{-# LANGUAGE OverloadedStrings, RecordWildCards #-} module Main where import Affection import SDL (($=)) import qualified SDL import qualified Graphics.Rendering.OpenGL as GL import qualified Graphics.GLUtil as GLU import Physics.Bullet.Raw import Control.Monad (when) import Control.Monad.IO.Class (liftIO) import qualified Data.ByteString as BS import Linear as L import System.Random (randomRIO) import SpatialMath import Init import Types import Debug.Trace as T main :: IO () main = withAffection AffectionConfig { initComponents = All , windowTitle = "hw" , windowConfig = SDL.defaultWindow { SDL.windowInitialSize = SDL.V2 1600 900 , SDL.windowOpenGL = Just SDL.defaultOpenGL { SDL.glProfile = SDL.Core SDL.Normal 3 2 } } , initScreenMode = SDL.Fullscreen , preLoop = return () , eventLoop = handle , updateLoop = update , drawLoop = draw , loadState = load , cleanUp = const (return ()) , canvasSize = Nothing } update :: Double -> Affection StateData () update dt = do sd <- getAffection let phys = physics sd physos = physicsObjects sd liftIO $ stepSimulation (pWorld phys) dt 10 Nothing (pos, rot) <- do ms <- liftIO $ getMotionState (bodyRigidBody $ poBall physos) npos <- liftIO $ return . fmap realToFrac =<< getPosition ms nrot <- liftIO $ return . fmap realToFrac =<< getRotation ms return (npos, nrot) let nship = (ship sd) { shipRot = rot , shipPos = pos } putAffection sd { ship = nship } draw :: Affection StateData () draw = do GL.viewport $= (GL.Position 0 0, GL.Size 1600 900) StateData{..} <- getAffection let view = lookAt (cameraFocus camera + rotVecByEulerB2A (cameraRot camera) (V3 0 0 (-cameraDist camera))) (cameraFocus camera) (V3 0 1 0) drawShip shipProgram view ship mapM_ (drawShip handleProgram view) vertHandles where drawShip program view (Ship{..}) = do StateData{..} <- getAffection GL.currentProgram $= (Just . GLU.program $ program) let model = mkTransformation shipRot shipPos pvm = proj !*! view !*! model liftIO $ GLU.setUniform program "mvp" pvm GL.bindVertexArrayObject $= Just shipVao GL.bindBuffer GL.ArrayBuffer $= shipUVs liftIO $ GL.drawArrays GL.Triangles 0 (fromIntegral shipVaoLen) GL.currentProgram $= Nothing GL.bindBuffer GL.ArrayBuffer $= Nothing GL.bindVertexArrayObject $= Nothing handle :: SDL.EventPayload -> Affection StateData () handle (SDL.WindowClosedEvent _) = quit handle (SDL.KeyboardEvent dat) = do let key = SDL.keysymKeycode (SDL.keyboardEventKeysym dat) when (SDL.keyboardEventKeyMotion dat == SDL.Pressed) $ handleKey key handle (SDL.MouseMotionEvent dat) = do sd <- getAffection let (V2 rx ry) = fromIntegral <$> SDL.mouseMotionEventRelMotion dat c = camera sd putAffection sd { camera = case SDL.mouseMotionEventState dat of [SDL.ButtonRight] -> let (V3 sx sy sz) = rotVecByEuler (cameraRot c) (V3 (rx / 10) 0 (ry / 10)) in c {cameraFocus = cameraFocus c + V3 sx 0 sy} [] -> let dphi = pi / 4 / 45 / 10 (Euler yaw pitch roll) = cameraRot c nangle | nangle' >= qc = qc - mu | nangle' <= -qc = -qc + mu | otherwise = nangle' where nangle' = (dphi * ry) + roll qc = pi / 2 mu = 0.01 nrot = Euler yaw (pitch + (rx * dphi)) nangle in c { cameraRot = nrot } _ -> c } handle _ = return () handleKey :: SDL.Keycode -> Affection StateData () handleKey code | code == SDL.KeycodeR = GL.clearColor $= GL.Color4 1 0 0 1 | code == SDL.KeycodeG = GL.clearColor $= GL.Color4 0 1 0 1 | code == SDL.KeycodeB = GL.clearColor $= GL.Color4 0 0 1 1 | code == SDL.KeycodeP = do r <- liftIO $ randomRIO (0, 1) g <- liftIO $ randomRIO (0, 1) b <- liftIO $ randomRIO (0, 1) a <- liftIO $ randomRIO (0, 1) GL.clearColor $= GL.Color4 r g b a | code == SDL.KeycodeEscape = quit | code == SDL.KeycodeF = do dt <- deltaTime <$> get liftIO $ putStrLn $ show (1 / dt) ++ " FPS" | code == SDL.KeycodeT = toggleScreen -- | code `elem` -- [ SDL.KeycodeW -- , SDL.KeycodeS -- , SDL.KeycodeA -- , SDL.KeycodeD -- , SDL.KeycodeQ -- , SDL.KeycodeE -- ] -- = do -- sd <- getAffection -- let body = bodyRigidBody $ poBall $ physicsObjects sd -- ms <- liftIO $ getMotionState body -- rot <- liftIO $ return . fmap realToFrac =<< getRotation ms -- let tor = 5 -- torqueimp = case code of -- SDL.KeycodeW -> rotate rot (V3 (-tor) 0 0) -- (-dphi) -- SDL.KeycodeS -> rotate rot (V3 tor 0 0) -- dphi -- SDL.KeycodeA -> rotate rot (V3 0 (-tor) 0) -- (-dphi) -- SDL.KeycodeD -> rotate rot (V3 0 tor 0) -- dphi -- SDL.KeycodeE -> rotate rot (V3 0 0 (-tor)) -- (-dphi) -- SDL.KeycodeQ -> rotate rot (V3 0 0 tor) -- dphi -- _ -> V3 0 0 0 -- liftIO $ applyTorqueImpulse -- (bodyRigidBody $ poBall $ physicsObjects sd) -- torqueimp | otherwise = return ()