#include "config.h"
#endif
-#include "../include/GL/freeglut.h"
+#include <GL/freeglut.h>
#include "freeglut_internal.h"
#include <limits.h>
#elif TARGET_HOST_WIN32
{
- RECT winRect;
- int x, y;
+ RECT rect;
- GetWindowRect( window->Window.Handle, &winRect );
- x = winRect.left;
- y = winRect.top;
+ /*
+ * For windowed mode, get the current position of the
+ * window and resize taking the size of the frame
+ * decorations into account.
+ */
+
+ GetWindowRect( window->Window.Handle, &rect );
+ rect.right = rect.left + width;
+ rect.bottom = rect.top + height;
if ( window->Parent == NULL )
{
- /*
- * Adjust the size of the window to allow for the size of the
- * frame, if we are not a menu
- */
- if ( ! window->IsMenu )
+ if ( ! window->IsMenu && !window->State.IsGameMode )
{
- width += GetSystemMetrics( SM_CXSIZEFRAME ) * 2;
- height += GetSystemMetrics( SM_CYSIZEFRAME ) * 2 +
- GetSystemMetrics( SM_CYCAPTION );
+ rect.right += GetSystemMetrics( SM_CXSIZEFRAME ) * 2;
+ rect.bottom += GetSystemMetrics( SM_CYSIZEFRAME ) * 2 +
+ GetSystemMetrics( SM_CYCAPTION );
}
}
else
{
- GetWindowRect( window->Parent->Window.Handle,
- &winRect );
- x -= winRect.left + GetSystemMetrics( SM_CXSIZEFRAME );
- y -= winRect.top + GetSystemMetrics( SM_CYSIZEFRAME ) +
- GetSystemMetrics( SM_CYCAPTION );
+ GetWindowRect( window->Parent->Window.Handle, &rect );
+ AdjustWindowRect ( &rect, WS_OVERLAPPEDWINDOW | WS_CLIPSIBLINGS |
+ WS_CLIPCHILDREN, FALSE );
}
- MoveWindow(
- window->Window.Handle,
- x,
- y,
- width,
- height,
- TRUE
+ /*
+ * SWP_NOACTIVATE Do not activate the window
+ * SWP_NOOWNERZORDER Do not change position in z-order
+ * SWP_NOSENDCHANGING Supress WM_WINDOWPOSCHANGING message
+ * SWP_NOZORDER Retains the current Z order (ignore 2nd param)
+ */
+
+ SetWindowPos( window->Window.Handle,
+ HWND_TOP,
+ rect.left,
+ rect.top,
+ rect.right - rect.left,
+ rect.bottom - rect.top,
+ SWP_NOACTIVATE | SWP_NOOWNERZORDER | SWP_NOSENDCHANGING |
+ SWP_NOZORDER
);
}
+ /*
+ * XXX Should update {window->State.OldWidth, window->State.OldHeight}
+ * XXX to keep in lockstep with UNIX_X11 code.
+ */
if( FETCH_WCB( *window, Reshape ) )
INVOKE_WCB( *window, Reshape, ( width, height ) );
else
fgSetWindow( window );
- fghReshapeWindowByHandle(
+ fghReshapeWindowByHandle(
window->Window.Handle,
window->State.Width,
window->State.Height
);
window->State.NeedToResize = GL_FALSE;
- fgSetWindow ( current_window );
+ fgSetWindow( current_window );
}
INVOKE_WCB( *window, Display, ( ) );
static void fghcbDisplayWindow( SFG_Window *window,
SFG_Enumerator *enumerator )
{
- if( window->State.Redisplay &&
- window->State.Visible )
+ if( window->State.NeedToResize )
{
- /*
- * XXX Resizing should *not* depend upon whether there
- * XXX is a pending redisplay flag, as far as I can tell.
- * XXX
- * XXX Note, too, that the {NeedToResize} flag is a little
- * XXX fuzzy in its meaning, since for WIN32, this also
- * XXX means "we need to tell the application that the window has
- * XXX changed size", while in X11, it only means "we need
- * XXX to ask the window system to resize the window.
- * XXX Splitting the flag's meaning might be desirable, but
- * XXX that could complicate the code more. (On X11, the
- * XXX user callback is called as soon as the event is
- * XXX discovered, but resizing the window is postponed
- * XXX until after other events.)
- */
- if( window->State.NeedToResize )
- {
- SFG_Window *current_window = fgStructure.Window;
+ SFG_Window *current_window = fgStructure.Window;
- fgSetWindow( window );
+ fgSetWindow( window );
- fghReshapeWindowByHandle(
- window->Window.Handle,
- window->State.Width,
- window->State.Height
- );
+ fghReshapeWindowByHandle(
+ window->Window.Handle,
+ window->State.Width,
+ window->State.Height
+ );
- window->State.NeedToResize = GL_FALSE;
- fgSetWindow ( current_window );
- }
+ window->State.NeedToResize = GL_FALSE;
+ fgSetWindow ( current_window );
+ }
+ if( window->State.Redisplay &&
+ window->State.Visible )
+ {
window->State.Redisplay = GL_FALSE;
#if TARGET_HOST_UNIX_X11
}
#elif TARGET_HOST_WIN32
RedrawWindow(
- window->Window.Handle, NULL, NULL,
+ window->Window.Handle, NULL, NULL,
RDW_NOERASE | RDW_INTERNALPAINT | RDW_INVALIDATE | RDW_UPDATENOW
);
#endif
static void fghCheckTimers( void )
{
long checkTime = fgElapsedTime( );
- SFG_Timer *timer;
- while( timer = fgState.Timers.First )
+ while( fgState.Timers.First )
{
+ SFG_Timer *timer = fgState.Timers.First;
+
if( timer->TriggerTime > checkTime )
break;
* Indicates whether Joystick events are being used by ANY window.
*
* The current mechanism is to walk all of the windows and ask if
- * there is a joystick callback. Certainly in some cases, maybe
- * in all cases, the joystick is attached to the system and accessed
- * from ONE point by GLUT/freeglut, so this is not the right way,
- * in general, to do this. However, the Joystick code is segregated
- * in its own little world, so we can't access the information that
- * we need in order to do that nicely.
+ * there is a joystick callback. We have a short-circuit early
+ * return if we find any joystick handler registered.
*
- * Some alternatives:
- * * Store Joystick data into freeglut global state.
- * * Provide NON-static functions or data from Joystick *.c file.
- *
- * Basically, the RIGHT way to do this requires knowing something
- * about the Joystick. Right now, the Joystick code is behind
- * an opaque wall.
+ * The real way to do this is to make use of the glutTimer() API
+ * to more cleanly re-implement the joystick API. Then, this code
+ * and all other "joystick timer" code can be yanked.
*
*/
static void fgCheckJoystickCallback( SFG_Window* w, SFG_Enumerator* e)
e->data = w;
}
fgEnumSubWindows( w, fgHavePendingRedisplaysCallback, e );
-}
+}
static int fgHavePendingRedisplays (void)
{
SFG_Enumerator enumerator;
*/
static void fgSleepForEvents( void )
{
-#if TARGET_HOST_UNIX_X11
- fd_set fdset;
- int err;
- int socket;
- struct timeval wait;
- long msec;
-
+ long msec;
+
if( fgState.IdleCallback || fgHavePendingRedisplays( ) )
return;
- socket = ConnectionNumber( fgDisplay.Display );
- FD_ZERO( &fdset );
- FD_SET( socket, &fdset );
-
- msec = fgNextTimer( );
- if( fgHaveJoystick( ) )
- msec = MIN( msec, 10 );
- wait.tv_sec = msec / 1000;
- wait.tv_usec = (msec % 1000) * 1000;
- err = select( socket+1, &fdset, NULL, NULL, &wait );
+ msec = fgNextTimer( );
+ if( fgHaveJoystick( ) ) /* XXX Use GLUT timers for joysticks... */
+ msec = MIN( msec, 10 ); /* XXX Dumb; forces granularity to .01sec */
- if( -1 == err )
- fgWarning ( "freeglut select() error: %d\n", errno );
-
+#if TARGET_HOST_UNIX_X11
+ /*
+ * Possibly due to aggressive use of XFlush() and friends,
+ * it is possible to have our socket drained but still have
+ * unprocessed events. (Or, this may just be normal with
+ * X, anyway?) We do non-trivial processing of X events
+ * after tham in event-reading loop, in any case, so we
+ * need to allow that we may have an empty socket but non-
+ * empty event queue.
+ */
+ if( ! XPending( fgDisplay.Display ) )
+ {
+ fd_set fdset;
+ int err;
+ int socket;
+ struct timeval wait;
+
+ socket = ConnectionNumber( fgDisplay.Display );
+ FD_ZERO( &fdset );
+ FD_SET( socket, &fdset );
+ wait.tv_sec = msec / 1000;
+ wait.tv_usec = (msec % 1000) * 1000;
+ err = select( socket+1, &fdset, NULL, NULL, &wait );
+
+ if( -1 == err )
+ fgWarning ( "freeglut select() error: %d\n", errno );
+ }
#elif TARGET_HOST_WIN32
+ MsgWaitForMultipleObjects( 0, NULL, FALSE, msec, QS_ALLEVENTS );
#endif
}
ret |= GLUT_ACTIVE_CTRL;
if( event->xkey.state & Mod1Mask )
ret |= GLUT_ACTIVE_ALT;
-
+
return ret;
}
#endif
*/
if( (Atom) event.xclient.data.l[ 0 ] == fgDisplay.DeleteWindow )
{
- GETWINDOW( xclient );
+ GETWINDOW( xclient );
fgDestroyWindow ( window );
* (in freeglut only) will not get an initial reshape event,
* which can break things.
*
- * XXX NOTE that it is possible that you will more than one Reshape
- * XXX event for your top-level window, but something like this
- * XXX appears to be required for compatbility.
- *
* GLUT presumably does this because it generally tries to treat
* sub-windows the same as windows.
+ *
+ * XXX Technically, GETWINDOW( xconfigure ) and
+ * XXX {event.xconfigure} may not be legit ways to get at
+ * XXX data for CreateNotify events. In practice, the data
+ * XXX is in a union which is laid out much the same either
+ * XXX way. But if you want to split hairs, this isn't legit,
+ * XXX and we should instead duplicate some code.
*/
case CreateNotify:
case ConfigureNotify:
int width = event.xconfigure.width;
int height = event.xconfigure.height;
- GETWINDOW( xconfigure );
- if( FETCH_WCB( *window, Reshape ) )
- INVOKE_WCB( *window, Reshape, ( width, height ) );
- else
+ if( ( width != window->State.OldWidth ) ||
+ ( height != window->State.OldHeight ) )
{
- fgSetWindow( window );
- glViewport( 0, 0, width, height );
+ window->State.OldWidth = width;
+ window->State.OldHeight = height;
+ if( FETCH_WCB( *window, Reshape ) )
+ INVOKE_WCB( *window, Reshape, ( width, height ) );
+ else
+ {
+ fgSetWindow( window );
+ glViewport( 0, 0, width, height );
+ }
+ glutPostRedisplay( );
}
}
break;
case DestroyNotify:
/*
* This is sent to confirm the XDestroyWindow call.
+ *
* XXX WHY is this commented out? Should we re-enable it?
*/
/* fgAddToWindowDestroyList ( window ); */
case Expose:
/*
* We are too dumb to process partial exposes...
+ *
* XXX Well, we could do it. However, it seems to only
* XXX be potentially useful for single-buffered (since
* XXX double-buffered does not respect viewport when we
* XXX do a buffer-swap).
+ *
*/
if( event.xexpose.count == 0 )
- fghRedrawWindowByHandle( event.xexpose.window );
+ {
+ GETWINDOW( xexpose );
+ fgSetWindow( window );
+ glutPostRedisplay( );
+ }
break;
case MapNotify:
case VisibilityNotify:
{
- GETWINDOW( xvisibility );
+ GETWINDOW( xvisibility );
+ /*
+ * XXX INVOKE_WCB() does this check for us.
+ */
if( ! FETCH_WCB( *window, WindowStatus ) )
break;
fgSetWindow( window );
INVOKE_WCB( *window, WindowStatus, ( GLUT_FULLY_RETAINED ) );
window->State.Visible = GL_TRUE;
break;
-
+
case VisibilityPartiallyObscured:
INVOKE_WCB( *window, WindowStatus,
( GLUT_PARTIALLY_RETAINED ) );
window->State.Visible = GL_TRUE;
break;
-
+
case VisibilityFullyObscured:
INVOKE_WCB( *window, WindowStatus, ( GLUT_FULLY_COVERED ) );
window->State.Visible = GL_FALSE;
/*
* XXX For more than 5 buttons, just check {event.xmotion.state},
- * XXX rather than a host of bit-masks?
+ * XXX rather than a host of bit-masks? Or maybe we need to
+ * XXX track ButtonPress/ButtonRelease events in our own
+ * XXX bit-mask?
*/
#define BUTTON_MASK \
( Button1Mask | Button2Mask | Button3Mask | Button4Mask | Button5Mask )
*/
GETWINDOW( xbutton );
GETMOUSE( xbutton );
-
+
/*
* An X button (at least in XFree86) is numbered from 1.
* A GLUT button is numbered from 0.
window->ActiveMenu->Window->State.MouseY =
event.xbutton.y_root - window->ActiveMenu->Y;
}
-
+
/* In the menu, invoke the callback and deactivate the menu*/
if( fgCheckActiveMenu( window->ActiveMenu->Window,
window->ActiveMenu ) )
else if( pressed )
/*
* Outside the menu, deactivate if it's a downclick
+ *
* XXX This isn't enough. A downclick outside of
* XXX the interior of our freeglut windows should also
* XXX deactivate the menu. This is more complicated.
*/
fgDeactivateMenu( window->ActiveMenu->ParentWindow );
-
+
+ /*
+ * XXX Why does an active menu require a redisplay at
+ * XXX this point? If this can come out cleanly, then
+ * XXX it probably should do so; if not, a comment should
+ * XXX explain it.
+ */
window->State.Redisplay = GL_TRUE;
break;
}
( window->Menu[ button ] ) &&
pressed )
{
+ /*
+ * XXX Posting a requisite Redisplay seems bogus.
+ */
window->State.Redisplay = GL_TRUE;
fgSetWindow( window );
fgActivateMenu( window, button );
/*
* Finally execute the mouse or mouse wheel callback
*
- * XXX Use a symbolic constant, *not* "4"!
+ * XXX Use a symbolic constant, *not* "4"! ("3, sire!")
*/
if( ( button < 3 ) || ( ! FETCH_WCB( *window, MouseWheel ) ) )
INVOKE_WCB( *window, Mouse, ( button,
int direction = -1;
if( button % 2 )
direction = 1;
-
+
if( pressed )
INVOKE_WCB( *window, MouseWheel, ( wheel_number,
direction,
*/
void FGAPIENTRY glutMainLoop( void )
{
+ int action;
+
#if TARGET_HOST_WIN32
SFG_Window *window = (SFG_Window *)fgStructure.Windows.First ;
#endif
INVOKE_WCB( *window, Visibility, ( window->State.Visible ) );
fgSetWindow( current_window );
}
-
+
window = (SFG_Window *)window->Node.Next ;
}
#endif
fgState.ExecState = GLUT_EXEC_STATE_RUNNING ;
while( fgState.ExecState == GLUT_EXEC_STATE_RUNNING )
{
+ SFG_Window *window;
+
glutMainLoopEvent( );
+ /*
+ * Step through the list of windows, seeing if there are any
+ * that are not menus
+ */
+ for( window = ( SFG_Window * )fgStructure.Windows.First;
+ window;
+ window = ( SFG_Window * )window->Node.Next )
+ if ( ! ( window->IsMenu ) )
+ break;
- if( fgStructure.Windows.First == NULL )
+ if( ! window )
fgState.ExecState = GLUT_EXEC_STATE_STOP;
else
{
if( fgState.IdleCallback )
fgState.IdleCallback( );
- fgSleepForEvents();
+ fgSleepForEvents( );
}
}
/*
* When this loop terminates, destroy the display, state and structure
* of a freeglut session, so that another glutInit() call can happen
+ *
+ * Save the "ActionOnWindowClose" because "fgDeinitialize" resets it.
*/
+ action = fgState.ActionOnWindowClose;
fgDeinitialize( );
+ if( action == GLUT_ACTION_EXIT )
+ exit( 0 );
}
/*
case WM_SIZE:
/*
- * We got resized... But check if the window has been already added...
+ * If the window is visible, then it is the user manually resizing it.
+ * If it is not, then it is the system sending us a dummy resize with
+ * zero dimensions on a "glutIconifyWindow" call.
*/
- window->State.NeedToResize = GL_TRUE;
- window->State.Width = LOWORD(lParam);
- window->State.Height = HIWORD(lParam);
+ if( window->State.Visible )
+ {
+ window->State.NeedToResize = GL_TRUE;
+ window->State.Width = LOWORD(lParam);
+ window->State.Height = HIWORD(lParam);
+ }
+
break;
#if 0
- case WM_SETFOCUS:
+ case WM_SETFOCUS:
printf("WM_SETFOCUS: %p\n", window );
lRet = DefWindowProc( hWnd, uMsg, wParam, lParam );
break;
- case WM_ACTIVATE:
+ case WM_ACTIVATE:
if (LOWORD(wParam) != WA_INACTIVE)
{
/* glutSetCursor( fgStructure.Window->State.Cursor ); */
* XXX call glutSetCurdsor() instead of defining two macros
* XXX and implementing a nested case in-line.
*/
- case WM_SETCURSOR:
+ case WM_SETCURSOR:
/* Set the cursor AND change it for this window class. */
#define MAP_CURSOR(a,b) \
case a: \
{
window->State.MouseX = LOWORD( lParam );
window->State.MouseY = HIWORD( lParam );
-
+
if ( window->ActiveMenu )
{
window->State.Redisplay = GL_TRUE;
}
if( GetSystemMetrics( SM_SWAPBUTTON ) )
+ {
if( button == GLUT_LEFT_BUTTON )
button = GLUT_RIGHT_BUTTON;
- else if( button == GLUT_RIGHT_BUTTON )
- button = GLUT_LEFT_BUTTON;
+ else
+ if( button == GLUT_RIGHT_BUTTON )
+ button = GLUT_LEFT_BUTTON;
+ }
if( button == -1 )
return DefWindowProc( hWnd, uMsg, lParam, wParam );
break;
}
- if ( window->Menu[ button ] && pressed )
+ if( window->Menu[ button ] && pressed )
{
window->State.Redisplay = GL_TRUE;
fgSetWindow( window );
int keypress = -1;
POINT mouse_pos ;
- if( fgState.IgnoreKeyRepeat && (lParam & KF_REPEAT) )
+ if( fgState.IgnoreKeyRepeat && (HIWORD(lParam) & KF_REPEAT) )
break;
/*
- * Remember the current modifiers state. This is done here in order
+ * Remember the current modifiers state. This is done here in order
* to make sure the VK_DELETE keyboard callback is executed properly.
*/
fgState.Modifiers = fgGetWin32Modifiers( );
POINT mouse_pos;
/*
- * Remember the current modifiers state. This is done here in order
+ * Remember the current modifiers state. This is done here in order
* to make sure the VK_DELETE keyboard callback is executed properly.
*/
fgState.Modifiers = fgGetWin32Modifiers( );
{
BYTE state[ 256 ];
WORD code[ 2 ];
-
+
GetKeyboardState( state );
-
+
if( ToAscii( wParam, 0, state, code, 0 ) == 1 )
wParam=code[ 0 ];
case WM_SYSCHAR:
case WM_CHAR:
{
- if( fgState.IgnoreKeyRepeat && (lParam & KF_REPEAT) )
+ if( fgState.IgnoreKeyRepeat && (HIWORD(lParam) & KF_REPEAT) )
break;
fgState.Modifiers = fgGetWin32Modifiers( );