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tasks.pyi
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import concurrent.futures
import sys
from collections.abc import Awaitable, Coroutine, Generator, Iterable, Iterator
from types import FrameType
from typing import Any, Literal, Protocol, TextIO, TypeVar, overload
from typing_extensions import TypeAlias
from . import _CoroutineLike
from .events import AbstractEventLoop
from .futures import Future
if sys.version_info >= (3, 9):
from types import GenericAlias
if sys.version_info >= (3, 11):
from contextvars import Context
if sys.version_info >= (3, 12):
__all__ = (
"Task",
"create_task",
"FIRST_COMPLETED",
"FIRST_EXCEPTION",
"ALL_COMPLETED",
"wait",
"wait_for",
"as_completed",
"sleep",
"gather",
"shield",
"ensure_future",
"run_coroutine_threadsafe",
"current_task",
"all_tasks",
"create_eager_task_factory",
"eager_task_factory",
"_register_task",
"_unregister_task",
"_enter_task",
"_leave_task",
)
else:
__all__ = (
"Task",
"create_task",
"FIRST_COMPLETED",
"FIRST_EXCEPTION",
"ALL_COMPLETED",
"wait",
"wait_for",
"as_completed",
"sleep",
"gather",
"shield",
"ensure_future",
"run_coroutine_threadsafe",
"current_task",
"all_tasks",
"_register_task",
"_unregister_task",
"_enter_task",
"_leave_task",
)
_T = TypeVar("_T")
_T_co = TypeVar("_T_co", covariant=True)
_T1 = TypeVar("_T1")
_T2 = TypeVar("_T2")
_T3 = TypeVar("_T3")
_T4 = TypeVar("_T4")
_T5 = TypeVar("_T5")
_T6 = TypeVar("_T6")
_FT = TypeVar("_FT", bound=Future[Any])
_FutureLike: TypeAlias = Future[_T] | Generator[Any, None, _T] | Awaitable[_T]
_TaskYieldType: TypeAlias = Future[object] | None
FIRST_COMPLETED = concurrent.futures.FIRST_COMPLETED
FIRST_EXCEPTION = concurrent.futures.FIRST_EXCEPTION
ALL_COMPLETED = concurrent.futures.ALL_COMPLETED
if sys.version_info >= (3, 10):
def as_completed(fs: Iterable[_FutureLike[_T]], *, timeout: float | None = None) -> Iterator[Future[_T]]: ...
else:
def as_completed(
fs: Iterable[_FutureLike[_T]], *, loop: AbstractEventLoop | None = None, timeout: float | None = None
) -> Iterator[Future[_T]]: ...
@overload
def ensure_future(coro_or_future: _FT, *, loop: AbstractEventLoop | None = None) -> _FT: ... # type: ignore[overload-overlap]
@overload
def ensure_future(coro_or_future: Awaitable[_T], *, loop: AbstractEventLoop | None = None) -> Task[_T]: ...
# `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.
#
# N.B. Having overlapping overloads is the only way to get acceptable type inference in all edge cases.
if sys.version_info >= (3, 10):
@overload
def gather(coro_or_future1: _FutureLike[_T1], /, *, return_exceptions: Literal[False] = False) -> Future[tuple[_T1]]: ... # type: ignore[overload-overlap]
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1], coro_or_future2: _FutureLike[_T2], /, *, return_exceptions: Literal[False] = False
) -> Future[tuple[_T1, _T2]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
/,
*,
return_exceptions: Literal[False] = False,
) -> Future[tuple[_T1, _T2, _T3]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
coro_or_future4: _FutureLike[_T4],
/,
*,
return_exceptions: Literal[False] = False,
) -> Future[tuple[_T1, _T2, _T3, _T4]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
coro_or_future4: _FutureLike[_T4],
coro_or_future5: _FutureLike[_T5],
/,
*,
return_exceptions: Literal[False] = False,
) -> Future[tuple[_T1, _T2, _T3, _T4, _T5]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
coro_or_future4: _FutureLike[_T4],
coro_or_future5: _FutureLike[_T5],
coro_or_future6: _FutureLike[_T6],
/,
*,
return_exceptions: Literal[False] = False,
) -> Future[tuple[_T1, _T2, _T3, _T4, _T5, _T6]]: ...
@overload
def gather(*coros_or_futures: _FutureLike[_T], return_exceptions: Literal[False] = False) -> Future[list[_T]]: ... # type: ignore[overload-overlap]
@overload
def gather(coro_or_future1: _FutureLike[_T1], /, *, return_exceptions: bool) -> Future[tuple[_T1 | BaseException]]: ... # type: ignore[overload-overlap]
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1], coro_or_future2: _FutureLike[_T2], /, *, return_exceptions: bool
) -> Future[tuple[_T1 | BaseException, _T2 | BaseException]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
/,
*,
return_exceptions: bool,
) -> Future[tuple[_T1 | BaseException, _T2 | BaseException, _T3 | BaseException]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
coro_or_future4: _FutureLike[_T4],
/,
*,
return_exceptions: bool,
) -> Future[tuple[_T1 | BaseException, _T2 | BaseException, _T3 | BaseException, _T4 | BaseException]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
coro_or_future4: _FutureLike[_T4],
coro_or_future5: _FutureLike[_T5],
/,
*,
return_exceptions: bool,
) -> Future[
tuple[_T1 | BaseException, _T2 | BaseException, _T3 | BaseException, _T4 | BaseException, _T5 | BaseException]
]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
coro_or_future4: _FutureLike[_T4],
coro_or_future5: _FutureLike[_T5],
coro_or_future6: _FutureLike[_T6],
/,
*,
return_exceptions: bool,
) -> Future[
tuple[
_T1 | BaseException,
_T2 | BaseException,
_T3 | BaseException,
_T4 | BaseException,
_T5 | BaseException,
_T6 | BaseException,
]
]: ...
@overload
def gather(*coros_or_futures: _FutureLike[_T], return_exceptions: bool) -> Future[list[_T | BaseException]]: ...
else:
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1], /, *, loop: AbstractEventLoop | None = None, return_exceptions: Literal[False] = False
) -> Future[tuple[_T1]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
/,
*,
loop: AbstractEventLoop | None = None,
return_exceptions: Literal[False] = False,
) -> Future[tuple[_T1, _T2]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
/,
*,
loop: AbstractEventLoop | None = None,
return_exceptions: Literal[False] = False,
) -> Future[tuple[_T1, _T2, _T3]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
coro_or_future4: _FutureLike[_T4],
/,
*,
loop: AbstractEventLoop | None = None,
return_exceptions: Literal[False] = False,
) -> Future[tuple[_T1, _T2, _T3, _T4]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
coro_or_future4: _FutureLike[_T4],
coro_or_future5: _FutureLike[_T5],
/,
*,
loop: AbstractEventLoop | None = None,
return_exceptions: Literal[False] = False,
) -> Future[tuple[_T1, _T2, _T3, _T4, _T5]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
coro_or_future4: _FutureLike[_T4],
coro_or_future5: _FutureLike[_T5],
coro_or_future6: _FutureLike[_T6],
/,
*,
loop: AbstractEventLoop | None = None,
return_exceptions: Literal[False] = False,
) -> Future[tuple[_T1, _T2, _T3, _T4, _T5, _T6]]: ...
@overload
def gather( # type: ignore[overload-overlap]
*coros_or_futures: _FutureLike[_T], loop: AbstractEventLoop | None = None, return_exceptions: Literal[False] = False
) -> Future[list[_T]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1], /, *, loop: AbstractEventLoop | None = None, return_exceptions: bool
) -> Future[tuple[_T1 | BaseException]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
/,
*,
loop: AbstractEventLoop | None = None,
return_exceptions: bool,
) -> Future[tuple[_T1 | BaseException, _T2 | BaseException]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
/,
*,
loop: AbstractEventLoop | None = None,
return_exceptions: bool,
) -> Future[tuple[_T1 | BaseException, _T2 | BaseException, _T3 | BaseException]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
coro_or_future4: _FutureLike[_T4],
/,
*,
loop: AbstractEventLoop | None = None,
return_exceptions: bool,
) -> Future[tuple[_T1 | BaseException, _T2 | BaseException, _T3 | BaseException, _T4 | BaseException]]: ...
@overload
def gather( # type: ignore[overload-overlap]
coro_or_future1: _FutureLike[_T1],
coro_or_future2: _FutureLike[_T2],
coro_or_future3: _FutureLike[_T3],
coro_or_future4: _FutureLike[_T4],
coro_or_future5: _FutureLike[_T5],
coro_or_future6: _FutureLike[_T6],
/,
*,
loop: AbstractEventLoop | None = None,
return_exceptions: bool,
) -> Future[
tuple[
_T1 | BaseException,
_T2 | BaseException,
_T3 | BaseException,
_T4 | BaseException,
_T5 | BaseException,
_T6 | BaseException,
]
]: ...
@overload
def gather(
*coros_or_futures: _FutureLike[_T], loop: AbstractEventLoop | None = None, return_exceptions: bool
) -> Future[list[_T | BaseException]]: ...
def run_coroutine_threadsafe(coro: _FutureLike[_T], loop: AbstractEventLoop) -> concurrent.futures.Future[_T]: ...
if sys.version_info >= (3, 10):
def shield(arg: _FutureLike[_T]) -> Future[_T]: ...
@overload
async def sleep(delay: float) -> None: ...
@overload
async def sleep(delay: float, result: _T) -> _T: ...
async def wait_for(fut: _FutureLike[_T], timeout: float | None) -> _T: ...
else:
def shield(arg: _FutureLike[_T], *, loop: AbstractEventLoop | None = None) -> Future[_T]: ...
@overload
async def sleep(delay: float, *, loop: AbstractEventLoop | None = None) -> None: ...
@overload
async def sleep(delay: float, result: _T, *, loop: AbstractEventLoop | None = None) -> _T: ...
async def wait_for(fut: _FutureLike[_T], timeout: float | None, *, loop: AbstractEventLoop | None = None) -> _T: ...
if sys.version_info >= (3, 11):
@overload
async def wait(
fs: Iterable[_FT], *, timeout: float | None = None, return_when: str = "ALL_COMPLETED"
) -> tuple[set[_FT], set[_FT]]: ...
@overload
async def wait(
fs: Iterable[Task[_T]], *, timeout: float | None = None, return_when: str = "ALL_COMPLETED"
) -> tuple[set[Task[_T]], set[Task[_T]]]: ...
elif sys.version_info >= (3, 10):
@overload
async def wait( # type: ignore[overload-overlap]
fs: Iterable[_FT], *, timeout: float | None = None, return_when: str = "ALL_COMPLETED"
) -> tuple[set[_FT], set[_FT]]: ...
@overload
async def wait(
fs: Iterable[Awaitable[_T]], *, timeout: float | None = None, return_when: str = "ALL_COMPLETED"
) -> tuple[set[Task[_T]], set[Task[_T]]]: ...
else:
@overload
async def wait( # type: ignore[overload-overlap]
fs: Iterable[_FT],
*,
loop: AbstractEventLoop | None = None,
timeout: float | None = None,
return_when: str = "ALL_COMPLETED",
) -> tuple[set[_FT], set[_FT]]: ...
@overload
async def wait(
fs: Iterable[Awaitable[_T]],
*,
loop: AbstractEventLoop | None = None,
timeout: float | None = None,
return_when: str = "ALL_COMPLETED",
) -> tuple[set[Task[_T]], set[Task[_T]]]: ...
if sys.version_info >= (3, 12):
_TaskCompatibleCoro: TypeAlias = Coroutine[Any, Any, _T_co]
elif sys.version_info >= (3, 9):
_TaskCompatibleCoro: TypeAlias = Generator[_TaskYieldType, None, _T_co] | Coroutine[Any, Any, _T_co]
else:
_TaskCompatibleCoro: TypeAlias = Generator[_TaskYieldType, None, _T_co] | Awaitable[_T_co]
# mypy and pyright complain that a subclass of an invariant class shouldn't be covariant.
# While this is true in general, here it's sort-of okay to have a covariant subclass,
# since the only reason why `asyncio.Future` is invariant is the `set_result()` method,
# and `asyncio.Task.set_result()` always raises.
class Task(Future[_T_co]): # type: ignore[type-var] # pyright: ignore[reportInvalidTypeArguments]
if sys.version_info >= (3, 12):
def __init__(
self,
coro: _TaskCompatibleCoro[_T_co],
*,
loop: AbstractEventLoop = ...,
name: str | None = ...,
context: Context | None = None,
eager_start: bool = False,
) -> None: ...
elif sys.version_info >= (3, 11):
def __init__(
self,
coro: _TaskCompatibleCoro[_T_co],
*,
loop: AbstractEventLoop = ...,
name: str | None = ...,
context: Context | None = None,
) -> None: ...
else:
def __init__(
self, coro: _TaskCompatibleCoro[_T_co], *, loop: AbstractEventLoop = ..., name: str | None = ...
) -> None: ...
def get_coro(self) -> _TaskCompatibleCoro[_T_co]: ...
def get_name(self) -> str: ...
def set_name(self, value: object, /) -> None: ...
if sys.version_info >= (3, 12):
def get_context(self) -> Context: ...
def get_stack(self, *, limit: int | None = None) -> list[FrameType]: ...
def print_stack(self, *, limit: int | None = None, file: TextIO | None = None) -> None: ...
if sys.version_info >= (3, 11):
def cancelling(self) -> int: ...
def uncancel(self) -> int: ...
if sys.version_info < (3, 9):
@classmethod
def current_task(cls, loop: AbstractEventLoop | None = None) -> Task[Any] | None: ...
@classmethod
def all_tasks(cls, loop: AbstractEventLoop | None = None) -> set[Task[Any]]: ...
if sys.version_info >= (3, 9):
def __class_getitem__(cls, item: Any) -> GenericAlias: ...
def all_tasks(loop: AbstractEventLoop | None = None) -> set[Task[Any]]: ...
if sys.version_info >= (3, 11):
def create_task(coro: _CoroutineLike[_T], *, name: str | None = None, context: Context | None = None) -> Task[_T]: ...
else:
def create_task(coro: _CoroutineLike[_T], *, name: str | None = None) -> Task[_T]: ...
def current_task(loop: AbstractEventLoop | None = None) -> Task[Any] | None: ...
def _enter_task(loop: AbstractEventLoop, task: Task[Any]) -> None: ...
def _leave_task(loop: AbstractEventLoop, task: Task[Any]) -> None: ...
if sys.version_info >= (3, 12):
_TaskT_co = TypeVar("_TaskT_co", bound=Task[Any], covariant=True)
class _CustomTaskConstructor(Protocol[_TaskT_co]):
def __call__(
self,
coro: _TaskCompatibleCoro[Any],
/,
*,
loop: AbstractEventLoop,
name: str | None,
context: Context | None,
eager_start: bool,
) -> _TaskT_co: ...
class _EagerTaskFactoryType(Protocol[_TaskT_co]):
def __call__(
self,
loop: AbstractEventLoop,
coro: _TaskCompatibleCoro[Any],
*,
name: str | None = None,
context: Context | None = None,
) -> _TaskT_co: ...
def create_eager_task_factory(
custom_task_constructor: _CustomTaskConstructor[_TaskT_co],
) -> _EagerTaskFactoryType[_TaskT_co]: ...
def eager_task_factory(
loop: AbstractEventLoop | None,
coro: _TaskCompatibleCoro[_T_co],
*,
name: str | None = None,
context: Context | None = None,
) -> Task[_T_co]: ...
def _register_task(task: Task[Any]) -> None: ...
def _unregister_task(task: Task[Any]) -> None: ...