#!/usr/bin/env nix-shell
use itertools::Itertools;
use nom::IResult;
use rangemap::RangeMap;
use std::{collections::HashMap, io::Read, ops::Range, str::FromStr, time::Instant};
const TRANSLATION_PATH: &[MapKind] = &[
MapKind::Soil,
MapKind::Fertilizer,
MapKind::Water,
MapKind::Light,
MapKind::Temperature,
MapKind::Humidity,
MapKind::Location,
];
fn main() {
let mut input = Vec::new();
std::io::stdin().lock().read_to_end(&mut input).unwrap();
let input = std::str::from_utf8(&input).unwrap();
let (rest, input) = parse_input(input).unwrap();
assert!(rest.is_empty());
let i = Instant::now();
let answer = part1(&input);
eprintln!("part 1: {answer} ({:?})", i.elapsed());
let i = Instant::now();
let answer = part2(&input);
eprintln!("part 2: {answer} ({:?})", i.elapsed());
}
fn part1(input: &Input) -> u64 {
let mut lowest_location = u64::MAX;
for seed in &input.seeds {
let mut source = *seed;
let mut from = MapKind::Seed;
for to in TRANSLATION_PATH {
let Some(translation) = input.maps.get(&Translation { from, to: *to }) else {
panic!("invalid path {from:?} to {to:?}");
};
if let Some((source_range, destination_base)) = translation.get_key_value(&source) {
source = destination_base + (source - source_range.start);
}
from = *to;
}
assert_eq!(from, MapKind::Location);
lowest_location = lowest_location.min(source);
}
lowest_location
}
fn part2(input: &Input) -> u64 {
let seed_ranges: Vec<_> = input
.seeds
.iter()
.tuples()
.map(|(start, len)| (*start)..(*start) + len)
.collect();
let mut lowest_bound_seen = u64::MAX;
for seed_range in seed_ranges {
let lowest_for_seed = traverse_path(input, TRANSLATION_PATH, MapKind::Seed, seed_range);
lowest_bound_seen = lowest_bound_seen.min(lowest_for_seed);
}
lowest_bound_seen
}
fn traverse_path(input: &Input, path: &[MapKind], from: MapKind, source_range: Range<u64>) -> u64 {
let mut lowest_bound_seen = u64::MAX;
let Some((next_path, rest)) = path.split_first() else {
return source_range.start;
};
let Some(translation) = input.maps.get(&Translation {
from,
to: *next_path,
}) else {
panic!("invalid path {from:?} to {next_path:?}");
};
for (new_source_range, destination_base) in translation.overlapping(&source_range) {
let start = source_range.start.max(new_source_range.start);
let end = source_range.end.min(new_source_range.end);
let offset = start.saturating_sub(new_source_range.start);
let length = end.saturating_sub(start);
let destination_range = (*destination_base + offset)..(*destination_base + offset + length);
let lowest_in_tree = traverse_path(input, rest, *next_path, destination_range);
lowest_bound_seen = lowest_bound_seen.min(lowest_in_tree);
}
for uncovered_range in split_range(
source_range.clone(),
translation
.overlapping(&source_range)
.map(|v| v.0.clone())
.collect(),
) {
let current_range = traverse_path(input, rest, *next_path, uncovered_range);
lowest_bound_seen = lowest_bound_seen.min(current_range);
}
lowest_bound_seen
}
fn split_range(main_range: Range<u64>, mut ranges: Vec<Range<u64>>) -> Vec<Range<u64>> {
let mut non_intersecting_ranges = Vec::new();
let mut current_start = main_range.start;
ranges.sort_by_key(|r| r.start);
for range in ranges {
if range.start > current_start {
non_intersecting_ranges.push(current_start..range.start);
}
if range.end > current_start {
current_start = range.end;
}
}
if current_start < main_range.end {
non_intersecting_ranges.push(current_start..main_range.end);
}
non_intersecting_ranges
}
#[derive(strum::EnumString, Copy, Clone, Debug, Hash, PartialEq, Eq)]
#[strum(serialize_all = "kebab-case")]
enum MapKind {
Seed,
Soil,
Fertilizer,
Water,
Light,
Temperature,
Humidity,
Location,
}
#[derive(Debug, Hash, Copy, Clone, PartialEq, Eq)]
struct Translation {
from: MapKind,
to: MapKind,
}
impl From<(MapKind, MapKind)> for Translation {
fn from((from, to): (MapKind, MapKind)) -> Self {
Self { from, to }
}
}
#[derive(Debug)]
struct Input {
seeds: Vec<u64>,
maps: HashMap<Translation, RangeMap<u64, u64>>,
}
fn parse_input(rest: &str) -> IResult<&str, Input> {
use nom::{
bytes::complete::tag, character::complete::digit1, combinator::map_res,
multi::separated_list1, sequence::delimited,
};
let (rest, seeds) = delimited(
tag("seeds: "),
separated_list1(tag(" "), map_res(digit1, u64::from_str)),
tag("\n\n"),
)(rest)?;
let (rest, maps) = separated_list1(tag("\n"), parse_single_map)(rest)?;
Ok((
rest,
Input {
seeds,
maps: maps.into_iter().collect(),
},
))
}
fn parse_single_map(rest: &str) -> IResult<&str, (Translation, RangeMap<u64, u64>)> {
use nom::multi::many1;
let (rest, header) = parse_header(rest)?;
let (rest, lines) = many1(parse_map_line)(rest)?;
Ok((rest, (header, lines.into_iter().collect())))
}
fn parse_map_line(rest: &str) -> IResult<&str, (Range<u64>, u64)> {
use nom::{
branch::alt,
bytes::complete::tag,
character::complete::digit1,
combinator::{eof, map_res},
sequence::terminated,
};
let (rest, destination) = terminated(map_res(digit1, u64::from_str), tag(" "))(rest)?;
let (rest, source) = terminated(map_res(digit1, u64::from_str), tag(" "))(rest)?;
let (rest, size) = terminated(map_res(digit1, u64::from_str), alt((tag("\n"), eof)))(rest)?;
Ok((rest, (source..source + size, destination)))
}
fn parse_header(rest: &str) -> IResult<&str, Translation> {
use nom::{
bytes::complete::{tag, take_until},
combinator::{map, map_res},
sequence::{separated_pair, terminated},
};
map(
terminated(
separated_pair(
map_res(take_until("-"), MapKind::from_str),
tag("-to-"),
map_res(take_until(" "), MapKind::from_str),
),
tag(" map:\n"),
),
Translation::from,
)(rest)
}