multiple balls
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c0af4e7dd8
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2 changed files with 188 additions and 116 deletions
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@ -29,6 +29,7 @@ executable frpball
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, text
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, stm
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, mtl
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, random
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hs-source-dirs: src
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ghc-options: -Wall
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default-language: Haskell2010
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127
src/Main.hs
127
src/Main.hs
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@ -22,6 +22,9 @@ import Reactive.Banana.Frameworks as RBF
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import Reactive.Banana.Combinators as RBC
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import Data.Maybe (fromMaybe)
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import Data.List (zip4)
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import System.Random (randomRIO)
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-- internal imports
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@ -64,6 +67,7 @@ main = do
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, (V4 1 1 0 1, V3 0 0 1)
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]
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let orderList = [1 .. 100]
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hexBuffer :: Buffer os AttrInput <- newBuffer 18
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writeBuffer
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hexBuffer
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@ -94,9 +98,20 @@ main = do
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]
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uniformBuffer :: Buffer os (Uniform (B Float)) <- newBuffer 1
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positionUniformBuffer :: Buffer os (Uniform (B2 Float)) <- newBuffer 1
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positionUniformBuffers :: [Buffer os (Uniform (B2 Float))] <- mapM
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(\_ -> newBuffer 1)
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orderList
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positions <- liftIO $ mapM
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(\_ -> do
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x <- randomRIO (0, 800)
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y <- randomRIO (0, 600)
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return $ V2 x y
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)
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orderList
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hexShader <- compileShader $ do
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hexShaders <- mapM
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(\positionUniformBuffer ->
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compileShader $ do
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hexPrimitiveStream :: PrimitiveStream Triangles (V4 VFloat, V3 VFloat) <-
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toPrimitiveStream id ::
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Shader
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@ -138,6 +153,8 @@ main = do
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)
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)
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hexFragmentStream
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)
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positionUniformBuffers
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shader <- compileShader $ do
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primitiveStream :: PrimitiveStream Triangles (V4 VFloat, V3 VFloat) <-
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@ -179,15 +196,21 @@ main = do
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listen@(_, eventFire) <- liftIO $ newAddHandler
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deltaTimer@(_, deltaFire) <- liftIO $ newAddHandler
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uniVar <- liftIO $ newTMVarIO 0 :: ContextT FRPBallCtx os IO (TMVar Float)
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transUniVar :: TMVar (V2 Float) <- liftIO $ newTMVarIO (V2 1 1)
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transUniVars :: [TMVar (V2 Float)] <- liftIO $ mapM
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(\rposition -> newTMVarIO rposition)
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positions
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deltaVar :: TMVar Float <- liftIO (newTMVarIO =<< SDL.time)
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network <- liftIO $ compile
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(networkDescription listen deltaTimer uniVar transUniVar)
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(networkDescription listen deltaTimer uniVar transUniVars)
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forever $ do
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mrot <- liftIO $ atomically $ tryReadTMVar uniVar
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writeBuffer uniformBuffer 0 [fromMaybe 0 mrot]
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mapM_
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(\(transUniVar, positionUniformBuffer) -> do
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mtrans <- liftIO $ atomically $ tryReadTMVar transUniVar
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writeBuffer positionUniformBuffer 0 [fromMaybe (V2 1 1) mtrans]
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)
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(zip transUniVars positionUniformBuffers)
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liftIO $ actuate network
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render $ do
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clearWindowColor win (V3 0 0 0)
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@ -196,7 +219,11 @@ main = do
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let primitiveArray = toPrimitiveArray TriangleList vertexArray
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let hexPrimitiveArray = toPrimitiveArray TriangleList hexVertexArray
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shader primitiveArray
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mapM_
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(\hexShader ->
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hexShader hexPrimitiveArray
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)
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hexShaders
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swapWindowBuffers win
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liftIO $ do
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evs <- SDL.pollEvents
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@ -211,29 +238,44 @@ networkDescription
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:: (AddHandler [SDL.Event], ([SDL.Event] -> IO ()))
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-> (AddHandler Float, (Float -> IO ()))
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-> TMVar Float
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-> TMVar (V2 Float)
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-> [TMVar (V2 Float)]
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-> MomentIO ()
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networkDescription (listenerAH, _) (deltaAH, _) rotvar transvar = mdo
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(ballPosAH, ballPosFire) <- liftIO $ newAddHandler
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(ballVelAH, ballVelFire) <- liftIO $ newAddHandler
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(ballAccAH, ballAccFire) <- liftIO $ newAddHandler
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networkDescription (listenerAH, _) (deltaAH, _) rotvar transvars = mdo
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posAHFires <- liftIO $ mapM (const newAddHandler) [1 .. length transvars]
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velAHFires <- liftIO $ mapM (const newAddHandler) [1 .. length transvars]
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accAHFires <- liftIO $ mapM (const newAddHandler) [1 .. length transvars]
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-- (ballPosAH, ballPosFire) <- liftIO $ newAddHandler
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-- (ballVelAH, ballVelFire) <- liftIO $ newAddHandler
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-- (ballAccAH, ballAccFire) <- liftIO $ newAddHandler
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(mousePosAH, mousePosFire) <- liftIO $ newAddHandler
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(mouseMotionAH, mouseMotionFire) <- liftIO $ newAddHandler
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(mouseClickAH, mouseClickFire) <- liftIO $ newAddHandler
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(mouseReleaseAH, mouseReleaseFire) <- liftIO $ newAddHandler
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(mouseClickPosAH, mouseClickPosFire) <- liftIO $ newAddHandler
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ballPos :: Event (V2 Float) <- fromAddHandler =<< (liftIO $ do
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ballPoss :: [Event (V2 Float)] <- mapM
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(\(ballPosAH, _) ->
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fromAddHandler =<< (liftIO $ do
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void $ register ballPosAH (\_ -> return())
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return ballPosAH
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)
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ballVel :: Event (V2 Float) <- fromAddHandler =<< (liftIO $ do
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)
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posAHFires
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ballVels :: [Event (V2 Float)] <- mapM
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(\(ballVelAH, _) ->
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fromAddHandler =<< (liftIO $ do
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void $ register ballVelAH (\_ -> return())
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return ballVelAH
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)
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ballAcc :: Event (V2 Float) <- fromAddHandler =<< (liftIO $ do
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)
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velAHFires
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ballAccs :: [Event (V2 Float)] <- mapM
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(\(ballAccAH, _) ->
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fromAddHandler =<< (liftIO $ do
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void $ register ballAccAH (\_ -> return())
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return ballAccAH
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)
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)
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accAHFires
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mousePos :: Event (V2 Float) <- fromAddHandler =<< (liftIO $ do
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void $ register mousePosAH (\_ -> return())
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return mousePosAH
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@ -278,17 +320,21 @@ networkDescription (listenerAH, _) (deltaAH, _) rotvar transvar = mdo
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)
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mousePos
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ballPosBehaviour <- stepper (V2 400 300) ballPos
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ballVelBehaviour <- stepper (V2 0 0) ballVel
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ballAccBehaviour <- stepper (V2 0 0) ballAcc
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ballPosBehaviours <- mapM
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(\(ballPos, uni) -> do
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position <- liftIO $ fromMaybe (V2 400 300) <$>
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(atomically $ tryReadTMVar uni)
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stepper position ballPos
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)
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(zip ballPoss transvars)
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ballVelBehaviours <- mapM (\ballVel -> stepper (V2 0 0) ballVel) ballVels
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ballAccBehaviours <- mapM (\ballAcc -> stepper (V2 0 0) ballAcc) ballAccs
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mousePosBehaviour <- stepper (V2 400 300) mousePos
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mouseMotionBehaviour <- stepper (V2 0 0) mouseMotion
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mouseClickBehaviour <- stepper False mouseClick
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mouseReleaseBehaviour <- stepper True mouseRelease
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mouseClickPosBehaviour <- stepper Nothing mouseClickPos
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ball :: V2 Float <- valueB ballPosBehaviour
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let triangleReaction = fmap (\x -> do
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let input = (\(V2 xx _) -> xx / 100 :: Float) x
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past <- fromMaybe 0 <$> (atomically $ tryReadTMVar rotvar)
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@ -296,13 +342,21 @@ networkDescription (listenerAH, _) (deltaAH, _) rotvar transvar = mdo
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-- print input
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)
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mouseMotionBehaviour
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ballReaction = fmap (\x -> do
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ballReactions = map
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(\(ballPosBehaviour, uni) ->
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fmap
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(\x -> do
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let input = (fmap (\foo -> foo - 1) x) / V2 400 300
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void $ atomically $ swapTMVar transvar input
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void $ atomically $ swapTMVar uni input
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-- print input
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)
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ballPosBehaviour
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ballAccReaction = fmap (\acc -> do
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)
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(zip ballPosBehaviours transvars)
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ballAccReactions = map
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(\((_, ballAccFire), ballPosBehaviour) ->
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fmap
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(\acc -> do
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ballAccFire acc
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-- print acc
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) $ apply
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@ -315,7 +369,12 @@ networkDescription (listenerAH, _) (deltaAH, _) rotvar transvar = mdo
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ballPosBehaviour
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)
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delta
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ballVelReaction = fmap (\vel ->
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)
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(zip accAHFires ballPosBehaviours)
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ballVelReactions = map
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(\((_, ballVelFire), ballAccBehaviour, ballVelBehaviour) ->
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fmap
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(\vel ->
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ballVelFire vel
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) $ apply
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(liftA2
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@ -324,10 +383,20 @@ networkDescription (listenerAH, _) (deltaAH, _) rotvar transvar = mdo
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ballVelBehaviour
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)
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delta
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ballMoveReaction = fmap (\x -> do
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)
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(zip3 velAHFires ballAccBehaviours ballVelBehaviours)
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ballMoveReactions = map
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(\( ( _
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, ballPosFire
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)
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, ballPosBehaviour
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, ballVelBehaviour
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, ballAccBehaviour) ->
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fmap
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(\x -> do
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ballPosFire x
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-- print x
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) $ apply
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) (apply
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(liftA3
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(\bPos bVel bAcc ->
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(\dtime -> (fmap (* (dtime * 0.5)) bAcc) +
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ballVelBehaviour
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ballAccBehaviour
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)
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delta
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delta)
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)
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(zip4 posAHFires ballPosBehaviours ballVelBehaviours ballAccBehaviours)
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reactimate' =<< changes triangleReaction
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reactimate' =<< changes ballReaction
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reactimate ballVelReaction
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reactimate ballAccReaction
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mapM_ (\ballReaction -> reactimate' =<< changes ballReaction) ballReactions
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mapM_ (\ballVelReaction -> reactimate ballVelReaction) ballVelReactions
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mapM_ (\ballAccReaction -> reactimate ballAccReaction) ballAccReactions
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-- reactimate $ whenE mouseClickBehaviour ballMoveReaction
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reactimate ballMoveReaction
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mapM_ (\ballMoveReaction -> reactimate ballMoveReaction) ballMoveReactions
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-- reactimate' =<< changes clickReaction
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-- reactimate ballReaction
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