#!/usr/bin/env nix-shell
#!nix-shell --pure -i "runghc -- -i../" -p "haskellPackages.ghcWithPackages (pkgs: with pkgs; [ ])"
import Data.List
import Data.Ord
import Text.Parsec
import Text.Parsec.Char
import Text.Parsec.Combinator
import Text.Parsec.String (Parser)
import Aoc (readAndParseStdin)
main :: IO ()
main = do
games <- readAndParseStdin parseAllGames
print $ part1 games
print $ part2 games
part1 :: [Game] -> Int
part1 games = calcScore $ sortBy gameComparator games
where
gameComparator = comparing (Down . getHandStrength . groupCards . cards) <> comparing cards
part2 :: [Game] -> Int
part2 games = calcScore $ sortBy gameComparator $ mapAllJacksToJokers games
where
gameComparator = comparing (Down . getHandStrength . transmorphJokers . cards) <> comparing cards
mapAllJacksToJokers :: [Game] -> [Game]
mapAllJacksToJokers = map (\game -> game {cards = map mapJackToJoker $ cards game})
where
mapJackToJoker Jack = Joker
mapJackToJoker a = a
transmorphJokers :: [Rank] -> [Int]
transmorphJokers [Joker, Joker, Joker, Joker, Joker] = groupCards [Joker, Joker, Joker, Joker, Joker]
transmorphJokers cards = (head grouped + jokerCount) : tail grouped
where
cardsWithoutJokers = filter (/= Joker) cards
jokerCount = length cards - length cardsWithoutJokers
grouped = groupCards cardsWithoutJokers
calcScore :: [Game] -> Int
calcScore game = sum $ zipWith (curry formula) [1 ..] game
where
formula (idx, game) = baseScore game * idx
getHandStrength :: [Int] -> HandStrength
getHandStrength sortedCardCount = case sortedCardCount of
[5] -> FiveOfAKind
[4, 1] -> FourOfAKind
[3, 2] -> FullHouse
(3 : _) -> ThreeOfAKind
(2 : 2 : _) -> TwoPair
(2 : _) -> OnePair
_ -> HighCard
groupCards :: [Rank] -> [Int]
groupCards = sortOn Down . map length . group . sort
parseAllGames :: Parser [Game]
parseAllGames = parseGame `endBy` char '\n'
parseGame :: Parser Game
parseGame = do
cards <- many1 parseRank <* spaces
baseScore <- read <$> many1 digit
return Game {cards, baseScore}
parseRank :: Parser Rank
parseRank = do
c <- oneOf "23456789TJQKA"
return $ case c of
'2' -> Two
'3' -> Three
'4' -> Four
'5' -> Five
'6' -> Six
'7' -> Seven
'8' -> Eight
'9' -> Nine
'T' -> Ten
'J' -> Jack
'Q' -> Queen
'K' -> King
'A' -> Ace
data Game = Game
{ cards :: [Rank],
baseScore :: Int
}
deriving (Show)
data Rank = Joker | Two | Three | Four | Five | Six | Seven | Eight | Nine | Ten | Jack | Queen | King | Ace deriving (Eq, Ord, Enum, Show)
data HandStrength = FiveOfAKind | FourOfAKind | FullHouse | ThreeOfAKind | TwoOfAKind | TwoPair | OnePair | HighCard deriving (Eq, Ord, Enum, Show)