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use std::cmp::Reverse;
use std::collections::BinaryHeap;
#[derive(Clone, Debug)]
pub struct Dijkstra {
dist: Vec<i64>,
adjacency_list: Vec<Vec<(usize, i64)>>,
n: usize,
}
impl Dijkstra {
pub fn new(n: usize, edges: &[(usize, usize, i64)], start: usize) -> Self {
let inf = i64::max_value();
let mut dist: Vec<i64> = vec![inf; n];
let adjacency_list = Self::create_adjacency_list(n, &edges);
let mut heap: BinaryHeap<Reverse<(i64, usize)>> = BinaryHeap::new();
dist[start] = 0;
heap.push(Reverse((0, start)));
while !heap.is_empty() {
let Reverse((d, v)) = heap.pop().unwrap();
if dist[v] < d {
continue;
}
for &(u, cost) in &adjacency_list[v] {
if dist[u] > dist[v] + cost {
dist[u] = dist[v] + cost;
heap.push(Reverse((dist[u], u)));
}
}
}
Dijkstra {
dist,
adjacency_list,
n,
}
}
fn create_adjacency_list(n: usize, edges: &[(usize, usize, i64)]) -> Vec<Vec<(usize, i64)>> {
let mut adjacency_list: Vec<Vec<(usize, i64)>> = vec![vec![]; n];
for &(from, to, cost) in edges {
adjacency_list[from].push((to, cost))
}
adjacency_list
}
}
#[test]
fn dijkstra_test() {
let edges = vec![
(0, 1, 1),
(0, 2, 6),
(1, 3, 2),
(2, 3, 2),
(0, 3, 2),
(3, 0, 4),
];
let dijkstra = Dijkstra::new(4, &edges, 0);
assert_eq!(dijkstra.dist[0], 0);
assert_eq!(dijkstra.dist[1], 1);
assert_eq!(dijkstra.dist[2], 6);
assert_eq!(dijkstra.dist[3], 2);
let dijkstra_another = Dijkstra::new(4, &edges, 1);
assert_eq!(dijkstra_another.dist[0], 6);
assert_eq!(dijkstra_another.dist[1], 0);
assert_eq!(dijkstra_another.dist[2], 12);
assert_eq!(dijkstra_another.dist[3], 2);
}