Day 10: Hoof It

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FAQ

  • VegOwOtenks@lemmy.world
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    13 days ago

    Haskell

    Cool task, nothing to optimize

    import Control.Arrow
    
    import Data.Array.Unboxed (UArray)
    import Data.Set (Set)
    
    import qualified Data.Char as Char
    import qualified Data.List as List
    import qualified Data.Set as Set
    import qualified Data.Array.Unboxed as UArray
    
    parse :: String -> UArray (Int, Int) Int
    parse s = UArray.listArray ((1, 1), (n, m)) . map Char.digitToInt . filter (/= '\n') $ s
            where
                    n = takeWhile (/= '\n') >>> length $ s
                    m = filter (== '\n') >>> length >>> pred $ s
    
    reachableNeighbors :: (Int, Int) -> UArray (Int, Int) Int -> [(Int, Int)]
    reachableNeighbors p@(py, px) a = List.filter (UArray.inRange (UArray.bounds a))
            >>> List.filter ((a UArray.!) >>> pred >>> (== (a UArray.! p)))
            $ [(py-1, px), (py+1, px), (py, px-1), (py, px+1)]
    
    distinctTrails :: (Int, Int) -> UArray (Int, Int) Int -> Int
    distinctTrails p a
            | a UArray.! p == 9 = 1
            | otherwise = flip reachableNeighbors a
                    >>> List.map (flip distinctTrails a)
                    >>> sum
                    $ p
    
    reachableNines :: (Int, Int) -> UArray (Int, Int) Int -> Set (Int, Int)
    reachableNines p a
            | a UArray.! p == 9 = Set.singleton p
            | otherwise = flip reachableNeighbors a
                    >>> List.map (flip reachableNines a)
                    >>> Set.unions
                    $ p
    
    findZeros = UArray.assocs
            >>> filter (snd >>> (== 0))
            >>> map fst
    
    part1 a = findZeros
            >>> map (flip reachableNines a)
            >>> map Set.size
            >>> sum
            $ a
    part2 a = findZeros
            >>> map (flip distinctTrails a)
            >>> sum
            $ a
    
    main = getContents
            >>= print
            . (part1 &&& part2)
            . parse