use anyhow::{anyhow, Result}; use std::collections::HashMap; use std::fs::File; use std::io::prelude::*; use std::time::Instant; const INPUT: &str = "input/input.txt"; fn take_turn(nums: &mut Vec) { if let Some(position) = nums[..nums.len() - 1] .iter() .rposition(|&num| num == nums[nums.len() - 1]) { nums.push(nums.len() - (position + 1)); } else { nums.push(0); } } #[derive(Debug)] struct Game { turn: usize, last_num: usize, prev_nums: HashMap, } impl Game { fn new(input: &str) -> Result { let mut nums = input .split(",") .enumerate() .map(|(position, num)| Ok((num.trim().parse()?, position + 1))) .collect::>>()?; let (last_num, turn) = nums.pop().ok_or_else(|| anyhow!("input is empty"))?; let prev_nums = nums.into_iter().collect(); Ok(Self { turn, last_num, prev_nums, }) } fn take_turn(&mut self) { self.turn += 1; let new_num = if let Some(prev_turn) = self.prev_nums.get(&self.last_num) { self.turn - prev_turn - 1 } else { 0 }; self.prev_nums.insert(self.last_num, self.turn - 1); self.last_num = new_num; } } fn solve_part1(input_path: &str) -> Result { let mut file = File::open(input_path)?; let mut nums = String::new(); file.read_to_string(&mut nums)?; let mut nums: Vec = nums .split(",") .map(|num| Ok(num.trim().parse()?)) .collect::>>()?; let num_turns = 2020 - nums.len(); for _ in 0..num_turns { take_turn(&mut nums); } Ok(nums.pop().expect("non-empty nums")) } fn solve_part2(input_path: &str) -> Result { let mut file = File::open(input_path)?; let mut nums = String::new(); file.read_to_string(&mut nums)?; let mut game = Game::new(&nums)?; let num_turns = 30000000 - game.turn; for _ in 0..num_turns { game.take_turn(); } Ok(game.last_num) } fn main() { let mut now = Instant::now(); println!("Part 1: {}", solve_part1(INPUT).unwrap()); println!("(elapsed: {:?})", now.elapsed()); now = Instant::now(); println!(""); println!("Part 2: {}", solve_part2(INPUT).unwrap()); println!("(elapsed: {:?})", now.elapsed()); } #[cfg(test)] mod tests { use super::*; const TEST_INPUT: &str = "input/test.txt"; #[test] fn solves_part1() { assert_eq!(solve_part1(TEST_INPUT).unwrap(), 436); } #[test] fn solves_part2() { assert_eq!(solve_part2(TEST_INPUT).unwrap(), 175594); } }