Day 24: Crossed Wires

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FAQ

  • LeixB@lemmy.world
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    1 day ago

    Haskell

    For part2 I compared the bits in the solution of part1 with the sum of x and y. With that, I could check the bits that did not match in a graphviz diagram and work from there.

    code
    import Control.Arrow
    import Control.Monad.RWS
    import Data.Bits (shiftL)
    import Data.Char (digitToInt)
    import Data.Functor
    import Data.List
    import Data.Map qualified as M
    import Data.Tuple
    import Text.ParserCombinators.ReadP hiding (get)
    import Text.ParserCombinators.ReadP qualified as ReadP
    
    type Cable = String
    data Connection = And Cable Cable | Or Cable Cable | Xor Cable Cable deriving (Show)
    
    cable = count 3 ReadP.get
    eol = char '\n'
    initial :: ReadP (M.Map Cable Bool)
    initial = M.fromList <$> endBy ((,) <$> cable <*> (string ": " *> (toEnum . digitToInt <$> ReadP.get))) eol
    wires = M.fromList <$> endBy wire eol
    
    wire = do
        a <- cable <* char ' '
        op <- choice [string "AND" $> And, string "OR" $> Or, string "XOR" $> Xor]
        b <- char ' ' *> cable
        c <- string " -> " *> cable
        return (c, op a b)
    
    parse = fst . last . readP_to_S ((,) <$> initial <*> (eol *> wires <* eof))
    
    type Problem = RWS (M.Map Cable Connection) () (M.Map Cable Bool)
    
    getConnection :: Connection -> Problem Bool
    getConnection (And a b) = (&&) <$> getWire a <*> getWire b
    getConnection (Or a b) = (||) <$> getWire a <*> getWire b
    getConnection (Xor a b) = xor <$> getWire a <*> getWire b
    
    xor True False = True
    xor False True = True
    xor _ _ = False
    
    getWire :: Cable -> Problem Bool
    getWire cable = do
        let computed = do
                a <- asks (M.! cable) >>= getConnection
                modify (M.insert cable a)
                return a
        gets (M.!? cable) >>= maybe computed return
    
    fromBin :: [Bool] -> Int
    fromBin = sum . fmap fst . filter snd . zip (iterate (`shiftL` 1) 1)
    
    toBin :: Int -> [Bool]
    toBin = unfoldr (\v -> if v == 0 then Nothing else Just (first (== 1) (swap (divMod v 2))))
    
    part1 initial wiring = fst $ evalRWS (mapM getWire zs) wiring initial
      where
        zs = filter ((== 'z') . head) . sort $ M.keys wiring
    
    part2 initial wiring = fmap fst . filter snd $ zip [0..] (zipWith (/=) p1 expect)
      where
        xs = fromBin . fmap (initial M.!) . filter ((== 'x') . head) $ sort $ M.keys initial
        ys = fromBin . fmap (initial M.!) . filter ((== 'y') . head) $ sort $ M.keys initial
        zs = filter ((== 'z') . head) . sort $ M.keys wiring
    
        p1 = part1 initial wiring
        expect = toBin $ xs + ys
    
    main = getContents >>= print . (fromBin . uncurry part1 &&& uncurry part2) . parse