Crates.io | spin |
lib.rs | spin |
version | 0.9.8 |
source | src |
created_at | 2015-01-27 15:50:37.555349 |
updated_at | 2023-04-03 08:39:47.531534 |
description | Spin-based synchronization primitives |
homepage | |
repository | https://github.com/mvdnes/spin-rs.git |
max_upload_size | |
id | 1307 |
size | 184,561 |
Spin-based synchronization primitives.
This crate provides spin-based
versions of the primitives in std::sync
. Because synchronization is done
through spinning, the primitives are suitable for use in no_std
environments.
Before deciding to use spin
, we recommend reading
this superb blog post
by @matklad that discusses the pros and cons of
spinlocks. If you have access to std
, it's likely that the primitives in
std::sync
will serve you better except in very specific circumstances.
Mutex
, RwLock
, Once
, Lazy
and Barrier
equivalentsno_std
environmentslock_api
compatibilityRwLock
guardsInclude the following under the [dependencies]
section in your Cargo.toml
file.
spin = "x.y"
When calling lock
on a Mutex
you will get a guard value that provides access
to the data. When this guard is dropped, the mutex will become available again.
extern crate spin;
use std::{sync::Arc, thread};
fn main() {
let counter = Arc::new(spin::Mutex::new(0));
let thread = thread::spawn({
let counter = counter.clone();
move || {
for _ in 0..100 {
*counter.lock() += 1;
}
}
});
for _ in 0..100 {
*counter.lock() += 1;
}
thread.join().unwrap();
assert_eq!(*counter.lock(), 200);
}
The crate comes with a few feature flags that you may wish to use.
mutex
enables the Mutex
type.
spin_mutex
enables the SpinMutex
type.
ticket_mutex
enables the TicketMutex
type.
use_ticket_mutex
switches to a ticket lock for the implementation of Mutex
. This
is recommended only on targets for which ordinary spinning locks perform very badly
because it will change the implementation used by other crates that depend on spin
.
rwlock
enables the RwLock
type.
once
enables the Once
type.
lazy
enables the Lazy
type.
barrier
enables the Barrier
type.
lock_api
enables support for lock_api
std
enables support for thread yielding instead of spinning.
portable_atomic
enables usage of the portable-atomic
crate
to support platforms without native atomic operations (Cortex-M0, etc.).
The portable_atomic_unsafe_assume_single_core
cfg or critical-section
feature
of portable-atomic
crate must also be set by the final binary crate.
When using the cfg, this can be done by adapting the following snippet to the .cargo/config
file:
[target.<target>]
rustflags = [ "--cfg", "portable_atomic_unsafe_assume_single_core" ]
Note that this cfg is unsafe by nature, and enabling it for multicore systems is unsound.
When using the critical-section
feature, you need to implement the critical-section
implementation that sound for your system by implementing an unsafe trait.
See the documentation for the portable-atomic
crate
for more information.
It is often desirable to have a lock shared between threads. Wrapping the lock in an
std::sync::Arc
is route through which this might be achieved.
Locks provide zero-overhead access to their data when accessed through a mutable
reference by using their get_mut
methods.
The behaviour of these lock is similar to their namesakes in std::sync
. they
differ on the following:
Many of the feature flags listed above are enabled by default. If you're writing a library, we recommend disabling those that you don't use to avoid increasing compilation time for your crate's users. You can do this like so:
[dependencies]
spin = { version = "x.y", default-features = false, features = [...] }
This crate is guaranteed to compile on a Minimum Safe Rust Version (MSRV) of 1.38.0 and above. This version will not be changed without a minor version bump.
spin
is distributed under the MIT License, (See LICENSE
).