/* $XTermId: scrollbar.c,v 1.196 2013/02/26 23:36:05 tom Exp $ */ /* * Copyright 2000-2012,2013 by Thomas E. Dickey * * All Rights Reserved * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL THE ABOVE LISTED COPYRIGHT HOLDER(S) BE LIABLE FOR ANY * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * Except as contained in this notice, the name(s) of the above copyright * holders shall not be used in advertising or otherwise to promote the * sale, use or other dealings in this Software without prior written * authorization. * * * Copyright 1987 by Digital Equipment Corporation, Maynard, Massachusetts. * * All Rights Reserved * * Permission to use, copy, modify, and distribute this software and its * documentation for any purpose and without fee is hereby granted, * provided that the above copyright notice appear in all copies and that * both that copyright notice and this permission notice appear in * supporting documentation, and that the name of Digital Equipment * Corporation not be used in advertising or publicity pertaining to * distribution of the software without specific, written prior permission. * * * DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING * ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL * DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR * ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, * WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, * ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS * SOFTWARE. */ #include #include #if defined(HAVE_LIB_XAW) #include #elif defined(HAVE_LIB_XAW3D) #include #elif defined(HAVE_LIB_NEXTAW) #include #elif defined(HAVE_LIB_XAWPLUS) #include #endif #if defined(HAVE_XKBQUERYEXTENSION) #include #include #endif #include #include #include #include #include /* * The scrollbar's border overlaps the border of the vt100 window. If there * is no border for the vt100, there can be no border for the scrollbar. */ #define SCROLLBAR_BORDER(xw) (TScreenOf(xw)->scrollBarBorder) #if OPT_TOOLBAR #define ScrollBarBorder(xw) (BorderWidth(xw) ? SCROLLBAR_BORDER(xw) : 0) #else #define ScrollBarBorder(xw) SCROLLBAR_BORDER(xw) #endif /* Event handlers */ static void ScrollTextTo PROTO_XT_CALLBACK_ARGS; static void ScrollTextUpDownBy PROTO_XT_CALLBACK_ARGS; /* Resize the text window for a terminal screen, modifying the * appropriate WM_SIZE_HINTS and taking advantage of bit gravity. */ void DoResizeScreen(XtermWidget xw) { TScreen *screen = TScreenOf(xw); int border = 2 * screen->border; int min_wide = border + screen->fullVwin.sb_info.width; int min_high = border; XtGeometryResult geomreqresult; Dimension reqWidth, reqHeight, repWidth, repHeight; #ifndef NO_ACTIVE_ICON VTwin *saveWin = WhichVWin(screen); /* all units here want to be in the normal font units */ WhichVWin(screen) = &screen->fullVwin; #endif /* NO_ACTIVE_ICON */ /* * I'm going to try to explain, as I understand it, why we * have to do XGetWMNormalHints and XSetWMNormalHints here, * although I can't guarantee that I've got it right. * * In a correctly written toolkit program, the Shell widget * parses the user supplied geometry argument. However, * because of the way xterm does things, the VT100 widget does * the parsing of the geometry option, not the Shell widget. * The result of this is that the Shell widget doesn't set the * correct window manager hints, and doesn't know that the * user has specified a geometry. * * The XtVaSetValues call below tells the Shell widget to * change its hints. However, since it's confused about the * hints to begin with, it doesn't get them all right when it * does the SetValues -- it undoes some of what the VT100 * widget did when it originally set the hints. * * To fix this, we do the following: * * 1. Get the sizehints directly from the window, going around * the (confused) shell widget. * 2. Call XtVaSetValues to let the shell widget know which * hints have changed. Note that this may not even be * necessary, since we're going to right ahead after that * and set the hints ourselves, but it's good to put it * here anyway, so that when we finally do fix the code so * that the Shell does the right thing with hints, we * already have the XtVaSetValues in place. * 3. We set the sizehints directly, this fixing up whatever * damage was done by the Shell widget during the * XtVaSetValues. * * Gross, huh? * * The correct fix is to redo VTRealize, VTInitialize and * VTSetValues so that font processing happens early enough to * give back responsibility for the size hints to the Shell. * * Someday, we hope to have time to do this. Someday, we hope * to have time to completely rewrite xterm. */ TRACE(("DoResizeScreen\n")); #if 1 /* ndef nothack */ /* * NOTE: the hints and the XtVaSetValues() must match. */ TRACE(("%s@%d -- ", __FILE__, __LINE__)); TRACE_WM_HINTS(xw); getXtermSizeHints(xw); xtermSizeHints(xw, ScrollbarWidth(screen)); /* These are obsolete, but old clients may use them */ xw->hints.width = MaxCols(screen) * FontWidth(screen) + xw->hints.min_width; xw->hints.height = MaxRows(screen) * FontHeight(screen) + xw->hints.min_height; #if OPT_MAXIMIZE /* assure single-increment resize for fullscreen */ if (xw->work.ewmh[0].mode) { xw->hints.width_inc = 1; xw->hints.height_inc = 1; } #endif /* OPT_MAXIMIZE */ #endif XSetWMNormalHints(screen->display, VShellWindow(xw), &xw->hints); reqWidth = (Dimension) (MaxCols(screen) * FontWidth(screen) + min_wide); reqHeight = (Dimension) (MaxRows(screen) * FontHeight(screen) + min_high); #if OPT_MAXIMIZE /* compensate for fullscreen mode */ if (xw->work.ewmh[0].mode) { Screen *xscreen = DefaultScreenOfDisplay(xw->screen.display); reqWidth = (Dimension) WidthOfScreen(xscreen); reqHeight = (Dimension) HeightOfScreen(xscreen); ScreenResize(xw, reqWidth, reqHeight, &xw->flags); } #endif /* OPT_MAXIMIZE */ TRACE(("...requesting screensize chars %dx%d, pixels %dx%d\n", MaxRows(screen), MaxCols(screen), reqHeight, reqWidth)); geomreqresult = REQ_RESIZE((Widget) xw, reqWidth, reqHeight, &repWidth, &repHeight); if (geomreqresult == XtGeometryAlmost) { TRACE(("...almost, retry screensize %dx%d\n", repHeight, repWidth)); geomreqresult = REQ_RESIZE((Widget) xw, repWidth, repHeight, NULL, NULL); } if (geomreqresult != XtGeometryYes) { /* The resize wasn't successful, so we might need to adjust our idea of how large the screen is. */ TRACE(("...still no (%d) - resize the core-class\n", geomreqresult)); xw->core.widget_class->core_class.resize((Widget) xw); } #if 1 /* ndef nothack */ /* * XtMakeResizeRequest() has the undesirable side-effect of clearing * the window manager's hints, even on a failed request. This would * presumably be fixed if the shell did its own work. */ if (xw->hints.flags && repHeight && repWidth) { xw->hints.height = repHeight; xw->hints.width = repWidth; TRACE_HINTS(&xw->hints); XSetWMNormalHints(screen->display, VShellWindow(xw), &xw->hints); } #endif XSync(screen->display, False); /* synchronize */ if (xtermAppPending()) xevents(); #ifndef NO_ACTIVE_ICON WhichVWin(screen) = saveWin; #endif /* NO_ACTIVE_ICON */ } static Widget CreateScrollBar(XtermWidget xw, int x, int y, int height) { Widget result; Arg args[6]; XtSetArg(args[0], XtNx, x); XtSetArg(args[1], XtNy, y); XtSetArg(args[2], XtNheight, height); XtSetArg(args[3], XtNreverseVideo, xw->misc.re_verse); XtSetArg(args[4], XtNorientation, XtorientVertical); XtSetArg(args[5], XtNborderWidth, ScrollBarBorder(xw)); result = XtCreateWidget("scrollbar", scrollbarWidgetClass, (Widget) xw, args, XtNumber(args)); XtAddCallback(result, XtNscrollProc, ScrollTextUpDownBy, 0); XtAddCallback(result, XtNjumpProc, ScrollTextTo, 0); return (result); } void ScrollBarReverseVideo(Widget scrollWidget) { XtermWidget xw = getXtermWidget(scrollWidget); if (xw != 0) { SbInfo *sb = &(TScreenOf(xw)->fullVwin.sb_info); Arg args[4]; Cardinal nargs = XtNumber(args); /* * Remember the scrollbar's original colors. */ if (sb->rv_cached == False) { XtSetArg(args[0], XtNbackground, &(sb->bg)); XtSetArg(args[1], XtNforeground, &(sb->fg)); XtSetArg(args[2], XtNborderColor, &(sb->bdr)); XtSetArg(args[3], XtNborderPixmap, &(sb->bdpix)); XtGetValues(scrollWidget, args, nargs); sb->rv_cached = True; sb->rv_active = 0; } sb->rv_active = !(sb->rv_active); if (sb->rv_active) { XtSetArg(args[0], XtNbackground, sb->fg); XtSetArg(args[1], XtNforeground, sb->bg); } else { XtSetArg(args[0], XtNbackground, sb->bg); XtSetArg(args[1], XtNforeground, sb->fg); } nargs = 2; /* don't set border_pixmap */ if (sb->bdpix == XtUnspecifiedPixmap) { /* if not pixmap then pixel */ if (sb->rv_active) { /* keep border visible */ XtSetArg(args[2], XtNborderColor, args[1].value); } else { XtSetArg(args[2], XtNborderColor, sb->bdr); } nargs = 3; } XtSetValues(scrollWidget, args, nargs); } } void ScrollBarDrawThumb(Widget scrollWidget) { XtermWidget xw = getXtermWidget(scrollWidget); if (xw != 0) { TScreen *screen = TScreenOf(xw); int thumbTop, thumbHeight, totalHeight; thumbTop = ROW2INX(screen, screen->savedlines); thumbHeight = MaxRows(screen); totalHeight = thumbHeight + screen->savedlines; XawScrollbarSetThumb(scrollWidget, ((float) thumbTop) / (float) totalHeight, ((float) thumbHeight) / (float) totalHeight); } } void ResizeScrollBar(XtermWidget xw) { TScreen *screen = TScreenOf(xw); if (screen->scrollWidget != 0) { int height = screen->fullVwin.height + screen->border * 2; int width = screen->scrollWidget->core.width; int ypos = -ScrollBarBorder(xw); #ifdef SCROLLBAR_RIGHT int xpos = ((xw->misc.useRight) ? (screen->fullVwin.fullwidth - screen->scrollWidget->core.width - BorderWidth(screen->scrollWidget)) : -ScrollBarBorder(xw)); #else int xpos = -ScrollBarBorder(xw); #endif TRACE(("ResizeScrollBar at %d,%d %dx%d\n", ypos, xpos, height, width)); XtConfigureWidget( screen->scrollWidget, (Position) xpos, (Position) ypos, (Dimension) width, (Dimension) height, BorderWidth(screen->scrollWidget)); ScrollBarDrawThumb(screen->scrollWidget); } } void WindowScroll(XtermWidget xw, int top, Bool always GCC_UNUSED) { TScreen *screen = TScreenOf(xw); int i, lines; int scrolltop, scrollheight, refreshtop; #if OPT_SCROLL_LOCK if (screen->allowScrollLock && (screen->scroll_lock && !always)) { if (screen->scroll_dirty) { screen->scroll_dirty = False; ScrnRefresh(xw, 0, 0, MaxRows(screen), MaxCols(screen), False); } } else #endif { if (top < -screen->savedlines) { top = -screen->savedlines; } else if (top > 0) { top = 0; } if ((i = screen->topline - top) != 0) { if (screen->cursor_state) HideCursor(); lines = i > 0 ? i : -i; if (lines > MaxRows(screen)) lines = MaxRows(screen); scrollheight = screen->max_row - lines + 1; if (i > 0) refreshtop = scrolltop = 0; else { scrolltop = lines; refreshtop = scrollheight; } scrolling_copy_area(xw, scrolltop, scrollheight, -i); screen->topline = top; ScrollSelection(screen, i, True); #if OPT_DOUBLE_BUFFER XFillRectangle(screen->display, VDrawable(screen), ReverseGC(xw, screen), OriginX(screen), OriginY(screen) + refreshtop * FontHeight(screen), (unsigned) Width(screen), (unsigned) (lines * FontHeight(screen))); #else XClearArea(screen->display, VWindow(screen), OriginX(screen), OriginY(screen) + refreshtop * FontHeight(screen), (unsigned) Width(screen), (unsigned) (lines * FontHeight(screen)), False); #endif ScrnRefresh(xw, refreshtop, 0, lines, MaxCols(screen), False); #if OPT_BLINK_CURS || OPT_BLINK_TEXT RestartBlinking(screen); #endif } } ScrollBarDrawThumb(screen->scrollWidget); } #ifdef SCROLLBAR_RIGHT /* * Adjust the scrollbar position if we're asked to turn on scrollbars for the * first time (or after resizing) after the xterm is already running. That * makes the window grow after we've initially configured the scrollbar's * position. (There must be a better way). */ void updateRightScrollbar(XtermWidget xw) { TScreen *screen = TScreenOf(xw); if (xw->misc.useRight && screen->fullVwin.fullwidth < xw->core.width) XtVaSetValues(screen->scrollWidget, XtNx, screen->fullVwin.fullwidth - BorderWidth(screen->scrollWidget), (XtPointer) 0); } #endif void ScrollBarOn(XtermWidget xw, Bool init) { TScreen *screen = TScreenOf(xw); if (screen->fullVwin.sb_info.width || IsIcon(screen)) return; TRACE(("ScrollBarOn(init %s)\n", BtoS(init))); if (init) { /* then create it only */ if (screen->scrollWidget == 0) { /* make it a dummy size and resize later */ screen->scrollWidget = CreateScrollBar(xw, -ScrollBarBorder(xw), -ScrollBarBorder(xw), 5); if (screen->scrollWidget == NULL) { Bell(xw, XkbBI_MinorError, 0); } } } else if (!screen->scrollWidget || !XtIsRealized((Widget) xw)) { Bell(xw, XkbBI_MinorError, 0); Bell(xw, XkbBI_MinorError, 0); } else { ResizeScrollBar(xw); xtermAddInput(screen->scrollWidget); XtRealizeWidget(screen->scrollWidget); TRACE_TRANS("scrollbar", screen->scrollWidget); screen->fullVwin.sb_info.rv_cached = False; screen->fullVwin.sb_info.width = (screen->scrollWidget->core.width + BorderWidth(screen->scrollWidget)); TRACE(("setting scrollbar width %d = %d + %d\n", screen->fullVwin.sb_info.width, screen->scrollWidget->core.width, BorderWidth(screen->scrollWidget))); ScrollBarDrawThumb(screen->scrollWidget); DoResizeScreen(xw); #ifdef SCROLLBAR_RIGHT updateRightScrollbar(xw); #endif XtMapWidget(screen->scrollWidget); update_scrollbar(); if (screen->visbuf) { xtermClear(xw); Redraw(); } } } void ScrollBarOff(XtermWidget xw) { TScreen *screen = TScreenOf(xw); if (!screen->fullVwin.sb_info.width || IsIcon(screen)) return; TRACE(("ScrollBarOff\n")); if (XtIsRealized((Widget) xw)) { XtUnmapWidget(screen->scrollWidget); screen->fullVwin.sb_info.width = 0; DoResizeScreen(xw); update_scrollbar(); if (screen->visbuf) { xtermClear(xw); Redraw(); } } else { Bell(xw, XkbBI_MinorError, 0); } } /* * Toggle the visibility of the scrollbars. */ void ToggleScrollBar(XtermWidget xw) { TScreen *screen = TScreenOf(xw); if (IsIcon(screen)) { Bell(xw, XkbBI_MinorError, 0); } else { TRACE(("ToggleScrollBar{{\n")); if (screen->fullVwin.sb_info.width) { ScrollBarOff(xw); } else { ScrollBarOn(xw, False); } update_scrollbar(); TRACE(("...ToggleScrollBar}}\n")); } } /*ARGSUSED*/ static void ScrollTextTo( Widget scrollbarWidget, XtPointer client_data GCC_UNUSED, XtPointer call_data) { XtermWidget xw = getXtermWidget(scrollbarWidget); if (xw != 0) { float *topPercent = (float *) call_data; TScreen *screen = TScreenOf(xw); int thumbTop; /* relative to first saved line */ int newTopLine; /* * screen->savedlines : Number of offscreen text lines, * MaxRows(screen) : Number of onscreen text lines, */ thumbTop = (int) (*topPercent * (float) (screen->savedlines + MaxRows(screen))); newTopLine = thumbTop - screen->savedlines; WindowScroll(xw, newTopLine, True); } } /*ARGSUSED*/ static void ScrollTextUpDownBy( Widget scrollbarWidget, XtPointer client_data GCC_UNUSED, XtPointer call_data) { XtermWidget xw = getXtermWidget(scrollbarWidget); if (xw != 0) { long pixels = (long) call_data; TScreen *screen = TScreenOf(xw); int rowOnScreen, newTopLine; rowOnScreen = (int) (pixels / FontHeight(screen)); if (rowOnScreen == 0) { if (pixels < 0) rowOnScreen = -1; else if (pixels > 0) rowOnScreen = 1; } newTopLine = ROW2INX(screen, rowOnScreen); WindowScroll(xw, newTopLine, True); } } /* * assume that b is alphabetic and allow plural */ static int CompareWidths(const char *a, const char *b, int *modifier) { int result; char ca, cb; *modifier = 0; if (!a || !b) return 0; for (;;) { ca = x_toupper(*a); cb = x_toupper(*b); if (ca != cb || ca == '\0') break; /* if not eq else both nul */ a++, b++; } if (cb != '\0') return 0; if (ca == 'S') ca = *++a; switch (ca) { case '+': case '-': *modifier = (ca == '-' ? -1 : 1) * atoi(a + 1); result = 1; break; case '\0': result = 1; break; default: result = 0; break; } return result; } static long params_to_pixels(TScreen * screen, String * params, Cardinal n) { int mult = 1; const char *s; int modifier; switch (n > 2 ? 2 : n) { case 2: s = params[1]; if (CompareWidths(s, "PAGE", &modifier)) { mult = (MaxRows(screen) + modifier) * FontHeight(screen); } else if (CompareWidths(s, "HALFPAGE", &modifier)) { mult = ((MaxRows(screen) + modifier) * FontHeight(screen)) / 2; } else if (CompareWidths(s, "PIXEL", &modifier)) { mult = 1; } else { /* else assume that it is Line */ mult = FontHeight(screen); } mult *= atoi(params[0]); TRACE(("params_to_pixels(%s,%s) = %d\n", params[0], params[1], mult)); break; case 1: mult = atoi(params[0]) * FontHeight(screen); /* lines */ TRACE(("params_to_pixels(%s) = %d\n", params[0], mult)); break; default: mult = screen->scrolllines * FontHeight(screen); TRACE(("params_to_pixels() = %d\n", mult)); break; } return mult; } static long AmountToScroll(Widget w, String * params, Cardinal nparams) { long result = 0; XtermWidget xw; if ((xw = getXtermWidget(w)) != 0) { TScreen *screen = TScreenOf(xw); if (nparams <= 2 || screen->send_mouse_pos == MOUSE_OFF) { result = params_to_pixels(screen, params, nparams); } } return result; } static void AlternateScroll(Widget w, long amount) { XtermWidget xw; TScreen *screen; if ((xw = getXtermWidget(w)) != 0 && (screen = TScreenOf(xw)) != 0 && screen->alternateScroll && screen->whichBuf) { ANSI reply; amount /= FontHeight(screen); memset(&reply, 0, sizeof(reply)); reply.a_type = ((xw->keyboard.flags & MODE_DECCKM) ? ANSI_SS3 : ANSI_CSI); if (amount > 0) { reply.a_final = 'B'; } else { amount = -amount; reply.a_final = 'A'; } while (amount-- > 0) { unparseseq(xw, &reply); } } else { ScrollTextUpDownBy(w, (XtPointer) 0, (XtPointer) amount); } } /*ARGSUSED*/ void HandleScrollForward( Widget xw, XEvent * event GCC_UNUSED, String * params, Cardinal *nparams) { long amount; if ((amount = AmountToScroll(xw, params, *nparams)) != 0) { AlternateScroll(xw, amount); } } /*ARGSUSED*/ void HandleScrollBack( Widget xw, XEvent * event GCC_UNUSED, String * params, Cardinal *nparams) { long amount; if ((amount = -AmountToScroll(xw, params, *nparams)) != 0) { AlternateScroll(xw, amount); } } #if OPT_SCROLL_LOCK #define SCROLL_LOCK_LED 3 #ifdef HAVE_XKBQUERYEXTENSION /* * Check for Xkb on client and server. */ static int have_xkb(Display * dpy) { static int initialized = -1; if (initialized < 0) { int xkbmajor = XkbMajorVersion; int xkbminor = XkbMinorVersion; int xkbopcode, xkbevent, xkberror; initialized = 0; if (XkbLibraryVersion(&xkbmajor, &xkbminor) && XkbQueryExtension(dpy, &xkbopcode, &xkbevent, &xkberror, &xkbmajor, &xkbminor)) { TRACE(("we have Xkb\n")); initialized = 1; #if OPT_TRACE { XkbDescPtr xkb; unsigned int mask; int n; char *modStr; xkb = XkbGetKeyboard(dpy, XkbAllComponentsMask, XkbUseCoreKbd); if (xkb != NULL) { TRACE(("XkbGetKeyboard ok\n")); for (n = 0; n < XkbNumVirtualMods; ++n) { if (xkb->names->vmods[n] != 0) { modStr = XGetAtomName(xkb->dpy, xkb->names->vmods[n]); if (modStr != 0) { XkbVirtualModsToReal(xkb, (unsigned) (1 << n), &mask); TRACE((" name[%d] %s (%#x)\n", n, modStr, mask)); } } } XkbFreeKeyboard(xkb, 0, True); } } #endif } } return initialized; } static Boolean getXkbLED(Display * dpy, const char *name, Boolean * result) { Atom my_atom; Boolean success = False; Bool state; if (have_xkb(dpy)) { my_atom = XInternAtom(dpy, name, False); if ((my_atom != None) && XkbGetNamedIndicator(dpy, my_atom, NULL, &state, NULL, NULL)) { *result = (Boolean) state; success = True; } } return success; } /* * Use Xkb if we have it (still unreliable, but slightly better than hardcoded). */ static Boolean showXkbLED(Display * dpy, const char *name, Bool enable) { Atom my_atom; Boolean result = False; if (have_xkb(dpy)) { my_atom = XInternAtom(dpy, name, False); if ((my_atom != None) && XkbGetNamedIndicator(dpy, my_atom, NULL, NULL, NULL, NULL) && XkbSetNamedIndicator(dpy, my_atom, True, enable, False, NULL)) { result = True; } } return result; } #endif /* * xlsatoms agrees with this list. However Num/Caps lock are generally * unusable due to special treatment in X. They are used here for * completeness. */ static const char *led_table[] = { "Num Lock", "Caps Lock", "Scroll Lock" }; static Boolean xtermGetLED(TScreen * screen, Cardinal led_number) { Display *dpy = screen->display; Boolean result = False; #ifdef HAVE_XKBQUERYEXTENSION if (!getXkbLED(dpy, led_table[led_number - 1], &result)) #endif { XKeyboardState state; unsigned long my_bit = (unsigned long) (1 << (led_number - 1)); XGetKeyboardControl(dpy, &state); result = (Boolean) ((state.led_mask & my_bit) != 0); } TRACE(("xtermGetLED %d:%s\n", led_number, BtoS(result))); return result; } /* * Display the given LED, preferably independent of keyboard state. */ void xtermShowLED(TScreen * screen, Cardinal led_number, Bool enable) { TRACE(("xtermShowLED %d:%s\n", led_number, BtoS(enable))); if ((led_number >= 1) && (led_number <= XtNumber(led_table))) { Display *dpy = screen->display; #ifdef HAVE_XKBQUERYEXTENSION if (!showXkbLED(dpy, led_table[led_number - 1], enable)) #endif { XKeyboardState state; XKeyboardControl values; unsigned long use_mask; unsigned long my_bit = (unsigned long) (1 << (led_number - 1)); XGetKeyboardControl(dpy, &state); use_mask = state.led_mask; if (enable) { use_mask |= my_bit; } else { use_mask &= ~my_bit; } if (state.led_mask != use_mask) { values.led = (int) led_number; values.led_mode = enable; XChangeKeyboardControl(dpy, KBLed | KBLedMode, &values); } } } } void xtermClearLEDs(TScreen * screen) { Display *dpy = screen->display; XKeyboardControl values; TRACE(("xtermClearLEDs\n")); #ifdef HAVE_XKBQUERYEXTENSION ShowScrollLock(screen, False); #endif memset(&values, 0, sizeof(values)); XChangeKeyboardControl(dpy, KBLedMode, &values); } void ShowScrollLock(TScreen * screen, Bool enable) { xtermShowLED(screen, SCROLL_LOCK_LED, enable); } void GetScrollLock(TScreen * screen) { if (screen->allowScrollLock) screen->scroll_lock = xtermGetLED(screen, SCROLL_LOCK_LED); } void SetScrollLock(TScreen * screen, Bool enable) { if (screen->allowScrollLock) { if (screen->scroll_lock != enable) { TRACE(("SetScrollLock %s\n", BtoS(enable))); screen->scroll_lock = (Boolean) enable; ShowScrollLock(screen, enable); } } } /* ARGSUSED */ void HandleScrollLock(Widget w, XEvent * event GCC_UNUSED, String * params, Cardinal *param_count) { XtermWidget xw; if ((xw = getXtermWidget(w)) != 0) { TScreen *screen = TScreenOf(xw); if (screen->allowScrollLock) { switch (decodeToggle(xw, params, *param_count)) { case toggleOff: SetScrollLock(screen, False); break; case toggleOn: SetScrollLock(screen, True); break; case toggleAll: SetScrollLock(screen, !screen->scroll_lock); break; } } } } #endif