Day 8: Resonant Collinearity

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FAQ

  • lwhjp@lemmy.sdf.org
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    14 days ago

    Haskell

    Not a very pretty solution today, I’m afraid.

    import Control.Arrow
    import Control.Monad
    import Data.Biapplicative
    import Data.Ix
    import Data.Map (Map)
    import Data.Map qualified as Map
    import Data.Set qualified as Set
    
    type Coords = (Int, Int)
    
    readInput :: String -> Map Coords Char
    readInput s =
      Map.fromAscList
        [ ((i, j), c)
          | (i, l) <- zip [0 ..] (lines s),
            (j, c) <- zip [0 ..] l
        ]
    
    (.+.), (.-.) :: Coords -> Coords -> Coords
    (.+.) = join biliftA2 (+)
    (.-.) = join biliftA2 (-)
    
    part1, part2 :: (Coords -> Bool) -> (Coords, Coords) -> [Coords]
    part1 valid (p1, p2) =
      let s = p2 .-. p1
       in filter valid [p1 .-. s, p2 .+. s]
    part2 valid (p1, p2) =
      let (si, sj) = p2 .-. p1
          d = gcd si sj
          s = (si `div` d, sj `div` d)
       in takeWhile valid (iterate (.+. s) p1)
            ++ takeWhile valid (drop 1 $ iterate (.-. s) p2)
    
    pairs (x : xs) = map (x,) xs ++ pairs xs
    pairs _ = []
    
    main = do
      input <- readInput <$> readFile "input08"
      let antennas = Map.filter (/= '.') input
          antennaGroups =
            Map.foldrWithKey
              (\p c m -> Map.insertWith (++) c [p] m)
              Map.empty
              antennas
          valid =
            inRange
              . (Set.findMin &&& Set.findMax)
              $ Map.keysSet input
          antiNodes model =
            Set.fromList
              . concatMap (concatMap (model valid) . pairs)
              $ antennaGroups
      print . Set.size $ antiNodes part1
      print . Set.size $ antiNodes part2