this post was submitted on 06 Dec 2024
26 points (96.4% liked)

Advent Of Code

985 readers
29 users here now

An unofficial home for the advent of code community on programming.dev!

Advent of Code is an annual Advent calendar of small programming puzzles for a variety of skill sets and skill levels that can be solved in any programming language you like.

AoC 2024

Solution Threads

M T W T F S S
1
2 3 4 5 6 7 8
9 10 11 12 13 14 15
16 17 18 19 20 21 22
23 24 25

Rules/Guidelines

Relevant Communities

Relevant Links

Credits

Icon base by Lorc under CC BY 3.0 with modifications to add a gradient

console.log('Hello World')

founded 1 year ago
MODERATORS
 

Day 6: Guard Gallivant

Megathread guidelines

  • Keep top level comments as only solutions, if you want to say something other than a solution put it in a new post. (replies to comments can be whatever)
  • You can send code in code blocks by using three backticks, the code, and then three backticks or use something such as https://topaz.github.io/paste/ if you prefer sending it through a URL

FAQ

you are viewing a single comment's thread
view the rest of the comments
[โ€“] [email protected] 1 points 2 weeks ago

Gleam

Late as usual. This one challenged me. Functional programming is a lot of fun, but it's kicking my ass.

import gleam/dict
import gleam/io
import gleam/list
import gleam/option.{None, Some}
import gleam/result
import gleam/set.{type Set}
import gleam/string
import simplifile

pub type Point =
  #(Int, Int)

pub type Grid(a) =
  dict.Dict(Point, a)

pub type Direction {
  North
  East
  South
  West
}

pub type Loops {
  DoesLoop
  DoesNotLoop
}

pub type Guard {
  Guard(position: Point, direction: Direction)
}

fn get_guard(grid: Grid(String)) -> Guard {
  let pos = dict.filter(grid, fn(_pos, char) { char == "^" })
  let assert Ok(pos) = case dict.size(pos) {
    1 -> list.first(dict.keys(pos))
    0 -> panic as "No guard found in input!"
    _ -> panic as "More than one guard found in input!"
  }
  Guard(pos, North)
}

fn move_guard(guard: Guard) -> Guard {
  let new_pos = case guard.direction {
    North -> #(-1, 0)
    East -> #(0, 1)
    South -> #(1, 0)
    West -> #(0, -1)
  }
  Guard(
    #(guard.position.0 + new_pos.0, guard.position.1 + new_pos.1),
    guard.direction,
  )
}

fn turn_guard(guard: Guard) -> Guard {
  let new_dir = case guard.direction {
    North -> East
    East -> South
    South -> West
    West -> North
  }
  Guard(guard.position, new_dir)
}

fn get_obstacles(grid: Grid(String)) -> List(Point) {
  dict.filter(grid, fn(_pos, char) { char == "#" })
  |> dict.keys()
}

fn recurse_grid(
  grid: Grid(String),
  guard: Guard,
  obstacles: List(#(Int, Int)),
  visited: Set(#(#(Int, Int), Direction)),
) -> #(Set(#(#(Int, Int), Direction)), Loops) {
  let new_guard = move_guard(guard)
  let position = new_guard.position
  let dir = new_guard.direction
  case dict.has_key(grid, position) {
    False -> #(visited, DoesNotLoop)
    True -> {
      case set.contains(visited, #(position, dir)) {
        True -> {
          #(visited, DoesLoop)
        }
        False -> {
          case list.contains(obstacles, position) {
            True -> recurse_grid(grid, turn_guard(guard), obstacles, visited)
            False ->
              recurse_grid(
                grid,
                new_guard,
                obstacles,
                set.insert(visited, #(position, dir)),
              )
          }
        }
      }
    }
  }
}

fn get_grid_input(filename: String) -> Grid(String) {
  let lines =
    filename
    |> simplifile.read()
    |> result.unwrap("")
    |> string.trim()
    |> string.split("\n")
  use grid, row, row_idx <- list.index_fold(lines, dict.new())
  use grid, col, col_idx <- list.index_fold(string.to_graphemes(row), grid)
  dict.insert(grid, #(row_idx, col_idx), col)
}

fn part_one(
  grid: Grid(String),
) -> #(#(Set(#(#(Int, Int), Direction)), Loops), Int) {
  let guard = get_guard(grid)
  let obstacles = get_obstacles(grid)
  let visited = set.new() |> set.insert(#(guard.position, guard.direction))
  let visited = recurse_grid(grid, guard, obstacles, visited)
  let visited_without_dir =
    set.fold(visited.0, set.new(), fn(acc, x) { set.insert(acc, x.0) })
  #(visited, visited_without_dir |> set.size())
}

fn check_loop(grid: Grid(String), blocker: Point) -> Loops {
  let blocked_grid =
    dict.upsert(grid, blocker, fn(x) {
      case x {
        Some("^") -> "^"
        Some(_) -> "#"
        None -> "#"
      }
    })
  let visited = part_one(blocked_grid).0
  visited.1
}

fn part_two(grid: Grid(String), visited: Set(#(#(Int, Int), Direction))) {
  let visited =
    set.fold(visited, set.new(), fn(acc, x) { set.insert(acc, x.0) })
  use counter, position <- set.fold(visited, 0)
  case check_loop(grid, position) {
    DoesLoop -> counter + 1
    DoesNotLoop -> counter
  }
}

pub fn main() {
  let input = "input.in"
  let p1 = input |> get_grid_input() |> part_one
  let visited = p1.0.0
  io.debug(p1.1)
  input |> get_grid_input |> part_two(visited) |> io.debug()
}