use common; use std::io::prelude::*; use std::io::BufReader; #[derive(Default)] pub struct Day21 { password: Vec, } impl Day21 { pub fn new() -> Day21 { Default::default() } fn swap(&mut self, by: &str, id_1: &str, id_2: &str) { let pos_1: usize; let pos_2: usize; match by { "position" => { pos_1 = id_1.parse().unwrap(); pos_2 = id_2.parse().unwrap(); }, "letter" => { pos_1 = self.find(id_1); pos_2 = self.find(id_2); }, _ => panic!("Can't swap {}", by), } self.password.swap(pos_1, pos_2); } fn find(&self, search: &str) -> usize { let c = search.chars().next().unwrap(); self.password.iter().position(|&x| x == c).unwrap() } fn reverse_range(&mut self, pos_1: usize, pos_2: usize) { self.password[pos_1..=pos_2].reverse(); } } impl common::Solution for Day21 { fn part1(&mut self, input: &mut Read) -> String { self.password = "abcdefgh".chars().collect(); let reader = BufReader::new(input); for line in reader.lines() { let contents = line.unwrap(); let parts: Vec<&str> = contents.split(" ").collect(); match parts[0] { "swap" => { self.swap(&parts[1], &parts[2], &parts[5]); }, "rotate" => { let amount = match parts[1] { "left" => parts[2].parse().unwrap(), "right" => self.password.len() - parts[2].parse::().unwrap(), "based" => { let pos = self.find(parts[6]); 2 * self.password.len() - if pos >= 4 { pos + 2 } else { pos + 1 } }, _ => panic!("Cannot rotate by {}", parts[2]), } % self.password.len(); self.password.rotate_left(amount); }, "reverse" => { let pos_1: usize = parts[2].parse().unwrap(); let pos_2: usize = parts[4].parse().unwrap(); self.reverse_range(pos_1, pos_2); }, "move" => { let pos_1: usize = parts[2].parse().unwrap(); let pos_2: usize = parts[5].parse().unwrap(); let c = self.password.remove(pos_1); self.password.insert(pos_2, c); }, _ => panic!("Don't understand {}", parts[0]), } } self.password.iter().collect() } fn part2(&mut self, input: &mut Read) -> String { let reader = BufReader::new(input); let rules: Vec = reader.lines() .map(|x| x.unwrap()) .collect(); self.password = "fbgdceah".chars().collect(); for line in rules.iter().rev() { let parts: Vec<&str> = line.split(" ").collect(); match parts[0] { "swap" => { self.swap(&parts[1], &parts[2], &parts[5]); }, "rotate" => { // invert regular rotations, and let amount = match parts[1] { "right" => parts[2].parse().unwrap(), "left" => self.password.len() - parts[2].parse::().unwrap(), "based" => { let pos = self.find(parts[6]); let mut original = usize::max_value(); if pos % 2 == 1 { // original pos < 4 for x in 0..4 { if (2 * x + 1) % self.password.len() == pos { original = x + 1; break; } } } else { // original pos >= 4 for x in 4..self.password.len() { if (2 * x + 2) % self.password.len() == pos { original = x + 2; } } } original }, _ => panic!("Cannot rotate by {}", parts[2]), } % self.password.len(); self.password.rotate_left(amount); }, "reverse" => { let pos_1: usize = parts[2].parse().unwrap(); let pos_2: usize = parts[4].parse().unwrap(); self.reverse_range(pos_1, pos_2); }, "move" => { let pos_1: usize = parts[2].parse().unwrap(); let pos_2: usize = parts[5].parse().unwrap(); let c = self.password.remove(pos_2); self.password.insert(pos_1, c); }, _ => panic!("Don't understand {}", parts[0]), } } self.password.iter().collect() } }