aoc2023/15/src/main.rs

use std::collections::HashMap;
use std::fs::File;
use std::io::{BufRead, BufReader, Lines};
use std::time::{Duration, Instant};

// BOILERPLATE
type InputIter = Lines<BufReader<File>>;

fn get_input() -> InputIter {
    let f = File::open("input").unwrap();
    let br = BufReader::new(f);
    br.lines()
}

fn main() {
    let start = Instant::now();
    let ans1 = problem1(get_input());
    let duration = start.elapsed();
    println!("Problem 1 solution: {} [{}s]", ans1, duration.as_secs_f64());

    let start = Instant::now();
    let ans2 = problem2(get_input());
    let duration = start.elapsed();
    println!("Problem 2 solution: {} [{}s]", ans2, duration.as_secs_f64());
}

// COMMON

fn hash_string(s: &str) -> u64 {
    let mut val = 0u64;
    for c in s.bytes() {
        val += c as u64;
        val *= 17;
        val %= 256;
    }
    val
}

// PROBLEM 1 solution

fn problem1<T: BufRead>(mut input: Lines<T>) -> u64 {
    let line = input.next().unwrap().unwrap();
    line.split(',').map(|s| hash_string(s)).sum()
}

// PROBLEM 2 solution

#[derive(Clone, Default)]
struct LensBox {
    // lenses k: lens label v: focal length
    lenses: HashMap<String, u8>,
    // order is the lens stack, values are labels into lenses
    order: Vec<String>,
}

impl LensBox {
    fn add_lens(&mut self, label: &str, focal_length: u8) {
        // If there is not already a lens in the box with the same label, add
        // the lens to the box immediately behind any lenses already in the box.
        // Don't move any of the other lenses when you do this. If there aren't
        // any lenses in the box, the new lens goes all the way to the front of
        // the box.
        if self.lenses.insert(label.to_owned(), focal_length).is_none() {
            self.order.push(label.to_owned());
        }
    }
    //If the operation character is a dash (-), go to the relevant box and
    //remove the lens with the given label if it is present in the box. Then,
    //move any remaining lenses as far forward in the box as they can go without
    //changing their order, filling any space made by removing the indicated
    //lens. (If no lens in that box has the given label, nothing happens.)
    fn remove_lens_if_present(&mut self, label: &str) {
        if let Some(_) = self.lenses.remove(label) {
            self.order.remove(
                self.order
                    .iter()
                    .position(|s| s == label)
                    .expect("We had the lens in lenses but not in order?!"),
            );
        }
    }

    fn total_lens_power(&self) -> u64{
        self.order.iter().enumerate().map(|(lens_idx, label)| (lens_idx+1) as u64 * self.lenses[label] as u64).sum()
    }
}

enum Instruction {
    Replace(String, u8),
    Remove(String),
}

impl From<&str> for Instruction {
    fn from(s: &str) -> Self {
        let op_pos = s.find(|c| c == '-' || c == '=').expect("No operation?!");
        let op = s.chars().nth(op_pos).unwrap();
        let (label, op_focal) = s.split_once(|c| c == '-' || c == '=').unwrap();

        match op {
            '-' => Self::Remove(label.to_owned()),
            '=' => Self::Replace(label.to_owned(), op_focal.parse().unwrap()),
            _ => panic!("unexpected op {}", op),
        }
    }
}

impl Instruction {
    fn execute(&self, boxes: &mut [LensBox; 256]) {
        match self {
            Self::Remove(label) => boxes[hash_string(label) as usize].remove_lens_if_present(label),
            Self::Replace(label, focal) => {
                boxes[hash_string(label) as usize].add_lens(label, *focal)
            }
        }
    }
}

fn print_boxes(boxes: &[LensBox; 256]) {
    for (idx, b) in boxes.iter().enumerate() {
        if !b.order.is_empty() {
            print!("Box {}:", idx);
            for label in &b.order {
                print!(" [{} {}]", label, b.lenses[label]);
            }
            println!();
        }
    }
}

fn problem2<T: BufRead>(mut input: Lines<T>) -> u64 {
    let line = input.next().unwrap().unwrap();

    let instructions: Vec<_> = line.split(',').map(|s| Instruction::from(s)).collect();
    let mut boxes: [LensBox; 256] = std::array::from_fn(|_| LensBox::default());

    for inst in instructions {
        inst.execute(&mut boxes);
    }

    boxes.iter().enumerate().map(|(box_idx, b)| (box_idx + 1) as u64 * b.total_lens_power()).sum()
}

#[cfg(test)]
mod tests {
    use crate::*;
    use std::io::Cursor;

    const EXAMPLE: &str = &"rn=1,cm-,qp=3,cm=2,qp-,pc=4,ot=9,ab=5,pc-,pc=6,ot=7";

    #[test]
    fn problem1_test_hash() {
        assert_eq!(hash_string(&"HASH"), 52);
    }
    #[test]
    fn problem1_example() {
        let c = Cursor::new(EXAMPLE);
        assert_eq!(problem1(c.lines()), 1320);
    }

    #[test]
    fn problem2_example() {
        let c = Cursor::new(EXAMPLE);
        assert_eq!(problem2(c.lines()), 145);
    }
}
day15: problem 1 & 2 solutions 2023-12-14 22:07:49 -08:00			`use std::collections::HashMap;`
			`use std::fs::File;`
			`use std::io::{BufRead, BufReader, Lines};`
			`use std::time::{Duration, Instant};`

			`// BOILERPLATE`
			`type InputIter = Lines<BufReader<File>>;`

			`fn get_input() -> InputIter {`
			`let f = File::open("input").unwrap();`
			`let br = BufReader::new(f);`
			`br.lines()`
			`}`

			`fn main() {`
			`let start = Instant::now();`
			`let ans1 = problem1(get_input());`
			`let duration = start.elapsed();`
			`println!("Problem 1 solution: {} [{}s]", ans1, duration.as_secs_f64());`

			`let start = Instant::now();`
			`let ans2 = problem2(get_input());`
			`let duration = start.elapsed();`
			`println!("Problem 2 solution: {} [{}s]", ans2, duration.as_secs_f64());`
			`}`

			`// COMMON`

			`fn hash_string(s: &str) -> u64 {`
			`let mut val = 0u64;`
			`for c in s.bytes() {`
			`val += c as u64;`
			`val *= 17;`
			`val %= 256;`
			`}`
			`val`
			`}`

			`// PROBLEM 1 solution`

			`fn problem1<T: BufRead>(mut input: Lines<T>) -> u64 {`
			`let line = input.next().unwrap().unwrap();`
			`line.split(',').map(\|s\| hash_string(s)).sum()`
			`}`

			`// PROBLEM 2 solution`

			`#[derive(Clone, Default)]`
			`struct LensBox {`
			`// lenses k: lens label v: focal length`
			`lenses: HashMap<String, u8>,`
			`// order is the lens stack, values are labels into lenses`
			`order: Vec<String>,`
			`}`

			`impl LensBox {`
			`fn add_lens(&mut self, label: &str, focal_length: u8) {`
			`// If there is not already a lens in the box with the same label, add`
			`// the lens to the box immediately behind any lenses already in the box.`
			`// Don't move any of the other lenses when you do this. If there aren't`
			`// any lenses in the box, the new lens goes all the way to the front of`
			`// the box.`
			`if self.lenses.insert(label.to_owned(), focal_length).is_none() {`
			`self.order.push(label.to_owned());`
			`}`
			`}`
			`//If the operation character is a dash (-), go to the relevant box and`
			`//remove the lens with the given label if it is present in the box. Then,`
			`//move any remaining lenses as far forward in the box as they can go without`
			`//changing their order, filling any space made by removing the indicated`
			`//lens. (If no lens in that box has the given label, nothing happens.)`
			`fn remove_lens_if_present(&mut self, label: &str) {`
			`if let Some(_) = self.lenses.remove(label) {`
			`self.order.remove(`
			`self.order`
			`.iter()`
			`.position(\|s\| s == label)`
			`.expect("We had the lens in lenses but not in order?!"),`
			`);`
			`}`
			`}`

			`fn total_lens_power(&self) -> u64{`
			`self.order.iter().enumerate().map(\|(lens_idx, label)\| (lens_idx+1) as u64 * self.lenses[label] as u64).sum()`
			`}`
			`}`

			`enum Instruction {`
			`Replace(String, u8),`
			`Remove(String),`
			`}`

			`impl From<&str> for Instruction {`
			`fn from(s: &str) -> Self {`
			`let op_pos = s.find(\|c\| c == '-' \|\| c == '=').expect("No operation?!");`
			`let op = s.chars().nth(op_pos).unwrap();`
			`let (label, op_focal) = s.split_once(\|c\| c == '-' \|\| c == '=').unwrap();`

			`match op {`
			`'-' => Self::Remove(label.to_owned()),`
			`'=' => Self::Replace(label.to_owned(), op_focal.parse().unwrap()),`
			`_ => panic!("unexpected op {}", op),`
			`}`
			`}`
			`}`

			`impl Instruction {`
			`fn execute(&self, boxes: &mut [LensBox; 256]) {`
			`match self {`
			`Self::Remove(label) => boxes[hash_string(label) as usize].remove_lens_if_present(label),`
			`Self::Replace(label, focal) => {`
			`boxes[hash_string(label) as usize].add_lens(label, *focal)`
			`}`
			`}`
			`}`
			`}`

			`fn print_boxes(boxes: &[LensBox; 256]) {`
			`for (idx, b) in boxes.iter().enumerate() {`
			`if !b.order.is_empty() {`
			`print!("Box {}:", idx);`
			`for label in &b.order {`
			`print!(" [{} {}]", label, b.lenses[label]);`
			`}`
			`println!();`
			`}`
			`}`
			`}`

			`fn problem2<T: BufRead>(mut input: Lines<T>) -> u64 {`
			`let line = input.next().unwrap().unwrap();`

			`let instructions: Vec<_> = line.split(',').map(\|s\| Instruction::from(s)).collect();`
			`let mut boxes: [LensBox; 256] = std::array::from_fn(\|_\| LensBox::default());`

			`for inst in instructions {`
			`inst.execute(&mut boxes);`
			`}`

			`boxes.iter().enumerate().map(\|(box_idx, b)\| (box_idx + 1) as u64 * b.total_lens_power()).sum()`
			`}`

			`#[cfg(test)]`
			`mod tests {`
			`use crate::*;`
			`use std::io::Cursor;`

			`const EXAMPLE: &str = &"rn=1,cm-,qp=3,cm=2,qp-,pc=4,ot=9,ab=5,pc-,pc=6,ot=7";`

			`#[test]`
			`fn problem1_test_hash() {`
			`assert_eq!(hash_string(&"HASH"), 52);`
			`}`
			`#[test]`
			`fn problem1_example() {`
			`let c = Cursor::new(EXAMPLE);`
			`assert_eq!(problem1(c.lines()), 1320);`
			`}`

			`#[test]`
			`fn problem2_example() {`
			`let c = Cursor::new(EXAMPLE);`
			`assert_eq!(problem2(c.lines()), 145);`
			`}`
			`}`