Files
loop/src/Shader.hs
T

98 lines
3.4 KiB
Haskell

module Shader
( bindArrayBuffers
, bindShaderBuffers
, drawShader
, drawShaders
, setShaderUniforms
, resetShaderUniforms
, extractProgAndUnis
, freeShaderPointers
, setPerpMatUniform
) where
import Geometry.Data
import Shader.Data
import Shader.Parameters
import MatrixHelper
import Foreign
import Control.Monad
import Graphics.Rendering.OpenGL hiding (Point,translate,scale,imageHeight)
--import Text.RawString.QQ
import Linear.Matrix
import Linear.V4
extractProgAndUnis :: FullShader -> (Program,UniformLocation)
extractProgAndUnis s = (_shaderProgram s, _shaderMatrixUniform s)
bindArrayBuffers :: Int -> VBO -> IO ()
bindArrayBuffers numVs theVBO = do
bindBuffer ArrayBuffer $= Just (_vbo theVBO)
bufferData ArrayBuffer $=
(fromIntegral $ floatSize * numVs * sum (_vboAttribSizes theVBO), _vboPointer theVBO, DynamicDraw)
bindShaderBuffers :: [FullShader] -> [Int] -> IO ()
bindShaderBuffers = zipWithM_ f
where
f fs i = bindArrayBuffers i $ _vaoVBO $ _shaderVAO fs
drawShaders :: [FullShader] -> [Int] -> IO ()
drawShaders = zipWithM_ drawShader
drawShader :: FullShader -> Int -> IO ()
{-# INLINE drawShader #-}
drawShader fs i = do
currentProgram $= Just (_shaderProgram fs)
bindVertexArrayObject $= Just (_vao $ _shaderVAO fs)
case _shaderTexture fs of
Just ShaderTexture{_textureObject = txo}
-> textureBinding Texture2D $= Just txo
_ -> return ()
drawArrays (_shaderDrawPrimitive fs) 0 (fromIntegral i)
resetShaderUniforms :: [(Program, UniformLocation)] -> IO ()
{-# INLINE resetShaderUniforms #-}
resetShaderUniforms = setShaderUniforms 0 1 (0,0) (2,2)
setShaderUniforms :: Float -> Float -> Point2 -> Point2 -> [(Program,UniformLocation)] -> IO ()
{-# INLINE setShaderUniforms #-}
setShaderUniforms rot czoom (tranx,trany) (winx,winy) fss = do
let scalMat = Linear.Matrix.transpose $
V4 (V4 (2*czoom/winx) 0 0 (0::GLfloat))
(V4 0 (2*czoom/winy) 0 0)
(V4 0 0 1 0)
(V4 0 0 0 1)
let rotMat = Linear.Matrix.transpose $
V4 (V4 (cos rot) (sin (-rot)) 0 0)
(V4 (sin rot) (cos rot) 0 0)
(V4 0 0 1 0)
(V4 0 0 0 1)
let tranMat = Linear.Matrix.transpose $
V4 (V4 1 0 0 0)
(V4 0 1 0 0)
(V4 0 0 1 0)
(V4 (-tranx) (-trany) 0 1)
let wmat = scalMat !*! rotMat !*! tranMat
vToL (V4 a b c d) = [a,b,c,d]
wmata <- (newMatrix RowMajor $ concatMap vToL $ vToL wmat) :: IO (GLmatrix GLfloat)
-- set common uniforms
forM_ fss $ \shad -> do
currentProgram $= Just (fst shad)
uniform (snd shad) $= wmata
setPerpMatUniform
:: Float -- ^ rotation
-> Float -- ^ zoom
-> Point2 -- ^ translation
-> Point2 -- ^ window size
-> Point2 -- ^ viewfrom point
-> FullShader
-> IO ()
setPerpMatUniform rot czoom trans wins vFrom shad = do
pmat <- (newMatrix RowMajor $ perspectiveMatrix rot czoom trans wins vFrom) :: IO (GLmatrix GLfloat)
currentProgram $= Just (_shaderProgram shad)
uniform (_shaderMatrixUniform shad) $= pmat
return ()
freeShaderPointers :: FullShader -> IO ()
freeShaderPointers fs = free $ _vboPointer $ _vaoVBO $ _shaderVAO fs