Day 5: If You Give a Seed a Fertilizer


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  • capitalpb
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    1 year ago

    Well, I can’t say much about this one. The code is ugly, horribly inefficient, and part two takes a solid half hour to run. It got the right answer though, so that’s something I suppose. I think something like nom to parse the input would be much cleaner, and there’s got to be a better way of going about part two than just brute forcing through every possible seed, but hey, it works so that’s good enough for now.

    https://github.com/capitalpb/advent_of_code_2023/blob/main/src/solvers/day05.rs

    #[derive(Clone, Debug)]
    struct AlmanacMapEntry {
        destination_range: RangeInclusive,
        source_range: RangeInclusive,
    }
    
    #[derive(Clone, Debug)]
    struct AlmanacMap {
        entries: Vec,
    }
    
    impl AlmanacMap {
        fn from(input: &str) -> AlmanacMap {
            let entries = input
                .lines()
                .skip(1)
                .map(|line| {
                    let numbers = line
                        .split(' ')
                        .filter_map(|number| number.parse::().ok())
                        .collect::>();
                    AlmanacMapEntry {
                        destination_range: numbers[0]..=(numbers[0] + numbers[2]),
                        source_range: numbers[1]..=(numbers[1] + numbers[2]),
                    }
                })
                .collect();
            AlmanacMap { entries }
        }
    
        fn convert(&self, source: &u64) -> u64 {
            let entry = self
                .entries
                .iter()
                .find(|entry| entry.source_range.contains(&source));
    
            if let Some(entry) = entry {
                entry.destination_range.start() + (source - entry.source_range.start())
            } else {
                source.clone()
            }
        }
    }
    
    #[derive(Debug)]
    struct Almanac {
        seeds: Vec,
        seed_to_soil: AlmanacMap,
        soil_to_fertilizer: AlmanacMap,
        fertilizer_to_water: AlmanacMap,
        water_to_light: AlmanacMap,
        light_to_temperature: AlmanacMap,
        temperature_to_humidity: AlmanacMap,
        humidity_to_location: AlmanacMap,
    }
    
    impl Almanac {
        fn star_one_from(input: &str) -> Almanac {
            let mut input_sections = input
                .split("\n\n")
                .map(|section| section.split_once(':').unwrap().1);
    
            let seeds = input_sections
                .next()
                .unwrap()
                .split_whitespace()
                .filter_map(|seed| seed.parse::().ok())
                .collect();
    
            let almanac_maps = input_sections.map(AlmanacMap::from).collect::>();
    
            Almanac {
                seeds,
                seed_to_soil: almanac_maps[0].clone(),
                soil_to_fertilizer: almanac_maps[1].clone(),
                fertilizer_to_water: almanac_maps[2].clone(),
                water_to_light: almanac_maps[3].clone(),
                light_to_temperature: almanac_maps[4].clone(),
                temperature_to_humidity: almanac_maps[5].clone(),
                humidity_to_location: almanac_maps[6].clone(),
            }
        }
    
        fn star_two_from(input: &str) -> Almanac {
            let mut input_sections = input
                .split("\n\n")
                .map(|section| section.split_once(':').unwrap().1);
    
            let seeds = input_sections
                .next()
                .unwrap()
                .split_whitespace()
                .filter_map(|seed| seed.parse::().ok())
                .collect::>()
                .chunks(2)
                .map(|chunk| (chunk[0]..(chunk[0] + chunk[1])).collect::>())
                .flatten()
                .collect::>();
    
            let almanac_maps = input_sections.map(AlmanacMap::from).collect::>();
    
            Almanac {
                seeds,
                seed_to_soil: almanac_maps[0].clone(),
                soil_to_fertilizer: almanac_maps[1].clone(),
                fertilizer_to_water: almanac_maps[2].clone(),
                water_to_light: almanac_maps[3].clone(),
                light_to_temperature: almanac_maps[4].clone(),
                temperature_to_humidity: almanac_maps[5].clone(),
                humidity_to_location: almanac_maps[6].clone(),
            }
        }
    }
    
    pub struct Day05;
    
    impl Solver for Day05 {
        fn star_one(&self, input: &str) -> String {
            let almanac = Almanac::star_one_from(input);
    
            almanac
                .seeds
                .iter()
                .map(|seed| almanac.seed_to_soil.convert(seed))
                .map(|soil| almanac.soil_to_fertilizer.convert(&soil))
                .map(|fertilizer| almanac.fertilizer_to_water.convert(&fertilizer))
                .map(|water| almanac.water_to_light.convert(&water))
                .map(|light| almanac.light_to_temperature.convert(&light))
                .map(|temperature| almanac.temperature_to_humidity.convert(&temperature))
                .map(|humidity| almanac.humidity_to_location.convert(&humidity))
                .min()
                .unwrap()
                .to_string()
        }
    
        fn star_two(&self, input: &str) -> String {
            let almanac = Almanac::star_two_from(input);
    
            almanac
                .seeds
                .iter()
                .map(|seed| almanac.seed_to_soil.convert(seed))
                .map(|soil| almanac.soil_to_fertilizer.convert(&soil))
                .map(|fertilizer| almanac.fertilizer_to_water.convert(&fertilizer))
                .map(|water| almanac.water_to_light.convert(&water))
                .map(|light| almanac.light_to_temperature.convert(&light))
                .map(|temperature| almanac.temperature_to_humidity.convert(&temperature))
                .map(|humidity| almanac.humidity_to_location.convert(&humidity))
                .min()
                .unwrap()
                .to_string()
        }
    }