Crates.io | fast-list |
lib.rs | fast-list |
version | 0.1.8 |
source | src |
created_at | 2024-04-17 21:56:26.087656 |
updated_at | 2024-04-18 10:31:33.267341 |
description | A doubly linked list using SlotMap for improved cache locality, and to solve the ABA problem. |
homepage | https://github.com/henke443/fast-list |
repository | https://github.com/henke443/fast-list |
max_upload_size | |
id | 1211822 |
size | 61,930 |
SlotMap
for improved cache locality, and to solve the ABA problem.✅ On average ~2-3x faster than the standard LinkedList
for all operations.
✅ On average ~2-3x faster than Vec
& VecDeque
for random insertions (random removals are about the same as of now)
✅ Only slightly slower than Vec
& VecDeque
for most other operations.
✅ Safe against ABA problem by using a SlotMap
internally, which makes it safer to iterate & mutate the list across multiple threads. An advantage over just using a SlotMap is that the order when iterating is not arbitrary.
✅ Written in 100% safe Rust.
use fast_list::LinkedList;
// the extend() function accepts an iterator over T (i32 in this case)
let mut list = LinkedList::new();
list.extend(0..=100);
assert_eq!(list.head().unwrap().value, 0);
assert_eq!(list.tail().unwrap().value, 100);
list.push_front(42);
assert_eq!(list.head().unwrap().value, 42);
assert_eq!(list.iter().count(), 102); // 101 items from our range, one item from push_back
// These two iterators are equivalent
assert_eq!(
list.iter_next(list.head.unwrap()).count(),
list.iter().count()
);
use fast_list::LinkedList;
use std::thread;
use std::sync::{Arc, Mutex};
let mut list = LinkedList::new();
let indexes = Arc::new(list.extend(0..10_000));
// You can also get the ordered indexes with something like this:
// let indexes = Arc::new(
// list.cursor_next(list.head.unwrap()).collect::<Vec<_>>()
// );
let list_mut = Arc::new(Mutex::new(list));
let mut threads = Vec::new();
for _ in 0..3 {
let list_mut = Arc::clone(&list_mut);
let indexes = Arc::clone(&indexes);
let t = thread::spawn(move || {
for index in indexes.iter().take(9_000) {
list_mut.lock().unwrap().remove(*index); // returns None if the index does not exist
}
});
threads.push(t);
}
for t in threads {
t.join().unwrap();
}
// Even though remove() is called 9000*3 times, only 9000 items are removed.
{
assert_eq!(list_mut.lock().unwrap().head().unwrap().value, 9_000);
}
LinkedList
- The main struct that holds the list.
// A doubly linked list using SlotMap for better cache performance than a linked list using pointers, and which also solves the ABA problem.
pub struct LinkedList<T = ()> {
// The index of the first item in the list.
pub head: Option<LinkedListIndex>,
// The index of the last item in the list.
pub tail: Option<LinkedListIndex>,
// The items in the list.
items: SlotMap<LinkedListIndex, LinkedListItem<T>>,
}
LinkedListIndex
- An index into the list.
new_key_type! {
/// A newtype for the index of an item in the list.
pub struct LinkedListIndex;
}
LinkedListItem
- An item in the list.
pub struct LinkedListItem<T> {
/// The index of the item in the list.
pub index: LinkedListIndex,
/// The value of the item.
pub value: T,
/// The index of the next item in the list.
pub next_index: Option<LinkedListIndex>,
/// The index of the previous item in the list.
pub prev_index: Option<LinkedListIndex>,
}
LinkedListWalker
- [feature = "unstable"] A walker type (like in petgraph) which can be used to iterate over the list.