Day 10: Hoof It

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

  • the_beber@lemm.ee
    link
    fedilink
    arrow-up
    1
    ·
    15 days ago

    Kotlin

    • Clean ❌
    • Fast ❌
    • Worked first try ✅
    Code:
    fun main() {
        /**
         * The idea is simple: Just simulate the pathing and sum all the end points
         */
        fun part1(input: List<String>): Int {
            val topologicalMap = Day10Map(input)
            val startingPoints = topologicalMap.asIterable().indicesWhere { it == 0 }
            val directions = Orientation.entries.map { it.asVector() }
            return startingPoints.sumOf { startingPoint ->
                var wayPoints = setOf(VecNReal(startingPoint))
                val endPoints = mutableSetOf<VecNReal>()
                while (wayPoints.isNotEmpty()) {
                    wayPoints = wayPoints.flatMap { wayPoint ->
                        directions.map { direction ->
                            val checkoutLocation = wayPoint + direction
                            checkoutLocation to runCatching { topologicalMap[checkoutLocation] }.getOrElse { -1 }
                        }.filter { nextLocation ->
                            val endPointHeight = topologicalMap[wayPoint]
                            if (nextLocation.second - 1 == endPointHeight && nextLocation.second == 9) false.also { endPoints.add(nextLocation.first) }
                            else if (nextLocation.second - 1 == endPointHeight) true
                            else false
                        }.map { it.first }
                    }.toSet()
                }
    
                endPoints.count()
            }
        }
    
        /**
         * A bit more complicated, but not by much.
         * Main difference is, that node accumulates all the possible paths, thus adding all the possibilities of
         * its parent node.
         */
        fun part2(input: List<String>): Int {
            val topologicalMap = Day10Map(input)
            val startingPoints = topologicalMap.asIterable().indicesWhere { it == 0 }
            val directions = Orientation.entries.map { it.asVector() }
    
            return startingPoints.sumOf { startingPoint ->
                var pathNodes = setOf<Node>(Node(VecNReal(startingPoint), topologicalMap[VecNReal(startingPoint)], 1))
                val endNodes = mutableSetOf<Node>()
                while (pathNodes.isNotEmpty()) {
                    pathNodes = pathNodes.flatMap { pathNode ->
                        directions.map { direction ->
                            val nextNodeLocation = pathNode.position + direction
                            val nextNodeHeight = runCatching { topologicalMap[nextNodeLocation] }.getOrElse { -1 }
                            Node(nextNodeLocation, nextNodeHeight, pathNode.weight)
                        }.filter { nextNode ->
                            nextNode.height == pathNode.height + 1
                        }
                    }.groupBy { it.position }.map { (position, nodesUnadjusted) ->
                        val adjustedWeight = nodesUnadjusted.sumOf { node -> node.weight }
                        Node(position, nodesUnadjusted.first().height, adjustedWeight)
                    }.filter { node ->
                        if (node.height == 9) false.also { endNodes.add(node) } else true
                    }.toSet()
                }
    
                endNodes.sumOf { endNode -> endNode.weight }
            }
        }
    
        val testInput = readInput("Day10_test")
        check(part1(testInput) == 36)
        check(part2(testInput) == 81)
    
        val input = readInput("Day10")
        part1(input).println()
        part2(input).println()
    }
    
    class Day10Map(input: List<String>): Grid2D<Int>(input.map { row -> row.map { "$it".toInt() } }) {
        init { transpose() }
    }
    
    data class Node(val position: VecNReal, val height: Int, val weight: Int = 1)