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README.md
spin-rs
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.
Features
Mutex,RwLockandOnceequivalents- Support for
no_stdenvironments lock_apicompatibility- Upgradeable
RwLockguards - Guards can be sent and shared between threads
- Guard leaking
stdfeature to enable yield to the OS scheduler in busy loopsMutexcan become a ticket lock
Usage
Include the following under the [dependencies] section in your Cargo.toml file.
spin = "x.y"
Example
When calling lock on a Mutex you will get a guard value that provides access
to the data. When this guard is dropped, the lock will be unlocked.
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..10 {
*counter.lock() += 1;
}
}
});
for _ in 0..10 {
*counter.lock() += 1;
}
thread.join().unwrap();
assert_eq!(*counter.lock(), 20);
}
Feature flags
The crate comes with a few feature flags that you may wish to use.
-
lock_apienabled support forlock_api -
ticket_mutexuses a ticket lock for the implementation ofMutex -
stdenables support for thread yielding instead of spinning
Remarks
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:
- Locks will not be poisoned in case of failure.
- Threads will not yield to the OS scheduler when encounter a lock that cannot be accessed. Instead, they will 'spin' in a busy loop until the lock becomes available.
License
spin is distributed under the MIT License, (See LICENSE).