import numpy as np from typing import (Union, Any, Tuple, List, overload, Callable, NamedTuple, Protocol) import numpy.typing as npt from scipy._lib._util import SeedType import scipy.stats as stats ArrayLike0D = Union[bool, int, float, complex, str, bytes, np.generic] __all__: List[str] class UNURANError(RuntimeError): ... class Method: @overload def rvs(self, size: None = ...) -> float | int: ... # type: ignore[misc] @overload def rvs(self, size: int | Tuple[int, ...] = ...) -> np.ndarray: ... def set_random_state(self, random_state: SeedType) -> None: ... class TDRDist(Protocol): @property def pdf(self) -> Callable[..., float]: ... @property def dpdf(self) -> Callable[..., float]: ... @property def support(self) -> Tuple[float, float]: ... class TransformedDensityRejection(Method): def __init__(self, dist: TDRDist, *, mode: None | float = ..., center: None | float = ..., domain: None | Tuple[float, float] = ..., c: float = ..., construction_points: int | npt.ArrayLike = ..., use_dars: bool = ..., max_squeeze_hat_ratio: float = ..., random_state: SeedType = ...) -> None: ... @property def squeeze_hat_ratio(self) -> float: ... @property def squeeze_area(self) -> float: ... @overload def ppf_hat(self, u: ArrayLike0D) -> float: ... # type: ignore[misc] @overload def ppf_hat(self, u: npt.ArrayLike) -> np.ndarray: ... class SROUDist(Protocol): @property def pdf(self) -> Callable[..., float]: ... @property def support(self) -> Tuple[float, float]: ... class SimpleRatioUniforms(Method): def __init__(self, dist: SROUDist, *, mode: None | float = ..., pdf_area: float = ..., domain: None | Tuple[float, float] = ..., cdf_at_mode: float = ..., random_state: SeedType = ...) -> None: ... UError = NamedTuple('UError', [('max_error', float), ('mean_absolute_error', float)]) class PINVDist(Protocol): @property def pdf(self) -> Callable[..., float]: ... @property def cdf(self) -> Callable[..., float]: ... @property def logpdf(self) -> Callable[..., float]: ... class NumericalInversePolynomial(Method): def __init__(self, dist: PINVDist, *, mode: None | float = ..., center: None | float = ..., domain: None | Tuple[float, float] = ..., order: int = ..., u_resolution: float = ..., random_state: SeedType = ...) -> None: ... @property def intervals(self) -> int: ... @overload def ppf(self, u: ArrayLike0D) -> float: ... # type: ignore[misc] @overload def ppf(self, u: npt.ArrayLike) -> np.ndarray: ... @overload def cdf(self, x: ArrayLike0D) -> float: ... # type: ignore[misc] @overload def cdf(self, x: npt.ArrayLike) -> np.ndarray: ... def u_error(self, sample_size: int = ...) -> UError: ... def qrvs(self, size: None | int | Tuple[int, ...] = ..., d: None | int = ..., qmc_engine: None | stats.qmc.QMCEngine = ...) -> npt.ArrayLike: ... class HINVDist(Protocol): @property def pdf(self) -> Callable[..., float]: ... @property def cdf(self) -> Callable[..., float]: ... @property def support(self) -> Tuple[float, float]: ... class NumericalInverseHermite(Method): def __init__(self, dist: HINVDist, *, domain: None | Tuple[float, float] = ..., order: int= ..., u_resolution: float = ..., construction_points: None | npt.ArrayLike = ..., max_intervals: int = ..., random_state: SeedType = ...) -> None: ... @property def intervals(self) -> int: ... @overload def ppf(self, u: ArrayLike0D) -> float: ... # type: ignore[misc] @overload def ppf(self, u: npt.ArrayLike) -> np.ndarray: ... def qrvs(self, size: None | int | Tuple[int, ...] = ..., d: None | int = ..., qmc_engine: None | stats.qmc.QMCEngine = ...) -> npt.ArrayLike: ... def u_error(self, sample_size: int = ...) -> UError: ... class DAUDist(Protocol): @property def pmf(self) -> Callable[..., float]: ... @property def support(self) -> Tuple[float, float]: ... class DiscreteAliasUrn(Method): def __init__(self, dist: npt.ArrayLike | DAUDist, *, domain: None | Tuple[float, float] = ..., urn_factor: float = ..., random_state: SeedType = ...) -> None: ... class DGTDist(Protocol): @property def pmf(self) -> Callable[..., float]: ... @property def support(self) -> Tuple[float, float]: ... class DiscreteGuideTable(Method): def __init__(self, dist: npt.ArrayLike | DGTDist, *, domain: None | Tuple[float, float] = ..., guide_factor: float = ..., random_state: SeedType = ...) -> None: ... @overload def ppf(self, u: ArrayLike0D) -> float: ... # type: ignore[misc] @overload def ppf(self, u: npt.ArrayLike) -> np.ndarray: ...