Crate matchit

Expand description

A high performance, zero-copy URL router.

use matchit::Router;

fn main() -> Result<(), Box<dyn std::error::Error>> {
    let mut router = Router::new();
    router.insert("/home", "Welcome!")?;
    router.insert("/users/{id}", "A User")?;

    let matched = router.at("/users/978")?;
    assert_eq!(matched.params.get("id"), Some("978"));
    assert_eq!(*matched.value, "A User");

    Ok(())
}

§Parameters

The router supports dynamic route segments. These can either be named or catch-all parameters.

Named parameters like /{id} match anything until the next static segment or the end of the path.

let mut m = Router::new();
m.insert("/users/{id}", true)?;

assert_eq!(m.at("/users/1")?.params.get("id"), Some("1"));
assert_eq!(m.at("/users/23")?.params.get("id"), Some("23"));
assert!(m.at("/users").is_err());

Prefixes and suffixes within a segment are also supported. However, there may only be a single named parameter per route segment.

let mut m = Router::new();
m.insert("/images/img{id}.png", true)?;

assert_eq!(m.at("/images/img1.png")?.params.get("id"), Some("1"));
assert!(m.at("/images/img1.jpg").is_err());

Catch-all parameters start with * and match anything until the end of the path. They must always be at the end of the route.

let mut m = Router::new();
m.insert("/{*p}", true)?;

assert_eq!(m.at("/foo.js")?.params.get("p"), Some("foo.js"));
assert_eq!(m.at("/c/bar.css")?.params.get("p"), Some("c/bar.css"));

// Note that this would lead to an empty parameter.
assert!(m.at("/").is_err());

The literal characters { and } may be included in a static route by escaping them with the same character. For example, the { character is escaped with {{ and the } character is escaped with }}.

let mut m = Router::new();
m.insert("/{{hello}}", true)?;
m.insert("/{hello}", true)?;

// Match the static route.
assert!(m.at("/{hello}")?.value);

// Match the dynamic route.
assert_eq!(m.at("/hello")?.params.get("hello"), Some("hello"));

§Routing Priority

Static and dynamic route segments are allowed to overlap. If they do, static segments will be given higher priority:

let mut m = Router::new();
m.insert("/", "Welcome!").unwrap();      // Priority: 1
m.insert("/about", "About Me").unwrap(); // Priority: 1
m.insert("/{*filepath}", "...").unwrap();  // Priority: 2

§How does it work?

The router takes advantage of the fact that URL routes generally follow a hierarchical structure. Routes are stored them in a radix trie that makes heavy use of common prefixes.

Priority   Path             Value
9          \                1
3          ├s               None
2          |├earch\         2
1          |└upport\        3
2          ├blog\           4
1          |    └{post}     None
1          |          └\    5
2          ├about-us\       6
1          |        └team\  7
1          └contact\        8

This allows us to reduce the route search to a small number of branches. Child nodes on the same level of the tree are also prioritized by the number of children with registered values, increasing the chance of choosing the correct branch of the first try.

As it turns out, this method of routing is extremely fast. See the benchmark results for details.

Structs§

Match: A successful match consisting of the registered value and URL parameters, returned by Router::at.
MergeError: A failed merge attempt.
Params: A list of parameters returned by a route match.
ParamsIter: An iterator over the keys and values of a route’s parameters.
Router: A zero-copy URL router.

Enums§

InsertError: Represents errors that can occur when inserting a new route.
MatchError: A failed match attempt.