Intelegentny_Pszczelarz/.venv/Lib/site-packages/numpy/lib/twodim_base.pyi

from collections.abc import Callable, Sequence
from typing import (
    Any,
    overload,
    TypeVar,
    Union,
)

from numpy import (
    generic,
    number,
    bool_,
    timedelta64,
    datetime64,
    int_,
    intp,
    float64,
    signedinteger,
    floating,
    complexfloating,
    object_,
    _OrderCF,
)

from numpy._typing import (
    DTypeLike,
    _DTypeLike,
    ArrayLike,
    _ArrayLike,
    NDArray,
    _SupportsArrayFunc,
    _ArrayLikeInt_co,
    _ArrayLikeFloat_co,
    _ArrayLikeComplex_co,
    _ArrayLikeObject_co,
)

_T = TypeVar("_T")
_SCT = TypeVar("_SCT", bound=generic)

# The returned arrays dtype must be compatible with `np.equal`
_MaskFunc = Callable[
    [NDArray[int_], _T],
    NDArray[Union[number[Any], bool_, timedelta64, datetime64, object_]],
]

__all__: list[str]

@overload
def fliplr(m: _ArrayLike[_SCT]) -> NDArray[_SCT]: ...
@overload
def fliplr(m: ArrayLike) -> NDArray[Any]: ...

@overload
def flipud(m: _ArrayLike[_SCT]) -> NDArray[_SCT]: ...
@overload
def flipud(m: ArrayLike) -> NDArray[Any]: ...

@overload
def eye(
    N: int,
    M: None | int = ...,
    k: int = ...,
    dtype: None = ...,
    order: _OrderCF = ...,
    *,
    like: None | _SupportsArrayFunc = ...,
) -> NDArray[float64]: ...
@overload
def eye(
    N: int,
    M: None | int = ...,
    k: int = ...,
    dtype: _DTypeLike[_SCT] = ...,
    order: _OrderCF = ...,
    *,
    like: None | _SupportsArrayFunc = ...,
) -> NDArray[_SCT]: ...
@overload
def eye(
    N: int,
    M: None | int = ...,
    k: int = ...,
    dtype: DTypeLike = ...,
    order: _OrderCF = ...,
    *,
    like: None | _SupportsArrayFunc = ...,
) -> NDArray[Any]: ...

@overload
def diag(v: _ArrayLike[_SCT], k: int = ...) -> NDArray[_SCT]: ...
@overload
def diag(v: ArrayLike, k: int = ...) -> NDArray[Any]: ...

@overload
def diagflat(v: _ArrayLike[_SCT], k: int = ...) -> NDArray[_SCT]: ...
@overload
def diagflat(v: ArrayLike, k: int = ...) -> NDArray[Any]: ...

@overload
def tri(
    N: int,
    M: None | int = ...,
    k: int = ...,
    dtype: None = ...,
    *,
    like: None | _SupportsArrayFunc = ...
) -> NDArray[float64]: ...
@overload
def tri(
    N: int,
    M: None | int = ...,
    k: int = ...,
    dtype: _DTypeLike[_SCT] = ...,
    *,
    like: None | _SupportsArrayFunc = ...
) -> NDArray[_SCT]: ...
@overload
def tri(
    N: int,
    M: None | int = ...,
    k: int = ...,
    dtype: DTypeLike = ...,
    *,
    like: None | _SupportsArrayFunc = ...
) -> NDArray[Any]: ...

@overload
def tril(v: _ArrayLike[_SCT], k: int = ...) -> NDArray[_SCT]: ...
@overload
def tril(v: ArrayLike, k: int = ...) -> NDArray[Any]: ...

@overload
def triu(v: _ArrayLike[_SCT], k: int = ...) -> NDArray[_SCT]: ...
@overload
def triu(v: ArrayLike, k: int = ...) -> NDArray[Any]: ...

@overload
def vander(  # type: ignore[misc]
    x: _ArrayLikeInt_co,
    N: None | int = ...,
    increasing: bool = ...,
) -> NDArray[signedinteger[Any]]: ...
@overload
def vander(  # type: ignore[misc]
    x: _ArrayLikeFloat_co,
    N: None | int = ...,
    increasing: bool = ...,
) -> NDArray[floating[Any]]: ...
@overload
def vander(
    x: _ArrayLikeComplex_co,
    N: None | int = ...,
    increasing: bool = ...,
) -> NDArray[complexfloating[Any, Any]]: ...
@overload
def vander(
    x: _ArrayLikeObject_co,
    N: None | int = ...,
    increasing: bool = ...,
) -> NDArray[object_]: ...

@overload
def histogram2d(  # type: ignore[misc]
    x: _ArrayLikeFloat_co,
    y: _ArrayLikeFloat_co,
    bins: int | Sequence[int] = ...,
    range: None | _ArrayLikeFloat_co = ...,
    normed: None | bool = ...,
    weights: None | _ArrayLikeFloat_co = ...,
    density: None | bool = ...,
) -> tuple[
    NDArray[float64],
    NDArray[floating[Any]],
    NDArray[floating[Any]],
]: ...
@overload
def histogram2d(
    x: _ArrayLikeComplex_co,
    y: _ArrayLikeComplex_co,
    bins: int | Sequence[int] = ...,
    range: None | _ArrayLikeFloat_co = ...,
    normed: None | bool = ...,
    weights: None | _ArrayLikeFloat_co = ...,
    density: None | bool = ...,
) -> tuple[
    NDArray[float64],
    NDArray[complexfloating[Any, Any]],
    NDArray[complexfloating[Any, Any]],
]: ...
@overload  # TODO: Sort out `bins`
def histogram2d(
    x: _ArrayLikeComplex_co,
    y: _ArrayLikeComplex_co,
    bins: Sequence[_ArrayLikeInt_co],
    range: None | _ArrayLikeFloat_co = ...,
    normed: None | bool = ...,
    weights: None | _ArrayLikeFloat_co = ...,
    density: None | bool = ...,
) -> tuple[
    NDArray[float64],
    NDArray[Any],
    NDArray[Any],
]: ...

# NOTE: we're assuming/demanding here the `mask_func` returns
# an ndarray of shape `(n, n)`; otherwise there is the possibility
# of the output tuple having more or less than 2 elements
@overload
def mask_indices(
    n: int,
    mask_func: _MaskFunc[int],
    k: int = ...,
) -> tuple[NDArray[intp], NDArray[intp]]: ...
@overload
def mask_indices(
    n: int,
    mask_func: _MaskFunc[_T],
    k: _T,
) -> tuple[NDArray[intp], NDArray[intp]]: ...

def tril_indices(
    n: int,
    k: int = ...,
    m: None | int = ...,
) -> tuple[NDArray[int_], NDArray[int_]]: ...

def tril_indices_from(
    arr: NDArray[Any],
    k: int = ...,
) -> tuple[NDArray[int_], NDArray[int_]]: ...

def triu_indices(
    n: int,
    k: int = ...,
    m: None | int = ...,
) -> tuple[NDArray[int_], NDArray[int_]]: ...

def triu_indices_from(
    arr: NDArray[Any],
    k: int = ...,
) -> tuple[NDArray[int_], NDArray[int_]]: ...
feature: "ANN commit 2" 2023-06-19 00:49:18 +02:00			`from collections.abc import Callable, Sequence`
			`from typing import (`
			`Any,`
			`overload,`
			`TypeVar,`
			`Union,`
			`)`

			`from numpy import (`
			`generic,`
			`number,`
			`bool_,`
			`timedelta64,`
			`datetime64,`
			`int_,`
			`intp,`
			`float64,`
			`signedinteger,`
			`floating,`
			`complexfloating,`
			`object_,`
			`_OrderCF,`
			`)`

			`from numpy._typing import (`
			`DTypeLike,`
			`_DTypeLike,`
			`ArrayLike,`
			`_ArrayLike,`
			`NDArray,`
			`_SupportsArrayFunc,`
			`_ArrayLikeInt_co,`
			`_ArrayLikeFloat_co,`
			`_ArrayLikeComplex_co,`
			`_ArrayLikeObject_co,`
			`)`

			`_T = TypeVar("_T")`
			`_SCT = TypeVar("_SCT", bound=generic)`

			# The returned arrays dtype must be compatible with `np.equal`
			`_MaskFunc = Callable[`
			`[NDArray[int_], _T],`
			`NDArray[Union[number[Any], bool_, timedelta64, datetime64, object_]],`
			`]`

			`__all__: list[str]`

			`@overload`
			`def fliplr(m: _ArrayLike[_SCT]) -> NDArray[_SCT]: ...`
			`@overload`
			`def fliplr(m: ArrayLike) -> NDArray[Any]: ...`

			`@overload`
			`def flipud(m: _ArrayLike[_SCT]) -> NDArray[_SCT]: ...`
			`@overload`
			`def flipud(m: ArrayLike) -> NDArray[Any]: ...`

			`@overload`
			`def eye(`
			`N: int,`
			`M: None \| int = ...,`
			`k: int = ...,`
			`dtype: None = ...,`
			`order: _OrderCF = ...,`
			`*,`
			`like: None \| _SupportsArrayFunc = ...,`
			`) -> NDArray[float64]: ...`
			`@overload`
			`def eye(`
			`N: int,`
			`M: None \| int = ...,`
			`k: int = ...,`
			`dtype: _DTypeLike[_SCT] = ...,`
			`order: _OrderCF = ...,`
			`*,`
			`like: None \| _SupportsArrayFunc = ...,`
			`) -> NDArray[_SCT]: ...`
			`@overload`
			`def eye(`
			`N: int,`
			`M: None \| int = ...,`
			`k: int = ...,`
			`dtype: DTypeLike = ...,`
			`order: _OrderCF = ...,`
			`*,`
			`like: None \| _SupportsArrayFunc = ...,`
			`) -> NDArray[Any]: ...`

			`@overload`
			`def diag(v: _ArrayLike[_SCT], k: int = ...) -> NDArray[_SCT]: ...`
			`@overload`
			`def diag(v: ArrayLike, k: int = ...) -> NDArray[Any]: ...`

			`@overload`
			`def diagflat(v: _ArrayLike[_SCT], k: int = ...) -> NDArray[_SCT]: ...`
			`@overload`
			`def diagflat(v: ArrayLike, k: int = ...) -> NDArray[Any]: ...`

			`@overload`
			`def tri(`
			`N: int,`
			`M: None \| int = ...,`
			`k: int = ...,`
			`dtype: None = ...,`
			`*,`
			`like: None \| _SupportsArrayFunc = ...`
			`) -> NDArray[float64]: ...`
			`@overload`
			`def tri(`
			`N: int,`
			`M: None \| int = ...,`
			`k: int = ...,`
			`dtype: _DTypeLike[_SCT] = ...,`
			`*,`
			`like: None \| _SupportsArrayFunc = ...`
			`) -> NDArray[_SCT]: ...`
			`@overload`
			`def tri(`
			`N: int,`
			`M: None \| int = ...,`
			`k: int = ...,`
			`dtype: DTypeLike = ...,`
			`*,`
			`like: None \| _SupportsArrayFunc = ...`
			`) -> NDArray[Any]: ...`

			`@overload`
			`def tril(v: _ArrayLike[_SCT], k: int = ...) -> NDArray[_SCT]: ...`
			`@overload`
			`def tril(v: ArrayLike, k: int = ...) -> NDArray[Any]: ...`

			`@overload`
			`def triu(v: _ArrayLike[_SCT], k: int = ...) -> NDArray[_SCT]: ...`
			`@overload`
			`def triu(v: ArrayLike, k: int = ...) -> NDArray[Any]: ...`

			`@overload`
			`def vander( # type: ignore[misc]`
			`x: _ArrayLikeInt_co,`
			`N: None \| int = ...,`
			`increasing: bool = ...,`
			`) -> NDArray[signedinteger[Any]]: ...`
			`@overload`
			`def vander( # type: ignore[misc]`
			`x: _ArrayLikeFloat_co,`
			`N: None \| int = ...,`
			`increasing: bool = ...,`
			`) -> NDArray[floating[Any]]: ...`
			`@overload`
			`def vander(`
			`x: _ArrayLikeComplex_co,`
			`N: None \| int = ...,`
			`increasing: bool = ...,`
			`) -> NDArray[complexfloating[Any, Any]]: ...`
			`@overload`
			`def vander(`
			`x: _ArrayLikeObject_co,`
			`N: None \| int = ...,`
			`increasing: bool = ...,`
			`) -> NDArray[object_]: ...`

			`@overload`
			`def histogram2d( # type: ignore[misc]`
			`x: _ArrayLikeFloat_co,`
			`y: _ArrayLikeFloat_co,`
			`bins: int \| Sequence[int] = ...,`
			`range: None \| _ArrayLikeFloat_co = ...,`
			`normed: None \| bool = ...,`
			`weights: None \| _ArrayLikeFloat_co = ...,`
			`density: None \| bool = ...,`
			`) -> tuple[`
			`NDArray[float64],`
			`NDArray[floating[Any]],`
			`NDArray[floating[Any]],`
			`]: ...`
			`@overload`
			`def histogram2d(`
			`x: _ArrayLikeComplex_co,`
			`y: _ArrayLikeComplex_co,`
			`bins: int \| Sequence[int] = ...,`
			`range: None \| _ArrayLikeFloat_co = ...,`
			`normed: None \| bool = ...,`
			`weights: None \| _ArrayLikeFloat_co = ...,`
			`density: None \| bool = ...,`
			`) -> tuple[`
			`NDArray[float64],`
			`NDArray[complexfloating[Any, Any]],`
			`NDArray[complexfloating[Any, Any]],`
			`]: ...`
			@overload # TODO: Sort out `bins`
			`def histogram2d(`
			`x: _ArrayLikeComplex_co,`
			`y: _ArrayLikeComplex_co,`
			`bins: Sequence[_ArrayLikeInt_co],`
			`range: None \| _ArrayLikeFloat_co = ...,`
			`normed: None \| bool = ...,`
			`weights: None \| _ArrayLikeFloat_co = ...,`
			`density: None \| bool = ...,`
			`) -> tuple[`
			`NDArray[float64],`
			`NDArray[Any],`
			`NDArray[Any],`
			`]: ...`

			# NOTE: we're assuming/demanding here the `mask_func` returns
			# an ndarray of shape `(n, n)`; otherwise there is the possibility
			`# of the output tuple having more or less than 2 elements`
			`@overload`
			`def mask_indices(`
			`n: int,`
			`mask_func: _MaskFunc[int],`
			`k: int = ...,`
			`) -> tuple[NDArray[intp], NDArray[intp]]: ...`
			`@overload`
			`def mask_indices(`
			`n: int,`
			`mask_func: _MaskFunc[_T],`
			`k: _T,`
			`) -> tuple[NDArray[intp], NDArray[intp]]: ...`

			`def tril_indices(`
			`n: int,`
			`k: int = ...,`
			`m: None \| int = ...,`
			`) -> tuple[NDArray[int_], NDArray[int_]]: ...`

			`def tril_indices_from(`
			`arr: NDArray[Any],`
			`k: int = ...,`
			`) -> tuple[NDArray[int_], NDArray[int_]]: ...`

			`def triu_indices(`
			`n: int,`
			`k: int = ...,`
			`m: None \| int = ...,`
			`) -> tuple[NDArray[int_], NDArray[int_]]: ...`

			`def triu_indices_from(`
			`arr: NDArray[Any],`
			`k: int = ...,`
			`) -> tuple[NDArray[int_], NDArray[int_]]: ...`