aoc2022/d22/part2.rs

use std::iter::repeat;

type Pos = (isize, isize);

#[derive(Debug, Clone, Copy, Hash, PartialEq, Eq)]
struct Instruction {
    dist: Option<isize>,
    rotation: Option<isize>,
}

fn rotate(facing: Pos, by: isize) -> Pos {
    match by.rem_euclid(4) {
        0 => facing,
        1 => (-facing.1, facing.0),
        2 => (-facing.0, -facing.1),
        3 => (facing.1, -facing.0),
        _ => unreachable!(),
    }
}

fn facing_angle_to_axes(facing: isize) -> Pos {
    match facing.rem_euclid(4) {
        0 => (1, 0),
        1 => (0, 1),
        2 => (-1, 0),
        3 => (0, -1),
        _ => unreachable!(),
    }
}

fn next_pos_facing(
    pos: Pos,
    facing: Pos,
    map: &Vec<Vec<u8>>,
    edges: &Vec<(Vec<Pos>, Vec<Pos>, isize, isize)>,
) -> (Pos, Pos) {
    let mut next_pos = (pos.0 + facing.0, pos.1 + facing.1);
    let mut next_facing = facing;
    for edge in edges.iter() {
        if let Some(i) = edge.0.iter().position(|p| *p == pos) {
            if facing_angle_to_axes(edge.2) == facing {
                (next_pos, next_facing) = (edge.1[i], rotate(facing, (edge.3 + 2) - edge.2));
                #[cfg(debug_assertions)]
                println!(
                    "cross edge: {} {} ({} {}) -> {} {} ({} {})",
                    pos.0,
                    pos.1,
                    facing.0,
                    facing.1,
                    next_pos.0,
                    next_pos.1,
                    next_facing.0,
                    next_facing.1
                );
            }
        } else if let Some(i) = edge.1.iter().position(|p| *p == pos) {
            if facing_angle_to_axes(edge.3) == facing {
                (next_pos, next_facing) = (edge.0[i], rotate(facing, (edge.2 + 2) - edge.3));
                #[cfg(debug_assertions)]
                println!(
                    "cross edge: {} {} ({} {}) -> {} {} ({} {})",
                    pos.0,
                    pos.1,
                    facing.0,
                    facing.1,
                    next_pos.0,
                    next_pos.1,
                    next_facing.0,
                    next_facing.1
                );
            }
        }
    }
    (next_pos, next_facing)
}

pub fn main() {
    let s = include_bytes!("./input");
    let mut pos = (s.iter().position(|b| *b == b'.').unwrap() as isize, 0);
    let mut facing: (isize, isize) = (1, 0);
    let w = s
        .split(|b| *b == b'\n')
        .take_while(|l| !l.is_empty())
        .map(|l| l.len())
        .max()
        .unwrap();
    let map = s
        .split(|b| *b == b'\n')
        .take_while(|l| !l.is_empty())
        .map(|l| {
            l.iter()
                .take(l.len())
                .chain(repeat(&b' ').take(w - l.len()))
                .copied()
                .collect::<Vec<_>>()
        })
        .collect::<Vec<_>>();
    let l = 50isize;
    #[rustfmt::skip]
    let edges: Vec<(Vec<Pos>, Vec<Pos>, isize, isize)> = vec![
        ((0..l).zip(repeat(l*2).take(l as usize)).collect(), repeat(l).take(l as usize).zip(l..l*2).collect(), 3, 2),
        (repeat(0).take(l as usize).zip(l*2..l*3).collect(), repeat(l).take(l as usize).zip((0..l).rev()).collect(), 2, 2),
        (repeat(0).take(l as usize).zip(l*3..l*4).collect(), (l..l*2).zip(repeat(0).take(l as usize)).collect(), 2, 3),
        ((0..l).zip(repeat(l*4-1).take(l as usize)).collect(), (l*2..l*3).zip(repeat(0).take(l as usize)).collect(), 1, 3),
        (repeat(l-1).take(l as usize).zip(l*3..l*4).collect(), (l..l*2).zip(repeat(l*3-1).take(l as usize)).collect(), 0, 1),
        (repeat(l*2-1).take(l as usize).zip(l*2..l*3).collect(), repeat(l*3-1).take(l as usize).zip((0..l).rev()).collect(), 0, 0),
        (repeat(l*2-1).take(l as usize).zip(l..l*2).collect(), (l*2..l*3).zip(repeat(l-1).take(l as usize)).collect(), 0, 1),
    ];
    let mut path: Vec<Instruction> = Vec::new();
    let mut acc = 0;
    s.split(|b| *b == b'\n')
        .rev()
        .nth(1)
        .unwrap()
        .iter()
        .for_each(|b| match b {
            b'0'..=b'9' => {
                acc = acc * 10 + (b - b'0') as isize;
            }
            b'R' => {
                path.push(Instruction {
                    dist: Some(acc),
                    rotation: None,
                });
                path.push(Instruction {
                    dist: None,
                    rotation: Some(1),
                });
                acc = 0;
            }
            b'L' => {
                path.push(Instruction {
                    dist: Some(acc),
                    rotation: None,
                });
                path.push(Instruction {
                    dist: None,
                    rotation: Some(-1),
                });
                acc = 0;
            }
            _ => unreachable!(),
        });
    path.push(Instruction {
        dist: Some(acc),
        rotation: None,
    });
    #[cfg(debug_assertions)]
    println!("{} {}", map.len(), map[0].len());
    #[cfg(debug_assertions)]
    println!(
        "pos: ({}, {}), facing ({} {})",
        pos.0, pos.1, facing.0, facing.1
    );
    for ins in path.iter() {
        #[cfg(debug_assertions)]
        println!("{:?}", ins);
        match (ins.dist, ins.rotation) {
            (Some(dist), None) => {
                for _step in 0..dist {
                    let (next_pos, next_facing) = next_pos_facing(pos, facing, &map, &edges);
                    match map[next_pos.1 as usize][next_pos.0 as usize] {
                        b'#' => {
                            break;
                        }
                        b'.' => {
                            (pos, facing) = (next_pos, next_facing);
                        }
                        _ => {
                            panic!("unexpected wall as next character");
                        }
                    }
                }
            }
            (None, Some(rot)) => {
                (facing.0, facing.1) = rotate((facing.0, facing.1), rot);
            }
            _ => unreachable!(),
        }
        #[cfg(debug_assertions)]
        println!(
            "pos: ({}, {}), facing ({} {})",
            pos.0, pos.1, facing.0, facing.1
        );
    }
    let facing_dir = facing.0.abs() * (1 - facing.0) + facing.1.abs() * (2 - facing.1);
    #[cfg(debug_assertions)]
    println!(
        "pos: ({}, {}), facing ({} {}) = {}",
        pos.0 + 1,
        pos.1 + 1,
        facing.0,
        facing.1,
        facing_dir
    );
    print!("{} ", 1000 * (pos.1 + 1) + 4 * (pos.0 + 1) + facing_dir);
}
day 22, in Rust, not mine 2022-12-29 11:36:44 +00:00			`use std::iter::repeat;`

			`type Pos = (isize, isize);`

			`#[derive(Debug, Clone, Copy, Hash, PartialEq, Eq)]`
			`struct Instruction {`
			`dist: Option<isize>,`
			`rotation: Option<isize>,`
			`}`

			`fn rotate(facing: Pos, by: isize) -> Pos {`
			`match by.rem_euclid(4) {`
			`0 => facing,`
			`1 => (-facing.1, facing.0),`
			`2 => (-facing.0, -facing.1),`
			`3 => (facing.1, -facing.0),`
			`_ => unreachable!(),`
			`}`
			`}`

			`fn facing_angle_to_axes(facing: isize) -> Pos {`
			`match facing.rem_euclid(4) {`
			`0 => (1, 0),`
			`1 => (0, 1),`
			`2 => (-1, 0),`
			`3 => (0, -1),`
			`_ => unreachable!(),`
			`}`
			`}`

			`fn next_pos_facing(`
			`pos: Pos,`
			`facing: Pos,`
			`map: &Vec<Vec<u8>>,`
			`edges: &Vec<(Vec<Pos>, Vec<Pos>, isize, isize)>,`
			`) -> (Pos, Pos) {`
			`let mut next_pos = (pos.0 + facing.0, pos.1 + facing.1);`
			`let mut next_facing = facing;`
			`for edge in edges.iter() {`
			`if let Some(i) = edge.0.iter().position(\|p\| *p == pos) {`
			`if facing_angle_to_axes(edge.2) == facing {`
			`(next_pos, next_facing) = (edge.1[i], rotate(facing, (edge.3 + 2) - edge.2));`
			`#[cfg(debug_assertions)]`
			`println!(`
			`"cross edge: {} {} ({} {}) -> {} {} ({} {})",`
			`pos.0,`
			`pos.1,`
			`facing.0,`
			`facing.1,`
			`next_pos.0,`
			`next_pos.1,`
			`next_facing.0,`
			`next_facing.1`
			`);`
			`}`
			`} else if let Some(i) = edge.1.iter().position(\|p\| *p == pos) {`
			`if facing_angle_to_axes(edge.3) == facing {`
			`(next_pos, next_facing) = (edge.0[i], rotate(facing, (edge.2 + 2) - edge.3));`
			`#[cfg(debug_assertions)]`
			`println!(`
			`"cross edge: {} {} ({} {}) -> {} {} ({} {})",`
			`pos.0,`
			`pos.1,`
			`facing.0,`
			`facing.1,`
			`next_pos.0,`
			`next_pos.1,`
			`next_facing.0,`
			`next_facing.1`
			`);`
			`}`
			`}`
			`}`
			`(next_pos, next_facing)`
			`}`

			`pub fn main() {`
			`let s = include_bytes!("./input");`
			`let mut pos = (s.iter().position(\|b\| *b == b'.').unwrap() as isize, 0);`
			`let mut facing: (isize, isize) = (1, 0);`
			`let w = s`
			`.split(\|b\| *b == b'\n')`
			`.take_while(\|l\| !l.is_empty())`
			`.map(\|l\| l.len())`
			`.max()`
			`.unwrap();`
			`let map = s`
			`.split(\|b\| *b == b'\n')`
			`.take_while(\|l\| !l.is_empty())`
			`.map(\|l\| {`
			`l.iter()`
			`.take(l.len())`
			`.chain(repeat(&b' ').take(w - l.len()))`
			`.copied()`
			`.collect::<Vec<_>>()`
			`})`
			`.collect::<Vec<_>>();`
			`let l = 50isize;`
			`#[rustfmt::skip]`
			`let edges: Vec<(Vec<Pos>, Vec<Pos>, isize, isize)> = vec![`
			`((0..l).zip(repeat(l2).take(l as usize)).collect(), repeat(l).take(l as usize).zip(l..l2).collect(), 3, 2),`
			`(repeat(0).take(l as usize).zip(l2..l3).collect(), repeat(l).take(l as usize).zip((0..l).rev()).collect(), 2, 2),`
			`(repeat(0).take(l as usize).zip(l3..l4).collect(), (l..l*2).zip(repeat(0).take(l as usize)).collect(), 2, 3),`
			`((0..l).zip(repeat(l4-1).take(l as usize)).collect(), (l2..l*3).zip(repeat(0).take(l as usize)).collect(), 1, 3),`
			`(repeat(l-1).take(l as usize).zip(l3..l4).collect(), (l..l2).zip(repeat(l3-1).take(l as usize)).collect(), 0, 1),`
			`(repeat(l2-1).take(l as usize).zip(l2..l3).collect(), repeat(l3-1).take(l as usize).zip((0..l).rev()).collect(), 0, 0),`
			`(repeat(l2-1).take(l as usize).zip(l..l2).collect(), (l2..l3).zip(repeat(l-1).take(l as usize)).collect(), 0, 1),`
			`];`
			`let mut path: Vec<Instruction> = Vec::new();`
			`let mut acc = 0;`
			`s.split(\|b\| *b == b'\n')`
			`.rev()`
			`.nth(1)`
			`.unwrap()`
			`.iter()`
			`.for_each(\|b\| match b {`
			`b'0'..=b'9' => {`
			`acc = acc * 10 + (b - b'0') as isize;`
			`}`
			`b'R' => {`
			`path.push(Instruction {`
			`dist: Some(acc),`
			`rotation: None,`
			`});`
			`path.push(Instruction {`
			`dist: None,`
			`rotation: Some(1),`
			`});`
			`acc = 0;`
			`}`
			`b'L' => {`
			`path.push(Instruction {`
			`dist: Some(acc),`
			`rotation: None,`
			`});`
			`path.push(Instruction {`
			`dist: None,`
			`rotation: Some(-1),`
			`});`
			`acc = 0;`
			`}`
			`_ => unreachable!(),`
			`});`
			`path.push(Instruction {`
			`dist: Some(acc),`
			`rotation: None,`
			`});`
			`#[cfg(debug_assertions)]`
			`println!("{} {}", map.len(), map[0].len());`
			`#[cfg(debug_assertions)]`
			`println!(`
			`"pos: ({}, {}), facing ({} {})",`
			`pos.0, pos.1, facing.0, facing.1`
			`);`
			`for ins in path.iter() {`
			`#[cfg(debug_assertions)]`
			`println!("{:?}", ins);`
			`match (ins.dist, ins.rotation) {`
			`(Some(dist), None) => {`
			`for _step in 0..dist {`
			`let (next_pos, next_facing) = next_pos_facing(pos, facing, &map, &edges);`
			`match map[next_pos.1 as usize][next_pos.0 as usize] {`
			`b'#' => {`
			`break;`
			`}`
			`b'.' => {`
			`(pos, facing) = (next_pos, next_facing);`
			`}`
			`_ => {`
			`panic!("unexpected wall as next character");`
			`}`
			`}`
			`}`
			`}`
			`(None, Some(rot)) => {`
			`(facing.0, facing.1) = rotate((facing.0, facing.1), rot);`
			`}`
			`_ => unreachable!(),`
			`}`
			`#[cfg(debug_assertions)]`
			`println!(`
			`"pos: ({}, {}), facing ({} {})",`
			`pos.0, pos.1, facing.0, facing.1`
			`);`
			`}`
			`let facing_dir = facing.0.abs() * (1 - facing.0) + facing.1.abs() * (2 - facing.1);`
			`#[cfg(debug_assertions)]`
			`println!(`
			`"pos: ({}, {}), facing ({} {}) = {}",`
			`pos.0 + 1,`
			`pos.1 + 1,`
			`facing.0,`
			`facing.1,`
			`facing_dir`
			`);`
			`print!("{} ", 1000 * (pos.1 + 1) + 4 * (pos.0 + 1) + facing_dir);`
			`}`