import _random import sys from _typeshed import SupportsLenAndGetItem from collections.abc import Callable, Iterable, MutableSequence, Sequence, Set as AbstractSet from fractions import Fraction from typing import Any, ClassVar, NoReturn, TypeVar _T = TypeVar("_T") class Random(_random.Random): VERSION: ClassVar[int] def __init__(self, x: Any = ...) -> None: ... # Using other `seed` types is deprecated since 3.9 and removed in 3.11 if sys.version_info >= (3, 9): def seed(self, a: int | float | str | bytes | bytearray | None = ..., version: int = ...) -> None: ... # type: ignore[override] else: def seed(self, a: Any = ..., version: int = ...) -> None: ... def getstate(self) -> tuple[Any, ...]: ... def setstate(self, state: tuple[Any, ...]) -> None: ... def getrandbits(self, __k: int) -> int: ... def randrange(self, start: int, stop: int | None = ..., step: int = ...) -> int: ... def randint(self, a: int, b: int) -> int: ... if sys.version_info >= (3, 9): def randbytes(self, n: int) -> bytes: ... def choice(self, seq: SupportsLenAndGetItem[_T]) -> _T: ... def choices( self, population: SupportsLenAndGetItem[_T], weights: Sequence[float | Fraction] | None = ..., *, cum_weights: Sequence[float | Fraction] | None = ..., k: int = ..., ) -> list[_T]: ... def shuffle(self, x: MutableSequence[Any], random: Callable[[], float] | None = ...) -> None: ... if sys.version_info >= (3, 9): def sample( self, population: Sequence[_T] | AbstractSet[_T], k: int, *, counts: Iterable[_T] | None = ... ) -> list[_T]: ... else: def sample(self, population: Sequence[_T] | AbstractSet[_T], k: int) -> list[_T]: ... def random(self) -> float: ... def uniform(self, a: float, b: float) -> float: ... def triangular(self, low: float = ..., high: float = ..., mode: float | None = ...) -> float: ... def betavariate(self, alpha: float, beta: float) -> float: ... def expovariate(self, lambd: float) -> float: ... def gammavariate(self, alpha: float, beta: float) -> float: ... def gauss(self, mu: float, sigma: float) -> float: ... def lognormvariate(self, mu: float, sigma: float) -> float: ... def normalvariate(self, mu: float, sigma: float) -> float: ... def vonmisesvariate(self, mu: float, kappa: float) -> float: ... def paretovariate(self, alpha: float) -> float: ... def weibullvariate(self, alpha: float, beta: float) -> float: ... # SystemRandom is not implemented for all OS's; good on Windows & Linux class SystemRandom(Random): def getrandbits(self, k: int) -> int: ... # k can be passed by keyword def getstate(self, *args: Any, **kwds: Any) -> NoReturn: ... def setstate(self, *args: Any, **kwds: Any) -> NoReturn: ... # ----- random function stubs ----- if sys.version_info >= (3, 9): def seed(a: int | float | str | bytes | bytearray | None = ..., version: int = ...) -> None: ... else: def seed(a: Any = ..., version: int = ...) -> None: ... def getstate() -> object: ... def setstate(state: object) -> None: ... def getrandbits(__k: int) -> int: ... def randrange(start: int, stop: None | int = ..., step: int = ...) -> int: ... def randint(a: int, b: int) -> int: ... if sys.version_info >= (3, 9): def randbytes(n: int) -> bytes: ... def choice(seq: SupportsLenAndGetItem[_T]) -> _T: ... def choices( population: SupportsLenAndGetItem[_T], weights: Sequence[float] | None = ..., *, cum_weights: Sequence[float] | None = ..., k: int = ..., ) -> list[_T]: ... def shuffle(x: MutableSequence[Any], random: Callable[[], float] | None = ...) -> None: ... if sys.version_info >= (3, 9): def sample(population: Sequence[_T] | AbstractSet[_T], k: int, *, counts: Iterable[_T] | None = ...) -> list[_T]: ... else: def sample(population: Sequence[_T] | AbstractSet[_T], k: int) -> list[_T]: ... def random() -> float: ... def uniform(a: float, b: float) -> float: ... def triangular(low: float = ..., high: float = ..., mode: float | None = ...) -> float: ... def betavariate(alpha: float, beta: float) -> float: ... def expovariate(lambd: float) -> float: ... def gammavariate(alpha: float, beta: float) -> float: ... def gauss(mu: float, sigma: float) -> float: ... def lognormvariate(mu: float, sigma: float) -> float: ... def normalvariate(mu: float, sigma: float) -> float: ... def vonmisesvariate(mu: float, kappa: float) -> float: ... def paretovariate(alpha: float) -> float: ... def weibullvariate(alpha: float, beta: float) -> float: ...