Day 24: Crossed Wires

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FAQ

  • lwhjp@lemmy.sdf.org
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    edit-2
    11 hours ago

    Haskell

    For completeness’ sake. I actually solved part 2 by looking at the structure with Graphviz and checking the input manually for errors. So the code here merely replicates the checks I was doing by hand.

    solution
    import Control.Arrow
    import Control.Monad
    import Data.Bifoldable
    import Data.Bits
    import Data.List
    import Data.Map (Map)
    import Data.Map qualified as Map
    import Data.Maybe
    import Data.Set (Set)
    import Data.Set qualified as Set
    import Text.Printf
    
    data Op = AND | OR | XOR deriving (Read, Show, Eq)
    
    readInput :: String -> (Map String Int, Map String (Op, (String, String)))
    readInput s =
      let (inputs, gates) = second (drop 1) $ break null $ lines s
       in ( Map.fromList $ map (break (== ':') >>> (id *** read . drop 2)) inputs,
            Map.fromList $ map (words >>> \[a, op, b, _, o] -> (o, (read op, (a, b)))) gates
          )
    
    evalNetwork :: Map String Int -> Map String (Op, (String, String)) -> Maybe Int
    evalNetwork inputs gates = fromBits <$> getOutput signals
      where
        getOutput = traverse snd . takeWhile (("z" `isPrefixOf`) . fst) . Map.toDescList
        fromBits = foldl' (\a b -> (a `shiftL` 1) .|. b) 0
        signals = Map.union (Just <$> inputs) $ Map.mapWithKey getSignal gates
        getSignal w (op, (a, b)) = doGate op <$> join (signals Map.!? a) <*> join (signals Map.!? b)
        doGate AND = (.&.)
        doGate OR = (.|.)
        doGate XOR = xor
    
    findError :: [(String, (Op, (String, String)))] -> Maybe (String, String)
    findError gates = findGate AND ("x00", "y00") >>= go 1 . fst
      where
        go i carryIn = do
          let [x, y, z] = map (: printf "%02d" (i :: Int)) ['x', 'y', 'z']
          xor1 <- fst <$> findGate XOR (x, y)
          and1 <- fst <$> findGate AND (x, y)
          let layer2 = findGates (carryIn, xor1) ++ findGates (carryIn, and1)
          xorGate2 <- find ((== XOR) . fst . snd) layer2
          andGate2 <- find ((== AND) . fst . snd) layer2
          let xor2 = fst xorGate2
              and2 = fst andGate2
          orGate <-
            find
              ( \(_, (op, (a, b))) ->
                  op == OR && any (`elem` [a, b]) [xor1, and1, xor2, and2]
              )
              gates
          msum
            [ checkIs xor1 =<< otherInput carryIn xorGate2,
              checkIs z xor2,
              go (succ i) (fst orGate)
            ]
        checkIs p q = (p, q) <$ guard (p /= q)
        otherInput x (_, (_, (a, b)))
          | a == x = Just b
          | b == x = Just a
          | otherwise = Nothing
        findGates (a, b) = filter (\(_, (_, ins)) -> ins `elem` [(a, b), (b, a)]) gates
        findGate op = find ((== op) . fst . snd) . findGates
    
    part2 = sort . concatMap biList . unfoldr go . Map.assocs
      where
        go gates = (\p -> (p, first (exchange p) <$> gates)) <$> findError gates
        exchange (a, b) c
          | c == a = b
          | c == b = a
          | otherwise = c
    
    main = do
      (inputs, gates) <- readInput <$> readFile "input24"
      print . fromJust $ evalNetwork inputs gates
      putStrLn . intercalate "," $ part2 gates