import concurrent.futures import sys from collections.abc import Awaitable, Generator, Iterable, Iterator from types import FrameType from typing import Any, Generic, Optional, TextIO, TypeVar, Union, overload from typing_extensions import Literal from .events import AbstractEventLoop from .futures import Future if sys.version_info >= (3, 9): from types import GenericAlias _T = TypeVar("_T") _T1 = TypeVar("_T1") _T2 = TypeVar("_T2") _T3 = TypeVar("_T3") _T4 = TypeVar("_T4") _T5 = TypeVar("_T5") _FT = TypeVar("_FT", bound=Future[Any]) _FutureT = Union[Future[_T], Generator[Any, None, _T], Awaitable[_T]] _TaskYieldType = Optional[Future[object]] FIRST_EXCEPTION: str FIRST_COMPLETED: str ALL_COMPLETED: str if sys.version_info >= (3, 10): def as_completed(fs: Iterable[_FutureT[_T]], *, timeout: float | None = ...) -> Iterator[Future[_T]]: ... else: def as_completed( fs: Iterable[_FutureT[_T]], *, loop: AbstractEventLoop | None = ..., timeout: float | None = ... ) -> Iterator[Future[_T]]: ... @overload def ensure_future(coro_or_future: _FT, *, loop: AbstractEventLoop | None = ...) -> _FT: ... # type: ignore @overload def ensure_future(coro_or_future: Awaitable[_T], *, loop: AbstractEventLoop | None = ...) -> Task[_T]: ... # Prior to Python 3.7 'async' was an alias for 'ensure_future'. # It became a keyword in 3.7. # `gather()` actually returns a list with length equal to the number # of tasks passed; however, Tuple is used similar to the annotation for # zip() because typing does not support variadic type variables. See # typing PR #1550 for discussion. if sys.version_info >= (3, 10): @overload def gather(coro_or_future1: _FutureT[_T1], *, return_exceptions: Literal[False] = ...) -> Future[tuple[_T1]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], *, return_exceptions: Literal[False] = ... ) -> Future[tuple[_T1, _T2]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], *, return_exceptions: Literal[False] = ..., ) -> Future[tuple[_T1, _T2, _T3]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], coro_or_future4: _FutureT[_T4], *, return_exceptions: Literal[False] = ..., ) -> Future[tuple[_T1, _T2, _T3, _T4]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], coro_or_future4: _FutureT[_T4], coro_or_future5: _FutureT[_T5], *, return_exceptions: Literal[False] = ..., ) -> Future[tuple[_T1, _T2, _T3, _T4, _T5]]: ... @overload def gather( coro_or_future1: _FutureT[Any], coro_or_future2: _FutureT[Any], coro_or_future3: _FutureT[Any], coro_or_future4: _FutureT[Any], coro_or_future5: _FutureT[Any], coro_or_future6: _FutureT[Any], *coros_or_futures: _FutureT[Any], return_exceptions: bool = ..., ) -> Future[list[Any]]: ... @overload def gather(coro_or_future1: _FutureT[_T1], *, return_exceptions: bool = ...) -> Future[tuple[_T1 | BaseException]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], *, return_exceptions: bool = ... ) -> Future[tuple[_T1 | BaseException, _T2 | BaseException]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], *, return_exceptions: bool = ..., ) -> Future[tuple[_T1 | BaseException, _T2 | BaseException, _T3 | BaseException]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], coro_or_future4: _FutureT[_T4], *, return_exceptions: bool = ..., ) -> Future[tuple[_T1 | BaseException, _T2 | BaseException, _T3 | BaseException, _T4 | BaseException]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], coro_or_future4: _FutureT[_T4], coro_or_future5: _FutureT[_T5], *, return_exceptions: bool = ..., ) -> Future[ tuple[_T1 | BaseException, _T2 | BaseException, _T3 | BaseException, _T4 | BaseException, _T5 | BaseException] ]: ... else: @overload def gather( coro_or_future1: _FutureT[_T1], *, loop: AbstractEventLoop | None = ..., return_exceptions: Literal[False] = ... ) -> Future[tuple[_T1]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], *, loop: AbstractEventLoop | None = ..., return_exceptions: Literal[False] = ..., ) -> Future[tuple[_T1, _T2]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], *, loop: AbstractEventLoop | None = ..., return_exceptions: Literal[False] = ..., ) -> Future[tuple[_T1, _T2, _T3]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], coro_or_future4: _FutureT[_T4], *, loop: AbstractEventLoop | None = ..., return_exceptions: Literal[False] = ..., ) -> Future[tuple[_T1, _T2, _T3, _T4]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], coro_or_future4: _FutureT[_T4], coro_or_future5: _FutureT[_T5], *, loop: AbstractEventLoop | None = ..., return_exceptions: Literal[False] = ..., ) -> Future[tuple[_T1, _T2, _T3, _T4, _T5]]: ... @overload def gather( coro_or_future1: _FutureT[Any], coro_or_future2: _FutureT[Any], coro_or_future3: _FutureT[Any], coro_or_future4: _FutureT[Any], coro_or_future5: _FutureT[Any], coro_or_future6: _FutureT[Any], *coros_or_futures: _FutureT[Any], loop: AbstractEventLoop | None = ..., return_exceptions: bool = ..., ) -> Future[list[Any]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], *, loop: AbstractEventLoop | None = ..., return_exceptions: bool = ... ) -> Future[tuple[_T1 | BaseException]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], *, loop: AbstractEventLoop | None = ..., return_exceptions: bool = ..., ) -> Future[tuple[_T1 | BaseException, _T2 | BaseException]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], *, loop: AbstractEventLoop | None = ..., return_exceptions: bool = ..., ) -> Future[tuple[_T1 | BaseException, _T2 | BaseException, _T3 | BaseException]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], coro_or_future4: _FutureT[_T4], *, loop: AbstractEventLoop | None = ..., return_exceptions: bool = ..., ) -> Future[tuple[_T1 | BaseException, _T2 | BaseException, _T3 | BaseException, _T4 | BaseException]]: ... @overload def gather( coro_or_future1: _FutureT[_T1], coro_or_future2: _FutureT[_T2], coro_or_future3: _FutureT[_T3], coro_or_future4: _FutureT[_T4], coro_or_future5: _FutureT[_T5], *, loop: AbstractEventLoop | None = ..., return_exceptions: bool = ..., ) -> Future[ tuple[_T1 | BaseException, _T2 | BaseException, _T3 | BaseException, _T4 | BaseException, _T5 | BaseException] ]: ... def run_coroutine_threadsafe(coro: _FutureT[_T], loop: AbstractEventLoop) -> concurrent.futures.Future[_T]: ... if sys.version_info >= (3, 10): def shield(arg: _FutureT[_T]) -> Future[_T]: ... def sleep(delay: float, result: _T = ...) -> Future[_T]: ... @overload def wait(fs: Iterable[_FT], *, timeout: float | None = ..., return_when: str = ...) -> Future[tuple[set[_FT], set[_FT]]]: ... # type: ignore @overload def wait( fs: Iterable[Awaitable[_T]], *, timeout: float | None = ..., return_when: str = ... ) -> Future[tuple[set[Task[_T]], set[Task[_T]]]]: ... def wait_for(fut: _FutureT[_T], timeout: float | None) -> Future[_T]: ... else: def shield(arg: _FutureT[_T], *, loop: AbstractEventLoop | None = ...) -> Future[_T]: ... def sleep(delay: float, result: _T = ..., *, loop: AbstractEventLoop | None = ...) -> Future[_T]: ... @overload def wait(fs: Iterable[_FT], *, loop: AbstractEventLoop | None = ..., timeout: float | None = ..., return_when: str = ...) -> Future[tuple[set[_FT], set[_FT]]]: ... # type: ignore @overload def wait( fs: Iterable[Awaitable[_T]], *, loop: AbstractEventLoop | None = ..., timeout: float | None = ..., return_when: str = ... ) -> Future[tuple[set[Task[_T]], set[Task[_T]]]]: ... def wait_for(fut: _FutureT[_T], timeout: float | None, *, loop: AbstractEventLoop | None = ...) -> Future[_T]: ... class Task(Future[_T], Generic[_T]): if sys.version_info >= (3, 8): def __init__( self, coro: Generator[_TaskYieldType, None, _T] | Awaitable[_T], *, loop: AbstractEventLoop = ..., name: str | None = ..., ) -> None: ... else: def __init__( self, coro: Generator[_TaskYieldType, None, _T] | Awaitable[_T], *, loop: AbstractEventLoop = ... ) -> None: ... def __repr__(self) -> str: ... if sys.version_info >= (3, 8): def get_coro(self) -> Generator[_TaskYieldType, None, _T] | Awaitable[_T]: ... def get_name(self) -> str: ... def set_name(self, __value: object) -> None: ... def get_stack(self, *, limit: int | None = ...) -> list[FrameType]: ... def print_stack(self, *, limit: int | None = ..., file: TextIO | None = ...) -> None: ... if sys.version_info >= (3, 9): def cancel(self, msg: Any | None = ...) -> bool: ... else: def cancel(self) -> bool: ... if sys.version_info < (3, 9): @classmethod def current_task(cls, loop: AbstractEventLoop | None = ...) -> Task[Any] | None: ... @classmethod def all_tasks(cls, loop: AbstractEventLoop | None = ...) -> set[Task[Any]]: ... if sys.version_info < (3, 7): def _wakeup(self, fut: Future[Any]) -> None: ... if sys.version_info >= (3, 9): def __class_getitem__(cls, item: Any) -> GenericAlias: ... if sys.version_info >= (3, 7): def all_tasks(loop: AbstractEventLoop | None = ...) -> set[Task[Any]]: ... if sys.version_info >= (3, 8): def create_task(coro: Generator[_TaskYieldType, None, _T] | Awaitable[_T], *, name: str | None = ...) -> Task[_T]: ... else: def create_task(coro: Generator[_TaskYieldType, None, _T] | Awaitable[_T]) -> Task[_T]: ... def current_task(loop: AbstractEventLoop | None = ...) -> Task[Any] | None: ...