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# ruff: noqa: I001
import builtins
import sys
import mmap
import ctypes as ct
import array as _array
import datetime as dt
import inspect
from abc import abstractmethod
from types import EllipsisType, ModuleType, TracebackType, MappingProxyType, GenericAlias
from decimal import Decimal
from fractions import Fraction
from uuid import UUID
import numpy as np
from numpy.__config__ import show as show_config
from numpy._pytesttester import PytestTester
from numpy._core._internal import _ctypes
from numpy._typing import ( # type: ignore[deprecated]
 # Arrays
 ArrayLike,
 NDArray,
 _SupportsArray,
 _NestedSequence,
 _ArrayLike,
 _ArrayLikeBool_co,
 _ArrayLikeUInt_co,
 _ArrayLikeInt,
 _ArrayLikeInt_co,
 _ArrayLikeFloat64_co,
 _ArrayLikeFloat_co,
 _ArrayLikeComplex128_co,
 _ArrayLikeComplex_co,
 _ArrayLikeNumber_co,
 _ArrayLikeObject_co,
 _ArrayLikeBytes_co,
 _ArrayLikeStr_co,
 _ArrayLikeString_co,
 _ArrayLikeTD64_co,
 _ArrayLikeDT64_co,
 # DTypes
 DTypeLike,
 _DTypeLike,
 _DTypeLikeVoid,
 _VoidDTypeLike,
 # Shapes
 _AnyShape,
 _Shape,
 _ShapeLike,
 # Scalars
 _CharLike_co,
 _IntLike_co,
 _FloatLike_co,
 _TD64Like_co,
 _NumberLike_co,
 _ScalarLike_co,
 # `number` precision
 NBitBase,
 # NOTE: Do not remove the extended precision bit-types even if seemingly unused;
 # they're used by the mypy plugin
 _128Bit,
 _96Bit,
 _64Bit,
 _32Bit,
 _16Bit,
 _8Bit,
 _NBitByte,
 _NBitShort,
 _NBitIntC,
 _NBitIntP,
 _NBitLong,
 _NBitLongLong,
 _NBitHalf,
 _NBitSingle,
 _NBitDouble,
 _NBitLongDouble,
 # Character codes
 _BoolCodes,
 _UInt8Codes,
 _UInt16Codes,
 _UInt32Codes,
 _UInt64Codes,
 _Int8Codes,
 _Int16Codes,
 _Int32Codes,
 _Int64Codes,
 _Float16Codes,
 _Float32Codes,
 _Float64Codes,
 _Complex64Codes,
 _Complex128Codes,
 _ByteCodes,
 _ShortCodes,
 _IntCCodes,
 _IntPCodes,
 _LongCodes,
 _LongLongCodes,
 _UByteCodes,
 _UShortCodes,
 _UIntCCodes,
 _UIntPCodes,
 _ULongCodes,
 _ULongLongCodes,
 _HalfCodes,
 _SingleCodes,
 _DoubleCodes,
 _LongDoubleCodes,
 _CSingleCodes,
 _CDoubleCodes,
 _CLongDoubleCodes,
 _DT64Codes,
 _TD64Codes,
 _StrCodes,
 _BytesCodes,
 _VoidCodes,
 _ObjectCodes,
 _StringCodes,
 _UnsignedIntegerCodes,
 _SignedIntegerCodes,
 _IntegerCodes,
 _FloatingCodes,
 _ComplexFloatingCodes,
 _InexactCodes,
 _CharacterCodes,
 # Ufuncs
 _UFunc_Nin1_Nout1,
 _UFunc_Nin2_Nout1,
 _UFunc_Nin1_Nout2,
 _UFunc_Nin2_Nout2,
 _GUFunc_Nin2_Nout1,
)
# NOTE: Numpy's mypy plugin is used for removing the types unavailable to the specific platform
from numpy._typing._extended_precision import (
 float96,
 float128,
 complex192,
 complex256,
)
from numpy._array_api_info import __array_namespace_info__
from collections.abc import (
 Callable,
 Iterable,
 Iterator,
 Mapping,
 Sequence,
)
if sys.version_info >= (3, 12):
 from collections.abc import Buffer as _SupportsBuffer
else:
 _SupportsBuffer: TypeAlias = (
 bytes
 | bytearray
 | memoryview
 | _array.array[Any]
 | mmap.mmap
 | NDArray[Any]
 | generic
 )
from typing import (
 Any,
 ClassVar,
 Final,
 Generic,
 Literal as L,
 LiteralString,
 Never,
 NoReturn,
 Protocol,
 Self,
 SupportsComplex,
 SupportsFloat,
 SupportsInt,
 SupportsIndex,
 TypeAlias,
 TypedDict,
 final,
 overload,
 type_check_only,
)
# NOTE: `typing_extensions` and `_typeshed` are always available in `.pyi` stubs, even
# if not available at runtime. This is because the `typeshed` stubs for the standard
# library include `typing_extensions` stubs:
# https://github.com/python/typeshed/blob/main/stdlib/typing_extensions.pyi
from _typeshed import Incomplete, StrOrBytesPath, SupportsFlush, SupportsLenAndGetItem, SupportsWrite
from typing_extensions import CapsuleType, TypeVar, deprecated, override
from numpy import (
 char,
 core,
 ctypeslib,
 dtypes,
 exceptions,
 f2py,
 fft,
 lib,
 linalg,
 ma,
 polynomial,
 random,
 rec,
 strings,
 testing,
 typing,
)
# available through `__getattr__`, but not in `__all__` or `__dir__`
from numpy import (
 __config__ as __config__,
 matlib as matlib,
 matrixlib as matrixlib,
 version as version,
)
if sys.version_info < (3, 12):
 from numpy import distutils as distutils
from numpy._core.records import (
 record,
 recarray,
)
from numpy._core.function_base import (
 linspace,
 logspace,
 geomspace,
)
from numpy._core.fromnumeric import (
 take,
 reshape,
 choose,
 repeat,
 put,
 swapaxes,
 transpose,
 matrix_transpose,
 partition,
 argpartition,
 sort,
 argsort,
 argmax,
 argmin,
 searchsorted,
 resize,
 squeeze,
 diagonal,
 trace,
 ravel,
 nonzero,
 shape,
 compress,
 clip,
 sum,
 all,
 any,
 cumsum,
 cumulative_sum,
 ptp,
 max,
 min,
 amax,
 amin,
 prod,
 cumprod,
 cumulative_prod,
 ndim,
 size,
 around,
 round,
 mean,
 std,
 var,
)
from numpy._core._asarray import (
 require,
)
from numpy._core._type_aliases import (
 sctypeDict,
)
from numpy._core._ufunc_config import (
 seterr,
 geterr,
 setbufsize,
 getbufsize,
 seterrcall,
 geterrcall,
 errstate,
)
from numpy._core.arrayprint import (
 set_printoptions,
 get_printoptions,
 array2string,
 format_float_scientific,
 format_float_positional,
 array_repr,
 array_str,
 printoptions,
)
from numpy._core.einsumfunc import (
 einsum,
 einsum_path,
)
from numpy._core.getlimits import (
 finfo,
 iinfo,
)
from numpy._core.multiarray import (
 array,
 empty_like,
 empty,
 zeros,
 concatenate,
 inner,
 where,
 lexsort,
 can_cast,
 min_scalar_type,
 result_type,
 dot,
 vdot,
 bincount,
 copyto,
 putmask,
 packbits,
 unpackbits,
 shares_memory,
 may_share_memory,
 asarray,
 asanyarray,
 ascontiguousarray,
 asfortranarray,
 arange,
 busday_count,
 busday_offset,
 datetime_as_string,
 datetime_data,
 frombuffer,
 fromfile,
 fromiter,
 is_busday,
 promote_types,
 fromstring,
 frompyfunc,
 nested_iters,
 flagsobj,
)
from numpy._core.numeric import (
 zeros_like,
 ones,
 ones_like,
 full,
 full_like,
 count_nonzero,
 isfortran,
 argwhere,
 flatnonzero,
 correlate,
 convolve,
 outer,
 tensordot,
 roll,
 rollaxis,
 moveaxis,
 cross,
 indices,
 fromfunction,
 isscalar,
 binary_repr,
 base_repr,
 identity,
 allclose,
 isclose,
 array_equal,
 array_equiv,
 astype,
)
from numpy._core.numerictypes import (
 isdtype,
 issubdtype,
 ScalarType,
 typecodes,
)
from numpy._core.shape_base import (
 atleast_1d,
 atleast_2d,
 atleast_3d,
 block,
 hstack,
 stack,
 vstack,
 unstack,
)
from ._expired_attrs_2_0 import __expired_attributes__ as __expired_attributes__
from ._globals import _CopyMode as _CopyMode
from ._globals import _NoValue as _NoValue, _NoValueType
from numpy.lib import (
 scimath as emath,
)
from numpy.lib._arraypad_impl import (
 pad,
)
from numpy.lib._arraysetops_impl import (
 ediff1d,
 intersect1d,
 isin,
 setdiff1d,
 setxor1d,
 union1d,
 unique,
 unique_all,
 unique_counts,
 unique_inverse,
 unique_values,
)
from numpy.lib._function_base_impl import ( # type: ignore[deprecated]
 select,
 piecewise,
 trim_zeros,
 copy,
 iterable,
 percentile,
 diff,
 gradient,
 angle,
 unwrap,
 sort_complex,
 flip,
 rot90,
 extract,
 place,
 asarray_chkfinite,
 average,
 digitize,
 cov,
 corrcoef,
 median,
 sinc,
 hamming,
 hanning,
 bartlett,
 blackman,
 kaiser,
 trapezoid,
 i0,
 meshgrid,
 delete,
 insert,
 append,
 interp,
 quantile,
 vectorize,
)
from numpy.lib._histograms_impl import (
 histogram_bin_edges,
 histogram,
 histogramdd,
)
from numpy.lib._index_tricks_impl import (
 ndenumerate,
 ndindex,
 ravel_multi_index,
 unravel_index,
 mgrid,
 ogrid,
 r_,
 c_,
 s_,
 index_exp,
 ix_,
 fill_diagonal,
 diag_indices,
 diag_indices_from,
)
from numpy.lib._nanfunctions_impl import (
 nansum,
 nanmax,
 nanmin,
 nanargmax,
 nanargmin,
 nanmean,
 nanmedian,
 nanpercentile,
 nanvar,
 nanstd,
 nanprod,
 nancumsum,
 nancumprod,
 nanquantile,
)
from numpy.lib._npyio_impl import (
 savetxt,
 loadtxt,
 genfromtxt,
 load,
 save,
 savez,
 savez_compressed,
 fromregex,
)
from numpy.lib._polynomial_impl import (
 poly,
 roots,
 polyint,
 polyder,
 polyadd,
 polysub,
 polymul,
 polydiv,
 polyval,
 polyfit,
)
from numpy.lib._shape_base_impl import ( # type: ignore[deprecated]
 column_stack,
 row_stack,
 dstack,
 array_split,
 split,
 hsplit,
 vsplit,
 dsplit,
 apply_over_axes,
 expand_dims,
 apply_along_axis,
 kron,
 tile,
 take_along_axis,
 put_along_axis,
)
from numpy.lib._stride_tricks_impl import (
 broadcast_to,
 broadcast_arrays,
 broadcast_shapes,
)
from numpy.lib._twodim_base_impl import (
 diag,
 diagflat,
 eye,
 fliplr,
 flipud,
 tri,
 triu,
 tril,
 vander,
 histogram2d,
 mask_indices,
 tril_indices,
 tril_indices_from,
 triu_indices,
 triu_indices_from,
)
from numpy.lib._type_check_impl import (
 mintypecode,
 real,
 imag,
 iscomplex,
 isreal,
 iscomplexobj,
 isrealobj,
 nan_to_num,
 real_if_close,
 typename,
 common_type,
)
from numpy.lib._ufunclike_impl import (
 fix,
 isposinf,
 isneginf,
)
from numpy.lib._utils_impl import (
 get_include,
 info,
 show_runtime,
)
from numpy.matrixlib import (
 asmatrix,
 bmat,
 matrix,
)
__all__ = [ # noqa: RUF022
 # __numpy_submodules__
 "char", "core", "ctypeslib", "dtypes", "exceptions", "f2py", "fft", "lib", "linalg",
 "ma", "polynomial", "random", "rec", "strings", "test", "testing", "typing",
# _core.__all__
 "abs", "acos", "acosh", "asin", "asinh", "atan", "atanh", "atan2", "bitwise_invert",
 "bitwise_left_shift", "bitwise_right_shift", "concat", "pow", "permute_dims",
 "memmap", "sctypeDict", "record", "recarray",
# _core.numeric.__all__
 "newaxis", "ndarray", "flatiter", "nditer", "nested_iters", "ufunc", "arange",
 "array", "asarray", "asanyarray", "ascontiguousarray", "asfortranarray", "zeros",
 "count_nonzero", "empty", "broadcast", "dtype", "fromstring", "fromfile",
 "frombuffer", "from_dlpack", "where", "argwhere", "copyto", "concatenate",
 "lexsort", "astype", "can_cast", "promote_types", "min_scalar_type", "result_type",
 "isfortran", "empty_like", "zeros_like", "ones_like", "correlate", "convolve",
 "inner", "dot", "outer", "vdot", "roll", "rollaxis", "moveaxis", "cross",
 "tensordot", "little_endian", "fromiter", "array_equal", "array_equiv", "indices",
 "fromfunction", "isclose", "isscalar", "binary_repr", "base_repr", "ones",
 "identity", "allclose", "putmask", "flatnonzero", "inf", "nan", "False_", "True_",
 "bitwise_not", "full", "full_like", "matmul", "vecdot", "vecmat",
 "shares_memory", "may_share_memory",
 "all", "amax", "amin", "any", "argmax", "argmin", "argpartition", "argsort",
 "around", "choose", "clip", "compress", "cumprod", "cumsum", "cumulative_prod",
 "cumulative_sum", "diagonal", "mean", "max", "min", "matrix_transpose", "ndim",
 "nonzero", "partition", "prod", "ptp", "put", "ravel", "repeat", "reshape",
 "resize", "round", "searchsorted", "shape", "size", "sort", "squeeze", "std", "sum",
 "swapaxes", "take", "trace", "transpose", "var",
 "absolute", "add", "arccos", "arccosh", "arcsin", "arcsinh", "arctan", "arctan2",
 "arctanh", "bitwise_and", "bitwise_or", "bitwise_xor", "cbrt", "ceil", "conj",
 "conjugate", "copysign", "cos", "cosh", "bitwise_count", "deg2rad", "degrees",
 "divide", "divmod", "e", "equal", "euler_gamma", "exp", "exp2", "expm1", "fabs",
 "floor", "floor_divide", "float_power", "fmax", "fmin", "fmod", "frexp",
 "frompyfunc", "gcd", "greater", "greater_equal", "heaviside", "hypot", "invert",
 "isfinite", "isinf", "isnan", "isnat", "lcm", "ldexp", "left_shift", "less",
 "less_equal", "log", "log10", "log1p", "log2", "logaddexp", "logaddexp2",
 "logical_and", "logical_not", "logical_or", "logical_xor", "matvec", "maximum", "minimum",
 "mod", "modf", "multiply", "negative", "nextafter", "not_equal", "pi", "positive",
 "power", "rad2deg", "radians", "reciprocal", "remainder", "right_shift", "rint",
 "sign", "signbit", "sin", "sinh", "spacing", "sqrt", "square", "subtract", "tan",
 "tanh", "true_divide", "trunc", "ScalarType", "typecodes", "issubdtype",
 "datetime_data", "datetime_as_string", "busday_offset", "busday_count", "is_busday",
 "busdaycalendar", "isdtype",
 "complexfloating", "character", "unsignedinteger", "inexact", "generic", "floating",
 "integer", "signedinteger", "number", "flexible", "bool", "float16", "float32",
 "float64", "longdouble", "complex64", "complex128", "clongdouble",
 "bytes_", "str_", "void", "object_", "datetime64", "timedelta64", "int8", "byte",
 "uint8", "ubyte", "int16", "short", "uint16", "ushort", "int32", "intc", "uint32",
 "uintc", "int64", "long", "uint64", "ulong", "longlong", "ulonglong", "intp",
 "uintp", "double", "cdouble", "single", "csingle", "half", "bool_", "int_", "uint",
 "float96", "float128", "complex192", "complex256",
 "array2string", "array_str", "array_repr", "set_printoptions", "get_printoptions",
 "printoptions", "format_float_positional", "format_float_scientific", "require",
 "seterr", "geterr", "setbufsize", "getbufsize", "seterrcall", "geterrcall",
 "errstate",
 # _core.function_base.__all__
 "logspace", "linspace", "geomspace",
 # _core.getlimits.__all__
 "finfo", "iinfo",
 # _core.shape_base.__all__
 "atleast_1d", "atleast_2d", "atleast_3d", "block", "hstack", "stack", "unstack",
 "vstack",
 # _core.einsumfunc.__all__
 "einsum", "einsum_path",
 # matrixlib.__all__
 "matrix", "bmat", "asmatrix",
 # lib._histograms_impl.__all__
 "histogram", "histogramdd", "histogram_bin_edges",
 # lib._nanfunctions_impl.__all__
 "nansum", "nanmax", "nanmin", "nanargmax", "nanargmin", "nanmean", "nanmedian",
 "nanpercentile", "nanvar", "nanstd", "nanprod", "nancumsum", "nancumprod",
 "nanquantile",
 # lib._function_base_impl.__all__
 "select", "piecewise", "trim_zeros", "copy", "iterable", "percentile", "diff",
 "gradient", "angle", "unwrap", "sort_complex", "flip", "rot90", "extract", "place",
 "vectorize", "asarray_chkfinite", "average", "bincount", "digitize", "cov",
 "corrcoef", "median", "sinc", "hamming", "hanning", "bartlett", "blackman",
 "kaiser", "trapezoid", "i0", "meshgrid", "delete", "insert", "append",
 "interp", "quantile",
 # lib._twodim_base_impl.__all__
 "diag", "diagflat", "eye", "fliplr", "flipud", "tri", "triu", "tril", "vander",
 "histogram2d", "mask_indices", "tril_indices", "tril_indices_from", "triu_indices",
 "triu_indices_from",
 # lib._shape_base_impl.__all__
 "column_stack", "dstack", "array_split", "split", "hsplit", "vsplit", "dsplit",
 "apply_over_axes", "expand_dims", "apply_along_axis", "kron", "tile",
 "take_along_axis", "put_along_axis", "row_stack",
 # lib._type_check_impl.__all__
 "iscomplexobj", "isrealobj", "imag", "iscomplex", "isreal", "nan_to_num", "real",
 "real_if_close", "typename", "mintypecode", "common_type",
 # lib._arraysetops_impl.__all__
 "ediff1d", "intersect1d", "isin", "setdiff1d", "setxor1d", "union1d",
 "unique", "unique_all", "unique_counts", "unique_inverse", "unique_values",
 # lib._ufunclike_impl.__all__
 "fix", "isneginf", "isposinf",
 # lib._arraypad_impl.__all__
 "pad",
 # lib._utils_impl.__all__
 "get_include", "info", "show_runtime",
 # lib._stride_tricks_impl.__all__
 "broadcast_to", "broadcast_arrays", "broadcast_shapes",
 # lib._polynomial_impl.__all__
 "poly", "roots", "polyint", "polyder", "polyadd", "polysub", "polymul", "polydiv",
 "polyval", "poly1d", "polyfit",
 # lib._npyio_impl.__all__
 "savetxt", "loadtxt", "genfromtxt", "load", "save", "savez", "savez_compressed",
 "packbits", "unpackbits", "fromregex",
 # lib._index_tricks_impl.__all__
 "ravel_multi_index", "unravel_index", "mgrid", "ogrid", "r_", "c_", "s_",
 "index_exp", "ix_", "ndenumerate", "ndindex", "fill_diagonal", "diag_indices",
 "diag_indices_from",
# __init__.__all__
 "emath", "show_config", "__version__", "__array_namespace_info__",
] # fmt: skip
### Constrained types (for internal use only)
# Only use these for functions; never as generic type parameter.
_AnyStr = TypeVar("_AnyStr", LiteralString, str, bytes)
_AnyShapeT = TypeVar(
 "_AnyShapeT",
 tuple[()], # 0-d
 tuple[int], # 1-d
 tuple[int, int], # 2-d
 tuple[int, int, int], # 3-d
 tuple[int, int, int, int], # 4-d
 tuple[int, int, int, int, int], # 5-d
 tuple[int, int, int, int, int, int], # 6-d
 tuple[int, int, int, int, int, int, int], # 7-d
 tuple[int, int, int, int, int, int, int, int], # 8-d
 tuple[int, ...], # N-d
)
_AnyTD64Item = TypeVar("_AnyTD64Item", dt.timedelta, int, None, dt.timedelta | int | None)
_AnyDT64Arg = TypeVar("_AnyDT64Arg", dt.datetime, dt.date, None)
_AnyDT64Item = TypeVar("_AnyDT64Item", dt.datetime, dt.date, int, None, dt.date, int | None)
_AnyDate = TypeVar("_AnyDate", dt.date, dt.datetime)
_AnyDateOrTime = TypeVar("_AnyDateOrTime", dt.date, dt.datetime, dt.timedelta)
### Type parameters (for internal use only)
_T = TypeVar("_T")
_T_co = TypeVar("_T_co", covariant=True)
_T_contra = TypeVar("_T_contra", contravariant=True)
_RealT_co = TypeVar("_RealT_co", covariant=True)
_ImagT_co = TypeVar("_ImagT_co", covariant=True)
_DTypeT = TypeVar("_DTypeT", bound=dtype)
_DTypeT_co = TypeVar("_DTypeT_co", bound=dtype, default=dtype, covariant=True)
_FlexDTypeT = TypeVar("_FlexDTypeT", bound=dtype[flexible])
_ArrayT = TypeVar("_ArrayT", bound=ndarray)
_ArrayT_co = TypeVar("_ArrayT_co", bound=ndarray, default=ndarray, covariant=True)
_BoolArrayT = TypeVar("_BoolArrayT", bound=NDArray[np.bool])
_IntegerArrayT = TypeVar("_IntegerArrayT", bound=NDArray[integer])
_IntegralArrayT = TypeVar("_IntegralArrayT", bound=NDArray[np.bool | integer | object_])
_FloatingArrayT = TypeVar("_FloatingArrayT", bound=NDArray[floating])
_FloatingTimedeltaArrayT = TypeVar("_FloatingTimedeltaArrayT", bound=NDArray[floating | timedelta64])
_ComplexFloatingArrayT = TypeVar("_ComplexFloatingArrayT", bound=NDArray[complexfloating])
_InexactArrayT = TypeVar("_InexactArrayT", bound=NDArray[inexact])
_InexactTimedeltaArrayT = TypeVar("_InexactTimedeltaArrayT", bound=NDArray[inexact | timedelta64])
_NumberArrayT = TypeVar("_NumberArrayT", bound=NDArray[number])
_NumberCharacterArrayT = TypeVar("_NumberCharacterArrayT", bound=ndarray[Any, dtype[number | character] | dtypes.StringDType])
_TimedeltaArrayT = TypeVar("_TimedeltaArrayT", bound=NDArray[timedelta64])
_TimeArrayT = TypeVar("_TimeArrayT", bound=NDArray[datetime64 | timedelta64])
_ObjectArrayT = TypeVar("_ObjectArrayT", bound=NDArray[object_])
_BytesArrayT = TypeVar("_BytesArrayT", bound=NDArray[bytes_])
_StringArrayT = TypeVar("_StringArrayT", bound=ndarray[Any, dtype[str_] | dtypes.StringDType])
_RealArrayT = TypeVar("_RealArrayT", bound=NDArray[floating | integer | timedelta64 | np.bool | object_])
_NumericArrayT = TypeVar("_NumericArrayT", bound=NDArray[number | timedelta64 | object_])
_ShapeT = TypeVar("_ShapeT", bound=_Shape)
_Shape1T = TypeVar("_Shape1T", bound=tuple[int, *tuple[int, ...]])
_ShapeT_co = TypeVar("_ShapeT_co", bound=_Shape, default=_AnyShape, covariant=True)
_2DShapeT_co = TypeVar("_2DShapeT_co", bound=_2D, default=_2D, covariant=True)
_1NShapeT = TypeVar("_1NShapeT", bound=tuple[L[1], *tuple[L[1], ...]]) # (1,) | (1, 1) | (1, 1, 1) | ...
_ScalarT = TypeVar("_ScalarT", bound=generic)
_ScalarT_co = TypeVar("_ScalarT_co", bound=generic, default=Any, covariant=True)
_NumberT = TypeVar("_NumberT", bound=number)
_InexactT = TypeVar("_InexactT", bound=inexact)
_RealNumberT = TypeVar("_RealNumberT", bound=floating | integer)
_IntegerT = TypeVar("_IntegerT", bound=integer)
_NonObjectScalarT = TypeVar("_NonObjectScalarT", bound=np.bool | number | flexible | datetime64 | timedelta64)
_NBit = TypeVar("_NBit", bound=NBitBase, default=Any) # pyright: ignore[reportDeprecated]
_NBit1 = TypeVar("_NBit1", bound=NBitBase, default=Any) # pyright: ignore[reportDeprecated]
_NBit2 = TypeVar("_NBit2", bound=NBitBase, default=_NBit1) # pyright: ignore[reportDeprecated]
_ItemT_co = TypeVar("_ItemT_co", default=Any, covariant=True)
_BoolItemT = TypeVar("_BoolItemT", bound=builtins.bool)
_BoolItemT_co = TypeVar("_BoolItemT_co", bound=builtins.bool, default=builtins.bool, covariant=True)
_NumberItemT_co = TypeVar("_NumberItemT_co", bound=complex, default=int | float | complex, covariant=True)
_InexactItemT_co = TypeVar("_InexactItemT_co", bound=complex, default=float | complex, covariant=True)
_FlexibleItemT_co = TypeVar(
 "_FlexibleItemT_co",
 bound=_CharLike_co | tuple[Any, ...],
 default=_CharLike_co | tuple[Any, ...],
 covariant=True,
)
_CharacterItemT_co = TypeVar("_CharacterItemT_co", bound=_CharLike_co, default=_CharLike_co, covariant=True)
_TD64ItemT_co = TypeVar("_TD64ItemT_co", bound=dt.timedelta | int | None, default=dt.timedelta | int | None, covariant=True)
_DT64ItemT_co = TypeVar("_DT64ItemT_co", bound=dt.date | int | None, default=dt.date | int | None, covariant=True)
_TD64UnitT = TypeVar("_TD64UnitT", bound=_TD64Unit, default=_TD64Unit)
_BoolOrIntArrayT = TypeVar("_BoolOrIntArrayT", bound=NDArray[integer | np.bool])
### Type Aliases (for internal use only)
_Falsy: TypeAlias = L[False, 0] | np.bool[L[False]]
_Truthy: TypeAlias = L[True, 1] | np.bool[L[True]]
_1D: TypeAlias = tuple[int]
_2D: TypeAlias = tuple[int, int]
_2Tuple: TypeAlias = tuple[_T, _T]
_ArrayUInt_co: TypeAlias = NDArray[unsignedinteger | np.bool]
_ArrayInt_co: TypeAlias = NDArray[integer | np.bool]
_ArrayFloat64_co: TypeAlias = NDArray[floating[_64Bit] | float32 | float16 | integer | np.bool]
_ArrayFloat_co: TypeAlias = NDArray[floating | integer | np.bool]
_ArrayComplex128_co: TypeAlias = NDArray[number[_64Bit] | number[_32Bit] | float16 | integer | np.bool]
_ArrayComplex_co: TypeAlias = NDArray[inexact | integer | np.bool]
_ArrayNumber_co: TypeAlias = NDArray[number | np.bool]
_ArrayTD64_co: TypeAlias = NDArray[timedelta64 | integer | np.bool]
_Float64_co: TypeAlias = float | floating[_64Bit] | float32 | float16 | integer | np.bool
_Complex64_co: TypeAlias = number[_32Bit] | number[_16Bit] | number[_8Bit] | builtins.bool | np.bool
_Complex128_co: TypeAlias = complex | number[_64Bit] | _Complex64_co
_ToIndex: TypeAlias = SupportsIndex | slice | EllipsisType | _ArrayLikeInt_co | None
_ToIndices: TypeAlias = _ToIndex | tuple[_ToIndex, ...]
_UnsignedIntegerCType: TypeAlias = type[
 ct.c_uint8 | ct.c_uint16 | ct.c_uint32 | ct.c_uint64
 | ct.c_ushort | ct.c_uint | ct.c_ulong | ct.c_ulonglong
 | ct.c_size_t | ct.c_void_p
] # fmt: skip
_SignedIntegerCType: TypeAlias = type[
 ct.c_int8 | ct.c_int16 | ct.c_int32 | ct.c_int64
 | ct.c_short | ct.c_int | ct.c_long | ct.c_longlong
 | ct.c_ssize_t
] # fmt: skip
_FloatingCType: TypeAlias = type[ct.c_float | ct.c_double | ct.c_longdouble]
_IntegerCType: TypeAlias = _UnsignedIntegerCType | _SignedIntegerCType
# some commonly used builtin types that are known to result in a
# `dtype[object_]`, when their *type* is passed to the `dtype` constructor
# NOTE: `builtins.object` should not be included here
_BuiltinObjectLike: TypeAlias = (
 slice | Decimal | Fraction | UUID
 | dt.date | dt.time | dt.timedelta | dt.tzinfo
 | tuple[Any, ...] | list[Any] | set[Any] | frozenset[Any] | dict[Any, Any]
) # fmt: skip
# Introduce an alias for `dtype` to avoid naming conflicts.
_dtype: TypeAlias = dtype[_ScalarT]
_ByteOrderChar: TypeAlias = L["<", ">", "=", "|"]
# can be anything, is case-insensitive, and only the first character matters
_ByteOrder: TypeAlias = L[
 "S", # swap the current order (default)
 "<", "L", "little", # little-endian
 ">", "B", "big", # big endian
 "=", "N", "native", # native order
 "|", "I", # ignore
] # fmt: skip
_DTypeKind: TypeAlias = L[
 "b", # boolean
 "i", # signed integer
 "u", # unsigned integer
 "f", # floating-point
 "c", # complex floating-point
 "m", # timedelta64
 "M", # datetime64
 "O", # python object
 "S", # byte-string (fixed-width)
 "U", # unicode-string (fixed-width)
 "V", # void
 "T", # unicode-string (variable-width)
]
_DTypeChar: TypeAlias = L[
 "?", # bool
 "b", # byte
 "B", # ubyte
 "h", # short
 "H", # ushort
 "i", # intc
 "I", # uintc
 "l", # long
 "L", # ulong
 "q", # longlong
 "Q", # ulonglong
 "e", # half
 "f", # single
 "d", # double
 "g", # longdouble
 "F", # csingle
 "D", # cdouble
 "G", # clongdouble
 "O", # object
 "S", # bytes_ (S0)
 "a", # bytes_ (deprecated)
 "U", # str_
 "V", # void
 "M", # datetime64
 "m", # timedelta64
 "c", # bytes_ (S1)
 "T", # StringDType
]
_DTypeNum: TypeAlias = L[
 0, # bool
 1, # byte
 2, # ubyte
 3, # short
 4, # ushort
 5, # intc
 6, # uintc
 7, # long
 8, # ulong
 9, # longlong
 10, # ulonglong
 23, # half
 11, # single
 12, # double
 13, # longdouble
 14, # csingle
 15, # cdouble
 16, # clongdouble
 17, # object
 18, # bytes_
 19, # str_
 20, # void
 21, # datetime64
 22, # timedelta64
 25, # no type
 256, # user-defined
 2056, # StringDType
]
_DTypeBuiltinKind: TypeAlias = L[0, 1, 2]
_ArrayAPIVersion: TypeAlias = L["2021.12", "2022.12", "2023.12", "2024.12"]
_CastingKind: TypeAlias = L["no", "equiv", "safe", "same_kind", "same_value", "unsafe"]
_OrderKACF: TypeAlias = L["K", "A", "C", "F"] | None
_OrderACF: TypeAlias = L["A", "C", "F"] | None
_OrderCF: TypeAlias = L["C", "F"] | None # noqa: PYI047
_ModeKind: TypeAlias = L["raise", "wrap", "clip"]
_PartitionKind: TypeAlias = L["introselect"]
# in practice, only the first case-insensitive character is considered (so e.g.
# "QuantumSort3000" will be interpreted as quicksort).
_SortKind: TypeAlias = L[
 "Q", "quick", "quicksort",
 "M", "merge", "mergesort",
 "H", "heap", "heapsort",
 "S", "stable", "stablesort",
]
_SortSide: TypeAlias = L["left", "right"]
_ConvertibleToInt: TypeAlias = SupportsInt | SupportsIndex | _CharLike_co
_ConvertibleToFloat: TypeAlias = SupportsFloat | SupportsIndex | _CharLike_co
_ConvertibleToComplex: TypeAlias = SupportsComplex | SupportsFloat | SupportsIndex | _CharLike_co
_ConvertibleToTD64: TypeAlias = dt.timedelta | int | _CharLike_co | character | number | timedelta64 | np.bool | None
_ConvertibleToDT64: TypeAlias = dt.date | int | _CharLike_co | character | number | datetime64 | np.bool | None
_NDIterFlagsKind: TypeAlias = L[
 "buffered",
 "c_index",
 "copy_if_overlap",
 "common_dtype",
 "delay_bufalloc",
 "external_loop",
 "f_index",
 "grow_inner", "growinner",
 "multi_index",
 "ranged",
 "refs_ok",
 "reduce_ok",
 "zerosize_ok",
]
_NDIterFlagsOp: TypeAlias = L[
 "aligned",
 "allocate",
 "arraymask",
 "copy",
 "config",
 "nbo",
 "no_subtype",
 "no_broadcast",
 "overlap_assume_elementwise",
 "readonly",
 "readwrite",
 "updateifcopy",
 "virtual",
 "writeonly",
 "writemasked",
]
_MemMapModeKind: TypeAlias = L[
 "readonly", "r",
 "copyonwrite", "c",
 "readwrite", "r+",
 "write", "w+",
]
_DT64Date: TypeAlias = _HasDateAttributes | L["TODAY", "today", b"TODAY", b"today"]
_DT64Now: TypeAlias = L["NOW", "now", b"NOW", b"now"]
_NaTValue: TypeAlias = L["NAT", "NaT", "nat", b"NAT", b"NaT", b"nat"]
_MonthUnit: TypeAlias = L["Y", "M", b"Y", b"M"]
_DayUnit: TypeAlias = L["W", "D", b"W", b"D"]
_DateUnit: TypeAlias = L[_MonthUnit, _DayUnit]
_NativeTimeUnit: TypeAlias = L["h", "m", "s", "ms", "us", "μs", b"h", b"m", b"s", b"ms", b"us"]
_IntTimeUnit: TypeAlias = L["ns", "ps", "fs", "as", b"ns", b"ps", b"fs", b"as"]
_TimeUnit: TypeAlias = L[_NativeTimeUnit, _IntTimeUnit]
_NativeTD64Unit: TypeAlias = L[_DayUnit, _NativeTimeUnit]
_IntTD64Unit: TypeAlias = L[_MonthUnit, _IntTimeUnit]
_TD64Unit: TypeAlias = L[_DateUnit, _TimeUnit]
_TimeUnitSpec: TypeAlias = _TD64UnitT | tuple[_TD64UnitT, SupportsIndex]
### TypedDict's (for internal use only)
@type_check_only
class _FormerAttrsDict(TypedDict):
 object: LiteralString
 float: LiteralString
 complex: LiteralString
 str: LiteralString
 int: LiteralString
### Protocols (for internal use only)
@final
@type_check_only
class _SupportsLT(Protocol):
 def __lt__(self, other: Any, /) -> Any: ...
@final
@type_check_only
class _SupportsLE(Protocol):
 def __le__(self, other: Any, /) -> Any: ...
@final
@type_check_only
class _SupportsGT(Protocol):
 def __gt__(self, other: Any, /) -> Any: ...
@final
@type_check_only
class _SupportsGE(Protocol):
 def __ge__(self, other: Any, /) -> Any: ...
@type_check_only
class _SupportsFileMethods(SupportsFlush, Protocol):
 # Protocol for representing file-like-objects accepted by `ndarray.tofile` and `fromfile`
 def fileno(self) -> SupportsIndex: ...
 def tell(self) -> SupportsIndex: ...
 def seek(self, offset: int, whence: int, /) -> object: ...
@type_check_only
class _SupportsFileMethodsRW(SupportsWrite[bytes], _SupportsFileMethods, Protocol): ...
@type_check_only
class _SupportsDLPack(Protocol[_T_contra]):
 def __dlpack__(self, /, *, stream: _T_contra | None = None) -> CapsuleType: ...
@type_check_only
class _HasDType(Protocol[_T_co]):
 @property
 def dtype(self, /) -> _T_co: ...
@type_check_only
class _HasRealAndImag(Protocol[_RealT_co, _ImagT_co]):
 @property
 def real(self, /) -> _RealT_co: ...
 @property
 def imag(self, /) -> _ImagT_co: ...
@type_check_only
class _HasTypeWithRealAndImag(Protocol[_RealT_co, _ImagT_co]):
 @property
 def type(self, /) -> type[_HasRealAndImag[_RealT_co, _ImagT_co]]: ...
@type_check_only
class _HasDTypeWithRealAndImag(Protocol[_RealT_co, _ImagT_co]):
 @property
 def dtype(self, /) -> _HasTypeWithRealAndImag[_RealT_co, _ImagT_co]: ...
@type_check_only
class _HasDateAttributes(Protocol):
 # The `datetime64` constructors requires an object with the three attributes below,
 # and thus supports datetime duck typing
 @property
 def day(self) -> int: ...
 @property
 def month(self) -> int: ...
 @property
 def year(self) -> int: ...
### Mixins (for internal use only)
@type_check_only
class _RealMixin:
 @property
 def real(self) -> Self: ...
 @property
 def imag(self) -> Self: ...
@type_check_only
class _RoundMixin:
 @overload
 def __round__(self, /, ndigits: None = None) -> int: ...
 @overload
 def __round__(self, /, ndigits: SupportsIndex) -> Self: ...
@type_check_only
class _IntegralMixin(_RealMixin):
 @property
 def numerator(self) -> Self: ...
 @property
 def denominator(self) -> L[1]: ...
def is_integer(self, /) -> L[True]: ...
### Public API
__version__: Final[LiteralString] = ...
e: Final[float] = ...
euler_gamma: Final[float] = ...
pi: Final[float] = ...
inf: Final[float] = ...
nan: Final[float] = ...
little_endian: Final[builtins.bool] = ...
False_: Final[np.bool[L[False]]] = ...
True_: Final[np.bool[L[True]]] = ...
newaxis: Final[None] = None
# not in __all__
__NUMPY_SETUP__: Final[L[False]] = False
__numpy_submodules__: Final[set[LiteralString]] = ...
__former_attrs__: Final[_FormerAttrsDict] = ...
__future_scalars__: Final[set[L["bytes", "str", "object"]]] = ...
__array_api_version__: Final[L["2024.12"]] = "2024.12"
test: Final[PytestTester] = ...
@type_check_only
class _DTypeMeta(type):
 @property
 def type(cls, /) -> type[generic] | None: ...
 @property
 def _abstract(cls, /) -> bool: ...
 @property
 def _is_numeric(cls, /) -> bool: ...
 @property
 def _parametric(cls, /) -> bool: ...
 @property
 def _legacy(cls, /) -> bool: ...
@final
class dtype(Generic[_ScalarT_co], metaclass=_DTypeMeta):
 names: tuple[builtins.str, ...] | None
 def __hash__(self) -> int: ...
# `None` results in the default dtype
 @overload
 def __new__(
 cls,
 dtype: type[float64 | ct.c_double] | _Float64Codes | _DoubleCodes | None,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...
 ) -> dtype[float64]: ...
# Overload for `dtype` instances, scalar types, and instances that have a
 # `dtype: dtype[_ScalarT]` attribute
 @overload
 def __new__(
 cls,
 dtype: _DTypeLike[_ScalarT],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[_ScalarT]: ...
# Builtin types
 #
 # NOTE: Typecheckers act as if `bool <: int <: float <: complex <: object`,
 # even though at runtime `int`, `float`, and `complex` aren't subtypes..
 # This makes it impossible to express e.g. "a float that isn't an int",
 # since type checkers treat `_: float` like `_: float | int`.
 #
 # For more details, see:
 # - https://github.com/numpy/numpy/issues/27032#issuecomment-2278958251
 # - https://typing.readthedocs.io/en/latest/spec/special-types.html#special-cases-for-float-and-complex
 @overload
 def __new__(
 cls,
 dtype: type[builtins.bool | np.bool | ct.c_bool] | _BoolCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[str, Any] = ...,
 ) -> dtype[np.bool]: ...
 @overload
 def __new__(
 cls,
 dtype: type[int], # also accepts `type[builtins.bool]`
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[str, Any] = ...,
 ) -> dtype[int_ | np.bool]: ...
 @overload
 def __new__(
 cls,
 dtype: type[float], # also accepts `type[int | bool]`
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[str, Any] = ...,
 ) -> dtype[float64 | int_ | np.bool]: ...
 @overload
 def __new__(
 cls,
 dtype: type[complex], # also accepts `type[float | int | bool]`
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[str, Any] = ...,
 ) -> dtype[complex128 | float64 | int_ | np.bool]: ...
 @overload
 def __new__(
 cls,
 dtype: type[bytes | ct.c_char] | _BytesCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[str, Any] = ...,
 ) -> dtype[bytes_]: ...
 @overload
 def __new__(
 cls,
 dtype: type[str] | _StrCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[str, Any] = ...,
 ) -> dtype[str_]: ...
 # NOTE: These `memoryview` overloads assume PEP 688, which requires mypy to
 # be run with the (undocumented) `--disable-memoryview-promotion` flag,
 # This will be the default in a future mypy release, see:
 # https://github.com/python/mypy/issues/15313
 # Pyright / Pylance requires setting `disableBytesTypePromotions=true`,
 # which is the default in strict mode
 @overload
 def __new__(
 cls,
 dtype: type[void | memoryview] | _VoidDTypeLike | _VoidCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[str, Any] = ...,
 ) -> dtype[void]: ...
 # NOTE: `_: type[object]` would also accept e.g. `type[object | complex]`,
 # and is therefore not included here
 @overload
 def __new__(
 cls,
 dtype: type[object_ | _BuiltinObjectLike | ct.py_object[Any]] | _ObjectCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[str, Any] = ...,
 ) -> dtype[object_]: ...
# `unsignedinteger` string-based representations and ctypes
 @overload
 def __new__(
 cls,
 dtype: _UInt8Codes | _UByteCodes | type[ct.c_uint8 | ct.c_ubyte],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[uint8]: ...
 @overload
 def __new__(
 cls,
 dtype: _UInt16Codes | _UShortCodes | type[ct.c_uint16 | ct.c_ushort],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[uint16]: ...
 @overload
 def __new__(
 cls,
 dtype: _UInt32Codes | _UIntCCodes | type[ct.c_uint32 | ct.c_uint],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[uint32]: ...
 @overload
 def __new__(
 cls,
 dtype: _UInt64Codes | _ULongLongCodes | type[ct.c_uint64 | ct.c_ulonglong],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[uint64]: ...
 @overload
 def __new__(
 cls,
 dtype: _UIntPCodes | type[ct.c_void_p | ct.c_size_t],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[uintp]: ...
 @overload
 def __new__(
 cls,
 dtype: _ULongCodes | type[ct.c_ulong],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[ulong]: ...
# `signedinteger` string-based representations and ctypes
 @overload
 def __new__(
 cls,
 dtype: _Int8Codes | _ByteCodes | type[ct.c_int8 | ct.c_byte],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[int8]: ...
 @overload
 def __new__(
 cls,
 dtype: _Int16Codes | _ShortCodes | type[ct.c_int16 | ct.c_short],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[int16]: ...
 @overload
 def __new__(
 cls,
 dtype: _Int32Codes | _IntCCodes | type[ct.c_int32 | ct.c_int],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[int32]: ...
 @overload
 def __new__(
 cls,
 dtype: _Int64Codes | _LongLongCodes | type[ct.c_int64 | ct.c_longlong],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[int64]: ...
 @overload
 def __new__(
 cls,
 dtype: _IntPCodes | type[intp | ct.c_ssize_t],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[intp]: ...
 @overload
 def __new__(
 cls,
 dtype: _LongCodes | type[ct.c_long],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[long]: ...
# `floating` string-based representations and ctypes
 @overload
 def __new__(
 cls,
 dtype: _Float16Codes | _HalfCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[float16]: ...
 @overload
 def __new__(
 cls,
 dtype: _Float32Codes | _SingleCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[float32]: ...
 # float64 codes are covered by overload 1
 @overload
 def __new__(
 cls,
 dtype: _LongDoubleCodes | type[ct.c_longdouble],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[longdouble]: ...
# `complexfloating` string-based representations
 @overload
 def __new__(
 cls,
 dtype: _Complex64Codes | _CSingleCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[complex64]: ...
 @overload
 def __new__(
 cls,
 dtype: _Complex128Codes | _CDoubleCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[complex128]: ...
 @overload
 def __new__(
 cls,
 dtype: _CLongDoubleCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[clongdouble]: ...
# Miscellaneous string-based representations and ctypes
 @overload
 def __new__(
 cls,
 dtype: _TD64Codes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[timedelta64]: ...
 @overload
 def __new__(
 cls,
 dtype: _DT64Codes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[datetime64]: ...
# `StringDType` requires special treatment because it has no scalar type
 @overload
 def __new__(
 cls,
 dtype: dtypes.StringDType | _StringCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtypes.StringDType: ...
# Combined char-codes and ctypes, analogous to the scalar-type hierarchy
 @overload
 def __new__(
 cls,
 dtype: _UnsignedIntegerCodes | _UnsignedIntegerCType,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[unsignedinteger]: ...
 @overload
 def __new__(
 cls,
 dtype: _SignedIntegerCodes | _SignedIntegerCType,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[signedinteger]: ...
 @overload
 def __new__(
 cls,
 dtype: _IntegerCodes | _IntegerCType,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[integer]: ...
 @overload
 def __new__(
 cls,
 dtype: _FloatingCodes | _FloatingCType,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[floating]: ...
 @overload
 def __new__(
 cls,
 dtype: _ComplexFloatingCodes,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[complexfloating]: ...
 @overload
 def __new__(
 cls,
 dtype: _InexactCodes | _FloatingCType,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[inexact]: ...
 @overload
 def __new__(
 cls,
 dtype: _CharacterCodes | type[bytes | builtins.str | ct.c_char],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[str, Any] = ...,
 ) -> dtype[character]: ...
# Handle strings that can't be expressed as literals; i.e. "S1", "S2", ...
 @overload
 def __new__(
 cls,
 dtype: builtins.str,
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype: ...
# Catch-all overload for object-likes
 # NOTE: `object_ | Any` is NOT equivalent to `Any`. It is specified to behave
 # like a "sum type" (a.k.a. variant type, discriminated union, or tagged union).
 # So the union of a type and `Any` is not the same "union type" that all other
 # unions are (by definition).
 # https://typing.python.org/en/latest/spec/concepts.html#union-types
 @overload
 def __new__(
 cls,
 dtype: type[object],
 align: builtins.bool = False,
 copy: builtins.bool = False,
 *,
 metadata: dict[builtins.str, Any] = ...,
 ) -> dtype[object_ | Any]: ...
def __class_getitem__(cls, item: Any, /) -> GenericAlias: ...
@overload
 def __getitem__(self: dtype[void], key: list[builtins.str], /) -> dtype[void]: ...
 @overload
 def __getitem__(self: dtype[void], key: builtins.str | SupportsIndex, /) -> dtype: ...
# NOTE: In the future 1-based multiplications will also yield `flexible` dtypes
 @overload
 def __mul__(self: _DTypeT, value: L[1], /) -> _DTypeT: ...
 @overload
 def __mul__(self: _FlexDTypeT, value: SupportsIndex, /) -> _FlexDTypeT: ...
 @overload
 def __mul__(self, value: SupportsIndex, /) -> dtype[void]: ...
# NOTE: `__rmul__` seems to be broken when used in combination with
 # literals as of mypy 0.902. Set the return-type to `dtype` for
 # now for non-flexible dtypes.
 @overload
 def __rmul__(self: _FlexDTypeT, value: SupportsIndex, /) -> _FlexDTypeT: ...
 @overload
 def __rmul__(self, value: SupportsIndex, /) -> dtype: ...
def __gt__(self, other: DTypeLike | None, /) -> builtins.bool: ...
 def __ge__(self, other: DTypeLike | None, /) -> builtins.bool: ...
 def __lt__(self, other: DTypeLike | None, /) -> builtins.bool: ...
 def __le__(self, other: DTypeLike | None, /) -> builtins.bool: ...
# Explicitly defined `__eq__` and `__ne__` to get around mypy's
 # `strict_equality` option; even though their signatures are
 # identical to their `object`-based counterpart
 def __eq__(self, other: Any, /) -> builtins.bool: ...
 def __ne__(self, other: Any, /) -> builtins.bool: ...
@property
 def alignment(self) -> int: ...
 @property
 def base(self) -> dtype: ...
 @property
 def byteorder(self) -> _ByteOrderChar: ...
 @property
 def char(self) -> _DTypeChar: ...
 @property
 def descr(self) -> list[tuple[LiteralString, LiteralString] | tuple[LiteralString, LiteralString, _Shape]]: ...
 @property
 def fields(self,) -> MappingProxyType[LiteralString, tuple[dtype, int] | tuple[dtype, int, Any]] | None: ...
 @property
 def flags(self) -> int: ...
 @property
 def hasobject(self) -> builtins.bool: ...
 @property
 def isbuiltin(self) -> _DTypeBuiltinKind: ...
 @property
 def isnative(self) -> builtins.bool: ...
 @property
 def isalignedstruct(self) -> builtins.bool: ...
 @property
 def itemsize(self) -> int: ...
 @property
 def kind(self) -> _DTypeKind: ...
 @property
 def metadata(self) -> MappingProxyType[builtins.str, Any] | None: ...
 @property
 def name(self) -> LiteralString: ...
 @property
 def num(self) -> _DTypeNum: ...
 @property
 def shape(self) -> _AnyShape: ...
 @property
 def ndim(self) -> int: ...
 @property
 def subdtype(self) -> tuple[dtype, _AnyShape] | None: ...
 def newbyteorder(self, new_order: _ByteOrder = ..., /) -> Self: ...
 @property
 def str(self) -> LiteralString: ...
 @property
 def type(self) -> type[_ScalarT_co]: ...
@final
class flatiter(Generic[_ArrayT_co]):
 __hash__: ClassVar[None] = None # type: ignore[assignment] # pyright: ignore[reportIncompatibleMethodOverride]
@property
 def base(self, /) -> _ArrayT_co: ...
 @property
 def coords(self: flatiter[ndarray[_ShapeT]], /) -> _ShapeT: ...
 @property
 def index(self, /) -> int: ...
# iteration
 def __len__(self, /) -> int: ...
 def __iter__(self, /) -> Self: ...
 def __next__(self: flatiter[NDArray[_ScalarT]], /) -> _ScalarT: ...
# indexing
 @overload # nd: _[()]
 def __getitem__(self, key: tuple[()], /) -> _ArrayT_co: ...
 @overload # 0d; _[<integer>]
 def __getitem__(self: flatiter[NDArray[_ScalarT]], key: int | integer, /) -> _ScalarT: ...
 @overload # 1d; _[[*<int>]], _[:], _[...]
 def __getitem__(
 self: flatiter[ndarray[Any, _DTypeT]],
 key: list[int] | slice | EllipsisType | flatiter[NDArray[integer]],
 /,
 ) -> ndarray[tuple[int], _DTypeT]: ...
 @overload # 2d; _[[*[*<int>]]]
 def __getitem__(
 self: flatiter[ndarray[Any, _DTypeT]],
 key: list[list[int]],
 /,
 ) -> ndarray[tuple[int, int], _DTypeT]: ...
 @overload # ?d
 def __getitem__(
 self: flatiter[ndarray[Any, _DTypeT]],
 key: NDArray[integer] | _NestedSequence[int],
 /,
 ) -> ndarray[_AnyShape, _DTypeT]: ...
# NOTE: `__setitem__` operates via `unsafe` casting rules, and can thus accept any
 # type accepted by the relevant underlying `np.generic` constructor, which isn't
 # known statically. So we cannot meaningfully annotate the value parameter.
 def __setitem__(self, key: slice | EllipsisType | _ArrayLikeInt, val: object, /) -> None: ...
# NOTE: `dtype` and `copy` are no-ops at runtime, so we don't support them here to
 # avoid confusion
 def __array__(
 self: flatiter[ndarray[Any, _DTypeT]],
 dtype: None = None,
 /,
 *,
 copy: None = None,
 ) -> ndarray[tuple[int], _DTypeT]: ...
# This returns a flat copy of the underlying array, not of the iterator itself
 def copy(self: flatiter[ndarray[Any, _DTypeT]], /) -> ndarray[tuple[int], _DTypeT]: ...
@type_check_only
class _ArrayOrScalarCommon:
 @property
 def real(self, /) -> Any: ...
 @property
 def imag(self, /) -> Any: ...
 @property
 def T(self) -> Self: ...
 @property
 def mT(self) -> Self: ...
 @property
 def data(self) -> memoryview: ...
 @property
 def flags(self) -> flagsobj: ...
 @property
 def itemsize(self) -> int: ...
 @property
 def nbytes(self) -> int: ...
 @property
 def device(self) -> L["cpu"]: ...
def __bool__(self, /) -> builtins.bool: ...
 def __int__(self, /) -> int: ...
 def __float__(self, /) -> float: ...
 def __copy__(self) -> Self: ...
 def __deepcopy__(self, memo: dict[int, Any] | None, /) -> Self: ...
# TODO: How to deal with the non-commutative nature of `==` and `!=`?
 # xref numpy/numpy#17368
 def __eq__(self, other: Any, /) -> Any: ...
 def __ne__(self, other: Any, /) -> Any: ...
def copy(self, order: _OrderKACF = ...) -> Self: ...
 def dump(self, file: StrOrBytesPath | SupportsWrite[bytes]) -> None: ...
 def dumps(self) -> bytes: ...
 def tobytes(self, order: _OrderKACF = ...) -> bytes: ...
 def tofile(self, fid: StrOrBytesPath | _SupportsFileMethods, /, sep: str = "", format: str = "%s") -> None: ...
 # generics and 0d arrays return builtin scalars
 def tolist(self) -> Any: ...
 def to_device(self, device: L["cpu"], /, *, stream: int | Any | None = ...) -> Self: ...
# NOTE: for `generic`, these two methods don't do anything
 def fill(self, /, value: Incomplete) -> None: ...
 def put(self, indices: _ArrayLikeInt_co, values: ArrayLike, /, mode: _ModeKind = "raise") -> None: ...
# NOTE: even on `generic` this seems to work
 def setflags(
 self,
 /,
 *,
 write: builtins.bool | None = None,
 align: builtins.bool | None = None,
 uic: builtins.bool | None = None,
 ) -> None: ...
@property
 def __array_interface__(self) -> dict[str, Any]: ...
 @property
 def __array_priority__(self) -> float: ...
 @property
 def __array_struct__(self) -> CapsuleType: ... # builtins.PyCapsule
 def __array_namespace__(self, /, *, api_version: _ArrayAPIVersion | None = None) -> ModuleType: ...
 def __setstate__(self, state: tuple[
 SupportsIndex, # version
 _ShapeLike, # Shape
 _DTypeT_co, # DType
 np.bool, # F-continuous
 bytes | list[Any], # Data
 ], /) -> None: ...
def conj(self) -> Self: ...
 def conjugate(self) -> Self: ...
def argsort(
 self,
 axis: SupportsIndex | None = ...,
 kind: _SortKind | None = ...,
 order: str | Sequence[str] | None = ...,
 *,
 stable: builtins.bool | None = ...,
 ) -> NDArray[intp]: ...
@overload # axis=None (default), out=None (default), keepdims=False (default)
 def argmax(self, /, axis: None = None, out: None = None, *, keepdims: L[False] = False) -> intp: ...
 @overload # axis=index, out=None (default)
 def argmax(self, /, axis: SupportsIndex, out: None = None, *, keepdims: builtins.bool = False) -> Any: ...
 @overload # axis=index, out=ndarray
 def argmax(self, /, axis: SupportsIndex | None, out: _BoolOrIntArrayT, *, keepdims: builtins.bool = False) -> _BoolOrIntArrayT: ...
 @overload
 def argmax(self, /, axis: SupportsIndex | None = None, *, out: _BoolOrIntArrayT, keepdims: builtins.bool = False) -> _BoolOrIntArrayT: ...
@overload # axis=None (default), out=None (default), keepdims=False (default)
 def argmin(self, /, axis: None = None, out: None = None, *, keepdims: L[False] = False) -> intp: ...
 @overload # axis=index, out=None (default)
 def argmin(self, /, axis: SupportsIndex, out: None = None, *, keepdims: builtins.bool = False) -> Any: ...
 @overload # axis=index, out=ndarray
 def argmin(self, /, axis: SupportsIndex | None, out: _BoolOrIntArrayT, *, keepdims: builtins.bool = False) -> _BoolOrIntArrayT: ...
 @overload
 def argmin(self, /, axis: SupportsIndex | None = None, *, out: _BoolOrIntArrayT, keepdims: builtins.bool = False) -> _BoolOrIntArrayT: ...
# Keep in sync with `MaskedArray.round`
 @overload # out=None (default)
 def round(self, /, decimals: SupportsIndex = 0, out: None = None) -> Self: ...
 @overload # out=ndarray
 def round(self, /, decimals: SupportsIndex, out: _ArrayT) -> _ArrayT: ...
 @overload
 def round(self, /, decimals: SupportsIndex = 0, *, out: _ArrayT) -> _ArrayT: ...
@overload # out=None (default)
 def choose(self, /, choices: ArrayLike, out: None = None, mode: _ModeKind = "raise") -> NDArray[Any]: ...
 @overload # out=ndarray
 def choose(self, /, choices: ArrayLike, out: _ArrayT, mode: _ModeKind = "raise") -> _ArrayT: ...
# TODO: Annotate kwargs with an unpacked `TypedDict`
 @overload # out: None (default)
 def clip(self, /, min: ArrayLike, max: ArrayLike | None = None, out: None = None, **kwargs: Any) -> NDArray[Any]: ...
 @overload
 def clip(self, /, min: None, max: ArrayLike, out: None = None, **kwargs: Any) -> NDArray[Any]: ...
 @overload
 def clip(self, /, min: None = None, *, max: ArrayLike, out: None = None, **kwargs: Any) -> NDArray[Any]: ...
 @overload # out: ndarray
 def clip(self, /, min: ArrayLike, max: ArrayLike | None, out: _ArrayT, **kwargs: Any) -> _ArrayT: ...
 @overload
 def clip(self, /, min: ArrayLike, max: ArrayLike | None = None, *, out: _ArrayT, **kwargs: Any) -> _ArrayT: ...
 @overload
 def clip(self, /, min: None, max: ArrayLike, out: _ArrayT, **kwargs: Any) -> _ArrayT: ...
 @overload
 def clip(self, /, min: None = None, *, max: ArrayLike, out: _ArrayT, **kwargs: Any) -> _ArrayT: ...
@overload
 def compress(self, /, condition: _ArrayLikeInt_co, axis: SupportsIndex | None = None, out: None = None) -> NDArray[Any]: ...
 @overload
 def compress(self, /, condition: _ArrayLikeInt_co, axis: SupportsIndex | None, out: _ArrayT) -> _ArrayT: ...
 @overload
 def compress(self, /, condition: _ArrayLikeInt_co, axis: SupportsIndex | None = None, *, out: _ArrayT) -> _ArrayT: ...
# Keep in sync with `MaskedArray.cumprod`
 @overload # out: None (default)
 def cumprod(self, /, axis: SupportsIndex | None = None, dtype: DTypeLike | None = None, out: None = None) -> NDArray[Any]: ...
 @overload # out: ndarray
 def cumprod(self, /, axis: SupportsIndex | None, dtype: DTypeLike | None, out: _ArrayT) -> _ArrayT: ...
 @overload
 def cumprod(self, /, axis: SupportsIndex | None = None, dtype: DTypeLike | None = None, *, out: _ArrayT) -> _ArrayT: ...
# Keep in sync with `MaskedArray.cumsum`
 @overload # out: None (default)
 def cumsum(self, /, axis: SupportsIndex | None = None, dtype: DTypeLike | None = None, out: None = None) -> NDArray[Any]: ...
 @overload # out: ndarray
 def cumsum(self, /, axis: SupportsIndex | None, dtype: DTypeLike | None, out: _ArrayT) -> _ArrayT: ...
 @overload
 def cumsum(self, /, axis: SupportsIndex | None = None, dtype: DTypeLike | None = None, *, out: _ArrayT) -> _ArrayT: ...
@overload
 def max(
 self,
 /,
 axis: _ShapeLike | None = None,
 out: None = None,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> Any: ...
 @overload
 def max(
 self,
 /,
 axis: _ShapeLike | None,
 out: _ArrayT,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> _ArrayT: ...
 @overload
 def max(
 self,
 /,
 axis: _ShapeLike | None = None,
 *,
 out: _ArrayT,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> _ArrayT: ...
@overload
 def min(
 self,
 /,
 axis: _ShapeLike | None = None,
 out: None = None,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> Any: ...
 @overload
 def min(
 self,
 /,
 axis: _ShapeLike | None,
 out: _ArrayT,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> _ArrayT: ...
 @overload
 def min(
 self,
 /,
 axis: _ShapeLike | None = None,
 *,
 out: _ArrayT,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> _ArrayT: ...
@overload
 def sum(
 self,
 /,
 axis: _ShapeLike | None = None,
 dtype: DTypeLike | None = None,
 out: None = None,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> Any: ...
 @overload
 def sum(
 self,
 /,
 axis: _ShapeLike | None,
 dtype: DTypeLike | None,
 out: _ArrayT,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> _ArrayT: ...
 @overload
 def sum(
 self,
 /,
 axis: _ShapeLike | None = None,
 dtype: DTypeLike | None = None,
 *,
 out: _ArrayT,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> _ArrayT: ...
@overload
 def prod(
 self,
 /,
 axis: _ShapeLike | None = None,
 dtype: DTypeLike | None = None,
 out: None = None,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> Any: ...
 @overload
 def prod(
 self,
 /,
 axis: _ShapeLike | None,
 dtype: DTypeLike | None,
 out: _ArrayT,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> _ArrayT: ...
 @overload
 def prod(
 self,
 /,
 axis: _ShapeLike | None = None,
 dtype: DTypeLike | None = None,
 *,
 out: _ArrayT,
 keepdims: builtins.bool | _NoValueType = ...,
 initial: _NumberLike_co | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> _ArrayT: ...
@overload
 def mean(
 self,
 axis: _ShapeLike | None = None,
 dtype: DTypeLike | None = None,
 out: None = None,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> Any: ...
 @overload
 def mean(
 self,
 /,
 axis: _ShapeLike | None,
 dtype: DTypeLike | None,
 out: _ArrayT,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> _ArrayT: ...
 @overload
 def mean(
 self,
 /,
 axis: _ShapeLike | None = None,
 dtype: DTypeLike | None = None,
 *,
 out: _ArrayT,
 keepdims: builtins.bool | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 ) -> _ArrayT: ...
@overload
 def std(
 self,
 axis: _ShapeLike | None = None,
 dtype: DTypeLike | None = None,
 out: None = None,
 ddof: float = 0,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 mean: _ArrayLikeNumber_co | _NoValueType = ...,
 correction: float | _NoValueType = ...,
 ) -> Any: ...
 @overload
 def std(
 self,
 axis: _ShapeLike | None,
 dtype: DTypeLike | None,
 out: _ArrayT,
 ddof: float = 0,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 mean: _ArrayLikeNumber_co | _NoValueType = ...,
 correction: float | _NoValueType = ...,
 ) -> _ArrayT: ...
 @overload
 def std(
 self,
 axis: _ShapeLike | None = None,
 dtype: DTypeLike | None = None,
 *,
 out: _ArrayT,
 ddof: float = 0,
 keepdims: builtins.bool | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 mean: _ArrayLikeNumber_co | _NoValueType = ...,
 correction: float | _NoValueType = ...,
 ) -> _ArrayT: ...
@overload
 def var(
 self,
 axis: _ShapeLike | None = None,
 dtype: DTypeLike | None = None,
 out: None = None,
 ddof: float = 0,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 mean: _ArrayLikeNumber_co | _NoValueType = ...,
 correction: float | _NoValueType = ...,
 ) -> Any: ...
 @overload
 def var(
 self,
 axis: _ShapeLike | None,
 dtype: DTypeLike | None,
 out: _ArrayT,
 ddof: float = 0,
 *,
 keepdims: builtins.bool | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 mean: _ArrayLikeNumber_co | _NoValueType = ...,
 correction: float | _NoValueType = ...,
 ) -> _ArrayT: ...
 @overload
 def var(
 self,
 axis: _ShapeLike | None = None,
 dtype: DTypeLike | None = None,
 *,
 out: _ArrayT,
 ddof: float = 0,
 keepdims: builtins.bool | _NoValueType = ...,
 where: _ArrayLikeBool_co | _NoValueType = ...,
 mean: _ArrayLikeNumber_co | _NoValueType = ...,
 correction: float | _NoValueType = ...,
 ) -> _ArrayT: ...
class ndarray(_ArrayOrScalarCommon, Generic[_ShapeT_co, _DTypeT_co]):
 __hash__: ClassVar[None] # type: ignore[assignment] # pyright: ignore[reportIncompatibleMethodOverride]
 @property
 def base(self) -> NDArray[Any] | None: ...
 @property
 def ndim(self) -> int: ...
 @property
 def size(self) -> int: ...
 @property
 def real(self: _HasDTypeWithRealAndImag[_ScalarT, object], /) -> ndarray[_ShapeT_co, dtype[_ScalarT]]: ...
 @real.setter
 def real(self, value: ArrayLike, /) -> None: ...
 @property
 def imag(self: _HasDTypeWithRealAndImag[object, _ScalarT], /) -> ndarray[_ShapeT_co, dtype[_ScalarT]]: ...
 @imag.setter
 def imag(self, value: ArrayLike, /) -> None: ...
def __new__(
 cls,
 shape: _ShapeLike,
 dtype: DTypeLike | None = ...,
 buffer: _SupportsBuffer | None = ...,
 offset: SupportsIndex = ...,
 strides: _ShapeLike | None = ...,
 order: _OrderKACF = ...,
 ) -> Self: ...
if sys.version_info >= (3, 12):
 def __buffer__(self, flags: int, /) -> memoryview: ...
def __class_getitem__(cls, item: Any, /) -> GenericAlias: ...
@overload
 def __array__(self, dtype: None = None, /, *, copy: builtins.bool | None = None) -> ndarray[_ShapeT_co, _DTypeT_co]: ...
 @overload
 def __array__(self, dtype: _DTypeT, /, *, copy: builtins.bool | None = None) -> ndarray[_ShapeT_co, _DTypeT]: ...
def __array_ufunc__(
 self,
 ufunc: ufunc,
 method: L["__call__", "reduce", "reduceat", "accumulate", "outer", "at"],
 *inputs: Any,
 **kwargs: Any,
 ) -> Any: ...
def __array_function__(
 self,
 func: Callable[..., Any],
 types: Iterable[type],
 args: Iterable[Any],
 kwargs: Mapping[str, Any],
 ) -> Any: ...
# NOTE: In practice any object is accepted by `obj`, but as `__array_finalize__`
 # is a pseudo-abstract method the type has been narrowed down in order to
 # grant subclasses a bit more flexibility
 def __array_finalize__(self, obj: NDArray[Any] | None, /) -> None: ...
def __array_wrap__(
 self,
 array: ndarray[_ShapeT, _DTypeT],
 context: tuple[ufunc, tuple[Any, ...], int] | None = ...,
 return_scalar: builtins.bool = ...,
 /,
 ) -> ndarray[_ShapeT, _DTypeT]: ...
# Keep in sync with `MaskedArray.__getitem__`
 @overload
 def __getitem__(self, key: _ArrayInt_co | tuple[_ArrayInt_co, ...], /) -> ndarray[_AnyShape, _DTypeT_co]: ...
 @overload
 def __getitem__(self, key: SupportsIndex | tuple[SupportsIndex, ...], /) -> Any: ...
 @overload
 def __getitem__(self, key: _ToIndices, /) -> ndarray[_AnyShape, _DTypeT_co]: ...
 @overload # can be of any shape
 def __getitem__(self: NDArray[void], key: str, /) -> ndarray[_ShapeT_co | _AnyShape]: ...
 @overload
 def __getitem__(self: NDArray[void], key: list[str], /) -> ndarray[_ShapeT_co | _AnyShape, dtype[void]]: ...
@overload # flexible | object_ | bool
 def __setitem__(
 self: ndarray[Any, dtype[flexible | object_ | np.bool] | dtypes.StringDType],
 key: _ToIndices,
 value: object,
 /,
 ) -> None: ...
 @overload # integer
 def __setitem__(
 self: NDArray[integer],
 key: _ToIndices,
 value: _ConvertibleToInt | _NestedSequence[_ConvertibleToInt] | _ArrayLikeInt_co,
 /,
 ) -> None: ...
 @overload # floating
 def __setitem__(
 self: NDArray[floating],
 key: _ToIndices,
 value: _ConvertibleToFloat | _NestedSequence[_ConvertibleToFloat | None] | _ArrayLikeFloat_co | None,
 /,
 ) -> None: ...
 @overload # complexfloating
 def __setitem__(
 self: NDArray[complexfloating],
 key: _ToIndices,
 value: _ConvertibleToComplex | _NestedSequence[_ConvertibleToComplex | None] | _ArrayLikeNumber_co | None,
 /,
 ) -> None: ...
 @overload # timedelta64
 def __setitem__(
 self: NDArray[timedelta64],
 key: _ToIndices,
 value: _ConvertibleToTD64 | _NestedSequence[_ConvertibleToTD64],
 /,
 ) -> None: ...
 @overload # datetime64
 def __setitem__(
 self: NDArray[datetime64],
 key: _ToIndices,
 value: _ConvertibleToDT64 | _NestedSequence[_ConvertibleToDT64],
 /,
 ) -> None: ...
 @overload # void
 def __setitem__(self: NDArray[void], key: str | list[str], value: object, /) -> None: ...
 @overload # catch-all
 def __setitem__(self, key: _ToIndices, value: ArrayLike, /) -> None: ...
@property
 def ctypes(self) -> _ctypes[int]: ...
#
 @property
 def shape(self) -> _ShapeT_co: ...
 @shape.setter
 @deprecated("In-place shape modification will be deprecated in NumPy 2.5.", category=PendingDeprecationWarning)
 def shape(self, value: _ShapeLike) -> None: ...
#
 @property
 def strides(self) -> _Shape: ...
 @strides.setter
 @deprecated("Setting the strides on a NumPy array has been deprecated in NumPy 2.4")
 def strides(self, value: _ShapeLike) -> None: ...
#
 def byteswap(self, inplace: builtins.bool = ...) -> Self: ...
 @property
 def flat(self) -> flatiter[Self]: ...
@overload # use the same output type as that of the underlying `generic`
 def item(self: NDArray[generic[_T]], i0: SupportsIndex | tuple[SupportsIndex, ...] = ..., /, *args: SupportsIndex) -> _T: ...
 @overload # special casing for `StringDType`, which has no scalar type
 def item(
 self: ndarray[Any, dtypes.StringDType],
 arg0: SupportsIndex | tuple[SupportsIndex, ...] = ...,
 /,
 *args: SupportsIndex,
 ) -> str: ...
# keep in sync with `ma.MaskedArray.tolist`
 @overload # this first overload prevents mypy from over-eagerly selecting `tuple[()]` in case of `_AnyShape`
 def tolist(self: ndarray[tuple[Never], dtype[generic[_T]]], /) -> Any: ...
 @overload
 def tolist(self: ndarray[tuple[()], dtype[generic[_T]]], /) -> _T: ...
 @overload
 def tolist(self: ndarray[tuple[int], dtype[generic[_T]]], /) -> list[_T]: ...
 @overload
 def tolist(self: ndarray[tuple[int, int], dtype[generic[_T]]], /) -> list[list[_T]]: ...
 @overload
 def tolist(self: ndarray[tuple[int, int, int], dtype[generic[_T]]], /) -> list[list[list[_T]]]: ...
 @overload
 def tolist(self, /) -> Any: ...
@overload
 def resize(self, new_shape: _ShapeLike, /, *, refcheck: builtins.bool = True) -> None: ...
 @overload
 def resize(self, /, *new_shape: SupportsIndex, refcheck: builtins.bool = True) -> None: ...
# keep in sync with `ma.MaskedArray.squeeze`
 def squeeze(
 self,
 /,
 axis: SupportsIndex | tuple[SupportsIndex, ...] | None = ...,
 ) -> ndarray[_AnyShape, _DTypeT_co]: ...
def swapaxes(self, axis1: SupportsIndex, axis2: SupportsIndex, /) -> Self: ...
@overload
 def transpose(self, axes: _ShapeLike | None, /) -> Self: ...
 @overload
 def transpose(self, /, *axes: SupportsIndex) -> Self: ...
@overload
 def all(
 self,
 axis: None = None,
 out: None = None,
 keepdims: L[False, 0] = False,
 *,
 where: _ArrayLikeBool_co = True
 ) -> np.bool: ...
 @overload
 def all(
 self,
 axis: int | tuple[int, ...] | None = None,
 out: None = None,
 keepdims: SupportsIndex = False,
 *,
 where: _ArrayLikeBool_co = True,
 ) -> np.bool | NDArray[np.bool]: ...
 @overload
 def all(
 self,
 axis: int | tuple[int, ...] | None,
 out: _ArrayT,
 keepdims: SupportsIndex = False,
 *,
 where: _ArrayLikeBool_co = True,
 ) -> _ArrayT: ...
 @overload
 def all(
 self,
 axis: int | tuple[int, ...] | None = None,
 *,
 out: _ArrayT,
 keepdims: SupportsIndex = False,
 where: _ArrayLikeBool_co = True,
 ) -> _ArrayT: ...
@overload
 def any(
 self,
 axis: None = None,
 out: None = None,
 keepdims: L[False, 0] = False,
 *,
 where: _ArrayLikeBool_co = True
 ) -> np.bool: ...
 @overload
 def any(
 self,
 axis: int | tuple[int, ...] | None = None,
 out: None = None,
 keepdims: SupportsIndex = False,
 *,
 where: _ArrayLikeBool_co = True,
 ) -> np.bool | NDArray[np.bool]: ...
 @overload
 def any(
 self,
 axis: int | tuple[int, ...] | None,
 out: _ArrayT,
 keepdims: SupportsIndex = False,
 *,
 where: _ArrayLikeBool_co = True,
 ) -> _ArrayT: ...
 @overload
 def any(
 self,
 axis: int | tuple[int, ...] | None = None,
 *,
 out: _ArrayT,
 keepdims: SupportsIndex = False,
 where: _ArrayLikeBool_co = True,
 ) -> _ArrayT: ...
#
 @overload
 def partition(
 self,
 kth: _ArrayLikeInt,
 /,
 axis: SupportsIndex = -1,
 kind: _PartitionKind = "introselect",
 order: None = None,
 ) -> None: ...
 @overload
 def partition(
 self: NDArray[void],
 kth: _ArrayLikeInt,
 /,
 axis: SupportsIndex = -1,
 kind: _PartitionKind = "introselect",
 order: str | Sequence[str] | None = None,
 ) -> None: ...
#
 @overload
 def argpartition(
 self,
 kth: _ArrayLikeInt,
 /,
 axis: SupportsIndex | None = -1,
 kind: _PartitionKind = "introselect",
 order: None = None,
 ) -> NDArray[intp]: ...
 @overload
 def argpartition(
 self: NDArray[void],
 kth: _ArrayLikeInt,
 /,
 axis: SupportsIndex | None = -1,
 kind: _PartitionKind = "introselect",
 order: str | Sequence[str] | None = None,
 ) -> NDArray[intp]: ...
# keep in sync with `ma.MaskedArray.diagonal`
 def diagonal(
 self,
 offset: SupportsIndex = 0,
 axis1: SupportsIndex = 0,
 axis2: SupportsIndex = 1,
 ) -> ndarray[_AnyShape, _DTypeT_co]: ...
# 1D + 1D returns a scalar;
 # all other with at least 1 non-0D array return an ndarray.
 @overload
 def dot(self, b: _ScalarLike_co, /, out: None = None) -> NDArray[Any]: ...
 @overload
 def dot(self, b: ArrayLike, /, out: None = None) -> Any: ...
 @overload
 def dot(self, b: ArrayLike, /, out: _ArrayT) -> _ArrayT: ...
# `nonzero()` raises for 0d arrays/generics
 def nonzero(self) -> tuple[ndarray[tuple[int], np.dtype[intp]], ...]: ...
@overload
 def searchsorted(
 self, # >= 1D array
 v: _ScalarLike_co, # 0D array-like
 /,
 side: _SortSide = "left",
 sorter: _ArrayLikeInt_co | None = None,
 ) -> intp: ...
 @overload
 def searchsorted(
 self, # >= 1D array
 v: ArrayLike,
 /,
 side: _SortSide = "left",
 sorter: _ArrayLikeInt_co | None = None,
 ) -> NDArray[intp]: ...
def sort(
 self,
 /,
 axis: SupportsIndex = -1,
 kind: _SortKind | None = None,
 order: str | Sequence[str] | None = None,
 *,
 stable: builtins.bool | None = None,
 ) -> None: ...
# Keep in sync with `MaskedArray.trace`
 @overload
 def trace(
 self, # >= 2D array
 /,
 offset: SupportsIndex = 0,
 axis1: SupportsIndex = 0,
 axis2: SupportsIndex = 1,
 dtype: DTypeLike | None = None,
 out: None = None,
 ) -> Any: ...
 @overload
 def trace(
 self, # >= 2D array
 /,
 offset: SupportsIndex = 0,
 axis1: SupportsIndex = 0,
 axis2: SupportsIndex = 1,
 dtype: DTypeLike | None = None,
 *,
 out: _ArrayT,
 ) -> _ArrayT: ...
 @overload
 def trace(
 self, # >= 2D array
 /,
 offset: SupportsIndex,
 axis1: SupportsIndex,
 axis2: SupportsIndex,
 dtype: DTypeLike | None,
 out: _ArrayT,
 ) -> _ArrayT: ...
@overload
 def take(
 self: NDArray[_ScalarT],
 indices: _IntLike_co,
 /,
 axis: SupportsIndex | None = ...,
 out: None = None,
 mode: _ModeKind = ...,
 ) -> _ScalarT: ...
 @overload
 def take(
 self,
 indices: _ArrayLikeInt_co,
 /,
 axis: SupportsIndex | None = ...,
 out: None = None,
 mode: _ModeKind = ...,
 ) -> ndarray[_AnyShape, _DTypeT_co]: ...
 @overload
 def take(
 self,
 indices: _ArrayLikeInt_co,
 /,
 axis: SupportsIndex | None = ...,
 *,
 out: _ArrayT,
 mode: _ModeKind = ...,
 ) -> _ArrayT: ...
 @overload
 def take(
 self,
 indices: _ArrayLikeInt_co,
 /,
 axis: SupportsIndex | None,
 out: _ArrayT,
 mode: _ModeKind = ...,
 ) -> _ArrayT: ...
# keep in sync with `ma.MaskedArray.repeat`
 @overload
 def repeat(self, repeats: _ArrayLikeInt_co, /, axis: None = None) -> ndarray[tuple[int], _DTypeT_co]: ...
 @overload
 def repeat(self, repeats: _ArrayLikeInt_co, /, axis: SupportsIndex) -> ndarray[_AnyShape, _DTypeT_co]: ...
# keep in sync with `ma.MaskedArray.flatten` and `ma.MaskedArray.ravel`
 def flatten(self, /, order: _OrderKACF = "C") -> ndarray[tuple[int], _DTypeT_co]: ...
 def ravel(self, /, order: _OrderKACF = "C") -> ndarray[tuple[int], _DTypeT_co]: ...
# Keep in sync with `MaskedArray.reshape`
 # NOTE: reshape also accepts negative integers, so we can't use integer literals
 @overload # (None)
 def reshape(self, shape: None, /, *, order: _OrderACF = "C", copy: builtins.bool | None = None) -> Self: ...
 @overload # (empty_sequence)
 def reshape( # type: ignore[overload-overlap] # mypy false positive
 self,
 shape: Sequence[Never],
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[tuple[()], _DTypeT_co]: ...
 @overload # (() | (int) | (int, int) | ....) # up to 8-d
 def reshape(
 self,
 shape: _AnyShapeT,
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[_AnyShapeT, _DTypeT_co]: ...
 @overload # (index)
 def reshape(
 self,
 size1: SupportsIndex,
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[tuple[int], _DTypeT_co]: ...
 @overload # (index, index)
 def reshape(
 self,
 size1: SupportsIndex,
 size2: SupportsIndex,
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[tuple[int, int], _DTypeT_co]: ...
 @overload # (index, index, index)
 def reshape(
 self,
 size1: SupportsIndex,
 size2: SupportsIndex,
 size3: SupportsIndex,
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[tuple[int, int, int], _DTypeT_co]: ...
 @overload # (index, index, index, index)
 def reshape(
 self,
 size1: SupportsIndex,
 size2: SupportsIndex,
 size3: SupportsIndex,
 size4: SupportsIndex,
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[tuple[int, int, int, int], _DTypeT_co]: ...
 @overload # (int, *(index, ...))
 def reshape(
 self,
 size0: SupportsIndex,
 /,
 *shape: SupportsIndex,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[_AnyShape, _DTypeT_co]: ...
 @overload # (sequence[index])
 def reshape(
 self,
 shape: Sequence[SupportsIndex],
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[_AnyShape, _DTypeT_co]: ...
@overload
 def astype(
 self,
 dtype: _DTypeLike[_ScalarT],
 order: _OrderKACF = ...,
 casting: _CastingKind = ...,
 subok: builtins.bool = ...,
 copy: builtins.bool | _CopyMode = ...,
 ) -> ndarray[_ShapeT_co, dtype[_ScalarT]]: ...
 @overload
 def astype(
 self,
 dtype: DTypeLike | None,
 order: _OrderKACF = ...,
 casting: _CastingKind = ...,
 subok: builtins.bool = ...,
 copy: builtins.bool | _CopyMode = ...,
 ) -> ndarray[_ShapeT_co, dtype]: ...
#
 @overload # ()
 def view(self, /) -> Self: ...
 @overload # (dtype: T)
 def view(self, /, dtype: _DTypeT | _HasDType[_DTypeT]) -> ndarray[_ShapeT_co, _DTypeT]: ...
 @overload # (dtype: dtype[T])
 def view(self, /, dtype: _DTypeLike[_ScalarT]) -> ndarray[_ShapeT_co, dtype[_ScalarT]]: ...
 @overload # (type: T)
 def view(self, /, *, type: type[_ArrayT]) -> _ArrayT: ...
 @overload # (_: T)
 def view(self, /, dtype: type[_ArrayT]) -> _ArrayT: ...
 @overload # (dtype: ?)
 def view(self, /, dtype: DTypeLike) -> ndarray[_ShapeT_co, dtype]: ...
 @overload # (dtype: ?, type: T)
 def view(self, /, dtype: DTypeLike, type: type[_ArrayT]) -> _ArrayT: ...
def setfield(self, val: ArrayLike, /, dtype: DTypeLike, offset: SupportsIndex = 0) -> None: ...
 @overload
 def getfield(self, /, dtype: _DTypeLike[_ScalarT], offset: SupportsIndex = 0) -> NDArray[_ScalarT]: ...
 @overload
 def getfield(self, /, dtype: DTypeLike, offset: SupportsIndex = 0) -> NDArray[Any]: ...
def __index__(self: NDArray[integer], /) -> int: ...
 def __complex__(self: NDArray[number | np.bool | object_], /) -> complex: ...
def __len__(self) -> int: ...
 def __contains__(self, value: object, /) -> builtins.bool: ...
# NOTE: This weird `Never` tuple works around a strange mypy issue where it assigns
 # `tuple[int]` to `tuple[Never]` or `tuple[int, int]` to `tuple[Never, Never]`.
 # This way the bug only occurs for 9-D arrays, which are probably not very common.
 @overload
 def __iter__(
 self: ndarray[tuple[Never, Never, Never, Never, Never, Never, Never, Never, Never], Any], /
 ) -> Iterator[Any]: ...
 @overload # == 1-d & dtype[T \ object_]
 def __iter__(self: ndarray[tuple[int], dtype[_NonObjectScalarT]], /) -> Iterator[_NonObjectScalarT]: ...
 @overload # == 1-d & StringDType
 def __iter__(self: ndarray[tuple[int], dtypes.StringDType], /) -> Iterator[str]: ...
 @overload # >= 2-d
 def __iter__(self: ndarray[tuple[int, int, *tuple[int, ...]], _DTypeT], /) -> Iterator[ndarray[_AnyShape, _DTypeT]]: ...
 @overload # ?-d
 def __iter__(self, /) -> Iterator[Any]: ...
#
 @overload
 def __lt__(self: _ArrayNumber_co, other: _ArrayLikeNumber_co, /) -> NDArray[np.bool]: ...
 @overload
 def __lt__(self: _ArrayTD64_co, other: _ArrayLikeTD64_co, /) -> NDArray[np.bool]: ...
 @overload
 def __lt__(self: NDArray[datetime64], other: _ArrayLikeDT64_co, /) -> NDArray[np.bool]: ...
 @overload
 def __lt__(self: NDArray[bytes_], other: _ArrayLikeBytes_co, /) -> NDArray[np.bool]: ...
 @overload
 def __lt__(
 self: ndarray[Any, dtype[str_] | dtypes.StringDType], other: _ArrayLikeStr_co | _ArrayLikeString_co, /
 ) -> NDArray[np.bool]: ...
 @overload
 def __lt__(self: NDArray[object_], other: object, /) -> NDArray[np.bool]: ...
 @overload
 def __lt__(self, other: _ArrayLikeObject_co, /) -> NDArray[np.bool]: ...
#
 @overload
 def __le__(self: _ArrayNumber_co, other: _ArrayLikeNumber_co, /) -> NDArray[np.bool]: ...
 @overload
 def __le__(self: _ArrayTD64_co, other: _ArrayLikeTD64_co, /) -> NDArray[np.bool]: ...
 @overload
 def __le__(self: NDArray[datetime64], other: _ArrayLikeDT64_co, /) -> NDArray[np.bool]: ...
 @overload
 def __le__(self: NDArray[bytes_], other: _ArrayLikeBytes_co, /) -> NDArray[np.bool]: ...
 @overload
 def __le__(
 self: ndarray[Any, dtype[str_] | dtypes.StringDType], other: _ArrayLikeStr_co | _ArrayLikeString_co, /
 ) -> NDArray[np.bool]: ...
 @overload
 def __le__(self: NDArray[object_], other: object, /) -> NDArray[np.bool]: ...
 @overload
 def __le__(self, other: _ArrayLikeObject_co, /) -> NDArray[np.bool]: ...
#
 @overload
 def __gt__(self: _ArrayNumber_co, other: _ArrayLikeNumber_co, /) -> NDArray[np.bool]: ...
 @overload
 def __gt__(self: _ArrayTD64_co, other: _ArrayLikeTD64_co, /) -> NDArray[np.bool]: ...
 @overload
 def __gt__(self: NDArray[datetime64], other: _ArrayLikeDT64_co, /) -> NDArray[np.bool]: ...
 @overload
 def __gt__(self: NDArray[bytes_], other: _ArrayLikeBytes_co, /) -> NDArray[np.bool]: ...
 @overload
 def __gt__(
 self: ndarray[Any, dtype[str_] | dtypes.StringDType], other: _ArrayLikeStr_co | _ArrayLikeString_co, /
 ) -> NDArray[np.bool]: ...
 @overload
 def __gt__(self: NDArray[object_], other: object, /) -> NDArray[np.bool]: ...
 @overload
 def __gt__(self, other: _ArrayLikeObject_co, /) -> NDArray[np.bool]: ...
#
 @overload
 def __ge__(self: _ArrayNumber_co, other: _ArrayLikeNumber_co, /) -> NDArray[np.bool]: ...
 @overload
 def __ge__(self: _ArrayTD64_co, other: _ArrayLikeTD64_co, /) -> NDArray[np.bool]: ...
 @overload
 def __ge__(self: NDArray[datetime64], other: _ArrayLikeDT64_co, /) -> NDArray[np.bool]: ...
 @overload
 def __ge__(self: NDArray[bytes_], other: _ArrayLikeBytes_co, /) -> NDArray[np.bool]: ...
 @overload
 def __ge__(
 self: ndarray[Any, dtype[str_] | dtypes.StringDType], other: _ArrayLikeStr_co | _ArrayLikeString_co, /
 ) -> NDArray[np.bool]: ...
 @overload
 def __ge__(self: NDArray[object_], other: object, /) -> NDArray[np.bool]: ...
 @overload
 def __ge__(self, other: _ArrayLikeObject_co, /) -> NDArray[np.bool]: ...
# Unary ops
# TODO: Uncomment once https://github.com/python/mypy/issues/14070 is fixed
 # @overload
 # def __abs__(self: ndarray[_ShapeT, dtypes.Complex64DType], /) -> ndarray[_ShapeT, dtypes.Float32DType]: ...
 # @overload
 # def __abs__(self: ndarray[_ShapeT, dtypes.Complex128DType], /) -> ndarray[_ShapeT, dtypes.Float64DType]: ...
 # @overload
 # def __abs__(self: ndarray[_ShapeT, dtypes.CLongDoubleDType], /) -> ndarray[_ShapeT, dtypes.LongDoubleDType]: ...
 # @overload
 # def __abs__(self: ndarray[_ShapeT, dtype[complex128]], /) -> ndarray[_ShapeT, dtype[float64]]: ...
 @overload
 def __abs__(self: ndarray[_ShapeT, dtype[complexfloating[_NBit]]], /) -> ndarray[_ShapeT, dtype[floating[_NBit]]]: ...
 @overload
 def __abs__(self: _RealArrayT, /) -> _RealArrayT: ...
def __invert__(self: _IntegralArrayT, /) -> _IntegralArrayT: ... # noqa: PYI019
 def __neg__(self: _NumericArrayT, /) -> _NumericArrayT: ... # noqa: PYI019
 def __pos__(self: _NumericArrayT, /) -> _NumericArrayT: ... # noqa: PYI019
# Binary ops
# TODO: Support the "1d @ 1d -> scalar" case
 @overload
 def __matmul__(self: NDArray[_NumberT], other: _ArrayLikeBool_co, /) -> NDArray[_NumberT]: ...
 @overload
 def __matmul__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ... # type: ignore[overload-overlap]
 @overload
 def __matmul__(self: NDArray[np.bool], other: _ArrayLike[_NumberT], /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __matmul__(self: NDArray[floating[_64Bit]], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __matmul__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __matmul__(self: NDArray[complexfloating[_64Bit]], other: _ArrayLikeComplex128_co, /) -> NDArray[complex128]: ...
 @overload
 def __matmul__(self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], /) -> NDArray[complex128]: ...
 @overload
 def __matmul__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __matmul__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __matmul__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ... # type: ignore[overload-overlap]
 @overload
 def __matmul__(self: _ArrayComplex_co, other: _ArrayLikeComplex_co, /) -> NDArray[complexfloating]: ...
 @overload
 def __matmul__(self: NDArray[number], other: _ArrayLikeNumber_co, /) -> NDArray[number]: ...
 @overload
 def __matmul__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __matmul__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload # signature equivalent to __matmul__
 def __rmatmul__(self: NDArray[_NumberT], other: _ArrayLikeBool_co, /) -> NDArray[_NumberT]: ...
 @overload
 def __rmatmul__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ... # type: ignore[overload-overlap]
 @overload
 def __rmatmul__(self: NDArray[np.bool], other: _ArrayLike[_NumberT], /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __rmatmul__(self: NDArray[floating[_64Bit]], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __rmatmul__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __rmatmul__(self: NDArray[complexfloating[_64Bit]], other: _ArrayLikeComplex128_co, /) -> NDArray[complex128]: ...
 @overload
 def __rmatmul__(self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], /) -> NDArray[complex128]: ...
 @overload
 def __rmatmul__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rmatmul__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rmatmul__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ... # type: ignore[overload-overlap]
 @overload
 def __rmatmul__(self: _ArrayComplex_co, other: _ArrayLikeComplex_co, /) -> NDArray[complexfloating]: ...
 @overload
 def __rmatmul__(self: NDArray[number], other: _ArrayLikeNumber_co, /) -> NDArray[number]: ...
 @overload
 def __rmatmul__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __rmatmul__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload
 def __mod__(self: NDArray[_RealNumberT], other: int | np.bool, /) -> ndarray[_ShapeT_co, dtype[_RealNumberT]]: ...
 @overload
 def __mod__(self: NDArray[_RealNumberT], other: _ArrayLikeBool_co, /) -> NDArray[_RealNumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __mod__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[int8]: ... # type: ignore[overload-overlap]
 @overload
 def __mod__(self: NDArray[np.bool], other: _ArrayLike[_RealNumberT], /) -> NDArray[_RealNumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __mod__(self: NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __mod__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __mod__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __mod__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __mod__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ...
 @overload
 def __mod__(self: NDArray[timedelta64], other: _ArrayLike[timedelta64], /) -> NDArray[timedelta64]: ...
 @overload
 def __mod__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __mod__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload # signature equivalent to __mod__
 def __rmod__(self: NDArray[_RealNumberT], other: int | np.bool, /) -> ndarray[_ShapeT_co, dtype[_RealNumberT]]: ...
 @overload
 def __rmod__(self: NDArray[_RealNumberT], other: _ArrayLikeBool_co, /) -> NDArray[_RealNumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __rmod__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[int8]: ... # type: ignore[overload-overlap]
 @overload
 def __rmod__(self: NDArray[np.bool], other: _ArrayLike[_RealNumberT], /) -> NDArray[_RealNumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __rmod__(self: NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __rmod__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __rmod__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rmod__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rmod__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ...
 @overload
 def __rmod__(self: NDArray[timedelta64], other: _ArrayLike[timedelta64], /) -> NDArray[timedelta64]: ...
 @overload
 def __rmod__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __rmod__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload
 def __divmod__(self: NDArray[_RealNumberT], rhs: int | np.bool, /) -> _2Tuple[ndarray[_ShapeT_co, dtype[_RealNumberT]]]: ...
 @overload
 def __divmod__(self: NDArray[_RealNumberT], rhs: _ArrayLikeBool_co, /) -> _2Tuple[NDArray[_RealNumberT]]: ... # type: ignore[overload-overlap]
 @overload
 def __divmod__(self: NDArray[np.bool], rhs: _ArrayLikeBool_co, /) -> _2Tuple[NDArray[int8]]: ... # type: ignore[overload-overlap]
 @overload
 def __divmod__(self: NDArray[np.bool], rhs: _ArrayLike[_RealNumberT], /) -> _2Tuple[NDArray[_RealNumberT]]: ... # type: ignore[overload-overlap]
 @overload
 def __divmod__(self: NDArray[float64], rhs: _ArrayLikeFloat64_co, /) -> _2Tuple[NDArray[float64]]: ...
 @overload
 def __divmod__(self: _ArrayFloat64_co, rhs: _ArrayLike[floating[_64Bit]], /) -> _2Tuple[NDArray[float64]]: ...
 @overload
 def __divmod__(self: _ArrayUInt_co, rhs: _ArrayLikeUInt_co, /) -> _2Tuple[NDArray[unsignedinteger]]: ... # type: ignore[overload-overlap]
 @overload
 def __divmod__(self: _ArrayInt_co, rhs: _ArrayLikeInt_co, /) -> _2Tuple[NDArray[signedinteger]]: ... # type: ignore[overload-overlap]
 @overload
 def __divmod__(self: _ArrayFloat_co, rhs: _ArrayLikeFloat_co, /) -> _2Tuple[NDArray[floating]]: ...
 @overload
 def __divmod__(self: NDArray[timedelta64], rhs: _ArrayLike[timedelta64], /) -> tuple[NDArray[int64], NDArray[timedelta64]]: ...
@overload # signature equivalent to __divmod__
 def __rdivmod__(self: NDArray[_RealNumberT], lhs: int | np.bool, /) -> _2Tuple[ndarray[_ShapeT_co, dtype[_RealNumberT]]]: ...
 @overload
 def __rdivmod__(self: NDArray[_RealNumberT], lhs: _ArrayLikeBool_co, /) -> _2Tuple[NDArray[_RealNumberT]]: ... # type: ignore[overload-overlap]
 @overload
 def __rdivmod__(self: NDArray[np.bool], lhs: _ArrayLikeBool_co, /) -> _2Tuple[NDArray[int8]]: ... # type: ignore[overload-overlap]
 @overload
 def __rdivmod__(self: NDArray[np.bool], lhs: _ArrayLike[_RealNumberT], /) -> _2Tuple[NDArray[_RealNumberT]]: ... # type: ignore[overload-overlap]
 @overload
 def __rdivmod__(self: NDArray[float64], lhs: _ArrayLikeFloat64_co, /) -> _2Tuple[NDArray[float64]]: ...
 @overload
 def __rdivmod__(self: _ArrayFloat64_co, lhs: _ArrayLike[floating[_64Bit]], /) -> _2Tuple[NDArray[float64]]: ...
 @overload
 def __rdivmod__(self: _ArrayUInt_co, lhs: _ArrayLikeUInt_co, /) -> _2Tuple[NDArray[unsignedinteger]]: ... # type: ignore[overload-overlap]
 @overload
 def __rdivmod__(self: _ArrayInt_co, lhs: _ArrayLikeInt_co, /) -> _2Tuple[NDArray[signedinteger]]: ... # type: ignore[overload-overlap]
 @overload
 def __rdivmod__(self: _ArrayFloat_co, lhs: _ArrayLikeFloat_co, /) -> _2Tuple[NDArray[floating]]: ...
 @overload
 def __rdivmod__(self: NDArray[timedelta64], lhs: _ArrayLike[timedelta64], /) -> tuple[NDArray[int64], NDArray[timedelta64]]: ...
# Keep in sync with `MaskedArray.__add__`
 @overload
 def __add__(self: NDArray[_NumberT], other: int | np.bool, /) -> ndarray[_ShapeT_co, dtype[_NumberT]]: ...
 @overload
 def __add__(self: NDArray[_NumberT], other: _ArrayLikeBool_co, /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __add__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ... # type: ignore[overload-overlap]
 @overload
 def __add__(self: NDArray[np.bool], other: _ArrayLike[_NumberT], /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __add__(self: NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __add__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __add__(self: NDArray[complex128], other: _ArrayLikeComplex128_co, /) -> NDArray[complex128]: ...
 @overload
 def __add__(self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], /) -> NDArray[complex128]: ...
 @overload
 def __add__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __add__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __add__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ... # type: ignore[overload-overlap]
 @overload
 def __add__(self: _ArrayComplex_co, other: _ArrayLikeComplex_co, /) -> NDArray[complexfloating]: ... # type: ignore[overload-overlap]
 @overload
 def __add__(self: NDArray[number], other: _ArrayLikeNumber_co, /) -> NDArray[number]: ... # type: ignore[overload-overlap]
 @overload
 def __add__(self: _ArrayTD64_co, other: _ArrayLikeTD64_co, /) -> NDArray[timedelta64]: ...
 @overload
 def __add__(self: _ArrayTD64_co, other: _ArrayLikeDT64_co, /) -> NDArray[datetime64]: ...
 @overload
 def __add__(self: NDArray[datetime64], other: _ArrayLikeTD64_co, /) -> NDArray[datetime64]: ...
 @overload
 def __add__(self: NDArray[bytes_], other: _ArrayLikeBytes_co, /) -> NDArray[bytes_]: ...
 @overload
 def __add__(self: NDArray[str_], other: _ArrayLikeStr_co, /) -> NDArray[str_]: ...
 @overload
 def __add__(
 self: ndarray[Any, dtypes.StringDType],
 other: _ArrayLikeStr_co | _ArrayLikeString_co,
 /,
 ) -> ndarray[tuple[Any, ...], dtypes.StringDType]: ...
 @overload
 def __add__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __add__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
# Keep in sync with `MaskedArray.__radd__`
 @overload # signature equivalent to __add__
 def __radd__(self: NDArray[_NumberT], other: int | np.bool, /) -> ndarray[_ShapeT_co, dtype[_NumberT]]: ...
 @overload
 def __radd__(self: NDArray[_NumberT], other: _ArrayLikeBool_co, /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __radd__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ... # type: ignore[overload-overlap]
 @overload
 def __radd__(self: NDArray[np.bool], other: _ArrayLike[_NumberT], /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __radd__(self: NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __radd__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __radd__(self: NDArray[complex128], other: _ArrayLikeComplex128_co, /) -> NDArray[complex128]: ...
 @overload
 def __radd__(self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], /) -> NDArray[complex128]: ...
 @overload
 def __radd__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __radd__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __radd__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ... # type: ignore[overload-overlap]
 @overload
 def __radd__(self: _ArrayComplex_co, other: _ArrayLikeComplex_co, /) -> NDArray[complexfloating]: ... # type: ignore[overload-overlap]
 @overload
 def __radd__(self: NDArray[number], other: _ArrayLikeNumber_co, /) -> NDArray[number]: ... # type: ignore[overload-overlap]
 @overload
 def __radd__(self: _ArrayTD64_co, other: _ArrayLikeTD64_co, /) -> NDArray[timedelta64]: ...
 @overload
 def __radd__(self: _ArrayTD64_co, other: _ArrayLikeDT64_co, /) -> NDArray[datetime64]: ...
 @overload
 def __radd__(self: NDArray[datetime64], other: _ArrayLikeTD64_co, /) -> NDArray[datetime64]: ...
 @overload
 def __radd__(self: NDArray[bytes_], other: _ArrayLikeBytes_co, /) -> NDArray[bytes_]: ...
 @overload
 def __radd__(self: NDArray[str_], other: _ArrayLikeStr_co, /) -> NDArray[str_]: ...
 @overload
 def __radd__(
 self: ndarray[Any, dtypes.StringDType],
 other: _ArrayLikeStr_co | _ArrayLikeString_co,
 /,
 ) -> ndarray[tuple[Any, ...], dtypes.StringDType]: ...
 @overload
 def __radd__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __radd__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
# Keep in sync with `MaskedArray.__sub__`
 @overload
 def __sub__(self: NDArray[_NumberT], other: int | np.bool, /) -> ndarray[_ShapeT_co, dtype[_NumberT]]: ...
 @overload
 def __sub__(self: NDArray[_NumberT], other: _ArrayLikeBool_co, /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __sub__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NoReturn: ...
 @overload
 def __sub__(self: NDArray[np.bool], other: _ArrayLike[_NumberT], /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __sub__(self: NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __sub__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __sub__(self: NDArray[complex128], other: _ArrayLikeComplex128_co, /) -> NDArray[complex128]: ...
 @overload
 def __sub__(self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], /) -> NDArray[complex128]: ...
 @overload
 def __sub__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __sub__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __sub__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ... # type: ignore[overload-overlap]
 @overload
 def __sub__(self: _ArrayComplex_co, other: _ArrayLikeComplex_co, /) -> NDArray[complexfloating]: ... # type: ignore[overload-overlap]
 @overload
 def __sub__(self: NDArray[number], other: _ArrayLikeNumber_co, /) -> NDArray[number]: ... # type: ignore[overload-overlap]
 @overload
 def __sub__(self: _ArrayTD64_co, other: _ArrayLikeTD64_co, /) -> NDArray[timedelta64]: ...
 @overload
 def __sub__(self: NDArray[datetime64], other: _ArrayLikeTD64_co, /) -> NDArray[datetime64]: ...
 @overload
 def __sub__(self: NDArray[datetime64], other: _ArrayLikeDT64_co, /) -> NDArray[timedelta64]: ...
 @overload
 def __sub__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __sub__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
# Keep in sync with `MaskedArray.__rsub__`
 @overload
 def __rsub__(self: NDArray[_NumberT], other: int | np.bool, /) -> ndarray[_ShapeT_co, dtype[_NumberT]]: ...
 @overload
 def __rsub__(self: NDArray[_NumberT], other: _ArrayLikeBool_co, /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __rsub__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NoReturn: ...
 @overload
 def __rsub__(self: NDArray[np.bool], other: _ArrayLike[_NumberT], /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __rsub__(self: NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __rsub__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __rsub__(self: NDArray[complex128], other: _ArrayLikeComplex128_co, /) -> NDArray[complex128]: ...
 @overload
 def __rsub__(self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], /) -> NDArray[complex128]: ...
 @overload
 def __rsub__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rsub__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rsub__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ... # type: ignore[overload-overlap]
 @overload
 def __rsub__(self: _ArrayComplex_co, other: _ArrayLikeComplex_co, /) -> NDArray[complexfloating]: ... # type: ignore[overload-overlap]
 @overload
 def __rsub__(self: NDArray[number], other: _ArrayLikeNumber_co, /) -> NDArray[number]: ... # type: ignore[overload-overlap]
 @overload
 def __rsub__(self: _ArrayTD64_co, other: _ArrayLikeTD64_co, /) -> NDArray[timedelta64]: ...
 @overload
 def __rsub__(self: _ArrayTD64_co, other: _ArrayLikeDT64_co, /) -> NDArray[datetime64]: ...
 @overload
 def __rsub__(self: NDArray[datetime64], other: _ArrayLikeDT64_co, /) -> NDArray[timedelta64]: ...
 @overload
 def __rsub__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __rsub__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
# Keep in sync with `MaskedArray.__mul__`
 @overload
 def __mul__(self: NDArray[_NumberT], other: int | np.bool, /) -> ndarray[_ShapeT_co, dtype[_NumberT]]: ...
 @overload
 def __mul__(self: NDArray[_NumberT], other: _ArrayLikeBool_co, /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __mul__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ... # type: ignore[overload-overlap]
 @overload
 def __mul__(self: NDArray[np.bool], other: _ArrayLike[_NumberT], /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __mul__(self: NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __mul__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __mul__(self: NDArray[complex128], other: _ArrayLikeComplex128_co, /) -> NDArray[complex128]: ...
 @overload
 def __mul__(self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], /) -> NDArray[complex128]: ...
 @overload
 def __mul__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __mul__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __mul__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ... # type: ignore[overload-overlap]
 @overload
 def __mul__(self: _ArrayComplex_co, other: _ArrayLikeComplex_co, /) -> NDArray[complexfloating]: ...
 @overload
 def __mul__(self: NDArray[number], other: _ArrayLikeNumber_co, /) -> NDArray[number]: ...
 @overload
 def __mul__(self: NDArray[timedelta64], other: _ArrayLikeFloat_co, /) -> NDArray[timedelta64]: ...
 @overload
 def __mul__(self: _ArrayFloat_co, other: _ArrayLike[timedelta64], /) -> NDArray[timedelta64]: ...
 @overload
 def __mul__(
 self: ndarray[Any, dtype[character] | dtypes.StringDType],
 other: _ArrayLikeInt,
 /,
 ) -> ndarray[tuple[Any, ...], _DTypeT_co]: ...
 @overload
 def __mul__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __mul__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
# Keep in sync with `MaskedArray.__rmul__`
 @overload # signature equivalent to __mul__
 def __rmul__(self: NDArray[_NumberT], other: int | np.bool, /) -> ndarray[_ShapeT_co, dtype[_NumberT]]: ...
 @overload
 def __rmul__(self: NDArray[_NumberT], other: _ArrayLikeBool_co, /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __rmul__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ... # type: ignore[overload-overlap]
 @overload
 def __rmul__(self: NDArray[np.bool], other: _ArrayLike[_NumberT], /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __rmul__(self: NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __rmul__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __rmul__(self: NDArray[complex128], other: _ArrayLikeComplex128_co, /) -> NDArray[complex128]: ...
 @overload
 def __rmul__(self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], /) -> NDArray[complex128]: ...
 @overload
 def __rmul__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rmul__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rmul__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ... # type: ignore[overload-overlap]
 @overload
 def __rmul__(self: _ArrayComplex_co, other: _ArrayLikeComplex_co, /) -> NDArray[complexfloating]: ...
 @overload
 def __rmul__(self: NDArray[number], other: _ArrayLikeNumber_co, /) -> NDArray[number]: ...
 @overload
 def __rmul__(self: NDArray[timedelta64], other: _ArrayLikeFloat_co, /) -> NDArray[timedelta64]: ...
 @overload
 def __rmul__(self: _ArrayFloat_co, other: _ArrayLike[timedelta64], /) -> NDArray[timedelta64]: ...
 @overload
 def __rmul__(
 self: ndarray[Any, dtype[character] | dtypes.StringDType],
 other: _ArrayLikeInt,
 /,
 ) -> ndarray[tuple[Any, ...], _DTypeT_co]: ...
 @overload
 def __rmul__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __rmul__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
# Keep in sync with `MaskedArray.__truediv__`
 @overload
 def __truediv__(self: _ArrayInt_co | NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __truediv__(self: _ArrayFloat64_co, other: _ArrayLikeInt_co | _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __truediv__(self: NDArray[complex128], other: _ArrayLikeComplex128_co, /) -> NDArray[complex128]: ...
 @overload
 def __truediv__(self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], /) -> NDArray[complex128]: ...
 @overload
 def __truediv__(self: NDArray[floating], other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ...
 @overload
 def __truediv__(self: _ArrayFloat_co, other: _ArrayLike[floating], /) -> NDArray[floating]: ...
 @overload
 def __truediv__(self: NDArray[complexfloating], other: _ArrayLikeNumber_co, /) -> NDArray[complexfloating]: ...
 @overload
 def __truediv__(self: _ArrayNumber_co, other: _ArrayLike[complexfloating], /) -> NDArray[complexfloating]: ...
 @overload
 def __truediv__(self: NDArray[inexact], other: _ArrayLikeNumber_co, /) -> NDArray[inexact]: ...
 @overload
 def __truediv__(self: NDArray[number], other: _ArrayLikeNumber_co, /) -> NDArray[number]: ...
 @overload
 def __truediv__(self: NDArray[timedelta64], other: _ArrayLike[timedelta64], /) -> NDArray[float64]: ...
 @overload
 def __truediv__(self: NDArray[timedelta64], other: _ArrayLikeBool_co, /) -> NoReturn: ...
 @overload
 def __truediv__(self: NDArray[timedelta64], other: _ArrayLikeFloat_co, /) -> NDArray[timedelta64]: ...
 @overload
 def __truediv__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __truediv__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
# Keep in sync with `MaskedArray.__rtruediv__`
 @overload
 def __rtruediv__(self: _ArrayInt_co | NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __rtruediv__(self: _ArrayFloat64_co, other: _ArrayLikeInt_co | _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __rtruediv__(self: NDArray[complex128], other: _ArrayLikeComplex128_co, /) -> NDArray[complex128]: ...
 @overload
 def __rtruediv__(self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], /) -> NDArray[complex128]: ...
 @overload
 def __rtruediv__(self: NDArray[floating], other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ...
 @overload
 def __rtruediv__(self: _ArrayFloat_co, other: _ArrayLike[floating], /) -> NDArray[floating]: ...
 @overload
 def __rtruediv__(self: NDArray[complexfloating], other: _ArrayLikeNumber_co, /) -> NDArray[complexfloating]: ...
 @overload
 def __rtruediv__(self: _ArrayNumber_co, other: _ArrayLike[complexfloating], /) -> NDArray[complexfloating]: ...
 @overload
 def __rtruediv__(self: NDArray[inexact], other: _ArrayLikeNumber_co, /) -> NDArray[inexact]: ...
 @overload
 def __rtruediv__(self: NDArray[number], other: _ArrayLikeNumber_co, /) -> NDArray[number]: ...
 @overload
 def __rtruediv__(self: NDArray[timedelta64], other: _ArrayLike[timedelta64], /) -> NDArray[float64]: ...
 @overload
 def __rtruediv__(self: NDArray[integer | floating], other: _ArrayLike[timedelta64], /) -> NDArray[timedelta64]: ...
 @overload
 def __rtruediv__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __rtruediv__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
# Keep in sync with `MaskedArray.__floordiv__`
 @overload
 def __floordiv__(self: NDArray[_RealNumberT], other: int | np.bool, /) -> ndarray[_ShapeT_co, dtype[_RealNumberT]]: ...
 @overload
 def __floordiv__(self: NDArray[_RealNumberT], other: _ArrayLikeBool_co, /) -> NDArray[_RealNumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __floordiv__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[int8]: ... # type: ignore[overload-overlap]
 @overload
 def __floordiv__(self: NDArray[np.bool], other: _ArrayLike[_RealNumberT], /) -> NDArray[_RealNumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __floordiv__(self: NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __floordiv__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __floordiv__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __floordiv__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __floordiv__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ...
 @overload
 def __floordiv__(self: NDArray[timedelta64], other: _ArrayLike[timedelta64], /) -> NDArray[int64]: ...
 @overload
 def __floordiv__(self: NDArray[timedelta64], other: _ArrayLikeBool_co, /) -> NoReturn: ...
 @overload
 def __floordiv__(self: NDArray[timedelta64], other: _ArrayLikeFloat_co, /) -> NDArray[timedelta64]: ...
 @overload
 def __floordiv__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __floordiv__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
# Keep in sync with `MaskedArray.__rfloordiv__`
 @overload
 def __rfloordiv__(self: NDArray[_RealNumberT], other: int | np.bool, /) -> ndarray[_ShapeT_co, dtype[_RealNumberT]]: ...
 @overload
 def __rfloordiv__(self: NDArray[_RealNumberT], other: _ArrayLikeBool_co, /) -> NDArray[_RealNumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __rfloordiv__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[int8]: ... # type: ignore[overload-overlap]
 @overload
 def __rfloordiv__(self: NDArray[np.bool], other: _ArrayLike[_RealNumberT], /) -> NDArray[_RealNumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __rfloordiv__(self: NDArray[float64], other: _ArrayLikeFloat64_co, /) -> NDArray[float64]: ...
 @overload
 def __rfloordiv__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], /) -> NDArray[float64]: ...
 @overload
 def __rfloordiv__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rfloordiv__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rfloordiv__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, /) -> NDArray[floating]: ...
 @overload
 def __rfloordiv__(self: NDArray[timedelta64], other: _ArrayLike[timedelta64], /) -> NDArray[int64]: ...
 @overload
 def __rfloordiv__(self: NDArray[floating | integer], other: _ArrayLike[timedelta64], /) -> NDArray[timedelta64]: ...
 @overload
 def __rfloordiv__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __rfloordiv__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
# Keep in sync with `MaskedArray.__pow__`
 @overload
 def __pow__(self: NDArray[_NumberT], other: int | np.bool, mod: None = None, /) -> ndarray[_ShapeT_co, dtype[_NumberT]]: ...
 @overload
 def __pow__(self: NDArray[_NumberT], other: _ArrayLikeBool_co, mod: None = None, /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __pow__(self: NDArray[np.bool], other: _ArrayLikeBool_co, mod: None = None, /) -> NDArray[int8]: ... # type: ignore[overload-overlap]
 @overload
 def __pow__(self: NDArray[np.bool], other: _ArrayLike[_NumberT], mod: None = None, /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __pow__(self: NDArray[float64], other: _ArrayLikeFloat64_co, mod: None = None, /) -> NDArray[float64]: ...
 @overload
 def __pow__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], mod: None = None, /) -> NDArray[float64]: ...
 @overload
 def __pow__(self: NDArray[complex128], other: _ArrayLikeComplex128_co, mod: None = None, /) -> NDArray[complex128]: ...
 @overload
 def __pow__(
 self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], mod: None = None, /
 ) -> NDArray[complex128]: ...
 @overload
 def __pow__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, mod: None = None, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __pow__(self: _ArrayInt_co, other: _ArrayLikeInt_co, mod: None = None, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __pow__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, mod: None = None, /) -> NDArray[floating]: ... # type: ignore[overload-overlap]
 @overload
 def __pow__(self: _ArrayComplex_co, other: _ArrayLikeComplex_co, mod: None = None, /) -> NDArray[complexfloating]: ...
 @overload
 def __pow__(self: NDArray[number], other: _ArrayLikeNumber_co, mod: None = None, /) -> NDArray[number]: ...
 @overload
 def __pow__(self: NDArray[object_], other: Any, mod: None = None, /) -> Any: ...
 @overload
 def __pow__(self: NDArray[Any], other: _ArrayLikeObject_co, mod: None = None, /) -> Any: ...
# Keep in sync with `MaskedArray.__rpow__`
 @overload
 def __rpow__(self: NDArray[_NumberT], other: int | np.bool, mod: None = None, /) -> ndarray[_ShapeT_co, dtype[_NumberT]]: ...
 @overload
 def __rpow__(self: NDArray[_NumberT], other: _ArrayLikeBool_co, mod: None = None, /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __rpow__(self: NDArray[np.bool], other: _ArrayLikeBool_co, mod: None = None, /) -> NDArray[int8]: ... # type: ignore[overload-overlap]
 @overload
 def __rpow__(self: NDArray[np.bool], other: _ArrayLike[_NumberT], mod: None = None, /) -> NDArray[_NumberT]: ... # type: ignore[overload-overlap]
 @overload
 def __rpow__(self: NDArray[float64], other: _ArrayLikeFloat64_co, mod: None = None, /) -> NDArray[float64]: ...
 @overload
 def __rpow__(self: _ArrayFloat64_co, other: _ArrayLike[floating[_64Bit]], mod: None = None, /) -> NDArray[float64]: ...
 @overload
 def __rpow__(self: NDArray[complex128], other: _ArrayLikeComplex128_co, mod: None = None, /) -> NDArray[complex128]: ...
 @overload
 def __rpow__(
 self: _ArrayComplex128_co, other: _ArrayLike[complexfloating[_64Bit]], mod: None = None, /
 ) -> NDArray[complex128]: ...
 @overload
 def __rpow__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, mod: None = None, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rpow__(self: _ArrayInt_co, other: _ArrayLikeInt_co, mod: None = None, /) -> NDArray[signedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rpow__(self: _ArrayFloat_co, other: _ArrayLikeFloat_co, mod: None = None, /) -> NDArray[floating]: ... # type: ignore[overload-overlap]
 @overload
 def __rpow__(self: _ArrayComplex_co, other: _ArrayLikeComplex_co, mod: None = None, /) -> NDArray[complexfloating]: ...
 @overload
 def __rpow__(self: NDArray[number], other: _ArrayLikeNumber_co, mod: None = None, /) -> NDArray[number]: ...
 @overload
 def __rpow__(self: NDArray[object_], other: Any, mod: None = None, /) -> Any: ...
 @overload
 def __rpow__(self: NDArray[Any], other: _ArrayLikeObject_co, mod: None = None, /) -> Any: ...
@overload
 def __lshift__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[int8]: ...
 @overload
 def __lshift__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __lshift__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ...
 @overload
 def __lshift__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __lshift__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload
 def __rlshift__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[int8]: ...
 @overload
 def __rlshift__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rlshift__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ...
 @overload
 def __rlshift__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __rlshift__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload
 def __rshift__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[int8]: ...
 @overload
 def __rshift__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rshift__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ...
 @overload
 def __rshift__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __rshift__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload
 def __rrshift__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[int8]: ...
 @overload
 def __rrshift__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rrshift__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ...
 @overload
 def __rrshift__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __rrshift__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload
 def __and__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ...
 @overload
 def __and__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __and__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ...
 @overload
 def __and__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __and__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload
 def __rand__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ...
 @overload
 def __rand__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rand__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ...
 @overload
 def __rand__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __rand__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload
 def __xor__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ...
 @overload
 def __xor__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __xor__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ...
 @overload
 def __xor__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __xor__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload
 def __rxor__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ...
 @overload
 def __rxor__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __rxor__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ...
 @overload
 def __rxor__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __rxor__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload
 def __or__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ...
 @overload
 def __or__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __or__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ...
 @overload
 def __or__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __or__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
@overload
 def __ror__(self: NDArray[np.bool], other: _ArrayLikeBool_co, /) -> NDArray[np.bool]: ...
 @overload
 def __ror__(self: _ArrayUInt_co, other: _ArrayLikeUInt_co, /) -> NDArray[unsignedinteger]: ... # type: ignore[overload-overlap]
 @overload
 def __ror__(self: _ArrayInt_co, other: _ArrayLikeInt_co, /) -> NDArray[signedinteger]: ...
 @overload
 def __ror__(self: NDArray[object_], other: Any, /) -> Any: ...
 @overload
 def __ror__(self: NDArray[Any], other: _ArrayLikeObject_co, /) -> Any: ...
# `np.generic` does not support inplace operations
# NOTE: Inplace ops generally use "same_kind" casting w.r.t. to the left
 # operand. An exception to this rule are unsigned integers though, which
 # also accepts a signed integer for the right operand as long it is a 0D
 # object and its value is >= 0
 # NOTE: Due to a mypy bug, overloading on e.g. `self: NDArray[SCT_floating]` won't
 # work, as this will lead to `false negatives` when using these inplace ops.
# +=
 @overload # type: ignore[misc]
 def __iadd__(self: _BoolArrayT, other: _ArrayLikeBool_co, /) -> _BoolArrayT: ...
 @overload
 def __iadd__(self: _ComplexFloatingArrayT, other: _ArrayLikeComplex_co, /) -> _ComplexFloatingArrayT: ...
 @overload
 def __iadd__(self: _InexactArrayT, other: _ArrayLikeFloat_co, /) -> _InexactArrayT: ...
 @overload
 def __iadd__(self: _NumberArrayT, other: _ArrayLikeInt_co, /) -> _NumberArrayT: ...
 @overload
 def __iadd__(self: _TimeArrayT, other: _ArrayLikeTD64_co, /) -> _TimeArrayT: ...
 @overload
 def __iadd__(self: _BytesArrayT, other: _ArrayLikeBytes_co, /) -> _BytesArrayT: ...
 @overload
 def __iadd__(self: _StringArrayT, other: _ArrayLikeStr_co | _ArrayLikeString_co, /) -> _StringArrayT: ...
 @overload
 def __iadd__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# -=
 @overload # type: ignore[misc]
 def __isub__(self: _ComplexFloatingArrayT, other: _ArrayLikeComplex_co, /) -> _ComplexFloatingArrayT: ...
 @overload
 def __isub__(self: _InexactArrayT, other: _ArrayLikeFloat_co, /) -> _InexactArrayT: ...
 @overload
 def __isub__(self: _NumberArrayT, other: _ArrayLikeInt_co, /) -> _NumberArrayT: ...
 @overload
 def __isub__(self: _TimeArrayT, other: _ArrayLikeTD64_co, /) -> _TimeArrayT: ...
 @overload
 def __isub__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# *=
 @overload # type: ignore[misc]
 def __imul__(self: _BoolArrayT, other: _ArrayLikeBool_co, /) -> _BoolArrayT: ...
 @overload
 def __imul__(self: _ComplexFloatingArrayT, other: _ArrayLikeComplex_co, /) -> _ComplexFloatingArrayT: ...
 @overload
 def __imul__(self: _InexactTimedeltaArrayT, other: _ArrayLikeFloat_co, /) -> _InexactTimedeltaArrayT: ...
 @overload
 def __imul__(self: _NumberCharacterArrayT, other: _ArrayLikeInt_co, /) -> _NumberCharacterArrayT: ...
 @overload
 def __imul__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# @=
 @overload # type: ignore[misc]
 def __imatmul__(self: _BoolArrayT, other: _ArrayLikeBool_co, /) -> _BoolArrayT: ...
 @overload
 def __imatmul__(self: _ComplexFloatingArrayT, other: _ArrayLikeComplex_co, /) -> _ComplexFloatingArrayT: ...
 @overload
 def __imatmul__(self: _InexactArrayT, other: _ArrayLikeFloat_co, /) -> _InexactArrayT: ...
 @overload
 def __imatmul__(self: _NumberArrayT, other: _ArrayLikeInt_co, /) -> _NumberArrayT: ...
 @overload
 def __imatmul__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# **=
 @overload # type: ignore[misc]
 def __ipow__(self: _ComplexFloatingArrayT, other: _ArrayLikeComplex_co, /) -> _ComplexFloatingArrayT: ...
 @overload
 def __ipow__(self: _InexactArrayT, other: _ArrayLikeFloat_co, /) -> _InexactArrayT: ...
 @overload
 def __ipow__(self: _NumberArrayT, other: _ArrayLikeInt_co, /) -> _NumberArrayT: ...
 @overload
 def __ipow__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# /=
 @overload # type: ignore[misc]
 def __itruediv__(self: _ComplexFloatingArrayT, other: _ArrayLikeComplex_co, /) -> _ComplexFloatingArrayT: ...
 @overload
 def __itruediv__(self: _InexactTimedeltaArrayT, other: _ArrayLikeFloat_co, /) -> _InexactTimedeltaArrayT: ...
 @overload
 def __itruediv__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# //=
 # keep in sync with `__imod__`
 @overload # type: ignore[misc]
 def __ifloordiv__(self: _IntegerArrayT, other: _ArrayLikeInt_co, /) -> _IntegerArrayT: ...
 @overload
 def __ifloordiv__(self: _FloatingTimedeltaArrayT, other: _ArrayLikeFloat_co, /) -> _FloatingTimedeltaArrayT: ...
 @overload
 def __ifloordiv__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# %=
 # keep in sync with `__ifloordiv__`
 @overload # type: ignore[misc]
 def __imod__(self: _IntegerArrayT, other: _ArrayLikeInt_co, /) -> _IntegerArrayT: ...
 @overload
 def __imod__(self: _FloatingArrayT, other: _ArrayLikeFloat_co, /) -> _FloatingArrayT: ...
 @overload
 def __imod__(self: _TimedeltaArrayT, other: _ArrayLike[timedelta64], /) -> _TimedeltaArrayT: ...
 @overload
 def __imod__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# <<=
 # keep in sync with `__irshift__`
 @overload # type: ignore[misc]
 def __ilshift__(self: _IntegerArrayT, other: _ArrayLikeInt_co, /) -> _IntegerArrayT: ...
 @overload
 def __ilshift__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# >>=
 # keep in sync with `__ilshift__`
 @overload # type: ignore[misc]
 def __irshift__(self: _IntegerArrayT, other: _ArrayLikeInt_co, /) -> _IntegerArrayT: ...
 @overload
 def __irshift__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# &=
 # keep in sync with `__ixor__` and `__ior__`
 @overload # type: ignore[misc]
 def __iand__(self: _BoolArrayT, other: _ArrayLikeBool_co, /) -> _BoolArrayT: ...
 @overload
 def __iand__(self: _IntegerArrayT, other: _ArrayLikeInt_co, /) -> _IntegerArrayT: ...
 @overload
 def __iand__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# ^=
 # keep in sync with `__iand__` and `__ior__`
 @overload # type: ignore[misc]
 def __ixor__(self: _BoolArrayT, other: _ArrayLikeBool_co, /) -> _BoolArrayT: ...
 @overload
 def __ixor__(self: _IntegerArrayT, other: _ArrayLikeInt_co, /) -> _IntegerArrayT: ...
 @overload
 def __ixor__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
# |=
 # keep in sync with `__iand__` and `__ixor__`
 @overload # type: ignore[misc]
 def __ior__(self: _BoolArrayT, other: _ArrayLikeBool_co, /) -> _BoolArrayT: ...
 @overload
 def __ior__(self: _IntegerArrayT, other: _ArrayLikeInt_co, /) -> _IntegerArrayT: ...
 @overload
 def __ior__(self: _ObjectArrayT, other: object, /) -> _ObjectArrayT: ...
#
 def __dlpack__(
 self: NDArray[number],
 /,
 *,
 stream: int | Any | None = None,
 max_version: tuple[int, int] | None = None,
 dl_device: tuple[int, int] | None = None,
 copy: builtins.bool | None = None,
 ) -> CapsuleType: ...
 def __dlpack_device__(self, /) -> tuple[L[1], L[0]]: ...
# Keep `dtype` at the bottom to avoid name conflicts with `np.dtype`
 @property
 def dtype(self) -> _DTypeT_co: ...
# NOTE: while `np.generic` is not technically an instance of `ABCMeta`,
# the `@abstractmethod` decorator is herein used to (forcefully) deny
# the creation of `np.generic` instances.
# The `# type: ignore` comments are necessary to silence mypy errors regarding
# the missing `ABCMeta` metaclass.
# See https://github.com/numpy/numpy-stubs/pull/80 for more details.
class generic(_ArrayOrScalarCommon, Generic[_ItemT_co]):
 @abstractmethod
 def __new__(cls, /, *args: Any, **kwargs: Any) -> Self: ...
# NOTE: Technically this doesn't exist at runtime, but it is unlikely to lead to
 # type-unsafe situations (the abstract scalar types cannot be instantiated
 # themselves) and is convenient to have, so we include it regardless. See
 # https://github.com/numpy/numpy/issues/30445 for use-cases and discussion.
 def __hash__(self, /) -> int: ...
if sys.version_info >= (3, 12):
 def __buffer__(self, flags: int, /) -> memoryview: ...
@overload
 def __array__(self, dtype: None = None, /) -> ndarray[tuple[()], dtype[Self]]: ...
 @overload
 def __array__(self, dtype: _DTypeT, /) -> ndarray[tuple[()], _DTypeT]: ...
@overload
 def __array_wrap__(
 self,
 array: ndarray[_ShapeT, _DTypeT],
 context: tuple[ufunc, tuple[object, ...], int] | None,
 return_scalar: L[False],
 /,
 ) -> ndarray[_ShapeT, _DTypeT]: ...
 @overload
 def __array_wrap__(
 self,
 array: ndarray[tuple[()], dtype[_ScalarT]],
 context: tuple[ufunc, tuple[object, ...], int] | None = None,
 return_scalar: L[True] = True,
 /,
 ) -> _ScalarT: ...
 @overload
 def __array_wrap__(
 self,
 array: ndarray[_Shape1T, _DTypeT],
 context: tuple[ufunc, tuple[object, ...], int] | None = None,
 return_scalar: L[True] = True,
 /,
 ) -> ndarray[_Shape1T, _DTypeT]: ...
 @overload
 def __array_wrap__(
 self,
 array: ndarray[_ShapeT, dtype[_ScalarT]],
 context: tuple[ufunc, tuple[object, ...], int] | None = None,
 return_scalar: L[True] = True,
 /,
 ) -> _ScalarT | ndarray[_ShapeT, dtype[_ScalarT]]: ...
@property
 def base(self) -> None: ...
 @property
 def ndim(self) -> L[0]: ...
 @property
 def size(self) -> L[1]: ...
 @property
 def shape(self) -> tuple[()]: ...
 @property
 def strides(self) -> tuple[()]: ...
 @property
 def flat(self) -> flatiter[ndarray[tuple[int], dtype[Self]]]: ...
@overload
 def item(self, /) -> _ItemT_co: ...
 @overload
 def item(self, arg0: L[0, -1] | tuple[L[0, -1]] | tuple[()] = ..., /) -> _ItemT_co: ...
 @override
 def tolist(self, /) -> _ItemT_co: ...
# NOTE: these technically exist, but will always raise when called
 def trace( # type: ignore[misc]
 self: Never,
 /,
 offset: L[0] = 0,
 axis1: L[0] = 0,
 axis2: L[1] = 1,
 dtype: None = None,
 out: None = None,
 ) -> Never: ...
 def diagonal(self: Never, /, offset: L[0] = 0, axis1: L[0] = 0, axis2: L[1] = 1) -> Never: ... # type: ignore[misc]
 def swapaxes(self: Never, axis1: Never, axis2: Never, /) -> Never: ... # type: ignore[misc]
 def sort(self: Never, /, axis: L[-1] = -1, kind: None = None, order: None = None, *, stable: None = None) -> Never: ... # type: ignore[misc]
 def nonzero(self: Never, /) -> Never: ... # type: ignore[misc]
 def setfield(self: Never, val: Never, /, dtype: Never, offset: L[0] = 0) -> None: ... # type: ignore[misc]
 def searchsorted(self: Never, v: Never, /, side: L["left"] = "left", sorter: None = None) -> Never: ... # type: ignore[misc]
# NOTE: this wont't raise, but won't do anything either
 @overload
 def resize(self, /, *, refcheck: builtins.bool = True) -> None: ...
 @overload
 def resize(self, new_shape: L[0, -1] | tuple[L[0, -1]] | tuple[()], /, *, refcheck: builtins.bool = True) -> None: ...
#
 def byteswap(self, /, inplace: L[False] = False) -> Self: ...
#
 @overload
 def astype(
 self,
 /,
 dtype: _DTypeLike[_ScalarT],
 order: _OrderKACF = "K",
 casting: _CastingKind = "unsafe",
 subok: builtins.bool = True,
 copy: builtins.bool | _CopyMode = True,
 ) -> _ScalarT: ...
 @overload
 def astype(
 self,
 /,
 dtype: DTypeLike | None,
 order: _OrderKACF = "K",
 casting: _CastingKind = "unsafe",
 subok: builtins.bool = True,
 copy: builtins.bool | _CopyMode = True,
 ) -> Incomplete: ...
# NOTE: `view` will perform a 0D->scalar cast,
 # thus the array `type` is irrelevant to the output type
 @overload
 def view(self, type: type[ndarray] = ...) -> Self: ...
 @overload
 def view(self, /, dtype: _DTypeLike[_ScalarT], type: type[ndarray] = ...) -> _ScalarT: ...
 @overload
 def view(self, /, dtype: DTypeLike, type: type[ndarray] = ...) -> Incomplete: ...
@overload
 def getfield(self, /, dtype: _DTypeLike[_ScalarT], offset: SupportsIndex = 0) -> _ScalarT: ...
 @overload
 def getfield(self, /, dtype: DTypeLike, offset: SupportsIndex = 0) -> Incomplete: ...
@overload
 def take(
 self,
 indices: _IntLike_co,
 /,
 axis: SupportsIndex | None = None,
 out: None = None,
 mode: _ModeKind = "raise",
 ) -> Self: ...
 @overload
 def take(
 self,
 indices: _ArrayLikeInt_co,
 /,
 axis: SupportsIndex | None = None,
 out: None = None,
 mode: _ModeKind = "raise",
 ) -> NDArray[Self]: ...
 @overload
 def take(
 self,
 indices: _ArrayLikeInt_co,
 /,
 axis: SupportsIndex | None = None,
 *,
 out: _ArrayT,
 mode: _ModeKind = "raise",
 ) -> _ArrayT: ...
 @overload
 def take(
 self,
 indices: _ArrayLikeInt_co,
 /,
 axis: SupportsIndex | None,
 out: _ArrayT,
 mode: _ModeKind = "raise",
 ) -> _ArrayT: ...
def repeat(self, repeats: _ArrayLikeInt_co, /, axis: SupportsIndex | None = None) -> ndarray[tuple[int], dtype[Self]]: ...
 def flatten(self, /, order: _OrderKACF = "C") -> ndarray[tuple[int], dtype[Self]]: ...
 def ravel(self, /, order: _OrderKACF = "C") -> ndarray[tuple[int], dtype[Self]]: ...
@overload # (() | [])
 def reshape(
 self,
 shape: tuple[()] | list[Never],
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> Self: ...
 @overload # ((1, *(1, ...))@_ShapeT)
 def reshape(
 self,
 shape: _1NShapeT,
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[_1NShapeT, dtype[Self]]: ...
 @overload # (Sequence[index, ...]) # not recommended
 def reshape(
 self,
 shape: Sequence[SupportsIndex],
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> Self | ndarray[tuple[L[1], ...], dtype[Self]]: ...
 @overload # _(index)
 def reshape(
 self,
 size1: SupportsIndex,
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[tuple[L[1]], dtype[Self]]: ...
 @overload # _(index, index)
 def reshape(
 self,
 size1: SupportsIndex,
 size2: SupportsIndex,
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[tuple[L[1], L[1]], dtype[Self]]: ...
 @overload # _(index, index, index)
 def reshape(
 self,
 size1: SupportsIndex,
 size2: SupportsIndex,
 size3: SupportsIndex,
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[tuple[L[1], L[1], L[1]], dtype[Self]]: ...
 @overload # _(index, index, index, index)
 def reshape(
 self,
 size1: SupportsIndex,
 size2: SupportsIndex,
 size3: SupportsIndex,
 size4: SupportsIndex,
 /,
 *,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[tuple[L[1], L[1], L[1], L[1]], dtype[Self]]: ...
 @overload # _(index, index, index, index, index, *index) # ndim >= 5
 def reshape(
 self,
 size1: SupportsIndex,
 size2: SupportsIndex,
 size3: SupportsIndex,
 size4: SupportsIndex,
 size5: SupportsIndex,
 /,
 *sizes6_: SupportsIndex,
 order: _OrderACF = "C",
 copy: builtins.bool | None = None,
 ) -> ndarray[tuple[L[1], L[1], L[1], L[1], L[1], *tuple[L[1], ...]], dtype[Self]]: ...
def squeeze(self, axis: L[0] | tuple[()] | None = ...) -> Self: ...
 def transpose(self, axes: tuple[()] | None = ..., /) -> Self: ...
@overload
 def all(
 self,
 /,
 axis: L[0, -1] | tuple[()] | None = None,
 out: None = None,
 keepdims: SupportsIndex = False,
 *,
 where: builtins.bool | np.bool | ndarray[tuple[()], dtype[np.bool]] = True
 ) -> np.bool: ...
 @overload
 def all(
 self,
 /,
 axis: L[0, -1] | tuple[()] | None,
 out: ndarray[tuple[()], dtype[_ScalarT]],
 keepdims: SupportsIndex = False,
 *,
 where: builtins.bool | np.bool | ndarray[tuple[()], dtype[np.bool]] = True,
 ) -> _ScalarT: ...
 @overload
 def all(
 self,
 /,
 axis: L[0, -1] | tuple[()] | None = None,
 *,
 out: ndarray[tuple[()], dtype[_ScalarT]],
 keepdims: SupportsIndex = False,
 where: builtins.bool | np.bool | ndarray[tuple[()], dtype[np.bool]] = True,
 ) -> _ScalarT: ...
@overload
 def any(
 self,
 /,
 axis: L[0, -1] | tuple[()] | None = None,
 out: None = None,
 keepdims: SupportsIndex = False,
 *,
 where: builtins.bool | np.bool | ndarray[tuple[()], dtype[np.bool]] = True
 ) -> np.bool: ...
 @overload
 def any(
 self,
 /,
 axis: L[0, -1] | tuple[()] | None,
 out: ndarray[tuple[()], dtype[_ScalarT]],
 keepdims: SupportsIndex = False,
 *,
 where: builtins.bool | np.bool | ndarray[tuple[()], dtype[np.bool]] = True,
 ) -> _ScalarT: ...
 @overload
 def any(
 self,
 /,
 axis: L[0, -1] | tuple[()] | None = None,
 *,
 out: ndarray[tuple[()], dtype[_ScalarT]],
 keepdims: SupportsIndex = False,
 where: builtins.bool | np.bool | ndarray[tuple[()], dtype[np.bool]] = True,
 ) -> _ScalarT: ...
# Keep `dtype` at the bottom to avoid name conflicts with `np.dtype`
 @property
 def dtype(self) -> _dtype[Self]: ...
class number(generic[_NumberItemT_co], Generic[_NBit, _NumberItemT_co]):
 @abstractmethod # `SupportsIndex | str | bytes` equivs `_ConvertibleToInt & _ConvertibleToFloat`
 def __new__(cls, value: SupportsIndex | str | bytes = 0, /) -> Self: ...
 def __class_getitem__(cls, item: Any, /) -> GenericAlias: ...
def __neg__(self) -> Self: ...
 def __pos__(self) -> Self: ...
 def __abs__(self) -> Self: ...
def __add__(self, other: _NumberLike_co, /) -> Incomplete: ...
 def __radd__(self, other: _NumberLike_co, /) -> Incomplete: ...
 def __sub__(self, other: _NumberLike_co, /) -> Incomplete: ...
 def __rsub__(self, other: _NumberLike_co, /) -> Incomplete: ...
 def __mul__(self, other: _NumberLike_co, /) -> Incomplete: ...
 def __rmul__(self, other: _NumberLike_co, /) -> Incomplete: ...
 def __pow__(self, other: _NumberLike_co, mod: None = None, /) -> Incomplete: ...
 def __rpow__(self, other: _NumberLike_co, mod: None = None, /) -> Incomplete: ...
 def __truediv__(self, other: _NumberLike_co, /) -> Incomplete: ...
 def __rtruediv__(self, other: _NumberLike_co, /) -> Incomplete: ...
@overload
 def __lt__(self, other: _NumberLike_co, /) -> bool_: ...
 @overload
 def __lt__(self, other: _ArrayLikeNumber_co | _NestedSequence[_SupportsGT], /) -> NDArray[bool_]: ...
 @overload
 def __lt__(self, other: _SupportsGT, /) -> bool_: ...
@overload
 def __le__(self, other: _NumberLike_co, /) -> bool_: ...
 @overload
 def __le__(self, other: _ArrayLikeNumber_co | _NestedSequence[_SupportsGE], /) -> NDArray[bool_]: ...
 @overload
 def __le__(self, other: _SupportsGE, /) -> bool_: ...
@overload
 def __gt__(self, other: _NumberLike_co, /) -> bool_: ...
 @overload
 def __gt__(self, other: _ArrayLikeNumber_co | _NestedSequence[_SupportsLT], /) -> NDArray[bool_]: ...
 @overload
 def __gt__(self, other: _SupportsLT, /) -> bool_: ...
@overload
 def __ge__(self, other: _NumberLike_co, /) -> bool_: ...
 @overload
 def __ge__(self, other: _ArrayLikeNumber_co | _NestedSequence[_SupportsLE], /) -> NDArray[bool_]: ...
 @overload
 def __ge__(self, other: _SupportsLE, /) -> bool_: ...
class bool(generic[_BoolItemT_co], Generic[_BoolItemT_co]):
 @property
 def itemsize(self) -> L[1]: ...
 @property
 def nbytes(self) -> L[1]: ...
 @property
 def real(self) -> Self: ...
 @property
 def imag(self) -> np.bool[L[False]]: ...
@overload # mypy bug workaround: https://github.com/numpy/numpy/issues/29245
 def __new__(cls, value: Never, /) -> np.bool[builtins.bool]: ...
 @overload
 def __new__(cls, value: _Falsy = ..., /) -> np.bool[L[False]]: ...
 @overload
 def __new__(cls, value: _Truthy, /) -> np.bool[L[True]]: ...
 @overload
 def __new__(cls, value: object, /) -> np.bool[builtins.bool]: ...
def __class_getitem__(cls, type_arg: type | object, /) -> GenericAlias: ...
def __bool__(self, /) -> _BoolItemT_co: ...
@overload
 def __int__(self: np.bool[L[False]], /) -> L[0]: ...
 @overload
 def __int__(self: np.bool[L[True]], /) -> L[1]: ...
 @overload
 def __int__(self, /) -> L[0, 1]: ...
def __abs__(self) -> Self: ...
@overload
 def __invert__(self: np.bool[L[False]], /) -> np.bool[L[True]]: ...
 @overload
 def __invert__(self: np.bool[L[True]], /) -> np.bool[L[False]]: ...
 @overload
 def __invert__(self, /) -> np.bool: ...
@overload
 def __add__(self, other: _NumberT, /) -> _NumberT: ...
 @overload
 def __add__(self, other: builtins.bool | bool_, /) -> bool_: ...
 @overload
 def __add__(self, other: int, /) -> int_: ...
 @overload
 def __add__(self, other: float, /) -> float64: ...
 @overload
 def __add__(self, other: complex, /) -> complex128: ...
@overload
 def __radd__(self, other: _NumberT, /) -> _NumberT: ...
 @overload
 def __radd__(self, other: builtins.bool, /) -> bool_: ...
 @overload
 def __radd__(self, other: int, /) -> int_: ...
 @overload
 def __radd__(self, other: float, /) -> float64: ...
 @overload
 def __radd__(self, other: complex, /) -> complex128: ...
@overload
 def __sub__(self, other: _NumberT, /) -> _NumberT: ...
 @overload
 def __sub__(self, other: int, /) -> int_: ...
 @overload
 def __sub__(self, other: float, /) -> float64: ...
 @overload
 def __sub__(self, other: complex, /) -> complex128: ...
@overload
 def __rsub__(self, other: _NumberT, /) -> _NumberT: ...
 @overload
 def __rsub__(self, other: int, /) -> int_: ...
 @overload
 def __rsub__(self, other: float, /) -> float64: ...
 @overload
 def __rsub__(self, other: complex, /) -> complex128: ...
@overload
 def __mul__(self, other: _NumberT, /) -> _NumberT: ...
 @overload
 def __mul__(self, other: builtins.bool | bool_, /) -> bool_: ...
 @overload
 def __mul__(self, other: int, /) -> int_: ...
 @overload
 def __mul__(self, other: float, /) -> float64: ...
 @overload
 def __mul__(self, other: complex, /) -> complex128: ...
@overload
 def __rmul__(self, other: _NumberT, /) -> _NumberT: ...
 @overload
 def __rmul__(self, other: builtins.bool, /) -> bool_: ...
 @overload
 def __rmul__(self, other: int, /) -> int_: ...
 @overload
 def __rmul__(self, other: float, /) -> float64: ...
 @overload
 def __rmul__(self, other: complex, /) -> complex128: ...
@overload
 def __pow__(self, other: _NumberT, mod: None = None, /) -> _NumberT: ...
 @overload
 def __pow__(self, other: builtins.bool | bool_, mod: None = None, /) -> int8: ...
 @overload
 def __pow__(self, other: int, mod: None = None, /) -> int_: ...
 @overload
 def __pow__(self, other: float, mod: None = None, /) -> float64: ...
 @overload
 def __pow__(self, other: complex, mod: None = None, /) -> complex128: ...
@overload
 def __rpow__(self, other: _NumberT, mod: None = None, /) -> _NumberT: ...
 @overload
 def __rpow__(self, other: builtins.bool, mod: None = None, /) -> int8: ...
 @overload
 def __rpow__(self, other: int, mod: None = None, /) -> int_: ...
 @overload
 def __rpow__(self, other: float, mod: None = None, /) -> float64: ...
 @overload
 def __rpow__(self, other: complex, mod: None = None, /) -> complex128: ...
@overload
 def __truediv__(self, other: _InexactT, /) -> _InexactT: ...
 @overload
 def __truediv__(self, other: float | integer | bool_, /) -> float64: ...
 @overload
 def __truediv__(self, other: complex, /) -> complex128: ...
@overload
 def __rtruediv__(self, other: _InexactT, /) -> _InexactT: ...
 @overload
 def __rtruediv__(self, other: float | integer, /) -> float64: ...
 @overload
 def __rtruediv__(self, other: complex, /) -> complex128: ...
@overload
 def __floordiv__(self, other: _RealNumberT, /) -> _RealNumberT: ...
 @overload
 def __floordiv__(self, other: builtins.bool | bool_, /) -> int8: ...
 @overload
 def __floordiv__(self, other: int, /) -> int_: ...
 @overload
 def __floordiv__(self, other: float, /) -> float64: ...
@overload
 def __rfloordiv__(self, other: _RealNumberT, /) -> _RealNumberT: ...
 @overload
 def __rfloordiv__(self, other: builtins.bool, /) -> int8: ...
 @overload
 def __rfloordiv__(self, other: int, /) -> int_: ...
 @overload
 def __rfloordiv__(self, other: float, /) -> float64: ...
# keep in sync with __floordiv__
 @overload
 def __mod__(self, other: _RealNumberT, /) -> _RealNumberT: ...
 @overload
 def __mod__(self, other: builtins.bool | bool_, /) -> int8: ...
 @overload
 def __mod__(self, other: int, /) -> int_: ...
 @overload
 def __mod__(self, other: float, /) -> float64: ...
# keep in sync with __rfloordiv__
 @overload
 def __rmod__(self, other: _RealNumberT, /) -> _RealNumberT: ...
 @overload
 def __rmod__(self, other: builtins.bool, /) -> int8: ...
 @overload
 def __rmod__(self, other: int, /) -> int_: ...
 @overload
 def __rmod__(self, other: float, /) -> float64: ...
# keep in sync with __mod__
 @overload
 def __divmod__(self, other: _RealNumberT, /) -> _2Tuple[_RealNumberT]: ...
 @overload
 def __divmod__(self, other: builtins.bool | bool_, /) -> _2Tuple[int8]: ...
 @overload
 def __divmod__(self, other: int, /) -> _2Tuple[int_]: ...
 @overload
 def __divmod__(self, other: float, /) -> _2Tuple[float64]: ...
# keep in sync with __rmod__
 @overload
 def __rdivmod__(self, other: _RealNumberT, /) -> _2Tuple[_RealNumberT]: ...
 @overload
 def __rdivmod__(self, other: builtins.bool, /) -> _2Tuple[int8]: ...
 @overload
 def __rdivmod__(self, other: int, /) -> _2Tuple[int_]: ...
 @overload
 def __rdivmod__(self, other: float, /) -> _2Tuple[float64]: ...
@overload
 def __lshift__(self, other: _IntegerT, /) -> _IntegerT: ...
 @overload
 def __lshift__(self, other: builtins.bool | bool_, /) -> int8: ...
 @overload
 def __lshift__(self, other: int, /) -> int_: ...
@overload
 def __rlshift__(self, other: _IntegerT, /) -> _IntegerT: ...
 @overload
 def __rlshift__(self, other: builtins.bool, /) -> int8: ...
 @overload
 def __rlshift__(self, other: int, /) -> int_: ...
# keep in sync with __lshift__
 @overload
 def __rshift__(self, other: _IntegerT, /) -> _IntegerT: ...
 @overload
 def __rshift__(self, other: builtins.bool | bool_, /) -> int8: ...
 @overload
 def __rshift__(self, other: int, /) -> int_: ...
# keep in sync with __rlshift__
 @overload
 def __rrshift__(self, other: _IntegerT, /) -> _IntegerT: ...
 @overload
 def __rrshift__(self, other: builtins.bool, /) -> int8: ...
 @overload
 def __rrshift__(self, other: int, /) -> int_: ...
@overload
 def __and__(self: np.bool[L[False]], other: builtins.bool | np.bool, /) -> np.bool[L[False]]: ...
 @overload
 def __and__(self, other: L[False] | np.bool[L[False]], /) -> np.bool[L[False]]: ...
 @overload
 def __and__(self, other: L[True] | np.bool[L[True]], /) -> Self: ...
 @overload
 def __and__(self, other: builtins.bool | np.bool, /) -> np.bool: ...
 @overload
 def __and__(self, other: _IntegerT, /) -> _IntegerT: ...
 @overload
 def __and__(self, other: int, /) -> np.bool | intp: ...
 __rand__ = __and__
@overload
 def __xor__(self: np.bool[L[False]], other: _BoolItemT | np.bool[_BoolItemT], /) -> np.bool[_BoolItemT]: ...
 @overload
 def __xor__(self: np.bool[L[True]], other: L[True] | np.bool[L[True]], /) -> np.bool[L[False]]: ...
 @overload
 def __xor__(self, other: L[False] | np.bool[L[False]], /) -> Self: ...
 @overload
 def __xor__(self, other: builtins.bool | np.bool, /) -> np.bool: ...
 @overload
 def __xor__(self, other: _IntegerT, /) -> _IntegerT: ...
 @overload
 def __xor__(self, other: int, /) -> np.bool | intp: ...
 __rxor__ = __xor__
@overload
 def __or__(self: np.bool[L[True]], other: builtins.bool | np.bool, /) -> np.bool[L[True]]: ...
 @overload
 def __or__(self, other: L[False] | np.bool[L[False]], /) -> Self: ...
 @overload
 def __or__(self, other: L[True] | np.bool[L[True]], /) -> np.bool[L[True]]: ...
 @overload
 def __or__(self, other: builtins.bool | np.bool, /) -> np.bool: ...
 @overload
 def __or__(self, other: _IntegerT, /) -> _IntegerT: ...
 @overload
 def __or__(self, other: int, /) -> np.bool | intp: ...
 __ror__ = __or__
@overload
 def __lt__(self, other: _NumberLike_co, /) -> bool_: ...
 @overload
 def __lt__(self, other: _ArrayLikeNumber_co | _NestedSequence[_SupportsGT], /) -> NDArray[bool_]: ...
 @overload
 def __lt__(self, other: _SupportsGT, /) -> bool_: ...
@overload
 def __le__(self, other: _NumberLike_co, /) -> bool_: ...
 @overload
 def __le__(self, other: _ArrayLikeNumber_co | _NestedSequence[_SupportsGE], /) -> NDArray[bool_]: ...
 @overload
 def __le__(self, other: _SupportsGE, /) -> bool_: ...
@overload
 def __gt__(self, other: _NumberLike_co, /) -> bool_: ...
 @overload
 def __gt__(self, other: _ArrayLikeNumber_co | _NestedSequence[_SupportsLT], /) -> NDArray[bool_]: ...
 @overload
 def __gt__(self, other: _SupportsLT, /) -> bool_: ...
@overload
 def __ge__(self, other: _NumberLike_co, /) -> bool_: ...
 @overload
 def __ge__(self, other: _ArrayLikeNumber_co | _NestedSequence[_SupportsLE], /) -> NDArray[bool_]: ...
 @overload
 def __ge__(self, other: _SupportsLE, /) -> bool_: ...
# NOTE: This should _not_ be `Final` or a `TypeAlias`
bool_ = bool
# NOTE: The `object_` constructor returns the passed object, so instances with type
# `object_` cannot exists (at runtime).
# NOTE: Because mypy has some long-standing bugs related to `__new__`, `object_` can't
# be made generic.
@final
class object_(_RealMixin, generic):
 @overload
 def __new__(cls, value: None = None, /) -> None: ... # type: ignore[misc]
 @overload
 def __new__(cls, value: _AnyStr, /) -> _AnyStr: ... # type: ignore[misc]
 @overload
 def __new__(cls, value: ndarray[_ShapeT, Any], /) -> ndarray[_ShapeT, dtype[Self]]: ... # type: ignore[misc]
 @overload
 def __new__(cls, value: SupportsLenAndGetItem[object], /) -> NDArray[Self]: ... # type: ignore[misc]
 @overload
 def __new__(cls, value: _T, /) -> _T: ... # type: ignore[misc]
 @overload # catch-all
 def __new__(cls, value: Any = ..., /) -> object | NDArray[Self]: ... # type: ignore[misc]
def __hash__(self, /) -> int: ...
 def __abs__(self, /) -> object_: ... # this affects NDArray[object_].__abs__
 def __call__(self, /, *args: object, **kwargs: object) -> Any: ...
if sys.version_info >= (3, 12):
 def __release_buffer__(self, buffer: memoryview, /) -> None: ...
class integer(_IntegralMixin, _RoundMixin, number[_NBit, int]):
 @abstractmethod
 def __new__(cls, value: _ConvertibleToInt = 0, /) -> Self: ...
# NOTE: `bit_count` and `__index__` are technically defined in the concrete subtypes
 def bit_count(self, /) -> int: ...
 def __index__(self, /) -> int: ...
 def __invert__(self, /) -> Self: ...
@override # type: ignore[override]
 @overload
 def __truediv__(self, other: float | integer, /) -> float64: ...
 @overload
 def __truediv__(self, other: complex, /) -> complex128: ...
@override # type: ignore[override]
 @overload
 def __rtruediv__(self, other: float | integer, /) -> float64: ...
 @overload
 def __rtruediv__(self, other: complex, /) -> complex128: ...
def __floordiv__(self, value: _IntLike_co, /) -> integer: ...
 def __rfloordiv__(self, value: _IntLike_co, /) -> integer: ...
 def __mod__(self, value: _IntLike_co, /) -> integer: ...
 def __rmod__(self, value: _IntLike_co, /) -> integer: ...
 def __divmod__(self, value: _IntLike_co, /) -> _2Tuple[integer]: ...
 def __rdivmod__(self, value: _IntLike_co, /) -> _2Tuple[integer]: ...
# Ensure that objects annotated as `integer` support bit-wise operations
 def __lshift__(self, other: _IntLike_co, /) -> integer: ...
 def __rlshift__(self, other: _IntLike_co, /) -> integer: ...
 def __rshift__(self, other: _IntLike_co, /) -> integer: ...
 def __rrshift__(self, other: _IntLike_co, /) -> integer: ...
 def __and__(self, other: _IntLike_co, /) -> integer: ...
 def __rand__(self, other: _IntLike_co, /) -> integer: ...
 def __or__(self, other: _IntLike_co, /) -> integer: ...
 def __ror__(self, other: _IntLike_co, /) -> integer: ...
 def __xor__(self, other: _IntLike_co, /) -> integer: ...
 def __rxor__(self, other: _IntLike_co, /) -> integer: ...
class signedinteger(integer[_NBit]):
 def __new__(cls, value: _ConvertibleToInt = 0, /) -> Self: ...
# arithmetic ops
@override # type: ignore[override]
 @overload
 def __add__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __add__(self, other: float, /) -> float64: ...
 @overload
 def __add__(self, other: complex, /) -> complex128: ...
 @overload
 def __add__(self, other: signedinteger, /) -> signedinteger: ...
 @overload
 def __add__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __radd__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __radd__(self, other: float, /) -> float64: ...
 @overload
 def __radd__(self, other: complex, /) -> complex128: ...
 @overload
 def __radd__(self, other: signedinteger, /) -> signedinteger: ...
 @overload
 def __radd__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __sub__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __sub__(self, other: float, /) -> float64: ...
 @overload
 def __sub__(self, other: complex, /) -> complex128: ...
 @overload
 def __sub__(self, other: signedinteger, /) -> signedinteger: ...
 @overload
 def __sub__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __rsub__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rsub__(self, other: float, /) -> float64: ...
 @overload
 def __rsub__(self, other: complex, /) -> complex128: ...
 @overload
 def __rsub__(self, other: signedinteger, /) -> signedinteger: ...
 @overload
 def __rsub__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __mul__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __mul__(self, other: float, /) -> float64: ...
 @overload
 def __mul__(self, other: complex, /) -> complex128: ...
 @overload
 def __mul__(self, other: signedinteger, /) -> signedinteger: ...
 @overload
 def __mul__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __rmul__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rmul__(self, other: float, /) -> float64: ...
 @overload
 def __rmul__(self, other: complex, /) -> complex128: ...
 @overload
 def __rmul__(self, other: signedinteger, /) -> signedinteger: ...
 @overload
 def __rmul__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __pow__(self, other: int | int8 | bool_ | Self, mod: None = None, /) -> Self: ...
 @overload
 def __pow__(self, other: float, mod: None = None, /) -> float64: ...
 @overload
 def __pow__(self, other: complex, mod: None = None, /) -> complex128: ...
 @overload
 def __pow__(self, other: signedinteger, mod: None = None, /) -> signedinteger: ...
 @overload
 def __pow__(self, other: integer, mod: None = None, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __rpow__(self, other: int | int8 | bool_, mod: None = None, /) -> Self: ...
 @overload
 def __rpow__(self, other: float, mod: None = None, /) -> float64: ...
 @overload
 def __rpow__(self, other: complex, mod: None = None, /) -> complex128: ...
 @overload
 def __rpow__(self, other: signedinteger, mod: None = None, /) -> signedinteger: ...
 @overload
 def __rpow__(self, other: integer, mod: None = None, /) -> Incomplete: ...
# modular division ops
@override # type: ignore[override]
 @overload
 def __floordiv__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __floordiv__(self, other: float, /) -> float64: ...
 @overload
 def __floordiv__(self, other: signedinteger, /) -> signedinteger: ...
 @overload
 def __floordiv__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __rfloordiv__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rfloordiv__(self, other: float, /) -> float64: ...
 @overload
 def __rfloordiv__(self, other: signedinteger, /) -> signedinteger: ...
 @overload
 def __rfloordiv__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __mod__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __mod__(self, other: float, /) -> float64: ...
 @overload
 def __mod__(self, other: signedinteger, /) -> signedinteger: ...
 @overload
 def __mod__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __rmod__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rmod__(self, other: float, /) -> float64: ...
 @overload
 def __rmod__(self, other: signedinteger, /) -> signedinteger: ...
 @overload
 def __rmod__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __divmod__(self, other: int | int8 | bool_ | Self, /) -> _2Tuple[Self]: ...
 @overload
 def __divmod__(self, other: float, /) -> _2Tuple[float64]: ...
 @overload
 def __divmod__(self, other: signedinteger, /) -> _2Tuple[signedinteger]: ...
 @overload
 def __divmod__(self, other: integer, /) -> _2Tuple[Incomplete]: ...
@override # type: ignore[override]
 @overload
 def __rdivmod__(self, other: int | int8 | bool_, /) -> _2Tuple[Self]: ...
 @overload
 def __rdivmod__(self, other: float, /) -> _2Tuple[float64]: ...
 @overload
 def __rdivmod__(self, other: signedinteger, /) -> _2Tuple[signedinteger]: ...
 @overload
 def __rdivmod__(self, other: integer, /) -> _2Tuple[Incomplete]: ...
# bitwise ops
@override # type: ignore[override]
 @overload
 def __lshift__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __lshift__(self, other: integer, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __rlshift__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rlshift__(self, other: integer, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __rshift__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __rshift__(self, other: integer, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __rrshift__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rrshift__(self, other: integer, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __and__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __and__(self, other: integer, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __rand__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rand__(self, other: integer, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __xor__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __xor__(self, other: integer, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __rxor__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rxor__(self, other: integer, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __or__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __or__(self, other: integer, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __ror__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __ror__(self, other: integer, /) -> signedinteger: ...
int8 = signedinteger[_8Bit]
int16 = signedinteger[_16Bit]
int32 = signedinteger[_32Bit]
int64 = signedinteger[_64Bit]
byte = signedinteger[_NBitByte]
short = signedinteger[_NBitShort]
intc = signedinteger[_NBitIntC]
intp = signedinteger[_NBitIntP]
int_ = intp
long = signedinteger[_NBitLong]
longlong = signedinteger[_NBitLongLong]
class unsignedinteger(integer[_NBit1]):
 def __new__(cls, value: _ConvertibleToInt = 0, /) -> Self: ...
# arithmetic ops
@override # type: ignore[override]
 @overload
 def __add__(self, other: int | uint8 | bool_ | Self, /) -> Self: ...
 @overload
 def __add__(self, other: float, /) -> float64: ...
 @overload
 def __add__(self, other: complex, /) -> complex128: ...
 @overload
 def __add__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __add__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __radd__(self, other: int | uint8 | bool_, /) -> Self: ...
 @overload
 def __radd__(self, other: float, /) -> float64: ...
 @overload
 def __radd__(self, other: complex, /) -> complex128: ...
 @overload
 def __radd__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __radd__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __sub__(self, other: int | uint8 | bool_ | Self, /) -> Self: ...
 @overload
 def __sub__(self, other: float, /) -> float64: ...
 @overload
 def __sub__(self, other: complex, /) -> complex128: ...
 @overload
 def __sub__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __sub__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __rsub__(self, other: int | uint8 | bool_, /) -> Self: ...
 @overload
 def __rsub__(self, other: float, /) -> float64: ...
 @overload
 def __rsub__(self, other: complex, /) -> complex128: ...
 @overload
 def __rsub__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __rsub__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __mul__(self, other: int | uint8 | bool_ | Self, /) -> Self: ...
 @overload
 def __mul__(self, other: float, /) -> float64: ...
 @overload
 def __mul__(self, other: complex, /) -> complex128: ...
 @overload
 def __mul__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __mul__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __rmul__(self, other: int | uint8 | bool_, /) -> Self: ...
 @overload
 def __rmul__(self, other: float, /) -> float64: ...
 @overload
 def __rmul__(self, other: complex, /) -> complex128: ...
 @overload
 def __rmul__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __rmul__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __pow__(self, other: int | uint8 | bool_ | Self, mod: None = None, /) -> Self: ...
 @overload
 def __pow__(self, other: float, mod: None = None, /) -> float64: ...
 @overload
 def __pow__(self, other: complex, mod: None = None, /) -> complex128: ...
 @overload
 def __pow__(self, other: unsignedinteger, mod: None = None, /) -> unsignedinteger: ...
 @overload
 def __pow__(self, other: integer, mod: None = None, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __rpow__(self, other: int | uint8 | bool_, mod: None = None, /) -> Self: ...
 @overload
 def __rpow__(self, other: float, mod: None = None, /) -> float64: ...
 @overload
 def __rpow__(self, other: complex, mod: None = None, /) -> complex128: ...
 @overload
 def __rpow__(self, other: unsignedinteger, mod: None = None, /) -> unsignedinteger: ...
 @overload
 def __rpow__(self, other: integer, mod: None = None, /) -> Incomplete: ...
# modular division ops
@override # type: ignore[override]
 @overload
 def __floordiv__(self, other: int | uint8 | bool_ | Self, /) -> Self: ...
 @overload
 def __floordiv__(self, other: float, /) -> float64: ...
 @overload
 def __floordiv__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __floordiv__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __rfloordiv__(self, other: int | uint8 | bool_, /) -> Self: ...
 @overload
 def __rfloordiv__(self, other: float, /) -> float64: ...
 @overload
 def __rfloordiv__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __rfloordiv__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __mod__(self, other: int | uint8 | bool_ | Self, /) -> Self: ...
 @overload
 def __mod__(self, other: float, /) -> float64: ...
 @overload
 def __mod__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __mod__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __rmod__(self, other: int | uint8 | bool_, /) -> Self: ...
 @overload
 def __rmod__(self, other: float, /) -> float64: ...
 @overload
 def __rmod__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __rmod__(self, other: integer, /) -> Incomplete: ...
@override # type: ignore[override]
 @overload
 def __divmod__(self, other: int | uint8 | bool_ | Self, /) -> _2Tuple[Self]: ...
 @overload
 def __divmod__(self, other: float, /) -> _2Tuple[float64]: ...
 @overload
 def __divmod__(self, other: unsignedinteger, /) -> _2Tuple[unsignedinteger]: ...
 @overload
 def __divmod__(self, other: integer, /) -> _2Tuple[Incomplete]: ...
@override # type: ignore[override]
 @overload
 def __rdivmod__(self, other: int | uint8 | bool_, /) -> _2Tuple[Self]: ...
 @overload
 def __rdivmod__(self, other: float, /) -> _2Tuple[float64]: ...
 @overload
 def __rdivmod__(self, other: unsignedinteger, /) -> _2Tuple[unsignedinteger]: ...
 @overload
 def __rdivmod__(self, other: integer, /) -> _2Tuple[Incomplete]: ...
# bitwise ops
@override # type: ignore[override]
 @overload
 def __lshift__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __lshift__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __lshift__(self, other: signedinteger, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __rlshift__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rlshift__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __rlshift__(self, other: signedinteger, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __rshift__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __rshift__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __rshift__(self, other: signedinteger, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __rrshift__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rrshift__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __rrshift__(self, other: signedinteger, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __and__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __and__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __and__(self, other: signedinteger, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __rand__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rand__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __rand__(self, other: signedinteger, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __xor__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __xor__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __xor__(self, other: signedinteger, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __rxor__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __rxor__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __rxor__(self, other: signedinteger, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __or__(self, other: int | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __or__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __or__(self, other: signedinteger, /) -> signedinteger: ...
@override # type: ignore[override]
 @overload
 def __ror__(self, other: int | int8 | bool_, /) -> Self: ...
 @overload
 def __ror__(self, other: unsignedinteger, /) -> unsignedinteger: ...
 @overload
 def __ror__(self, other: signedinteger, /) -> signedinteger: ...
uint8: TypeAlias = unsignedinteger[_8Bit]
uint16: TypeAlias = unsignedinteger[_16Bit]
uint32: TypeAlias = unsignedinteger[_32Bit]
uint64: TypeAlias = unsignedinteger[_64Bit]
ubyte: TypeAlias = unsignedinteger[_NBitByte]
ushort: TypeAlias = unsignedinteger[_NBitShort]
uintc: TypeAlias = unsignedinteger[_NBitIntC]
uintp: TypeAlias = unsignedinteger[_NBitIntP]
uint: TypeAlias = uintp
ulong: TypeAlias = unsignedinteger[_NBitLong]
ulonglong: TypeAlias = unsignedinteger[_NBitLongLong]
class inexact(number[_NBit, _InexactItemT_co], Generic[_NBit, _InexactItemT_co]):
 @abstractmethod
 def __new__(cls, value: _ConvertibleToFloat | None = 0, /) -> Self: ...
class floating(_RealMixin, _RoundMixin, inexact[_NBit1, float]):
 def __new__(cls, value: _ConvertibleToFloat | None = 0, /) -> Self: ...
# arithmetic ops
@override # type: ignore[override]
 @overload
 def __add__(self, other: int | float16 | uint8 | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __add__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __add__(self, other: float, /) -> Self: ...
 @overload
 def __add__(self, other: complex, /) -> complexfloating: ...
@override # type: ignore[override]
 @overload
 def __radd__(self, other: int | float16 | uint8 | int8 | bool_, /) -> Self: ...
 @overload
 def __radd__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __radd__(self, other: float, /) -> Self: ...
 @overload
 def __radd__(self, other: complex, /) -> complexfloating: ...
@override # type: ignore[override]
 @overload
 def __sub__(self, other: int | float16 | uint8 | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __sub__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __sub__(self, other: float, /) -> Self: ...
 @overload
 def __sub__(self, other: complex, /) -> complexfloating: ...
@override # type: ignore[override]
 @overload
 def __rsub__(self, other: int | float16 | uint8 | int8 | bool_, /) -> Self: ...
 @overload
 def __rsub__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __rsub__(self, other: float, /) -> Self: ...
 @overload
 def __rsub__(self, other: complex, /) -> complexfloating: ...
@override # type: ignore[override]
 @overload
 def __mul__(self, other: int | float16 | uint8 | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __mul__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __mul__(self, other: float, /) -> Self: ...
 @overload
 def __mul__(self, other: complex, /) -> complexfloating: ...
@override # type: ignore[override]
 @overload
 def __rmul__(self, other: int | float16 | uint8 | int8 | bool_, /) -> Self: ...
 @overload
 def __rmul__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __rmul__(self, other: float, /) -> Self: ...
 @overload
 def __rmul__(self, other: complex, /) -> complexfloating: ...
@override # type: ignore[override]
 @overload
 def __pow__(self, other: int | float16 | uint8 | int8 | bool_ | Self, mod: None = None, /) -> Self: ...
 @overload
 def __pow__(self, other: integer | floating, mod: None = None, /) -> floating: ...
 @overload
 def __pow__(self, other: float, mod: None = None, /) -> Self: ...
 @overload
 def __pow__(self, other: complex, mod: None = None, /) -> complexfloating: ...
@override # type: ignore[override]
 @overload
 def __rpow__(self, other: int | float16 | uint8 | int8 | bool_, mod: None = None, /) -> Self: ...
 @overload
 def __rpow__(self, other: integer | floating, mod: None = None, /) -> floating: ...
 @overload
 def __rpow__(self, other: float, mod: None = None, /) -> Self: ...
 @overload
 def __rpow__(self, other: complex, mod: None = None, /) -> complexfloating: ...
@override # type: ignore[override]
 @overload
 def __truediv__(self, other: int | float16 | uint8 | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __truediv__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __truediv__(self, other: float, /) -> Self: ...
 @overload
 def __truediv__(self, other: complex, /) -> complexfloating: ...
@override # type: ignore[override]
 @overload
 def __rtruediv__(self, other: int | float16 | uint8 | int8 | bool_, /) -> Self: ...
 @overload
 def __rtruediv__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __rtruediv__(self, other: float, /) -> Self: ...
 @overload
 def __rtruediv__(self, other: complex, /) -> complexfloating: ...
# modular division ops
@overload
 def __floordiv__(self, other: int | float16 | uint8 | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __floordiv__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __floordiv__(self, other: float, /) -> Self: ...
@overload
 def __rfloordiv__(self, other: int | float16 | uint8 | int8 | bool_, /) -> Self: ...
 @overload
 def __rfloordiv__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __rfloordiv__(self, other: float, /) -> Self: ...
@overload
 def __mod__(self, other: int | float16 | uint8 | int8 | bool_ | Self, /) -> Self: ...
 @overload
 def __mod__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __mod__(self, other: float, /) -> Self: ...
@overload
 def __rmod__(self, other: int | float16 | uint8 | int8 | bool_, /) -> Self: ...
 @overload
 def __rmod__(self, other: integer | floating, /) -> floating: ...
 @overload
 def __rmod__(self, other: float, /) -> Self: ...
@overload
 def __divmod__(self, other: int | float16 | uint8 | int8 | bool_ | Self, /) -> _2Tuple[Self]: ...
 @overload
 def __divmod__(self, other: integer | floating, /) -> _2Tuple[floating]: ...
 @overload
 def __divmod__(self, other: float, /) -> _2Tuple[Self]: ...
@overload
 def __rdivmod__(self, other: int | float16 | uint8 | int8 | bool_, /) -> _2Tuple[Self]: ...
 @overload
 def __rdivmod__(self, other: integer | floating, /) -> _2Tuple[floating]: ...
 @overload
 def __rdivmod__(self, other: float, /) -> _2Tuple[Self]: ...
# NOTE: `is_integer` and `as_integer_ratio` are technically defined in the concrete subtypes
 def is_integer(self, /) -> builtins.bool: ...
 def as_integer_ratio(self, /) -> tuple[int, int]: ...
float16: TypeAlias = floating[_16Bit]
float32: TypeAlias = floating[_32Bit]
# either a C `double`, `float`, or `longdouble`
class float64(floating[_64Bit], float): # type: ignore[misc]
 @property
 def itemsize(self) -> L[8]: ...
 @property
 def nbytes(self) -> L[8]: ...
# overrides for `floating` and `builtins.float` compatibility (`_RealMixin` doesn't work)
 @property
 def real(self) -> Self: ...
 @property
 def imag(self) -> Self: ...
 def conjugate(self) -> Self: ...
 def __getnewargs__(self, /) -> tuple[float]: ...
@classmethod
 def __getformat__(cls, typestr: L["double", "float"], /) -> str: ... # undocumented
# float64-specific operator overrides
 # NOTE: Mypy reports [misc] errors about "unsafely overlapping signatures" for the
 # reflected methods. But since they are identical to the non-reflected versions,
 # these errors appear to be false positives.
@overload # type: ignore[override]
 def __add__(self, other: _Float64_co, /) -> float64: ...
 @overload
 def __add__(self, other: complexfloating[_64Bit, _64Bit], /) -> complex128: ...
 @overload
 def __add__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __add__(self, other: complex, /) -> float64 | complex128: ...
@overload # type: ignore[override]
 def __radd__(self, other: _Float64_co, /) -> float64: ... # type: ignore[misc]
 @overload
 def __radd__(self, other: complexfloating[_64Bit, _64Bit], /) -> complex128: ... # type: ignore[misc]
 @overload
 def __radd__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __radd__(self, other: complex, /) -> float64 | complex128: ...
@overload # type: ignore[override]
 def __sub__(self, other: _Float64_co, /) -> float64: ...
 @overload
 def __sub__(self, other: complexfloating[_64Bit, _64Bit], /) -> complex128: ...
 @overload
 def __sub__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __sub__(self, other: complex, /) -> float64 | complex128: ...
@overload # type: ignore[override]
 def __rsub__(self, other: _Float64_co, /) -> float64: ... # type: ignore[misc]
 @overload
 def __rsub__(self, other: complexfloating[_64Bit, _64Bit], /) -> complex128: ... # type: ignore[misc]
 @overload
 def __rsub__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __rsub__(self, other: complex, /) -> float64 | complex128: ...
@overload # type: ignore[override]
 def __mul__(self, other: _Float64_co, /) -> float64: ...
 @overload
 def __mul__(self, other: complexfloating[_64Bit, _64Bit], /) -> complex128: ...
 @overload
 def __mul__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __mul__(self, other: complex, /) -> float64 | complex128: ...
@overload # type: ignore[override]
 def __rmul__(self, other: _Float64_co, /) -> float64: ... # type: ignore[misc]
 @overload
 def __rmul__(self, other: complexfloating[_64Bit, _64Bit], /) -> complex128: ... # type: ignore[misc]
 @overload
 def __rmul__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __rmul__(self, other: complex, /) -> float64 | complex128: ...
@overload # type: ignore[override]
 def __truediv__(self, other: _Float64_co, /) -> float64: ...
 @overload
 def __truediv__(self, other: complexfloating[_64Bit, _64Bit], /) -> complex128: ...
 @overload
 def __truediv__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __truediv__(self, other: complex, /) -> float64 | complex128: ...
@overload # type: ignore[override]
 def __rtruediv__(self, other: _Float64_co, /) -> float64: ... # type: ignore[misc]
 @overload
 def __rtruediv__(self, other: complexfloating[_64Bit, _64Bit], /) -> complex128: ... # type: ignore[misc]
 @overload
 def __rtruediv__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __rtruediv__(self, other: complex, /) -> float64 | complex128: ...
@overload # type: ignore[override]
 def __floordiv__(self, other: _Float64_co, /) -> float64: ...
 @overload
 def __floordiv__(self, other: complexfloating[_64Bit, _64Bit], /) -> complex128: ...
 @overload
 def __floordiv__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __floordiv__(self, other: complex, /) -> float64 | complex128: ...
@overload
 def __rfloordiv__(self, other: _Float64_co, /) -> float64: ... # type: ignore[misc]
 @overload
 def __rfloordiv__(self, other: complexfloating[_64Bit, _64Bit], /) -> complex128: ...
 @overload
 def __rfloordiv__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __rfloordiv__(self, other: complex, /) -> float64 | complex128: ...
@overload # type: ignore[override]
 def __pow__(self, other: _Float64_co, mod: None = None, /) -> float64: ...
 @overload
 def __pow__(self, other: complexfloating[_64Bit, _64Bit], mod: None = None, /) -> complex128: ...
 @overload
 def __pow__(
 self, other: complexfloating[_NBit1, _NBit2], mod: None = None, /
 ) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __pow__(self, other: complex, mod: None = None, /) -> float64 | complex128: ...
@overload # type: ignore[override]
 def __rpow__(self, other: _Float64_co, mod: None = None, /) -> float64: ... # type: ignore[misc]
 @overload
 def __rpow__(self, other: complexfloating[_64Bit, _64Bit], mod: None = None, /) -> complex128: ... # type: ignore[misc]
 @overload
 def __rpow__(
 self, other: complexfloating[_NBit1, _NBit2], mod: None = None, /
 ) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 @overload
 def __rpow__(self, other: complex, mod: None = None, /) -> float64 | complex128: ...
def __mod__(self, other: _Float64_co, /) -> float64: ...
 def __rmod__(self, other: _Float64_co, /) -> float64: ... # type: ignore[misc]
def __divmod__(self, other: _Float64_co, /) -> _2Tuple[float64]: ...
 def __rdivmod__(self, other: _Float64_co, /) -> _2Tuple[float64]: ... # type: ignore[misc]
half: TypeAlias = float16
single: TypeAlias = float32
double: TypeAlias = float64
longdouble: TypeAlias = floating[_NBitLongDouble]
# The main reason for `complexfloating` having two typevars is cosmetic.
# It is used to clarify why `complex128`s precision is `_64Bit`, the latter
# describing the two 64 bit floats representing its real and imaginary component
class complexfloating(inexact[_NBit1, complex], Generic[_NBit1, _NBit2]):
 @overload
 def __new__(
 cls,
 real: complex | SupportsComplex | SupportsFloat | SupportsIndex = 0,
 imag: complex | SupportsFloat | SupportsIndex = 0,
 /,
 ) -> Self: ...
 @overload
 def __new__(cls, real: _ConvertibleToComplex | None = 0, /) -> Self: ...
@property
 def real(self) -> floating[_NBit1]: ...
 @property
 def imag(self) -> floating[_NBit2]: ...
# NOTE: `__complex__` is technically defined in the concrete subtypes
 def __complex__(self, /) -> complex: ...
 def __abs__(self, /) -> floating[_NBit1 | _NBit2]: ... # type: ignore[override]
@overload # type: ignore[override]
 def __add__(self, other: _Complex64_co, /) -> complexfloating[_NBit1, _NBit2]: ...
 @overload
 def __add__(self, other: complex | float64 | complex128, /) -> complexfloating[_NBit1, _NBit2] | complex128: ...
 @overload
 def __add__(self, other: number[_NBit], /) -> complexfloating[_NBit1, _NBit2] | complexfloating[_NBit, _NBit]: ...
@overload # type: ignore[override]
 def __radd__(self, other: _Complex64_co, /) -> complexfloating[_NBit1, _NBit2]: ...
 @overload
 def __radd__(self, other: complex, /) -> complexfloating[_NBit1, _NBit2] | complex128: ...
 @overload
 def __radd__(self, other: number[_NBit], /) -> complexfloating[_NBit1, _NBit2] | complexfloating[_NBit, _NBit]: ...
@overload # type: ignore[override]
 def __sub__(self, other: _Complex64_co, /) -> complexfloating[_NBit1, _NBit2]: ...
 @overload
 def __sub__(self, other: complex | float64 | complex128, /) -> complexfloating[_NBit1, _NBit2] | complex128: ...
 @overload
 def __sub__(self, other: number[_NBit], /) -> complexfloating[_NBit1, _NBit2] | complexfloating[_NBit, _NBit]: ...
@overload # type: ignore[override]
 def __rsub__(self, other: _Complex64_co, /) -> complexfloating[_NBit1, _NBit2]: ...
 @overload
 def __rsub__(self, other: complex, /) -> complexfloating[_NBit1, _NBit2] | complex128: ...
 @overload
 def __rsub__(self, other: number[_NBit], /) -> complexfloating[_NBit1, _NBit2] | complexfloating[_NBit, _NBit]: ...
@overload # type: ignore[override]
 def __mul__(self, other: _Complex64_co, /) -> complexfloating[_NBit1, _NBit2]: ...
 @overload
 def __mul__(self, other: complex | float64 | complex128, /) -> complexfloating[_NBit1, _NBit2] | complex128: ...
 @overload
 def __mul__(self, other: number[_NBit], /) -> complexfloating[_NBit1, _NBit2] | complexfloating[_NBit, _NBit]: ...
@overload # type: ignore[override]
 def __rmul__(self, other: _Complex64_co, /) -> complexfloating[_NBit1, _NBit2]: ...
 @overload
 def __rmul__(self, other: complex, /) -> complexfloating[_NBit1, _NBit2] | complex128: ...
 @overload
 def __rmul__(self, other: number[_NBit], /) -> complexfloating[_NBit1, _NBit2] | complexfloating[_NBit, _NBit]: ...
@overload # type: ignore[override]
 def __truediv__(self, other: _Complex64_co, /) -> complexfloating[_NBit1, _NBit2]: ...
 @overload
 def __truediv__(self, other: complex | float64 | complex128, /) -> complexfloating[_NBit1, _NBit2] | complex128: ...
 @overload
 def __truediv__(self, other: number[_NBit], /) -> complexfloating[_NBit1, _NBit2] | complexfloating[_NBit, _NBit]: ...
@overload # type: ignore[override]
 def __rtruediv__(self, other: _Complex64_co, /) -> complexfloating[_NBit1, _NBit2]: ...
 @overload
 def __rtruediv__(self, other: complex, /) -> complexfloating[_NBit1, _NBit2] | complex128: ...
 @overload
 def __rtruediv__(self, other: number[_NBit], /) -> complexfloating[_NBit1, _NBit2] | complexfloating[_NBit, _NBit]: ...
@overload # type: ignore[override]
 def __pow__(self, other: _Complex64_co, mod: None = None, /) -> complexfloating[_NBit1, _NBit2]: ...
 @overload
 def __pow__(
 self, other: complex | float64 | complex128, mod: None = None, /
 ) -> complexfloating[_NBit1, _NBit2] | complex128: ...
 @overload
 def __pow__(
 self, other: number[_NBit], mod: None = None, /
 ) -> complexfloating[_NBit1, _NBit2] | complexfloating[_NBit, _NBit]: ...
@overload # type: ignore[override]
 def __rpow__(self, other: _Complex64_co, mod: None = None, /) -> complexfloating[_NBit1, _NBit2]: ...
 @overload
 def __rpow__(self, other: complex, mod: None = None, /) -> complexfloating[_NBit1, _NBit2] | complex128: ...
 @overload
 def __rpow__(
 self, other: number[_NBit], mod: None = None, /
 ) -> complexfloating[_NBit1, _NBit2] | complexfloating[_NBit, _NBit]: ...
complex64: TypeAlias = complexfloating[_32Bit]
class complex128(complexfloating[_64Bit, _64Bit], complex):
 @property
 def itemsize(self) -> L[16]: ...
 @property
 def nbytes(self) -> L[16]: ...
# overrides for `floating` and `builtins.float` compatibility
 @property
 def real(self) -> float64: ...
 @property
 def imag(self) -> float64: ...
 def conjugate(self) -> Self: ...
 def __abs__(self) -> float64: ... # type: ignore[override]
 def __getnewargs__(self, /) -> tuple[float, float]: ...
# complex128-specific operator overrides
 @overload # type: ignore[override]
 def __add__(self, other: _Complex128_co, /) -> complex128: ...
 @overload
 def __add__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 def __radd__(self, other: _Complex128_co, /) -> complex128: ... # type: ignore[override]
@overload # type: ignore[override]
 def __sub__(self, other: _Complex128_co, /) -> complex128: ...
 @overload
 def __sub__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 def __rsub__(self, other: _Complex128_co, /) -> complex128: ... # type: ignore[override]
@overload # type: ignore[override]
 def __mul__(self, other: _Complex128_co, /) -> complex128: ...
 @overload
 def __mul__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 def __rmul__(self, other: _Complex128_co, /) -> complex128: ... # type: ignore[override]
@overload # type: ignore[override]
 def __truediv__(self, other: _Complex128_co, /) -> complex128: ...
 @overload
 def __truediv__(self, other: complexfloating[_NBit1, _NBit2], /) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 def __rtruediv__(self, other: _Complex128_co, /) -> complex128: ... # type: ignore[override]
@overload # type: ignore[override]
 def __pow__(self, other: _Complex128_co, mod: None = None, /) -> complex128: ...
 @overload
 def __pow__(
 self, other: complexfloating[_NBit1, _NBit2], mod: None = None, /
 ) -> complexfloating[_NBit1 | _64Bit, _NBit2 | _64Bit]: ...
 def __rpow__(self, other: _Complex128_co, mod: None = None, /) -> complex128: ... # type: ignore[override]
csingle: TypeAlias = complex64
cdouble: TypeAlias = complex128
clongdouble: TypeAlias = complexfloating[_NBitLongDouble]
class timedelta64(_IntegralMixin, generic[_TD64ItemT_co], Generic[_TD64ItemT_co]):
 @property
 def itemsize(self) -> L[8]: ...
 @property
 def nbytes(self) -> L[8]: ...
@overload
 def __new__(cls, value: _TD64ItemT_co | timedelta64[_TD64ItemT_co], /) -> Self: ...
 @overload
 def __new__(cls, /) -> timedelta64[L[0]]: ...
 @overload
 def __new__(cls, value: _NaTValue | None, format: _TimeUnitSpec, /) -> timedelta64[None]: ...
 @overload
 def __new__(cls, value: L[0], format: _TimeUnitSpec[_IntTD64Unit] = ..., /) -> timedelta64[L[0]]: ...
 @overload
 def __new__(cls, value: _IntLike_co, format: _TimeUnitSpec[_IntTD64Unit] = ..., /) -> timedelta64[int]: ...
 @overload
 def __new__(cls, value: dt.timedelta, format: _TimeUnitSpec[_IntTimeUnit], /) -> timedelta64[int]: ...
 @overload
 def __new__(
 cls,
 value: dt.timedelta | _IntLike_co,
 format: _TimeUnitSpec[_NativeTD64Unit] = ...,
 /,
 ) -> timedelta64[dt.timedelta]: ...
 @overload
 def __new__(cls, value: _ConvertibleToTD64, format: _TimeUnitSpec = ..., /) -> Self: ...
# inherited at runtime from `signedinteger`
 def __class_getitem__(cls, type_arg: type | object, /) -> GenericAlias: ...
# NOTE: Only a limited number of units support conversion
 # to builtin scalar types: `Y`, `M`, `ns`, `ps`, `fs`, `as`
 def __int__(self: timedelta64[int], /) -> int: ...
 def __float__(self: timedelta64[int], /) -> float: ...
def __neg__(self, /) -> Self: ...
 def __pos__(self, /) -> Self: ...
 def __abs__(self, /) -> Self: ...
@overload
 def __add__(self: timedelta64[None], x: _TD64Like_co, /) -> timedelta64[None]: ...
 @overload
 def __add__(self: timedelta64[int], x: timedelta64[int | dt.timedelta], /) -> timedelta64[int]: ...
 @overload
 def __add__(self: timedelta64[int], x: timedelta64, /) -> timedelta64[int | None]: ...
 @overload
 def __add__(self: timedelta64[dt.timedelta], x: _AnyDateOrTime, /) -> _AnyDateOrTime: ...
 @overload
 def __add__(self: timedelta64[_AnyTD64Item], x: timedelta64[_AnyTD64Item] | _IntLike_co, /) -> timedelta64[_AnyTD64Item]: ...
 @overload
 def __add__(self, x: timedelta64[None], /) -> timedelta64[None]: ... # type: ignore[overload-cannot-match]
 __radd__ = __add__
@overload
 def __mul__(self: timedelta64[_AnyTD64Item], x: int | np.integer | np.bool, /) -> timedelta64[_AnyTD64Item]: ...
 @overload
 def __mul__(self: timedelta64[_AnyTD64Item], x: float | np.floating, /) -> timedelta64[_AnyTD64Item | None]: ...
 @overload
 def __mul__(self, x: float | np.floating | np.integer | np.bool, /) -> timedelta64: ...
 __rmul__ = __mul__
@overload
 def __mod__(self, x: timedelta64[L[0] | None], /) -> timedelta64[None]: ...
 @overload
 def __mod__(self: timedelta64[None], x: timedelta64, /) -> timedelta64[None]: ...
 @overload
 def __mod__(self: timedelta64[int], x: timedelta64[int | dt.timedelta], /) -> timedelta64[int | None]: ...
 @overload
 def __mod__(self: timedelta64[dt.timedelta], x: timedelta64[_AnyTD64Item], /) -> timedelta64[_AnyTD64Item | None]: ...
 @overload
 def __mod__(self: timedelta64[dt.timedelta], x: dt.timedelta, /) -> dt.timedelta: ...
 @overload
 def __mod__(self, x: timedelta64[int], /) -> timedelta64[int | None]: ...
 @overload
 def __mod__(self, x: timedelta64, /) -> timedelta64: ...
# NOTE: The L[0] makes __mod__ non-commutative, which the first two overloads
 # reflect. However, mypy does not seem to like this, so we ignore the errors.
 @overload
 def __rmod__(self, x: timedelta64[None], /) -> timedelta64[None]: ... # type: ignore[misc]
 @overload
 def __rmod__(self: timedelta64[L[0] | None], x: timedelta64, /) -> timedelta64[None]: ...
 @overload
 def __rmod__(self: timedelta64[int], x: timedelta64[int | dt.timedelta], /) -> timedelta64[int | None]: ... # type: ignore[misc]
 @overload
 def __rmod__(self: timedelta64[dt.timedelta], x: timedelta64[_AnyTD64Item], /) -> timedelta64[_AnyTD64Item | None]: ... # type: ignore[misc]
 @overload
 def __rmod__(self: timedelta64[dt.timedelta], x: dt.timedelta, /) -> dt.timedelta: ...
 @overload
 def __rmod__(self, x: timedelta64[int], /) -> timedelta64[int | None]: ... # type: ignore[misc]
 @overload
 def __rmod__(self, x: timedelta64, /) -> timedelta64: ... # type: ignore[misc]
# keep in sync with __mod__
 @overload
 def __divmod__(self, x: timedelta64[L[0] | None], /) -> tuple[int64, timedelta64[None]]: ...
 @overload
 def __divmod__(self: timedelta64[None], x: timedelta64, /) -> tuple[int64, timedelta64[None]]: ...
 @overload
 def __divmod__(self: timedelta64[int], x: timedelta64[int | dt.timedelta], /) -> tuple[int64, timedelta64[int | None]]: ...
 @overload
 def __divmod__(
 self: timedelta64[dt.timedelta], x: timedelta64[_AnyTD64Item], /
 ) -> tuple[int64, timedelta64[_AnyTD64Item | None]]: ...
 @overload
 def __divmod__(self: timedelta64[dt.timedelta], x: dt.timedelta, /) -> tuple[int, dt.timedelta]: ...
 @overload
 def __divmod__(self, x: timedelta64[int], /) -> tuple[int64, timedelta64[int | None]]: ...
 @overload
 def __divmod__(self, x: timedelta64, /) -> tuple[int64, timedelta64]: ...
# keep in sync with __rmod__
 @overload
 def __rdivmod__(self, x: timedelta64[None], /) -> tuple[int64, timedelta64[None]]: ... # type: ignore[misc]
 @overload
 def __rdivmod__(self: timedelta64[L[0] | None], x: timedelta64, /) -> tuple[int64, timedelta64[None]]: ... # type: ignore[misc]
 @overload
 def __rdivmod__(self: timedelta64[int], x: timedelta64[int | dt.timedelta], /) -> tuple[int64, timedelta64[int | None]]: ... # type: ignore[misc]
 @overload
 def __rdivmod__( # type: ignore[misc]
 self: timedelta64[dt.timedelta], x: timedelta64[_AnyTD64Item], /
 ) -> tuple[int64, timedelta64[_AnyTD64Item | None]]: ...
 @overload
 def __rdivmod__(self: timedelta64[dt.timedelta], x: dt.timedelta, /) -> tuple[int, dt.timedelta]: ...
 @overload
 def __rdivmod__(self, x: timedelta64[int], /) -> tuple[int64, timedelta64[int | None]]: ... # type: ignore[misc]
 @overload
 def __rdivmod__(self, x: timedelta64, /) -> tuple[int64, timedelta64]: ... # type: ignore[misc]
@overload
 def __sub__(self: timedelta64[None], b: _TD64Like_co, /) -> timedelta64[None]: ...
 @overload
 def __sub__(self: timedelta64[int], b: timedelta64[int | dt.timedelta], /) -> timedelta64[int]: ...
 @overload
 def __sub__(self: timedelta64[int], b: timedelta64, /) -> timedelta64[int | None]: ...
 @overload
 def __sub__(self: timedelta64[dt.timedelta], b: dt.timedelta, /) -> dt.timedelta: ...
 @overload
 def __sub__(self: timedelta64[_AnyTD64Item], b: timedelta64[_AnyTD64Item] | _IntLike_co, /) -> timedelta64[_AnyTD64Item]: ...
 @overload
 def __sub__(self, b: timedelta64[None], /) -> timedelta64[None]: ... # type: ignore[overload-cannot-match]
# NOTE: subtraction is not commutative, so __rsub__ differs from __sub__.
 # This confuses mypy, so we ignore the [misc] errors it reports.
 @overload
 def __rsub__(self: timedelta64[None], a: _TD64Like_co, /) -> timedelta64[None]: ...
 @overload
 def __rsub__(self: timedelta64[dt.timedelta], a: _AnyDateOrTime, /) -> _AnyDateOrTime: ...
 @overload
 def __rsub__(self: timedelta64[dt.timedelta], a: timedelta64[_AnyTD64Item], /) -> timedelta64[_AnyTD64Item]: ... # type: ignore[misc]
 @overload
 def __rsub__(self: timedelta64[_AnyTD64Item], a: timedelta64[_AnyTD64Item] | _IntLike_co, /) -> timedelta64[_AnyTD64Item]: ... # type: ignore[misc]
 @overload
 def __rsub__(self, a: timedelta64[None], /) -> timedelta64[None]: ... # type: ignore[overload-cannot-match]
 @overload
 def __rsub__(self, a: datetime64[None], /) -> datetime64[None]: ... # type: ignore[misc]
@overload
 def __truediv__(self: timedelta64[dt.timedelta], b: dt.timedelta, /) -> float: ...
 @overload
 def __truediv__(self, b: timedelta64, /) -> float64: ...
 @overload
 def __truediv__(self: timedelta64[_AnyTD64Item], b: int | integer, /) -> timedelta64[_AnyTD64Item]: ...
 @overload
 def __truediv__(self: timedelta64[_AnyTD64Item], b: float | floating, /) -> timedelta64[_AnyTD64Item | None]: ...
 @overload
 def __truediv__(self, b: float | floating | integer, /) -> timedelta64: ...
@overload
 def __rtruediv__(self: timedelta64[dt.timedelta], a: dt.timedelta, /) -> float: ...
 @overload
 def __rtruediv__(self, a: timedelta64, /) -> float64: ...
@overload
 def __floordiv__(self: timedelta64[dt.timedelta], b: dt.timedelta, /) -> int: ...
 @overload
 def __floordiv__(self, b: timedelta64, /) -> int64: ...
 @overload
 def __floordiv__(self: timedelta64[_AnyTD64Item], b: int | integer, /) -> timedelta64[_AnyTD64Item]: ...
 @overload
 def __floordiv__(self: timedelta64[_AnyTD64Item], b: float | floating, /) -> timedelta64[_AnyTD64Item | None]: ...
@overload
 def __rfloordiv__(self: timedelta64[dt.timedelta], a: dt.timedelta, /) -> int: ...
 @overload
 def __rfloordiv__(self, a: timedelta64, /) -> int64: ...
# comparison ops
@overload
 def __lt__(self, other: _TD64Like_co, /) -> bool_: ...
 @overload
 def __lt__(self, other: _ArrayLikeTD64_co | _NestedSequence[_SupportsGT], /) -> NDArray[bool_]: ...
 @overload
 def __lt__(self, other: _SupportsGT, /) -> bool_: ...
@overload
 def __le__(self, other: _TD64Like_co, /) -> bool_: ...
 @overload
 def __le__(self, other: _ArrayLikeTD64_co | _NestedSequence[_SupportsGE], /) -> NDArray[bool_]: ...
 @overload
 def __le__(self, other: _SupportsGT, /) -> bool_: ...
@overload
 def __gt__(self, other: _TD64Like_co, /) -> bool_: ...
 @overload
 def __gt__(self, other: _ArrayLikeTD64_co | _NestedSequence[_SupportsLT], /) -> NDArray[bool_]: ...
 @overload
 def __gt__(self, other: _SupportsGT, /) -> bool_: ...
@overload
 def __ge__(self, other: _TD64Like_co, /) -> bool_: ...
 @overload
 def __ge__(self, other: _ArrayLikeTD64_co | _NestedSequence[_SupportsLE], /) -> NDArray[bool_]: ...
 @overload
 def __ge__(self, other: _SupportsGT, /) -> bool_: ...
class datetime64(_RealMixin, generic[_DT64ItemT_co], Generic[_DT64ItemT_co]):
 @property
 def itemsize(self) -> L[8]: ...
 @property
 def nbytes(self) -> L[8]: ...
@overload
 def __new__(cls, value: datetime64[_DT64ItemT_co], /) -> Self: ...
 @overload
 def __new__(cls, value: _AnyDT64Arg, /) -> datetime64[_AnyDT64Arg]: ...
 @overload
 def __new__(cls, value: _NaTValue | None = ..., format: _TimeUnitSpec = ..., /) -> datetime64[None]: ...
 @overload
 def __new__(cls, value: _DT64Now, format: _TimeUnitSpec[_NativeTimeUnit] = ..., /) -> datetime64[dt.datetime]: ...
 @overload
 def __new__(cls, value: _DT64Date, format: _TimeUnitSpec[_DateUnit] = ..., /) -> datetime64[dt.date]: ...
 @overload
 def __new__(cls, value: int | bytes | str | dt.date, format: _TimeUnitSpec[_IntTimeUnit], /) -> datetime64[int]: ...
 @overload
 def __new__(
 cls, value: int | bytes | str | dt.date, format: _TimeUnitSpec[_NativeTimeUnit], /
 ) -> datetime64[dt.datetime]: ...
 @overload
 def __new__(cls, value: int | bytes | str | dt.date, format: _TimeUnitSpec[_DateUnit], /) -> datetime64[dt.date]: ...
 @overload
 def __new__(cls, value: bytes | str | dt.date | None, format: _TimeUnitSpec = ..., /) -> Self: ...
def __class_getitem__(cls, type_arg: type | object, /) -> GenericAlias: ...
@overload
 def __add__(self: datetime64[_AnyDT64Item], x: int | integer | np.bool, /) -> datetime64[_AnyDT64Item]: ...
 @overload
 def __add__(self: datetime64[None], x: _TD64Like_co, /) -> datetime64[None]: ...
 @overload
 def __add__(self: datetime64[int], x: timedelta64[int | dt.timedelta], /) -> datetime64[int]: ...
 @overload
 def __add__(self: datetime64[dt.datetime], x: timedelta64[dt.timedelta], /) -> datetime64[dt.datetime]: ...
 @overload
 def __add__(self: datetime64[dt.date], x: timedelta64[dt.timedelta], /) -> datetime64[dt.date]: ...
 @overload
 def __add__(self: datetime64[dt.date], x: timedelta64[int], /) -> datetime64[int]: ...
 @overload
 def __add__(self, x: datetime64[None], /) -> datetime64[None]: ...
 @overload
 def __add__(self, x: _TD64Like_co, /) -> datetime64: ...
 __radd__ = __add__
@overload
 def __sub__(self: datetime64[_AnyDT64Item], x: int | integer | np.bool, /) -> datetime64[_AnyDT64Item]: ...
 @overload
 def __sub__(self: datetime64[_AnyDate], x: _AnyDate, /) -> dt.timedelta: ...
 @overload
 def __sub__(self: datetime64[None], x: timedelta64, /) -> datetime64[None]: ...
 @overload
 def __sub__(self: datetime64[None], x: datetime64, /) -> timedelta64[None]: ...
 @overload
 def __sub__(self: datetime64[int], x: timedelta64, /) -> datetime64[int]: ...
 @overload
 def __sub__(self: datetime64[int], x: datetime64, /) -> timedelta64[int]: ...
 @overload
 def __sub__(self: datetime64[dt.datetime], x: timedelta64[int], /) -> datetime64[int]: ...
 @overload
 def __sub__(self: datetime64[dt.datetime], x: timedelta64[dt.timedelta], /) -> datetime64[dt.datetime]: ...
 @overload
 def __sub__(self: datetime64[dt.datetime], x: datetime64[int], /) -> timedelta64[int]: ...
 @overload
 def __sub__(self: datetime64[dt.date], x: timedelta64[int], /) -> datetime64[dt.date | int]: ...
 @overload
 def __sub__(self: datetime64[dt.date], x: timedelta64[dt.timedelta], /) -> datetime64[dt.date]: ...
 @overload
 def __sub__(self: datetime64[dt.date], x: datetime64[dt.date], /) -> timedelta64[dt.timedelta]: ...
 @overload
 def __sub__(self, x: timedelta64[None], /) -> datetime64[None]: ...
 @overload
 def __sub__(self, x: datetime64[None], /) -> timedelta64[None]: ...
 @overload
 def __sub__(self, x: _TD64Like_co, /) -> datetime64: ...
 @overload
 def __sub__(self, x: datetime64, /) -> timedelta64: ...
# NOTE: mypy gets confused by the non-commutativity of subtraction here
 @overload
 def __rsub__(self: datetime64[_AnyDT64Item], x: int | integer | np.bool, /) -> datetime64[_AnyDT64Item]: ...
 @overload
 def __rsub__(self: datetime64[_AnyDate], x: _AnyDate, /) -> dt.timedelta: ...
 @overload
 def __rsub__(self: datetime64[None], x: datetime64, /) -> timedelta64[None]: ...
 @overload
 def __rsub__(self: datetime64[int], x: datetime64, /) -> timedelta64[int]: ...
 @overload
 def __rsub__(self: datetime64[dt.datetime], x: datetime64[int], /) -> timedelta64[int]: ... # type: ignore[misc]
 @overload
 def __rsub__(self: datetime64[dt.datetime], x: datetime64[dt.date], /) -> timedelta64[dt.timedelta]: ... # type: ignore[misc]
 @overload
 def __rsub__(self, x: datetime64[None], /) -> timedelta64[None]: ... # type: ignore[misc]
 @overload
 def __rsub__(self, x: datetime64, /) -> timedelta64: ... # type: ignore[misc]
@overload
 def __lt__(self, other: datetime64, /) -> bool_: ...
 @overload
 def __lt__(self, other: _ArrayLikeDT64_co | _NestedSequence[_SupportsGT], /) -> NDArray[bool_]: ...
 @overload
 def __lt__(self, other: _SupportsGT, /) -> bool_: ...
@overload
 def __le__(self, other: datetime64, /) -> bool_: ...
 @overload
 def __le__(self, other: _ArrayLikeDT64_co | _NestedSequence[_SupportsGE], /) -> NDArray[bool_]: ...
 @overload
 def __le__(self, other: _SupportsGT, /) -> bool_: ...
@overload
 def __gt__(self, other: datetime64, /) -> bool_: ...
 @overload
 def __gt__(self, other: _ArrayLikeDT64_co | _NestedSequence[_SupportsLT], /) -> NDArray[bool_]: ...
 @overload
 def __gt__(self, other: _SupportsGT, /) -> bool_: ...
@overload
 def __ge__(self, other: datetime64, /) -> bool_: ...
 @overload
 def __ge__(self, other: _ArrayLikeDT64_co | _NestedSequence[_SupportsLE], /) -> NDArray[bool_]: ...
 @overload
 def __ge__(self, other: _SupportsGT, /) -> bool_: ...
@final # cannot be subclassed at runtime
class flexible(_RealMixin, generic[_FlexibleItemT_co], Generic[_FlexibleItemT_co]): ... # type: ignore[misc]
class void(flexible[bytes | tuple[Any, ...]]): # type: ignore[misc]
 @overload
 def __new__(cls, length_or_data: _IntLike_co | bytes, /, dtype: None = None) -> Self: ...
 @overload
 def __new__(cls, length_or_data: object, /, dtype: _DTypeLikeVoid) -> Self: ...
@overload
 def __getitem__(self, key: str | SupportsIndex, /) -> Any: ...
 @overload
 def __getitem__(self, key: list[str], /) -> void: ...
 def __setitem__(self, key: str | list[str] | SupportsIndex, value: ArrayLike, /) -> None: ...
def setfield(self, val: ArrayLike, dtype: DTypeLike, offset: int = ...) -> None: ...
class character(flexible[_CharacterItemT_co], Generic[_CharacterItemT_co]): # type: ignore[misc]
 @abstractmethod
 def __new__(cls, value: object = ..., /) -> Self: ...
# NOTE: Most `np.bytes_` / `np.str_` methods return their builtin `bytes` / `str` counterpart
class bytes_(character[bytes], bytes): # type: ignore[misc]
 @overload
 def __new__(cls, value: object = b"", /) -> Self: ...
 @overload
 def __new__(cls, value: str, /, encoding: str, errors: str = "strict") -> Self: ...
#
 @override
 def __hash__(self, /) -> int: ...
#
 def __bytes__(self, /) -> bytes: ...
class str_(character[str], str): # type: ignore[misc]
 @overload
 def __new__(cls, value: object = "", /) -> Self: ...
 @overload
 def __new__(cls, value: bytes, /, encoding: str, errors: str = "strict") -> Self: ...
#
 @override
 def __hash__(self, /) -> int: ...
# See `numpy._typing._ufunc` for more concrete nin-/nout-specific stubs
@final
class ufunc:
 __signature__: Final[inspect.Signature]
@property
 def __name__(self) -> LiteralString: ...
 @property
 def __qualname__(self) -> LiteralString: ... # pyright: ignore[reportIncompatibleVariableOverride]
 @property
 def __doc__(self) -> str: ... # type: ignore[override]
 @property
 def nin(self) -> int: ...
 @property
 def nout(self) -> int: ...
 @property
 def nargs(self) -> int: ...
 @property
 def ntypes(self) -> int: ...
 @property
 def types(self) -> list[LiteralString]: ...
 # Broad return type because it has to encompass things like
 #
 # >>> np.logical_and.identity is True
 # True
 # >>> np.add.identity is 0
 # True
 # >>> np.sin.identity is None
 # True
 #
 # and any user-defined ufuncs.
 @property
 def identity(self) -> Any: ...
 # This is None for ufuncs and a string for gufuncs.
 @property
 def signature(self) -> LiteralString | None: ...
def __call__(self, /, *args: Any, **kwargs: Any) -> Any: ...
# The next four methods will always exist, but they will just
 # raise a ValueError ufuncs with that don't accept two input
 # arguments and return one output argument. Because of that we
 # can't type them very precisely.
 def accumulate(
 self,
 array: ArrayLike,
 /,
 axis: SupportsIndex = 0,
 dtype: DTypeLike | None = None,
 out: ndarray | EllipsisType | None = None,
 ) -> NDArray[Incomplete]: ...
 def reduce(
 self,
 array: ArrayLike,
 /,
 axis: _ShapeLike | None = 0,
 dtype: DTypeLike | None = None,
 out: ndarray | EllipsisType | None = None,
 **kwargs: Incomplete,
 ) -> Incomplete: ...
 def reduceat(
 self,
 array: ArrayLike,
 /,
 indices: _ArrayLikeInt_co,
 axis: SupportsIndex = 0,
 dtype: DTypeLike | None = None,
 out: ndarray | EllipsisType | None = None,
 ) -> NDArray[Incomplete]: ...
 def outer(self, A: ArrayLike, B: ArrayLike, /, **kwargs: Incomplete) -> NDArray[Incomplete]: ...
# Similarly `at` won't be defined for ufuncs that return multiple
 # outputs, so we can't type it very precisely.
 def at(self, a: ndarray, indices: _ArrayLikeInt_co, b: ArrayLike | None = None, /) -> None: ...
#
 def resolve_dtypes(
 self,
 /,
 dtypes: tuple[dtype | type | None, ...],
 *,
 signature: tuple[dtype | None, ...] | None = None,
 casting: _CastingKind | None = None,
 reduction: builtins.bool = False,
 ) -> tuple[dtype, ...]: ...
# Parameters: `__name__`, `ntypes` and `identity`
absolute: _UFunc_Nin1_Nout1[L["absolute"], L[20], None]
add: _UFunc_Nin2_Nout1[L["add"], L[22], L[0]]
arccos: _UFunc_Nin1_Nout1[L["arccos"], L[8], None]
arccosh: _UFunc_Nin1_Nout1[L["arccosh"], L[8], None]
arcsin: _UFunc_Nin1_Nout1[L["arcsin"], L[8], None]
arcsinh: _UFunc_Nin1_Nout1[L["arcsinh"], L[8], None]
arctan2: _UFunc_Nin2_Nout1[L["arctan2"], L[5], None]
arctan: _UFunc_Nin1_Nout1[L["arctan"], L[8], None]
arctanh: _UFunc_Nin1_Nout1[L["arctanh"], L[8], None]
bitwise_and: _UFunc_Nin2_Nout1[L["bitwise_and"], L[12], L[-1]]
bitwise_count: _UFunc_Nin1_Nout1[L["bitwise_count"], L[11], None]
bitwise_or: _UFunc_Nin2_Nout1[L["bitwise_or"], L[12], L[0]]
bitwise_xor: _UFunc_Nin2_Nout1[L["bitwise_xor"], L[12], L[0]]
cbrt: _UFunc_Nin1_Nout1[L["cbrt"], L[5], None]
ceil: _UFunc_Nin1_Nout1[L["ceil"], L[7], None]
conjugate: _UFunc_Nin1_Nout1[L["conjugate"], L[18], None]
copysign: _UFunc_Nin2_Nout1[L["copysign"], L[4], None]
cos: _UFunc_Nin1_Nout1[L["cos"], L[9], None]
cosh: _UFunc_Nin1_Nout1[L["cosh"], L[8], None]
deg2rad: _UFunc_Nin1_Nout1[L["deg2rad"], L[5], None]
degrees: _UFunc_Nin1_Nout1[L["degrees"], L[5], None]
divide: _UFunc_Nin2_Nout1[L["divide"], L[11], None]
divmod: _UFunc_Nin2_Nout2[L["divmod"], L[15], None]
equal: _UFunc_Nin2_Nout1[L["equal"], L[23], None]
exp2: _UFunc_Nin1_Nout1[L["exp2"], L[8], None]
exp: _UFunc_Nin1_Nout1[L["exp"], L[10], None]
expm1: _UFunc_Nin1_Nout1[L["expm1"], L[8], None]
fabs: _UFunc_Nin1_Nout1[L["fabs"], L[5], None]
float_power: _UFunc_Nin2_Nout1[L["float_power"], L[4], None]
floor: _UFunc_Nin1_Nout1[L["floor"], L[7], None]
floor_divide: _UFunc_Nin2_Nout1[L["floor_divide"], L[21], None]
fmax: _UFunc_Nin2_Nout1[L["fmax"], L[21], None]
fmin: _UFunc_Nin2_Nout1[L["fmin"], L[21], None]
fmod: _UFunc_Nin2_Nout1[L["fmod"], L[15], None]
frexp: _UFunc_Nin1_Nout2[L["frexp"], L[4], None]
gcd: _UFunc_Nin2_Nout1[L["gcd"], L[11], L[0]]
greater: _UFunc_Nin2_Nout1[L["greater"], L[23], None]
greater_equal: _UFunc_Nin2_Nout1[L["greater_equal"], L[23], None]
heaviside: _UFunc_Nin2_Nout1[L["heaviside"], L[4], None]
hypot: _UFunc_Nin2_Nout1[L["hypot"], L[5], L[0]]
invert: _UFunc_Nin1_Nout1[L["invert"], L[12], None]
isfinite: _UFunc_Nin1_Nout1[L["isfinite"], L[20], None]
isinf: _UFunc_Nin1_Nout1[L["isinf"], L[20], None]
isnan: _UFunc_Nin1_Nout1[L["isnan"], L[20], None]
isnat: _UFunc_Nin1_Nout1[L["isnat"], L[2], None]
lcm: _UFunc_Nin2_Nout1[L["lcm"], L[11], None]
ldexp: _UFunc_Nin2_Nout1[L["ldexp"], L[8], None]
left_shift: _UFunc_Nin2_Nout1[L["left_shift"], L[11], None]
less: _UFunc_Nin2_Nout1[L["less"], L[23], None]
less_equal: _UFunc_Nin2_Nout1[L["less_equal"], L[23], None]
log10: _UFunc_Nin1_Nout1[L["log10"], L[8], None]
log1p: _UFunc_Nin1_Nout1[L["log1p"], L[8], None]
log2: _UFunc_Nin1_Nout1[L["log2"], L[8], None]
log: _UFunc_Nin1_Nout1[L["log"], L[10], None]
logaddexp2: _UFunc_Nin2_Nout1[L["logaddexp2"], L[4], float]
logaddexp: _UFunc_Nin2_Nout1[L["logaddexp"], L[4], float]
logical_and: _UFunc_Nin2_Nout1[L["logical_and"], L[20], L[True]]
logical_not: _UFunc_Nin1_Nout1[L["logical_not"], L[20], None]
logical_or: _UFunc_Nin2_Nout1[L["logical_or"], L[20], L[False]]
logical_xor: _UFunc_Nin2_Nout1[L["logical_xor"], L[19], L[False]]
matmul: _GUFunc_Nin2_Nout1[L["matmul"], L[19], None, L["(n?,k),(k,m?)->(n?,m?)"]]
matvec: _GUFunc_Nin2_Nout1[L["matvec"], L[19], None, L["(m,n),(n)->(m)"]]
maximum: _UFunc_Nin2_Nout1[L["maximum"], L[21], None]
minimum: _UFunc_Nin2_Nout1[L["minimum"], L[21], None]
modf: _UFunc_Nin1_Nout2[L["modf"], L[4], None]
multiply: _UFunc_Nin2_Nout1[L["multiply"], L[23], L[1]]
negative: _UFunc_Nin1_Nout1[L["negative"], L[19], None]
nextafter: _UFunc_Nin2_Nout1[L["nextafter"], L[4], None]
not_equal: _UFunc_Nin2_Nout1[L["not_equal"], L[23], None]
positive: _UFunc_Nin1_Nout1[L["positive"], L[19], None]
power: _UFunc_Nin2_Nout1[L["power"], L[18], None]
rad2deg: _UFunc_Nin1_Nout1[L["rad2deg"], L[5], None]
radians: _UFunc_Nin1_Nout1[L["radians"], L[5], None]
reciprocal: _UFunc_Nin1_Nout1[L["reciprocal"], L[18], None]
remainder: _UFunc_Nin2_Nout1[L["remainder"], L[16], None]
right_shift: _UFunc_Nin2_Nout1[L["right_shift"], L[11], None]
rint: _UFunc_Nin1_Nout1[L["rint"], L[10], None]
sign: _UFunc_Nin1_Nout1[L["sign"], L[19], None]
signbit: _UFunc_Nin1_Nout1[L["signbit"], L[4], None]
sin: _UFunc_Nin1_Nout1[L["sin"], L[9], None]
sinh: _UFunc_Nin1_Nout1[L["sinh"], L[8], None]
spacing: _UFunc_Nin1_Nout1[L["spacing"], L[4], None]
sqrt: _UFunc_Nin1_Nout1[L["sqrt"], L[10], None]
square: _UFunc_Nin1_Nout1[L["square"], L[18], None]
subtract: _UFunc_Nin2_Nout1[L["subtract"], L[21], None]
tan: _UFunc_Nin1_Nout1[L["tan"], L[8], None]
tanh: _UFunc_Nin1_Nout1[L["tanh"], L[8], None]
trunc: _UFunc_Nin1_Nout1[L["trunc"], L[7], None]
vecdot: _GUFunc_Nin2_Nout1[L["vecdot"], L[19], None, L["(n),(n)->()"]]
vecmat: _GUFunc_Nin2_Nout1[L["vecmat"], L[19], None, L["(n),(n,m)->(m)"]]
abs = absolute
acos = arccos
acosh = arccosh
asin = arcsin
asinh = arcsinh
atan = arctan
atanh = arctanh
atan2 = arctan2
concat = concatenate
bitwise_left_shift = left_shift
bitwise_not = invert
bitwise_invert = invert
bitwise_right_shift = right_shift
conj = conjugate
mod = remainder
permute_dims = transpose
pow = power
true_divide = divide
# TODO: The type of each `__next__` and `iters` return-type depends
# on the length and dtype of `args`; we can't describe this behavior yet
# as we lack variadics (PEP 646).
@final
class broadcast:
 def __new__(cls, *args: ArrayLike) -> broadcast: ...
 @property
 def index(self) -> int: ...
 @property
 def iters(self) -> tuple[flatiter[Any], ...]: ...
 @property
 def nd(self) -> int: ...
 @property
 def ndim(self) -> int: ...
 @property
 def numiter(self) -> int: ...
 @property
 def shape(self) -> _AnyShape: ...
 @property
 def size(self) -> int: ...
 def __next__(self) -> tuple[Any, ...]: ...
 def __iter__(self) -> Self: ...
 def reset(self) -> None: ...
@final
class busdaycalendar:
 def __init__(
 self,
 /,
 weekmask: str | Sequence[int | bool_ | integer] | _SupportsArray[dtype[bool_ | integer]] = "1111100",
 holidays: Sequence[dt.date | datetime64] | _SupportsArray[dtype[datetime64]] | None = None,
 ) -> None: ...
 @property
 def weekmask(self) -> ndarray[tuple[int], dtype[bool_]]: ...
 @property
 def holidays(self) -> ndarray[tuple[int], dtype[datetime64[dt.date]]]: ...
@final
class nditer:
 @overload
 def __init__(
 self,
 /,
 op: ArrayLike,
 flags: Sequence[_NDIterFlagsKind] | None = None,
 op_flags: Sequence[_NDIterFlagsOp] | None = None,
 op_dtypes: DTypeLike | None = None,
 order: _OrderKACF = "K",
 casting: _CastingKind = "safe",
 op_axes: Sequence[SupportsIndex] | None = None,
 itershape: _ShapeLike | None = None,
 buffersize: SupportsIndex = 0,
 ) -> None: ...
 @overload
 def __init__(
 self,
 /,
 op: Sequence[ArrayLike | None],
 flags: Sequence[_NDIterFlagsKind] | None = None,
 op_flags: Sequence[Sequence[_NDIterFlagsOp]] | None = None,
 op_dtypes: Sequence[DTypeLike | None] | None = None,
 order: _OrderKACF = "K",
 casting: _CastingKind = "safe",
 op_axes: Sequence[Sequence[SupportsIndex]] | None = None,
 itershape: _ShapeLike | None = None,
 buffersize: SupportsIndex = 0,
 ) -> None: ...
def __enter__(self) -> nditer: ...
 def __exit__(
 self,
 exc_type: type[BaseException] | None,
 exc_value: BaseException | None,
 traceback: TracebackType | None,
 ) -> None: ...
 def __iter__(self) -> nditer: ...
 def __next__(self) -> tuple[NDArray[Any], ...]: ...
 def __len__(self) -> int: ...
 def __copy__(self) -> nditer: ...
 @overload
 def __getitem__(self, index: SupportsIndex) -> NDArray[Any]: ...
 @overload
 def __getitem__(self, index: slice) -> tuple[NDArray[Any], ...]: ...
 def __setitem__(self, index: slice | SupportsIndex, value: ArrayLike) -> None: ...
 def close(self) -> None: ...
 def copy(self) -> nditer: ...
 def debug_print(self) -> None: ...
 def enable_external_loop(self) -> None: ...
 def iternext(self) -> builtins.bool: ...
 def remove_axis(self, i: SupportsIndex, /) -> None: ...
 def remove_multi_index(self) -> None: ...
 def reset(self) -> None: ...
 @property
 def dtypes(self) -> tuple[dtype, ...]: ...
 @property
 def finished(self) -> builtins.bool: ...
 @property
 def has_delayed_bufalloc(self) -> builtins.bool: ...
 @property
 def has_index(self) -> builtins.bool: ...
 @property
 def has_multi_index(self) -> builtins.bool: ...
 @property
 def index(self) -> int: ...
 @property
 def iterationneedsapi(self) -> builtins.bool: ...
 @property
 def iterindex(self) -> int: ...
 @property
 def iterrange(self) -> tuple[int, ...]: ...
 @property
 def itersize(self) -> int: ...
 @property
 def itviews(self) -> tuple[NDArray[Any], ...]: ...
 @property
 def multi_index(self) -> tuple[int, ...]: ...
 @property
 def ndim(self) -> int: ...
 @property
 def nop(self) -> int: ...
 @property
 def operands(self) -> tuple[NDArray[Any], ...]: ...
 @property
 def shape(self) -> tuple[int, ...]: ...
 @property
 def value(self) -> tuple[NDArray[Any], ...]: ...
class memmap(ndarray[_ShapeT_co, _DTypeT_co]):
 __array_priority__: ClassVar[float]
 filename: str | None
 offset: int
 mode: str
 @overload
 def __new__(
 subtype,
 filename: StrOrBytesPath | _SupportsFileMethodsRW,
 dtype: type[uint8] = ...,
 mode: _MemMapModeKind = "r+",
 offset: int = 0,
 shape: int | tuple[int, ...] | None = None,
 order: _OrderKACF = "C",
 ) -> memmap[Any, dtype[uint8]]: ...
 @overload
 def __new__(
 subtype,
 filename: StrOrBytesPath | _SupportsFileMethodsRW,
 dtype: _DTypeLike[_ScalarT],
 mode: _MemMapModeKind = "r+",
 offset: int = 0,
 shape: int | tuple[int, ...] | None = None,
 order: _OrderKACF = "C",
 ) -> memmap[Any, dtype[_ScalarT]]: ...
 @overload
 def __new__(
 subtype,
 filename: StrOrBytesPath | _SupportsFileMethodsRW,
 dtype: DTypeLike,
 mode: _MemMapModeKind = "r+",
 offset: int = 0,
 shape: int | tuple[int, ...] | None = None,
 order: _OrderKACF = "C",
 ) -> memmap[Any, dtype]: ...
 def __array_finalize__(self, obj: object) -> None: ...
 def __array_wrap__(
 self,
 array: memmap[_ShapeT_co, _DTypeT_co], # type: ignore[override]
 context: tuple[ufunc, tuple[Any, ...], int] | None = None,
 return_scalar: builtins.bool = False,
 ) -> Any: ...
 def flush(self) -> None: ...
class poly1d:
 @property
 def variable(self) -> LiteralString: ...
 @property
 def order(self) -> int: ...
 @property
 def o(self) -> int: ...
 @property
 def roots(self) -> NDArray[Any]: ...
 @property
 def r(self) -> NDArray[Any]: ...
@property
 def coeffs(self) -> NDArray[Any]: ...
 @coeffs.setter
 def coeffs(self, value: NDArray[Any]) -> None: ...
@property
 def c(self) -> NDArray[Any]: ...
 @c.setter
 def c(self, value: NDArray[Any]) -> None: ...
@property
 def coef(self) -> NDArray[Any]: ...
 @coef.setter
 def coef(self, value: NDArray[Any]) -> None: ...
@property
 def coefficients(self) -> NDArray[Any]: ...
 @coefficients.setter
 def coefficients(self, value: NDArray[Any]) -> None: ...
__hash__: ClassVar[None] # type: ignore[assignment] # pyright: ignore[reportIncompatibleMethodOverride]
@overload
 def __array__(self, /, t: None = None, copy: builtins.bool | None = None) -> ndarray[tuple[int], dtype]: ...
 @overload
 def __array__(self, /, t: _DTypeT, copy: builtins.bool | None = None) -> ndarray[tuple[int], _DTypeT]: ...
@overload
 def __call__(self, val: _ScalarLike_co) -> Any: ...
 @overload
 def __call__(self, val: poly1d) -> poly1d: ...
 @overload
 def __call__(self, val: ArrayLike) -> NDArray[Any]: ...
def __init__(
 self,
 c_or_r: ArrayLike,
 r: builtins.bool = False,
 variable: str | None = None,
 ) -> None: ...
 def __len__(self) -> int: ...
 def __neg__(self) -> poly1d: ...
 def __pos__(self) -> poly1d: ...
 def __mul__(self, other: ArrayLike, /) -> poly1d: ...
 def __rmul__(self, other: ArrayLike, /) -> poly1d: ...
 def __add__(self, other: ArrayLike, /) -> poly1d: ...
 def __radd__(self, other: ArrayLike, /) -> poly1d: ...
 def __pow__(self, val: _FloatLike_co, /) -> poly1d: ... # Integral floats are accepted
 def __sub__(self, other: ArrayLike, /) -> poly1d: ...
 def __rsub__(self, other: ArrayLike, /) -> poly1d: ...
 def __truediv__(self, other: ArrayLike, /) -> poly1d: ...
 def __rtruediv__(self, other: ArrayLike, /) -> poly1d: ...
 def __getitem__(self, val: int, /) -> Any: ...
 def __setitem__(self, key: int, val: Any, /) -> None: ...
 def __iter__(self) -> Iterator[Any]: ...
 def deriv(self, m: SupportsInt | SupportsIndex = 1) -> poly1d: ...
 def integ(
 self,
 m: SupportsInt | SupportsIndex = 1,
 k: _ArrayLikeComplex_co | _ArrayLikeObject_co | None = 0,
 ) -> poly1d: ...
def from_dlpack(
 x: _SupportsDLPack[None],
 /,
 *,
 device: L["cpu"] | None = None,
 copy: builtins.bool | None = None,
) -> NDArray[number | np.bool]: ...