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편집 파일: _callable.pyi
""" A module with various ``typing.Protocol`` subclasses that implement the ``__call__`` magic method. See the `Mypy documentation`_ on protocols for more details. .. _`Mypy documentation`: https://mypy.readthedocs.io/en/stable/protocols.html#callback-protocols """ from __future__ import annotations from typing import ( TypeVar, overload, Any, NoReturn, Protocol, ) from numpy import ( ndarray, dtype, generic, bool_, timedelta64, number, integer, unsignedinteger, signedinteger, int8, int_, floating, float64, complexfloating, complex128, ) from ._nbit import _NBitInt, _NBitDouble from ._scalars import ( _BoolLike_co, _IntLike_co, _FloatLike_co, _NumberLike_co, ) from . import NBitBase from ._array_like import NDArray from ._nested_sequence import _NestedSequence _T1 = TypeVar("_T1") _T2 = TypeVar("_T2") _T1_contra = TypeVar("_T1_contra", contravariant=True) _T2_contra = TypeVar("_T2_contra", contravariant=True) _2Tuple = tuple[_T1, _T1] _NBit1 = TypeVar("_NBit1", bound=NBitBase) _NBit2 = TypeVar("_NBit2", bound=NBitBase) _IntType = TypeVar("_IntType", bound=integer) _FloatType = TypeVar("_FloatType", bound=floating) _NumberType = TypeVar("_NumberType", bound=number) _NumberType_co = TypeVar("_NumberType_co", covariant=True, bound=number) _GenericType_co = TypeVar("_GenericType_co", covariant=True, bound=generic) class _BoolOp(Protocol[_GenericType_co]): @overload def __call__(self, other: _BoolLike_co, /) -> _GenericType_co: ... @overload # platform dependent def __call__(self, other: int, /) -> int_: ... @overload def __call__(self, other: float, /) -> float64: ... @overload def __call__(self, other: complex, /) -> complex128: ... @overload def __call__(self, other: _NumberType, /) -> _NumberType: ... class _BoolBitOp(Protocol[_GenericType_co]): @overload def __call__(self, other: _BoolLike_co, /) -> _GenericType_co: ... @overload # platform dependent def __call__(self, other: int, /) -> int_: ... @overload def __call__(self, other: _IntType, /) -> _IntType: ... class _BoolSub(Protocol): # Note that `other: bool_` is absent here @overload def __call__(self, other: bool, /) -> NoReturn: ... @overload # platform dependent def __call__(self, other: int, /) -> int_: ... @overload def __call__(self, other: float, /) -> float64: ... @overload def __call__(self, other: complex, /) -> complex128: ... @overload def __call__(self, other: _NumberType, /) -> _NumberType: ... class _BoolTrueDiv(Protocol): @overload def __call__(self, other: float | _IntLike_co, /) -> float64: ... @overload def __call__(self, other: complex, /) -> complex128: ... @overload def __call__(self, other: _NumberType, /) -> _NumberType: ... class _BoolMod(Protocol): @overload def __call__(self, other: _BoolLike_co, /) -> int8: ... @overload # platform dependent def __call__(self, other: int, /) -> int_: ... @overload def __call__(self, other: float, /) -> float64: ... @overload def __call__(self, other: _IntType, /) -> _IntType: ... @overload def __call__(self, other: _FloatType, /) -> _FloatType: ... class _BoolDivMod(Protocol): @overload def __call__(self, other: _BoolLike_co, /) -> _2Tuple[int8]: ... @overload # platform dependent def __call__(self, other: int, /) -> _2Tuple[int_]: ... @overload def __call__(self, other: float, /) -> _2Tuple[floating[_NBit1 | _NBitDouble]]: ... @overload def __call__(self, other: _IntType, /) -> _2Tuple[_IntType]: ... @overload def __call__(self, other: _FloatType, /) -> _2Tuple[_FloatType]: ... class _TD64Div(Protocol[_NumberType_co]): @overload def __call__(self, other: timedelta64, /) -> _NumberType_co: ... @overload def __call__(self, other: _BoolLike_co, /) -> NoReturn: ... @overload def __call__(self, other: _FloatLike_co, /) -> timedelta64: ... class _IntTrueDiv(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> floating[_NBit1]: ... @overload def __call__(self, other: int, /) -> floating[_NBit1 | _NBitInt]: ... @overload def __call__(self, other: float, /) -> floating[_NBit1 | _NBitDouble]: ... @overload def __call__( self, other: complex, /, ) -> complexfloating[_NBit1 | _NBitDouble, _NBit1 | _NBitDouble]: ... @overload def __call__(self, other: integer[_NBit2], /) -> floating[_NBit1 | _NBit2]: ... class _UnsignedIntOp(Protocol[_NBit1]): # NOTE: `uint64 + signedinteger -> float64` @overload def __call__(self, other: bool, /) -> unsignedinteger[_NBit1]: ... @overload def __call__( self, other: int | signedinteger[Any], / ) -> Any: ... @overload def __call__(self, other: float, /) -> floating[_NBit1 | _NBitDouble]: ... @overload def __call__( self, other: complex, /, ) -> complexfloating[_NBit1 | _NBitDouble, _NBit1 | _NBitDouble]: ... @overload def __call__( self, other: unsignedinteger[_NBit2], / ) -> unsignedinteger[_NBit1 | _NBit2]: ... class _UnsignedIntBitOp(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> unsignedinteger[_NBit1]: ... @overload def __call__(self, other: int, /) -> signedinteger[Any]: ... @overload def __call__(self, other: signedinteger[Any], /) -> signedinteger[Any]: ... @overload def __call__( self, other: unsignedinteger[_NBit2], / ) -> unsignedinteger[_NBit1 | _NBit2]: ... class _UnsignedIntMod(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> unsignedinteger[_NBit1]: ... @overload def __call__( self, other: int | signedinteger[Any], / ) -> Any: ... @overload def __call__(self, other: float, /) -> floating[_NBit1 | _NBitDouble]: ... @overload def __call__( self, other: unsignedinteger[_NBit2], / ) -> unsignedinteger[_NBit1 | _NBit2]: ... class _UnsignedIntDivMod(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> _2Tuple[signedinteger[_NBit1]]: ... @overload def __call__( self, other: int | signedinteger[Any], / ) -> _2Tuple[Any]: ... @overload def __call__(self, other: float, /) -> _2Tuple[floating[_NBit1 | _NBitDouble]]: ... @overload def __call__( self, other: unsignedinteger[_NBit2], / ) -> _2Tuple[unsignedinteger[_NBit1 | _NBit2]]: ... class _SignedIntOp(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> signedinteger[_NBit1]: ... @overload def __call__(self, other: int, /) -> signedinteger[_NBit1 | _NBitInt]: ... @overload def __call__(self, other: float, /) -> floating[_NBit1 | _NBitDouble]: ... @overload def __call__( self, other: complex, /, ) -> complexfloating[_NBit1 | _NBitDouble, _NBit1 | _NBitDouble]: ... @overload def __call__( self, other: signedinteger[_NBit2], /, ) -> signedinteger[_NBit1 | _NBit2]: ... class _SignedIntBitOp(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> signedinteger[_NBit1]: ... @overload def __call__(self, other: int, /) -> signedinteger[_NBit1 | _NBitInt]: ... @overload def __call__( self, other: signedinteger[_NBit2], /, ) -> signedinteger[_NBit1 | _NBit2]: ... class _SignedIntMod(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> signedinteger[_NBit1]: ... @overload def __call__(self, other: int, /) -> signedinteger[_NBit1 | _NBitInt]: ... @overload def __call__(self, other: float, /) -> floating[_NBit1 | _NBitDouble]: ... @overload def __call__( self, other: signedinteger[_NBit2], /, ) -> signedinteger[_NBit1 | _NBit2]: ... class _SignedIntDivMod(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> _2Tuple[signedinteger[_NBit1]]: ... @overload def __call__(self, other: int, /) -> _2Tuple[signedinteger[_NBit1 | _NBitInt]]: ... @overload def __call__(self, other: float, /) -> _2Tuple[floating[_NBit1 | _NBitDouble]]: ... @overload def __call__( self, other: signedinteger[_NBit2], /, ) -> _2Tuple[signedinteger[_NBit1 | _NBit2]]: ... class _FloatOp(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> floating[_NBit1]: ... @overload def __call__(self, other: int, /) -> floating[_NBit1 | _NBitInt]: ... @overload def __call__(self, other: float, /) -> floating[_NBit1 | _NBitDouble]: ... @overload def __call__( self, other: complex, /, ) -> complexfloating[_NBit1 | _NBitDouble, _NBit1 | _NBitDouble]: ... @overload def __call__( self, other: integer[_NBit2] | floating[_NBit2], / ) -> floating[_NBit1 | _NBit2]: ... class _FloatMod(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> floating[_NBit1]: ... @overload def __call__(self, other: int, /) -> floating[_NBit1 | _NBitInt]: ... @overload def __call__(self, other: float, /) -> floating[_NBit1 | _NBitDouble]: ... @overload def __call__( self, other: integer[_NBit2] | floating[_NBit2], / ) -> floating[_NBit1 | _NBit2]: ... class _FloatDivMod(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> _2Tuple[floating[_NBit1]]: ... @overload def __call__(self, other: int, /) -> _2Tuple[floating[_NBit1 | _NBitInt]]: ... @overload def __call__(self, other: float, /) -> _2Tuple[floating[_NBit1 | _NBitDouble]]: ... @overload def __call__( self, other: integer[_NBit2] | floating[_NBit2], / ) -> _2Tuple[floating[_NBit1 | _NBit2]]: ... class _ComplexOp(Protocol[_NBit1]): @overload def __call__(self, other: bool, /) -> complexfloating[_NBit1, _NBit1]: ... @overload def __call__(self, other: int, /) -> complexfloating[_NBit1 | _NBitInt, _NBit1 | _NBitInt]: ... @overload def __call__( self, other: complex, /, ) -> complexfloating[_NBit1 | _NBitDouble, _NBit1 | _NBitDouble]: ... @overload def __call__( self, other: ( integer[_NBit2] | floating[_NBit2] | complexfloating[_NBit2, _NBit2] ), /, ) -> complexfloating[_NBit1 | _NBit2, _NBit1 | _NBit2]: ... class _NumberOp(Protocol): def __call__(self, other: _NumberLike_co, /) -> Any: ... class _SupportsLT(Protocol): def __lt__(self, other: Any, /) -> object: ... class _SupportsGT(Protocol): def __gt__(self, other: Any, /) -> object: ... class _ComparisonOp(Protocol[_T1_contra, _T2_contra]): @overload def __call__(self, other: _T1_contra, /) -> bool_: ... @overload def __call__(self, other: _T2_contra, /) -> NDArray[bool_]: ... @overload def __call__( self, other: _SupportsLT | _SupportsGT | _NestedSequence[_SupportsLT | _SupportsGT], /, ) -> Any: ...