advent-of-code/2021/src/bin/day04.rs

#![feature(test)]
extern crate test;
use std::collections::HashSet;

use aoc2021::common::*;
use itertools::Itertools;

const DAY: usize = 4;
const BOARD_SIZE: usize = 5;
const NUMBERS_PER_BOARD: usize = BOARD_SIZE * BOARD_SIZE;
type Parsed = BingoGame;
type Board = Vec<HashSet<u8>>;

#[derive(Debug, Clone)]
struct BingoGame {
    input_numbers: Vec<u8>,
    boards:        Vec<Board>,
}

impl BingoGame {
    fn mark_number(&mut self, n: &u8) {
        for board in self.boards.iter_mut() {
            for winning_set in board.iter_mut() {
                winning_set.remove(n);
            }
        }
    }

    fn find_winner(&self) -> Option<&Board> {
        self.boards.iter().find(|b| has_won(b))
    }

    // For assertions in the bechmark
    #[cfg(test)]
    fn len(&self) -> usize {
        self.boards.len()
    }
}

fn has_won(board: &Board) -> bool {
    board.iter().any(|s| s.is_empty())
}

fn parse_input(raw: &str) -> Parsed {
    let (input_numbers, boards) = raw.split_once("\n\n").unwrap();
    let input_numbers = input_numbers.split(',').map(|n| n.parse().unwrap()).collect();
    let boards = boards
        .split("\n\n")
        .map(|b| b.split_ascii_whitespace().map(|n| n.parse().unwrap()).collect())
        .map(|v: Vec<u8>| {
            debug_assert_eq!(v.len(), NUMBERS_PER_BOARD);
            // This seems way too complicated. What am I missing?
            (0..NUMBERS_PER_BOARD)
                .chain((0..BOARD_SIZE).flat_map(|i| (i..NUMBERS_PER_BOARD).step_by(BOARD_SIZE)))
                .map(|i| v[i])
                .chunks(BOARD_SIZE)
                .into_iter()
                .map(|c| c.collect())
                .collect()
        })
        .collect();
    BingoGame { input_numbers, boards }
}

fn board_score(board: &Board, current_number: u8) -> usize {
    let remainder: usize = board.into_iter().flatten().unique().map(|&n| n as usize).sum();
    remainder * (current_number as usize)
}

fn part1(parsed: &Parsed) -> usize {
    let mut game = parsed.to_owned();
    for n in &game.input_numbers.clone() {
        game.mark_number(n);
        if let Some(board) = game.find_winner() {
            return board_score(board, *n);
        }
    }
    unreachable!("Game should have ended at some point")
}

fn part2(parsed: &Parsed) -> usize {
    let mut game = parsed.to_owned();
    for n in &game.input_numbers.clone() {
        game.mark_number(n);
        if game.boards.len() == 1 && has_won(&game.boards[0]) {
            return board_score(&game.boards[0], *n);
        }
        game.boards.retain(|b| !has_won(b));
    }
    unreachable!("Game should have ended at some point")
}

fn main() {
    let input = parse_input(&read_file(DAY));
    println!("{input:?}");
    println!("Part 1: {}", part1(&input));
    println!("Part 2: {}", part2(&input));
}

#[cfg(test)]
mod tests {
    use super::*;
    use aoc2021::*;

    const TEST_INPUT: &str = "7,4,9,5,11,17,23,2,0,14,21,24,10,16,13,6,15,25,12,22,18,20,8,19,3,26,1

22 13 17 11  0
 8  2 23  4 24
21  9 14 16  7
 6 10  3 18  5
 1 12 20 15 19

 3 15  0  2 22
 9 18 13 17  5
19  8  7 25 23
20 11 10 24  4
14 21 16 12  6

14 21 17 24  4
10 16 15  9 19
18  8 23 26 20
22 11 13  6  5
 2  0 12  3  7";

    test!(part1() == 4512);
    test!(part2() == 1924);
    bench!(part1() == 74320);
    bench!(part2() == 17884);
    bench_input!(BingoGame::len => 100);
}
Add day 4 2021-12-04 12:49:48 +01:00			`#![feature(test)]`
			`extern crate test;`
			`use std::collections::HashSet;`

			`use aoc2021::common::*;`
			`use itertools::Itertools;`

			`const DAY: usize = 4;`
			`const BOARD_SIZE: usize = 5;`
Enable benchmarks 2021-12-04 13:09:10 +01:00			`const NUMBERS_PER_BOARD: usize = BOARD_SIZE * BOARD_SIZE;`
Add day 4 2021-12-04 12:49:48 +01:00			`type Parsed = BingoGame;`
			`type Board = Vec<HashSet<u8>>;`

			`#[derive(Debug, Clone)]`
			`struct BingoGame {`
			`input_numbers: Vec<u8>,`
			`boards: Vec<Board>,`
			`}`

			`impl BingoGame {`
			`fn mark_number(&mut self, n: &u8) {`
			`for board in self.boards.iter_mut() {`
			`for winning_set in board.iter_mut() {`
			`winning_set.remove(n);`
			`}`
			`}`
			`}`

			`fn find_winner(&self) -> Option<&Board> {`
			`self.boards.iter().find(\|b\| has_won(b))`
			`}`
Enable benchmarks 2021-12-04 13:09:10 +01:00
			`// For assertions in the bechmark`
			`#[cfg(test)]`
			`fn len(&self) -> usize {`
			`self.boards.len()`
			`}`
Add day 4 2021-12-04 12:49:48 +01:00			`}`

			`fn has_won(board: &Board) -> bool {`
			`board.iter().any(\|s\| s.is_empty())`
			`}`

			`fn parse_input(raw: &str) -> Parsed {`
			`let (input_numbers, boards) = raw.split_once("\n\n").unwrap();`
			`let input_numbers = input_numbers.split(',').map(\|n\| n.parse().unwrap()).collect();`
			`let boards = boards`
			`.split("\n\n")`
			`.map(\|b\| b.split_ascii_whitespace().map(\|n\| n.parse().unwrap()).collect())`
			`.map(\|v: Vec<u8>\| {`
Enable benchmarks 2021-12-04 13:09:10 +01:00			`debug_assert_eq!(v.len(), NUMBERS_PER_BOARD);`
			`// This seems way too complicated. What am I missing?`
			`(0..NUMBERS_PER_BOARD)`
			`.chain((0..BOARD_SIZE).flat_map(\|i\| (i..NUMBERS_PER_BOARD).step_by(BOARD_SIZE)))`
			`.map(\|i\| v[i])`
			`.chunks(BOARD_SIZE)`
			`.into_iter()`
			`.map(\|c\| c.collect())`
			`.collect()`
Add day 4 2021-12-04 12:49:48 +01:00			`})`
			`.collect();`
			`BingoGame { input_numbers, boards }`
			`}`

			`fn board_score(board: &Board, current_number: u8) -> usize {`
			`let remainder: usize = board.into_iter().flatten().unique().map(\|&n\| n as usize).sum();`
			`remainder * (current_number as usize)`
			`}`

			`fn part1(parsed: &Parsed) -> usize {`
			`let mut game = parsed.to_owned();`
			`for n in &game.input_numbers.clone() {`
			`game.mark_number(n);`
			`if let Some(board) = game.find_winner() {`
			`return board_score(board, *n);`
			`}`
			`}`
			`unreachable!("Game should have ended at some point")`
			`}`

			`fn part2(parsed: &Parsed) -> usize {`
			`let mut game = parsed.to_owned();`
			`for n in &game.input_numbers.clone() {`
			`game.mark_number(n);`
Enable benchmarks 2021-12-04 13:09:10 +01:00			`if game.boards.len() == 1 && has_won(&game.boards[0]) {`
			`return board_score(&game.boards[0], *n);`
Add day 4 2021-12-04 12:49:48 +01:00			`}`
Enable benchmarks 2021-12-04 13:09:10 +01:00			`game.boards.retain(\|b\| !has_won(b));`
Add day 4 2021-12-04 12:49:48 +01:00			`}`
			`unreachable!("Game should have ended at some point")`
			`}`

			`fn main() {`
			`let input = parse_input(&read_file(DAY));`
			`println!("{input:?}");`
			`println!("Part 1: {}", part1(&input));`
			`println!("Part 2: {}", part2(&input));`
			`}`

			`#[cfg(test)]`
			`mod tests {`
			`use super::*;`
			`use aoc2021::*;`

			`const TEST_INPUT: &str = "7,4,9,5,11,17,23,2,0,14,21,24,10,16,13,6,15,25,12,22,18,20,8,19,3,26,1`

			`22 13 17 11 0`
			`8 2 23 4 24`
			`21 9 14 16 7`
			`6 10 3 18 5`
			`1 12 20 15 19`

			`3 15 0 2 22`
			`9 18 13 17 5`
			`19 8 7 25 23`
			`20 11 10 24 4`
			`14 21 16 12 6`

			`14 21 17 24 4`
			`10 16 15 9 19`
			`18 8 23 26 20`
			`22 11 13 6 5`
			`2 0 12 3 7";`

			`test!(part1() == 4512);`
			`test!(part2() == 1924);`
Enable benchmarks 2021-12-04 13:09:10 +01:00			`bench!(part1() == 74320);`
			`bench!(part2() == 17884);`
			`bench_input!(BingoGame::len => 100);`
Add day 4 2021-12-04 12:49:48 +01:00			`}`