-------------------------------------------------------------------------------- -- | -- Module : Graphics.UI.GLUT.Window -- Copyright : (c) Sven Panne 2002-2013 -- License : BSD3 -- -- Maintainer : Sven Panne <svenpanne@gmail.com> -- Stability : stable -- Portability : portable -- -- GLUT supports two types of windows: top-level windows and subwindows. Both -- types support OpenGL rendering and GLUT callbacks. There is a single -- identifier space for both types of windows. -- -------------------------------------------------------------------------------- module Graphics.UI.GLUT.Window ( -- * Window identifiers Window, -- * Creating and destroying (sub-)windows -- $CreatingAndDestroyingSubWindows createWindow, createSubWindow, destroyWindow, parentWindow, numSubWindows, -- * Manipulating the /current window/ currentWindow, -- * Re-displaying and double buffer management postRedisplay, swapBuffers, -- * Changing the window geometry -- $ChangingTheWindowGeometry windowPosition, windowSize, fullScreen, fullScreenToggle, leaveFullScreen, -- * Manipulating the stacking order -- $ManipulatingTheStackingOrder pushWindow, popWindow, -- * Managing a window\'s display status WindowStatus(..), windowStatus, -- * Changing the window\/icon title -- $ChangingTheWindowIconTitle windowTitle, iconTitle, -- * Cursor management Cursor(..), cursor, pointerPosition ) where import Control.Monad.IO.Class ( MonadIO(..) ) import Data.StateVar ( GettableStateVar, makeGettableStateVar , SettableStateVar, makeSettableStateVar , StateVar, makeStateVar ) import Foreign.C.String ( withCString ) import Foreign.C.Types ( CInt ) import Graphics.Rendering.OpenGL ( Position(..), Size(..) ) import Graphics.UI.GLUT.QueryUtils import Graphics.UI.GLUT.Raw import Graphics.UI.GLUT.Types -------------------------------------------------------------------------------- -- $CreatingAndDestroyingSubWindows -- Each created window has a unique associated OpenGL context. State changes to -- a window\'s associated OpenGL context can be done immediately after the -- window is created. -- -- The /display state/ of a window is initially for the window to be shown. But -- the window\'s /display state/ is not actually acted upon until -- 'Graphics.UI.GLUT.Begin.mainLoop' is entered. This means until -- 'Graphics.UI.GLUT.Begin.mainLoop' is called, rendering to a created window is -- ineffective because the window can not yet be displayed. -- -- The value returned by 'createWindow' and 'createSubWindow' is a unique -- identifier for the window, which can be used with 'currentWindow'. -- | Create a top-level window. The given name will be provided to the window -- system as the window\'s name. The intent is that the window system will label -- the window with the name.Implicitly, the /current window/ is set to the newly -- created window. -- -- /X Implementation Notes:/ The proper X Inter-Client Communication Conventions -- Manual (ICCCM) top-level properties are established. The @WM_COMMAND@ -- property that lists the command line used to invoke the GLUT program is only -- established for the first window created. createWindow :: MonadIO m => String -- ^ The window name -> m Window -- ^ The identifier for the newly created window createWindow name = liftIO $ fmap Window $ withCString name glutCreateWindow -------------------------------------------------------------------------------- -- | Create a subwindow of the identified window with the given relative -- position and size. Implicitly, the /current window/ is set to the -- newly created subwindow. Subwindows can be nested arbitrarily deep. createSubWindow :: MonadIO m => Window -- ^ Identifier of the subwindow\'s parent window. -> Position -- ^ Window position in pixels relative to parent window\'s -- origin. -> Size -- ^ Window size in pixels -> m Window -- ^ The identifier for the newly created subwindow createSubWindow (Window win) (Position x y) (Size w h) = do s <- glutCreateSubWindow win (fromIntegral x) (fromIntegral y) (fromIntegral w) (fromIntegral h) return $ Window s -------------------------------------------------------------------------------- -- | Contains the /current window\'s/ parent. If the /current window/ is a -- top-level window, 'Nothing' is returned. parentWindow :: GettableStateVar (Maybe Window) parentWindow = makeGettableStateVar $ getWindow (simpleGet Window glut_WINDOW_PARENT) -------------------------------------------------------------------------------- -- | Contains the number of subwindows the /current window/ has, not counting -- children of children. numSubWindows :: GettableStateVar Int numSubWindows = makeGettableStateVar $ simpleGet fromIntegral glut_WINDOW_NUM_CHILDREN -------------------------------------------------------------------------------- -- | Destroy the specified window and the window\'s associated OpenGL context, -- logical colormap (if the window is color index), and overlay and related -- state (if an overlay has been established). Any subwindows of the destroyed -- window are also destroyed by 'destroyWindow'. If the specified window was the -- /current window/, the /current window/ becomes invalid ('currentWindow' will -- contain 'Nothing'). destroyWindow :: MonadIO m => Window -> m () destroyWindow (Window win) = glutDestroyWindow win -------------------------------------------------------------------------------- -- | Controls the /current window/. It does /not/ affect the /layer in use/ for -- the window; this is done using 'Graphics.UI.GLUT.Overlay.layerInUse'. -- Contains 'Nothing' if no windows exist or the previously /current window/ was -- destroyed. Setting the /current window/ to 'Nothing' is a no-op. currentWindow :: StateVar (Maybe Window) currentWindow = makeStateVar (getWindow (fmap Window glutGetWindow)) (maybe (return ()) (\(Window win) -> glutSetWindow win)) getWindow :: IO Window -> IO (Maybe Window) getWindow act = do win <- act return $ if win == Window 0 then Nothing else Just win -------------------------------------------------------------------------------- -- | Mark the normal plane of given window (or the /current window/, if none -- is supplied) as needing to be redisplayed. The next iteration through -- 'Graphics.UI.GLUT.Begin.mainLoop', the window\'s display callback will be -- called to redisplay the window\'s normal plane. Multiple calls to -- 'postRedisplay' before the next display callback opportunity generates only a -- single redisplay callback. 'postRedisplay' may be called within a window\'s -- display or overlay display callback to re-mark that window for redisplay. -- -- Logically, normal plane damage notification for a window is treated as a -- 'postRedisplay' on the damaged window. Unlike damage reported by the window -- system, 'postRedisplay' will /not/ set to true the normal plane\'s damaged -- status (see 'Graphics.UI.GLUT.State.damaged'). -- -- Also, see 'Graphics.UI.GLUT.Overlay.postOverlayRedisplay'. postRedisplay :: MonadIO m => Maybe Window -> m () postRedisplay = maybe glutPostRedisplay (\(Window win) -> glutPostWindowRedisplay win) -- | Mark the normal plane of the given window as needing to be redisplayed, -- otherwise the same as 'postRedisplay'. -- -- The advantage of this routine is that it saves the cost of using -- 'currentWindow' (entailing an expensive OpenGL context switch), which is -- particularly useful when multiple windows need redisplays posted at the same -- time. -------------------------------------------------------------------------------- -- | Perform a buffer swap on the /layer in use/ for the /current window/. -- Specifically, 'swapBuffers' promotes the contents of the back buffer of the -- /layer in use/ of the /current window/ to become the contents of the front -- buffer. The contents of the back buffer then become undefined. The update -- typically takes place during the vertical retrace of the monitor, rather than -- immediately after 'swapBuffers' is called. -- -- An implicit 'Graphics.Rendering.OpenGL.GL.FlushFinish.flush' is done by -- 'swapBuffers' before it returns. Subsequent OpenGL commands can be issued -- immediately after calling 'swapBuffers', but are not executed until the -- buffer exchange is completed. -- -- If the /layer in use/ is not double buffered, 'swapBuffers' has no effect. swapBuffers :: MonadIO m => m () swapBuffers = glutSwapBuffers -------------------------------------------------------------------------------- -- $ChangingTheWindowGeometry -- Note that the requests by 'windowPosition', 'windowSize', and 'fullScreen' -- are not processed immediately. A request is executed after returning to the -- main event loop. This allows multiple requests to the same window to be -- coalesced. -- -- 'windowPosition' and 'windowSize' requests on a window will disable the full -- screen status of the window. -------------------------------------------------------------------------------- -- | Controls the position of the /current window/. For top-level windows, -- parameters of 'Position' are pixel offsets from the screen origin. For -- subwindows, the parameters are pixel offsets from the window\'s parent window -- origin. -- -- In the case of top-level windows, setting 'windowPosition' is considered only -- a request for positioning the window. The window system is free to apply its -- own policies to top-level window placement. The intent is that top-level -- windows should be repositioned according to the value of 'windowPosition'. windowPosition :: StateVar Position windowPosition = makeStateVar getWindowPosition setWindowPosition setWindowPosition :: Position -> IO () setWindowPosition (Position x y) = glutPositionWindow (fromIntegral x) (fromIntegral y) getWindowPosition :: IO Position getWindowPosition = do x <- simpleGet fromIntegral glut_WINDOW_X y <- simpleGet fromIntegral glut_WINDOW_Y return $ Position x y -------------------------------------------------------------------------------- -- | Controls the size of the /current window/. The parameters of 'Size' are -- size extents in pixels. The width and height must be positive values. -- -- In the case of top-level windows, setting 'windowSize' is considered only a -- request for sizing the window. The window system is free to apply its own -- policies to top-level window sizing. The intent is that top-level windows -- should be reshaped according to the value of 'windowSize'. Whether a reshape -- actually takes effect and, if so, the reshaped dimensions are reported to the -- program by a reshape callback. windowSize :: StateVar Size windowSize = makeStateVar getWindowSize setWindowSize setWindowSize :: Size -> IO () setWindowSize (Size w h) = glutReshapeWindow (fromIntegral w) (fromIntegral h) getWindowSize :: IO Size getWindowSize = do w <- simpleGet fromIntegral glut_WINDOW_WIDTH h <- simpleGet fromIntegral glut_WINDOW_HEIGHT return $ Size w h -------------------------------------------------------------------------------- -- | Request that the /current window/ be made full screen. The exact semantics -- of what full screen means may vary by window system. The intent is to make -- the window as large as possible and disable any window decorations or borders -- added the window system. The window width and height are not guaranteed to be -- the same as the screen width and height, but that is the intent of making a -- window full screen. -- -- 'fullScreen' is defined to work only on top-level windows. -- -- /X Implementation Notes:/ In the X implementation of GLUT, full screen is -- implemented by sizing and positioning the window to cover the entire screen -- and posting the @_MOTIF_WM_HINTS@ property on the window requesting -- absolutely no decorations. Non-Motif window managers may not respond to -- @_MOTIF_WM_HINTS@. fullScreen :: MonadIO m => m () fullScreen = glutFullScreen -------------------------------------------------------------------------------- -- | (/freeglut only/) Toggle between windowed and full screen mode. fullScreenToggle :: MonadIO m => m () fullScreenToggle = glutFullScreenToggle -------------------------------------------------------------------------------- -- | (/freeglut only/) If we are in full screen mode, resize the current window -- back to its original size. leaveFullScreen :: MonadIO m => m () leaveFullScreen = glutLeaveFullScreen -------------------------------------------------------------------------------- -- $ManipulatingTheStackingOrder -- 'pushWindow' and 'popWindow' work on both top-level windows and subwindows. -- The effect of pushing and popping windows does not take place immediately. -- Instead the push or pop is saved for execution upon return to the GLUT event -- loop. Subsequent pop or push requests on a window replace the previously -- saved request for that window. The effect of pushing and popping top-level -- windows is subject to the window system\'s policy for restacking windows. -- | Change the stacking order of the /current window/ relative to its siblings -- (lowering it). pushWindow :: MonadIO m => m () pushWindow = glutPushWindow -- | Change the stacking order of the /current window/ relative to its siblings, -- bringing the /current window/ closer to the top. popWindow :: MonadIO m => m () popWindow = glutPopWindow -------------------------------------------------------------------------------- -- | The display status of a window. data WindowStatus = Shown | Hidden | Iconified deriving ( Eq, Ord, Show ) -- | Controls the display status of the /current window/. -- -- Note that the effect of showing, hiding, and iconifying windows does not take -- place immediately. Instead the requests are saved for execution upon return -- to the GLUT event loop. Subsequent show, hide, or iconification requests on a -- window replace the previously saved request for that window. The effect of -- hiding, showing, or iconifying top-level windows is subject to the window -- system\'s policy for displaying windows. Subwindows can\'t be iconified. windowStatus :: SettableStateVar WindowStatus windowStatus = makeSettableStateVar setStatus where setStatus Shown = glutShowWindow setStatus Hidden = glutHideWindow setStatus Iconified = glutIconifyWindow -------------------------------------------------------------------------------- -- $ChangingTheWindowIconTitle -- 'windowTitle' and 'iconTitle' should be set only when the /current -- window/ is a top-level window. Upon creation of a top-level window, the -- window and icon names are determined by the name given to 'createWindow'. -- Once created, setting 'windowTitle' and 'iconTitle' can change the window and -- icon names respectively of top-level windows. Each call requests the window -- system change the title appropriately. Requests are not buffered or -- coalesced. The policy by which the window and icon name are displayed is -- window system dependent. -- | Controls the window title of the /current top-level window/. windowTitle :: SettableStateVar String windowTitle = makeSettableStateVar $ \name -> withCString name glutSetWindowTitle -- | Controls the icon title of the /current top-level window/. iconTitle :: SettableStateVar String iconTitle = makeSettableStateVar $ \name -> withCString name glutSetIconTitle -------------------------------------------------------------------------------- -- | The different cursor images GLUT supports. data Cursor = RightArrow -- ^ Arrow pointing up and to the right. | LeftArrow -- ^ Arrow pointing up and to the left. | Info -- ^ Pointing hand. | Destroy -- ^ Skull & cross bones. | Help -- ^ Question mark. | Cycle -- ^ Arrows rotating in a circle. | Spray -- ^ Spray can. | Wait -- ^ Wrist watch. | Text -- ^ Insertion point cursor for text. | Crosshair -- ^ Simple cross-hair. | UpDown -- ^ Bi-directional pointing up & down. | LeftRight -- ^ Bi-directional pointing left & right. | TopSide -- ^ Arrow pointing to top side. | BottomSide -- ^ Arrow pointing to bottom side. | LeftSide -- ^ Arrow pointing to left side. | RightSide -- ^ Arrow pointing to right side. | TopLeftCorner -- ^ Arrow pointing to top-left corner. | TopRightCorner -- ^ Arrow pointing to top-right corner. | BottomRightCorner -- ^ Arrow pointing to bottom-left corner. | BottomLeftCorner -- ^ Arrow pointing to bottom-right corner. | Inherit -- ^ Use parent\'s cursor. | None -- ^ Invisible cursor. | FullCrosshair -- ^ Full-screen cross-hair cursor (if possible, otherwise 'Crosshair'). deriving ( Eq, Ord, Show ) marshalCursor :: Cursor -> CInt marshalCursor x = case x of RightArrow -> glut_CURSOR_RIGHT_ARROW LeftArrow -> glut_CURSOR_LEFT_ARROW Info -> glut_CURSOR_INFO Destroy -> glut_CURSOR_DESTROY Help -> glut_CURSOR_HELP Cycle -> glut_CURSOR_CYCLE Spray -> glut_CURSOR_SPRAY Wait -> glut_CURSOR_WAIT Text -> glut_CURSOR_TEXT Crosshair -> glut_CURSOR_CROSSHAIR UpDown -> glut_CURSOR_UP_DOWN LeftRight -> glut_CURSOR_LEFT_RIGHT TopSide -> glut_CURSOR_TOP_SIDE BottomSide -> glut_CURSOR_BOTTOM_SIDE LeftSide -> glut_CURSOR_LEFT_SIDE RightSide -> glut_CURSOR_RIGHT_SIDE TopLeftCorner -> glut_CURSOR_TOP_LEFT_CORNER TopRightCorner -> glut_CURSOR_TOP_RIGHT_CORNER BottomRightCorner -> glut_CURSOR_BOTTOM_RIGHT_CORNER BottomLeftCorner -> glut_CURSOR_BOTTOM_LEFT_CORNER Inherit -> glut_CURSOR_INHERIT None -> glut_CURSOR_NONE FullCrosshair -> glut_CURSOR_FULL_CROSSHAIR unmarshalCursor :: CInt -> Cursor unmarshalCursor x | x == glut_CURSOR_RIGHT_ARROW = RightArrow | x == glut_CURSOR_LEFT_ARROW = LeftArrow | x == glut_CURSOR_INFO = Info | x == glut_CURSOR_DESTROY = Destroy | x == glut_CURSOR_HELP = Help | x == glut_CURSOR_CYCLE = Cycle | x == glut_CURSOR_SPRAY = Spray | x == glut_CURSOR_WAIT = Wait | x == glut_CURSOR_TEXT = Text | x == glut_CURSOR_CROSSHAIR = Crosshair | x == glut_CURSOR_UP_DOWN = UpDown | x == glut_CURSOR_LEFT_RIGHT = LeftRight | x == glut_CURSOR_TOP_SIDE = TopSide | x == glut_CURSOR_BOTTOM_SIDE = BottomSide | x == glut_CURSOR_LEFT_SIDE = LeftSide | x == glut_CURSOR_RIGHT_SIDE = RightSide | x == glut_CURSOR_TOP_LEFT_CORNER = TopLeftCorner | x == glut_CURSOR_TOP_RIGHT_CORNER = TopRightCorner | x == glut_CURSOR_BOTTOM_RIGHT_CORNER = BottomRightCorner | x == glut_CURSOR_BOTTOM_LEFT_CORNER = BottomLeftCorner | x == glut_CURSOR_INHERIT = Inherit | x == glut_CURSOR_NONE = None | x == glut_CURSOR_FULL_CROSSHAIR = FullCrosshair | otherwise = error ("unmarshalCursor: illegal value " ++ show x) -------------------------------------------------------------------------------- -- | Change the cursor image of the /current window/. Each call requests the -- window system change the cursor appropriately. The cursor image when a window -- is created is 'Inherit'. The exact cursor images used are implementation -- dependent. The intent is for the image to convey the meaning of the cursor -- name. For a top-level window, 'Inherit' uses the default window system -- cursor. -- -- /X Implementation Notes:/ GLUT for X uses SGI\'s @_SGI_CROSSHAIR_CURSOR@ -- convention to access a full-screen cross-hair cursor if possible. cursor :: StateVar Cursor cursor = makeStateVar getCursor setCursor setCursor :: Cursor -> IO () setCursor = glutSetCursor . marshalCursor getCursor :: IO Cursor getCursor = simpleGet unmarshalCursor glut_WINDOW_CURSOR -------------------------------------------------------------------------------- -- | Setting 'pointerPosition' warps the window system\'s pointer to a new -- location relative to the origin of the /current window/ by the specified -- pixel offset, which may be negative. The warp is done immediately. -- -- If the pointer would be warped outside the screen\'s frame buffer region, the -- location will be clamped to the nearest screen edge. The window system is -- allowed to further constrain the pointer\'s location in window system -- dependent ways. -- -- Good advice from Xlib\'s @XWarpPointer@ man page: \"There is seldom any -- reason for calling this function. The pointer should normally be left to the -- user.\" pointerPosition :: SettableStateVar Position pointerPosition = makeSettableStateVar $ \(Position x y) -> glutWarpPointer (fromIntegral x) (fromIntegral y)