hello"].name == "there" assert isinstance(m.data["foo"], SubModel1) assert cast(Any, m.data["foo"]).foo == "bar" def test_iso8601_datetime() -> None: class Model(BaseModel): created_at: datetime expected = datetime(2019, 12, 27, 18, 11, 19, 117000, tzinfo=timezone.utc) if PYDANTIC_V2: expected_json = '{"created_at":"2019-12-27T18:11:19.117000Z"}' else: expected_json = '{"created_at": "2019-12-27T18:11:19.117000+00:00"}' model = Model.construct(created_at="2019-12-27T18:11:19.117Z") assert model.created_at == expected assert model_json(model) == expected_json model = parse_obj(Model, dict(created_at="2019-12-27T18:11:19.117Z")) assert model.created_at == expected assert model_json(model) == expected_json def test_does_not_coerce_int() -> None: class Model(BaseModel): bar: int assert Model.construct(bar=1).bar == 1 assert Model.construct(bar=10.9).bar == 10.9 assert Model.construct(bar="19").bar == "19" # type: ignore[comparison-overlap] assert Model.construct(bar=False).bar is False def test_int_to_float_safe_conversion() -> None: class Model(BaseModel): float_field: float m = Model.construct(float_field=10) assert m.float_field == 10.0 assert isinstance(m.float_field, float) m = Model.construct(float_field=10.12) assert m.float_field == 10.12 assert isinstance(m.float_field, float) # number too big m = Model.construct(float_field=2**53 + 1) assert m.float_field == 2**53 + 1 assert isinstance(m.float_field, int) def test_deprecated_alias() -> None: class Model(BaseModel): resource_id: str = Field(alias="model_id") @property def model_id(self) -> str: return self.resource_id m = Model.construct(model_id="id") assert m.model_id == "id" assert m.resource_id == "id" assert m.resource_id is m.model_id m = parse_obj(Model, {"model_id": "id"}) assert m.model_id == "id" assert m.resource_id == "id" assert m.resource_id is m.model_id def test_omitted_fields() -> None: class Model(BaseModel): resource_id: Optional[str] = None m = Model.construct() assert m.resource_id is None assert "resource_id" not in m.model_fields_set m = Model.construct(resource_id=None) assert m.resource_id is None assert "resource_id" in m.model_fields_set m = Model.construct(resource_id="foo") assert m.resource_id == "foo" assert "resource_id" in m.model_fields_set def test_to_dict() -> None: class Model(BaseModel): foo: Optional[str] = Field(alias="FOO", default=None) m = Model(FOO="hello") assert m.to_dict() == {"FOO": "hello"} assert m.to_dict(use_api_names=False) == {"foo": "hello"} m2 = Model() assert m2.to_dict() == {} assert m2.to_dict(exclude_unset=False) == {"FOO": None} assert m2.to_dict(exclude_unset=False, exclude_none=True) == {} assert m2.to_dict(exclude_unset=False, exclude_defaults=True) == {} m3 = Model(FOO=None) assert m3.to_dict() == {"FOO": None} assert m3.to_dict(exclude_none=True) == {} assert m3.to_dict(exclude_defaults=True) == {} class Model2(BaseModel): created_at: datetime time_str = "2024-03-21T11:39:01.275859" m4 = Model2.construct(created_at=time_str) assert m4.to_dict(mode="python") == {"created_at": datetime.fromisoformat(time_str)} assert m4.to_dict(mode="json") == {"created_at": time_str} if not PYDANTIC_V2: with pytest.raises(ValueError, match="warnings is only supported in Pydantic v2"): m.to_dict(warnings=False) def test_forwards_compat_model_dump_method() -> None: class Model(BaseModel): foo: Optional[str] = Field(alias="FOO", default=None) m = Model(FOO="hello") assert m.model_dump() == {"foo": "hello"} assert m.model_dump(include={"bar"}) == {} assert m.model_dump(exclude={"foo"}) == {} assert m.model_dump(by_alias=True) == {"FOO": "hello"} m2 = Model() assert m2.model_dump() == {"foo": None} assert m2.model_dump(exclude_unset=True) == {} assert m2.model_dump(exclude_none=True) == {} assert m2.model_dump(exclude_defaults=True) == {} m3 = Model(FOO=None) assert m3.model_dump() == {"foo": None} assert m3.model_dump(exclude_none=True) == {} if not PYDANTIC_V2: with pytest.raises(ValueError, match="round_trip is only supported in Pydantic v2"): m.model_dump(round_trip=True) with pytest.raises(ValueError, match="warnings is only supported in Pydantic v2"): m.model_dump(warnings=False) def test_compat_method_no_error_for_warnings() -> None: class Model(BaseModel): foo: Optional[str] m = Model(foo="hello") assert isinstance(model_dump(m, warnings=False), dict) def test_to_json() -> None: class Model(BaseModel): foo: Optional[str] = Field(alias="FOO", default=None) m = Model(FOO="hello") assert json.loads(m.to_json()) == {"FOO": "hello"} assert json.loads(m.to_json(use_api_names=False)) == {"foo": "hello"} if PYDANTIC_V2: assert m.to_json(indent=None) == '{"FOO":"hello"}' else: assert m.to_json(indent=None) == '{"FOO": "hello"}' m2 = Model() assert json.loads(m2.to_json()) == {} assert json.loads(m2.to_json(exclude_unset=False)) == {"FOO": None} assert json.loads(m2.to_json(exclude_unset=False, exclude_none=True)) == {} assert json.loads(m2.to_json(exclude_unset=False, exclude_defaults=True)) == {} m3 = Model(FOO=None) assert json.loads(m3.to_json()) == {"FOO": None} assert json.loads(m3.to_json(exclude_none=True)) == {} if not PYDANTIC_V2: with pytest.raises(ValueError, match="warnings is only supported in Pydantic v2"): m.to_json(warnings=False) def test_forwards_compat_model_dump_json_method() -> None: class Model(BaseModel): foo: Optional[str] = Field(alias="FOO", default=None) m = Model(FOO="hello") assert json.loads(m.model_dump_json()) == {"foo": "hello"} assert json.loads(m.model_dump_json(include={"bar"})) == {} assert json.loads(m.model_dump_json(include={"foo"})) == {"foo": "hello"} assert json.loads(m.model_dump_json(by_alias=True)) == {"FOO": "hello"} assert m.model_dump_json(indent=2) == '{\n "foo": "hello"\n}' m2 = Model() assert json.loads(m2.model_dump_json()) == {"foo": None} assert json.loads(m2.model_dump_json(exclude_unset=True)) == {} assert json.loads(m2.model_dump_json(exclude_none=True)) == {} assert json.loads(m2.model_dump_json(exclude_defaults=True)) == {} m3 = Model(FOO=None) assert json.loads(m3.model_dump_json()) == {"foo": None} assert json.loads(m3.model_dump_json(exclude_none=True)) == {} if not PYDANTIC_V2: with pytest.raises(ValueError, match="round_trip is only supported in Pydantic v2"): m.model_dump_json(round_trip=True) with pytest.raises(ValueError, match="warnings is only supported in Pydantic v2"): m.model_dump_json(warnings=False) def test_type_compat() -> None: # our model type can be assigned to Pydantic's model type def takes_pydantic(model: pydantic.BaseModel) -> None: # noqa: ARG001 ... class OurModel(BaseModel): foo: Optional[str] = None takes_pydantic(OurModel()) def test_annotated_types() -> None: class Model(BaseModel): value: str m = construct_type( value={"value": "foo"}, type_=cast(Any, Annotated[Model, "random metadata"]), ) assert isinstance(m, Model) assert m.value == "foo" def test_discriminated_unions_invalid_data() -> None: class A(BaseModel): type: Literal["a"] data: str class B(BaseModel): type: Literal["b"] data: int m = construct_type( value={"type": "b", "data": "foo"}, type_=cast(Any, Annotated[Union[A, B], PropertyInfo(discriminator="type")]), ) assert isinstance(m, B) assert m.type == "b" assert m.data == "foo" # type: ignore[comparison-overlap] m = construct_type( value={"type": "a", "data": 100}, type_=cast(Any, Annotated[Union[A, B], PropertyInfo(discriminator="type")]), ) assert isinstance(m, A) assert m.type == "a" if PYDANTIC_V2: assert m.data == 100 # type: ignore[comparison-overlap] else: # pydantic v1 automatically converts inputs to strings # if the expected type is a str assert m.data == "100" def test_discriminated_unions_unknown_variant() -> None: class A(BaseModel): type: Literal["a"] data: str class B(BaseModel): type: Literal["b"] data: int m = construct_type( value={"type": "c", "data": None, "new_thing": "bar"}, type_=cast(Any, Annotated[Union[A, B], PropertyInfo(discriminator="type")]), ) # just chooses the first variant assert isinstance(m, A) assert m.type == "c" # type: ignore[comparison-overlap] assert m.data == None # type: ignore[unreachable] assert m.new_thing == "bar" def test_discriminated_unions_invalid_data_nested_unions() -> None: class A(BaseModel): type: Literal["a"] data: str class B(BaseModel): type: Literal["b"] data: int class C(BaseModel): type: Literal["c"] data: bool m = construct_type( value={"type": "b", "data": "foo"}, type_=cast(Any, Annotated[Union[Union[A, B], C], PropertyInfo(discriminator="type")]), ) assert isinstance(m, B) assert m.type == "b" assert m.data == "foo" # type: ignore[comparison-overlap] m = construct_type( value={"type": "c", "data": "foo"}, type_=cast(Any, Annotated[Union[Union[A, B], C], PropertyInfo(discriminator="type")]), ) assert isinstance(m, C) assert m.type == "c" assert m.data == "foo" # type: ignore[comparison-overlap] def test_discriminated_unions_with_aliases_invalid_data() -> None: class A(BaseModel): foo_type: Literal["a"] = Field(alias="type") data: str class B(BaseModel): foo_type: Literal["b"] = Field(alias="type") data: int m = construct_type( value={"type": "b", "data": "foo"}, type_=cast(Any, Annotated[Union[A, B], PropertyInfo(discriminator="foo_type")]), ) assert isinstance(m, B) assert m.foo_type == "b" assert m.data == "foo" # type: ignore[comparison-overlap] m = construct_type( value={"type": "a", "data": 100}, type_=cast(Any, Annotated[Union[A, B], PropertyInfo(discriminator="foo_type")]), ) assert isinstance(m, A) assert m.foo_type == "a" if PYDANTIC_V2: assert m.data == 100 # type: ignore[comparison-overlap] else: # pydantic v1 automatically converts inputs to strings # if the expected type is a str assert m.data == "100" def test_discriminated_unions_overlapping_discriminators_invalid_data() -> None: class A(BaseModel): type: Literal["a"] data: bool class B(BaseModel): type: Literal["a"] data: int m = construct_type( value={"type": "a", "data": "foo"}, type_=cast(Any, Annotated[Union[A, B], PropertyInfo(discriminator="type")]), ) assert isinstance(m, B) assert m.type == "a" assert m.data == "foo" # type: ignore[comparison-overlap] def test_discriminated_unions_invalid_data_uses_cache() -> None: class A(BaseModel): type: Literal["a"] data: str class B(BaseModel): type: Literal["b"] data: int UnionType = cast(Any, Union[A, B]) assert not hasattr(UnionType, "__discriminator__") m = construct_type( value={"type": "b", "data": "foo"}, type_=cast(Any, Annotated[UnionType, PropertyInfo(discriminator="type")]) ) assert isinstance(m, B) assert m.type == "b" assert m.data == "foo" # type: ignore[comparison-overlap] discriminator = UnionType.__discriminator__ assert discriminator is not None m = construct_type( value={"type": "b", "data": "foo"}, type_=cast(Any, Annotated[UnionType, PropertyInfo(discriminator="type")]) ) assert isinstance(m, B) assert m.type == "b" assert m.data == "foo" # type: ignore[comparison-overlap] # if the discriminator details object stays the same between invocations then # we hit the cache assert UnionType.__discriminator__ is discriminator @pytest.mark.skipif(not PYDANTIC_V2, reason="TypeAliasType is not supported in Pydantic v1") def test_type_alias_type() -> None: Alias = TypeAliasType("Alias", str) # pyright: ignore class Model(BaseModel): alias: Alias union: Union[int, Alias] m = construct_type(value={"alias": "foo", "union": "bar"}, type_=Model) assert isinstance(m, Model) assert isinstance(m.alias, str) assert m.alias == "foo" assert isinstance(m.union, str) assert m.union == "bar" @pytest.mark.skipif(not PYDANTIC_V2, reason="TypeAliasType is not supported in Pydantic v1") def test_field_named_cls() -> None: class Model(BaseModel): cls: str m = construct_type(value={"cls": "foo"}, type_=Model) assert isinstance(m, Model) assert isinstance(m.cls, str) def test_discriminated_union_case() -> None: class A(BaseModel): type: Literal["a"] data: bool class B(BaseModel): type: Literal["b"] data: List[Union[A, object]] class ModelA(BaseModel): type: Literal["modelA"] data: int class ModelB(BaseModel): type: Literal["modelB"] required: str data: Union[A, B] # when constructing ModelA | ModelB, value data doesn't match ModelB exactly - missing `required` m = construct_type( value={"type": "modelB", "data": {"type": "a", "data": True}}, type_=cast(Any, Annotated[Union[ModelA, ModelB], PropertyInfo(discriminator="type")]), ) assert isinstance(m, ModelB) def test_nested_discriminated_union() -> None: class InnerType1(BaseModel): type: Literal["type_1"] class InnerModel(BaseModel): inner_value: str class InnerType2(BaseModel): type: Literal["type_2"] some_inner_model: InnerModel class Type1(BaseModel): base_type: Literal["base_type_1"] value: Annotated[ Union[ InnerType1, InnerType2, ], PropertyInfo(discriminator="type"), ] class Type2(BaseModel): base_type: Literal["base_type_2"] T = Annotated[ Union[ Type1, Type2, ], PropertyInfo(discriminator="base_type"), ] model = construct_type( type_=T, value={ "base_type": "base_type_1", "value": { "type": "type_2", }, }, ) assert isinstance(model, Type1) assert isinstance(model.value, InnerType2) @pytest.mark.skipif(not PYDANTIC_V2, reason="this is only supported in pydantic v2 for now") def test_extra_properties() -> None: class Item(BaseModel): prop: int class Model(BaseModel): __pydantic_extra__: Dict[str, Item] = Field(init=False) # pyright: ignore[reportIncompatibleVariableOverride] other: str if TYPE_CHECKING: def __getattr__(self, attr: str) -> Item: ... model = construct_type( type_=Model, value={ "a": {"prop": 1}, "other": "foo", }, ) assert isinstance(model, Model) assert model.a.prop == 1 assert isinstance(model.a, Item) assert model.other == "foo"