diff options
Diffstat (limited to 'src/glut/os2/glut_event.cpp')
| -rw-r--r-- | src/glut/os2/glut_event.cpp | 1399 |
1 files changed, 0 insertions, 1399 deletions
diff --git a/src/glut/os2/glut_event.cpp b/src/glut/os2/glut_event.cpp deleted file mode 100644 index 4ece82e52b6..00000000000 --- a/src/glut/os2/glut_event.cpp +++ /dev/null @@ -1,1399 +0,0 @@ -/* glut_event.c */ -/* Copyright (c) Mark J. Kilgard, 1994, 1995, 1996, 1997, 1998. */ - -/* This program is freely distributable without licensing fees - and is provided without guarantee or warrantee expressed or - implied. This program is -not- in the public domain. */ - -#ifdef __VMS -#include <GL/vms_x_fix.h> -#endif - -#include <stdlib.h> -#include <stdio.h> -#include <errno.h> -#include <assert.h> -#include <string.h> /* Some FD_ZERO macros use memset without - prototyping memset. */ - -/* Much of the following #ifdef logic to include the proper - prototypes for the select system call is based on logic - from the X11R6.3 version of <X11/Xpoll.h>. */ - -#if !defined(_WIN32) -# ifdef __sgi -# include <bstring.h> /* prototype for bzero used by FD_ZERO */ -# endif -# if (defined(SVR4) || defined(CRAY) || defined(AIXV3)) && !defined(FD_SETSIZE) -# include <sys/select.h> /* select system call interface */ -# ifdef luna -# include <sysent.h> -# endif -# endif - /* AIX 4.2 fubar-ed <sys/select.h>, so go to heroic measures to get it */ -# if defined(AIXV4) && !defined(NFDBITS) -# include <sys/select.h> -# endif -#endif /* !_WIN32 */ - -#include <sys/types.h> - -#if defined(__OS2__) -//??? ��䨣� ?? # include <sys/time.h> -#elif !defined(_WIN32) -# if defined(__vms) && ( __VMS_VER < 70000000 ) -# include <sys/time.h> -# else -# ifndef __vms -# include <sys/time.h> -# endif -# endif -# include <unistd.h> -# include <X11/Xlib.h> -# include <X11/keysym.h> -#else -# ifdef __CYGWIN32__ -# include <sys/time.h> -# else -# include <sys/timeb.h> -# endif -# ifdef __hpux - /* XXX Bert Gijsbers <[email protected]> reports that HP-UX - needs different keysyms for the End, Insert, and Delete keys - to work on an HP 715. It would be better if HP generated - standard keysyms for standard keys. */ -# include <X11/HPkeysym.h> -# endif -#endif /* !_WIN32 */ - -#include "glutint.h" - -#if defined(__vms) && ( __VMS_VER < 70000000 ) -#include <ssdef.h> -#include <psldef.h> -extern int SYS$CLREF(int efn); -extern int SYS$SETIMR(unsigned int efn, struct timeval6 *timeout, void *ast, - unsigned int request_id, unsigned int flags); -extern int SYS$WFLOR(unsigned int efn, unsigned int mask); -extern int SYS$CANTIM(unsigned int request_id, unsigned int mode); -#endif /* __vms, VMs 6.2 or earlier */ - -static GLUTtimer *freeTimerList = NULL; - -GLUTidleCB __glutIdleFunc = NULL; -GLUTtimer *__glutTimerList = NULL; -#ifdef SUPPORT_FORTRAN -GLUTtimer *__glutNewTimer; -#endif -GLUTwindow *__glutWindowWorkList = NULL; -GLUTmenu *__glutMappedMenu; -GLUTmenu *__glutCurrentMenu = NULL; - -void (*__glutUpdateInputDeviceMaskFunc) (GLUTwindow *); -#if !defined(_WIN32) && !defined(__OS2__) -void (*__glutMenuItemEnterOrLeave)(GLUTmenuItem * item, int num, int type) = NULL; -void (*__glutFinishMenu)(Window win, int x, int y); -void (*__glutPaintMenu)(GLUTmenu * menu); -void (*__glutStartMenu)(GLUTmenu * menu, GLUTwindow * window, int x, int y, int x_win, int y_win); -GLUTmenu * (*__glutGetMenuByNum)(int menunum); -GLUTmenuItem * (*__glutGetMenuItem)(GLUTmenu * menu, Window win, int *which); -GLUTmenu * (*__glutGetMenu)(Window win); -#endif - -Atom __glutMotifHints = None; -/* Modifier mask of ~0 implies not in core input callback. */ -unsigned int __glutModifierMask = (unsigned int) ~0; -int __glutWindowDamaged = 0; - -void GLUTAPIENTRY -glutIdleFunc(GLUTidleCB idleFunc) -{ - __glutIdleFunc = idleFunc; -} - -void GLUTAPIENTRY -glutTimerFunc(unsigned int interval, GLUTtimerCB timerFunc, int value) -{ - GLUTtimer *timer, *other; - GLUTtimer **prevptr; -#ifdef OLD_VMS - struct timeval6 now; -#else - struct timeval now; -#endif - - if (!timerFunc) - return; - - if (freeTimerList) { - timer = freeTimerList; - freeTimerList = timer->next; - } else { - timer = (GLUTtimer *) malloc(sizeof(GLUTtimer)); - if (!timer) - __glutFatalError("out of memory."); - } - - timer->func = timerFunc; -#if defined(__vms) && ( __VMS_VER < 70000000 ) - /* VMS time is expressed in units of 100 ns */ - timer->timeout.val = interval * TICKS_PER_MILLISECOND; -#else - timer->timeout.tv_sec = (int) interval / 1000; - timer->timeout.tv_usec = (int) (interval % 1000) * 1000; -#endif - timer->value = value; - timer->next = NULL; - GETTIMEOFDAY(&now); - ADD_TIME(timer->timeout, timer->timeout, now); - prevptr = &__glutTimerList; - other = *prevptr; - while (other && IS_AFTER(other->timeout, timer->timeout)) { - prevptr = &other->next; - other = *prevptr; - } - timer->next = other; -#ifdef SUPPORT_FORTRAN - __glutNewTimer = timer; /* for Fortran binding! */ -#endif - *prevptr = timer; -} - -void -handleTimeouts(void) -{ -#ifdef OLD_VMS - struct timeval6 now; -#else - struct timeval now; -#endif - GLUTtimer *timer; - - /* Assumption is that __glutTimerList is already determined - to be non-NULL. */ - GETTIMEOFDAY(&now); - while (IS_AT_OR_AFTER(__glutTimerList->timeout, now)) { - timer = __glutTimerList; - timer->func(timer->value); - __glutTimerList = timer->next; - timer->next = freeTimerList; - freeTimerList = timer; - if (!__glutTimerList) - break; - } -} - -void -__glutPutOnWorkList(GLUTwindow * window, int workMask) -{ - if (window->workMask) { - /* Already on list; just OR in new workMask. */ - window->workMask |= workMask; - } else { - /* Update work mask and add to window work list. */ - window->workMask = workMask; - /* Assert that if the window does not have a - workMask already, the window should definitely - not be the head of the work list. */ - assert(window != __glutWindowWorkList); - window->prevWorkWin = __glutWindowWorkList; - __glutWindowWorkList = window; - } -} - -void -__glutPostRedisplay(GLUTwindow * window, int layerMask) -{ - int shown = (layerMask & (GLUT_REDISPLAY_WORK | GLUT_REPAIR_WORK)) ? - window->shownState : window->overlay->shownState; - - /* Post a redisplay if the window is visible (or the - visibility of the window is unknown, ie. window->visState - == -1) _and_ the layer is known to be shown. */ - if (window->visState != GLUT_HIDDEN - && window->visState != GLUT_FULLY_COVERED && shown) { - __glutPutOnWorkList(window, layerMask); - } -} - -/* CENTRY */ -void GLUTAPIENTRY -glutPostRedisplay(void) -{ - __glutPostRedisplay(__glutCurrentWindow, GLUT_REDISPLAY_WORK); -} - -/* The advantage of this routine is that it saves the cost of a - glutSetWindow call (entailing an expensive OpenGL context switch), - particularly useful when multiple windows need redisplays posted at - the same times. See also glutPostWindowOverlayRedisplay. */ -void GLUTAPIENTRY -glutPostWindowRedisplay(int win) -{ - __glutPostRedisplay(__glutWindowList[win - 1], GLUT_REDISPLAY_WORK); -} - -/* ENDCENTRY */ -static GLUTeventParser *eventParserList = NULL; - -/* __glutRegisterEventParser allows another module to register - to intercept X events types not otherwise acted on by the - GLUT processEventsAndTimeouts routine. The X Input - extension support code uses an event parser for handling X - Input extension events. */ - -void -__glutRegisterEventParser(GLUTeventParser * parser) -{ - parser->next = eventParserList; - eventParserList = parser; -} - -static void -markWindowHidden(GLUTwindow * window) -{ - if (GLUT_HIDDEN != window->visState) { - GLUTwindow *child; - - if (window->windowStatus) { - window->visState = GLUT_HIDDEN; - __glutSetWindow(window); - window->windowStatus(GLUT_HIDDEN); - } - /* An unmap is only reported on a single window; its - descendents need to know they are no longer visible. */ - child = window->children; - while (child) { - markWindowHidden(child); - child = child->siblings; - } - } -} - -#if !defined(_WIN32) && !defined(__OS2__) - -static void -purgeStaleWindow(Window win) -{ - GLUTstale **pEntry = &__glutStaleWindowList; - GLUTstale *entry = __glutStaleWindowList; - - /* Tranverse singly-linked stale window list look for the - window ID. */ - while (entry) { - if (entry->win == win) { - /* Found it; delete it. */ - *pEntry = entry->next; - free(entry); - return; - } else { - pEntry = &entry->next; - entry = *pEntry; - } - } -} - -/* Unlike XNextEvent, if a signal arrives, - interruptibleXNextEvent will return (with a zero return - value). This helps GLUT drop out of XNextEvent if a signal - is delivered. The intent is so that a GLUT program can call - glutIdleFunc in a signal handler to register an idle func - and then immediately get dropped into the idle func (after - returning from the signal handler). The idea is to make - GLUT's main loop reliably interruptible by signals. */ -static int -interruptibleXNextEvent(Display * dpy, XEvent * event) -{ - fd_set fds; - int rc; - - /* Flush X protocol since XPending does not do this - implicitly. */ - XFlush(__glutDisplay); - for (;;) { - if (XPending(__glutDisplay)) { - XNextEvent(dpy, event); - return 1; - } -#ifndef VMS - /* the combination ConectionNumber-select is buggy on VMS. Sometimes it - * fails. This part of the code hangs the program on VMS7.2. But even - * without it the program seems to run correctly. - * Note that this is a bug in the VMS/DECWindows run-time-libraries. - * Compaq engeneering does not want or is not able to make a fix. - * (last sentence is a quotation from Compaq when I reported the - * problem January 2000) */ - FD_ZERO(&fds); - FD_SET(__glutConnectionFD, &fds); - rc = select(__glutConnectionFD + 1, &fds, NULL, NULL, NULL); - if (rc < 0) { - if (errno == EINTR) { - return 0; - } else { - __glutFatalError("select error."); - } - } -#endif - } -} - -#endif - -static void -processEventsAndTimeouts(void) -{ - do { -#if defined(__OS2__) - QMSG qmsg; /* message from message queue */ - extern HAB hab; /* PM anchor block handle */ - - if(! WinGetMsg( hab, &qmsg, 0UL, 0UL, 0UL ) ) - exit(0); - WinDispatchMsg( hab, /* PM anchor block handle */ - &qmsg ); /* pointer to message */ - -#elif defined(_WIN32) - MSG event; - - if(!GetMessage(&event, NULL, 0, 0)) /* bail if no more messages */ - exit(0); - TranslateMessage(&event); /* translate virtual-key messages */ - DispatchMessage(&event); /* call the window proc */ - /* see win32_event.c for event (message) processing procedures */ -#else - static int mappedMenuButton; - GLUTeventParser *parser; - XEvent event, ahead; - GLUTwindow *window; - GLUTkeyboardCB keyboard; - GLUTspecialCB special; - int gotEvent, width, height; - - gotEvent = interruptibleXNextEvent(__glutDisplay, &event); - if (gotEvent) { - switch (event.type) { - case MappingNotify: - XRefreshKeyboardMapping((XMappingEvent *) & event); - break; - case ConfigureNotify: - window = __glutGetWindow(event.xconfigure.window); - if (window) { - if (window->win != event.xconfigure.window) { - /* Ignore ConfigureNotify sent to the overlay - planes. GLUT could get here because overlays - select for StructureNotify events to receive - DestroyNotify. */ - break; - } - width = event.xconfigure.width; - height = event.xconfigure.height; - if (width != window->width || height != window->height) { - if (window->overlay) { - XResizeWindow(__glutDisplay, window->overlay->win, width, height); - } - window->width = width; - window->height = height; - __glutSetWindow(window); - /* Do not execute OpenGL out of sequence with - respect to the XResizeWindow request! */ - glXWaitX(); - window->reshape(width, height); - window->forceReshape = False; - /* A reshape should be considered like posting a - repair; this is necessary for the "Mesa - glXSwapBuffers to repair damage" hack to operate - correctly. Without it, there's not an initial - back buffer render from which to blit from when - damage happens to the window. */ - __glutPostRedisplay(window, GLUT_REPAIR_WORK); - } - } - break; - case Expose: - /* compress expose events */ - while (XEventsQueued(__glutDisplay, QueuedAfterReading) - > 0) { - XPeekEvent(__glutDisplay, &ahead); - if (ahead.type != Expose || - ahead.xexpose.window != event.xexpose.window) { - break; - } - XNextEvent(__glutDisplay, &event); - } - if (event.xexpose.count == 0) { - GLUTmenu *menu; - - if (__glutMappedMenu && - (menu = __glutGetMenu(event.xexpose.window))) { - __glutPaintMenu(menu); - } else { - window = __glutGetWindow(event.xexpose.window); - if (window) { - if (window->win == event.xexpose.window) { - __glutPostRedisplay(window, GLUT_REPAIR_WORK); - } else if (window->overlay && window->overlay->win == event.xexpose.window) { - __glutPostRedisplay(window, GLUT_OVERLAY_REPAIR_WORK); - } - } - } - } else { - /* there are more exposes to read; wait to redisplay */ - } - break; - case ButtonPress: - case ButtonRelease: - if (__glutMappedMenu && event.type == ButtonRelease - && mappedMenuButton == event.xbutton.button) { - /* Menu is currently popped up and its button is - released. */ - __glutFinishMenu(event.xbutton.window, event.xbutton.x, event.xbutton.y); - } else { - window = __glutGetWindow(event.xbutton.window); - if (window) { - GLUTmenu *menu; - int menuNum; - - menuNum = window->menu[event.xbutton.button - 1]; - /* Make sure that __glutGetMenuByNum is only called if there - really is a menu present. */ - if ((menuNum > 0) && (menu = __glutGetMenuByNum(menuNum))) { - if (event.type == ButtonPress && !__glutMappedMenu) { - __glutStartMenu(menu, window, - event.xbutton.x_root, event.xbutton.y_root, - event.xbutton.x, event.xbutton.y); - mappedMenuButton = event.xbutton.button; - } else { - /* Ignore a release of a button with a menu - attatched to it when no menu is popped up, - or ignore a press when another menu is - already popped up. */ - } - } else if (window->mouse) { - __glutSetWindow(window); - __glutModifierMask = event.xbutton.state; - window->mouse(event.xbutton.button - 1, - event.type == ButtonRelease ? - GLUT_UP : GLUT_DOWN, - event.xbutton.x, event.xbutton.y); - __glutModifierMask = ~0; - } else { - /* Stray mouse events. Ignore. */ - } - } else { - /* Window might have been destroyed and all the - events for the window may not yet be received. */ - } - } - break; - case MotionNotify: - if (!__glutMappedMenu) { - window = __glutGetWindow(event.xmotion.window); - if (window) { - /* If motion function registered _and_ buttons held - * down, call motion function... */ - if (window->motion && event.xmotion.state & - (Button1Mask | Button2Mask | Button3Mask)) { - __glutSetWindow(window); - window->motion(event.xmotion.x, event.xmotion.y); - } - /* If passive motion function registered _and_ - buttons not held down, call passive motion - function... */ - else if (window->passive && - ((event.xmotion.state & - (Button1Mask | Button2Mask | Button3Mask)) == - 0)) { - __glutSetWindow(window); - window->passive(event.xmotion.x, - event.xmotion.y); - } - } - } else { - /* Motion events are thrown away when a pop up menu - is active. */ - } - break; - case KeyPress: - case KeyRelease: - window = __glutGetWindow(event.xkey.window); - if (!window) { - break; - } - if (event.type == KeyPress) { - keyboard = window->keyboard; - } else { - - /* If we are ignoring auto repeated keys for this window, - check if the next event in the X event queue is a KeyPress - for the exact same key (and at the exact same time) as the - key being released. The X11 protocol will send auto - repeated keys as such KeyRelease/KeyPress pairs. */ - - if (window->ignoreKeyRepeat) { - if (XEventsQueued(__glutDisplay, QueuedAfterReading)) { - XPeekEvent(__glutDisplay, &ahead); - if (ahead.type == KeyPress - && ahead.xkey.window == event.xkey.window - && ahead.xkey.keycode == event.xkey.keycode - && ahead.xkey.time == event.xkey.time) { - /* Pop off the repeated KeyPress and ignore - the auto repeated KeyRelease/KeyPress pair. */ - XNextEvent(__glutDisplay, &event); - break; - } - } - } - keyboard = window->keyboardUp; - } - if (keyboard) { - char tmp[1]; - int rc; - - rc = XLookupString(&event.xkey, tmp, sizeof(tmp), - NULL, NULL); - if (rc) { - __glutSetWindow(window); - __glutModifierMask = event.xkey.state; - keyboard(tmp[0], - event.xkey.x, event.xkey.y); - __glutModifierMask = ~0; - break; - } - } - if (event.type == KeyPress) { - special = window->special; - } else { - special = window->specialUp; - } - if (special) { - KeySym ks; - int key; - -/* Introduced in X11R6: (Partial list of) Keypad Functions. Define - in place in case compiling against an older pre-X11R6 - X11/keysymdef.h file. */ -#ifndef XK_KP_Home -#define XK_KP_Home 0xFF95 -#endif -#ifndef XK_KP_Left -#define XK_KP_Left 0xFF96 -#endif -#ifndef XK_KP_Up -#define XK_KP_Up 0xFF97 -#endif -#ifndef XK_KP_Right -#define XK_KP_Right 0xFF98 -#endif -#ifndef XK_KP_Down -#define XK_KP_Down 0xFF99 -#endif -#ifndef XK_KP_Prior -#define XK_KP_Prior 0xFF9A -#endif -#ifndef XK_KP_Next -#define XK_KP_Next 0xFF9B -#endif -#ifndef XK_KP_End -#define XK_KP_End 0xFF9C -#endif -#ifndef XK_KP_Insert -#define XK_KP_Insert 0xFF9E -#endif -#ifndef XK_KP_Delete -#define XK_KP_Delete 0xFF9F -#endif - - ks = XLookupKeysym((XKeyEvent *) & event, 0); - /* XXX Verbose, but makes no assumptions about keysym - layout. */ - switch (ks) { -/* *INDENT-OFF* */ - /* function keys */ - case XK_F1: key = GLUT_KEY_F1; break; - case XK_F2: key = GLUT_KEY_F2; break; - case XK_F3: key = GLUT_KEY_F3; break; - case XK_F4: key = GLUT_KEY_F4; break; - case XK_F5: key = GLUT_KEY_F5; break; - case XK_F6: key = GLUT_KEY_F6; break; - case XK_F7: key = GLUT_KEY_F7; break; - case XK_F8: key = GLUT_KEY_F8; break; - case XK_F9: key = GLUT_KEY_F9; break; - case XK_F10: key = GLUT_KEY_F10; break; - case XK_F11: key = GLUT_KEY_F11; break; - case XK_F12: key = GLUT_KEY_F12; break; - /* directional keys */ - case XK_KP_Left: - case XK_Left: key = GLUT_KEY_LEFT; break; - case XK_KP_Up: /* Introduced in X11R6. */ - case XK_Up: key = GLUT_KEY_UP; break; - case XK_KP_Right: /* Introduced in X11R6. */ - case XK_Right: key = GLUT_KEY_RIGHT; break; - case XK_KP_Down: /* Introduced in X11R6. */ - case XK_Down: key = GLUT_KEY_DOWN; break; -/* *INDENT-ON* */ - - case XK_KP_Prior: /* Introduced in X11R6. */ - case XK_Prior: - /* XK_Prior same as X11R6's XK_Page_Up */ - key = GLUT_KEY_PAGE_UP; - break; - case XK_KP_Next: /* Introduced in X11R6. */ - case XK_Next: - /* XK_Next same as X11R6's XK_Page_Down */ - key = GLUT_KEY_PAGE_DOWN; - break; - case XK_KP_Home: /* Introduced in X11R6. */ - case XK_Home: - key = GLUT_KEY_HOME; - break; -#ifdef __hpux - case XK_Select: -#endif - case XK_KP_End: /* Introduced in X11R6. */ - case XK_End: - key = GLUT_KEY_END; - break; -#ifdef __hpux - case XK_InsertChar: -#endif - case XK_KP_Insert: /* Introduced in X11R6. */ - case XK_Insert: - key = GLUT_KEY_INSERT; - break; -#ifdef __hpux - case XK_DeleteChar: -#endif - case XK_KP_Delete: /* Introduced in X11R6. */ - /* The Delete character is really an ASCII key. */ - __glutSetWindow(window); - keyboard(127, /* ASCII Delete character. */ - event.xkey.x, event.xkey.y); - goto skip; - default: - goto skip; - } - __glutSetWindow(window); - __glutModifierMask = event.xkey.state; - special(key, event.xkey.x, event.xkey.y); - __glutModifierMask = ~0; - skip:; - } - break; - case EnterNotify: - case LeaveNotify: - if (event.xcrossing.mode != NotifyNormal || - event.xcrossing.detail == NotifyNonlinearVirtual || - event.xcrossing.detail == NotifyVirtual) { - - /* Careful to ignore Enter/LeaveNotify events that - come from the pop-up menu pointer grab and ungrab. - Also, ignore "virtual" Enter/LeaveNotify events - since they represent the pointer passing through - the window hierarchy without actually entering or - leaving the actual real estate of a window. */ - - break; - } - if (__glutMappedMenu) { - GLUTmenuItem *item; - int num; - - item = __glutGetMenuItem(__glutMappedMenu, - event.xcrossing.window, &num); - if (item) { - __glutMenuItemEnterOrLeave(item, num, event.type); - break; - } - } - window = __glutGetWindow(event.xcrossing.window); - if (window) { - if (window->entry) { - if (event.type == EnterNotify) { - - /* With overlays established, X can report two - enter events for both the overlay and normal - plane window. Do not generate a second enter - callback if we reported one without an - intervening leave. */ - - if (window->entryState != EnterNotify) { - int num = window->num; - Window xid = window->win; - - window->entryState = EnterNotify; - __glutSetWindow(window); - window->entry(GLUT_ENTERED); - - if (__glutMappedMenu) { - - /* Do not generate any passive motion events - when menus are in use. */ - - } else { - - /* An EnterNotify event can result in a - "compound" callback if a passive motion - callback is also registered. In this case, - be a little paranoid about the possibility - the window could have been destroyed in the - entry callback. */ - - window = __glutWindowList[num]; - if (window && window->passive && window->win == xid) { - __glutSetWindow(window); - window->passive(event.xcrossing.x, event.xcrossing.y); - } - } - } - } else { - if (window->entryState != LeaveNotify) { - - /* When an overlay is established for a window - already mapped and with the pointer in it, - the X server will generate a leave/enter - event pair as the pointer leaves (without - moving) from the normal plane X window to - the newly mapped overlay X window (or vice - versa). This enter/leave pair should not be - reported to the GLUT program since the pair - is a consequence of creating (or destroying) - the overlay, not an actual leave from the - GLUT window. */ - - if (XEventsQueued(__glutDisplay, QueuedAfterReading)) { - XPeekEvent(__glutDisplay, &ahead); - if (ahead.type == EnterNotify && - __glutGetWindow(ahead.xcrossing.window) == window) { - XNextEvent(__glutDisplay, &event); - break; - } - } - window->entryState = LeaveNotify; - __glutSetWindow(window); - window->entry(GLUT_LEFT); - } - } - } else if (window->passive) { - __glutSetWindow(window); - window->passive(event.xcrossing.x, event.xcrossing.y); - } - } - break; - case UnmapNotify: - /* MapNotify events are not needed to maintain - visibility state since VisibilityNotify events will - be delivered when a window becomes visible from - mapping. However, VisibilityNotify events are not - delivered when a window is unmapped (for the window - or its children). */ - window = __glutGetWindow(event.xunmap.window); - if (window) { - if (window->win != event.xconfigure.window) { - /* Ignore UnmapNotify sent to the overlay planes. - GLUT could get here because overlays select for - StructureNotify events to receive DestroyNotify. - */ - break; - } - markWindowHidden(window); - } - break; - case VisibilityNotify: - window = __glutGetWindow(event.xvisibility.window); - if (window) { - /* VisibilityUnobscured+1 = GLUT_FULLY_RETAINED, - VisibilityPartiallyObscured+1 = - GLUT_PARTIALLY_RETAINED, VisibilityFullyObscured+1 - = GLUT_FULLY_COVERED. */ - int visState = event.xvisibility.state + 1; - - if (visState != window->visState) { - if (window->windowStatus) { - window->visState = visState; - __glutSetWindow(window); - window->windowStatus(visState); - } - } - } - break; - case ClientMessage: - if (event.xclient.data.l[0] == __glutWMDeleteWindow) - exit(0); - break; - case DestroyNotify: - purgeStaleWindow(event.xdestroywindow.window); - break; - case CirculateNotify: - case CreateNotify: - case GravityNotify: - case ReparentNotify: - /* Uninteresting to GLUT (but possible for GLUT to - receive). */ - break; - default: - /* Pass events not directly handled by the GLUT main - event loop to any event parsers that have been - registered. In this way, X Input extension events - are passed to the correct handler without forcing - all GLUT programs to support X Input event handling. - */ - parser = eventParserList; - while (parser) { - if (parser->func(&event)) - break; - parser = parser->next; - } - break; - } - } -#endif /* _WIN32 */ - if (__glutTimerList) { - handleTimeouts(); - } - } - while (XPending(__glutDisplay)); -} - -static void -waitForSomething(void) -{ -#if defined(__vms) && ( __VMS_VER < 70000000 ) - static struct timeval6 zerotime = - {0}; - unsigned int timer_efn; -#define timer_id 'glut' /* random :-) number */ - unsigned int wait_mask; -#else - static struct timeval zerotime = - {0, 0}; -#if defined(__OS2__) - -#elif !defined(_WIN32) - fd_set fds; -#endif -#endif -#ifdef OLD_VMS - struct timeval6 now, timeout, waittime; -#else - struct timeval now, timeout, waittime; -#endif -#if !defined(_WIN32) - int rc; -#endif - - /* Flush X protocol since XPending does not do this - implicitly. */ - XFlush(__glutDisplay); - if (XPending(__glutDisplay)) { - /* It is possible (but quite rare) that XFlush may have - needed to wait for a writable X connection file - descriptor, and in the process, may have had to read off - X protocol from the file descriptor. If XPending is true, - this case occured and we should avoid waiting in select - since X protocol buffered within Xlib is due to be - processed and potentially no more X protocol is on the - file descriptor, so we would risk waiting improperly in - select. */ - goto immediatelyHandleXinput; - } -#if defined(__vms) && ( __VMS_VER < 70000000 ) - timeout = __glutTimerList->timeout; - GETTIMEOFDAY(&now); - wait_mask = 1 << (__glutConnectionFD & 31); - if (IS_AFTER(now, timeout)) { - /* We need an event flag for the timer. */ - /* XXX The `right' way to do this is to use LIB$GET_EF, but - since it needs to be in the same cluster as the EFN for - the display, we will have hack it. */ - timer_efn = __glutConnectionFD - 1; - if ((timer_efn / 32) != (__glutConnectionFD / 32)) { - timer_efn = __glutConnectionFD + 1; - } - rc = SYS$CLREF(timer_efn); - rc = SYS$SETIMR(timer_efn, &timeout, NULL, timer_id, 0); - wait_mask |= 1 << (timer_efn & 31); - } else { - timer_efn = 0; - } - rc = SYS$WFLOR(__glutConnectionFD, wait_mask); - if (timer_efn != 0 && SYS$CLREF(timer_efn) == SS$_WASCLR) { - rc = SYS$CANTIM(timer_id, PSL$C_USER); - } - /* XXX There does not seem to be checking of "rc" in the code - above. Can any of the SYS$ routines above fail? */ -#else /* not vms6.2 or lower */ -#if defined(__OS2__) - -#elif !defined(_WIN32) - FD_ZERO(&fds); - FD_SET(__glutConnectionFD, &fds); -#endif - timeout = __glutTimerList->timeout; - GETTIMEOFDAY(&now); - if (IS_AFTER(now, timeout)) { - TIMEDELTA(waittime, timeout, now); - } else { - waittime = zerotime; - } - -#if defined(__OS2__) - DosSleep(0); -#elif !defined(_WIN32) - rc = select(__glutConnectionFD + 1, &fds, - NULL, NULL, &waittime); - if (rc < 0 && errno != EINTR) - __glutFatalError("select error."); -#else - - MsgWaitForMultipleObjects(0, NULL, FALSE, - waittime.tv_sec*1000 + waittime.tv_usec/1000, QS_ALLINPUT); - -#endif -#endif /* not vms6.2 or lower */ - /* Without considering the cause of select unblocking, check - for pending X events and handle any timeouts (by calling - processEventsAndTimeouts). We always look for X events - even if select returned with 0 (indicating a timeout); - otherwise we risk starving X event processing by continous - timeouts. */ - if (XPending(__glutDisplay)) { - immediatelyHandleXinput: - processEventsAndTimeouts(); - } else { - if (__glutTimerList) - handleTimeouts(); - } -} - -static void -idleWait(void) -{ - if (XPending(__glutDisplay)) { - processEventsAndTimeouts(); - } else { - if (__glutTimerList) { - handleTimeouts(); - } - } - /* Make sure idle func still exists! */ - if (__glutIdleFunc) { - __glutIdleFunc(); - } -} - -static GLUTwindow **beforeEnd; - -static GLUTwindow * -processWindowWorkList(GLUTwindow * window) -{ - int workMask; - - if (window->prevWorkWin) { - window->prevWorkWin = processWindowWorkList(window->prevWorkWin); - } else { - beforeEnd = &window->prevWorkWin; - } - - /* Capture work mask for work that needs to be done to this - window, then clear the window's work mask (excepting the - dummy work bit, see below). Then, process the captured - work mask. This allows callbacks in the processing the - captured work mask to set the window's work mask for - subsequent processing. */ - - workMask = window->workMask; - assert((workMask & GLUT_DUMMY_WORK) == 0); - - /* Set the dummy work bit, clearing all other bits, to - indicate that the window is currently on the window work - list _and_ that the window's work mask is currently being - processed. This convinces __glutPutOnWorkList that this - window is on the work list still. */ - window->workMask = GLUT_DUMMY_WORK; - - /* Optimization: most of the time, the work to do is a - redisplay and not these other types of work. Check for - the following cases as a group to before checking each one - individually one by one. This saves about 25 MIPS - instructions in the common redisplay only case. */ - if (workMask & (GLUT_EVENT_MASK_WORK | GLUT_DEVICE_MASK_WORK | - GLUT_CONFIGURE_WORK | GLUT_COLORMAP_WORK | GLUT_MAP_WORK)) { - -#if !defined(_WIN32) && !defined(__OS2__) - /* Be sure to set event mask BEFORE map window is done. */ - if (workMask & GLUT_EVENT_MASK_WORK) { - long eventMask; - - /* Make sure children are not propogating events this - window is selecting for. Be sure to do this before - enabling events on the children's parent. */ - if (window->children) { - GLUTwindow *child = window->children; - unsigned long attribMask = CWDontPropagate; - XSetWindowAttributes wa; - - wa.do_not_propagate_mask = window->eventMask & GLUT_DONT_PROPAGATE_FILTER_MASK; - if (window->eventMask & GLUT_HACK_STOP_PROPAGATE_MASK) { - wa.event_mask = child->eventMask | (window->eventMask & GLUT_HACK_STOP_PROPAGATE_MASK); - attribMask |= CWEventMask; - } - do { - XChangeWindowAttributes(__glutDisplay, child->win, - attribMask, &wa); - child = child->siblings; - } while (child); - } - eventMask = window->eventMask; - if (window->parent && window->parent->eventMask & GLUT_HACK_STOP_PROPAGATE_MASK) - eventMask |= (window->parent->eventMask & GLUT_HACK_STOP_PROPAGATE_MASK); - XSelectInput(__glutDisplay, window->win, eventMask); - if (window->overlay) - XSelectInput(__glutDisplay, window->overlay->win, - window->eventMask & GLUT_OVERLAY_EVENT_FILTER_MASK); - } -#endif /* !_WIN32 */ - /* Be sure to set device mask BEFORE map window is done. */ - if (workMask & GLUT_DEVICE_MASK_WORK) { - __glutUpdateInputDeviceMaskFunc(window); - } - /* Be sure to configure window BEFORE map window is done. */ - if (workMask & GLUT_CONFIGURE_WORK) { -#if defined(__OS2__) - RECTL changes; - -#elif defined(_WIN32) - RECT changes; - POINT point; - UINT flags = SWP_NOACTIVATE | SWP_NOMOVE | SWP_NOOWNERZORDER - | SWP_NOSENDCHANGING | SWP_NOSIZE | SWP_NOZORDER; - - GetClientRect(window->win, &changes); - - /* If this window is a toplevel window, translate the 0,0 client - coordinate into a screen coordinate for proper placement. */ - if (!window->parent) { - point.x = 0; - point.y = 0; - ClientToScreen(window->win, &point); - changes.left = point.x; - changes.top = point.y; - } - if (window->desiredConfMask & (CWX | CWY)) { - changes.left = window->desiredX; - changes.top = window->desiredY; - flags &= ~SWP_NOMOVE; - } - if (window->desiredConfMask & (CWWidth | CWHeight)) { - changes.right = changes.left + window->desiredWidth; - changes.bottom = changes.top + window->desiredHeight; - flags &= ~SWP_NOSIZE; - /* XXX If overlay exists, resize the overlay here, ie. - if (window->overlay) ... */ - } - if (window->desiredConfMask & CWStackMode) { - flags &= ~SWP_NOZORDER; - /* XXX Overlay support might require something special here. */ - } - - /* Adjust the window rectangle because Win32 thinks that the x, y, - width & height are the WHOLE window (including decorations), - whereas GLUT treats the x, y, width & height as only the CLIENT - area of the window. Only do this to top level windows - that are not in game mode (since game mode windows do - not have any decorations). */ - if (!window->parent && window != __glutGameModeWindow) { - AdjustWindowRect(&changes, - WS_OVERLAPPEDWINDOW | WS_CLIPSIBLINGS | WS_CLIPCHILDREN, - FALSE); - } - - /* Do the repositioning, moving, and push/pop. */ - SetWindowPos(window->win, - window->desiredStack == Above ? HWND_TOP : HWND_NOTOPMOST, - changes.left, changes.top, - changes.right - changes.left, changes.bottom - changes.top, - flags); - - /* Zero out the mask. */ - window->desiredConfMask = 0; - - /* This hack causes the window to go back to the right position - when it is taken out of fullscreen mode. */ - if (workMask & GLUT_FULL_SCREEN_WORK) { - window->desiredConfMask |= CWX | CWY; - window->desiredX = point.x; - window->desiredY = point.y; - } -#else /* !_WIN32 */ - XWindowChanges changes; - - changes.x = window->desiredX; - changes.y = window->desiredY; - if (window->desiredConfMask & (CWWidth | CWHeight)) { - changes.width = window->desiredWidth; - changes.height = window->desiredHeight; - if (window->overlay) - XResizeWindow(__glutDisplay, window->overlay->win, - window->desiredWidth, window->desiredHeight); - if (__glutMotifHints != None) { - if (workMask & GLUT_FULL_SCREEN_WORK) { - MotifWmHints hints; - - hints.flags = MWM_HINTS_DECORATIONS; - hints.decorations = 0; /* Absolutely no - decorations. */ - XChangeProperty(__glutDisplay, window->win, - __glutMotifHints, __glutMotifHints, 32, - PropModeReplace, (unsigned char *) &hints, 4); - if (workMask & GLUT_MAP_WORK) { - /* Handle case where glutFullScreen is called - before the first time that the window is - mapped. Some window managers will randomly or - interactively position the window the first - time it is mapped if the window's - WM_NORMAL_HINTS property does not request an - explicit position. We don't want any such - window manager interaction when going - fullscreen. Overwrite the WM_NORMAL_HINTS - property installed by glutCreateWindow's - XSetWMProperties property with one explicitly - requesting a fullscreen window. */ - XSizeHints hints; - - hints.flags = USPosition | USSize; - hints.x = 0; - hints.y = 0; - hints.width = window->desiredWidth; - hints.height = window->desiredHeight; - XSetWMNormalHints(__glutDisplay, window->win, &hints); - } - } else { - XDeleteProperty(__glutDisplay, window->win, __glutMotifHints); - } - } - } - if (window->desiredConfMask & CWStackMode) { - changes.stack_mode = window->desiredStack; - /* Do not let glutPushWindow push window beneath the - underlay. */ - if (window->parent && window->parent->overlay - && window->desiredStack == Below) { - changes.stack_mode = Above; - changes.sibling = window->parent->overlay->win; - window->desiredConfMask |= CWSibling; - } - } - XConfigureWindow(__glutDisplay, window->win, - window->desiredConfMask, &changes); - window->desiredConfMask = 0; -#endif - } -#if !defined(_WIN32) && !defined(__OS2__) - /* Be sure to establish the colormaps BEFORE map window is - done. */ - if (workMask & GLUT_COLORMAP_WORK) { - __glutEstablishColormapsProperty(window); - } -#endif - if (workMask & GLUT_MAP_WORK) { - switch (window->desiredMapState) { - case WithdrawnState: - if (window->parent) { - XUnmapWindow(__glutDisplay, window->win); - } else { - XWithdrawWindow(__glutDisplay, window->win, - __glutScreen); - } - window->shownState = 0; - break; - case NormalState: - XMapWindow(__glutDisplay, window->win); - window->shownState = 1; - break; -#ifdef _WIN32 - case GameModeState: /* Not an Xlib value. */ - ShowWindow(window->win, SW_SHOW); - window->shownState = 1; - break; -#endif - case IconicState: - XIconifyWindow(__glutDisplay, window->win, __glutScreen); - window->shownState = 0; - break; - } - } - } - if (workMask & (GLUT_REDISPLAY_WORK | GLUT_OVERLAY_REDISPLAY_WORK | GLUT_REPAIR_WORK | GLUT_OVERLAY_REPAIR_WORK)) { - if (window->forceReshape) { - /* Guarantee that before a display callback is generated - for a window, a reshape callback must be generated. */ - __glutSetWindow(window); - window->reshape(window->width, window->height); - window->forceReshape = False; - - /* Setting the redisplay bit on the first reshape is - necessary to make the "Mesa glXSwapBuffers to repair - damage" hack operate correctly. Without indicating a - redisplay is necessary, there's not an initial back - buffer render from which to blit from when damage - happens to the window. */ - workMask |= GLUT_REDISPLAY_WORK; - } - /* The code below is more involved than otherwise necessary - because it is paranoid about the overlay or entire window - being removed or destroyed in the course of the callbacks. - Notice how the global __glutWindowDamaged is used to record - the layers' damage status. See the code in glutLayerGet for - how __glutWindowDamaged is used. The point is to not have to - update the "damaged" field after the callback since the - window (or overlay) may be destroyed (or removed) when the - callback returns. */ - - if (window->overlay && window->overlay->display) { - int num = window->num; - Window xid = window->overlay ? window->overlay->win : None; - - /* If an overlay display callback is registered, we - differentiate between a redisplay needed for the - overlay and/or normal plane. If there is no overlay - display callback registered, we simply use the - standard display callback. */ - - if (workMask & (GLUT_REDISPLAY_WORK | GLUT_REPAIR_WORK)) { - if (__glutMesaSwapHackSupport) { - if (window->usedSwapBuffers) { - if ((workMask & (GLUT_REPAIR_WORK | GLUT_REDISPLAY_WORK)) == GLUT_REPAIR_WORK) { - SWAP_BUFFERS_WINDOW(window); - goto skippedDisplayCallback1; - } - } - } - /* Render to normal plane. */ -#ifdef _WIN32 - window->renderDc = window->hdc; -#endif - window->renderWin = window->win; - window->renderCtx = window->ctx; - __glutWindowDamaged = (workMask & GLUT_REPAIR_WORK); - __glutSetWindow(window); - window->usedSwapBuffers = 0; - window->display(); - __glutWindowDamaged = 0; - - skippedDisplayCallback1:; - } - if (workMask & (GLUT_OVERLAY_REDISPLAY_WORK | GLUT_OVERLAY_REPAIR_WORK)) { - window = __glutWindowList[num]; - if (window && window->overlay && - window->overlay->win == xid && window->overlay->display) { - - /* Render to overlay. */ -#ifdef _WIN32 - window->renderDc = window->overlay->hdc; -#endif - window->renderWin = window->overlay->win; - window->renderCtx = window->overlay->ctx; - __glutWindowDamaged = (workMask & GLUT_OVERLAY_REPAIR_WORK); - __glutSetWindow(window); - window->overlay->display(); - __glutWindowDamaged = 0; - } else { - /* Overlay may have since been destroyed or the - overlay callback may have been disabled during - normal display callback. */ - } - } - } else { - if (__glutMesaSwapHackSupport) { - if (!window->overlay && window->usedSwapBuffers) { - if ((workMask & (GLUT_REPAIR_WORK | GLUT_REDISPLAY_WORK)) == GLUT_REPAIR_WORK) { - SWAP_BUFFERS_WINDOW(window); - goto skippedDisplayCallback2; - } - } - } - /* Render to normal plane (and possibly overlay). */ - __glutWindowDamaged = (workMask & (GLUT_OVERLAY_REPAIR_WORK | GLUT_REPAIR_WORK)); - __glutSetWindow(window); - window->usedSwapBuffers = 0; - window->display(); - __glutWindowDamaged = 0; - - skippedDisplayCallback2:; - } - } - /* Combine workMask with window->workMask to determine what - finish and debug work there is. */ - workMask |= window->workMask; - - if (workMask & GLUT_FINISH_WORK) { - /* Finish work makes sure a glFinish gets done to indirect - rendering contexts. Indirect contexts tend to have much - longer latency because lots of OpenGL extension requests - can queue up in the X protocol stream. __glutSetWindow - is where the finish works gets queued for indirect - contexts. */ - __glutSetWindow(window); - glFinish(); - } - if (workMask & GLUT_DEBUG_WORK) { - __glutSetWindow(window); - glutReportErrors(); - } - /* Strip out dummy, finish, and debug work bits. */ - window->workMask &= ~(GLUT_DUMMY_WORK | GLUT_FINISH_WORK | GLUT_DEBUG_WORK); - if (window->workMask) { - /* Leave on work list. */ - return window; - } else { - /* Remove current window from work list. */ - return window->prevWorkWin; - } -} - -#ifndef _WIN32 -static /* X11 implementations do not need this global. */ -#endif -void -__glutProcessWindowWorkLists(void) -{ - if (__glutWindowWorkList) { - GLUTwindow *remainder, *work; - - work = __glutWindowWorkList; - __glutWindowWorkList = NULL; - if (work) { - remainder = processWindowWorkList(work); - if (remainder) { - *beforeEnd = __glutWindowWorkList; - __glutWindowWorkList = remainder; - } - } - } -} - -/* CENTRY */ -void GLUTAPIENTRY -glutMainLoop(void) -{ -#if !defined(_WIN32) - if (!__glutDisplay) - __glutFatalUsage("main loop entered with out proper initialization."); -#endif - if (!__glutWindowListSize) - __glutFatalUsage( - "main loop entered with no windows created."); - for (;;) { - __glutProcessWindowWorkLists(); - if (__glutIdleFunc || __glutWindowWorkList) { - idleWait(); - } else { - if (__glutTimerList) { - waitForSomething(); - } else { - processEventsAndTimeouts(); - } - } - } -} -/* ENDCENTRY */ |