201 lines
5.9 KiB
Haskell
201 lines
5.9 KiB
Haskell
{-# LANGUAGE MultiParamTypeClasses #-}
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{-# LANGUAGE TypeFamilies #-}
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{-# LANGUAGE ForeignFunctionInterface #-}
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import Affection as A
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import qualified SDL
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import Control.Concurrent.STM
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import Control.Monad.IO.Class (liftIO)
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import Control.Monad (when)
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import Data.Matrix as M
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import qualified Data.Set as S
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import System.Random (randomRIO)
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import NanoVG
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import Foreign.C.Types (CInt(..))
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-- internal imports
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import Types
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foreign import ccall unsafe "glewInit"
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glewInit :: IO CInt
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main :: IO ()
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main = do
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logIO A.Debug "Starting"
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let conf = AffectionConfig
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{ initComponents = All
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, windowTitle = "affection: example00"
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, windowConfig = SDL.defaultWindow
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{ SDL.windowOpenGL = Just SDL.defaultOpenGL
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{ SDL.glProfile = SDL.Core SDL.Normal 3 3
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}
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, SDL.windowInitialSize = SDL.V2 600 600
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}
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, initScreenMode = SDL.Windowed
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, canvasSize = Nothing
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, loadState = load
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, preLoop = pre
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, eventLoop = handle
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, updateLoop = update
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, drawLoop = draw
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, cleanUp = clean
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}
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withAffection conf
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load :: IO UserData
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load = do
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-- emptyMatrix <- zero 60 60
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liftIO $ logIO A.Debug "init GLEW"
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_ <- glewInit
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liftIO $ logIO A.Debug "making random"
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randList <- mapM (\_ -> randomRIO (0,1)) [0..3599]
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liftIO $ logIO A.Debug "creating context"
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nanoCtx <- createGL3 (S.fromList [Antialias, StencilStrokes, NanoVG.Debug])
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let fullMatrix = fromList 60 60 randList
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-- logIO A.Debug $ prettyMatrix fullMatrix
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empty1 <- newTVarIO [] -- ([] :: [(UUID, WindowMessage -> Affection UserData ())])
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empty3 <- newTVarIO [] -- ([] :: [(UUID, KeyboardMessage -> Affection UserData ())])
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return $ UserData
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{ subsystems = Subsystems
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(Window empty1)
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(Keyboard empty3)
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, lifeMat = fullMatrix
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, nano = nanoCtx
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}
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pre :: Affection UserData ()
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pre = do
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sd <- getAffection
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_ <- partSubscribe (subKeyboard $ subsystems sd) exitOnEsc
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_ <- partSubscribe (subKeyboard $ subsystems sd) reloadOnR
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_ <- partSubscribe (subWindow $ subsystems sd) exitOnWindowClose
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return ()
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exitOnEsc :: KeyboardMessage -> Affection UserData ()
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exitOnEsc (MsgKeyboardEvent _ _ _ _ sym) =
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case SDL.keysymKeycode sym of
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SDL.KeycodeEscape -> do
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liftIO $ logIO A.Debug "Yo dog I heard..."
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quit
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_ -> return ()
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reloadOnR :: KeyboardMessage -> Affection UserData ()
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reloadOnR (MsgKeyboardEvent _ _ _ _ sym) =
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case SDL.keysymKeycode sym of
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SDL.KeycodeR -> do
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ud <- getAffection
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randList <- liftIO $ mapM (\_ -> randomRIO (0,1)) [0..3599]
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let fullMatrix = fromList 60 60 randList
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nState <- liftIO $ load
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putAffection ud
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{ lifeMat = fullMatrix
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}
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_ -> return ()
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exitOnWindowClose :: WindowMessage -> Affection UserData ()
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exitOnWindowClose wm =
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case wm of
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MsgWindowClose _ _ -> do
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liftIO $ logIO A.Debug "I heard another one..."
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quit
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_ -> return ()
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handle :: [SDL.EventPayload] -> Affection UserData ()
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handle es = do
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(Subsystems a b) <- subsystems <$> getAffection
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_ <- consumeSDLEvents a =<< consumeSDLEvents b es
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return ()
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update :: Double -> Affection UserData ()
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update _ = do
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ud <- getAffection
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-- when (lastUpdate ud < floor now) $ do
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liftIO $ logIO A.Debug "stepping life"
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newList <- mapM (\coord -> do
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let x = (coord `div` 60) + 1
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y = (coord `mod` 60) + 1
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subm
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| x == 1 && y == 1 =
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(submatrix 60 60 60 60 (lifeMat ud) <-> submatrix 1 2 60 60 (lifeMat ud))
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<|>
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(submatrix 60 60 1 2 (lifeMat ud) <-> submatrix 1 2 1 2 (lifeMat ud))
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| x == 1 && y == 60 =
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(submatrix 60 60 59 60 (lifeMat ud) <-> submatrix 1 2 59 60 (lifeMat ud))
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<|>
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(submatrix 60 60 1 1 (lifeMat ud) <-> submatrix 1 2 1 1 (lifeMat ud))
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| x == 60 && y == 1 =
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(submatrix 59 60 60 60 (lifeMat ud) <-> submatrix 1 1 60 60 (lifeMat ud))
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<|>
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(submatrix 59 60 1 2 (lifeMat ud) <-> submatrix 1 1 1 2 (lifeMat ud))
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| x == 60 && y == 60 =
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(submatrix 59 60 59 60 (lifeMat ud) <-> submatrix 1 1 59 60 (lifeMat ud))
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<|>
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(submatrix 59 60 1 1 (lifeMat ud) <-> submatrix 1 1 1 1 (lifeMat ud))
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| x == 1 =
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(submatrix 60 60 (y - 1) (y + 1) (lifeMat ud))
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<->
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(submatrix 1 2 (y - 1) (y + 1) (lifeMat ud))
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| y == 1 =
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(submatrix (x - 1) (x + 1) 60 60 (lifeMat ud))
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<|>
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(submatrix (x - 1) (x + 1) 1 2 (lifeMat ud))
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| x == 60 =
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(submatrix 1 1 (y - 1) (y + 1) (lifeMat ud))
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<->
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(submatrix 59 60 (y - 1) (y + 1) (lifeMat ud))
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| y == 60 =
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(submatrix (x - 1) (x + 1) 1 1 (lifeMat ud))
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<|>
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(submatrix (x -1 ) (x + 1) 59 60 (lifeMat ud))
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| otherwise =
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submatrix (x - 1) (x + 1) (y - 1) (y + 1) (lifeMat ud)
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life = countLife subm
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if (lifeMat ud) M.! (x, y) == 1
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then if life == 2 || life == 3
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then return 1
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else return 0
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else if life == 3
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then return 1
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else return 0
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) [0..3599]
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let newM = fromList 60 60 newList
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putAffection ud
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{ lifeMat = newM
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}
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countLife :: Matrix Word -> Word
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countLife mat = res - (mat M.! (2, 2))
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where
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res = foldr (\a acc -> a + acc) 0 mat
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draw :: Affection UserData ()
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draw = do
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ud <- getAffection
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liftIO $ do
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beginFrame (nano ud) 600 600 1
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save (nano ud)
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mapM_ (\coord -> do
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let x = coord `div` 60
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y = coord `mod` 60
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ctx = nano ud
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mult = lifeMat ud M.! (x + 1, y + 1)
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-- logIO A.Debug $ show mult
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beginPath ctx
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rect ctx (fromIntegral $ x * 10) (fromIntegral $ y * 10) 10 10
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if (mult == 1)
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then do
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fillColor ctx (rgba 255 255 255 255)
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else do
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fillColor ctx (rgba 0 0 0 255)
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fill ctx
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) [0..3599]
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restore (nano ud)
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endFrame (nano ud)
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clean _ = return ()
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