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.. image:: https://img.shields.io/crates/v/priority-queue.svg :target: https://crates.io/crates/priority-queue .. image:: https://travis-ci.org/garro95/priority-queue.svg?branch=master :target: https://travis-ci.org/garro95/priority-queue
This crate implements a Priority Queue with a function to change the priority of an object.
Priority and items are stored in an IndexMap and the queue is implemented as a Heap of indexes.
Please read the API documentation here__
__ https://docs.rs/priority-queue/
To use this crate, simply add the following string to your Cargo.toml:
priority-queue = "1.0.0"
Version numbers follow the semver__ convention.
__ https://semver.org/
Then use the data structure inside your Rust source code as in the following Example.
Remember that, if you need serde support, you should compile using --features serde.
.. code:: rust
extern crate priority_queue; // not necessary in Rust edition 2018
use priority_queue::PriorityQueue;
fn main() {
let mut pq = PriorityQueue::new();
assert!(pq.is_empty());
pq.push("Apples", 5);
pq.push("Bananas", 8);
pq.push("Strawberries", 23);
assert_eq!(pq.peek(), Some((&"Strawberries", &23)));
for (item, _) in pq.into_sorted_iter() {
println!("{}", item);
}
}
Note: in recent versions of Rust (edition 2018) the extern crate priority_queue is not necessary anymore!
You can use custom BuildHasher for the underlying IndexMap and therefore achieve better performance. For example you can create the queue with the speedy FxHash_ hasher:
.. code:: rust
use hashbrown::hash_map::DefaultHashBuilder;
let mut pq = PriorityQueue::<_, _, DefaultHashBuilder>::with_default_hasher();
.. _FxHash: https://github.com/Amanieu/hashbrown
Attention: FxHash does not offer any protection for dos attacks. This means that some pathological inputs can make the operations on the hashmap O(n^2). Use the standard hasher if you cannot control the inputs.
Some benchmarks have been run to compare the performances of this priority queue to the standard BinaryHeap, also using the FxHash hasher. The benchmarks produced the following results: :: test benchmarks::pushandpop ... bench: 80 ns/iter (+/- 6) test benchmarks::pushandpopfx ... bench: 49 ns/iter (+/- 5) test benchmarks::pushandpoponlargequeue ... bench: 296 ns/iter (+/- 25) test benchmarks::pushandpoponlargequeuefx ... bench: 259 ns/iter (+/- 41) test benchmarks::pushandpoponlargequeuestd ... bench: 75 ns/iter (+/- 6) test benchmarks::pushandpop_std ... bench: 11 ns/iter (+/- 1)
Feel free to contribute to this project with pull requests and/or issues. All contribution should be under a license compatible with the GNU LGPL.
1.0.0 This release contains breaking changes!
From and FromIterator now accept custom hashers -- Breaking:
every usage of from and from_iter must specify some type to help the type inference. To use the default hasher (RandomState), often it will be enough to add something like
.. code:: rust
let pq: PriorityQueue<_, _> = PriorityQueue::from...
or you can add a type definition like
.. code:: rust
type Pq
and then use Pq::from() or Pq::from_iter()
take_mut dependency -- Breaking:
change_priority_by signature has changed. Now it takes a priority_setter F: FnOnce(&mut P).
If you want you can use the unsafe take_mut yourself or also use std::mem::replaceDefault trait avoids the requirement that P: Defaultiter_mut()iter_mut featureschange_priority and change_priority_by--features serde.
serde marked as optional and serde-test as dev-dipendency.
Now compiling the crate won't download and compile also serde-test, neither serde if not needed.cfg(serde)