check-typevar-defaults.test

[case testTypeVarDefaultsBasic]
from typing import Generic, TypeVar, ParamSpec, Callable, Tuple, List
from typing_extensions import TypeVarTuple, Unpack

T1 = TypeVar("T1", default=int)
P1 = ParamSpec("P1", default=[int, str])
Ts1 = TypeVarTuple("Ts1", default=Unpack[Tuple[int, str]])

def f1(a: T1) -> List[T1]: ...
reveal_type(f1)  # N: Revealed type is "def [T1 = builtins.int] (a: T1`-1 = builtins.int) -> builtins.list[T1`-1 = builtins.int]"

def f2(a: Callable[P1, None]) -> Callable[P1, None]: ...
reveal_type(f2)  # N: Revealed type is "def [P1 = [builtins.int, builtins.str]] (a: def (*P1.args, **P1.kwargs)) -> def (*P1.args, **P1.kwargs)"

def f3(a: Tuple[Unpack[Ts1]]) -> Tuple[Unpack[Ts1]]: ...
reveal_type(f3)  # N: Revealed type is "def [Ts1 = Unpack[Tuple[builtins.int, builtins.str]]] (a: Tuple[Unpack[Ts1`-1 = Unpack[Tuple[builtins.int, builtins.str]]]]) -> Tuple[Unpack[Ts1`-1 = Unpack[Tuple[builtins.int, builtins.str]]]]"


class ClassA1(Generic[T1]): ...
class ClassA2(Generic[P1]): ...
class ClassA3(Generic[Unpack[Ts1]]): ...

reveal_type(ClassA1)  # N: Revealed type is "def [T1 = builtins.int] () -> __main__.ClassA1[T1`1 = builtins.int]"
reveal_type(ClassA2)  # N: Revealed type is "def [P1 = [builtins.int, builtins.str]] () -> __main__.ClassA2[P1`1 = [builtins.int, builtins.str]]"
reveal_type(ClassA3)  # N: Revealed type is "def [Ts1 = Unpack[Tuple[builtins.int, builtins.str]]] () -> __main__.ClassA3[Unpack[Ts1`1 = Unpack[Tuple[builtins.int, builtins.str]]]]"
[builtins fixtures/tuple.pyi]

[case testTypeVarDefaultsValid]
from typing import TypeVar, ParamSpec, Any, List, Tuple
from typing_extensions import TypeVarTuple, Unpack

S0 = TypeVar("S0")
S1 = TypeVar("S1", bound=int)

P0 = ParamSpec("P0")
Ts0 = TypeVarTuple("Ts0")

T1 = TypeVar("T1", default=int)
T2 = TypeVar("T2", bound=float, default=int)
T3 = TypeVar("T3", bound=List[Any], default=List[int])
T4 = TypeVar("T4", int, str, default=int)
T5 = TypeVar("T5", default=S0)
T6 = TypeVar("T6", bound=float, default=S1)
# T7 = TypeVar("T7", bound=List[Any], default=List[S0])  # TODO

P1 = ParamSpec("P1", default=[])
P2 = ParamSpec("P2", default=...)
P3 = ParamSpec("P3", default=[int, str])
P4 = ParamSpec("P4", default=P0)

Ts1 = TypeVarTuple("Ts1", default=Unpack[Tuple[int]])
Ts2 = TypeVarTuple("Ts2", default=Unpack[Tuple[int, ...]])
# Ts3 = TypeVarTuple("Ts3", default=Unpack[Ts0])  # TODO
[builtins fixtures/tuple.pyi]

[case testTypeVarDefaultsInvalid]
from typing import TypeVar, ParamSpec, Tuple
from typing_extensions import TypeVarTuple, Unpack

T1 = TypeVar("T1", default=2)  # E: TypeVar "default" must be a type
T2 = TypeVar("T2", default=[int])  # E: Bracketed expression "[...]" is not valid as a type \
                                   # N: Did you mean "List[...]"? \
                                   # E: TypeVar "default" must be a type

P1 = ParamSpec("P1", default=int)  # E: The default argument to ParamSpec must be a list expression, ellipsis, or a ParamSpec
P2 = ParamSpec("P2", default=2)  # E: The default argument to ParamSpec must be a list expression, ellipsis, or a ParamSpec
P3 = ParamSpec("P3", default=(2, int))  # E: The default argument to ParamSpec must be a list expression, ellipsis, or a ParamSpec
P4 = ParamSpec("P4", default=[2, int])  # E: Argument 0 of ParamSpec default must be a type

Ts1 = TypeVarTuple("Ts1", default=2)  # E: The default argument to TypeVarTuple must be an Unpacked tuple
Ts2 = TypeVarTuple("Ts2", default=int)  # E: The default argument to TypeVarTuple must be an Unpacked tuple
Ts3 = TypeVarTuple("Ts3", default=Tuple[int])  # E: The default argument to TypeVarTuple must be an Unpacked tuple
[builtins fixtures/tuple.pyi]

[case testTypeVarDefaultsInvalid2]
from typing import TypeVar, List, Union

T1 = TypeVar("T1", bound=str, default=int)  # E: TypeVar default must be a subtype of the bound type
T2 = TypeVar("T2", bound=List[str], default=List[int])  # E: TypeVar default must be a subtype of the bound type
T3 = TypeVar("T3", int, str, default=bytes)  # E: TypeVar default must be one of the constraint types
T4 = TypeVar("T4", int, str, default=Union[int, str])  # E: TypeVar default must be one of the constraint types
T5 = TypeVar("T5", float, str, default=int)  # E: TypeVar default must be one of the constraint types

[case testTypeVarDefaultsInvalid3]
from typing import Dict, Generic, TypeVar

T1 = TypeVar("T1")
T2 = TypeVar("T2", default=T3)  # E: Name "T3" is used before definition
T3 = TypeVar("T3", default=str)
T4 = TypeVar("T4", default=T3)

class ClassError1(Generic[T3, T1]): ...  # E: "T1" cannot appear after "T3" in type parameter list because it has no default type

def func_error1(
    a: ClassError1,
    b: ClassError1[int],
    c: ClassError1[int, float],
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassError1[builtins.str, Any]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassError1[builtins.int, Any]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassError1[builtins.int, builtins.float]"

    k = ClassError1()
    reveal_type(k)  # N: Revealed type is "__main__.ClassError1[builtins.str, Any]"
    l = ClassError1[int]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassError1[builtins.int, Any]"
    m = ClassError1[int, float]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassError1[builtins.int, builtins.float]"

class ClassError2(Generic[T4, T3]): ...  # E: Type parameter "T4" has a default type that refers to one or more type variables that are out of scope

def func_error2(
    a: ClassError2,
    b: ClassError2[int],
    c: ClassError2[int, float],
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassError2[Any, builtins.str]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassError2[builtins.int, builtins.str]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassError2[builtins.int, builtins.float]"

    k = ClassError2()
    reveal_type(k)  # N: Revealed type is "__main__.ClassError2[Any, builtins.str]"
    l = ClassError2[int]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassError2[builtins.int, builtins.str]"
    m = ClassError2[int, float]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassError2[builtins.int, builtins.float]"

TERR1 = Dict[T3, T1]  # E: "T1" cannot appear after "T3" in type parameter list because it has no default type

def func_error_alias1(
    a: TERR1,
    b: TERR1[int],
    c: TERR1[int, float],
) -> None:
    reveal_type(a)  # N: Revealed type is "builtins.dict[builtins.str, Any]"
    reveal_type(b)  # N: Revealed type is "builtins.dict[builtins.int, Any]"
    reveal_type(c)  # N: Revealed type is "builtins.dict[builtins.int, builtins.float]"

TERR2 = Dict[T4, T3]  # TODO should be an error  \
                      # Type parameter "T4" has a default type that refers to one or more type variables that are out of scope

def func_error_alias2(
    a: TERR2,
    b: TERR2[int],
    c: TERR2[int, float],
) -> None:
    reveal_type(a)  # N: Revealed type is "builtins.dict[Any, builtins.str]"
    reveal_type(b)  # N: Revealed type is "builtins.dict[builtins.int, builtins.str]"
    reveal_type(c)  # N: Revealed type is "builtins.dict[builtins.int, builtins.float]"
[builtins fixtures/dict.pyi]

[case testTypeVarDefaultsFunctions]
from typing import TypeVar, ParamSpec, List, Union, Callable, Tuple
from typing_extensions import TypeVarTuple, Unpack

T1 = TypeVar("T1", default=str)
T2 = TypeVar("T2", bound=str, default=str)
T3 = TypeVar("T3", bytes, str, default=str)
P1 = ParamSpec("P1", default=[int, str])
Ts1 = TypeVarTuple("Ts1", default=Unpack[Tuple[int, str]])

def callback1(x: str) -> None: ...

def func_a1(x: Union[int, T1]) -> T1: ...
reveal_type(func_a1(2))  # N: Revealed type is "builtins.str"
reveal_type(func_a1(2.1))  # N: Revealed type is "builtins.float"

def func_a2(x: Union[int, T1]) -> List[T1]: ...
reveal_type(func_a2(2))  # N: Revealed type is "builtins.list[builtins.str]"
reveal_type(func_a2(2.1))  # N: Revealed type is "builtins.list[builtins.float]"

def func_a3(x: Union[int, T2]) -> T2: ...
reveal_type(func_a3(2))  # N: Revealed type is "builtins.str"

def func_a4(x: Union[int, T3]) -> T3: ...
reveal_type(func_a4(2))  # N: Revealed type is "builtins.str"

def func_b1(x: Union[int, Callable[P1, None]]) -> Callable[P1, None]: ...
reveal_type(func_b1(callback1))  # N: Revealed type is "def (x: builtins.str)"
reveal_type(func_b1(2))  # N: Revealed type is "def (builtins.int, builtins.str)"

def func_c1(x: Union[int, Callable[[Unpack[Ts1]], None]]) -> Tuple[Unpack[Ts1]]: ...
# reveal_type(func_c1(callback1))  # Revealed type is "Tuple[str]"  # TODO
reveal_type(func_c1(2))  # N: Revealed type is "Tuple[builtins.int, builtins.str]"
[builtins fixtures/tuple.pyi]

[case testTypeVarDefaultsClass1]
# flags: --disallow-any-generics
from typing import Generic, TypeVar, Union, overload

T1 = TypeVar("T1")
T2 = TypeVar("T2", default=int)
T3 = TypeVar("T3", default=str)
T4 = TypeVar("T4", default=Union[int, None])

class ClassA1(Generic[T2, T3]): ...

def func_a1(
    a: ClassA1,
    b: ClassA1[float],
    c: ClassA1[float, float],
    d: ClassA1[float, float, float],  # E: "ClassA1" expects between 0 and 2 type arguments, but 3 given
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassA1[builtins.int, builtins.str]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassA1[builtins.float, builtins.str]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassA1[builtins.float, builtins.float]"
    reveal_type(d)  # N: Revealed type is "__main__.ClassA1[builtins.int, builtins.str]"

    k = ClassA1()
    reveal_type(k)  # N: Revealed type is "__main__.ClassA1[builtins.int, builtins.str]"
    l = ClassA1[float]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassA1[builtins.float, builtins.str]"
    m = ClassA1[float, float]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassA1[builtins.float, builtins.float]"
    n = ClassA1[float, float, float]()  # E: Type application has too many types (expected between 0 and 2)
    reveal_type(n)  # N: Revealed type is "Any"

class ClassA2(Generic[T1, T2, T3]): ...

def func_a2(
    a: ClassA2,  # E: Missing type parameters for generic type "ClassA2"
    b: ClassA2[float],
    c: ClassA2[float, float],
    d: ClassA2[float, float, float],
    e: ClassA2[float, float, float, float],  # E: "ClassA2" expects between 1 and 3 type arguments, but 4 given
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassA2[Any, builtins.int, builtins.str]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassA2[builtins.float, builtins.int, builtins.str]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassA2[builtins.float, builtins.float, builtins.str]"
    reveal_type(d)  # N: Revealed type is "__main__.ClassA2[builtins.float, builtins.float, builtins.float]"
    reveal_type(e)  # N: Revealed type is "__main__.ClassA2[Any, builtins.int, builtins.str]"

    k = ClassA2()  # E: Need type annotation for "k"
    reveal_type(k)  # N: Revealed type is "__main__.ClassA2[Any, builtins.int, builtins.str]"
    l = ClassA2[float]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassA2[builtins.float, builtins.int, builtins.str]"
    m = ClassA2[float, float]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassA2[builtins.float, builtins.float, builtins.str]"
    n = ClassA2[float, float, float]()
    reveal_type(n)  # N: Revealed type is "__main__.ClassA2[builtins.float, builtins.float, builtins.float]"
    o = ClassA2[float, float, float, float]()  # E: Type application has too many types (expected between 1 and 3)
    reveal_type(o)  # N: Revealed type is "Any"

class ClassA3(Generic[T1, T2]):
    @overload
    def __init__(self) -> None: ...
    @overload
    def __init__(self, var: int) -> None: ...
    def __init__(self, var: Union[int, None] = None) -> None: ...

def func_a3(
    a: ClassA3,  # E: Missing type parameters for generic type "ClassA3"
    b: ClassA3[float],
    c: ClassA3[float, float],
    d: ClassA3[float, float, float],  # E: "ClassA3" expects between 1 and 2 type arguments, but 3 given
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassA3[Any, builtins.int]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassA3[builtins.float, builtins.int]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassA3[builtins.float, builtins.float]"
    reveal_type(d)  # N: Revealed type is "__main__.ClassA3[Any, builtins.int]"

    k = ClassA3()  # E: Need type annotation for "k"
    reveal_type(k)  # N: Revealed type is "__main__.ClassA3[Any, builtins.int]"
    l = ClassA3[float]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassA3[builtins.float, builtins.int]"
    m = ClassA3[float, float]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassA3[builtins.float, builtins.float]"
    n = ClassA3[float, float, float]()  # E: Type application has too many types (expected between 1 and 2)
    reveal_type(n)  # N: Revealed type is "Any"

class ClassA4(Generic[T4]): ...

def func_a4(
    a: ClassA4,
    b: ClassA4[float],
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassA4[Union[builtins.int, None]]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassA4[builtins.float]"

    k = ClassA4()
    reveal_type(k)  # N: Revealed type is "__main__.ClassA4[Union[builtins.int, None]]"
    l = ClassA4[float]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassA4[builtins.float]"

[case testTypeVarDefaultsClass2]
# flags: --disallow-any-generics
from typing import Generic, ParamSpec

P1 = ParamSpec("P1")
P2 = ParamSpec("P2", default=[int, str])
P3 = ParamSpec("P3", default=...)

class ClassB1(Generic[P2, P3]): ...

def func_b1(
    a: ClassB1,
    b: ClassB1[[float]],
    c: ClassB1[[float], [float]],
    d: ClassB1[[float], [float], [float]],  # E: "ClassB1" expects between 0 and 2 type arguments, but 3 given
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassB1[[builtins.int, builtins.str], ...]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassB1[[builtins.float], ...]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassB1[[builtins.float], [builtins.float]]"
    reveal_type(d)  # N: Revealed type is "__main__.ClassB1[[builtins.int, builtins.str], ...]"

    k = ClassB1()
    reveal_type(k)  # N: Revealed type is "__main__.ClassB1[[builtins.int, builtins.str], [*Any, **Any]]"
    l = ClassB1[[float]]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassB1[[builtins.float], [*Any, **Any]]"
    m = ClassB1[[float], [float]]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassB1[[builtins.float], [builtins.float]]"
    n = ClassB1[[float], [float], [float]]()  # E: Type application has too many types (expected between 0 and 2)
    reveal_type(n)  # N: Revealed type is "Any"

class ClassB2(Generic[P1, P2]): ...

def func_b2(
    a: ClassB2,  # E: Missing type parameters for generic type "ClassB2"
    b: ClassB2[[float]],
    c: ClassB2[[float], [float]],
    d: ClassB2[[float], [float], [float]],  # E: "ClassB2" expects between 1 and 2 type arguments, but 3 given
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassB2[Any, [builtins.int, builtins.str]]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassB2[[builtins.float], [builtins.int, builtins.str]]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassB2[[builtins.float], [builtins.float]]"
    reveal_type(d)  # N: Revealed type is "__main__.ClassB2[Any, [builtins.int, builtins.str]]"

    k = ClassB2()  # E: Need type annotation for "k"
    reveal_type(k)  # N: Revealed type is "__main__.ClassB2[Any, [builtins.int, builtins.str]]"
    l = ClassB2[[float]]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassB2[[builtins.float], [builtins.int, builtins.str]]"
    m = ClassB2[[float], [float]]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassB2[[builtins.float], [builtins.float]]"
    n = ClassB2[[float], [float], [float]]()  # E: Type application has too many types (expected between 1 and 2)
    reveal_type(n)  # N: Revealed type is "Any"

[case testTypeVarDefaultsClass3]
# flags: --disallow-any-generics
from typing import Generic, Tuple, TypeVar
from typing_extensions import TypeVarTuple, Unpack

T1 = TypeVar("T1")
T3 = TypeVar("T3", default=str)

Ts1 = TypeVarTuple("Ts1")
Ts2 = TypeVarTuple("Ts2", default=Unpack[Tuple[int, str]])
Ts3 = TypeVarTuple("Ts3", default=Unpack[Tuple[float, ...]])
Ts4 = TypeVarTuple("Ts4", default=Unpack[Tuple[()]])

class ClassC1(Generic[Unpack[Ts2]]): ...

def func_c1(
    a: ClassC1,
    b: ClassC1[float],
) -> None:
    # reveal_type(a)  # Revealed type is "__main__.ClassC1[builtins.int, builtins.str]"  # TODO
    reveal_type(b)  # N: Revealed type is "__main__.ClassC1[builtins.float]"

    k = ClassC1()
    reveal_type(k)  # N: Revealed type is "__main__.ClassC1[builtins.int, builtins.str]"
    l = ClassC1[float]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassC1[builtins.float]"

class ClassC2(Generic[T3, Unpack[Ts3]]): ...

def func_c2(
    a: ClassC2,
    b: ClassC2[int],
    c: ClassC2[int, Unpack[Tuple[()]]],
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassC2[builtins.str, Unpack[builtins.tuple[builtins.float, ...]]]"
    # reveal_type(b)  # Revealed type is "__main__.ClassC2[builtins.int, Unpack[builtins.tuple[builtins.float, ...]]]"  # TODO
    reveal_type(c)  # N: Revealed type is "__main__.ClassC2[builtins.int]"

    k = ClassC2()
    reveal_type(k)  # N: Revealed type is "__main__.ClassC2[builtins.str, Unpack[builtins.tuple[builtins.float, ...]]]"
    l = ClassC2[int]()
    # reveal_type(l)  # Revealed type is "__main__.ClassC2[builtins.int, Unpack[builtins.tuple[builtins.float, ...]]]"  # TODO
    m = ClassC2[int, Unpack[Tuple[()]]]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassC2[builtins.int]"

class ClassC3(Generic[T3, Unpack[Ts4]]): ...

def func_c3(
    a: ClassC3,
    b: ClassC3[int],
    c: ClassC3[int, Unpack[Tuple[float]]]
) -> None:
    # reveal_type(a)  # Revealed type is "__main__.ClassC3[builtins.str]"  # TODO
    reveal_type(b)  # N: Revealed type is "__main__.ClassC3[builtins.int]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassC3[builtins.int, builtins.float]"

    k = ClassC3()
    reveal_type(k)  # N: Revealed type is "__main__.ClassC3[builtins.str]"
    l = ClassC3[int]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassC3[builtins.int]"
    m = ClassC3[int, Unpack[Tuple[float]]]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassC3[builtins.int, builtins.float]"

class ClassC4(Generic[T1, Unpack[Ts1], T3]): ...

def func_c4(
    a: ClassC4,  # E: Missing type parameters for generic type "ClassC4"
    b: ClassC4[int],
    c: ClassC4[int, float],
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassC4[Any, Unpack[builtins.tuple[Any, ...]], builtins.str]"
    # reveal_type(b)  # Revealed type is "__main__.ClassC4[builtins.int, builtins.str]"  # TODO
    reveal_type(c)  # N: Revealed type is "__main__.ClassC4[builtins.int, builtins.float]"

    k = ClassC4()  # E: Need type annotation for "k"
    reveal_type(k)  # N: Revealed type is "__main__.ClassC4[Any, Unpack[builtins.tuple[Any, ...]], builtins.str]"
    l = ClassC4[int]()
    # reveal_type(l)  # Revealed type is "__main__.ClassC4[builtins.int, builtins.str]"  # TODO
    m = ClassC4[int, float]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassC4[builtins.int, builtins.float]"
[builtins fixtures/tuple.pyi]

[case testTypeVarDefaultsClassRecursive1]
# flags: --disallow-any-generics
from typing import Generic, TypeVar, List

T1 = TypeVar("T1", default=str)
T2 = TypeVar("T2", default=T1)
T3 = TypeVar("T3", default=T2)
T4 = TypeVar("T4", default=List[T1])

class ClassD1(Generic[T1, T2]): ...

def func_d1(
    a: ClassD1,
    b: ClassD1[int],
    c: ClassD1[int, float]
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassD1[builtins.str, builtins.str]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassD1[builtins.int, builtins.int]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassD1[builtins.int, builtins.float]"

    k = ClassD1()
    reveal_type(k)  # N: Revealed type is "__main__.ClassD1[builtins.str, builtins.str]"
    l = ClassD1[int]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassD1[builtins.int, builtins.int]"
    m = ClassD1[int, float]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassD1[builtins.int, builtins.float]"

class ClassD2(Generic[T1, T2, T3]): ...

def func_d2(
    a: ClassD2,
    b: ClassD2[int],
    c: ClassD2[int, float],
    d: ClassD2[int, float, str],
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassD2[builtins.str, builtins.str, builtins.str]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassD2[builtins.int, builtins.int, builtins.int]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassD2[builtins.int, builtins.float, builtins.float]"
    reveal_type(d)  # N: Revealed type is "__main__.ClassD2[builtins.int, builtins.float, builtins.str]"

    k = ClassD2()
    reveal_type(k)  # N: Revealed type is "__main__.ClassD2[builtins.str, builtins.str, builtins.str]"
    l = ClassD2[int]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassD2[builtins.int, builtins.int, builtins.int]"
    m = ClassD2[int, float]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassD2[builtins.int, builtins.float, builtins.float]"
    n = ClassD2[int, float, str]()
    reveal_type(n)  # N: Revealed type is "__main__.ClassD2[builtins.int, builtins.float, builtins.str]"

class ClassD3(Generic[T1, T4]): ...

def func_d3(
    a: ClassD3,
    b: ClassD3[int],
    c: ClassD3[int, float],
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassD3[builtins.str, builtins.list[builtins.str]]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassD3[builtins.int, builtins.list[builtins.int]]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassD3[builtins.int, builtins.float]"

    # k = ClassD3()
    # reveal_type(k)  # Revealed type is "__main__.ClassD3[builtins.str, builtins.list[builtins.str]]"  # TODO
    l = ClassD3[int]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassD3[builtins.int, builtins.list[builtins.int]]"
    m = ClassD3[int, float]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassD3[builtins.int, builtins.float]"

[case testTypeVarDefaultsClassRecursiveMultipleFiles]
# flags: --disallow-any-generics
from typing import Generic, TypeVar
from file2 import T as T2

T = TypeVar("T", default=T2)

class ClassG1(Generic[T2, T]):
    pass

def func(
    a: ClassG1,
    b: ClassG1[str],
    c: ClassG1[str, float],
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassG1[builtins.int, builtins.int]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassG1[builtins.str, builtins.str]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassG1[builtins.str, builtins.float]"

    k = ClassG1()
    reveal_type(k)  # N: Revealed type is "__main__.ClassG1[builtins.int, builtins.int]"
    l = ClassG1[str]()
    reveal_type(l)  # N: Revealed type is "__main__.ClassG1[builtins.str, builtins.str]"
    m = ClassG1[str, float]()
    reveal_type(m)  # N: Revealed type is "__main__.ClassG1[builtins.str, builtins.float]"

[file file2.py]
from typing import TypeVar
T = TypeVar('T', default=int)

[case testTypeVarDefaultsTypeAlias1]
# flags: --disallow-any-generics
from typing import Any, Dict, List, Tuple, TypeVar, Union

T1 = TypeVar("T1")
T2 = TypeVar("T2", default=int)
T3 = TypeVar("T3", default=str)
T4 = TypeVar("T4")

TA1 = Dict[T2, T3]

def func_a1(
    a: TA1,
    b: TA1[float],
    c: TA1[float, float],
    d: TA1[float, float, float],  # E: Bad number of arguments for type alias, expected between 0 and 2, given 3
) -> None:
    reveal_type(a)  # N: Revealed type is "builtins.dict[builtins.int, builtins.str]"
    reveal_type(b)  # N: Revealed type is "builtins.dict[builtins.float, builtins.str]"
    reveal_type(c)  # N: Revealed type is "builtins.dict[builtins.float, builtins.float]"
    reveal_type(d)  # N: Revealed type is "builtins.dict[builtins.int, builtins.str]"

TA2 = Tuple[T1, T2, T3]

def func_a2(
    a: TA2,  # E: Missing type parameters for generic type "TA2"
    b: TA2[float],
    c: TA2[float, float],
    d: TA2[float, float, float],
    e: TA2[float, float, float, float],  # E: Bad number of arguments for type alias, expected between 1 and 3, given 4
) -> None:
    reveal_type(a)  # N: Revealed type is "Tuple[Any, builtins.int, builtins.str]"
    reveal_type(b)  # N: Revealed type is "Tuple[builtins.float, builtins.int, builtins.str]"
    reveal_type(c)  # N: Revealed type is "Tuple[builtins.float, builtins.float, builtins.str]"
    reveal_type(d)  # N: Revealed type is "Tuple[builtins.float, builtins.float, builtins.float]"
    reveal_type(e)  # N: Revealed type is "Tuple[Any, builtins.int, builtins.str]"

TA3 = Union[Dict[T1, T2], List[T3]]

def func_a3(
    a: TA3,  # E: Missing type parameters for generic type "TA3"
    b: TA3[float],
    c: TA3[float, float],
    d: TA3[float, float, float],
    e: TA3[float, float, float, float],  # E: Bad number of arguments for type alias, expected between 1 and 3, given 4
) -> None:
    reveal_type(a)  # N: Revealed type is "Union[builtins.dict[Any, builtins.int], builtins.list[builtins.str]]"
    reveal_type(b)  # N: Revealed type is "Union[builtins.dict[builtins.float, builtins.int], builtins.list[builtins.str]]"
    reveal_type(c)  # N: Revealed type is "Union[builtins.dict[builtins.float, builtins.float], builtins.list[builtins.str]]"
    reveal_type(d)  # N: Revealed type is "Union[builtins.dict[builtins.float, builtins.float], builtins.list[builtins.float]]"
    reveal_type(e)  # N: Revealed type is "Union[builtins.dict[Any, builtins.int], builtins.list[builtins.str]]"

TA4 = Tuple[T1, T4, T2]

def func_a4(
    a: TA4,  # E: Missing type parameters for generic type "TA4"
    b: TA4[float],  # E: Bad number of arguments for type alias, expected between 2 and 3, given 1
    c: TA4[float, float],
    d: TA4[float, float, float],
    e: TA4[float, float, float, float],  # E: Bad number of arguments for type alias, expected between 2 and 3, given 4
) -> None:
    reveal_type(a)  # N: Revealed type is "Tuple[Any, Any, builtins.int]"
    reveal_type(b)  # N: Revealed type is "Tuple[Any, Any, builtins.int]"
    reveal_type(c)  # N: Revealed type is "Tuple[builtins.float, builtins.float, builtins.int]"
    reveal_type(d)  # N: Revealed type is "Tuple[builtins.float, builtins.float, builtins.float]"
    reveal_type(e)  # N: Revealed type is "Tuple[Any, Any, builtins.int]"
[builtins fixtures/dict.pyi]

[case testTypeVarDefaultsTypeAlias2]
# flags: --disallow-any-generics
from typing import Any, Generic, ParamSpec

P1 = ParamSpec("P1")
P2 = ParamSpec("P2", default=[int, str])
P3 = ParamSpec("P3", default=...)

class ClassB1(Generic[P2, P3]): ...
TB1 = ClassB1[P2, P3]

def func_b1(
    a: TB1,
    b: TB1[[float]],
    c: TB1[[float], [float]],
    d: TB1[[float], [float], [float]],  # E: Bad number of arguments for type alias, expected between 0 and 2, given 3
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassB1[[builtins.int, builtins.str], [*Any, **Any]]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassB1[[builtins.float], [*Any, **Any]]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassB1[[builtins.float], [builtins.float]]"
    reveal_type(d)  # N: Revealed type is "__main__.ClassB1[[builtins.int, builtins.str], [*Any, **Any]]"

class ClassB2(Generic[P1, P2]): ...
TB2 = ClassB2[P1, P2]

def func_b2(
    a: TB2,  # E: Missing type parameters for generic type "TB2"
    b: TB2[[float]],
    c: TB2[[float], [float]],
    d: TB2[[float], [float], [float]],  # E: Bad number of arguments for type alias, expected between 1 and 2, given 3
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.ClassB2[Any, [builtins.int, builtins.str]]"
    reveal_type(b)  # N: Revealed type is "__main__.ClassB2[[builtins.float], [builtins.int, builtins.str]]"
    reveal_type(c)  # N: Revealed type is "__main__.ClassB2[[builtins.float], [builtins.float]]"
    reveal_type(d)  # N: Revealed type is "__main__.ClassB2[Any, [builtins.int, builtins.str]]"
[builtins fixtures/tuple.pyi]

[case testTypeVarDefaultsTypeAlias3]
# flags: --disallow-any-generics
from typing import Tuple, TypeVar
from typing_extensions import TypeVarTuple, Unpack

T1 = TypeVar("T1")
T3 = TypeVar("T3", default=str)

Ts1 = TypeVarTuple("Ts1")
Ts2 = TypeVarTuple("Ts2", default=Unpack[Tuple[int, str]])
Ts3 = TypeVarTuple("Ts3", default=Unpack[Tuple[float, ...]])
Ts4 = TypeVarTuple("Ts4", default=Unpack[Tuple[()]])

TC1 = Tuple[Unpack[Ts2]]

def func_c1(
    a: TC1,
    b: TC1[float],
) -> None:
    # reveal_type(a)  # Revealed type is "Tuple[builtins.int, builtins.str]"  # TODO
    reveal_type(b)  # N: Revealed type is "Tuple[builtins.float]"

TC2 = Tuple[T3, Unpack[Ts3]]

def func_c2(
    a: TC2,
    b: TC2[int],
    c: TC2[int, Unpack[Tuple[()]]],
) -> None:
    # reveal_type(a)  # Revealed type is "Tuple[builtins.str, Unpack[builtins.tuple[builtins.float, ...]]]"  # TODO
    # reveal_type(b)  # Revealed type is "Tuple[builtins.int, Unpack[builtins.tuple[builtins.float, ...]]]"  # TODO
    reveal_type(c)  # N: Revealed type is "Tuple[builtins.int]"

TC3 = Tuple[T3, Unpack[Ts4]]

def func_c3(
    a: TC3,
    b: TC3[int],
    c: TC3[int, Unpack[Tuple[float]]],
) -> None:
    # reveal_type(a)  # Revealed type is "Tuple[builtins.str]"  # TODO
    reveal_type(b)  # N: Revealed type is "Tuple[builtins.int]"
    reveal_type(c)  # N: Revealed type is "Tuple[builtins.int, builtins.float]"

TC4 = Tuple[T1, Unpack[Ts1], T3]

def func_c4(
    a: TC4,  # E: Missing type parameters for generic type "TC4"
    b: TC4[int],
    c: TC4[int, float],
) -> None:
    reveal_type(a)  # N: Revealed type is "Tuple[Any, Unpack[builtins.tuple[Any, ...]], builtins.str]"
    # reveal_type(b)  # Revealed type is "Tuple[builtins.int, builtins.str]"  # TODO
    reveal_type(c)  # N: Revealed type is "Tuple[builtins.int, builtins.float]"
[builtins fixtures/tuple.pyi]

[case testTypeVarDefaultsTypeAliasRecursive1]
# flags: --disallow-any-generics
from typing import Dict, List, TypeVar

T1 = TypeVar("T1")
T2 = TypeVar("T2", default=T1)

TD1 = Dict[T1, T2]

def func_d1(
    a: TD1,  # E: Missing type parameters for generic type "TD1"
    b: TD1[int],
    c: TD1[int, float],
) -> None:
    reveal_type(a)  # N: Revealed type is "builtins.dict[Any, Any]"
    reveal_type(b)  # N: Revealed type is "builtins.dict[builtins.int, builtins.int]"
    reveal_type(c)  # N: Revealed type is "builtins.dict[builtins.int, builtins.float]"
[builtins fixtures/dict.pyi]

[case testTypeVarDefaultsTypeAliasRecursive2]
from typing import Any, Dict, Generic, TypeVar

T1 = TypeVar("T1", default=str)
T2 = TypeVar("T2", default=T1)
Alias1 = Dict[T1, T2]
T3 = TypeVar("T3")
class A(Generic[T3]): ...

T4 = TypeVar("T4", default=A[Alias1])
class B(Generic[T4]): ...

def func_d3(
    a: B,
    b: B[A[Alias1[int]]],
    c: B[A[Alias1[int, float]]],
    d: B[int],
) -> None:
    reveal_type(a)  # N: Revealed type is "__main__.B[__main__.A[builtins.dict[builtins.str, builtins.str]]]"
    reveal_type(b)  # N: Revealed type is "__main__.B[__main__.A[builtins.dict[builtins.int, builtins.int]]]"
    reveal_type(c)  # N: Revealed type is "__main__.B[__main__.A[builtins.dict[builtins.int, builtins.float]]]"
    reveal_type(d)  # N: Revealed type is "__main__.B[builtins.int]"
[builtins fixtures/dict.pyi]

[case testTypeVarDefaultsAndTypeObjectTypeInUnion]
from __future__ import annotations
from typing import Generic
from typing_extensions import TypeVar

_I = TypeVar("_I", default=int)

class C(Generic[_I]): pass

t: type[C] | int = C
[builtins fixtures/tuple.pyi]

[case testGenericTypeAliasWithDefaultTypeVarPreservesNoneInDefault]
from typing_extensions import TypeVar
from typing import Generic, Union

T1 = TypeVar("T1", default=Union[int, None])
T2 = TypeVar("T2", default=Union[int, None])


class A(Generic[T1, T2]):
    def __init__(self, a: T1, b: T2) -> None:
        self.a = a
        self.b = b


MyA = A[T1, int]
a: MyA = A(None, 10)
reveal_type(a.a)  # N: Revealed type is "Union[builtins.int, None]"
[builtins fixtures/tuple.pyi]

[case testTypeVarConstraintsDefaultAliasesTypeAliasType]
from typing import Generic
from typing_extensions import TypeAliasType, TypeVar

K = TypeAliasType("K", int)
V = TypeAliasType("V", int)
L = TypeAliasType("L", list[int])
T1 = TypeVar("T1", str, K, default=K)
T2 = TypeVar("T2", str, K, default=V)
T3 = TypeVar("T3", str, L, default=L)

class A1(Generic[T1]):
    x: T1
class A2(Generic[T2]):
    x: T2
class A3(Generic[T3]):
    x: T3

reveal_type(A1().x)  # N: Revealed type is "builtins.int"
reveal_type(A2().x)  # N: Revealed type is "builtins.int"
reveal_type(A3().x)  # N: Revealed type is "builtins.list[builtins.int]"
[builtins fixtures/tuple.pyi]

[case testTypeVarConstraintsDefaultAliasesImplicitAlias]
from typing_extensions import TypeVar

K = int
V = int
L = list[int]
T1 = TypeVar("T1", str, K, default=K)
T2 = TypeVar("T2", str, K, default=V)
T3 = TypeVar("T3", str, L, default=L)
[builtins fixtures/tuple.pyi]

[case testTypeVarConstraintsDefaultAliasesExplicitAlias]
from typing_extensions import TypeAlias, TypeVar

K: TypeAlias = int
V: TypeAlias = int
L: TypeAlias = list[int]
T1 = TypeVar("T1", str, K, default=K)
T2 = TypeVar("T2", str, K, default=V)
T3 = TypeVar("T3", str, L, default=L)
[builtins fixtures/tuple.pyi]

[case testTypeVarConstraintsDefaultSpecialTypes]
from typing import Generic, NamedTuple
from typing_extensions import TypedDict, TypeVar

class TD(TypedDict):
    foo: str

class NT(NamedTuple):
    foo: str

T1 = TypeVar("T1", str, TD, default=TD)
T2 = TypeVar("T2", str, NT, default=NT)

class A1(Generic[T1]):
    x: T1
class A2(Generic[T2]):
    x: T2

reveal_type(A1().x)  # N: Revealed type is "TypedDict('__main__.TD', {'foo': builtins.str})"
reveal_type(A2().x)  # N: Revealed type is "Tuple[builtins.str, fallback=__main__.NT]"
[builtins fixtures/tuple.pyi]

[case testTypeVarConstraintsDefaultSpecialTypesGeneric]
from typing import Generic, NamedTuple
from typing_extensions import TypedDict, TypeVar

T = TypeVar("T")

class TD(TypedDict, Generic[T]):
    foo: T
class TD2(TD[int]): pass
class TD3(TD[int]):
    bar: str

class NT(NamedTuple, Generic[T]):
    foo: T
class NT2(NT[int]): pass

T1 = TypeVar("T1", str, TD[int], default=TD[int])
T2 = TypeVar("T2", str, NT[int], default=NT[int])
T3 = TypeVar("T3", str, TD2, default=TD[int])
T4 = TypeVar("T4", str, TD3, default=TD[int])  # E: TypeVar default must be one of the constraint types
T5 = TypeVar("T5", str, NT2, default=NT[int])  # E: TypeVar default must be one of the constraint types

class A1(Generic[T1]):
    x: T1
class A2(Generic[T2]):
    x: T2
class A3(Generic[T3]):
    x: T3

reveal_type(A1().x)  # N: Revealed type is "TypedDict('__main__.TD', {'foo': builtins.int})"
reveal_type(A2().x)  # N: Revealed type is "Tuple[builtins.int, fallback=__main__.NT[builtins.int]]"
reveal_type(A3().x)  # N: Revealed type is "TypedDict('__main__.TD', {'foo': builtins.int})"
[builtins fixtures/tuple.pyi]