/* * * Reads the property MOTIF_WM_HINTS * */ void GetMwmHints(FvwmWindow *t) { int actual_format; Atom actual_type; unsigned long nitems, bytesafter; if (t->mwm_hints) { XFree((char *)t->mwm_hints); t->mwm_hints = NULL; } if (XGetWindowProperty( dpy, FW_W(t), _XA_MwmAtom, 0L, 32L, False, _XA_MwmAtom, &actual_type, &actual_format, &nitems, &bytesafter,(unsigned char **)&t->mwm_hints)==Success) { if (nitems >= PROP_MOTIF_WM_HINTS_ELEMENTS) { return; } } t->mwm_hints = NULL; return; }
/* This function is part of a hack to make focus handling work better with * applications that use the passive focus model but manage focus in their own * sub windows and should thus use the locally active focus model instead. * There are many examples like netscape or ddd. */ void focus_force_refresh_focus(const FvwmWindow *fw) { XWindowAttributes winattrs; MyXGrabServer(dpy); if (XGetWindowAttributes(dpy, FW_W(fw), &winattrs)) { XSelectInput( dpy, FW_W(fw), winattrs.your_event_mask & ~FocusChangeMask); FOCUS_SET(FW_W(fw), NULL /* we don't expect an event */); XSelectInput(dpy, FW_W(fw), winattrs.your_event_mask); } MyXUngrabServer(dpy); return; }
void _ReturnFocusWindow(FvwmWindow *fw) { sftfwin_args_t sf_args; memset(&sf_args, 0, sizeof(sf_args)); sf_args.do_allow_force_broadcast = 1; sf_args.is_focus_by_flip_focus_cmd = 0; sf_args.do_forbid_warp = 1; sf_args.client_entered = 0; sf_args.do_force = 0; sf_args.set_by = FOCUS_SET_FORCE; set_focus_to_fwin(FW_W(fw), fw, &sf_args); return; }
void broadcast_icon_geometry( FvwmWindow *fw, Bool do_force) { rectangle g; Bool rc; rc = get_visible_icon_geometry(fw, &g); if (rc == True && (!IS_ICON_UNMAPPED(fw) || do_force == True)) { BroadcastPacket( M_ICON_LOCATION, 7, (long)FW_W(fw), (long)FW_W_FRAME(fw), (unsigned long)fw, (long)g.x, (long)g.y, (long)g.width, (long)g.height); } return; }
/* Takes as input the window that wants the focus and the one that currently * has the focus and returns if the new window should get it. */ Bool focus_query_open_grab_focus(FvwmWindow *fw, FvwmWindow *focus_win) { if (fw == NULL) { return False; } focus_win = get_focus_window(); if (focus_win != NULL && FP_DO_OVERRIDE_GRAB_FOCUS(FW_FOCUS_POLICY(focus_win))) { /* Don't steal the focus from the current window */ return False; } validate_transientfor(fw); if (IS_TRANSIENT(fw) && FW_W_TRANSIENTFOR(fw) != Scr.Root) { if (focus_win != NULL && FP_DO_GRAB_FOCUS_TRANSIENT(FW_FOCUS_POLICY(fw)) && FW_W(focus_win) == FW_W_TRANSIENTFOR(fw)) { /* it's a transient and its transientfor currently has * focus. */ return True; } } else { if (FP_DO_GRAB_FOCUS(FW_FOCUS_POLICY(fw)) && (focus_win == NULL || !FP_DO_OVERRIDE_GRAB_FOCUS(FW_FOCUS_POLICY(focus_win)))) { return True; } } return False; }
void _SetFocusWindow( FvwmWindow *fw, Bool do_allow_force_broadcast, fpol_set_focus_by_t set_by, Bool client_entered) { sftfwin_args_t sf_args; memset(&sf_args, 0, sizeof(sf_args)); sf_args.do_allow_force_broadcast = !!do_allow_force_broadcast; sf_args.is_focus_by_flip_focus_cmd = 0; sf_args.do_forbid_warp = 0; sf_args.do_force = 1; sf_args.set_by = set_by; if (client_entered) { sf_args.client_entered = 1; } else { sf_args.client_entered = 0; } set_focus_to_fwin(FW_W(fw), fw, &sf_args); return; }
static signed int expand_vars_extended( char *var_name, char *output, cond_rc_t *cond_rc, const exec_context_t *exc) { char *rest; char dummy[64] = "\0"; char *target = (output) ? output : dummy; int cs = -1; int n; int i; int l; int x; int y; Pixel pixel = 0; int val = -12345678; const char *string = NULL; char *allocated_string = NULL; char *quoted_string = NULL; Bool should_quote = False; Bool is_numeric = False; Bool is_target = False; Bool is_x; Window context_w = Scr.Root; FvwmWindow *fw = exc->w.fw; signed int len = -1; /* allow partial matches for *.cs, gt, ... etc. variables */ switch ((i = GetTokenIndex(var_name, partial_function_vars, -1, &rest))) { case VAR_FG_CS: case VAR_BG_CS: case VAR_HILIGHT_CS: case VAR_SHADOW_CS: case VAR_FGSH_CS: if (!isdigit(*rest) || (*rest == '0' && *(rest + 1) != 0)) { /* not a non-negative integer without leading zeros */ return -1; } if (sscanf(rest, "%d%n", &cs, &n) < 1) { return -1; } if (*(rest + n) != 0) { /* trailing characters */ return -1; } if (cs < 0) { return -1; } alloc_colorset(cs); switch (i) { case VAR_FG_CS: pixel = Colorset[cs].fg; break; case VAR_BG_CS: pixel = Colorset[cs].bg; break; case VAR_HILIGHT_CS: pixel = Colorset[cs].hilite; break; case VAR_SHADOW_CS: pixel = Colorset[cs].shadow; break; case VAR_FGSH_CS: pixel = Colorset[cs].fgsh; break; } is_target = True; len = pixel_to_color_string(dpy, Pcmap, pixel, target, False); goto GOT_STRING; case VAR_GT_: if (rest == NULL) { return -1; } string = _(rest); goto GOT_STRING; case VAR_INFOSTORE_: if (rest == NULL) return -1; if ((string = get_metainfo_value(rest)) == NULL) return -1; goto GOT_STRING; case VAR_DESK_NAME: if (sscanf(rest, "%d%n", &cs, &n) < 1) { return -1; } if (*(rest + n) != 0) { /* trailing characters */ return -1; } string = GetDesktopName(cs); if (string == NULL) { const char *ddn = _("Desk"); allocated_string = (char *)safemalloc(19 + strlen(ddn)); sprintf(allocated_string, "%s %i", ddn, cs); string = allocated_string; } goto GOT_STRING; default: break; } /* only exact matches for all other variables */ switch ((i = GetTokenIndex(var_name, function_vars, 0, &rest))) { case VAR_DESK_N: is_numeric = True; val = Scr.CurrentDesk; break; case VAR_DESK_WIDTH: is_numeric = True; val = Scr.VxMax + Scr.MyDisplayWidth; break; case VAR_DESK_HEIGHT: is_numeric = True; val = Scr.VyMax + Scr.MyDisplayHeight; break; case VAR_DESK_PAGESX: is_numeric = True; val = (int)(Scr.VxMax / Scr.MyDisplayWidth) + 1; break; case VAR_DESK_PAGESY: is_numeric = True; val = (int)(Scr.VyMax / Scr.MyDisplayHeight) + 1; break; case VAR_VP_X: is_numeric = True; val = Scr.Vx; break; case VAR_VP_Y: is_numeric = True; val = Scr.Vy; break; case VAR_VP_WIDTH: is_numeric = True; val = Scr.MyDisplayWidth; break; case VAR_VP_HEIGHT: is_numeric = True; val = Scr.MyDisplayHeight; break; case VAR_WA_HEIGHT: is_numeric = True; val = Scr.Desktops->ewmh_working_area.height; break; case VAR_WA_WIDTH: is_numeric = True; val = Scr.Desktops->ewmh_working_area.width; break; case VAR_WA_X: is_numeric = True; val = Scr.Desktops->ewmh_working_area.x; break; case VAR_WA_Y: is_numeric = True; val = Scr.Desktops->ewmh_working_area.y; break; case VAR_DWA_HEIGHT: is_numeric = True; val = Scr.Desktops->ewmh_dyn_working_area.height; break; case VAR_DWA_WIDTH: is_numeric = True; val = Scr.Desktops->ewmh_dyn_working_area.width; break; case VAR_DWA_X: is_numeric = True; val = Scr.Desktops->ewmh_dyn_working_area.x; break; case VAR_DWA_Y: is_numeric = True; val = Scr.Desktops->ewmh_dyn_working_area.y; break; case VAR_PAGE_NX: is_numeric = True; val = (int)(Scr.Vx / Scr.MyDisplayWidth); break; case VAR_PAGE_NY: is_numeric = True; val = (int)(Scr.Vy / Scr.MyDisplayHeight); break; case VAR_W_ID: if (fw && !IS_EWMH_DESKTOP(FW_W(fw))) { is_target = True; sprintf(target, "0x%x", (int)FW_W(fw)); } break; case VAR_W_NAME: if (fw && !IS_EWMH_DESKTOP(FW_W(fw))) { string = fw->name.name; should_quote = True; } break; case VAR_W_ICONNAME: if (fw && !IS_EWMH_DESKTOP(FW_W(fw))) { string = fw->icon_name.name; should_quote = True; } break; case VAR_W_ICONFILE: case VAR_W_MINIICONFILE: if (fw && !IS_EWMH_DESKTOP(FW_W(fw))) { char *t; t = (i == VAR_W_ICONFILE) ? fw->icon_bitmap_file : fw->mini_pixmap_file; /* expand the path if possible */ allocated_string = PictureFindImageFile(t, NULL, R_OK); if (allocated_string == NULL) { string = t; } else if (USE_SVG && *allocated_string == ':' && (string = strchr(allocated_string + 1, ':'))) { string++; } else { string = allocated_string; } } break; case VAR_W_ICONFILE_SVGOPTS: case VAR_W_MINIICONFILE_SVGOPTS: if (fw && !IS_EWMH_DESKTOP(FW_W(fw))) { char *t; if (!USE_SVG) { return -1; } t = (i == VAR_W_ICONFILE_SVGOPTS) ? fw->icon_bitmap_file : fw->mini_pixmap_file; /* expand the path if possible */ allocated_string = PictureFindImageFile(t, NULL, R_OK); string = allocated_string; if (string && *string == ':' && (t = strchr(string + 1, ':'))) { *t = 0; } else { string = ""; } } break; case VAR_W_CLASS: if (fw && !IS_EWMH_DESKTOP(FW_W(fw))) { string = fw->class.res_class; should_quote = True; } break; case VAR_W_RESOURCE: if (fw && !IS_EWMH_DESKTOP(FW_W(fw))) { string = fw->class.res_name; should_quote = True; }
/* * * Reads the openlook properties _OL_WIN_ATTR, _OL_DECOR_ADD, _OL_DECOR_DEL * * _OL_WIN_ATTR - the win_type field is the either the first atom if the * property has length three or the second atom if the property has * length five. It can be any of: * _OL_WT_BASE (no changes) * _OL_WT_CMD (no minimize decoration) * _OL_WT_HELP (no minimize, maximize or resize handle decorations) * _OL_WT_NOTICE (no minimize, maximize, system menu, resize handle * or titlebar decorations) * _OL_WT_OTHER (no minimize, maximize, system menu, resize handle * or titlebar decorations) * In addition, if the _OL_WIN_ATTR property is in the three atom format * or if the type is _OL_WT_OTHER, then the icon name is not displayed * (same behavior as olvwm). * * _OL_DECOR_ADD or _OL_DECOR_DEL - indivdually add or remove minimize * button (_OL_DECOR_CLOSE), resize handles (_OL_DECOR_RESIZE), title bar * (_OL_DECOR_HEADER), or icon name (_OL_DECOR_ICON_NAME). * * The documentation for the Open Look hints was taken from "Advanced X * Window Application Programming", Eric F. Johnson and Kevin Reichard * (M&T Books), and the olvwm source code (available at ftp.x.org in * /R5contrib). */ void GetOlHints(FvwmWindow *t) { int actual_format; Atom actual_type; unsigned long nitems, bytesafter; Atom *hints; int i; Atom win_type; t->ol_hints = OL_DECOR_ALL; if (XGetWindowProperty( dpy, FW_W(t), _XA_OL_WIN_ATTR, 0L, 32L, False, _XA_OL_WIN_ATTR, &actual_type, &actual_format, &nitems, &bytesafter, (unsigned char **)&hints) == Success) { if (nitems > 0) { t->ol_hints |= OL_ANY_HINTS; if (nitems == 3) { win_type = hints[0]; } else { win_type = hints[1]; } /* got this from olvwm and sort of mapped it to * fvwm/MWM hints */ if (win_type == _XA_OL_WT_BASE) { t->ol_hints = OL_DECOR_ALL; } else if (win_type == _XA_OL_WT_CMD) { t->ol_hints = OL_DECOR_ALL & ~OL_DECOR_CLOSE; } else if (win_type == _XA_OL_WT_HELP) { t->ol_hints = OL_DECOR_ALL & ~(OL_DECOR_CLOSE | OL_DECOR_RESIZEH); } else if (win_type == _XA_OL_WT_NOTICE) { t->ol_hints = OL_DECOR_ALL & ~(OL_DECOR_CLOSE | OL_DECOR_RESIZEH | OL_DECOR_HEADER | OL_DECOR_ICON_NAME); } else if (win_type == _XA_OL_WT_OTHER) { t->ol_hints = 0; } else { t->ol_hints = OL_DECOR_ALL; } if (nitems == 3) { t->ol_hints &= ~OL_DECOR_ICON_NAME; } } if (hints) { XFree (hints); } } if (XGetWindowProperty( dpy, FW_W(t), _XA_OL_DECOR_ADD, 0L, 32L, False, XA_ATOM, &actual_type, &actual_format, &nitems, &bytesafter,(unsigned char **)&hints)==Success) { for (i = 0; i < nitems; i++) { t->ol_hints |= OL_ANY_HINTS; if (hints[i] == _XA_OL_DECOR_CLOSE) { t->ol_hints |= OL_DECOR_CLOSE; } else if (hints[i] == _XA_OL_DECOR_RESIZE) { t->ol_hints |= OL_DECOR_RESIZEH; } else if (hints[i] == _XA_OL_DECOR_HEADER) { t->ol_hints |= OL_DECOR_HEADER; } else if (hints[i] == _XA_OL_DECOR_ICON_NAME) { t->ol_hints |= OL_DECOR_ICON_NAME; } } if (hints) { XFree (hints); } } if (XGetWindowProperty( dpy, FW_W(t), _XA_OL_DECOR_DEL, 0L, 32L, False, XA_ATOM, &actual_type, &actual_format, &nitems, &bytesafter,(unsigned char **)&hints)==Success) { for (i = 0; i < nitems; i++) { t->ol_hints |= OL_ANY_HINTS; if (hints[i] == _XA_OL_DECOR_CLOSE) { t->ol_hints &= ~OL_DECOR_CLOSE; } else if (hints[i] == _XA_OL_DECOR_RESIZE) { t->ol_hints &= ~OL_DECOR_RESIZEH; } else if (hints[i] == _XA_OL_DECOR_HEADER) { t->ol_hints &= ~OL_DECOR_HEADER; } else if (hints[i] == _XA_OL_DECOR_ICON_NAME) { t->ol_hints &= ~OL_DECOR_ICON_NAME; } } if (hints) { XFree (hints); } } return; }
static void __execute_function( cond_rc_t *cond_rc, const exec_context_t *exc, char *action, FUNC_FLAGS_TYPE exec_flags, char *args[], Bool has_ref_window_moved) { static int func_depth = 0; cond_rc_t *func_rc = NULL; cond_rc_t dummy_rc; Window w; int j; char *function; char *taction; char *trash; char *trash2; char *expaction = NULL; char *arguments[11]; const func_t *bif; Bool set_silent; Bool must_free_string = False; Bool must_free_function = False; Bool do_keep_rc = False; /* needed to be able to avoid resize to use moved windows for base */ extern Window PressedW; Window dummy_w; if (!action) { return; } /* ignore whitespace at the beginning of all config lines */ action = SkipSpaces(action, NULL, 0); if (!action || action[0] == 0) { /* impossibly short command */ return; } if (action[0] == '#') { /* a comment */ return; } func_depth++; if (func_depth > MAX_FUNCTION_DEPTH) { fvwm_msg( ERR, "__execute_function", "Function '%s' called with a depth of %i, " "stopping function execution!", action, func_depth); func_depth--; return; } if (args) { for (j = 0; j < 11; j++) { arguments[j] = args[j]; } } else { for (j = 0; j < 11; j++) { arguments[j] = NULL; } } if (exc->w.fw == NULL || IS_EWMH_DESKTOP(FW_W(exc->w.fw))) { if (exec_flags & FUNC_IS_UNMANAGED) { w = exc->w.w; } else { w = Scr.Root; } } else { FvwmWindow *tw; w = GetSubwindowFromEvent(dpy, exc->x.elast); if (w == None) { w = exc->x.elast->xany.window; } tw = NULL; if (w != None) { if (XFindContext( dpy, w, FvwmContext, (caddr_t *)&tw) == XCNOENT) { tw = NULL; } } if (w == None || tw != exc->w.fw) { w = FW_W(exc->w.fw); } } set_silent = False; if (action[0] == '-') { exec_flags |= FUNC_DONT_EXPAND_COMMAND; action++; } taction = action; /* parse prefixes */ trash = PeekToken(taction, &trash2); while (trash) { if (StrEquals(trash, PRE_SILENT)) { if (Scr.flags.are_functions_silent == 0) { set_silent = 1; Scr.flags.are_functions_silent = 1; } taction = trash2; trash = PeekToken(taction, &trash2); } else if (StrEquals(trash, PRE_KEEPRC)) { do_keep_rc = True; taction = trash2; trash = PeekToken(taction, &trash2); } else { break; } } if (taction == NULL) { if (set_silent) { Scr.flags.are_functions_silent = 0; } func_depth--; return; } if (cond_rc == NULL || do_keep_rc == True) { condrc_init(&dummy_rc); func_rc = &dummy_rc; } else { func_rc = cond_rc; } GetNextToken(taction, &function); if (function) { char *tmp = function; function = expand_vars( function, arguments, False, False, func_rc, exc); free(tmp); } if (function && function[0] != '*') { #if 1 /* DV: with this piece of code it is impossible to have a * complex function with embedded whitespace that begins with a * builtin function name, e.g. a function "echo hello". */ /* DV: ... and without it some of the complex functions will * fail */ char *tmp = function; while (*tmp && !isspace(*tmp)) { tmp++; } *tmp = 0; #endif bif = find_builtin_function(function); must_free_function = True; } else { bif = NULL; if (function) { free(function); } function = ""; } if (Scr.cur_decor && Scr.cur_decor != &Scr.DefaultDecor && (!bif || !(bif->flags & FUNC_DECOR))) { fvwm_msg( ERR, "__execute_function", "Command can not be added to a decor; executing" " command now: '%s'", action); } if (!(exec_flags & FUNC_DONT_EXPAND_COMMAND)) { expaction = expand_vars( taction, arguments, (bif) ? !!(bif->flags & FUNC_ADD_TO) : False, (taction[0] == '*'), func_rc, exc); if (func_depth <= 1) { must_free_string = set_repeat_data( expaction, REPEAT_COMMAND, bif); } else { must_free_string = True; } } else { expaction = taction; } #ifdef FVWM_COMMAND_LOG fvwm_msg(INFO, "LOG", "%c: %s", (char)exc->type, expaction); #endif /* Note: the module config command, "*" can not be handled by the * regular command table because there is no required white space after * the asterisk. */ if (expaction[0] == '*') { if (Scr.cur_decor && Scr.cur_decor != &Scr.DefaultDecor) { fvwm_msg( WARN, "__execute_function", "Command can not be added to a decor;" " executing command now: '%s'", expaction); } /* process a module config command */ ModuleConfig(expaction); } else { const exec_context_t *exc2; exec_context_changes_t ecc; exec_context_change_mask_t mask; mask = (w != exc->w.w) ? ECC_W : 0; ecc.w.fw = exc->w.fw; ecc.w.w = w; ecc.w.wcontext = exc->w.wcontext; if (bif && bif->func_t != F_FUNCTION) { char *runaction; Bool rc = False; runaction = SkipNTokens(expaction, 1); if ((bif->flags & FUNC_NEEDS_WINDOW) && !(exec_flags & FUNC_DONT_DEFER)) { rc = DeferExecution( &ecc, &mask, bif->cursor, exc->x.elast->type, (bif->flags & FUNC_ALLOW_UNMANAGED)); } else if ((bif->flags & FUNC_NEEDS_WINDOW) && !__context_has_window( exc, bif->flags & FUNC_ALLOW_UNMANAGED)) { /* no context window and not allowed to defer, * skip command */ rc = True; } if (rc == False) { exc2 = exc_clone_context(exc, &ecc, mask); if (has_ref_window_moved && (bif->func_t == F_ANIMATED_MOVE || bif->func_t == F_MOVE || bif->func_t == F_RESIZE || bif->func_t == F_RESIZEMOVE || bif->func_t == F_RESIZE_MAXIMIZE || bif->func_t == F_RESIZEMOVE_MAXIMIZE)) { dummy_w = PressedW; PressedW = None; bif->action(func_rc, exc2, runaction); PressedW = dummy_w; } else { bif->action(func_rc, exc2, runaction); } exc_destroy_context(exc2); } } else { Bool desperate = 1; char *runaction; if (bif) { /* strip "function" command */ runaction = SkipNTokens(expaction, 1); } else { runaction = expaction; } exc2 = exc_clone_context(exc, &ecc, mask); execute_complex_function( func_rc, exc2, runaction, &desperate, has_ref_window_moved); if (!bif && desperate) { if (executeModuleDesperate( func_rc, exc, runaction) == NULL && *function != 0 && !set_silent) { fvwm_msg( ERR, "__execute_function", "No such command '%s'", function); } } exc_destroy_context(exc2); } } if (set_silent) { Scr.flags.are_functions_silent = 0; } if (cond_rc != NULL) { cond_rc->break_levels = func_rc->break_levels; } if (must_free_string) { free(expaction); } if (must_free_function) { free(function); } func_depth--; return; }
/* * Defer the execution of a function to the next button press if the context is * C_ROOT * * Inputs: * cursor - the cursor to display while waiting */ static Bool DeferExecution( exec_context_changes_t *ret_ecc, exec_context_change_mask_t *ret_mask, cursor_t cursor, int trigger_evtype, int do_allow_unmanaged) { int done; int finished = 0; int just_waiting_for_finish = 0; Window dummy; Window original_w; static XEvent e; Window w; int wcontext; FvwmWindow *fw; int FinishEvent; fw = ret_ecc->w.fw; w = ret_ecc->w.w; original_w = w; wcontext = ret_ecc->w.wcontext; FinishEvent = ((fw != NULL) ? ButtonRelease : ButtonPress); if (wcontext == C_UNMANAGED && do_allow_unmanaged) { return False; } if (wcontext != C_ROOT && wcontext != C_NO_CONTEXT && fw != NULL && wcontext != C_EWMH_DESKTOP) { if (FinishEvent == ButtonPress || (FinishEvent == ButtonRelease && trigger_evtype != ButtonPress)) { return False; } else if (FinishEvent == ButtonRelease) { /* We are only waiting until the user releases the * button. Do not change the cursor. */ cursor = CRS_NONE; just_waiting_for_finish = 1; } } if (Scr.flags.are_functions_silent) { return True; } if (!GrabEm(cursor, GRAB_NORMAL)) { XBell(dpy, 0); return True; } MyXGrabKeyboard(dpy); while (!finished) { done = 0; /* block until there is an event */ FMaskEvent( dpy, ButtonPressMask | ButtonReleaseMask | ExposureMask | KeyPressMask | VisibilityChangeMask | ButtonMotionMask | PointerMotionMask /* | EnterWindowMask | LeaveWindowMask*/, &e); if (e.type == KeyPress) { KeySym keysym = XLookupKeysym(&e.xkey, 0); if (keysym == XK_Escape) { ret_ecc->x.etrigger = &e; *ret_mask |= ECC_ETRIGGER; UngrabEm(GRAB_NORMAL); MyXUngrabKeyboard(dpy); return True; } Keyboard_shortcuts(&e, NULL, NULL, NULL, FinishEvent); } if (e.type == FinishEvent) { finished = 1; } switch (e.type) { case KeyPress: case ButtonPress: if (e.type != FinishEvent) { original_w = e.xany.window; } done = 1; break; case ButtonRelease: done = 1; break; default: break; } if (!done) { dispatch_event(&e); } } MyXUngrabKeyboard(dpy); UngrabEm(GRAB_NORMAL); if (just_waiting_for_finish) { return False; } w = e.xany.window; ret_ecc->x.etrigger = &e; *ret_mask |= ECC_ETRIGGER | ECC_W | ECC_WCONTEXT; if ((w == Scr.Root || w == Scr.NoFocusWin) && e.xbutton.subwindow != None) { w = e.xbutton.subwindow; e.xany.window = w; } if (w == Scr.Root || IS_EWMH_DESKTOP(w)) { ret_ecc->w.w = w; ret_ecc->w.wcontext = C_ROOT; XBell(dpy, 0); return True; } *ret_mask |= ECC_FW; if (XFindContext(dpy, w, FvwmContext, (caddr_t *)&fw) == XCNOENT) { ret_ecc->w.fw = NULL; ret_ecc->w.w = w; ret_ecc->w.wcontext = C_ROOT; XBell(dpy, 0); return (True); } if (w == FW_W_PARENT(fw)) { w = FW_W(fw); } if (original_w == FW_W_PARENT(fw)) { original_w = FW_W(fw); } /* this ugly mess attempts to ensure that the release and press * are in the same window. */ if (w != original_w && original_w != Scr.Root && original_w != None && original_w != Scr.NoFocusWin && !IS_EWMH_DESKTOP(original_w)) { if (w != FW_W_FRAME(fw) || original_w != FW_W(fw)) { ret_ecc->w.fw = fw; ret_ecc->w.w = w; ret_ecc->w.wcontext = C_ROOT; XBell(dpy, 0); return True; } } if (IS_EWMH_DESKTOP(FW_W(fw))) { ret_ecc->w.fw = fw; ret_ecc->w.w = w; ret_ecc->w.wcontext = C_ROOT; XBell(dpy, 0); return True; } wcontext = GetContext(NULL, fw, &e, &dummy); ret_ecc->w.fw = fw; ret_ecc->w.w = w; ret_ecc->w.wcontext = C_ROOT; return False; }
/* * set the visibale window name and icon name */ void EWMH_SetVisibleName(FvwmWindow *fw, Bool is_icon_name) { unsigned char *val; char *tmp_str; FlocaleCharset *fc = NULL; if (!FiconvSupport) { return; } /* set the ewmh visible name only if it is != wm name */ if (is_icon_name) { if ((fw->icon_name_count == 0 || !USE_INDEXED_ICON_NAME(fw)) && !HAS_EWMH_WM_ICON_NAME(fw) && !HAS_EWMH_WM_NAME(fw)) { ewmh_DeleteProperty( FW_W(fw), "_NET_WM_ICON_VISIBLE_NAME", EWMH_ATOM_LIST_FVWM_WIN); return; } if (IS_ICON_FONT_LOADED(fw) && fw->icon_font != NULL) { fc = fw->icon_font->str_fc; } tmp_str = fw->visible_icon_name; } else { if ((fw->name_count == 0 || !USE_INDEXED_WINDOW_NAME(fw)) && !HAS_EWMH_WM_NAME(fw) && !HAS_EWMH_WM_ICON_NAME(fw)) { ewmh_DeleteProperty( FW_W(fw), "_NET_WM_VISIBLE_NAME", EWMH_ATOM_LIST_FVWM_WIN); return; } if (IS_WINDOW_FONT_LOADED(fw) && fw->title_font != NULL) { fc = fw->title_font->str_fc; } tmp_str = fw->visible_name; } if (tmp_str == NULL) { return; /* should never happen */ } val = (unsigned char *)FiconvCharsetToUtf8( dpy, fc, tmp_str, strlen(tmp_str)); if (val == NULL) { return; } if (is_icon_name) { ewmh_ChangeProperty( FW_W(fw), "_NET_WM_ICON_VISIBLE_NAME", EWMH_ATOM_LIST_FVWM_WIN, (unsigned char *)val, strlen((char *)val)); } else { ewmh_ChangeProperty( FW_W(fw), "_NET_WM_VISIBLE_NAME", EWMH_ATOM_LIST_FVWM_WIN, (unsigned char *)val, strlen((char *)val)); } free(val); }
int EWMH_WMName( FvwmWindow *fw, XEvent *ev, window_style *style, unsigned long any) { int size = 0; char *val; char *tmp_str; FlocaleCharset *fc = NULL; int what_changed; if (!FiconvSupport) return 0; val = ewmh_AtomGetByName( FW_W(fw), "_NET_WM_NAME", EWMH_ATOM_LIST_PROPERTY_NOTIFY, &size); if (val == NULL) { SET_HAS_EWMH_WM_NAME(fw,0); return 0; } if (IS_WINDOW_FONT_LOADED(fw) && fw->title_font != NULL) { fc = fw->title_font->str_fc; } tmp_str = (char *)FiconvUtf8ToCharset( dpy, fc, (const char *) val, size); free(val); if (tmp_str == NULL) { SET_HAS_EWMH_WM_NAME(fw,0); return 0; } if (strlen(tmp_str) > MAX_WINDOW_NAME_LEN) { tmp_str[MAX_WINDOW_NAME_LEN] = 0; } SET_HAS_EWMH_WM_NAME(fw, 1); if (fw->name.name && strcmp(tmp_str, fw->name.name) == 0) { /* migo: some apps update their names every second */ free(tmp_str); return 0; } if (ev != NULL) { /* client message */ free_window_names(fw, True, False); } fw->name.name = tmp_str; if (ev == NULL) { return 1; } SET_NAME_CHANGED(fw, 1); what_changed = 1; if (!WAS_ICON_NAME_PROVIDED(fw)) { fw->icon_name = fw->name; what_changed |= 2; } update_window_names(fw, what_changed); return 0; }
/* * Change by PRB ([email protected]), 31/10/93. Prepend a hot key * specifier to each item in the list. This means allocating the * memory for each item (& freeing it) rather than just using the window * title directly. */ void CMD_WindowList(F_CMD_ARGS) { struct MenuRoot *mr; struct MenuParameters mp; char* ret_action = NULL; FvwmWindow *t; FvwmWindow **windowList; FvwmWindow **iconifiedList = NULL; int numWindows; int ii; char tname[128]; char loc[64]; char *name=NULL; Bool free_name = False; int dwidth; int dheight; char *tlabel; int last_desk_done = INT_MIN; int last_desk_displayed = INT_MIN; int next_desk = 0; char *t_hot=NULL; /* Menu label with hotkey added */ char scut = '0'; /* Current short cut key */ char *opts=NULL; char *tok=NULL; int desk = Scr.CurrentDesk; unsigned long flags = SHOW_DEFAULT; char *func = NULL; char *ffunc = NULL; char *tfunc = NULL; char *default_action = NULL; MenuReturn mret; MenuOptions mops; int low_layer = 0; /* show all layers by default */ int high_layer = INT_MAX; int max_label_width = 0; int skiplist_mode = 0; /* do not show skiplist by default */ Bool use_hotkey = True; KeyCode old_sor_keycode; char sor_default_keyname[8] = { 'M', 'e', 't', 'a', '_', 'L' }; char *sor_keyname = sor_default_keyname; /* Condition vars. */ Bool use_condition = False; Bool current_at_end = False; Bool iconified_at_end = False; int ic = 0; int ij; WindowConditionMask mask; char *cond_flags; Bool first_desk = True; Bool empty_menu = True; Bool was_get_menu_opts_called = False; FvwmWindow * const fw = exc->w.fw; const Window w = exc->w.w; const exec_context_t *exc2; memset(&mops, 0, sizeof(mops)); memset(&mret, 0, sizeof(MenuReturn)); /* parse postitioning args - must call this even if no action is given * because it sets the xinerama screen origin */ if (action && *action) { /* Look for condition - CreateFlagString returns NULL if no '(' * or '[' */ cond_flags = CreateFlagString(action, &action); if (cond_flags) { /* Create window mask */ use_condition = True; DefaultConditionMask(&mask); /* override for Current [] */ mask.my_flags.use_circulate_hit = 1; mask.my_flags.use_circulate_hit_icon = 1; CreateConditionMask(cond_flags, &mask); free(cond_flags); } opts = get_menu_options( action, w, fw, NULL, NULL, NULL, &mops); was_get_menu_opts_called = True; /* parse options */ while (opts && *opts) { opts = GetNextSimpleOption(opts, &tok); if (!tok) { break; } if (StrEquals(tok,"NoHotkeys")) { use_hotkey = False; } else if (StrEquals(tok,"Function")) { opts = GetNextSimpleOption(opts, &func); } else if (StrEquals(tok,"Desk")) { free(tok); opts = GetNextSimpleOption(opts, &tok); if (tok) { desk = atoi(tok); flags &= ~SHOW_ALLDESKS; } } else if (StrEquals(tok,"CurrentDesk")) { desk = Scr.CurrentDesk; flags &= ~SHOW_ALLDESKS; } else if (StrEquals(tok,"NotAlphabetic")) { flags &= ~SHOW_ALPHABETIC; } else if (StrEquals(tok,"Alphabetic")) { flags |= SHOW_ALPHABETIC; } else if (StrEquals(tok,"SortByClass")) { flags |= SORT_BYCLASS; } else if (StrEquals(tok,"SortByResource")) { flags |= SORT_BYRESOURCE; } else if (StrEquals(tok,"ReverseOrder")) { flags |= SORT_REVERSE; } else if (StrEquals(tok,"CurrentAtEnd")) { current_at_end = True; } else if (StrEquals(tok,"IconifiedAtEnd")) { iconified_at_end = True; } else if (StrEquals(tok,"NoDeskSort")) { flags |= NO_DESK_SORT; } else if (StrEquals(tok,"ShowPage")) { flags |= SHOW_PAGE_X | SHOW_PAGE_Y; } else if (StrEquals(tok,"ShowPageX")) { flags |= SHOW_PAGE_X; } else if (StrEquals(tok,"ShowPageY")) { flags |= SHOW_PAGE_Y; } else if (StrEquals(tok,"ShowScreen")) { flags |= SHOW_SCREEN; } else if (StrEquals(tok,"UseIconName")) { flags |= SHOW_ICONNAME; } else if (StrEquals(tok,"NoGeometry")) { flags &= ~SHOW_GEOMETRY; flags &= ~SHOW_INFONOTGEO; } else if (StrEquals(tok,"NoGeometryWithInfo")) { flags &= ~SHOW_GEOMETRY; flags |= SHOW_INFONOTGEO; } else if (StrEquals(tok,"Geometry")) { flags |= SHOW_GEOMETRY; flags &= ~SHOW_INFONOTGEO; } else if (StrEquals(tok,"NoIcons")) { flags &= ~SHOW_ICONIC; } else if (StrEquals(tok,"Icons")) { flags |= SHOW_ICONIC; } else if (StrEquals(tok,"OnlyIcons")) { flags = SHOW_ICONIC; } else if (StrEquals(tok,"NoNormal")) { flags &= ~SHOW_NORMAL; } else if (StrEquals(tok,"Normal")) { flags |= SHOW_NORMAL; } else if (StrEquals(tok,"OnlyNormal")) { flags = SHOW_NORMAL; } else if (StrEquals(tok,"NoSticky")) { flags &= ~(SHOW_STICKY_ACROSS_PAGES); flags &= ~(SHOW_STICKY_ACROSS_DESKS); } else if (StrEquals(tok,"NoStickyPage")) { flags &= ~(SHOW_STICKY_ACROSS_PAGES); } else if (StrEquals(tok,"NoStickyDesk")) { flags &= ~(SHOW_STICKY_ACROSS_DESKS); } else if (StrEquals(tok,"Sticky")) { flags |= SHOW_STICKY_ACROSS_PAGES; flags |= SHOW_STICKY_ACROSS_DESKS; } else if (StrEquals(tok,"StickyPage")) { flags |= SHOW_STICKY_ACROSS_PAGES; } else if (StrEquals(tok,"StickyDesk")) { flags |= SHOW_STICKY_ACROSS_DESKS; } else if (StrEquals(tok,"OnlySticky")) { flags = SHOW_STICKY_ACROSS_PAGES; flags = SHOW_STICKY_ACROSS_DESKS; } else if (StrEquals(tok,"OnlyStickyPage")) { flags = SHOW_STICKY_ACROSS_PAGES; } else if (StrEquals(tok,"OnlyStickyDesk")) { flags = SHOW_STICKY_ACROSS_DESKS; } else if (StrEquals(tok,"UseListSkip")) { /* deprecated as of 02-May-2007 (SS) */ fprintf(stderr, "UseListSkip is deprecated. Please use \"UseSkipList\".\n"); skiplist_mode = 1; } else if (StrEquals(tok,"UseSkipList")) { skiplist_mode = 1; } else if (StrEquals(tok,"OnlyListSkip")) { /* deprecated as of 02-May-2007 (SS) */ fprintf(stderr, "OnlyListSkip is deprecated. Please use \"OnlySkipList\".\n"); skiplist_mode = 2; } else if (StrEquals(tok,"OnlySkipList")) { skiplist_mode = 2; } else if (StrEquals(tok,"NoDeskNum")) { flags |= NO_DESK_NUM; } else if (StrEquals(tok,"NoLayer")) { flags |= NO_LAYER; } else if (StrEquals(tok,"NoCurrentDeskTitle")) { flags |= NO_CURRENT_DESK_TITLE; } else if (StrEquals(tok,"TitleForAllDesks")) { flags |= TITLE_FOR_ALL_DESKS; } else if (StrEquals(tok,"NoNumInDeskTitle")) { flags |= NO_NUM_IN_DESK_TITLE; } /* these are a bit dubious, but we should keep the * OnTop options for compatibility */ else if (StrEquals(tok, "NoOnTop")) { if (high_layer >= Scr.TopLayer) { high_layer = Scr.TopLayer - 1; } } else if (StrEquals(tok, "OnTop")) { if (high_layer < Scr.TopLayer) { high_layer = Scr.TopLayer; } } else if (StrEquals(tok, "OnlyOnTop")) { high_layer = low_layer = Scr.TopLayer; } else if (StrEquals(tok, "NoOnBottom")) { if (low_layer <= Scr.BottomLayer) { low_layer = Scr.BottomLayer - 1; } } else if (StrEquals(tok, "OnBottom")) { if (low_layer > Scr.BottomLayer) { low_layer = Scr.BottomLayer; } } else if (StrEquals(tok, "OnlyOnBottom")) { high_layer = low_layer = Scr.BottomLayer; } else if (StrEquals(tok, "Layer")) { free(tok); opts = GetNextSimpleOption(opts, &tok); if (tok) { low_layer = high_layer = atoi(tok); free(tok); opts = GetNextSimpleOption(opts, &tok); if (tok) { high_layer = atoi(tok); } } } else if (StrEquals(tok, "SelectOnRelease")) { if (sor_keyname != sor_default_keyname) { free(sor_keyname); } sor_keyname = NULL; opts = GetNextSimpleOption(opts, &sor_keyname); } else if (StrEquals(tok, "MaxLabelWidth")) { char *wid; opts = GetNextSimpleOption(opts, &wid); if (wid) { max_label_width = atoi(wid); if (max_label_width < 1) { max_label_width = 1; } free(wid); } } else if (!opts || !*opts) { default_action = safestrdup(tok); } else { fvwm_msg( ERR, "WindowList","Unknown option '%s'", tok); } if (tok) { free(tok); } } } if (was_get_menu_opts_called == False) { opts = get_menu_options( action, w, fw, NULL, NULL, NULL, &mops); } tlabel = get_desk_title(desk, flags, True); mr = NewMenuRoot(tlabel); if (!(flags & NO_CURRENT_DESK_TITLE)) { AddToMenu(mr, tlabel, "TITLE", False, False, False); empty_menu = False; } free(tlabel); numWindows = 0; for (t = Scr.FvwmRoot.next; t != NULL; t = t->next) { numWindows++; } windowList = malloc(numWindows*sizeof(t)); if (windowList == NULL) { return; } if (iconified_at_end) { iconifiedList = malloc(numWindows*sizeof(t)); if (iconifiedList == NULL) { free(windowList); return; } } /* get the windowlist starting from the current window (if any)*/ t = get_focus_window(); if (t == NULL) { t = Scr.FvwmRoot.next; } else if (current_at_end) { if (t->next) { t = t->next; } else { t = Scr.FvwmRoot.next; } } for (ii = 0; ii < numWindows; ii++) { if (flags & SORT_REVERSE) { windowList[numWindows - ii - 1] = t; } else if (iconified_at_end && IS_ICONIFIED(t)) { iconifiedList[ic++] = t; } else { windowList[ii - ic] = t; } if (t->next) { t = t->next; } else { t = Scr.FvwmRoot.next; } } if (iconified_at_end && ic > 0) { if (current_at_end && ii > ic) { windowList[numWindows - 1] = windowList[--ii - ic]; } for (ij = 0; ij < ic; ij++) { windowList[ij + (ii - ic)] = iconifiedList[ij]; } } /* Do alphabetic sort */ if (flags & (SHOW_ALPHABETIC | SORT_BYCLASS | SORT_BYRESOURCE)) { /* This will be compare or compareReverse if a reverse order * is selected. */ int (*sort)(const FvwmWindow **a, const FvwmWindow **b); switch (flags & (SHOW_ALPHABETIC | SHOW_ICONNAME | \ SORT_BYCLASS | SORT_BYRESOURCE)) { case SHOW_ALPHABETIC: compare = visibleCompare; break; case SHOW_ALPHABETIC | SHOW_ICONNAME: compare = iconCompare; break; /* Sorting based on class name produces an alphabetic * order so the keyword alphabetic is redundant. */ case SORT_BYCLASS: case SORT_BYCLASS | SHOW_ALPHABETIC: compare = classCompare; break; case SORT_BYCLASS | SHOW_ICONNAME: case SORT_BYCLASS | SHOW_ICONNAME | SHOW_ALPHABETIC: compare = classIconCompare; break; case SORT_BYRESOURCE: case SORT_BYRESOURCE | SORT_BYCLASS: case SORT_BYRESOURCE | SORT_BYCLASS | SHOW_ALPHABETIC: compare = resourceCompare; break; case SORT_BYRESOURCE | SHOW_ICONNAME: case SORT_BYRESOURCE | SHOW_ICONNAME | SORT_BYCLASS: case SORT_BYRESOURCE | SHOW_ICONNAME | SORT_BYCLASS | \ SHOW_ALPHABETIC: compare = resourceIconCompare; break; /* All current cases are covered, but if something * changes in the future we leave compare valid even if * it isn't what is expected. */ default: compare = visibleCompare; break; } if ( flags & SORT_REVERSE ) { sort = compareReverse; } else { sort = compare; } qsort(windowList, numWindows, sizeof(t), (int(*)(const void*, const void*))sort); } while(next_desk != INT_MAX) { /* Sort window list by desktop number */ if ((flags & SHOW_ALLDESKS) && !(flags & NO_DESK_SORT)) { /* run through the windowlist finding the first desk * not already processed */ next_desk = INT_MAX; for (ii = 0; ii < numWindows; ii++) { t = windowList[ii]; if (t->Desk >last_desk_done && t->Desk < next_desk) { next_desk = t->Desk; } } } if (!(flags & SHOW_ALLDESKS)) { /* if only doing one desk and it hasn't been done */ if (last_desk_done == INT_MIN) next_desk = desk; /* select the desk */ else next_desk = INT_MAX; /* flag completion */ } if (flags & NO_DESK_SORT) next_desk = INT_MAX; /* only go through loop once */ last_desk_done = next_desk; for (ii = 0; ii < numWindows; ii++) { t = windowList[ii]; if (t->Desk != next_desk && !(flags & NO_DESK_SORT)) { continue; } if (skiplist_mode == 0 && DO_SKIP_WINDOW_LIST(t)) { /* don't want skiplist windows - skip */ continue; } if (skiplist_mode == 2 && !DO_SKIP_WINDOW_LIST(t)) { /* don't want no skiplist one - skip */ continue; } if (use_condition && !MatchesConditionMask(t, &mask)) { /* doesn't match specified condition */ continue; } if (!(flags & SHOW_ICONIC) && (IS_ICONIFIED(t))) { /* don't want icons - skip */ continue; } if (!(flags & SHOW_STICKY_ACROSS_PAGES) && (IS_STICKY_ACROSS_PAGES(t))) { /* don't want sticky ones - skip */ continue; } if (!(flags & SHOW_STICKY_ACROSS_DESKS) && (IS_STICKY_ACROSS_DESKS(t))) { /* don't want sticky ones - skip */ continue; } if (!(flags & SHOW_NORMAL) && !(IS_ICONIFIED(t) || IS_STICKY_ACROSS_PAGES(t) || IS_STICKY_ACROSS_DESKS(t))) { /* don't want "normal" ones - skip */ continue; } if (get_layer(t) < low_layer || get_layer(t) > high_layer) { /* don't want this layer */ continue; } empty_menu = False; /* add separator between desks when geometry * shown but not at the top*/ if (t->Desk != last_desk_displayed) { if (last_desk_displayed != INT_MIN) { if (((flags & SHOW_GEOMETRY) || (flags & SHOW_INFONOTGEO)) && !(flags & TITLE_FOR_ALL_DESKS)) { AddToMenu( mr, NULL, NULL, False, False, False); } if (flags & TITLE_FOR_ALL_DESKS) { tlabel = get_desk_title( t->Desk, flags, False); AddToMenu( mr, tlabel, "TITLE", False, False, False); free(tlabel); } } last_desk_displayed = t->Desk; } if (first_desk && flags & TITLE_FOR_ALL_DESKS) { tlabel = get_desk_title(t->Desk, flags, False); AddToMenu( mr, tlabel, "TITLE", False, False, False); free(tlabel); } first_desk = False; if (flags & SHOW_ICONNAME) { name = t->visible_icon_name; } else { name = t->visible_name; } free_name = False; if (!name) { name = "NULL_NAME"; } else if (max_label_width > 0 && strlen(name) > max_label_width) { name = strdup(name); name[max_label_width] = '\0'; free_name = True; } t_hot = safemalloc(strlen(name) + 80); if (use_hotkey) { /* Generate label */ sprintf(t_hot, "&%c. ", scut); } else { *t_hot = 0; } if (!(flags & SHOW_INFONOTGEO)) { strcat(t_hot, name); } if (*t_hot == 0) { strcpy(t_hot, " "); } /* Next shortcut key */ if (scut == '9') { scut = 'A'; } else if (scut == 'Z') { scut = '0'; } else { scut++; } if (flags & SHOW_INFONOTGEO) { tname[0]=0; if (!IS_ICONIFIED(t) && !(flags & NO_DESK_NUM)) { sprintf(loc,"%d:", t->Desk); strcat(tname,loc); } if (IS_ICONIFIED(t)) { strcat(tname, "("); } strcat(t_hot,"\t"); strcat(t_hot,tname); strcat(t_hot, name); if (IS_ICONIFIED(t)) { strcat(t_hot, ")"); } } else if (flags & SHOW_GEOMETRY) { size_borders b; tname[0]=0; if (IS_ICONIFIED(t)) { strcpy(tname, "("); } if (!(flags & NO_DESK_NUM)) { sprintf(loc, "%d", t->Desk); strcat(tname, loc); } if (flags & SHOW_SCREEN) { fscreen_scr_arg fscr; int scr; fscr.xypos.x = Scr.Vx + t->g.frame.x + t->g.frame.width / 2; fscr.xypos.y = Scr.Vy + t->g.frame.y + t->g.frame.height / 2; scr = FScreenGetScrId( &fscr, FSCREEN_XYPOS); sprintf(loc, "@%d", scr); strcat(tname, loc); } if (flags & SHOW_PAGE_X) { sprintf(loc, "+%d", (Scr.Vx + t->g.frame.x + t->g.frame.width / 2) / Scr.MyDisplayWidth); strcat(tname, loc); } if (flags & SHOW_PAGE_Y) { sprintf(loc, "+%d", (Scr.Vy + t->g.frame.y + t->g.frame.height/2) / Scr.MyDisplayHeight); strcat(tname, loc); } if (!(flags & NO_LAYER)) { sprintf(loc, "(%d)", (get_layer(t))); strcat(tname, loc); } strcat(tname, ":"); get_window_borders(t, &b); dheight = t->g.frame.height - b.total_size.height; dwidth = t->g.frame.width - b.total_size.width; dwidth = (dwidth - t->hints.base_width) /t->orig_hints.width_inc; dheight = (dheight - t->hints.base_height) /t->orig_hints.height_inc; sprintf(loc,"%d",dwidth); strcat(tname, loc); sprintf(loc,"x%d",dheight); strcat(tname, loc); if (t->g.frame.x >=0) { sprintf(loc,"+%d",t->g.frame.x); } else { sprintf(loc,"%d",t->g.frame.x); } strcat(tname, loc); if (t->g.frame.y >=0) { sprintf(loc,"+%d",t->g.frame.y); } else { sprintf(loc,"%d",t->g.frame.y); } strcat(tname, loc); if (IS_STICKY_ACROSS_PAGES(t) || IS_STICKY_ACROSS_DESKS(t)) { strcat(tname, " S"); } if (IS_ICONIFIED(t)) { strcat(tname, ")"); } strcat(t_hot,"\t"); strcat(t_hot,tname); } ffunc = func ? func : "WindowListFunc"; tfunc = safemalloc(strlen(ffunc) + 36); /* support two ways for now: window context * (new) and window id param (old) */ sprintf(tfunc, "WindowId %lu %s %lu", FW_W(t), ffunc, FW_W(t)); AddToMenu( mr, t_hot, tfunc, False, False, False); free(tfunc); /* Add the title pixmap */ if (FMiniIconsSupported && t->mini_icon) { MI_MINI_ICON(MR_LAST_ITEM(mr))[0] = t->mini_icon; /* increase the cache count. Otherwise the * pixmap will be eventually removed from the * cache by DestroyMenu */ t->mini_icon->count++; } if (t_hot) { free(t_hot); } if (free_name) { free(name); } } } if (empty_menu) { /* force current desk title */ tlabel = get_desk_title(desk, flags, True); AddToMenu(mr, tlabel, "TITLE", False, False, False); free(tlabel); } if (func) { free(func); } free(windowList); if (iconified_at_end) { free(iconifiedList); } /* Use the WindowList menu style if there is one */ change_mr_menu_style(mr, "WindowList"); /* Activate select_on_release style */ old_sor_keycode = MST_SELECT_ON_RELEASE_KEY(mr); if (sor_keyname && (!MST_SELECT_ON_RELEASE_KEY(mr) || sor_keyname != sor_default_keyname)) { MST_SELECT_ON_RELEASE_KEY(mr) = XKeysymToKeycode( dpy, FvwmStringToKeysym(dpy, sor_keyname)); } memset(&mp, 0, sizeof(mp)); mp.menu = mr; exc2 = exc_clone_context(exc, NULL, 0); mp.pexc = &exc2; mp.flags.has_default_action = (default_action && *default_action != 0); mp.flags.is_sticky = 1; mp.flags.is_submenu = 0; mp.flags.is_already_mapped = 0; mp.flags.is_triggered_by_keypress = (!default_action && exc->x.etrigger->type == KeyPress); mp.pops = &mops; mp.ret_paction = &ret_action; do_menu(&mp, &mret); /* Restore old menu style */ MST_SELECT_ON_RELEASE_KEY(mr) = old_sor_keycode; if (ret_action) { free(ret_action); } DestroyMenu(mr, False, False); if (mret.rc == MENU_DOUBLE_CLICKED && default_action && *default_action) { execute_function(cond_rc, exc2, default_action, 0); } if (default_action != NULL) { free(default_action); } if (use_condition) { FreeConditionMask(&mask); } if (sor_keyname && sor_keyname != sor_default_keyname) { free(sor_keyname); } exc_destroy_context(exc2); return; }
/* * * Moves focus to specified window; only to be called bay Focus and FlipFocus * */ static void __activate_window_by_command( F_CMD_ARGS, int is_focus_by_flip_focus_cmd) { int cx; int cy; Bool do_not_warp; sftfwin_args_t sf_args; FvwmWindow * const fw = exc->w.fw; memset(&sf_args, 0, sizeof(sf_args)); sf_args.do_allow_force_broadcast = 1; sf_args.is_focus_by_flip_focus_cmd = is_focus_by_flip_focus_cmd; sf_args.set_by = FOCUS_SET_BY_FUNCTION; sf_args.client_entered = 0; if (fw == NULL || !FP_DO_FOCUS_BY_FUNCTION(FW_FOCUS_POLICY(fw))) { UngrabEm(GRAB_NORMAL); if (fw) { /* give the window a chance to take the focus itself */ sf_args.do_forbid_warp = 1; sf_args.do_force = 0; set_focus_to_fwin(FW_W(fw), fw, &sf_args); } return; } do_not_warp = StrEquals(PeekToken(action, NULL), "NoWarp"); if (!do_not_warp) { if (fw->Desk != Scr.CurrentDesk) { goto_desk(fw->Desk); } if (IS_ICONIFIED(fw)) { rectangle g; Bool rc; rc = get_visible_icon_title_geometry(fw, &g); if (rc == False) { get_visible_icon_picture_geometry(fw, &g); } cx = g.x + g.width / 2; cy = g.y + g.height / 2; } else { cx = fw->g.frame.x + fw->g.frame.width/2; cy = fw->g.frame.y + fw->g.frame.height/2; } if ( cx < 0 || cx >= Scr.MyDisplayWidth || cy < 0 || cy >= Scr.MyDisplayHeight) { int dx; int dy; dx = ((cx + Scr.Vx) / Scr.MyDisplayWidth) * Scr.MyDisplayWidth; dy = ((cy + Scr.Vy) / Scr.MyDisplayHeight) * Scr.MyDisplayHeight; MoveViewport(dx, dy, True); } #if 0 /* can not happen */ /* If the window is still not visible, make it visible! */ if (fw->g.frame.x + fw->g.frame.width < 0 || fw->g.frame.y + fw->g.frame.height < 0 || fw->g.frame.x >= Scr.MyDisplayWidth || fw->g.frame.y >= Scr.MyDisplayHeight) { frame_setup_window( fw, 0, 0, fw->g.frame.width, fw->g.frame.height, False); if ( FP_DO_WARP_POINTER_ON_FOCUS_FUNC( FW_FOCUS_POLICY(fw))) { FWarpPointerUpdateEvpos( exc->x.elast, dpy, None, Scr.Root, 0, 0, 0, 0, 2, 2); } } #endif } UngrabEm(GRAB_NORMAL); if (fw->Desk == Scr.CurrentDesk) { FvwmWindow *sf; sf = get_focus_window(); sf_args.do_forbid_warp = !!do_not_warp; sf_args.do_force = 0; sf_args.client_entered = 0; set_focus_to_fwin(FW_W(fw), fw, &sf_args); if (sf != get_focus_window()) { /* Ignore EnterNotify event while we are waiting for * this window to be focused. */ Scr.focus_in_pending_window = sf; } } return; }