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@@ -0,0 +1,160 @@
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use std::{
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collections::{BinaryHeap, HashMap},
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fs::read_to_string,
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};
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use itertools::Itertools;
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use crate::utils::grid::{Coord, Grid};
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pub fn day_main() {
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let input = read_to_string("input/day16.txt").unwrap();
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let input = input.trim();
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println!(" part1: {}", part1(input));
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println!(" part2: {}", part2(input));
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}
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type RiddleResult = usize;
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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enum Dir {
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N,
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E,
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S,
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W,
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}
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impl Dir {
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fn nexts(&self) -> [Self; 2] {
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match self {
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Dir::N | Dir::S => [Dir::W, Dir::E],
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Dir::E | Dir::W => [Dir::S, Dir::N],
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}
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}
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}
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struct Step(Coord, Dir, usize, Vec<Coord>);
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impl Ord for Step {
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fn cmp(&self, other: &Self) -> std::cmp::Ordering {
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other.2.cmp(&self.2)
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}
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}
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impl PartialOrd for Step {
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fn partial_cmp(&self, other: &Self) -> Option<std::cmp::Ordering> {
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Some(self.cmp(other))
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}
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}
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impl PartialEq for Step {
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fn eq(&self, other: &Self) -> bool {
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other.2.eq(&self.2)
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}
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}
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impl Eq for Step {}
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fn part1(input: &str) -> RiddleResult {
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use Dir::*;
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let maze = Grid::parse(input);
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let start = maze.entries().find(|(_p, c)| **c == 'S').unwrap().0;
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let end = maze.entries().find(|(_p, c)| **c == 'E').unwrap().0;
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let mut visited = HashMap::<(Coord, Dir), usize>::new();
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let mut stack: BinaryHeap<Step> = BinaryHeap::new();
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stack.push(Step(start, E, 0, vec![]));
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while let Some(Step(np, nd, cost, _)) = stack.pop() {
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if visited.contains_key(&(np, nd)) {
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continue;
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}
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visited.insert((np, nd), cost);
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if np == end {
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return cost;
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}
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for d in nd.nexts() {
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if !visited.contains_key(&(np, d)) {
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stack.push(Step(np, d, cost + 1000, vec![]));
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}
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}
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let forward = match nd {
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N => (np.0, np.1 - 1),
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E => (np.0 + 1, np.1),
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S => (np.0, np.1 + 1),
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W => (np.0 - 1, np.1),
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};
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if maze[forward] != '#' && !visited.contains_key(&(forward, nd)) {
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stack.push(Step(forward, nd, cost + 1, vec![]));
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}
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}
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panic!("no path found")
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}
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fn part2(input: &str) -> RiddleResult {
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use Dir::*;
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let maze = Grid::parse(input);
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let start = maze.entries().find(|(_p, c)| **c == 'S').unwrap().0;
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let end = maze.entries().find(|(_p, c)| **c == 'E').unwrap().0;
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let mut visited = HashMap::<(Coord, Dir), usize>::new();
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let mut stack: BinaryHeap<Step> = BinaryHeap::new();
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stack.push(Step(start, E, 0, vec![]));
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let mut best: Option<usize> = None;
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let mut visited_by_best: Vec<Coord> = vec![start, end];
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while let Some(Step(np, nd, cost, mut pred)) = stack.pop() {
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if let Some(b) = best {
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if b < cost {
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break; // can't reach the end point with best cost anymore
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}
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}
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visited.insert((np, nd), cost);
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if np == end {
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best = Some(cost);
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visited_by_best.append(&mut pred);
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}
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pred.push(np);
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for d in nd.nexts() {
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if !visited.contains_key(&(np, d)) {
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stack.push(Step(np, d, cost + 1000, pred.clone()));
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}
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}
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let forward = match nd {
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N => (np.0, np.1 - 1),
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E => (np.0 + 1, np.1),
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S => (np.0, np.1 + 1),
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W => (np.0 - 1, np.1),
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};
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if maze[forward] != '#' && !visited.contains_key(&(forward, nd)) {
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stack.push(Step(forward, nd, cost + 1, pred));
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}
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}
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visited_by_best.into_iter().unique().count()
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}
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#[cfg(test)]
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mod test {
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use super::{part1, part2};
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const TEST_INPUT: &str = r"###############
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#.......#....E#
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#.#.###.#.###.#
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#.....#.#...#.#
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#.###.#####.#.#
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#.#.#.......#.#
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#.#.#####.###.#
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#...........#.#
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###.#.#####.#.#
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#...#.....#.#.#
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#.#.#.###.#.#.#
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#.....#...#.#.#
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#.###.#.#.#.#.#
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#S..#.....#...#
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###############
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";
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#[test]
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fn test1() {
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assert_eq!(part1(TEST_INPUT), 7036);
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}
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#[test]
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fn test2() {
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assert_eq!(part2(TEST_INPUT), 45);
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}
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}
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