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-rw-r--r--2023/12-Hot_Springs/second.hs123
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+-- requires cabal install --lib megaparsec parser-combinators MemoTrie
+{-# LANGUAGE DeriveGeneric, TypeOperators, TypeFamilies #-}
+module Main (main) where
+
+import Control.Applicative.Permutations
+import Control.Monad (void, when)
+import Data.Char qualified as C
+import Data.Either
+import Data.Functor
+import Data.List qualified as L
+import Data.Map qualified as M
+import Data.Maybe
+import Data.MemoTrie
+import Data.Set qualified as S
+import Data.Vector qualified as V
+import Data.Void (Void)
+import GHC.Generics (Generic)
+import Text.Megaparsec
+import Text.Megaparsec.Char
+
+import Debug.Trace
+
+exampleExpectedOutput = 525152
+
+data Tile = Broken | Operational | Unknown deriving (Eq, Generic, Ord)
+instance HasTrie Tile where
+ newtype (Tile :->: b) = TileTrie { unTileTrie :: Reg Tile :->: b }
+ trie = trieGeneric TileTrie
+ untrie = untrieGeneric unTileTrie
+ enumerate = enumerateGeneric unTileTrie
+instance Show Tile where
+ show Broken = "#"
+ show Operational = "."
+ show Unknown = "?"
+data Row = Row [Tile] [Int] deriving Show
+type Input = [Row]
+
+type Parser = Parsec Void String
+
+parseNumber :: Parser Int
+parseNumber = read <$> some digitChar <* optional (char ',')
+
+parseTile :: Parser Tile
+parseTile = char '#' $> Broken
+ <|> char '.' $> Operational
+ <|> char '?' $> Unknown
+
+parseRow :: Parser Row
+parseRow = Row <$> some parseTile <* space
+ <*> some parseNumber <* eol
+
+parseInput' :: Parser Input
+parseInput' = some parseRow <* eof
+
+parseInput :: String -> IO Input
+parseInput filename = do
+ input <- readFile filename
+ case runParser parseInput' filename input of
+ Left bundle -> error $ errorBundlePretty bundle
+ Right input' -> return input'
+
+--type Memo = M.Map [Tile] Int
+--
+--permutations :: Memo -> [Int] -> [Tile] -> (Memo, Int)
+--permutations m [] ts | Broken `L.notElem` ts = (m, 1)
+-- | otherwise = (m, 0)
+--permutations m rr@(r:rs) ts | isJust cached = (m, fromJust cached)
+-- | (length rr - 1) + sum rr < length ts' = (m, 0)
+-- | Operational `L.elem` take r ts' = (m'', operational)
+-- | null ts'' = (m'', operational + 1)
+-- | head ts'' == Broken = (m'', operational)
+-- | otherwise = (m'''', operational + broken)
+-- where
+-- cached = M.lookup ts m
+-- ts' = L.dropWhile (== Operational) ts
+-- ts'' = drop r ts'
+-- (m', operational) = permutations m rr ts'
+-- m'' = if length ts == 5 then M.insert ts operational m' else m'
+-- (m''', broken) = permutations m' rs $ tail ts''
+-- m'''' = if length ts == 5 then M.insert ts broken m''' else m'''
+--
+-- permutations rs (Operational:xs) = map (Operational:) $ permutations rs xs
+-- permutations [r] (Broken:xs) = map (\n -> Broken:Operational:n) $ permutations rs xs
+-- permutations (r:rs) (Broken:xs) = map (replicate l' Broken ++) (if null xs || head xs == Operational then permutations rs xs' else [])
+-- where
+-- l = length (L.takeWhile (/= Operational) xs)
+-- l' = min l (r-1)
+-- xs' = drop l' xs
+-- permutations rr@(r:rs) (Unknown:xs) = (if possible rs xs then map (Operational:) (permutations rr (Operational:xs)) else [])
+-- ++ (if l' == l && possible rs xs' then map (replicate l' Broken ++) (permutations rs xs') else [])
+-- where
+-- l = length (L.takeWhile (/= Operational) xs)
+-- l' = min l (r-1)
+-- xs' = drop l' xs
+-- permutations _ _ = []
+permutations = memo2 permutations'
+ where
+ permutations' :: [Int] -> [Tile] -> Int
+ permutations' [] ts | Broken `L.notElem` ts = 1
+ | otherwise = 0
+ permutations' _ [] = 0
+ permutations' rs (Operational:ts) = permutations rs ts
+ permutations' (r:rs) (Broken:ts) = case splitAt (r-1) ts of
+ (a, t:b) | length a == r-1, Operational `L.notElem` a, t /= Broken -> permutations rs b
+ (a, []) | length a == r-1, Operational `L.notElem` a -> permutations rs []
+ _ -> 0
+ permutations' rs (Unknown:ts) = permutations rs (Operational:ts) + permutations rs (Broken:ts)
+
+compute :: Input -> Int
+compute input = sum $ map compute' expand
+ where
+ compute' :: Row -> Int
+ compute' (Row tiles record) = permutations record tiles
+ expand = map expandOne input
+ expandOne (Row tiles record) = Row (L.intercalate [Unknown] $ replicate 5 tiles) (concat $ replicate 5 record)
+
+main :: IO ()
+main = do
+ example <- parseInput "example"
+ let exampleOutput = compute example
+ when (exampleOutput /= exampleExpectedOutput) (error $ "example failed: got " ++ show exampleOutput ++ " instead of " ++ show exampleExpectedOutput)
+ input <- parseInput "input"
+ print $ compute input