Files
loop/src/Dodge/Render.hs
T

191 lines
6.8 KiB
Haskell

{- |
Contains the central drawing functions for the dodge loop. -}
module Dodge.Render
( doDrawing
)
where
import Dodge.Data
import Dodge.Config.Data
import Dodge.Base
--import Dodge.Render.HUD
--import Dodge.Render.MenuScreen
import Dodge.Render.Picture
--import Dodge.Render.PerspectiveMatrix
--import Geometry
import Geometry.Data
--import Picture
import Render
import Data.Preload.Render
import Picture.Data
import Picture.Tree
import Shader
import Shader.Data
import Shader.Poke
import MatrixHelper
--import Polyhedra.Data
import Polyhedra
import Foreign
--import Control.Applicative
--import Control.Monad.State
import Control.Lens
import Control.Monad
import qualified Control.Foldl as F
--import Data.Tuple.Extra
--import Data.List
--import Data.Bifunctor
--import Data.Function
--import qualified Data.IntMap.Strict as IM
--import qualified Data.Map as M
--import qualified Data.Set as S
import Graphics.Rendering.OpenGL hiding (color,scale,translate,rotate)
import qualified SDL
doDrawing :: RenderData -> World -> IO Word32
doDrawing pdata w = do
sTicks <- SDL.ticks
let rot = _cameraRot w
camzoom = _cameraZoom w
trans = _cameraCenter w
wins = (getWindowX w,getWindowY w)
wallPointsCol = wallsPointsAndCols w
windowPoints = wallsWindows w
lightPoints = lightsForGloom w
--viewFroms@(viewFromx,viewFromy) = _cameraViewFrom w
viewFroms = _cameraViewFrom w
pic = worldPictures w
wallPoints = map fst wallPointsCol
-- set the coordinate uniform ready for drawing elements using world coordinates
bufferUBO $ perspectiveMatrixb rot camzoom trans wins viewFroms
bindFramebuffer Framebuffer $= (fst $ _fboBase pdata)
clearColor $= Color4 0 0 0 0
clear [ColorBuffer,DepthBuffer]
depthFunc $= Just Less
if w ^. config . wall_textured
then renderTextureWalls pdata wallPointsCol
else renderBlankWalls pdata wallPointsCol
-- _ <- setWallDepth pdata wallPoints (viewFromx,viewFromy)
_ <- renderFoldable pdata $ picToLTree (Just 0) (polysToPic $ foregroundPics w)
_ <- renderFoldable pdata $ picToLTree (Just 0) pic
_ <- renderShader (_textureArrayShader pdata) (_floorTiles w)
bindFramebuffer Framebuffer $= (fst $ _fboBloom pdata)
clear [ColorBuffer]
blendFunc $= (SrcAlpha,OneMinusSrcAlpha)
_ <- renderFoldable pdata $ picToLTree (Just 1) pic
bindFramebuffer Framebuffer $= (fst $ _fboColor pdata)
clear [ColorBuffer]
depthMask $= Disabled
_ <- renderFoldable pdata $ picToLTree (Just 3) pic
_ <- renderFoldable pdata $ picToLTree (Just 4) pic
_ <- renderFoldable pdata $ picToLTree (Just 5) pic
depthMask $= Enabled
--bindFramebuffer Framebuffer $= (fst3 $ _fbo2 pdata)
bindFramebuffer Framebuffer $= (fst $ _fboFourth1 pdata)
viewport $= (Position 0 0, Size 300 300)
depthFunc $= Just Always
--blend $= Disabled
textureBinding Texture2D $= Just (snd $ _fboBloom pdata)
--clear [ColorBuffer]
--blendFunc $= (SrcAlpha,OneMinusSrcAlpha)
--blendFuncSeparate $= ((Zero,One), (Zero,SrcAlpha))
--drawShader (_fullscreenAlphaHalveShader pdata) 4
--blendFunc $= (SrcAlpha,OneMinusSrcAlpha)
--drawShader (_bloomBlurShader pdata) 4
--blendFuncSeparate $= ((Zero,One),(Zero,SrcAlpha))
blendFunc $= (One,One)
blendEquation $= FuncReverseSubtract
drawShader (_fullscreenAlphaHalveShader pdata) 4
blendFunc $= (SrcAlpha,OneMinusSrcAlpha)
blendEquation $= FuncAdd
drawShader (_bloomBlurShader pdata) 4
replicateM_ 5 $ pingPongBetween (_fboFourth1 pdata) (_fboFourth2 pdata) (_bloomBlurShader pdata)
--replicateM_ 5 $ pingPongBlur pdata
--blend $= Enabled
viewport $= (Position 0 0, Size (round $ fst wins) (round $ snd wins))
blendFunc $= (SrcAlpha,OneMinusSrcAlpha)
bindFramebuffer Framebuffer $= (fst $ _fboLighting pdata)
let scPol = screenPolygon w
createLightMap pdata (w ^. config . shadow_resolution) wallPoints lightPoints
(foregroundPics w) scPol
colorMask $= Color4 Enabled Enabled Enabled Enabled
clearColor $= Color4 0 0 0 0
bindShaderBuffers [_fullscreenShader pdata] [4]
--bindFramebuffer Framebuffer $= defaultFramebufferObject
blend $= Disabled
depthMask $= Disabled
depthFunc $= Just Always
--textureBinding Texture2D $= Just (snd $ head $ fst $ _fbos pdata)
--drawShader (_fullscreenShader pdata) 4
bindFramebuffer Framebuffer $= (fst $ _fboBase pdata)
--drawShader (_fullscreenShader pdata) 4
--textureBinding Texture2D $= Just (snd3 $ _fbo2 pdata)
textureBinding Texture2D $= Just (snd $ _fboLighting pdata)
blend $= Enabled
blendFunc $= (Zero, OneMinusSrcAlpha)
drawShader (_fullscreenShader pdata) 4
blendFunc $= (SrcAlpha, OneMinusSrcAlpha)
textureBinding Texture2D $= Just (snd $ _fboColor pdata)
drawShader (_colorBlurShader pdata) 4
--textureBinding Texture2D $= Just (snd3 $ _fbo2 pdata)
textureBinding Texture2D $= Just (snd $ _fboFourth1 pdata)
drawShader (_fullscreenShader pdata) 4
depthFunc $= Just Lequal
_ <- renderFoldable pdata $ picToLTree (Just 2) pic
renderBlankWalls pdata windowPoints
depthFunc $= Just Always
bindFramebuffer Framebuffer $= defaultFramebufferObject
clear [ColorBuffer]
textureBinding Texture2D $= Just (snd $ _fboBase pdata)
drawShader (_fullscreenShader pdata) 4
-- draw overlay
bufferUBO $ isoMatrix 0 1 (0,0) (2,2)
--depthFunc $= Just Always
depthMask $= Enabled
blend $= Enabled
blendFunc $= (SrcAlpha,OneMinusSrcAlpha)
_ <- renderFoldable pdata (picToLTree Nothing $ fixedCoordPictures w)
eTicks <- SDL.ticks
return (eTicks - sTicks)
--------------------------------------------------------------------------------
-- note: currently assume there is only one UBO, we only bind it once at setup
bufferUBO :: [Float] -> IO ()
bufferUBO mat = withArray mat $ \ptr ->
bufferSubData UniformBuffer WriteToBuffer 0 64 ptr
renderBlankWalls
:: RenderData
-> [((Point2,Point2),Point4)] -- ^ List: wall positions and color
-- -> GLmatrix GLfloat
-> IO ()
renderBlankWalls pdata wps = do
n <- F.foldM (pokeShader $ _wallBlankShader pdata) (map Render22x4 wps)
bindShaderBuffers [_wallBlankShader pdata] [n]
currentProgram $= Just (_shaderProgram $ _wallBlankShader pdata)
cullFace $= Just Back
drawShader (_wallBlankShader pdata) n
cullFace $= Nothing
renderTextureWalls
:: RenderData
-> [((Point2,Point2),Point4)] -- ^ List: wall positions and color
-> IO ()
renderTextureWalls pdata wps = do
n <- F.foldM (pokeShader $ _wallTextureShader pdata) (map Render22x4 wps)
bindShaderBuffers [_wallTextureShader pdata] [n]
currentProgram $= Just (_shaderProgram $ _wallTextureShader pdata)
cullFace $= Just Back
drawShader (_wallTextureShader pdata) n
cullFace $= Nothing