//! Day 07 of 2020. use crate::prelude::*; /// Get the solution for day 07 of 2020. pub fn solution() -> Solution { Solution::new(Day::new(7, 2020), part_1, part_2).with_expected(169, 82372) } /// The target bag to look for. const TARGET: &str = "shiny gold"; /// Parse the bags from the puzzle input. fn parse_bags(input: &str) -> Vec<(&str, Vec<(usize, &str)>)> { let mut bags = vec![]; for line in input.lines() { let main_bag = &line[0..line.find(" bags").unwrap()]; let other_bags = line[line.find("contain ").unwrap() + "contain ".len()..] .split(',') .map(str::trim) .map(|bag| { let count = bag[0..bag.find(' ').unwrap()] .parse::() .unwrap_or_default(); let bag = &bag[bag.find(' ').unwrap() + 1..bag.find(" bag").unwrap()]; (count, bag) }) .collect::>(); bags.push((main_bag, other_bags)); } bags } /// Find out which bags can hold the [`TARGET`] bag. fn can_hold_target_bag<'a>( target: &'a str, bags: &[(&'a str, Vec<(usize, &'a str)>)], ) -> Vec<&'a str> { let mut can_hold = vec![]; for (bag, children) in bags { if children.iter().any(|(_, child)| *child == target) { can_hold.push(*bag); can_hold.append(&mut can_hold_target_bag(bag, bags)); } } can_hold } /// Find out how many bags are required to be inside the [`TARGET`] bag. fn target_bag_holds_amount<'a>( target: &'a str, bags: &[(&'a str, Vec<(usize, &'a str)>)], ) -> usize { let mut count = 0; for (bag, children) in bags { if bag == &target { for (child_count, child_bag) in children { if child_count != &0 { count += child_count; count += child_count * target_bag_holds_amount(child_bag, bags); } } } } count } /// The logic to solve part one. fn part_1(input: &str) -> Result { Ok( can_hold_target_bag(TARGET, &parse_bags(input)) .into_iter() .collect::>() .len() .to_string(), ) } /// The logic to solve part two. fn part_2(input: &str) -> Result { Ok(target_bag_holds_amount("shiny gold", &parse_bags(input)).to_string()) }