Day 17: Clumsy Crucible

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FAQ

  • LeixB@lemmy.world
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    1 year ago

    Haskell

    import Data.Array.Unboxed
    import qualified Data.ByteString.Char8 as BS
    import Data.Char (digitToInt)
    import Data.Heap hiding (filter)
    import qualified Data.Heap as H
    import Relude
    
    type Pos = (Int, Int)
    
    type Grid = UArray Pos Int
    
    data Dir = U | D | L | R deriving (Eq, Ord, Show, Enum, Bounded, Ix)
    
    parse :: ByteString -> Maybe Grid
    parse input = do
      let l = fmap (fmap digitToInt . BS.unpack) . BS.lines $ input
          h = length l
      w <- fmap length . viaNonEmpty head $ l
      pure . listArray ((0, 0), (w - 1, h - 1)) . concat $ l
    
    move :: Dir -> Pos -> Pos
    move U = first pred
    move D = first succ
    move L = second pred
    move R = second succ
    
    nextDir :: Dir -> [Dir]
    nextDir U = [L, R]
    nextDir D = [L, R]
    nextDir L = [U, D]
    nextDir R = [U, D]
    
    -- position, previous direction, accumulated loss
    type S = (Int, Pos, Dir)
    
    doMove :: Grid -> Dir -> S -> Maybe S
    doMove g d (c, p, _) = do
      let p' = move d p
      guard $ inRange (bounds g) p'
      pure (c + g ! p', p', d)
    
    doMoveN :: Grid -> Dir -> Int -> S -> Maybe S
    doMoveN g d n = foldl' (>=>) pure . replicate n $ doMove g d
    
    doMoves :: Grid -> [Int] -> S -> Dir -> [S]
    doMoves g r s d = mapMaybe (flip (doMoveN g d) s) r
    
    allMoves :: Grid -> [Int] -> S -> [S]
    allMoves g r s@(_, _, prev) = nextDir prev >>= doMoves g r s
    
    solve' :: Grid -> [Int] -> UArray (Pos, Dir) Int -> Pos -> MinHeap S -> Maybe Int
    solve' g r distances target h = do
      ((acc, pos, dir), h') <- H.view h
    
      if pos == target
        then pure acc
        else do
          let moves = allMoves g r (acc, pos, dir)
              moves' = filter (\(acc, p, d) -> acc < distances ! (p, d)) moves
              distances' = distances // fmap (\(acc, p, d) -> ((p, d), acc)) moves'
              h'' = foldl' (flip H.insert) h' moves'
          solve' g r distances' target h''
    
    solve :: Grid -> [Int] -> Maybe Int
    solve g r = solve' g r (emptyGrid ((lo, minBound), (hi, maxBound))) hi (H.singleton (0, (0, 0), U))
      where
        (lo, hi) = bounds g
        emptyGrid = flip listArray (repeat maxBound)
    
    part1, part2 :: Grid -> Maybe Int
    part1 = (`solve` [1 .. 3])
    part2 = (`solve` [4 .. 10])