use std::iter; use std::mem; use std::slice; /// A single URL parameter, consisting of a key and a value. #[derive(Debug, PartialEq, Eq, Ord, PartialOrd, Default, Copy, Clone)] struct Param<'k, 'v> { key: &'k [u8], value: &'v [u8], } impl<'k, 'v> Param<'k, 'v> { // this could be from_utf8_unchecked, but we'll keep this safe for now fn key_str(&self) -> &'k str { std::str::from_utf8(self.key).unwrap() } fn value_str(&self) -> &'v str { std::str::from_utf8(self.value).unwrap() } } /// A list of parameters returned by a route match. /// /// ```rust /// # fn main() -> Result<(), Box> { /// # let mut router = matchit::Router::new(); /// # router.insert("/users/:id", true).unwrap(); /// let matched = router.at("/users/1")?; /// /// // you can iterate through the keys and values /// for (key, value) in matched.params.iter() { /// println!("key: {}, value: {}", key, value); /// } /// /// // or get a specific value by key /// let id = matched.params.get("id"); /// assert_eq!(id, Some("1")); /// # Ok(()) /// # } /// ``` #[derive(Debug, PartialEq, Eq, Ord, PartialOrd, Clone)] pub struct Params<'k, 'v> { kind: ParamsKind<'k, 'v>, } // most routes have 1-3 dynamic parameters, so we can avoid a heap allocation in common cases. const SMALL: usize = 3; #[derive(Debug, PartialEq, Eq, Ord, PartialOrd, Clone)] enum ParamsKind<'k, 'v> { None, Small([Param<'k, 'v>; SMALL], usize), Large(Vec>), } impl<'k, 'v> Params<'k, 'v> { pub(crate) fn new() -> Self { let kind = ParamsKind::None; Self { kind } } /// Returns the number of parameters. pub fn len(&self) -> usize { match &self.kind { ParamsKind::None => 0, ParamsKind::Small(_, len) => *len, ParamsKind::Large(vec) => vec.len(), } } pub(crate) fn truncate(&mut self, n: usize) { match &mut self.kind { ParamsKind::None => {} ParamsKind::Small(_, len) => { *len = n; } ParamsKind::Large(vec) => { vec.truncate(n); } } } /// Returns the value of the first parameter registered under the given key. pub fn get(&self, key: impl AsRef) -> Option<&'v str> { let key = key.as_ref().as_bytes(); match &self.kind { ParamsKind::None => None, ParamsKind::Small(arr, len) => arr .iter() .take(*len) .find(|param| param.key == key) .map(Param::value_str), ParamsKind::Large(vec) => vec .iter() .find(|param| param.key == key) .map(Param::value_str), } } /// Returns an iterator over the parameters in the list. pub fn iter(&self) -> ParamsIter<'_, 'k, 'v> { ParamsIter::new(self) } /// Returns `true` if there are no parameters in the list. pub fn is_empty(&self) -> bool { match &self.kind { ParamsKind::None => true, ParamsKind::Small(_, len) => *len == 0, ParamsKind::Large(vec) => vec.is_empty(), } } /// Inserts a key value parameter pair into the list. pub(crate) fn push(&mut self, key: &'k [u8], value: &'v [u8]) { #[cold] fn drain_to_vec(len: usize, elem: T, arr: &mut [T; SMALL]) -> Vec { let mut vec = Vec::with_capacity(len + 1); vec.extend(arr.iter_mut().map(mem::take)); vec.push(elem); vec } let param = Param { key, value }; match &mut self.kind { ParamsKind::None => { self.kind = ParamsKind::Small([param, Param::default(), Param::default()], 1); } ParamsKind::Small(arr, len) => { if *len == SMALL { self.kind = ParamsKind::Large(drain_to_vec(*len, param, arr)); return; } arr[*len] = param; *len += 1; } ParamsKind::Large(vec) => vec.push(param), } } // Transform each key. pub(crate) fn for_each_key_mut(&mut self, f: impl Fn((usize, &mut &'k [u8]))) { match &mut self.kind { ParamsKind::None => {} ParamsKind::Small(arr, len) => arr .iter_mut() .take(*len) .map(|param| &mut param.key) .enumerate() .for_each(f), ParamsKind::Large(vec) => vec .iter_mut() .map(|param| &mut param.key) .enumerate() .for_each(f), } } } /// An iterator over the keys and values of a route's [parameters](crate::Params). pub struct ParamsIter<'ps, 'k, 'v> { kind: ParamsIterKind<'ps, 'k, 'v>, } impl<'ps, 'k, 'v> ParamsIter<'ps, 'k, 'v> { fn new(params: &'ps Params<'k, 'v>) -> Self { let kind = match ¶ms.kind { ParamsKind::None => ParamsIterKind::None, ParamsKind::Small(arr, len) => ParamsIterKind::Small(arr.iter().take(*len)), ParamsKind::Large(vec) => ParamsIterKind::Large(vec.iter()), }; Self { kind } } } enum ParamsIterKind<'ps, 'k, 'v> { None, Small(iter::Take>>), Large(slice::Iter<'ps, Param<'k, 'v>>), } impl<'ps, 'k, 'v> Iterator for ParamsIter<'ps, 'k, 'v> { type Item = (&'k str, &'v str); fn next(&mut self) -> Option { match self.kind { ParamsIterKind::None => None, ParamsIterKind::Small(ref mut iter) => { iter.next().map(|p| (p.key_str(), p.value_str())) } ParamsIterKind::Large(ref mut iter) => { iter.next().map(|p| (p.key_str(), p.value_str())) } } } } #[cfg(test)] mod tests { use super::*; #[test] fn no_alloc() { assert_eq!(Params::new().kind, ParamsKind::None); } #[test] fn heap_alloc() { let vec = vec![ ("hello", "hello"), ("world", "world"), ("foo", "foo"), ("bar", "bar"), ("baz", "baz"), ]; let mut params = Params::new(); for (key, value) in vec.clone() { params.push(key.as_bytes(), value.as_bytes()); assert_eq!(params.get(key), Some(value)); } match params.kind { ParamsKind::Large(..) => {} _ => panic!(), } assert!(params.iter().eq(vec.clone())); } #[test] fn stack_alloc() { let vec = vec![("hello", "hello"), ("world", "world"), ("baz", "baz")]; let mut params = Params::new(); for (key, value) in vec.clone() { params.push(key.as_bytes(), value.as_bytes()); assert_eq!(params.get(key), Some(value)); } match params.kind { ParamsKind::Small(..) => {} _ => panic!(), } assert!(params.iter().eq(vec.clone())); } #[test] fn ignore_array_default() { let params = Params::new(); assert!(params.get("").is_none()); } }