import sys from _typeshed import MaybeNone from collections.abc import Callable, Iterable, Iterator from typing import Any, Generic, Literal, SupportsComplex, SupportsFloat, SupportsIndex, SupportsInt, TypeVar, overload from typing_extensions import Self, TypeAlias if sys.version_info >= (3, 9): from types import GenericAlias _T = TypeVar("_T") _S = TypeVar("_S") _N = TypeVar("_N", int, float, SupportsFloat, SupportsInt, SupportsIndex, SupportsComplex) _T_co = TypeVar("_T_co", covariant=True) _S_co = TypeVar("_S_co", covariant=True) _T1 = TypeVar("_T1") _T2 = TypeVar("_T2") _T3 = TypeVar("_T3") _T4 = TypeVar("_T4") _T5 = TypeVar("_T5") _T6 = TypeVar("_T6") _T7 = TypeVar("_T7") _T8 = TypeVar("_T8") _T9 = TypeVar("_T9") _T10 = TypeVar("_T10") _Step: TypeAlias = SupportsFloat | SupportsInt | SupportsIndex | SupportsComplex _Predicate: TypeAlias = Callable[[_T], object] # Technically count can take anything that implements a number protocol and has an add method # but we can't enforce the add method class count(Generic[_N]): @overload def __new__(cls) -> count[int]: ... @overload def __new__(cls, start: _N, step: _Step = ...) -> count[_N]: ... @overload def __new__(cls, *, step: _N) -> count[_N]: ... def __next__(self) -> _N: ... def __iter__(self) -> Self: ... class cycle(Generic[_T]): def __init__(self, iterable: Iterable[_T], /) -> None: ... def __next__(self) -> _T: ... def __iter__(self) -> Self: ... class repeat(Generic[_T]): @overload def __init__(self, object: _T) -> None: ... @overload def __init__(self, object: _T, times: int) -> None: ... def __next__(self) -> _T: ... def __iter__(self) -> Self: ... def __length_hint__(self) -> int: ... class accumulate(Generic[_T]): @overload def __init__(self, iterable: Iterable[_T], func: None = None, *, initial: _T | None = ...) -> None: ... @overload def __init__(self, iterable: Iterable[_S], func: Callable[[_T, _S], _T], *, initial: _T | None = ...) -> None: ... def __iter__(self) -> Self: ... def __next__(self) -> _T: ... class chain(Generic[_T]): def __init__(self, *iterables: Iterable[_T]) -> None: ... def __next__(self) -> _T: ... def __iter__(self) -> Self: ... @classmethod # We use type[Any] and not type[_S] to not lose the type inference from __iterable def from_iterable(cls: type[Any], iterable: Iterable[Iterable[_S]], /) -> chain[_S]: ... if sys.version_info >= (3, 9): def __class_getitem__(cls, item: Any, /) -> GenericAlias: ... class compress(Generic[_T]): def __init__(self, data: Iterable[_T], selectors: Iterable[Any]) -> None: ... def __iter__(self) -> Self: ... def __next__(self) -> _T: ... class dropwhile(Generic[_T]): def __init__(self, predicate: _Predicate[_T], iterable: Iterable[_T], /) -> None: ... def __iter__(self) -> Self: ... def __next__(self) -> _T: ... class filterfalse(Generic[_T]): def __init__(self, predicate: _Predicate[_T] | None, iterable: Iterable[_T], /) -> None: ... def __iter__(self) -> Self: ... def __next__(self) -> _T: ... class groupby(Generic[_T_co, _S_co]): @overload def __new__(cls, iterable: Iterable[_T1], key: None = None) -> groupby[_T1, _T1]: ... @overload def __new__(cls, iterable: Iterable[_T1], key: Callable[[_T1], _T2]) -> groupby[_T2, _T1]: ... def __iter__(self) -> Self: ... def __next__(self) -> tuple[_T_co, Iterator[_S_co]]: ... class islice(Generic[_T]): @overload def __init__(self, iterable: Iterable[_T], stop: int | None, /) -> None: ... @overload def __init__(self, iterable: Iterable[_T], start: int | None, stop: int | None, step: int | None = ..., /) -> None: ... def __iter__(self) -> Self: ... def __next__(self) -> _T: ... class starmap(Generic[_T_co]): def __new__(cls, function: Callable[..., _T], iterable: Iterable[Iterable[Any]], /) -> starmap[_T]: ... def __iter__(self) -> Self: ... def __next__(self) -> _T_co: ... class takewhile(Generic[_T]): def __init__(self, predicate: _Predicate[_T], iterable: Iterable[_T], /) -> None: ... def __iter__(self) -> Self: ... def __next__(self) -> _T: ... def tee(iterable: Iterable[_T], n: int = 2, /) -> tuple[Iterator[_T], ...]: ... class zip_longest(Generic[_T_co]): # one iterable (fillvalue doesn't matter) @overload def __new__(cls, iter1: Iterable[_T1], /, *, fillvalue: object = ...) -> zip_longest[tuple[_T1]]: ... # two iterables @overload # In the overloads without fillvalue, all of the tuple members could theoretically be None, # but we return Any instead to avoid false positives for code where we know one of the iterables # is longer. def __new__(cls, iter1: Iterable[_T1], iter2: Iterable[_T2], /) -> zip_longest[tuple[_T1 | MaybeNone, _T2 | MaybeNone]]: ... @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], /, *, fillvalue: _T ) -> zip_longest[tuple[_T1 | _T, _T2 | _T]]: ... # three iterables @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], / ) -> zip_longest[tuple[_T1 | MaybeNone, _T2 | MaybeNone, _T3 | MaybeNone]]: ... @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], /, *, fillvalue: _T ) -> zip_longest[tuple[_T1 | _T, _T2 | _T, _T3 | _T]]: ... # four iterables @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], / ) -> zip_longest[tuple[_T1 | MaybeNone, _T2 | MaybeNone, _T3 | MaybeNone, _T4 | MaybeNone]]: ... @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], /, *, fillvalue: _T ) -> zip_longest[tuple[_T1 | _T, _T2 | _T, _T3 | _T, _T4 | _T]]: ... # five iterables @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], iter5: Iterable[_T5], / ) -> zip_longest[tuple[_T1 | MaybeNone, _T2 | MaybeNone, _T3 | MaybeNone, _T4 | MaybeNone, _T5 | MaybeNone]]: ... @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], iter5: Iterable[_T5], /, *, fillvalue: _T, ) -> zip_longest[tuple[_T1 | _T, _T2 | _T, _T3 | _T, _T4 | _T, _T5 | _T]]: ... # six or more iterables @overload def __new__( cls, iter1: Iterable[_T], iter2: Iterable[_T], iter3: Iterable[_T], iter4: Iterable[_T], iter5: Iterable[_T], iter6: Iterable[_T], /, *iterables: Iterable[_T], ) -> zip_longest[tuple[_T | MaybeNone, ...]]: ... @overload def __new__( cls, iter1: Iterable[_T], iter2: Iterable[_T], iter3: Iterable[_T], iter4: Iterable[_T], iter5: Iterable[_T], iter6: Iterable[_T], /, *iterables: Iterable[_T], fillvalue: _T, ) -> zip_longest[tuple[_T, ...]]: ... def __iter__(self) -> Self: ... def __next__(self) -> _T_co: ... class product(Generic[_T_co]): @overload def __new__(cls, iter1: Iterable[_T1], /) -> product[tuple[_T1]]: ... @overload def __new__(cls, iter1: Iterable[_T1], iter2: Iterable[_T2], /) -> product[tuple[_T1, _T2]]: ... @overload def __new__(cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], /) -> product[tuple[_T1, _T2, _T3]]: ... @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], / ) -> product[tuple[_T1, _T2, _T3, _T4]]: ... @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], iter5: Iterable[_T5], / ) -> product[tuple[_T1, _T2, _T3, _T4, _T5]]: ... @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], iter5: Iterable[_T5], iter6: Iterable[_T6], /, ) -> product[tuple[_T1, _T2, _T3, _T4, _T5, _T6]]: ... @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], iter5: Iterable[_T5], iter6: Iterable[_T6], iter7: Iterable[_T7], /, ) -> product[tuple[_T1, _T2, _T3, _T4, _T5, _T6, _T7]]: ... @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], iter5: Iterable[_T5], iter6: Iterable[_T6], iter7: Iterable[_T7], iter8: Iterable[_T8], /, ) -> product[tuple[_T1, _T2, _T3, _T4, _T5, _T6, _T7, _T8]]: ... @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], iter5: Iterable[_T5], iter6: Iterable[_T6], iter7: Iterable[_T7], iter8: Iterable[_T8], iter9: Iterable[_T9], /, ) -> product[tuple[_T1, _T2, _T3, _T4, _T5, _T6, _T7, _T8, _T9]]: ... @overload def __new__( cls, iter1: Iterable[_T1], iter2: Iterable[_T2], iter3: Iterable[_T3], iter4: Iterable[_T4], iter5: Iterable[_T5], iter6: Iterable[_T6], iter7: Iterable[_T7], iter8: Iterable[_T8], iter9: Iterable[_T9], iter10: Iterable[_T10], /, ) -> product[tuple[_T1, _T2, _T3, _T4, _T5, _T6, _T7, _T8, _T9, _T10]]: ... @overload def __new__(cls, *iterables: Iterable[_T1], repeat: int = 1) -> product[tuple[_T1, ...]]: ... def __iter__(self) -> Self: ... def __next__(self) -> _T_co: ... class permutations(Generic[_T_co]): @overload def __new__(cls, iterable: Iterable[_T], r: Literal[2]) -> permutations[tuple[_T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: Literal[3]) -> permutations[tuple[_T, _T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: Literal[4]) -> permutations[tuple[_T, _T, _T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: Literal[5]) -> permutations[tuple[_T, _T, _T, _T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: int | None = ...) -> permutations[tuple[_T, ...]]: ... def __iter__(self) -> Self: ... def __next__(self) -> _T_co: ... class combinations(Generic[_T_co]): @overload def __new__(cls, iterable: Iterable[_T], r: Literal[2]) -> combinations[tuple[_T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: Literal[3]) -> combinations[tuple[_T, _T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: Literal[4]) -> combinations[tuple[_T, _T, _T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: Literal[5]) -> combinations[tuple[_T, _T, _T, _T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: int) -> combinations[tuple[_T, ...]]: ... def __iter__(self) -> Self: ... def __next__(self) -> _T_co: ... class combinations_with_replacement(Generic[_T_co]): @overload def __new__(cls, iterable: Iterable[_T], r: Literal[2]) -> combinations_with_replacement[tuple[_T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: Literal[3]) -> combinations_with_replacement[tuple[_T, _T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: Literal[4]) -> combinations_with_replacement[tuple[_T, _T, _T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: Literal[5]) -> combinations_with_replacement[tuple[_T, _T, _T, _T, _T]]: ... @overload def __new__(cls, iterable: Iterable[_T], r: int) -> combinations_with_replacement[tuple[_T, ...]]: ... def __iter__(self) -> Self: ... def __next__(self) -> _T_co: ... if sys.version_info >= (3, 10): class pairwise(Generic[_T_co]): def __new__(cls, iterable: Iterable[_T], /) -> pairwise[tuple[_T, _T]]: ... def __iter__(self) -> Self: ... def __next__(self) -> _T_co: ... if sys.version_info >= (3, 12): class batched(Generic[_T_co]): if sys.version_info >= (3, 13): def __new__(cls, iterable: Iterable[_T_co], n: int, *, strict: bool = False) -> Self: ... else: def __new__(cls, iterable: Iterable[_T_co], n: int) -> Self: ... def __iter__(self) -> Self: ... def __next__(self) -> tuple[_T_co, ...]: ...