Day 16: Reindeer Maze
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Rust
Not sure if I should dump my full solution, its quite long. If its too long I’ll delete it. Way over-engineered, and performs like it as well, quite slow.
Quite proud of my hack for pt2. I walk back along the path, which is nothing special. But because of the turn costs, whenever a turn joins a straight, it makes the straight discontinuous:
###### 11043 ###### 10041 10042 ###### ###### 11041 ######So I check the before and after cells, and make sure the previous is already marked as a short path, and check the after cell, to make sure its 2 steps apart, and ignore the middle. Dunno if anyone else has done the same thing, I’ve mostly managed to avoid spoilers today.
code
#[cfg(test)] mod tests { use crate::day_16::tests::State::{CELL, END, SHORTPATH, START, WALL}; use std::cmp::PartialEq; fn get_cell(board: &[Vec<MazeCell>], row: isize, col: isize) -> &MazeCell { &board[row as usize][col as usize] } fn set_cell(board: &mut [Vec<MazeCell>], value: &MazeStep) { let cell = &mut board[value.i as usize][value.j as usize]; cell.dir = value.dir; cell.cost = value.cost; cell.state = value.state.clone(); } fn find_cell(board: &mut [Vec<MazeCell>], state: State) -> (isize, isize) { for i in 0..board.len() { for j in 0..board[i].len() { if get_cell(board, i as isize, j as isize).state == state { return (i as isize, j as isize); } } } unreachable!(); } static DIRECTIONS: [(isize, isize); 4] = [(0, 1), (1, 0), (0, -1), (-1, 0)]; #[derive(PartialEq, Debug, Clone)] enum State { CELL, WALL, START, END, SHORTPATH, } struct MazeCell { dir: i8, cost: isize, state: State, } struct MazeStep { i: isize, j: isize, dir: i8, cost: isize, state: State, } fn walk_maze(board: &mut [Vec<MazeCell>]) -> isize { let start = find_cell(board, START); let mut moves = vec![MazeStep { i: start.0, j: start.1, cost: 0, dir: 0, state: START, }]; let mut best = isize::MAX; loop { if moves.is_empty() { break; } let cell = moves.pop().unwrap(); let current_cost = get_cell(board, cell.i, cell.j); if current_cost.state == END { if cell.cost < best { best = cell.cost; } continue; } if current_cost.state == WALL { continue; } if current_cost.cost < cell.cost { continue; } set_cell(board, &cell); for (i, dir) in DIRECTIONS.iter().enumerate() { let cost = match (i as i8) - cell.dir { 0 => cell.cost + 1, -2 | 2 => continue, _ => cell.cost + 1001, }; moves.push(MazeStep { i: cell.i + dir.0, j: cell.j + dir.1, dir: i as i8, cost, state: State::CELL, }); } } best } fn unwalk_path(board: &mut [Vec<MazeCell>], total_cost: isize) -> usize { let end = find_cell(board, END); let mut cells = vec![MazeStep { i: end.0, j: end.1, dir: 0, cost: total_cost, state: State::END, }]; set_cell(board, &cells[0]); while let Some(mut cell) = cells.pop() { for dir in DIRECTIONS { let next_cell = get_cell(board, cell.i + dir.0, cell.j + dir.1); if next_cell.cost == 0 { continue; } if next_cell.state == WALL { continue; } if next_cell.state == CELL && (next_cell.cost == &cell.cost - 1001 || next_cell.cost == &cell.cost - 1) { cells.push(MazeStep { i: cell.i + dir.0, j: cell.j + dir.1, dir: 0, cost: next_cell.cost, state: CELL, }); } else { let prev_cell = get_cell(board, cell.i - dir.0, cell.j - dir.1); if prev_cell.state == SHORTPATH && prev_cell.cost - 2 == next_cell.cost { cells.push(MazeStep { i: cell.i + dir.0, j: cell.j + dir.1, dir: 0, cost: next_cell.cost, state: CELL, }); } } } cell.state = SHORTPATH; set_cell(board, &cell); } let mut count = 0; for row in board { for cell in row { if cell.state == SHORTPATH { count += 1; } if cell.state == END { count += 1; } if cell.state == START { count += 1; } } } count } #[test] fn day15_part2_test() { let input = std::fs::read_to_string("src/input/day_16.txt").unwrap(); let mut board = input .split('\n') .map(|line| { line.chars() .map(|c| match c { '#' => MazeCell { dir: 0, cost: isize::MAX, state: WALL, }, 'S' => MazeCell { dir: 0, cost: isize::MAX, state: START, }, 'E' => MazeCell { dir: 0, cost: isize::MAX, state: END, }, '.' => MazeCell { dir: 0, cost: isize::MAX, state: CELL, }, _ => unreachable!(), }) .collect::<Vec<MazeCell>>() }) .collect::<Vec<Vec<MazeCell>>>(); let cost = walk_maze(&mut board); let count = unwalk_path(&mut board, cost); println!("{count}"); } }