game of life works now

This commit is contained in:
nek0 2017-12-29 15:03:21 +01:00
parent 93140bd713
commit e83a36910a
3 changed files with 134 additions and 68 deletions

View file

@ -148,5 +148,6 @@ executable example01
, linear
, matrix
, nanovg
, deepseq
else
buildable: False

View file

@ -3,18 +3,23 @@
{-# LANGUAGE ForeignFunctionInterface #-}
import Affection as A
import SDL (($=))
import qualified SDL
import qualified Graphics.Rendering.OpenGL as GL
import Control.Concurrent.STM
import Control.Monad.IO.Class (liftIO)
import Control.Monad (when)
import Control.DeepSeq (deepseq)
import Data.Matrix as M
import qualified Data.Set as S
import System.Random (randomRIO)
import NanoVG
import NanoVG hiding (V2(..))
import Linear
import Foreign.C.Types (CInt(..))
@ -30,12 +35,13 @@ main = do
logIO A.Debug "Starting"
let conf = AffectionConfig
{ initComponents = All
, windowTitle = "affection: example00"
, windowTitle = "affection: example01"
, windowConfig = SDL.defaultWindow
{ SDL.windowOpenGL = Just SDL.defaultOpenGL
{ SDL.glProfile = SDL.Core SDL.Normal 3 3
}
, SDL.windowInitialSize = SDL.V2 600 600
, SDL.windowResizable = True
}
, initScreenMode = SDL.Windowed
, canvasSize = Nothing
@ -66,7 +72,10 @@ load = do
(Window empty1)
(Keyboard empty3)
, lifeMat = fullMatrix
, foodMat = fromList 60 60 (repeat 10)
, timeMat = M.zero 60 60
, nano = nanoCtx
, lastUpdate = 0
}
pre :: Affection UserData ()
@ -74,8 +83,13 @@ pre = do
sd <- getAffection
_ <- partSubscribe (subKeyboard $ subsystems sd) exitOnEsc
_ <- partSubscribe (subKeyboard $ subsystems sd) reloadOnR
_ <- partSubscribe (subKeyboard $ subsystems sd) showFPS
_ <- partSubscribe (subWindow $ subsystems sd) exitOnWindowClose
return ()
_ <- partSubscribe (subWindow $ subsystems sd) windowResize
now <- getElapsedTime
putAffection sd
{ lastUpdate = floor now
}
exitOnEsc :: KeyboardMessage -> Affection UserData ()
exitOnEsc (MsgKeyboardEvent _ _ _ _ sym) =
@ -88,14 +102,28 @@ exitOnEsc (MsgKeyboardEvent _ _ _ _ sym) =
reloadOnR :: KeyboardMessage -> Affection UserData ()
reloadOnR (MsgKeyboardEvent _ _ _ _ sym) =
case SDL.keysymKeycode sym of
SDL.KeycodeR -> do
SDL.KeycodeR -> reload
_ -> return ()
reload :: Affection UserData ()
reload = do
ud <- getAffection
now <- getElapsedTime
randList <- liftIO $ mapM (\_ -> randomRIO (0,1)) [0..3599]
let fullMatrix = fromList 60 60 randList
nState <- liftIO $ load
putAffection ud
{ lifeMat = fullMatrix
, foodMat = fromList 60 60 (repeat 10)
, timeMat = M.zero 60 60
, lastUpdate = floor now
}
showFPS :: KeyboardMessage -> Affection UserData ()
showFPS (MsgKeyboardEvent _ _ _ _ sym) =
case SDL.keysymKeycode sym of
SDL.KeycodeF -> do
dt <- getDelta
liftIO $ logIO A.Debug $ "FPS: " ++ show (1 / dt)
_ -> return ()
exitOnWindowClose :: WindowMessage -> Affection UserData ()
@ -106,6 +134,15 @@ exitOnWindowClose wm =
quit
_ -> return ()
windowResize :: WindowMessage -> Affection UserData ()
windowResize msg = case msg of
(MsgWindowResize _ _ (V2 w h)) -> do
liftIO $ logIO A.Debug "Window resized"
let nw = floor (fromIntegral h)
dw = floor ((fromIntegral w - fromIntegral nw) / 2)
GL.viewport $= (GL.Position dw 0, GL.Size nw h)
_ -> return ()
handle :: [SDL.EventPayload] -> Affection UserData ()
handle es = do
(Subsystems a b) <- subsystems <$> getAffection
@ -115,64 +152,89 @@ handle es = do
update :: Double -> Affection UserData ()
update _ = do
ud <- getAffection
-- when (lastUpdate ud < floor now) $ do
liftIO $ logIO A.Debug "stepping life"
-- now <- getElapsedTime
when (True) $ do
newList <- mapM (\coord -> do
let x = (coord `div` 60) + 1
y = (coord `mod` 60) + 1
let x = (coord `mod` 60) + 1
y = (coord `div` 60) + 1
subm
| x == 1 && y == 1 =
(submatrix 60 60 60 60 (lifeMat ud) <-> submatrix 1 2 60 60 (lifeMat ud))
<|>
(submatrix 60 60 1 2 (lifeMat ud) <-> submatrix 1 2 1 2 (lifeMat ud))
(submatrix 60 60 60 60 (lifeMat ud) <|> submatrix 60 60 1 2 (lifeMat ud))
<->
(submatrix 1 2 60 60 (lifeMat ud) <|> submatrix 1 2 1 2 (lifeMat ud))
| x == 1 && y == 60 =
(submatrix 60 60 59 60 (lifeMat ud) <-> submatrix 1 2 59 60 (lifeMat ud))
<|>
(submatrix 60 60 1 1 (lifeMat ud) <-> submatrix 1 2 1 1 (lifeMat ud))
(submatrix 59 60 60 60 (lifeMat ud) <|> submatrix 59 60 1 2 (lifeMat ud))
<->
(submatrix 1 1 60 60 (lifeMat ud) <|> submatrix 1 1 1 2 (lifeMat ud))
| x == 60 && y == 1 =
(submatrix 59 60 60 60 (lifeMat ud) <-> submatrix 1 1 60 60 (lifeMat ud))
<|>
(submatrix 59 60 1 2 (lifeMat ud) <-> submatrix 1 1 1 2 (lifeMat ud))
(submatrix 60 60 59 60 (lifeMat ud) <|> submatrix 60 60 1 1 (lifeMat ud))
<->
(submatrix 1 2 59 60 (lifeMat ud) <|> submatrix 1 2 1 1 (lifeMat ud))
| x == 60 && y == 60 =
(submatrix 59 60 59 60 (lifeMat ud) <-> submatrix 1 1 59 60 (lifeMat ud))
<|>
(submatrix 59 60 1 1 (lifeMat ud) <-> submatrix 1 1 1 1 (lifeMat ud))
(submatrix 59 60 59 60 (lifeMat ud) <|> submatrix 59 60 1 1 (lifeMat ud))
<->
(submatrix 1 1 59 60 (lifeMat ud) <|> submatrix 1 1 1 1 (lifeMat ud))
| x == 1 =
(submatrix 60 60 (y - 1) (y + 1) (lifeMat ud))
<->
(submatrix 1 2 (y - 1) (y + 1) (lifeMat ud))
(submatrix (y - 1) (y + 1) 60 60 (lifeMat ud))
<|>
(submatrix (y - 1) (y + 1) 1 2 (lifeMat ud))
| y == 1 =
(submatrix (x - 1) (x + 1) 60 60 (lifeMat ud))
<|>
(submatrix (x - 1) (x + 1) 1 2 (lifeMat ud))
| x == 60 =
(submatrix 1 1 (y - 1) (y + 1) (lifeMat ud))
(submatrix 60 60 (x - 1) (x + 1) (lifeMat ud))
<->
(submatrix 59 60 (y - 1) (y + 1) (lifeMat ud))
| y == 60 =
(submatrix (x - 1) (x + 1) 1 1 (lifeMat ud))
(submatrix 1 2 (x - 1) (x + 1) (lifeMat ud))
| x == 60 =
(submatrix (y - 1) (y + 1) 59 60 (lifeMat ud))
<|>
(submatrix (x -1 ) (x + 1) 59 60 (lifeMat ud))
(submatrix (y - 1) (y + 1) 1 1 (lifeMat ud))
| y == 60 =
(submatrix 59 60 (x -1 ) (x + 1) (lifeMat ud))
<->
(submatrix 1 1 (x - 1) (x + 1) (lifeMat ud))
| otherwise =
submatrix (x - 1) (x + 1) (y - 1) (y + 1) (lifeMat ud)
submatrix (y - 1) (y + 1) (x - 1) (x + 1) (lifeMat ud)
life = countLife subm
if (lifeMat ud) M.! (x, y) == 1
if (lifeMat ud) M.! (y, x) == 1
then if life == 2 || life == 3
then return 1
else return 0
then if foodMat ud M.! (y, x) > 0
then return (1, (foodMat ud M.! (y, x)) - 1, 0)
else return (0, foodMat ud M.! (y, x), 1)
else return (0, foodMat ud M.! (y, x), 1)
else if life == 3
then return 1
else return 0
then if foodMat ud M.! (y, x) > 0
then return (1, (foodMat ud M.! (y, x)) - 1, 0)
else return
( 0
, if timeMat ud M.! (y, x) > 10
then min 10 ((foodMat ud M.! (y, x)) + 1)
else foodMat ud M.! (y, x)
, timeMat ud M.! (y, x) + 1
)
else return
( 0
, if timeMat ud M.! (y, x) > 10
then min 10 ((foodMat ud M.! (y, x)) + 1)
else foodMat ud M.! (y, x)
, (timeMat ud M.! (y, x)) + 1
)
) [0..3599]
let newM = fromList 60 60 newList
putAffection ud
{ lifeMat = newM
let newLifeMat = fromList 60 60 (map (\(x, _, _) -> x) newList)
let newFoodMat = fromList 60 60 (map (\(_, x, _) -> x) newList)
let newTimeMat = fromList 60 60 (map (\(_, _, x) -> x) newList)
if (newLifeMat == M.zero 60 60)
then
reload
else
putAffection ((newLifeMat, newFoodMat, newTimeMat) `deepseq` ud)
{ lifeMat = newLifeMat
, foodMat = newFoodMat
, timeMat = newTimeMat
-- , lastUpdate = floor now
}
countLife :: Matrix Word -> Word
countLife mat = res - (mat M.! (2, 2))
where
res = foldr (\a acc -> a + acc) 0 mat
res = foldr (\a acc -> acc + a) 0 mat
draw :: Affection UserData ()
draw = do
@ -181,8 +243,8 @@ draw = do
beginFrame (nano ud) 600 600 1
save (nano ud)
mapM_ (\coord -> do
let x = coord `div` 60
y = coord `mod` 60
let x = coord `mod` 60
y = coord `div` 60
ctx = nano ud
mult = lifeMat ud M.! (x + 1, y + 1)
-- logIO A.Debug $ show mult
@ -192,7 +254,7 @@ draw = do
then do
fillColor ctx (rgba 255 255 255 255)
else do
fillColor ctx (rgba 0 0 0 255)
fillColor ctx (rgba 0 (fromIntegral $ 25 * (foodMat ud M.! (x+1, y+1))) 0 255)
fill ctx
) [0..3599]
restore (nano ud)

View file

@ -14,8 +14,11 @@ import Control.Monad.IO.Class (liftIO)
data UserData = UserData
{ lifeMat :: Matrix Word
, foodMat :: Matrix Word
, timeMat :: Matrix Word
, subsystems :: Subsystems
, nano :: Context
, lastUpdate :: Int
}
data Subsystems = Subsystems