src/lib.rs - platform/external/rust/crates/async-task - Git at Google

 //! Task abstraction for building executors.
 //!
 //! To spawn a future onto an executor, we first need to allocate it on the heap and keep some
 //! state attached to it. The state indicates whether the future is ready for polling, waiting to
 //! be woken up, or completed. Such a stateful future is called a *task*.
 //!
 //! All executors have a queue that holds scheduled tasks:
 //!
 //! ```
 //! let (sender, receiver) = flume::unbounded();
 //! #
 //! # // A future that will get spawned.
 //! # let future = async { 1 + 2 };
 //! #
 //! # // A function that schedules the task when it gets woken up.
 //! # let schedule = move |runnable| sender.send(runnable).unwrap();
 //! #
 //! # // Create a task.
 //! # let (runnable, task) = async_task::spawn(future, schedule);
 //! ```
 //!
 //! A task is created using either [`spawn()`], [`spawn_local()`], or [`spawn_unchecked()`] which
 //! return a [`Runnable`] and a [`Task`]:
 //!
 //! ```
 //! # let (sender, receiver) = flume::unbounded();
 //! #
 //! // A future that will be spawned.
 //! let future = async { 1 + 2 };
 //!
 //! // A function that schedules the task when it gets woken up.
 //! let schedule = move |runnable| sender.send(runnable).unwrap();
 //!
 //! // Construct a task.
 //! let (runnable, task) = async_task::spawn(future, schedule);
 //!
 //! // Push the task into the queue by invoking its schedule function.
 //! runnable.schedule();
 //! ```
 //!
 //! The [`Runnable`] is used to poll the task's future, and the [`Task`] is used to await its
 //! output.
 //!
 //! Finally, we need a loop that takes scheduled tasks from the queue and runs them:
 //!
 //! ```no_run
 //! # let (sender, receiver) = flume::unbounded();
 //! #
 //! # // A future that will get spawned.
 //! # let future = async { 1 + 2 };
 //! #
 //! # // A function that schedules the task when it gets woken up.
 //! # let schedule = move |runnable| sender.send(runnable).unwrap();
 //! #
 //! # // Create a task.
 //! # let (runnable, task) = async_task::spawn(future, schedule);
 //! #
 //! # // Push the task into the queue by invoking its schedule function.
 //! # runnable.schedule();
 //! #
 //! for runnable in receiver {
 //!     runnable.run();
 //! }
 //! ```
 //!
 //! Method [`run()`][`Runnable::run()`] polls the task's future once. Then, the [`Runnable`]
 //! vanishes and only reappears when its [`Waker`][`core::task::Waker`] wakes the task, thus
 //! scheduling it to be run again.

 #![cfg_attr(not(feature = "std"), no_std)]
 #![warn(missing_docs, missing_debug_implementations, rust_2018_idioms)]
 #![doc(test(attr(deny(rust_2018_idioms, warnings))))]
 #![doc(test(attr(allow(unused_extern_crates, unused_variables))))]

 extern crate alloc;

 mod header;
 mod raw;
 mod runnable;
 mod state;
 mod task;
 mod utils;

 pub use crate::runnable::{spawn, spawn_unchecked, Runnable};
 pub use crate::task::{FallibleTask, Task};

 #[cfg(feature = "std")]
 pub use crate::runnable::spawn_local;
	//! Task abstraction for building executors.
	//!
	//! To spawn a future onto an executor, we first need to allocate it on the heap and keep some
	//! state attached to it. The state indicates whether the future is ready for polling, waiting to
	//! be woken up, or completed. Such a stateful future is called a task.
	//!
	//! All executors have a queue that holds scheduled tasks:
	//!
	//! ```
	//! let (sender, receiver) = flume::unbounded();
	//! #
	//! # // A future that will get spawned.
	//! # let future = async { 1 + 2 };
	//! #
	//! # // A function that schedules the task when it gets woken up.
	//! # let schedule = move \|runnable\| sender.send(runnable).unwrap();
	//! #
	//! # // Create a task.
	//! # let (runnable, task) = async_task::spawn(future, schedule);
	//! ```
	//!
	//! A task is created using either [`spawn()`], [`spawn_local()`], or [`spawn_unchecked()`] which
	//! return a [`Runnable`] and a [`Task`]:
	//!
	//! ```
	//! # let (sender, receiver) = flume::unbounded();
	//! #
	//! // A future that will be spawned.
	//! let future = async { 1 + 2 };
	//!
	//! // A function that schedules the task when it gets woken up.
	//! let schedule = move \|runnable\| sender.send(runnable).unwrap();
	//!
	//! // Construct a task.
	//! let (runnable, task) = async_task::spawn(future, schedule);
	//!
	//! // Push the task into the queue by invoking its schedule function.
	//! runnable.schedule();
	//! ```
	//!
	//! The [`Runnable`] is used to poll the task's future, and the [`Task`] is used to await its
	//! output.
	//!
	//! Finally, we need a loop that takes scheduled tasks from the queue and runs them:
	//!
	//! ```no_run
	//! # let (sender, receiver) = flume::unbounded();
	//! #
	//! # // A future that will get spawned.
	//! # let future = async { 1 + 2 };
	//! #
	//! # // A function that schedules the task when it gets woken up.
	//! # let schedule = move \|runnable\| sender.send(runnable).unwrap();
	//! #
	//! # // Create a task.
	//! # let (runnable, task) = async_task::spawn(future, schedule);
	//! #
	//! # // Push the task into the queue by invoking its schedule function.
	//! # runnable.schedule();
	//! #
	//! for runnable in receiver {
	//! runnable.run();
	//! }
	//! ```
	//!
	//! Method [`run()`][`Runnable::run()`] polls the task's future once. Then, the [`Runnable`]
	//! vanishes and only reappears when its [`Waker`][`core::task::Waker`] wakes the task, thus
	//! scheduling it to be run again.

	#![cfg_attr(not(feature = "std"), no_std)]
	#![warn(missing_docs, missing_debug_implementations, rust_2018_idioms)]
	#![doc(test(attr(deny(rust_2018_idioms, warnings))))]
	#![doc(test(attr(allow(unused_extern_crates, unused_variables))))]

	extern crate alloc;

	mod header;
	mod raw;
	mod runnable;
	mod state;
	mod task;
	mod utils;

	pub use crate::runnable::{spawn, spawn_unchecked, Runnable};
	pub use crate::task::{FallibleTask, Task};

	#[cfg(feature = "std")]
	pub use crate::runnable::spawn_local;