Advent Of Code

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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 2023

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❄️ - 2023 DAY 10 SOLUTIONS -❄️ (programming.dev)

submitted 9 months ago* (last edited 9 months ago) by Ategon@programming.dev to c/advent_of_code@programming.dev

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Day 10: Pipe Maze

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[–] cvttsd2si@programming.dev 2 points 9 months ago

Scala3

forgot to post this

import Area.*
import Dir.*

enum Dir(num: Int, diff: (Int, Int)):
    val n = num
    val d = diff
    case Up extends Dir(3, (0, -1))
    case Down extends Dir(1, (0, 1))
    case Left extends Dir(2, (-1, 0))
    case Right extends Dir(0, (1, 0))
    def opposite = Dir.from(n + 2)

object Dir:
    def from(n: Int): Dir = Dir.all.filter(_.n == n % 4).ensuring(_.size == 1).head
    def all = List(Up, Down, Left, Right)

enum Area:
    case Inside, Outside, Loop

case class Pos(x: Int, y: Int)
type Landscape = Map[Pos, Pipe]
type Loop = Map[Pos, LoopPiece]

def walk(p: Pos, d: Dir): Pos = Pos(p.x + d.d._1, p.y + d.d._2)

val pipeMap = Map('|' -> List(Up, Down), '-' -> List(Left, Right), 'L' -> List(Up, Right), 'J' -> List(Up, Left), 'F' -> List(Right, Down), '7' -> List(Left, Down))

case class Pipe(neighbors: List[Dir])
case class LoopPiece(from: Dir, to: Dir):
    def left: List[Dir] = ((from.n + 1) until (if to.n &lt; from.n then to.n + 4 else to.n)).map(Dir.from).toList
    def right: List[Dir] = LoopPiece(to, from).left

def parse(a: List[String]): (Pos, Landscape) =
    val pipes = for (r, y) &lt;- a.zipWithIndex; (v, x) &lt;- r.zipWithIndex; p &lt;- pipeMap.get(v) yield Pos(x, y) -> Pipe(p) 
    val start = for (r, y) &lt;- a.zipWithIndex; (v, x) &lt;- r.zipWithIndex if v == 'S' yield Pos(x, y)
    (start.head, pipes.toMap)

def walkLoop(start: Pos, l: Landscape): Loop =
    @tailrec def go(pos: Pos, last_dir: Dir, acc: Loop): Loop =
        if pos == start then acc else
            val dir = l(pos).neighbors.filter(_ != last_dir.opposite).ensuring(_.size == 1).head
            go(walk(pos, dir), dir, acc + (pos -> LoopPiece(last_dir.opposite, dir)))

    Dir.all.filter(d => l.get(walk(start, d)).exists(p => p.neighbors.contains(d.opposite))) match
        case List(start_dir, return_dir) => go(walk(start, start_dir), start_dir, Map(start -> LoopPiece(return_dir, start_dir)))
        case _ => Map()

def task1(a: List[String]): Long =
    walkLoop.tupled(parse(a)).size.ensuring(_ % 2 == 0) / 2

def task2(a: List[String]): Long =
    val loop = walkLoop.tupled(parse(a))

    val ys = a.indices
    val xs = a.head.indices
    val points = (for x &lt;- xs; y &lt;- ys yield Pos(x, y)).toSet
    
    // floodfill
    @tailrec def go(outside: Set[Pos], q: List[Pos]): Set[Pos] =
        if q.isEmpty then outside else
            val nbs = Dir.all.map(walk(q.head, _)).filter(points.contains(_)).filter(!outside.contains(_))
            go(outside ++ nbs, nbs ++ q.tail)

    // start by floodfilling from the known outside: beyond the array bounds
    val boundary = ys.flatMap(y => List(Pos(-1, y), Pos(xs.end, y))) ++ xs.flatMap(x => List(Pos(x, -1), Pos(x, ys.end)))
    val r = go(boundary.toSet ++ loop.keySet, boundary.toList)

    // check on which side of the pipe the outside is, then continue floodfill from there
    val xsl = List[LoopPiece => List[Dir]](_.left, _.right).map(side => loop.flatMap((p, l) => side(l).map(d => walk(p, d))).filter(!loop.contains(_)).toSet).map(a => a -> a.intersect(r).size).ensuring(_.exists(_._2 == 0)).filter(_._2 != 0).head._1
    (points -- go(r ++ xsl, xsl.toList)).size