// Copyright 2022 Christian Ulrich // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . use std::io; #[derive(Debug, Clone)] enum Operation { Add { arg: u64 }, Multiply { arg: u64 }, Square, } #[derive(Debug, Clone)] pub struct Monkey { items: Vec, operation: Operation, modulus: u64, target_devisible: usize, target_indevisible: usize, item_count: usize, } pub struct Game { monkeys: Vec, divisor: u64, } pub struct Round { monkeys: Vec, } impl Monkey { fn from_stdin() -> Result, &'static str> { const ERROR: &str = "cannot parse monkey"; let mut line = String::new(); let _ = io::stdin().read_line(&mut line).map_err(|_| ERROR)?; if line.len() == 0 { return Ok(None); } if !line.starts_with("Monkey ") { return Err(ERROR); } line.clear(); // parse starting items let _ = io::stdin().read_line(&mut line).map_err(|_| ERROR)?; if !line.starts_with(" Starting items: ") { return Err(ERROR); } let mut items = vec![]; for part in line[18..].split(',') { items.push(part.trim().parse::().map_err(|_| ERROR)?); } line.clear(); // parse operation let _ = io::stdin().read_line(&mut line).map_err(|_| ERROR)?; if !line.starts_with(" Operation: new = old ") { return Err(ERROR); } let operation = match line[23..].trim() { "* old" => Operation::Square, arg if { arg.starts_with("+ ") } => Operation::Add { arg: arg[2..].parse().map_err(|_| ERROR)?, }, arg if { arg.starts_with("* ") } => Operation::Multiply { arg: arg[2..].parse().map_err(|_| ERROR)?, }, _ => return Err(ERROR), }; line.clear(); // parse modulus let _ = io::stdin().read_line(&mut line).map_err(|_| ERROR)?; if !line.starts_with(" Test: divisible by ") { return Err(ERROR); } let modulus = line[21..].trim().parse().map_err(|_| ERROR)?; line.clear(); // parse action if devisible let _ = io::stdin().read_line(&mut line).map_err(|_| ERROR)?; if !line.starts_with(" If true: throw to monkey ") { return Err(ERROR); } let target_devisible = line[29..].trim().parse().map_err(|_| ERROR)?; line.clear(); // parse action if indevisible let _ = io::stdin().read_line(&mut line).map_err(|_| ERROR)?; if !line.starts_with(" If false: throw to monkey ") { return Err(ERROR); } let target_indevisible = line[30..].trim().parse().map_err(|_| ERROR)?; line.clear(); let _ = io::stdin().read_line(&mut line).map_err(|_| ERROR)?; if line.trim().len() > 0 { return Err(ERROR); } Ok(Some(Self { items: items, operation: operation, modulus: modulus, target_devisible: target_devisible, target_indevisible: target_indevisible, item_count: 0, })) } fn throw_item(&mut self, divisor: u64) -> Result, &'static str> { const ERROR: &str = "integer overflow"; if self.items.len() == 0 { return Ok(None); } let mut item = self.items.remove(0); match self.operation { Operation::Add { arg } => item = item.checked_add(arg).ok_or(ERROR)?, Operation::Multiply { arg } => item = item.checked_mul(arg).ok_or(ERROR)?, Operation::Square => item = item.checked_mul(item).ok_or(ERROR)?, }; item /= divisor; let target = match item % self.modulus { 0 => self.target_devisible, _ => self.target_indevisible, }; self.item_count += 1; Ok(Some((item, target))) } pub fn add_item(&mut self, item: u64) { self.items.push(item); } pub fn items(&self) -> &[u64] { &self.items[..] } pub fn item_count(&self) -> usize { self.item_count } } impl Game { pub fn from_stdin(divisor: u64) -> Result { let mut monkeys = vec![]; while let Some(monkey) = Monkey::from_stdin()? { monkeys.push(monkey); } Ok(Self { monkeys: monkeys, divisor: divisor, }) } pub fn monkeys(&self) -> &[Monkey] { &self.monkeys[..] } } impl Iterator for Game { type Item = Result; fn next<'a>(&'a mut self) -> Option { for i in 0..self.monkeys.len() { loop { match self.monkeys[i].throw_item(self.divisor) { Ok(None) => break, Ok(Some((item, target))) => { self.monkeys[target].add_item(item); } Err(e) => return Some(Err(e)), } } } Some(Ok(Round { monkeys: self.monkeys.clone(), })) } } impl Round { pub fn monkeys(&self) -> &[Monkey] { &self.monkeys[..] } }