Day 12: Hot Springs
Megathread guidelines
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Haskell
Abused
ParserCombinatorsfor the first part. For the second, I took quite a while to figure out dynamic programming in Haskell.Solution
module Day12 where import Data.Array import Data.Char (isDigit) import Data.List ((!!)) import Relude hiding (get, many) import Relude.Unsafe (read) import Text.ParserCombinators.ReadP type Spring = (String, [Int]) type Problem = [Spring] parseStatus :: ReadP Char parseStatus = choice $ char <$> ".#?" parseSpring :: ReadP Spring parseSpring = do status <- many1 parseStatus <* char ' ' listFailed <- (read <$> munch1 isDigit) `sepBy` char ',' return (status, listFailed) parseProblem :: ReadP Problem parseProblem = parseSpring `sepBy` char '\n' parse :: ByteString -> Maybe Problem parse = fmap fst . viaNonEmpty last . readP_to_S parseProblem . decodeUtf8 good :: ReadP () good = choice [char '.', char '?'] $> () bad :: ReadP () bad = choice [char '#', char '?'] $> () buildParser :: [Int] -> ReadP () buildParser l = do _ <- many good sequenceA_ $ intersperse (many1 good) [count x bad | x <- l] _ <- many good <* eof return () combinations :: Spring -> Int combinations (s, l) = length $ readP_to_S (buildParser l) s part1, part2 :: Problem -> Int part1 = sum . fmap combinations part2 = sum . fmap (combinations' . toSpring' . bimap (join . intersperse "?" . replicate 5) (join . replicate 5)) run1, run2 :: FilePath -> IO Int run1 f = readFileBS f >>= maybe (fail "parse error") (return . part1) . parse run2 f = readFileBS f >>= maybe (fail "parse error") (return . part2) . parse data Status = Good | Bad | Unknown deriving (Eq, Show) type Spring' = ([Status], [Int]) type Problem' = [Spring'] toSpring' :: Spring -> Spring' toSpring' (s, l) = (fmap toStatus s, l) where toStatus :: Char -> Status toStatus '.' = Good toStatus '#' = Bad toStatus '?' = Unknown toStatus _ = error "impossible" isGood, isBad :: Status -> Bool isGood Bad = False isGood _ = True isBad Good = False isBad _ = True combinations' :: Spring' -> Int combinations' (s, l) = t ! (0, 0) where n = length s m = length l t = listArray ((0, 0), (n, m)) [f i j | i <- [0 .. n], j <- [0 .. m]] f :: Int -> Int -> Int f n' m' | n' >= n = if m' >= m then 1 else 0 | v == Unknown = tGood + tBad | v == Good = tGood | v == Bad = tBad | otherwise = error "impossible" where v = s !! n' x = l !! m' ss = drop n' s (bads, rest) = splitAt x ss badsDelimited = maybe True isGood (viaNonEmpty head rest) off = if null rest then 0 else 1 tGood = t ! (n' + 1, m') tBad = if m' + 1 <= m && length bads == x && all isBad bads && badsDelimited then t ! (n' + x + off, m' + 1) else 0