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[wxWidgets.git] / src / unix / utilsx11.cpp
1 /////////////////////////////////////////////////////////////////////////////
2 // Name: src/unix/utilsx11.cpp
3 // Purpose: Miscellaneous X11 functions
4 // Author: Mattia Barbon, Vaclav Slavik, Robert Roebling
5 // Modified by:
6 // Created: 25.03.02
7 // RCS-ID: $Id$
8 // Copyright: (c) wxWidgets team
9 // Licence: wxWindows licence
10 /////////////////////////////////////////////////////////////////////////////
11
12 #if defined(__WXX11__) || defined(__WXGTK__) || defined(__WXMOTIF__)
13
14 // for compilers that support precompilation, includes "wx.h".
15 #include "wx/wxprec.h"
16
17 #include "wx/unix/utilsx11.h"
18
19 #ifndef WX_PRECOMP
20 #include "wx/log.h"
21 #include "wx/app.h"
22 #include "wx/icon.h"
23 #include "wx/image.h"
24 #endif
25
26 #include "wx/iconbndl.h"
27
28 #ifdef __VMS
29 #pragma message disable nosimpint
30 #endif
31 #include <X11/Xlib.h>
32 #include <X11/Xatom.h>
33 #include <X11/Xutil.h>
34 #ifdef __VMS
35 #pragma message enable nosimpint
36 #endif
37
38 #ifdef __WXGTK__
39 #include <gdk/gdk.h>
40 #include <gdk/gdkx.h>
41 #endif
42
43 // Various X11 Atoms used in this file:
44 static Atom _NET_WM_ICON = 0;
45 static Atom _NET_WM_STATE = 0;
46 static Atom _NET_WM_STATE_FULLSCREEN = 0;
47 static Atom _NET_WM_STATE_STAYS_ON_TOP = 0;
48 static Atom _NET_WM_WINDOW_TYPE = 0;
49 static Atom _NET_WM_WINDOW_TYPE_NORMAL = 0;
50 static Atom _KDE_NET_WM_WINDOW_TYPE_OVERRIDE = 0;
51 static Atom _WIN_LAYER = 0;
52 static Atom KWIN_RUNNING = 0;
53 #ifndef __WXGTK20__
54 static Atom _NET_SUPPORTING_WM_CHECK = 0;
55 static Atom _NET_SUPPORTED = 0;
56 #endif
57
58 #define wxMAKE_ATOM(name, display) \
59 if (name == 0) name = XInternAtom((display), #name, False)
60
61
62 // X11 Window is an int type, so use the macro to suppress warnings when
63 // converting to it
64 #define WindowCast(w) (Window)(wxPtrToUInt(w))
65
66 // Is the window mapped?
67 static bool IsMapped(Display *display, Window window)
68 {
69 XWindowAttributes attr;
70 XGetWindowAttributes(display, window, &attr);
71 return (attr.map_state != IsUnmapped);
72 }
73
74
75
76 // Suspends X11 errors. Used when we expect errors but they are not fatal
77 // for us.
78 extern "C"
79 {
80 typedef int (*wxX11ErrorHandler)(Display *, XErrorEvent *);
81
82 static int wxX11ErrorsSuspender_handler(Display*, XErrorEvent*) { return 0; }
83 }
84
85 class wxX11ErrorsSuspender
86 {
87 public:
88 wxX11ErrorsSuspender(Display *d) : m_display(d)
89 {
90 m_old = XSetErrorHandler(wxX11ErrorsSuspender_handler);
91 }
92 ~wxX11ErrorsSuspender()
93 {
94 XFlush(m_display);
95 XSetErrorHandler(m_old);
96 }
97
98 private:
99 Display *m_display;
100 wxX11ErrorHandler m_old;
101 };
102
103
104
105 // ----------------------------------------------------------------------------
106 // Setting icons for window manager:
107 // ----------------------------------------------------------------------------
108
109 void wxSetIconsX11( WXDisplay* display, WXWindow window,
110 const wxIconBundle& ib )
111 {
112 #if !wxUSE_NANOX
113 size_t size = 0;
114 size_t i, max = ib.m_icons.GetCount();
115
116 for( i = 0; i < max; ++i )
117 if( ib.m_icons[i].Ok() )
118 size += 2 + ib.m_icons[i].GetWidth() * ib.m_icons[i].GetHeight();
119
120 wxMAKE_ATOM(_NET_WM_ICON, (Display*)display);
121
122 if( size > 0 )
123 {
124 // The code below is correct for 64-bit machines also.
125 // wxUint32* data = new wxUint32[size];
126 // wxUint32* ptr = data;
127 unsigned long* data = new unsigned long[size];
128 unsigned long* ptr = data;
129
130 for( i = 0; i < max; ++i )
131 {
132 const wxImage image = ib.m_icons[i].ConvertToImage();
133 int width = image.GetWidth(), height = image.GetHeight();
134 unsigned char* imageData = image.GetData();
135 unsigned char* imageDataEnd = imageData + ( width * height * 3 );
136 bool hasMask = image.HasMask();
137 unsigned char rMask, gMask, bMask;
138 unsigned char r, g, b, a;
139
140 if( hasMask )
141 {
142 rMask = image.GetMaskRed();
143 gMask = image.GetMaskGreen();
144 bMask = image.GetMaskBlue();
145 }
146 else // no mask, but still init the variables to avoid warnings
147 {
148 rMask =
149 gMask =
150 bMask = 0;
151 }
152
153 *ptr++ = width;
154 *ptr++ = height;
155
156 while( imageData < imageDataEnd ) {
157 r = imageData[0];
158 g = imageData[1];
159 b = imageData[2];
160 if( hasMask && r == rMask && g == gMask && b == bMask )
161 a = 0;
162 else
163 a = 255;
164
165 *ptr++ = ( a << 24 ) | ( r << 16 ) | ( g << 8 ) | b;
166
167 imageData += 3;
168 }
169 }
170
171 XChangeProperty( (Display*)display,
172 WindowCast(window),
173 _NET_WM_ICON,
174 XA_CARDINAL, 32,
175 PropModeReplace,
176 (unsigned char*)data, size );
177 delete[] data;
178 }
179 else
180 {
181 XDeleteProperty( (Display*)display,
182 WindowCast(window),
183 _NET_WM_ICON );
184 }
185 #endif // !wxUSE_NANOX
186 }
187
188
189 // ----------------------------------------------------------------------------
190 // Fullscreen mode:
191 // ----------------------------------------------------------------------------
192
193 // NB: Setting fullscreen mode under X11 is a complicated matter. There was
194 // no standard way of doing it until recently. ICCCM doesn't know the
195 // concept of fullscreen windows and the only way to make a window
196 // fullscreen is to remove decorations, resize it to cover entire screen
197 // and set WIN_LAYER_ABOVE_DOCK.
198 //
199 // This doesn't always work, though. Specifically, at least kwin from
200 // KDE 3 ignores the hint. The only way to make kwin accept our request
201 // is to emulate the way Qt does it. That is, unmap the window, set
202 // _NET_WM_WINDOW_TYPE to _KDE_NET_WM_WINDOW_TYPE_OVERRIDE (KDE extension),
203 // add _NET_WM_STATE_STAYS_ON_TOP (ditto) to _NET_WM_STATE and map
204 // the window again.
205 //
206 // Version 1.2 of Window Manager Specification (aka wm-spec aka
207 // Extended Window Manager Hints) introduced _NET_WM_STATE_FULLSCREEN
208 // window state which provides cleanest and simplest possible way of
209 // making a window fullscreen. WM-spec is a de-facto standard adopted
210 // by GNOME and KDE folks, but _NET_WM_STATE_FULLSCREEN isn't yet widely
211 // supported. As of January 2003, only GNOME 2's default WM Metacity
212 // implements, KDE will support it from version 3.2. At toolkits level,
213 // GTK+ >= 2.1.2 uses it as the only method of making windows fullscreen
214 // (that's why wxGTK will *not* switch to using gtk_window_fullscreen
215 // unless it has better compatibility with older WMs).
216 //
217 //
218 // This is what wxWidgets does in wxSetFullScreenStateX11:
219 // 1) if _NET_WM_STATE_FULLSCREEN is supported, use it
220 // 2) otherwise try WM-specific hacks (KDE, IceWM)
221 // 3) use _WIN_LAYER and hope that the WM will recognize it
222 // The code was tested with:
223 // twm, IceWM, WindowMaker, Metacity, kwin, sawfish, lesstif-mwm
224
225
226 #define WIN_LAYER_NORMAL 4
227 #define WIN_LAYER_ABOVE_DOCK 10
228
229 static void wxWinHintsSetLayer(Display *display, Window rootWnd,
230 Window window, int layer)
231 {
232 wxX11ErrorsSuspender noerrors(display);
233
234 XEvent xev;
235
236 wxMAKE_ATOM( _WIN_LAYER, display );
237
238 if (IsMapped(display, window))
239 {
240 xev.type = ClientMessage;
241 xev.xclient.type = ClientMessage;
242 xev.xclient.window = window;
243 xev.xclient.message_type = _WIN_LAYER;
244 xev.xclient.format = 32;
245 xev.xclient.data.l[0] = (long)layer;
246 xev.xclient.data.l[1] = CurrentTime;
247
248 XSendEvent(display, rootWnd, False,
249 SubstructureNotifyMask, (XEvent*) &xev);
250 }
251 else
252 {
253 long data[1];
254
255 data[0] = layer;
256 XChangeProperty(display, window,
257 _WIN_LAYER, XA_CARDINAL, 32,
258 PropModeReplace, (unsigned char *)data, 1);
259 }
260 }
261
262
263
264 #ifdef __WXGTK20__
265 static bool wxQueryWMspecSupport(Display* WXUNUSED(display),
266 Window WXUNUSED(rootWnd),
267 Atom (feature))
268 {
269 GdkAtom gatom = gdk_x11_xatom_to_atom(feature);
270 return gdk_net_wm_supports(gatom);
271 }
272 #else
273 static bool wxQueryWMspecSupport(Display *display, Window rootWnd, Atom feature)
274 {
275 wxMAKE_ATOM(_NET_SUPPORTING_WM_CHECK, display);
276 wxMAKE_ATOM(_NET_SUPPORTED, display);
277
278 // FIXME: We may want to cache these checks. Note that we can't simply
279 // remember the results in global variable because the WM may go
280 // away and be replaced by another one! One possible approach
281 // would be invalidate the case every 15 seconds or so. Since this
282 // code is currently only used by wxTopLevelWindow::ShowFullScreen,
283 // it is not important that it is not optimized.
284 //
285 // If the WM supports ICCCM (i.e. the root window has
286 // _NET_SUPPORTING_WM_CHECK property that points to a WM-owned
287 // window), we could watch for DestroyNotify event on the window
288 // and invalidate our cache when the windows goes away (= WM
289 // is replaced by another one). This is what GTK+ 2 does.
290 // Let's do it only if it is needed, it requires changes to
291 // the event loop.
292
293 Atom type;
294 Window *wins;
295 Atom *atoms;
296 int format;
297 unsigned long after;
298 unsigned long nwins, natoms;
299
300 // Is the WM ICCCM supporting?
301 XGetWindowProperty(display, rootWnd,
302 _NET_SUPPORTING_WM_CHECK, 0, LONG_MAX,
303 False, XA_WINDOW, &type, &format, &nwins,
304 &after, (unsigned char **)&wins);
305 if ( type != XA_WINDOW || nwins <= 0 || wins[0] == None )
306 return false;
307 XFree(wins);
308
309 // Query for supported features:
310 XGetWindowProperty(display, rootWnd,
311 _NET_SUPPORTED, 0, LONG_MAX,
312 False, XA_ATOM, &type, &format, &natoms,
313 &after, (unsigned char **)&atoms);
314 if ( type != XA_ATOM || atoms == NULL )
315 return false;
316
317 // Lookup the feature we want:
318 for (unsigned i = 0; i < natoms; i++)
319 {
320 if ( atoms[i] == feature )
321 {
322 XFree(atoms);
323 return true;
324 }
325 }
326 XFree(atoms);
327 return false;
328 }
329 #endif
330
331
332 #define _NET_WM_STATE_REMOVE 0
333 #define _NET_WM_STATE_ADD 1
334
335 static void wxWMspecSetState(Display *display, Window rootWnd,
336 Window window, int operation, Atom state)
337 {
338 wxMAKE_ATOM(_NET_WM_STATE, display);
339
340 if ( IsMapped(display, window) )
341 {
342 XEvent xev;
343 xev.type = ClientMessage;
344 xev.xclient.type = ClientMessage;
345 xev.xclient.serial = 0;
346 xev.xclient.send_event = True;
347 xev.xclient.display = display;
348 xev.xclient.window = window;
349 xev.xclient.message_type = _NET_WM_STATE;
350 xev.xclient.format = 32;
351 xev.xclient.data.l[0] = operation;
352 xev.xclient.data.l[1] = state;
353 xev.xclient.data.l[2] = None;
354
355 XSendEvent(display, rootWnd,
356 False,
357 SubstructureRedirectMask | SubstructureNotifyMask,
358 &xev);
359 }
360 // FIXME - must modify _NET_WM_STATE property list if the window
361 // wasn't mapped!
362 }
363
364 static void wxWMspecSetFullscreen(Display *display, Window rootWnd,
365 Window window, bool fullscreen)
366 {
367 wxMAKE_ATOM(_NET_WM_STATE_FULLSCREEN, display);
368 wxWMspecSetState(display, rootWnd,
369 window,
370 fullscreen ? _NET_WM_STATE_ADD : _NET_WM_STATE_REMOVE,
371 _NET_WM_STATE_FULLSCREEN);
372 }
373
374
375 // Is the user running KDE's kwin window manager? At least kwin from KDE 3
376 // sets KWIN_RUNNING property on the root window.
377 static bool wxKwinRunning(Display *display, Window rootWnd)
378 {
379 wxMAKE_ATOM(KWIN_RUNNING, display);
380
381 long *data;
382 Atom type;
383 int format;
384 unsigned long nitems, after;
385 if (XGetWindowProperty(display, rootWnd,
386 KWIN_RUNNING, 0, 1, False, KWIN_RUNNING,
387 &type, &format, &nitems, &after,
388 (unsigned char**)&data) != Success)
389 {
390 return false;
391 }
392
393 bool retval = (type == KWIN_RUNNING &&
394 nitems == 1 && data && data[0] == 1);
395 XFree(data);
396 return retval;
397 }
398
399 // KDE's kwin is Qt-centric so much than no normal method of fullscreen
400 // mode will work with it. We have to carefully emulate the Qt way.
401 static void wxSetKDEFullscreen(Display *display, Window rootWnd,
402 Window w, bool fullscreen, wxRect *origRect)
403 {
404 long data[2];
405 unsigned lng;
406
407 wxMAKE_ATOM(_NET_WM_WINDOW_TYPE, display);
408 wxMAKE_ATOM(_NET_WM_WINDOW_TYPE_NORMAL, display);
409 wxMAKE_ATOM(_KDE_NET_WM_WINDOW_TYPE_OVERRIDE, display);
410 wxMAKE_ATOM(_NET_WM_STATE_STAYS_ON_TOP, display);
411
412 if (fullscreen)
413 {
414 data[0] = _KDE_NET_WM_WINDOW_TYPE_OVERRIDE;
415 data[1] = _NET_WM_WINDOW_TYPE_NORMAL;
416 lng = 2;
417 }
418 else
419 {
420 data[0] = _NET_WM_WINDOW_TYPE_NORMAL;
421 data[1] = None;
422 lng = 1;
423 }
424
425 // it is necessary to unmap the window, otherwise kwin will ignore us:
426 XSync(display, False);
427
428 bool wasMapped = IsMapped(display, w);
429 if (wasMapped)
430 {
431 XUnmapWindow(display, w);
432 XSync(display, False);
433 }
434
435 XChangeProperty(display, w, _NET_WM_WINDOW_TYPE, XA_ATOM, 32,
436 PropModeReplace, (unsigned char *) &data[0], lng);
437 XSync(display, False);
438
439 if (wasMapped)
440 {
441 XMapRaised(display, w);
442 XSync(display, False);
443 }
444
445 wxWMspecSetState(display, rootWnd, w,
446 fullscreen ? _NET_WM_STATE_ADD : _NET_WM_STATE_REMOVE,
447 _NET_WM_STATE_STAYS_ON_TOP);
448 XSync(display, False);
449
450 if (!fullscreen)
451 {
452 // NB: like many other WMs, kwin ignores the first request for a window
453 // position change after the window was mapped. This additional
454 // move+resize event will ensure that the window is restored in
455 // exactly the same position as before it was made fullscreen
456 // (because wxTopLevelWindow::ShowFullScreen will call SetSize, thus
457 // setting the position for the second time).
458 XMoveResizeWindow(display, w,
459 origRect->x, origRect->y,
460 origRect->width, origRect->height);
461 XSync(display, False);
462 }
463 }
464
465
466 wxX11FullScreenMethod wxGetFullScreenMethodX11(WXDisplay* display,
467 WXWindow rootWindow)
468 {
469 Window root = WindowCast(rootWindow);
470 Display *disp = (Display*)display;
471
472 // if WM supports _NET_WM_STATE_FULLSCREEN from wm-spec 1.2, use it:
473 wxMAKE_ATOM(_NET_WM_STATE_FULLSCREEN, disp);
474 if (wxQueryWMspecSupport(disp, root, _NET_WM_STATE_FULLSCREEN))
475 {
476 wxLogTrace(_T("fullscreen"),
477 _T("detected _NET_WM_STATE_FULLSCREEN support"));
478 return wxX11_FS_WMSPEC;
479 }
480
481 // if the user is running KDE's kwin WM, use a legacy hack because
482 // kwin doesn't understand any other method:
483 if (wxKwinRunning(disp, root))
484 {
485 wxLogTrace(_T("fullscreen"), _T("detected kwin"));
486 return wxX11_FS_KDE;
487 }
488
489 // finally, fall back to ICCCM heuristic method:
490 wxLogTrace(_T("fullscreen"), _T("unknown WM, using _WIN_LAYER"));
491 return wxX11_FS_GENERIC;
492 }
493
494
495 void wxSetFullScreenStateX11(WXDisplay* display, WXWindow rootWindow,
496 WXWindow window, bool show,
497 wxRect *origRect,
498 wxX11FullScreenMethod method)
499 {
500 // NB: please see the comment under "Fullscreen mode:" title above
501 // for implications of changing this code.
502
503 Window wnd = WindowCast(window);
504 Window root = WindowCast(rootWindow);
505 Display *disp = (Display*)display;
506
507 if (method == wxX11_FS_AUTODETECT)
508 method = wxGetFullScreenMethodX11(display, rootWindow);
509
510 switch (method)
511 {
512 case wxX11_FS_WMSPEC:
513 wxWMspecSetFullscreen(disp, root, wnd, show);
514 break;
515 case wxX11_FS_KDE:
516 wxSetKDEFullscreen(disp, root, wnd, show, origRect);
517 break;
518 default:
519 wxWinHintsSetLayer(disp, root, wnd,
520 show ? WIN_LAYER_ABOVE_DOCK : WIN_LAYER_NORMAL);
521 break;
522 }
523 }
524
525
526
527 // ----------------------------------------------------------------------------
528 // keycode translations
529 // ----------------------------------------------------------------------------
530
531 #include <X11/keysym.h>
532
533 // FIXME what about tables??
534
535 int wxCharCodeXToWX(KeySym keySym)
536 {
537 int id;
538 switch (keySym)
539 {
540 case XK_Shift_L:
541 case XK_Shift_R:
542 id = WXK_SHIFT; break;
543 case XK_Control_L:
544 case XK_Control_R:
545 id = WXK_CONTROL; break;
546 case XK_Meta_L:
547 case XK_Meta_R:
548 id = WXK_ALT; break;
549 case XK_Caps_Lock:
550 id = WXK_CAPITAL; break;
551 case XK_BackSpace:
552 id = WXK_BACK; break;
553 case XK_Delete:
554 id = WXK_DELETE; break;
555 case XK_Clear:
556 id = WXK_CLEAR; break;
557 case XK_Tab:
558 id = WXK_TAB; break;
559 case XK_numbersign:
560 id = '#'; break;
561 case XK_Return:
562 id = WXK_RETURN; break;
563 case XK_Escape:
564 id = WXK_ESCAPE; break;
565 case XK_Pause:
566 case XK_Break:
567 id = WXK_PAUSE; break;
568 case XK_Num_Lock:
569 id = WXK_NUMLOCK; break;
570 case XK_Scroll_Lock:
571 id = WXK_SCROLL; break;
572
573 case XK_Home:
574 id = WXK_HOME; break;
575 case XK_End:
576 id = WXK_END; break;
577 case XK_Left:
578 id = WXK_LEFT; break;
579 case XK_Right:
580 id = WXK_RIGHT; break;
581 case XK_Up:
582 id = WXK_UP; break;
583 case XK_Down:
584 id = WXK_DOWN; break;
585 case XK_Next:
586 id = WXK_PAGEDOWN; break;
587 case XK_Prior:
588 id = WXK_PAGEUP; break;
589 case XK_Menu:
590 id = WXK_MENU; break;
591 case XK_Select:
592 id = WXK_SELECT; break;
593 case XK_Cancel:
594 id = WXK_CANCEL; break;
595 case XK_Print:
596 id = WXK_PRINT; break;
597 case XK_Execute:
598 id = WXK_EXECUTE; break;
599 case XK_Insert:
600 id = WXK_INSERT; break;
601 case XK_Help:
602 id = WXK_HELP; break;
603
604 case XK_KP_Multiply:
605 id = WXK_NUMPAD_MULTIPLY; break;
606 case XK_KP_Add:
607 id = WXK_NUMPAD_ADD; break;
608 case XK_KP_Subtract:
609 id = WXK_NUMPAD_SUBTRACT; break;
610 case XK_KP_Divide:
611 id = WXK_NUMPAD_DIVIDE; break;
612 case XK_KP_Decimal:
613 id = WXK_NUMPAD_DECIMAL; break;
614 case XK_KP_Equal:
615 id = WXK_NUMPAD_EQUAL; break;
616 case XK_KP_Space:
617 id = WXK_NUMPAD_SPACE; break;
618 case XK_KP_Tab:
619 id = WXK_NUMPAD_TAB; break;
620 case XK_KP_Enter:
621 id = WXK_NUMPAD_ENTER; break;
622 case XK_KP_0:
623 id = WXK_NUMPAD0; break;
624 case XK_KP_1:
625 id = WXK_NUMPAD1; break;
626 case XK_KP_2:
627 id = WXK_NUMPAD2; break;
628 case XK_KP_3:
629 id = WXK_NUMPAD3; break;
630 case XK_KP_4:
631 id = WXK_NUMPAD4; break;
632 case XK_KP_5:
633 id = WXK_NUMPAD5; break;
634 case XK_KP_6:
635 id = WXK_NUMPAD6; break;
636 case XK_KP_7:
637 id = WXK_NUMPAD7; break;
638 case XK_KP_8:
639 id = WXK_NUMPAD8; break;
640 case XK_KP_9:
641 id = WXK_NUMPAD9; break;
642 case XK_KP_Insert:
643 id = WXK_NUMPAD_INSERT; break;
644 case XK_KP_End:
645 id = WXK_NUMPAD_END; break;
646 case XK_KP_Down:
647 id = WXK_NUMPAD_DOWN; break;
648 case XK_KP_Page_Down:
649 id = WXK_NUMPAD_PAGEDOWN; break;
650 case XK_KP_Left:
651 id = WXK_NUMPAD_LEFT; break;
652 case XK_KP_Right:
653 id = WXK_NUMPAD_RIGHT; break;
654 case XK_KP_Home:
655 id = WXK_NUMPAD_HOME; break;
656 case XK_KP_Up:
657 id = WXK_NUMPAD_UP; break;
658 case XK_KP_Page_Up:
659 id = WXK_NUMPAD_PAGEUP; break;
660 case XK_F1:
661 id = WXK_F1; break;
662 case XK_F2:
663 id = WXK_F2; break;
664 case XK_F3:
665 id = WXK_F3; break;
666 case XK_F4:
667 id = WXK_F4; break;
668 case XK_F5:
669 id = WXK_F5; break;
670 case XK_F6:
671 id = WXK_F6; break;
672 case XK_F7:
673 id = WXK_F7; break;
674 case XK_F8:
675 id = WXK_F8; break;
676 case XK_F9:
677 id = WXK_F9; break;
678 case XK_F10:
679 id = WXK_F10; break;
680 case XK_F11:
681 id = WXK_F11; break;
682 case XK_F12:
683 id = WXK_F12; break;
684 case XK_F13:
685 id = WXK_F13; break;
686 case XK_F14:
687 id = WXK_F14; break;
688 case XK_F15:
689 id = WXK_F15; break;
690 case XK_F16:
691 id = WXK_F16; break;
692 case XK_F17:
693 id = WXK_F17; break;
694 case XK_F18:
695 id = WXK_F18; break;
696 case XK_F19:
697 id = WXK_F19; break;
698 case XK_F20:
699 id = WXK_F20; break;
700 case XK_F21:
701 id = WXK_F21; break;
702 case XK_F22:
703 id = WXK_F22; break;
704 case XK_F23:
705 id = WXK_F23; break;
706 case XK_F24:
707 id = WXK_F24; break;
708 default:
709 id = (keySym <= 255) ? (int)keySym : -1;
710 }
711
712 return id;
713 }
714
715 KeySym wxCharCodeWXToX(int id)
716 {
717 KeySym keySym;
718
719 switch (id)
720 {
721 case WXK_CANCEL: keySym = XK_Cancel; break;
722 case WXK_BACK: keySym = XK_BackSpace; break;
723 case WXK_TAB: keySym = XK_Tab; break;
724 case WXK_CLEAR: keySym = XK_Clear; break;
725 case WXK_RETURN: keySym = XK_Return; break;
726 case WXK_SHIFT: keySym = XK_Shift_L; break;
727 case WXK_CONTROL: keySym = XK_Control_L; break;
728 case WXK_ALT: keySym = XK_Meta_L; break;
729 case WXK_CAPITAL: keySym = XK_Caps_Lock; break;
730 case WXK_MENU : keySym = XK_Menu; break;
731 case WXK_PAUSE: keySym = XK_Pause; break;
732 case WXK_ESCAPE: keySym = XK_Escape; break;
733 case WXK_SPACE: keySym = ' '; break;
734 case WXK_PAGEUP: keySym = XK_Prior; break;
735 case WXK_PAGEDOWN: keySym = XK_Next; break;
736 case WXK_END: keySym = XK_End; break;
737 case WXK_HOME : keySym = XK_Home; break;
738 case WXK_LEFT : keySym = XK_Left; break;
739 case WXK_UP: keySym = XK_Up; break;
740 case WXK_RIGHT: keySym = XK_Right; break;
741 case WXK_DOWN : keySym = XK_Down; break;
742 case WXK_SELECT: keySym = XK_Select; break;
743 case WXK_PRINT: keySym = XK_Print; break;
744 case WXK_EXECUTE: keySym = XK_Execute; break;
745 case WXK_INSERT: keySym = XK_Insert; break;
746 case WXK_DELETE: keySym = XK_Delete; break;
747 case WXK_HELP : keySym = XK_Help; break;
748 case WXK_NUMPAD0: keySym = XK_KP_0; break; case WXK_NUMPAD_INSERT: keySym = XK_KP_Insert; break;
749 case WXK_NUMPAD1: keySym = XK_KP_1; break; case WXK_NUMPAD_END: keySym = XK_KP_End; break;
750 case WXK_NUMPAD2: keySym = XK_KP_2; break; case WXK_NUMPAD_DOWN: keySym = XK_KP_Down; break;
751 case WXK_NUMPAD3: keySym = XK_KP_3; break; case WXK_NUMPAD_PAGEDOWN: keySym = XK_KP_Page_Down; break;
752 case WXK_NUMPAD4: keySym = XK_KP_4; break; case WXK_NUMPAD_LEFT: keySym = XK_KP_Left; break;
753 case WXK_NUMPAD5: keySym = XK_KP_5; break;
754 case WXK_NUMPAD6: keySym = XK_KP_6; break; case WXK_NUMPAD_RIGHT: keySym = XK_KP_Right; break;
755 case WXK_NUMPAD7: keySym = XK_KP_7; break; case WXK_NUMPAD_HOME: keySym = XK_KP_Home; break;
756 case WXK_NUMPAD8: keySym = XK_KP_8; break; case WXK_NUMPAD_UP: keySym = XK_KP_Up; break;
757 case WXK_NUMPAD9: keySym = XK_KP_9; break; case WXK_NUMPAD_PAGEUP: keySym = XK_KP_Page_Up; break;
758 case WXK_NUMPAD_DECIMAL: keySym = XK_KP_Decimal; break; case WXK_NUMPAD_DELETE: keySym = XK_KP_Delete; break;
759 case WXK_NUMPAD_MULTIPLY: keySym = XK_KP_Multiply; break;
760 case WXK_NUMPAD_ADD: keySym = XK_KP_Add; break;
761 case WXK_NUMPAD_SUBTRACT: keySym = XK_KP_Subtract; break;
762 case WXK_NUMPAD_DIVIDE: keySym = XK_KP_Divide; break;
763 case WXK_NUMPAD_ENTER: keySym = XK_KP_Enter; break;
764 case WXK_NUMPAD_SEPARATOR: keySym = XK_KP_Separator; break;
765 case WXK_F1: keySym = XK_F1; break;
766 case WXK_F2: keySym = XK_F2; break;
767 case WXK_F3: keySym = XK_F3; break;
768 case WXK_F4: keySym = XK_F4; break;
769 case WXK_F5: keySym = XK_F5; break;
770 case WXK_F6: keySym = XK_F6; break;
771 case WXK_F7: keySym = XK_F7; break;
772 case WXK_F8: keySym = XK_F8; break;
773 case WXK_F9: keySym = XK_F9; break;
774 case WXK_F10: keySym = XK_F10; break;
775 case WXK_F11: keySym = XK_F11; break;
776 case WXK_F12: keySym = XK_F12; break;
777 case WXK_F13: keySym = XK_F13; break;
778 case WXK_F14: keySym = XK_F14; break;
779 case WXK_F15: keySym = XK_F15; break;
780 case WXK_F16: keySym = XK_F16; break;
781 case WXK_F17: keySym = XK_F17; break;
782 case WXK_F18: keySym = XK_F18; break;
783 case WXK_F19: keySym = XK_F19; break;
784 case WXK_F20: keySym = XK_F20; break;
785 case WXK_F21: keySym = XK_F21; break;
786 case WXK_F22: keySym = XK_F22; break;
787 case WXK_F23: keySym = XK_F23; break;
788 case WXK_F24: keySym = XK_F24; break;
789 case WXK_NUMLOCK: keySym = XK_Num_Lock; break;
790 case WXK_SCROLL: keySym = XK_Scroll_Lock; break;
791 default: keySym = id <= 255 ? (KeySym)id : 0;
792 }
793
794 return keySym;
795 }
796
797
798 // ----------------------------------------------------------------------------
799 // check current state of a key
800 // ----------------------------------------------------------------------------
801
802 bool wxGetKeyState(wxKeyCode key)
803 {
804 wxASSERT_MSG(key != WXK_LBUTTON && key != WXK_RBUTTON && key !=
805 WXK_MBUTTON, wxT("can't use wxGetKeyState() for mouse buttons"));
806
807 #if defined(__WXX11__)
808 Display *pDisplay = (Display*) wxApp::GetDisplay();
809 #elif defined(__WXGTK__)
810 Display *pDisplay = GDK_DISPLAY();
811 #elif defined(__WXMOTIF__)
812 Display *pDisplay = (Display*) (wxTheApp ? wxTheApp->GetInitialDisplay() : NULL);
813 #else
814 #error Add code to get the DISPLAY for this platform
815 #endif
816
817 int iKey = wxCharCodeWXToX(key);
818 int iKeyMask = 0;
819 Window wDummy1, wDummy2;
820 int iDummy3, iDummy4, iDummy5, iDummy6;
821 unsigned int iMask;
822 XModifierKeymap* map = XGetModifierMapping(pDisplay);
823 KeyCode keyCode = XKeysymToKeycode(pDisplay,iKey);
824 if (keyCode == NoSymbol)
825 return false;
826
827 if ( IsModifierKey(iKey) ) // If iKey is a modifier key, use a different method
828 { for (int i = 0; i < 8; ++i)
829 {
830 if ( map->modifiermap[map->max_keypermod * i] == keyCode)
831 {
832 iKeyMask = 1 << i;
833 }
834 }
835
836 XQueryPointer(pDisplay, DefaultRootWindow(pDisplay), &wDummy1, &wDummy2,
837 &iDummy3, &iDummy4, &iDummy5, &iDummy6, &iMask );
838 XFreeModifiermap(map);
839 return (iMask & iKeyMask) != 0;
840 }
841 // From the XLib manual:
842 // The XQueryKeymap() function returns a bit vector for the logical state of the keyboard,
843 // where each bit set to 1 indicates that the corresponding key is currently pressed down.
844 // The vector is represented as 32 bytes. Byte N (from 0) contains the bits for keys 8N to 8N + 7
845 // with the least-significant bit in the byte representing key 8N.
846 char key_vector[32];
847 XQueryKeymap(pDisplay, key_vector);
848 return key_vector[keyCode >> 3] & (1 << (keyCode & 7));
849 }
850
851 #endif // __WXX11__ || __WXGTK__ || __WXMOTIF__