A safe abstraction around AtomicPtr

11 releases

0.3.5 May 5, 2018
0.3.4 Jun 7, 2015
0.3.3 May 9, 2015
0.3.0 Apr 25, 2015
0.0.2 Apr 14, 2015

#24 in Parser implementations

Download history 673/week @ 2018-10-11 1289/week @ 2018-10-18 876/week @ 2018-10-25 1001/week @ 2018-11-01 957/week @ 2018-11-08 1528/week @ 2018-11-15 1048/week @ 2018-11-22 1303/week @ 2018-11-29 1139/week @ 2018-12-06 1304/week @ 2018-12-13 1205/week @ 2018-12-20 1072/week @ 2018-12-27 820/week @ 2019-01-03

4,833 downloads per month
Used in 65 crates (4 directly)


243 lines


Build Status Atom

Atom is a simple abstraction around Rust's AtomicPtr. It provides a simple, wait-free way to exchange data between threads safely. Atom is built around the principle that an atomic swap can be used to safely emulate Rust's ownership.


Using store to set a shared atomic pointer is unsafe in rust (or any language) because the contents of the pointer can be overwritten at any point in time causing the contents of the pointer to be lost. This can cause your system to leak memory, and if you are expecting that memory to do something useful (like wake a sleeping thread), you are in trouble.


Similarly, load is unsafe since there is no guarantee that that pointer will live for even a cycle after you have read it. Another thread may modify the pointer, or free it. For load to be safe you need to have some outside contract to preserve the correct ownership semantics.


A swap is special as it allows a reference to be exchanged without the risk of that pointer being freed, or stomped on. When a thread swaps an AtomicPtr the old pointer ownership is moved to the caller, and the AtomicPtr takes ownership of the new pointer.

Using Atom

Add atom your Cargo.toml


A short example:

extern crate atom;

use std::sync::Arc;
use std::thread;
use atom::*;

fn main() {
    // Create an empty atom
    let shared_atom = Arc::new(Atom::empty());

    // set the value 75 

    // Spawn a bunch of thread that will try and take the value
    let threads: Vec<thread::JoinHandle<()>> = (0..8).map(|_| {
        let shared_atom = shared_atom.clone();
        thread::spawn(move || {
            // Take the contents of the atom, only one will win the race
            if let Some(v) = shared_atom.take() {
                println!("I got it: {:?} :D", v);
            } else {
                println!("I did not get it :(");

    // join the threads
    for t in threads { t.join().unwrap(); }

The result will look something like this:

I did not get it :(
I got it: 75 :D
I did not get it :(
I did not get it :(
I did not get it :(
I did not get it :(
I did not get it :(
I did not get it :(

Using an Atom has some advantages over using a raw AtomicPtr. First, you don't need any unsafe code in order to convert the Box<T> to and from a Box the library handles that for you. Secondly, Atom implements drop so you won't accidentally leak a pointer when dropping your data structure.


This is an additional bit of abstraction around an Atom. Recall that I said load was unsafe unless you have an additional restrictions. AtomSetOnce as the name indicates may only be set once, and then it may never be unset. We know that if the Atom is set the pointer will be valid for the lifetime of the Atom. This means we can implement Deref in a safe way.

Take a look at the fifo example to see how this can be used to write a lock-free linked list.

No runtime deps