Difference between revisions of "Haskell Quiz/SimFrost/Solution Dolio"

module Main where

import Data.List

import Control.Arrow
import Control.Monad
import Control.Monad.Instances

import System
import System.Random
import System.Console.GetOpt

import MonadRandom
import PPImage hiding (width, height)

data Content = Frost | Vapor | Vacuum deriving (Eq, Bounded, Enum)
data Direction = L | R deriving (Eq, Bounded, Enum, Show)

instance Random Direction where
    random = randomR (minBound, maxBound)
    randomR = (first toEnum .) . randomR . (fromEnum *** fromEnum)

instance Random Content where
    random = randomR (minBound, maxBound)
    randomR = (first toEnum .) . randomR . (fromEnum *** fromEnum)

instance Show Content where
    show Frost = "*"
    show Vapor = "."
    show Vacuum = " "

type Region a = [[a]]

shift, unshift :: [a] -> [a]
shift   = liftM2 (:) last init
unshift = liftM2 (++) tail (return . head)

rotateR :: (MonadRandom m) => Region a -> m (Region a)
rotateR = flip liftM getRandom . flip r
 where r R = transpose . reverse
       r L = reverse . transpose

splitAtM :: (MonadPlus m) => Int -> [a] -> m ([a], [a])
splitAtM _ [] = mzero
splitAtM n xs = return $ splitAt n xs

part :: Region a -> [[Region a]]
part = unfoldr (fmap (first z) . splitAtM 2) . map (unfoldr $ splitAtM 2)
 where
 z = foldr (zipWith (:)) (repeat [])

unpart :: [[Region a]] -> [[a]]
unpart = join . (map $ foldr1 (zipWith (++)))

freeze :: Region Content -> Region Content
freeze = map (map f)
 where f Vacuum = Vacuum ; f _ = Frost

anyR :: (a -> Bool) -> Region a -> Bool
anyR = (or .) . map . any

vaporous, frosty :: Region Content -> Bool
vaporous = anyR (== Vapor)
frosty = anyR (== Frost)

randomRegion :: (MonadRandom m) => Double -> Int -> Int -> m (Region Content)
randomRegion d n m = do r <- replicateM (n - 1) rv
                        rs <- replicateM (m - 1) (replicateM n rv)
                        return $ insert (div m 2) (insert (div n 2) Frost r) rs
 where
 insert n e l = let (h, t) = splitAt n l in h ++ e : t
 rv = tr `liftM` getRandomR (0.0, 1.0)
 tr r = if r < d then Vapor else Vacuum

update, update' :: (MonadRandom m) => Region Content -> m (Region Content)
update = liftM unpart . mapM (mapM op) . part
 where op r = if frosty r then return $ freeze r else rotateR r

update' = liftM unodd . update . odd
 where
 odd = shift . map (shift)
 unodd = unshift . map (unshift)

process :: (MonadRandomSplittable m) => Region Content -> m [Region Content]
process r = liftM (r:) $ step r
 where
 stepper g f r
    | not (vaporous r) = return [r]
    | otherwise        = (r:) `liftM` (g r >>= splitRandom . f)
 step  = stepper update step'
 step' = stepper update' step

output :: Integer -> PPM -> IO ()
output n ppm = writeFile ("frost" ++ show n ++ ".ppm") (show ppm)

showRegion :: Region Content -> String
showRegion = unlines . map ('|':) . map join . map (map show)

ppmRegion :: Region Content -> PPM
ppmRegion r = PPM pix w h 255
 where
 pix = map (map f) r
 h   = length r
 w   = head . map length $ r
 f Vacuum = black
 f Frost  = white
 f Vapor  = blue

main = do (fs, nonOpts, msgs) <- getOpt Permute options `fmap` getArgs
          let (P n m d) = foldr ($) defaultParms fs
          if odd n || odd m
             then putStrLn "Dimensions must be even."
             else evalRandIO (randomRegion d n m >>= process)
                                   >>= zipWithM_ output [100..]
                                                    . map ppmRegion

data Parms = P { width :: Int, height :: Int, percent :: Double }

defaultParms = P 200 200 0.5

options :: [OptDescr (Parms -> Parms)]
options =
    [ Option "w" ["width"]  (ReqArg w "WIDTH")  "Width of the canvas."
    , Option "h" ["height"] (ReqArg h "HEIGHT") "Height of the canvas."
    , Option "p" ["percent"] (ReqArg p "PERCENT") "Percentage of vapor."
    ]
 where
 w arg opt = opt { width = read arg }
 h arg opt = opt { height = read arg }
 p arg opt = opt { percent = read arg }