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adventofcode/2023/src/day08.rs

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Rust
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use anyhow::Context;
use nom::bytes::complete::tag;
use nom::bytes::complete::take;
use nom::bytes::complete::take_until;
use nom::combinator::map;
use nom::multi::fold_many1;
use nom::sequence::preceded;
use nom::sequence::separated_pair;
use nom::sequence::terminated;
use nom::sequence::tuple;
use nom::IResult;
use num_integer::Integer;
use crate::common::parse_input;
const NUM_PLACES: usize = 26 * 26 * 26;
struct Map<'a> {
instructions: &'a [u8],
transitions: Box<[(u16, u16); NUM_PLACES]>,
}
impl<'a> Map<'a> {
#[inline]
fn transition(&self, pos: u16, step: u8) -> u16 {
if step == b'L' {
self.transitions[pos as usize].0
} else {
self.transitions[pos as usize].1
}
}
}
fn place_to_index(place: &[u8]) -> u16 {
place
.iter()
.fold(0u16, |index, &c| index * 26 + u16::from(c - b'A'))
}
fn parse_map(i: &[u8]) -> IResult<&[u8], Map<'_>> {
map(
separated_pair(
take_until("\n"),
tag("\n\n"),
fold_many1(
tuple((
terminated(take(3usize), tag(" = (")),
terminated(take(3usize), tag(", ")),
terminated(take(3usize), tag(")\n")),
)),
|| Box::new([(0, 0); NUM_PLACES]),
|mut transitions, (pos, left, right)| {
let pos = place_to_index(pos);
let left = place_to_index(left);
let right = place_to_index(right);
transitions[pos as usize] = (left, right);
transitions
},
),
),
|(instructions, transitions)| Map {
instructions,
transitions,
},
)(i)
}
fn parse_starts(i: &[u8]) -> IResult<&[u8], Vec<u16>> {
preceded(
tuple((take_until("\n"), tag("\n\n"))),
fold_many1(
terminated(
map(take(3usize), place_to_index),
tuple((take_until("\n"), tag("\n"))),
),
Vec::new,
|mut starts, place| {
if place % 26 == 0 {
starts.push(place)
}
starts
},
),
)(i)
}
pub fn part1(input: &[u8]) -> anyhow::Result<String> {
let map = parse_input(input, parse_map)?;
let end = place_to_index(b"ZZZ");
let mut pos = 0;
for (count, &step) in map.instructions.iter().cycle().enumerate() {
if pos == end {
return Ok(count.to_string());
}
pos = map.transition(pos, step);
}
anyhow::bail!("Unreachable, loop is infinite");
}
// This code is wrong. There is no reason that the start of the cycle is indeed the equal to the
// length of the cycle. But it happens to be the case, so we roll with it. Otherwise you could go
// with the full Chinese remainder theorem and knock yourself out that way.
//
// I didn't wanna.
fn find_cycle(map: &Map<'_>, start: u16) -> usize {
let mut pos = start;
for (count, &step) in map.instructions.iter().cycle().enumerate() {
if pos % 26 == 25 {
return count;
}
pos = map.transition(pos, step);
}
unreachable!("Loop is actually infinite")
}
pub fn part2(input: &[u8]) -> anyhow::Result<String> {
let map = parse_input(input, parse_map)?;
let pos = parse_input(input, parse_starts)?;
pos.iter()
.map(|&p| find_cycle(&map, p))
.reduce(|a, b| a.lcm(&b))
.map(|s| s.to_string())
.context("No starting points somehow")
}
#[cfg(test)]
mod tests {
use super::*;
const SAMPLE: &[u8] = include_bytes!("samples/08.1.txt");
const SAMPLE2: &[u8] = include_bytes!("samples/08.2.txt");
// N.B. sample modified because I don't want to change my parser logic to deal with ascii digits
// in addition to capitals. 1 has been replaced with D, 2 has been replaced with E.
const SAMPLE3: &[u8] = include_bytes!("samples/08.3.txt");
#[test]
fn sample_part1() {
assert_eq!("2", part1(SAMPLE).unwrap());
assert_eq!("6", part1(SAMPLE2).unwrap());
}
#[test]
fn sample_part2() {
assert_eq!("6", part2(SAMPLE3).unwrap());
}
}
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