advent-of-code/aoc2020/src/day16.rs

use std::collections::HashMap;
use std::fmt::Write;
use std::ops::RangeInclusive;

use anyhow::{Context, Result};

const INPUT: &str = include_str!("../input/day16.txt");

pub fn run() -> Result<String> {
    let mut res = String::with_capacity(128);

    writeln!(res, "part 1: {}", part1(INPUT)?)?;
    writeln!(res, "part 2: {}", part2(INPUT)?)?;

    Ok(res)
}

fn part1(input: &str) -> Result<u64> {
    let (fields, _, tickets) = parse_input(input)?;

    let fields_vec = fields.values().collect::<Vec<_>>();

    Ok(tickets
        .iter()
        .map(|t| t.invalid_values(&fields_vec))
        .flatten()
        .sum())
}

fn assign_field_positions(
    fields: HashMap<&str, Field>,
    tickets: Vec<Ticket>,
) -> HashMap<usize, &str> {
    let fields_vec = fields.values().collect::<Vec<_>>();

    let tickets: Vec<Ticket> = tickets
        .into_iter()
        .filter(|t| t.invalid_values(&fields_vec).count() == 0)
        .collect();

    let num_values = tickets[0].values.len();

    // build list of all possibilities for each field
    let mut possibilities = fields
        .iter()
        .map(|(&name, field)| {
            let possibilities = (0..num_values)
                .into_iter()
                .filter(|i| tickets.iter().all(|t| t.valid_field(field, *i)))
                .collect();

            (name, possibilities)
        })
        .collect::<HashMap<&str, Vec<usize>>>();

    let mut fields_to_assign: Vec<&str> = fields.keys().copied().collect();
    let mut field_indices: HashMap<usize, &str> = HashMap::new();

    for _ in 0..fields.len() {
        // get field with only one possibility, and assign it
        let field = fields_to_assign
            .iter()
            .min_by_key(|&name| possibilities[name].len())
            .copied()
            .expect("fields_to_assign should never be empty in this loop");

        assert_eq!(possibilities[field].len(), 1);

        let possibility = possibilities[field][0];

        // remove position from other fields' possibilities
        possibilities.values_mut().for_each(|list| {
            if let Some(pos) = list.iter().position(|idx| *idx == possibility) {
                list.swap_remove(pos);
            }
        });

        field_indices.insert(possibility, field);
        fields_to_assign.swap_remove(fields_to_assign.iter().position(|f| *f == field).unwrap());
    }

    field_indices
}

fn part2(input: &str) -> Result<u64> {
    let (fields, my_ticket, tickets) = parse_input(input)?;

    let field_pos_matches = assign_field_positions(fields, tickets);

    Ok(my_ticket
        .values
        .iter()
        .enumerate()
        .filter(|(idx, _)| {
            let field = field_pos_matches[idx];
            field.starts_with("departure")
        })
        .map(|(_, val)| val)
        .product())
}

fn parse_input(input: &str) -> Result<(HashMap<&str, Field>, Ticket, Vec<Ticket>)> {
    let mut parts = input.split("\n\n");

    let fields_part = parts.next().context("no fields specification found")?;
    let my_ticket_part = parts.next().context("no personal ticket found")?;
    let tickets_part = parts.next().context("no list of tickets found")?;

    let fields = fields_part
        .lines()
        .map(|line| {
            let mut parts = line.split(": ");
            let name = parts.next().context("no name found")?;
            let field = parts.next().context("no ranges found")?.parse()?;

            Ok((name, field))
        })
        .collect::<Result<_>>()
        .context("couldn't parse fields")?;
    let my_ticket = my_ticket_part
        .lines()
        .skip(1)
        .map(str::parse)
        .next()
        .context("no second line for ticket")??;
    let tickets = tickets_part
        .lines()
        .skip(1)
        .map(str::parse)
        .collect::<Result<_>>()
        .context("couldn't parse tickets")?;

    Ok((fields, my_ticket, tickets))
}

#[derive(Debug)]
struct Ticket {
    values: Vec<u64>,
}

impl Ticket {
    fn invalid_values<'a>(&'a self, fields: &'a [&Field]) -> impl Iterator<Item = u64> + 'a {
        self.values
            .iter()
            .copied()
            .filter(move |val| !fields.iter().any(|f| f.contains(val)))
    }

    fn valid_field(&self, field: &Field, val_idx: usize) -> bool {
        field.contains(&self.values[val_idx])
    }
}

impl std::str::FromStr for Ticket {
    type Err = anyhow::Error;

    fn from_str(s: &str) -> Result<Self> {
        let values = s
            .split(',')
            .map(|num| {
                num.parse()
                    .with_context(|| format!("couldn't parse `{}`", num))
            })
            .collect::<Result<_>>()?;

        Ok(Ticket { values })
    }
}

#[derive(Debug)]
struct Field {
    ranges: (RangeInclusive<u64>, RangeInclusive<u64>),
}

impl Field {
    fn contains(&self, val: &u64) -> bool {
        self.ranges.0.contains(val) || self.ranges.1.contains(val)
    }
}

impl std::str::FromStr for Field {
    type Err = anyhow::Error;

    fn from_str(s: &str) -> Result<Self> {
        let mut ranges = s.split(" or ");

        let mut first_range = ranges.next().context("no first range found")?.split('-');
        let first_range_start = first_range.next().context("no bound for range")?.parse()?;
        let first_range_end = first_range.next().context("no bound for range")?.parse()?;

        let mut second_range = ranges.next().context("no second range found")?.split('-');
        let second_range_start = second_range.next().context("no bound for range")?.parse()?;
        let second_range_end = second_range.next().context("no bound for range")?.parse()?;

        Ok(Field {
            ranges: (
                first_range_start..=first_range_end,
                second_range_start..=second_range_end,
            ),
        })
    }
}

#[cfg(test)]
mod tests {
    use super::*;

    const PROVIDED1: &str = include_str!("../input/day16_provided1.txt");
    const PROVIDED2: &str = include_str!("../input/day16_provided2.txt");

    #[test]
    fn part1_provided() {
        assert_eq!(part1(PROVIDED1).unwrap(), 71);
    }

    #[test]
    fn part1_real() {
        assert_eq!(part1(INPUT).unwrap(), 20013);
    }

    #[test]
    fn part2_provided() {
        let (fields, _, tickets) = parse_input(PROVIDED2).unwrap();

        let matches = assign_field_positions(fields, tickets);

        let expected = (&["row", "class", "seat"])
            .iter()
            .copied()
            .enumerate()
            .collect();

        assert_eq!(matches, expected);
    }

    #[test]
    fn part2_real() {
        assert_eq!(part2(INPUT).unwrap(), 5977293343129);
    }
}
2020: day16: part 2 2020-12-17 00:31:36 +01:00			`use std::collections::HashMap;`
2020: day16: part 1 2020-12-16 09:28:45 +01:00			`use std::fmt::Write;`
			`use std::ops::RangeInclusive;`

			`use anyhow::{Context, Result};`

			`const INPUT: &str = include_str!("../input/day16.txt");`

			`pub fn run() -> Result<String> {`
			`let mut res = String::with_capacity(128);`

			`writeln!(res, "part 1: {}", part1(INPUT)?)?;`
2020: day16: part 2 2020-12-17 00:31:36 +01:00			`writeln!(res, "part 2: {}", part2(INPUT)?)?;`
2020: day16: part 1 2020-12-16 09:28:45 +01:00
			`Ok(res)`
			`}`

			`fn part1(input: &str) -> Result<u64> {`
			`let (fields, _, tickets) = parse_input(input)?;`

2020: day16: part 2 2020-12-17 00:31:36 +01:00			`let fields_vec = fields.values().collect::<Vec<_>>();`

2020: day16: part 1 2020-12-16 09:28:45 +01:00			`Ok(tickets`
			`.iter()`
2020: day16: part 2 2020-12-17 00:31:36 +01:00			`.map(\|t\| t.invalid_values(&fields_vec))`
2020: day16: part 1 2020-12-16 09:28:45 +01:00			`.flatten()`
			`.sum())`
			`}`

2020: day16: part 2 2020-12-17 00:31:36 +01:00			`fn assign_field_positions(`
			`fields: HashMap<&str, Field>,`
			`tickets: Vec<Ticket>,`
			`) -> HashMap<usize, &str> {`
			`let fields_vec = fields.values().collect::<Vec<_>>();`

			`let tickets: Vec<Ticket> = tickets`
			`.into_iter()`
			`.filter(\|t\| t.invalid_values(&fields_vec).count() == 0)`
			`.collect();`

			`let num_values = tickets[0].values.len();`

			`// build list of all possibilities for each field`
			`let mut possibilities = fields`
			`.iter()`
			`.map(\|(&name, field)\| {`
			`let possibilities = (0..num_values)`
			`.into_iter()`
			`.filter(\|i\| tickets.iter().all(\|t\| t.valid_field(field, *i)))`
			`.collect();`

			`(name, possibilities)`
			`})`
			`.collect::<HashMap<&str, Vec<usize>>>();`

			`let mut fields_to_assign: Vec<&str> = fields.keys().copied().collect();`
			`let mut field_indices: HashMap<usize, &str> = HashMap::new();`

			`for _ in 0..fields.len() {`
			`// get field with only one possibility, and assign it`
			`let field = fields_to_assign`
			`.iter()`
			`.min_by_key(\|&name\| possibilities[name].len())`
			`.copied()`
			`.expect("fields_to_assign should never be empty in this loop");`

			`assert_eq!(possibilities[field].len(), 1);`

			`let possibility = possibilities[field][0];`

			`// remove position from other fields' possibilities`
			`possibilities.values_mut().for_each(\|list\| {`
			`if let Some(pos) = list.iter().position(\|idx\| *idx == possibility) {`
			`list.swap_remove(pos);`
			`}`
			`});`

			`field_indices.insert(possibility, field);`
			`fields_to_assign.swap_remove(fields_to_assign.iter().position(\|f\| *f == field).unwrap());`
			`}`

			`field_indices`
			`}`

			`fn part2(input: &str) -> Result<u64> {`
			`let (fields, my_ticket, tickets) = parse_input(input)?;`

			`let field_pos_matches = assign_field_positions(fields, tickets);`

			`Ok(my_ticket`
			`.values`
			`.iter()`
			`.enumerate()`
			`.filter(\|(idx, _)\| {`
			`let field = field_pos_matches[idx];`
			`field.starts_with("departure")`
			`})`
			`.map(\|(_, val)\| val)`
			`.product())`
			`}`

			`fn parse_input(input: &str) -> Result<(HashMap<&str, Field>, Ticket, Vec<Ticket>)> {`
2020: day16: part 1 2020-12-16 09:28:45 +01:00			`let mut parts = input.split("\n\n");`

			`let fields_part = parts.next().context("no fields specification found")?;`
			`let my_ticket_part = parts.next().context("no personal ticket found")?;`
			`let tickets_part = parts.next().context("no list of tickets found")?;`

			`let fields = fields_part`
			`.lines()`
2020: day16: part 2 2020-12-17 00:31:36 +01:00			`.map(\|line\| {`
			`let mut parts = line.split(": ");`
			`let name = parts.next().context("no name found")?;`
			`let field = parts.next().context("no ranges found")?.parse()?;`

			`Ok((name, field))`
			`})`
2020: day16: part 1 2020-12-16 09:28:45 +01:00			`.collect::<Result<_>>()`
			`.context("couldn't parse fields")?;`
			`let my_ticket = my_ticket_part`
			`.lines()`
			`.skip(1)`
fix some pedantic clippy lints that make sense - clippy::redundant-closure-for-method-calls - clippy::explicit-iter-loop 2020-12-17 01:23:10 +01:00			`.map(str::parse)`
2020: day16: part 1 2020-12-16 09:28:45 +01:00			`.next()`
			`.context("no second line for ticket")??;`
			`let tickets = tickets_part`
			`.lines()`
			`.skip(1)`
fix some pedantic clippy lints that make sense - clippy::redundant-closure-for-method-calls - clippy::explicit-iter-loop 2020-12-17 01:23:10 +01:00			`.map(str::parse)`
2020: day16: part 1 2020-12-16 09:28:45 +01:00			`.collect::<Result<_>>()`
			`.context("couldn't parse tickets")?;`

			`Ok((fields, my_ticket, tickets))`
			`}`

			`#[derive(Debug)]`
			`struct Ticket {`
			`values: Vec<u64>,`
			`}`

			`impl Ticket {`
2020: day16: part 2 2020-12-17 00:31:36 +01:00			`fn invalid_values<'a>(&'a self, fields: &'a [&Field]) -> impl Iterator<Item = u64> + 'a {`
2020: day16: part 1 2020-12-16 09:28:45 +01:00			`self.values`
			`.iter()`
			`.copied()`
2020: day16: part 2 2020-12-17 00:31:36 +01:00			`.filter(move \|val\| !fields.iter().any(\|f\| f.contains(val)))`
			`}`

			`fn valid_field(&self, field: &Field, val_idx: usize) -> bool {`
			`field.contains(&self.values[val_idx])`
2020: day16: part 1 2020-12-16 09:28:45 +01:00			`}`
			`}`

			`impl std::str::FromStr for Ticket {`
			`type Err = anyhow::Error;`

			`fn from_str(s: &str) -> Result<Self> {`
			`let values = s`
			`.split(',')`
			`.map(\|num\| {`
			`num.parse()`
			.with_context(\|\| format!("couldn't parse `{}`", num))
			`})`
			`.collect::<Result<_>>()?;`

			`Ok(Ticket { values })`
			`}`
			`}`

			`#[derive(Debug)]`
			`struct Field {`
			`ranges: (RangeInclusive<u64>, RangeInclusive<u64>),`
			`}`

			`impl Field {`
			`fn contains(&self, val: &u64) -> bool {`
			`self.ranges.0.contains(val) \|\| self.ranges.1.contains(val)`
			`}`
			`}`

			`impl std::str::FromStr for Field {`
			`type Err = anyhow::Error;`

			`fn from_str(s: &str) -> Result<Self> {`
2020: day16: part 2 2020-12-17 00:31:36 +01:00			`let mut ranges = s.split(" or ");`
2020: day16: part 1 2020-12-16 09:28:45 +01:00
fix some pedantic clippy lints that make sense - clippy::redundant-closure-for-method-calls - clippy::explicit-iter-loop 2020-12-17 01:23:10 +01:00			`let mut first_range = ranges.next().context("no first range found")?.split('-');`
			`let first_range_start = first_range.next().context("no bound for range")?.parse()?;`
			`let first_range_end = first_range.next().context("no bound for range")?.parse()?;`
2020: day16: part 1 2020-12-16 09:28:45 +01:00
fix some pedantic clippy lints that make sense - clippy::redundant-closure-for-method-calls - clippy::explicit-iter-loop 2020-12-17 01:23:10 +01:00			`let mut second_range = ranges.next().context("no second range found")?.split('-');`
			`let second_range_start = second_range.next().context("no bound for range")?.parse()?;`
			`let second_range_end = second_range.next().context("no bound for range")?.parse()?;`
2020: day16: part 1 2020-12-16 09:28:45 +01:00
			`Ok(Field {`
fix some pedantic clippy lints that make sense - clippy::redundant-closure-for-method-calls - clippy::explicit-iter-loop 2020-12-17 01:23:10 +01:00			`ranges: (`
			`first_range_start..=first_range_end,`
			`second_range_start..=second_range_end,`
			`),`
2020: day16: part 1 2020-12-16 09:28:45 +01:00			`})`
			`}`
			`}`

			`#[cfg(test)]`
			`mod tests {`
			`use super::*;`

2020: day16: part 2 2020-12-17 00:31:36 +01:00			`const PROVIDED1: &str = include_str!("../input/day16_provided1.txt");`
			`const PROVIDED2: &str = include_str!("../input/day16_provided2.txt");`
2020: day16: part 1 2020-12-16 09:28:45 +01:00
			`#[test]`
			`fn part1_provided() {`
2020: day16: part 2 2020-12-17 00:31:36 +01:00			`assert_eq!(part1(PROVIDED1).unwrap(), 71);`
2020: day16: part 1 2020-12-16 09:28:45 +01:00			`}`

			`#[test]`
			`fn part1_real() {`
			`assert_eq!(part1(INPUT).unwrap(), 20013);`
			`}`
2020: day16: part 2 2020-12-17 00:31:36 +01:00
			`#[test]`
			`fn part2_provided() {`
			`let (fields, _, tickets) = parse_input(PROVIDED2).unwrap();`

			`let matches = assign_field_positions(fields, tickets);`

			`let expected = (&["row", "class", "seat"])`
			`.iter()`
			`.copied()`
			`.enumerate()`
			`.collect();`

			`assert_eq!(matches, expected);`
			`}`

			`#[test]`
			`fn part2_real() {`
			`assert_eq!(part2(INPUT).unwrap(), 5977293343129);`
			`}`
2020: day16: part 1 2020-12-16 09:28:45 +01:00			`}`