Day 8: Resonant Collinearity

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FAQ

  • Katzenmann@feddit.org
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    18 days ago

    Rust

    Pretty happy with my solution today. I took my time today as it was a bit of a slow day and did it in Rust instead of python. Having proper Vec2 types is very nice.

    Tap for spoiler
    use std::{collections::HashMap, error::Error, io::Read};
    
    use glam::{IVec2, Vec2};
    
    fn permutations_of_size_two(antennas: &[Vec2]) -> Vec<[&Vec2; 2]> {
        let mut permutations = vec![];
        for (i, antenna) in antennas.iter().enumerate() {
            for j in 0..antennas.len() {
                if i == j {
                    continue;
                }
                permutations.push([antenna, &antennas[j]])
            }
        }
        permutations
    }
    
    fn main() -> Result<(), Box<dyn Error>> {
        let mut input = String::new();
        std::io::stdin().read_to_string(&mut input)?;
    
        let height = input.lines().count() as i32;
        let width = input.lines().next().unwrap().len() as i32;
    
        let antenna_positions = input
            .lines()
            .enumerate()
            .flat_map(|(y, l)| 
                l.chars().enumerate().map(move |(x, c)| (Vec2::new(x as f32, y as f32), c))
            )
            .filter(|(_v, c)| *c != '.')
            .fold(HashMap::new(), |mut acc: HashMap<char, Vec<_>> , current| {
                acc.entry(current.1).or_default().push(current.0);
                acc
            });
    
        let mut antinodes = vec![];
        for (_c, antennas) in antenna_positions {
            let perms = permutations_of_size_two(&antennas);
            for [first, second] in perms {
                let mut i = 1.;
                loop {
                    let antinode = (first + (second-first) * i).round();
                    if (0..height).contains(&(antinode.x as i32)) &&
                        (0..width).contains(&(antinode.y as i32)) {
                            antinodes.push(antinode);
                    } else {
                        break;
                    }
                    i += 1.;
                }
            }
        }
    
        let mut antinode_count = 0;
        let map = input
            .lines()
            .enumerate()
            .map(|(y, l)| 
                l.chars().enumerate().map(|(x, c)| {
                    if antinodes.contains(&Vec2::new(x as f32, y as f32)) {
                        println!("({x},{y})");
                        antinode_count += 1;
                        return '#';
                    }
                    c
                }).collect::<String>()
            )
            .collect::<Vec<_>>()
            .join("\n");
    
        println!("{map}");
        println!("{antinode_count}");
    
        Ok(())
    }