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Old engine for Continuous Time Bayesian Networks. Superseded by reCTBN. 🐍 https://github.com/madlabunimib/PyCTBN
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PyCTBN/venv/lib/python3.9/site-packages/scipy/special/orthogonal.pyi

328 lines
7.9 KiB

from typing import (
Any,
Callable,
List,
Optional,
overload,
Tuple,
Union,
)
from typing_extensions import Literal
import numpy
_IntegerType = Union[int, numpy.integer]
_FloatingType = Union[float, numpy.floating]
_PointsAndWeights = Tuple[numpy.ndarray, numpy.ndarray]
_PointsAndWeightsAndMu = Tuple[numpy.ndarray, numpy.ndarray, float]
__all__ = [
'legendre',
'chebyt',
'chebyu',
'chebyc',
'chebys',
'jacobi',
'laguerre',
'genlaguerre',
'hermite',
'hermitenorm',
'gegenbauer',
'sh_legendre',
'sh_chebyt',
'sh_chebyu',
'sh_jacobi',
'roots_legendre',
'roots_chebyt',
'roots_chebyu',
'roots_chebyc',
'roots_chebys',
'roots_jacobi',
'roots_laguerre',
'roots_genlaguerre',
'roots_hermite',
'roots_hermitenorm',
'roots_gegenbauer',
'roots_sh_legendre',
'roots_sh_chebyt',
'roots_sh_chebyu',
'roots_sh_jacobi',
]
@overload
def roots_jacobi(
n: _IntegerType,
alpha: _FloatingType,
beta: _FloatingType,
) -> _PointsAndWeights: ...
@overload
def roots_jacobi(
n: _IntegerType,
alpha: _FloatingType,
beta: _FloatingType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_jacobi(
n: _IntegerType,
alpha: _FloatingType,
beta: _FloatingType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_sh_jacobi(
n: _IntegerType,
p1: _FloatingType,
q1: _FloatingType,
) -> _PointsAndWeights: ...
@overload
def roots_sh_jacobi(
n: _IntegerType,
p1: _FloatingType,
q1: _FloatingType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_sh_jacobi(
n: _IntegerType,
p1: _FloatingType,
q1: _FloatingType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_genlaguerre(
n: _IntegerType,
alpha: _FloatingType,
) -> _PointsAndWeights: ...
@overload
def roots_genlaguerre(
n: _IntegerType,
alpha: _FloatingType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_genlaguerre(
n: _IntegerType,
alpha: _FloatingType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_laguerre(n: _IntegerType) -> _PointsAndWeights: ...
@overload
def roots_laguerre(
n: _IntegerType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_laguerre(
n: _IntegerType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_hermite(n: _IntegerType) -> _PointsAndWeights: ...
@overload
def roots_hermite(
n: _IntegerType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_hermite(
n: _IntegerType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_hermitenorm(n: _IntegerType) -> _PointsAndWeights: ...
@overload
def roots_hermitenorm(
n: _IntegerType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_hermitenorm(
n: _IntegerType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_gegenbauer(
n: _IntegerType,
alpha: _FloatingType,
) -> _PointsAndWeights: ...
@overload
def roots_gegenbauer(
n: _IntegerType,
alpha: _FloatingType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_gegenbauer(
n: _IntegerType,
alpha: _FloatingType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_chebyt(n: _IntegerType) -> _PointsAndWeights: ...
@overload
def roots_chebyt(
n: _IntegerType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_chebyt(
n: _IntegerType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_chebyu(n: _IntegerType) -> _PointsAndWeights: ...
@overload
def roots_chebyu(
n: _IntegerType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_chebyu(
n: _IntegerType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_chebyc(n: _IntegerType) -> _PointsAndWeights: ...
@overload
def roots_chebyc(
n: _IntegerType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_chebyc(
n: _IntegerType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_chebys(n: _IntegerType) -> _PointsAndWeights: ...
@overload
def roots_chebys(
n: _IntegerType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_chebys(
n: _IntegerType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_sh_chebyt(n: _IntegerType) -> _PointsAndWeights: ...
@overload
def roots_sh_chebyt(
n: _IntegerType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_sh_chebyt(
n: _IntegerType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_sh_chebyu(n: _IntegerType) -> _PointsAndWeights: ...
@overload
def roots_sh_chebyu(
n: _IntegerType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_sh_chebyu(
n: _IntegerType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_legendre(n: _IntegerType) -> _PointsAndWeights: ...
@overload
def roots_legendre(
n: _IntegerType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_legendre(
n: _IntegerType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
@overload
def roots_sh_legendre(n: _IntegerType) -> _PointsAndWeights: ...
@overload
def roots_sh_legendre(
n: _IntegerType,
mu: Literal[False],
) -> _PointsAndWeights: ...
@overload
def roots_sh_legendre(
n: _IntegerType,
mu: Literal[True],
) -> _PointsAndWeightsAndMu: ...
class orthopoly1d(numpy.poly1d):
def __init__(
self,
roots: Any, # TODO: ArrayLike
weights: Optional[Any], # TODO: ArrayLike
hn: float = ...,
kn: float = ...,
wfunc = Optional[Callable[[float], float]],
limits = Optional[Tuple[float, float]],
monic: bool = ...,
eval_func: numpy.ufunc = ...,
) -> None: ...
@property
def limits(self) -> Tuple[float, float]: ...
def wfunc(x: float) -> float: ...
# TODO: ArrayLike
def __call__(self, x: Any) -> numpy.ndarray: ...
def legendre(n: _IntegerType, monic: bool = ...) -> orthopoly1d: ...
def chebyt(n: _IntegerType, monic: bool = ...) -> orthopoly1d: ...
def chebyu(n: _IntegerType, monic: bool = ...) -> orthopoly1d: ...
def chebyc(n: _IntegerType, monic: bool = ...) -> orthopoly1d: ...
def chebys(n: _IntegerType, monic: bool = ...) -> orthopoly1d: ...
def jacobi(
n: _IntegerType,
alpha: _FloatingType,
beta: _FloatingType,
monic: bool = ...,
) -> orthopoly1d: ...
def laguerre(n: _IntegerType, monic: bool = ...) -> orthopoly1d: ...
def genlaguerre(
n: _IntegerType,
alpha: _FloatingType,
monic: bool = ...,
) -> orthopoly1d: ...
def hermite(n: _IntegerType, monic: bool = ...) -> orthopoly1d: ...
def hermitenorm(n: _IntegerType, monic: bool = ...) -> orthopoly1d: ...
def gegenbauer(
n: _IntegerType,
alpha: _FloatingType,
monic: bool = ...,
) -> orthopoly1d: ...
def sh_legendre(n: _IntegerType, monic: bool = ...) -> orthopoly1d: ...
def sh_chebyt(n: _IntegerType, monic: bool = ...) -> orthopoly1d: ...
def sh_chebyu(n: _IntegerType, monic: bool = ...) -> orthopoly1d: ...
def sh_jacobi(
n: _IntegerType,
p: _FloatingType,
q: _FloatingType,
monic: bool = ...,
) -> orthopoly1d: ...
# These functions are not public, but still need stubs because they
# get checked in the tests.
def _roots_hermite_asy(n: _IntegerType) -> _PointsAndWeights: ...