Module futures::executor [−][src]
Built-in executors and related tools.
All asynchronous computation occurs within an executor, which is capable of spawning futures as tasks. This module provides several built-in executors, as well as tools for building your own.
All items are only available when the std feature of this
library is activated, and it is activated by default.
Using a thread pool (M:N task scheduling)
Most of the time tasks should be executed on a thread pool.
A small set of worker threads can handle a very large set of spawned tasks
(which are much lighter weight than threads). Tasks spawned onto the pool
with the spawn_ok function will run ambiently on
the created threads.
Spawning additional tasks
Tasks can be spawned onto a spawner by calling its spawn_obj method
directly. In the case of !Send futures, spawn_local_obj can be used
instead.
Single-threaded execution
In addition to thread pools, it’s possible to run a task (and the tasks
it spawns) entirely within a single thread via the LocalPool executor.
Aside from cutting down on synchronization costs, this executor also makes
it possible to spawn non-Send tasks, via spawn_local_obj. The
LocalPool is best suited for running I/O-bound tasks that do relatively
little work between I/O operations.
There is also a convenience function block_on for simply running a
future to completion on the current thread.
Structs
| BlockingStream | An iterator which blocks on values from a stream until they become available. |
| Enter | Represents an executor context. |
| EnterError | An error returned by |
| LocalPool | A single-threaded task pool for polling futures to completion. |
| LocalSpawner |
Functions
| block_on | Run a future to completion on the current thread. |
| block_on_stream | Turn a stream into a blocking iterator. |
| enter | Marks the current thread as being within the dynamic extent of an executor. |