(bump to 0.4.2, and change Float to GLfloat)
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== About ==
== About ==
Revision as of 09:40, 30 January 2011
This is a Haskell module for GLFW OpenGL framework. It provides an alternative to GLUT for OpenGL based Haskell programs.
The library is being used by the Haskell School of Expression (SOE) code to render Graphics in a cross-platform manner. It currently interfaces with GLFW version 2.6, works on Windows, Linux (i386) and Mac OS X (both intel and ppc).
GLFW itself is well documented (see GLFW website), and the Haskell module API is documented via Haddock.
Not all functions are fully tested, and there are still a few GLFW C functions missing from the Haskell module, namely the image loading functions. They are excluded because image handling is a separate issue, and low level buffer manipulation would obscure their use further. Texture loading from TGA format is supported both from file and from memory (via a string buffer)..
The Haskell module also provides basic text rendering while GLFW doesn't. It comes from a free 8x16 font which is made into a TGA texture, stored as a Haskell string in the file GLFW.hs. Text rendering is only possible with Alpha enabled. Again, see SOE.hs from the SOE package for sample usage.
GLFW doesn't work well with GHC threads, forkIO or threadDelay. So avoid them if you can.
Current version is GLFW-0.4.2. It's a repackage to work with Cabal 1.2 or later. It now compiles GLFW C source code as part of the building process, please report to the package maintainer if you have build problems.
4 More information
5 Sample Program
To demonstrate the usage of GLFW for OpenGL based Haskell applications, here is a sample program that allows user to draw lines by holding the left mouse button and move the mouse.
import Graphics.Rendering.OpenGL as GL import Graphics.UI.GLFW as GLFW import Graphics.Rendering.OpenGL (($=)) import Data.IORef import Control.Monad
data Action = Action (IO Action)
The main program is mostly book-keeping such as initializing OpenGL and GLFW, creating window, setting up viewport, etc.
main = do GLFW.initialize -- open window GLFW.openWindow (GL.Size 400 400) [GLFW.DisplayAlphaBits 8] GLFW.Window GLFW.windowTitle $= "GLFW Demo" GL.shadeModel $= GL.Smooth -- enable antialiasing GL.lineSmooth $= GL.Enabled GL.blend $= GL.Enabled GL.blendFunc $= (GL.SrcAlpha, GL.OneMinusSrcAlpha) GL.lineWidth $= 1.5 -- set the color to clear background GL.clearColor $= Color4 0 0 0 0 -- set 2D orthogonal view inside windowSizeCallback because -- any change to the Window size should result in different -- OpenGL Viewport. GLFW.windowSizeCallback $= \ size@(GL.Size w h) -> do GL.viewport $= (GL.Position 0 0, size) GL.matrixMode $= GL.Projection GL.loadIdentity GL.ortho2D 0 (realToFrac w) (realToFrac h) 0 -- keep all line strokes as a list of points in an IORef lines <- newIORef  -- invoke the active drawing loop active lines -- finish up GLFW.closeWindow GLFW.terminate
-- we start with waitForPress action active lines = loop waitForPress where loop action = do -- draw the entire screen render lines -- swap buffer GLFW.swapBuffers -- check whether ESC is pressed for termination p <- GLFW.getKey GLFW.ESC unless (p == GLFW.Press) $ do -- perform action Action action' <- action -- sleep for 1ms to yield CPU to other applications GLFW.sleep 0.001 -- only continue when the window is not closed windowOpenStatus <- get $ windowParam Opened unless (windowOpenStatus == 0) $ loop action' -- loop with next action waitForPress = do b <- GLFW.getMouseButton GLFW.ButtonLeft case b of GLFW.Release -> return (Action waitForPress) GLFW.Press -> do -- when left mouse button is pressed, add the point -- to lines and switch to waitForRelease action. (GL.Position x y) <- GL.get GLFW.mousePos modifyIORef lines (((x,y):) . ((x,y):)) return (Action waitForRelease) waitForRelease = do -- keep track of mouse movement while waiting for button -- release (GL.Position x y) <- GL.get GLFW.mousePos -- update the line with new ending position modifyIORef lines (((x,y):) . tail) b <- GLFW.getMouseButton GLFW.ButtonLeft case b of -- when button is released, switch back back to -- waitForPress action GLFW.Release -> return (Action waitForPress) GLFW.Press -> return (Action waitForRelease)
Another optimization we can do is to use a dirty marker to remember whether the screen really needs to be redrawn. This'll not only save CPU cycles but also speed up event processing to avoid piling up events in the event queue. Similar tricks can be done to optimize the active polling approach.
passive lines = do -- disable auto polling in swapBuffers GLFW.disableSpecial GLFW.AutoPollEvent -- keep track of whether ESC has been pressed quit <- newIORef False -- keep track of whether screen needs to be redrawn dirty <- newIORef True -- mark screen dirty in refresh callback which is often called -- when screen or part of screen comes into visibility. GLFW.windowRefreshCallback $= writeIORef dirty True -- use key callback to track whether ESC is pressed GLFW.keyCallback $= \k s -> when (fromEnum k == fromEnum GLFW.ESC && s == GLFW.Press) $ writeIORef quit True -- Terminate the program if the window is closed GLFW.windowCloseCallback $= writeIORef quit True -- by default start with waitForPress waitForPress dirty loop dirty quit where loop dirty quit = do GLFW.waitEvents -- redraw screen if dirty d <- readIORef dirty when d $ render lines >> GLFW.swapBuffers writeIORef dirty False -- check if we need to quit the loop q <- readIORef quit unless q $ loop dirty quit waitForPress dirty = do GLFW.mousePosCallback $= \_ -> return () GLFW.mouseButtonCallback $= \b s -> when (b == GLFW.ButtonLeft && s == GLFW.Press) $ do -- when left mouse button is pressed, add the point -- to lines and switch to waitForRelease action. (GL.Position x y) <- GL.get GLFW.mousePos modifyIORef lines (((x,y):) . ((x,y):)) waitForRelease dirty waitForRelease dirty = do GLFW.mousePosCallback $= \(Position x y) -> do -- update the line with new ending position modifyIORef lines (((x,y):) . tail) -- mark screen dirty writeIORef dirty True GLFW.mouseButtonCallback $= \b s -> -- when left mouse button is released, switch back to -- waitForPress action. when (b == GLFW.ButtonLeft && s == GLFW.Release) $ waitForPress dirty
The rest of the program goes below.
render lines = do l <- readIORef lines GL.clear [GL.ColorBuffer] GL.color $ color3 1 0 0 GL.renderPrimitive GL.Lines $ mapM_ (\ (x, y) -> GL.vertex (vertex3 (fromIntegral x) (fromIntegral y) 0)) l vertex3 :: GLfloat -> GLfloat -> GLfloat -> GL.Vertex3 GLfloat vertex3 = GL.Vertex3 color3 :: GLfloat -> GLfloat -> GLfloat -> GL.Color3 GLfloat color3 = GL.Color3