/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */ /* Mutter Keybindings */ /* * Copyright (C) 2001 Havoc Pennington * Copyright (C) 2002 Red Hat Inc. * Copyright (C) 2003 Rob Adams * Copyright (C) 2004-2006 Elijah Newren * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . */ /** * SECTION:keybindings * @Title: MetaKeybinding * @Short_Description: Key bindings */ #define _GNU_SOURCE #include #include "keybindings-private.h" #include "workspace-private.h" #include #include #include "edge-resistance.h" #include "ui.h" #include "frame.h" #include "place.h" #include "screen-private.h" #include #include "util-private.h" #include "meta-accel-parse.h" #include #include #include #include #include #ifdef HAVE_XKB #include #endif #include "wayland/meta-wayland.h" #include "backends/x11/meta-backend-x11.h" #include "backends/native/meta-backend-native.h" #define SCHEMA_COMMON_KEYBINDINGS "org.gnome.desktop.wm.keybindings" #define SCHEMA_MUTTER_KEYBINDINGS "org.gnome.mutter.keybindings" #define SCHEMA_MUTTER_WAYLAND_KEYBINDINGS "org.gnome.mutter.wayland.keybindings" static gboolean add_builtin_keybinding (MetaDisplay *display, const char *name, GSettings *settings, MetaKeyBindingFlags flags, MetaKeyBindingAction action, MetaKeyHandlerFunc handler, int handler_arg); static void meta_key_binding_free (MetaKeyBinding *binding) { g_slice_free (MetaKeyBinding, binding); } static MetaKeyBinding * meta_key_binding_copy (MetaKeyBinding *binding) { return g_slice_dup (MetaKeyBinding, binding); } G_DEFINE_BOXED_TYPE(MetaKeyBinding, meta_key_binding, meta_key_binding_copy, meta_key_binding_free) const char * meta_key_binding_get_name (MetaKeyBinding *binding) { return binding->name; } MetaVirtualModifier meta_key_binding_get_modifiers (MetaKeyBinding *binding) { return binding->modifiers; } guint meta_key_binding_get_mask (MetaKeyBinding *binding) { return binding->mask; } gboolean meta_key_binding_is_builtin (MetaKeyBinding *binding) { return binding->handler->flags & META_KEY_BINDING_BUILTIN; } /* These can't be bound to anything, but they are used to handle * various other events. TODO: Possibly we should include them as event * handler functions and have some kind of flag to say they're unbindable. */ static gboolean process_mouse_move_resize_grab (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event); static gboolean process_keyboard_move_grab (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event); static gboolean process_keyboard_resize_grab (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event); static void grab_key_bindings (MetaDisplay *display); static void ungrab_key_bindings (MetaDisplay *display); static GHashTable *key_handlers; static GHashTable *external_grabs; #define HANDLER(name) g_hash_table_lookup (key_handlers, (name)) static void key_handler_free (MetaKeyHandler *handler) { g_free (handler->name); if (handler->user_data_free_func && handler->user_data) handler->user_data_free_func (handler->user_data); g_free (handler); } typedef struct _MetaKeyGrab MetaKeyGrab; struct _MetaKeyGrab { char *name; guint action; MetaKeyCombo *combo; }; static void meta_key_grab_free (MetaKeyGrab *grab) { g_free (grab->name); g_free (grab->combo); g_free (grab); } static guint32 key_binding_key (guint32 keycode, guint32 mask) { /* On X, keycodes are only 8 bits while libxkbcommon supports 32 bit keycodes, but since we're using the same XKB keymaps that X uses, we won't find keycodes bigger than 8 bits in practice. The bits that mutter cares about in the modifier mask are also all in the lower 8 bits both on X and clutter key events. This means that we can use a 32 bit integer to safely concatenate both keycode and mask and thus making it easy to use them as an index in a GHashTable. */ guint32 key = keycode & 0xffff; return (key << 16) | (mask & 0xffff); } static void reload_keymap (MetaDisplay *display) { if (display->keymap) meta_XFree (display->keymap); display->keymap = XGetKeyboardMapping (display->xdisplay, display->min_keycode, display->max_keycode - display->min_keycode + 1, &display->keysyms_per_keycode); } static const char * keysym_name (xkb_keysym_t keysym) { static char name[32] = ""; xkb_keysym_get_name (keysym, name, sizeof (name)); return name; } static void reload_modmap (MetaDisplay *display) { XModifierKeymap *modmap; int map_size; int i; int num_lock_mask = 0; int scroll_lock_mask = 0; modmap = XGetModifierMapping (display->xdisplay); display->ignored_modifier_mask = 0; /* Multiple bits may get set in each of these */ display->meta_mask = 0; display->hyper_mask = 0; display->super_mask = 0; /* there are 8 modifiers, and the first 3 are shift, shift lock, * and control */ map_size = 8 * modmap->max_keypermod; i = 3 * modmap->max_keypermod; while (i < map_size) { /* get the key code at this point in the map, * see if its keysym is one we're interested in */ int keycode = modmap->modifiermap[i]; if (keycode >= display->min_keycode && keycode <= display->max_keycode) { int j = 0; KeySym *syms = display->keymap + (keycode - display->min_keycode) * display->keysyms_per_keycode; while (j < display->keysyms_per_keycode) { if (syms[j] != 0) { meta_topic (META_DEBUG_KEYBINDINGS, "Keysym %s bound to modifier 0x%x\n", keysym_name (syms[j]), (1 << ( i / modmap->max_keypermod))); } if (syms[j] == XKB_KEY_Num_Lock) { /* Mod1Mask is 1 << 3 for example, i.e. the * fourth modifier, i / keyspermod is the modifier * index */ num_lock_mask |= (1 << ( i / modmap->max_keypermod)); } else if (syms[j] == XKB_KEY_Scroll_Lock) { scroll_lock_mask |= (1 << ( i / modmap->max_keypermod)); } else if (syms[j] == XKB_KEY_Super_L || syms[j] == XKB_KEY_Super_R) { display->super_mask |= (1 << ( i / modmap->max_keypermod)); } else if (syms[j] == XKB_KEY_Hyper_L || syms[j] == XKB_KEY_Hyper_R) { display->hyper_mask |= (1 << ( i / modmap->max_keypermod)); } else if (syms[j] == XKB_KEY_Meta_L || syms[j] == XKB_KEY_Meta_R) { display->meta_mask |= (1 << ( i / modmap->max_keypermod)); } ++j; } } ++i; } display->ignored_modifier_mask = (num_lock_mask | scroll_lock_mask | LockMask); meta_topic (META_DEBUG_KEYBINDINGS, "Ignoring modmask 0x%x num lock 0x%x scroll lock 0x%x hyper 0x%x super 0x%x meta 0x%x\n", display->ignored_modifier_mask, num_lock_mask, scroll_lock_mask, display->hyper_mask, display->super_mask, display->meta_mask); XFreeModifiermap (modmap); } /* Original code from gdk_x11_keymap_get_entries_for_keyval() in * gdkkeys-x11.c */ static int get_keycodes_for_keysym (MetaDisplay *display, int keysym, int **keycodes) { GArray *retval; int n_keycodes; int keycode; retval = g_array_new (FALSE, FALSE, sizeof (int)); /* Special-case: Fake mutter keysym */ if (keysym == META_KEY_ABOVE_TAB) { keycode = KEY_GRAVE + 8; g_array_append_val (retval, keycode); goto out; } keycode = display->min_keycode; while (keycode <= display->max_keycode) { const KeySym *syms = display->keymap + (keycode - display->min_keycode) * display->keysyms_per_keycode; int i = 0; while (i < display->keysyms_per_keycode) { if (syms[i] == (unsigned int)keysym) g_array_append_val (retval, keycode); ++i; } ++keycode; } out: n_keycodes = retval->len; *keycodes = (int*) g_array_free (retval, n_keycodes == 0 ? TRUE : FALSE); return n_keycodes; } static guint get_first_keycode_for_keysym (MetaDisplay *display, guint keysym) { int *keycodes; int n_keycodes; int keycode; n_keycodes = get_keycodes_for_keysym (display, keysym, &keycodes); if (n_keycodes > 0) keycode = keycodes[0]; else keycode = 0; g_free (keycodes); return keycode; } static void reload_iso_next_group_combos (MetaDisplay *display) { const char *iso_next_group_option; MetaKeyCombo *combos; int *keycodes; int n_keycodes; int n_combos; int i; g_clear_pointer (&display->iso_next_group_combos, g_free); display->n_iso_next_group_combos = 0; iso_next_group_option = meta_prefs_get_iso_next_group_option (); if (iso_next_group_option == NULL) return; n_keycodes = get_keycodes_for_keysym (display, XKB_KEY_ISO_Next_Group, &keycodes); if (g_str_equal (iso_next_group_option, "toggle") || g_str_equal (iso_next_group_option, "lalt_toggle") || g_str_equal (iso_next_group_option, "lwin_toggle") || g_str_equal (iso_next_group_option, "rwin_toggle") || g_str_equal (iso_next_group_option, "lshift_toggle") || g_str_equal (iso_next_group_option, "rshift_toggle") || g_str_equal (iso_next_group_option, "lctrl_toggle") || g_str_equal (iso_next_group_option, "rctrl_toggle") || g_str_equal (iso_next_group_option, "sclk_toggle") || g_str_equal (iso_next_group_option, "menu_toggle") || g_str_equal (iso_next_group_option, "caps_toggle")) { n_combos = n_keycodes; combos = g_new (MetaKeyCombo, n_combos); for (i = 0; i < n_keycodes; ++i) { combos[i].keysym = XKB_KEY_ISO_Next_Group; combos[i].keycode = keycodes[i]; combos[i].modifiers = 0; } } else if (g_str_equal (iso_next_group_option, "shift_caps_toggle") || g_str_equal (iso_next_group_option, "shifts_toggle")) { n_combos = n_keycodes; combos = g_new (MetaKeyCombo, n_combos); for (i = 0; i < n_keycodes; ++i) { combos[i].keysym = XKB_KEY_ISO_Next_Group; combos[i].keycode = keycodes[i]; combos[i].modifiers = ShiftMask; } } else if (g_str_equal (iso_next_group_option, "alt_caps_toggle") || g_str_equal (iso_next_group_option, "alt_space_toggle")) { n_combos = n_keycodes; combos = g_new (MetaKeyCombo, n_combos); for (i = 0; i < n_keycodes; ++i) { combos[i].keysym = XKB_KEY_ISO_Next_Group; combos[i].keycode = keycodes[i]; combos[i].modifiers = Mod1Mask; } } else if (g_str_equal (iso_next_group_option, "ctrl_shift_toggle") || g_str_equal (iso_next_group_option, "lctrl_lshift_toggle") || g_str_equal (iso_next_group_option, "rctrl_rshift_toggle")) { n_combos = n_keycodes * 2; combos = g_new (MetaKeyCombo, n_combos); for (i = 0; i < n_keycodes; ++i) { combos[i].keysym = XKB_KEY_ISO_Next_Group; combos[i].keycode = keycodes[i]; combos[i].modifiers = ShiftMask; combos[i + n_keycodes].keysym = XKB_KEY_ISO_Next_Group; combos[i + n_keycodes].keycode = keycodes[i]; combos[i + n_keycodes].modifiers = ControlMask; } } else if (g_str_equal (iso_next_group_option, "ctrl_alt_toggle")) { n_combos = n_keycodes * 2; combos = g_new (MetaKeyCombo, n_combos); for (i = 0; i < n_keycodes; ++i) { combos[i].keysym = XKB_KEY_ISO_Next_Group; combos[i].keycode = keycodes[i]; combos[i].modifiers = Mod1Mask; combos[i + n_keycodes].keysym = XKB_KEY_ISO_Next_Group; combos[i + n_keycodes].keycode = keycodes[i]; combos[i + n_keycodes].modifiers = ControlMask; } } else if (g_str_equal (iso_next_group_option, "alt_shift_toggle") || g_str_equal (iso_next_group_option, "lalt_lshift_toggle")) { n_combos = n_keycodes * 2; combos = g_new (MetaKeyCombo, n_combos); for (i = 0; i < n_keycodes; ++i) { combos[i].keysym = XKB_KEY_ISO_Next_Group; combos[i].keycode = keycodes[i]; combos[i].modifiers = Mod1Mask; combos[i + n_keycodes].keysym = XKB_KEY_ISO_Next_Group; combos[i + n_keycodes].keycode = keycodes[i]; combos[i + n_keycodes].modifiers = ShiftMask; } } else { n_combos = 0; combos = NULL; } g_free (keycodes); display->n_iso_next_group_combos = n_combos; display->iso_next_group_combos = combos; } static void binding_reload_keycode_foreach (gpointer key, gpointer value, gpointer data) { MetaDisplay *display = data; MetaKeyBinding *binding = value; if (binding->keysym) binding->keycode = get_first_keycode_for_keysym (display, binding->keysym); } static void reload_keycodes (MetaDisplay *display) { meta_topic (META_DEBUG_KEYBINDINGS, "Reloading keycodes for binding tables\n"); if (display->overlay_key_combo.keysym != 0) { display->overlay_key_combo.keycode = get_first_keycode_for_keysym (display, display->overlay_key_combo.keysym); } else { display->overlay_key_combo.keycode = 0; } reload_iso_next_group_combos (display); g_hash_table_foreach (display->key_bindings, binding_reload_keycode_foreach, display); } static void binding_reload_modifiers_foreach (gpointer key, gpointer value, gpointer data) { MetaDisplay *display = data; MetaKeyBinding *binding = value; meta_display_devirtualize_modifiers (display, binding->modifiers, &binding->mask); meta_topic (META_DEBUG_KEYBINDINGS, " Devirtualized mods 0x%x -> 0x%x (%s)\n", binding->modifiers, binding->mask, binding->name); } static void reload_modifiers (MetaDisplay *display) { meta_topic (META_DEBUG_KEYBINDINGS, "Reloading keycodes for binding tables\n"); g_hash_table_foreach (display->key_bindings, binding_reload_modifiers_foreach, display); } static void index_binding (MetaDisplay *display, MetaKeyBinding *binding) { guint32 index_key; index_key = key_binding_key (binding->keycode, binding->mask); g_hash_table_replace (display->key_bindings_index, GINT_TO_POINTER (index_key), binding); } static void binding_index_foreach (gpointer key, gpointer value, gpointer data) { MetaDisplay *display = data; MetaKeyBinding *binding = value; index_binding (display, binding); } static void rebuild_binding_index (MetaDisplay *display) { g_hash_table_remove_all (display->key_bindings_index); g_hash_table_foreach (display->key_bindings, binding_index_foreach, display); } static void rebuild_binding_table (MetaDisplay *display, GList *prefs, GList *grabs) { MetaKeyBinding *b; GList *p, *g; g_hash_table_remove_all (display->key_bindings); p = prefs; while (p) { MetaKeyPref *pref = (MetaKeyPref*)p->data; GSList *tmp = pref->combos; while (tmp) { MetaKeyCombo *combo = tmp->data; if (combo && (combo->keysym != None || combo->keycode != 0)) { MetaKeyHandler *handler = HANDLER (pref->name); b = g_malloc0 (sizeof (MetaKeyBinding)); b->name = pref->name; b->handler = handler; b->flags = handler->flags; b->keysym = combo->keysym; b->keycode = combo->keycode; b->modifiers = combo->modifiers; b->mask = 0; g_hash_table_add (display->key_bindings, b); if (pref->add_shift && (combo->modifiers & META_VIRTUAL_SHIFT_MASK) == 0) { meta_topic (META_DEBUG_KEYBINDINGS, "Binding %s also needs Shift grabbed\n", pref->name); b = g_malloc0 (sizeof (MetaKeyBinding)); b->name = pref->name; b->handler = handler; b->flags = handler->flags; b->keysym = combo->keysym; b->keycode = combo->keycode; b->modifiers = combo->modifiers | META_VIRTUAL_SHIFT_MASK; b->mask = 0; g_hash_table_add (display->key_bindings, b); } } tmp = tmp->next; } p = p->next; } g = grabs; while (g) { MetaKeyGrab *grab = (MetaKeyGrab*)g->data; if (grab->combo && (grab->combo->keysym != None || grab->combo->keycode != 0)) { MetaKeyHandler *handler = HANDLER ("external-grab"); b = g_malloc0 (sizeof (MetaKeyBinding)); b->name = grab->name; b->handler = handler; b->flags = handler->flags; b->keysym = grab->combo->keysym; b->keycode = grab->combo->keycode; b->modifiers = grab->combo->modifiers; b->mask = 0; g_hash_table_add (display->key_bindings, b); } g = g->next; } meta_topic (META_DEBUG_KEYBINDINGS, " %d bindings in table\n", g_hash_table_size (display->key_bindings)); } static void rebuild_key_binding_table (MetaDisplay *display) { GList *prefs, *grabs; meta_topic (META_DEBUG_KEYBINDINGS, "Rebuilding key binding table from preferences\n"); prefs = meta_prefs_get_keybindings (); grabs = g_hash_table_get_values (external_grabs); rebuild_binding_table (display, prefs, grabs); g_list_free (prefs); g_list_free (grabs); } static void rebuild_special_bindings (MetaDisplay *display) { MetaKeyCombo combo; meta_prefs_get_overlay_binding (&combo); display->overlay_key_combo = combo; } static void ungrab_key_bindings (MetaDisplay *display) { GSList *tmp; GSList *windows; meta_screen_ungrab_keys (display->screen); windows = meta_display_list_windows (display, META_LIST_DEFAULT); tmp = windows; while (tmp != NULL) { MetaWindow *w = tmp->data; meta_window_ungrab_keys (w); tmp = tmp->next; } g_slist_free (windows); } static void grab_key_bindings (MetaDisplay *display) { GSList *tmp; GSList *windows; meta_screen_grab_keys (display->screen); windows = meta_display_list_windows (display, META_LIST_DEFAULT); tmp = windows; while (tmp != NULL) { MetaWindow *w = tmp->data; meta_window_grab_keys (w); tmp = tmp->next; } g_slist_free (windows); } static MetaKeyBinding * display_get_keybinding (MetaDisplay *display, guint32 keycode, guint32 mask) { guint32 key; mask = mask & 0xff & ~display->ignored_modifier_mask; key = key_binding_key (keycode, mask); return g_hash_table_lookup (display->key_bindings_index, GINT_TO_POINTER (key)); } static guint next_dynamic_keybinding_action (void) { static guint num_dynamic_bindings = 0; return META_KEYBINDING_ACTION_LAST + (++num_dynamic_bindings); } static gboolean add_keybinding_internal (MetaDisplay *display, const char *name, GSettings *settings, MetaKeyBindingFlags flags, MetaKeyBindingAction action, MetaKeyHandlerFunc func, int data, gpointer user_data, GDestroyNotify free_data) { MetaKeyHandler *handler; if (!meta_prefs_add_keybinding (name, settings, action, flags)) return FALSE; handler = g_new0 (MetaKeyHandler, 1); handler->name = g_strdup (name); handler->func = func; handler->default_func = func; handler->data = data; handler->flags = flags; handler->user_data = user_data; handler->user_data_free_func = free_data; g_hash_table_insert (key_handlers, g_strdup (name), handler); return TRUE; } static gboolean add_builtin_keybinding (MetaDisplay *display, const char *name, GSettings *settings, MetaKeyBindingFlags flags, MetaKeyBindingAction action, MetaKeyHandlerFunc handler, int handler_arg) { return add_keybinding_internal (display, name, settings, flags | META_KEY_BINDING_BUILTIN, action, handler, handler_arg, NULL, NULL); } /** * meta_display_add_keybinding: * @display: a #MetaDisplay * @name: the binding's name * @settings: the #GSettings object where @name is stored * @flags: flags to specify binding details * @handler: function to run when the keybinding is invoked * @user_data: the data to pass to @handler * @free_data: function to free @user_data * * Add a keybinding at runtime. The key @name in @schema needs to be of * type %G_VARIANT_TYPE_STRING_ARRAY, with each string describing a * keybinding in the form of "<Control>a" or "<Shift><Alt>F1". The parser * is fairly liberal and allows lower or upper case, and also abbreviations * such as "<Ctl>" and "<Ctrl>". If the key is set to the empty list or a * list with a single element of either "" or "disabled", the keybinding is * disabled. * If %META_KEY_BINDING_REVERSES is specified in @flags, the binding * may be reversed by holding down the "shift" key; therefore, "<Shift>" * cannot be one of the keys used. @handler is expected to check for the * "shift" modifier in this case and reverse its action. * * Use meta_display_remove_keybinding() to remove the binding. * * Returns: the corresponding keybinding action if the keybinding was * added successfully, otherwise %META_KEYBINDING_ACTION_NONE */ guint meta_display_add_keybinding (MetaDisplay *display, const char *name, GSettings *settings, MetaKeyBindingFlags flags, MetaKeyHandlerFunc handler, gpointer user_data, GDestroyNotify free_data) { guint new_action = next_dynamic_keybinding_action (); if (!add_keybinding_internal (display, name, settings, flags, new_action, handler, 0, user_data, free_data)) return META_KEYBINDING_ACTION_NONE; return new_action; } /** * meta_display_remove_keybinding: * @display: the #MetaDisplay * @name: name of the keybinding to remove * * Remove keybinding @name; the function will fail if @name is not a known * keybinding or has not been added with meta_display_add_keybinding(). * * Returns: %TRUE if the binding has been removed sucessfully, * otherwise %FALSE */ gboolean meta_display_remove_keybinding (MetaDisplay *display, const char *name) { if (!meta_prefs_remove_keybinding (name)) return FALSE; g_hash_table_remove (key_handlers, name); return TRUE; } /** * meta_display_get_keybinding_action: * @display: A #MetaDisplay * @keycode: Raw keycode * @mask: Event mask * * Get the keybinding action bound to @keycode. Builtin keybindings * have a fixed associated #MetaKeyBindingAction, for bindings added * dynamically the function will return the keybinding action * meta_display_add_keybinding() returns on registration. * * Returns: The action that should be taken for the given key, or * %META_KEYBINDING_ACTION_NONE. */ guint meta_display_get_keybinding_action (MetaDisplay *display, unsigned int keycode, unsigned long mask) { MetaKeyBinding *binding; /* This is much more vague than the MetaDisplay::overlay-key signal, * which is only emitted if the overlay-key is the only key pressed; * as this method is primarily intended for plugins to allow processing * of mutter keybindings while holding a grab, the overlay-key-only-pressed * tracking is left to the plugin here. */ if (keycode == (unsigned int)display->overlay_key_combo.keycode) return META_KEYBINDING_ACTION_OVERLAY_KEY; binding = display_get_keybinding (display, keycode, mask); if (binding) { MetaKeyGrab *grab = g_hash_table_lookup (external_grabs, binding->name); if (grab) return grab->action; else return (guint) meta_prefs_get_keybinding_action (binding->name); } else { return META_KEYBINDING_ACTION_NONE; } } void meta_display_process_mapping_event (MetaDisplay *display, XEvent *event) { gboolean keymap_changed = FALSE; gboolean modmap_changed = FALSE; #ifdef HAVE_XKB if (event->type == display->xkb_base_event_type) { meta_topic (META_DEBUG_KEYBINDINGS, "XKB mapping changed, will redo keybindings\n"); keymap_changed = TRUE; modmap_changed = TRUE; } else #endif if (event->xmapping.request == MappingModifier) { meta_topic (META_DEBUG_KEYBINDINGS, "Received MappingModifier event, will reload modmap and redo keybindings\n"); modmap_changed = TRUE; } else if (event->xmapping.request == MappingKeyboard) { meta_topic (META_DEBUG_KEYBINDINGS, "Received MappingKeyboard event, will reload keycodes and redo keybindings\n"); keymap_changed = TRUE; } /* Now to do the work itself */ if (keymap_changed || modmap_changed) { ungrab_key_bindings (display); if (keymap_changed) reload_keymap (display); /* Deciphering the modmap depends on the loaded keysyms to find out * what modifiers is Super and so forth, so we need to reload it * even when only the keymap changes */ reload_modmap (display); if (keymap_changed) reload_keycodes (display); reload_modifiers (display); rebuild_binding_index (display); grab_key_bindings (display); } } static void bindings_changed_callback (MetaPreference pref, void *data) { MetaDisplay *display; display = data; switch (pref) { case META_PREF_KEYBINDINGS: ungrab_key_bindings (display); rebuild_key_binding_table (display); rebuild_special_bindings (display); reload_keycodes (display); reload_modifiers (display); rebuild_binding_index (display); grab_key_bindings (display); break; default: break; } } void meta_display_shutdown_keys (MetaDisplay *display) { meta_prefs_remove_listener (bindings_changed_callback, display); if (display->keymap) meta_XFree (display->keymap); g_hash_table_destroy (display->key_bindings_index); g_hash_table_destroy (display->key_bindings); } /* Grab/ungrab, ignoring all annoying modifiers like NumLock etc. */ static void meta_change_keygrab (MetaDisplay *display, Window xwindow, gboolean grab, int keysym, unsigned int keycode, int modmask) { unsigned int ignored_mask; unsigned char mask_bits[XIMaskLen (XI_LASTEVENT)] = { 0 }; XIEventMask mask = { XIAllMasterDevices, sizeof (mask_bits), mask_bits }; XISetMask (mask.mask, XI_KeyPress); XISetMask (mask.mask, XI_KeyRelease); MetaBackendX11 *backend = META_BACKEND_X11 (meta_get_backend ()); Display *xdisplay = meta_backend_x11_get_xdisplay (backend); /* Grab keycode/modmask, together with * all combinations of ignored modifiers. * X provides no better way to do this. */ meta_topic (META_DEBUG_KEYBINDINGS, "%s keybinding %s keycode %d mask 0x%x on 0x%lx\n", grab ? "Grabbing" : "Ungrabbing", keysym_name (keysym), keycode, modmask, xwindow); ignored_mask = 0; while (ignored_mask <= display->ignored_modifier_mask) { XIGrabModifiers mods; if (ignored_mask & ~(display->ignored_modifier_mask)) { /* Not a combination of ignored modifiers * (it contains some non-ignored modifiers) */ ++ignored_mask; continue; } mods = (XIGrabModifiers) { modmask | ignored_mask, 0 }; if (grab) XIGrabKeycode (xdisplay, META_VIRTUAL_CORE_KEYBOARD_ID, keycode, xwindow, XIGrabModeSync, XIGrabModeAsync, False, &mask, 1, &mods); else XIUngrabKeycode (xdisplay, META_VIRTUAL_CORE_KEYBOARD_ID, keycode, xwindow, 1, &mods); ++ignored_mask; } } typedef struct { MetaDisplay *display; Window xwindow; gboolean only_per_window; gboolean grab; } ChangeKeygrabData; static void change_keygrab_foreach (gpointer key, gpointer value, gpointer user_data) { ChangeKeygrabData *data = user_data; MetaKeyBinding *binding = value; gboolean binding_is_per_window = (binding->flags & META_KEY_BINDING_PER_WINDOW) != 0; if (data->only_per_window != binding_is_per_window) return; if (binding->keycode == 0) return; meta_change_keygrab (data->display, data->xwindow, data->grab, binding->keysym, binding->keycode, binding->mask); } static void change_binding_keygrabs (MetaDisplay *display, Window xwindow, gboolean only_per_window, gboolean grab) { ChangeKeygrabData data; data.display = display; data.xwindow = xwindow; data.only_per_window = only_per_window; data.grab = grab; g_hash_table_foreach (display->key_bindings, change_keygrab_foreach, &data); } static void meta_screen_change_keygrabs (MetaScreen *screen, gboolean grab) { MetaDisplay *display = screen->display; if (display->overlay_key_combo.keycode != 0) meta_change_keygrab (display, screen->xroot, grab, display->overlay_key_combo.keysym, display->overlay_key_combo.keycode, display->overlay_key_combo.modifiers); if (display->iso_next_group_combos) { int i = 0; while (i < display->n_iso_next_group_combos) { if (display->iso_next_group_combos[i].keycode != 0) { meta_change_keygrab (display, screen->xroot, grab, display->iso_next_group_combos[i].keysym, display->iso_next_group_combos[i].keycode, display->iso_next_group_combos[i].modifiers); } ++i; } } change_binding_keygrabs (screen->display, screen->xroot, FALSE, grab); } void meta_screen_grab_keys (MetaScreen *screen) { MetaBackend *backend = meta_get_backend (); if (!META_IS_BACKEND_X11 (backend)) return; if (screen->keys_grabbed) return; meta_screen_change_keygrabs (screen, TRUE); screen->keys_grabbed = TRUE; } void meta_screen_ungrab_keys (MetaScreen *screen) { if (!screen->keys_grabbed) return; meta_screen_change_keygrabs (screen, FALSE); screen->keys_grabbed = FALSE; } static void meta_window_change_keygrabs (MetaWindow *window, Window xwindow, gboolean grab) { change_binding_keygrabs (window->display, xwindow, TRUE, grab); } void meta_window_grab_keys (MetaWindow *window) { MetaBackend *backend = meta_get_backend (); if (!META_IS_BACKEND_X11 (backend)) return; if (window->all_keys_grabbed) return; if (window->type == META_WINDOW_DOCK || window->override_redirect) { if (window->keys_grabbed) meta_window_change_keygrabs (window, window->xwindow, FALSE); window->keys_grabbed = FALSE; return; } if (window->keys_grabbed) { if (window->frame && !window->grab_on_frame) meta_window_change_keygrabs (window, window->xwindow, FALSE); else if (window->frame == NULL && window->grab_on_frame) ; /* continue to regrab on client window */ else return; /* already all good */ } meta_window_change_keygrabs (window, meta_window_get_toplevel_xwindow (window), TRUE); window->keys_grabbed = TRUE; window->grab_on_frame = window->frame != NULL; } void meta_window_ungrab_keys (MetaWindow *window) { if (window->keys_grabbed) { if (window->grab_on_frame && window->frame != NULL) meta_window_change_keygrabs (window, window->frame->xwindow, FALSE); else if (!window->grab_on_frame) meta_window_change_keygrabs (window, window->xwindow, FALSE); window->keys_grabbed = FALSE; } } static void handle_external_grab (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer user_data) { guint action = meta_display_get_keybinding_action (display, binding->keycode, binding->mask); meta_display_accelerator_activate (display, action, event); } guint meta_display_grab_accelerator (MetaDisplay *display, const char *accelerator) { MetaBackend *backend = meta_get_backend (); MetaKeyBinding *binding; MetaKeyGrab *grab; guint keysym = 0; guint keycode = 0; guint mask = 0; MetaVirtualModifier modifiers = 0; if (!meta_parse_accelerator (accelerator, &keysym, &keycode, &modifiers)) { meta_topic (META_DEBUG_KEYBINDINGS, "Failed to parse accelerator\n"); meta_warning ("\"%s\" is not a valid accelerator\n", accelerator); return META_KEYBINDING_ACTION_NONE; } meta_display_devirtualize_modifiers (display, modifiers, &mask); keycode = get_first_keycode_for_keysym (display, keysym); if (keycode == 0) return META_KEYBINDING_ACTION_NONE; if (display_get_keybinding (display, keycode, mask)) return META_KEYBINDING_ACTION_NONE; if (META_IS_BACKEND_X11 (backend)) meta_change_keygrab (display, display->screen->xroot, TRUE, keysym, keycode, mask); grab = g_new0 (MetaKeyGrab, 1); grab->action = next_dynamic_keybinding_action (); grab->name = meta_external_binding_name_for_action (grab->action); grab->combo = g_malloc0 (sizeof (MetaKeyCombo)); grab->combo->keysym = keysym; grab->combo->keycode = keycode; grab->combo->modifiers = modifiers; g_hash_table_insert (external_grabs, grab->name, grab); binding = g_malloc0 (sizeof (MetaKeyBinding)); binding->name = grab->name; binding->handler = HANDLER ("external-grab"); binding->keysym = grab->combo->keysym; binding->keycode = grab->combo->keycode; binding->modifiers = grab->combo->modifiers; binding->mask = mask; g_hash_table_add (display->key_bindings, binding); index_binding (display, binding); return grab->action; } gboolean meta_display_ungrab_accelerator (MetaDisplay *display, guint action) { MetaBackend *backend = meta_get_backend (); MetaKeyBinding *binding; MetaKeyGrab *grab; char *key; guint mask = 0; guint keycode = 0; g_return_val_if_fail (action != META_KEYBINDING_ACTION_NONE, FALSE); key = meta_external_binding_name_for_action (action); grab = g_hash_table_lookup (external_grabs, key); if (!grab) return FALSE; meta_display_devirtualize_modifiers (display, grab->combo->modifiers, &mask); keycode = get_first_keycode_for_keysym (display, grab->combo->keysym); binding = display_get_keybinding (display, keycode, mask); if (binding) { guint32 index_key; if (META_IS_BACKEND_X11 (backend)) meta_change_keygrab (display, display->screen->xroot, FALSE, binding->keysym, binding->keycode, binding->mask); index_key = key_binding_key (binding->keycode, binding->mask); g_hash_table_remove (display->key_bindings_index, GINT_TO_POINTER (index_key)); g_hash_table_remove (display->key_bindings, binding); } g_hash_table_remove (external_grabs, key); g_free (key); return TRUE; } static gboolean grab_keyboard (MetaDisplay *display, Window xwindow, guint32 timestamp, int grab_mode) { int grab_status; unsigned char mask_bits[XIMaskLen (XI_LASTEVENT)] = { 0 }; XIEventMask mask = { XIAllMasterDevices, sizeof (mask_bits), mask_bits }; XISetMask (mask.mask, XI_KeyPress); XISetMask (mask.mask, XI_KeyRelease); /* Grab the keyboard, so we get key releases and all key * presses */ MetaBackendX11 *backend = META_BACKEND_X11 (meta_get_backend ()); Display *xdisplay = meta_backend_x11_get_xdisplay (backend); /* Strictly, we only need to set grab_mode on the keyboard device * while the pointer should always be XIGrabModeAsync. Unfortunately * there is a bug in the X server, only fixed (link below) in 1.15, * which swaps these arguments for keyboard devices. As such, we set * both the device and the paired device mode which works around * that bug and also works on fixed X servers. * * http://cgit.freedesktop.org/xorg/xserver/commit/?id=9003399708936481083424b4ff8f18a16b88b7b3 */ grab_status = XIGrabDevice (xdisplay, META_VIRTUAL_CORE_KEYBOARD_ID, xwindow, timestamp, None, grab_mode, grab_mode, False, /* owner_events */ &mask); return (grab_status == Success); } static void ungrab_keyboard (MetaDisplay *display, guint32 timestamp) { MetaBackendX11 *backend = META_BACKEND_X11 (meta_get_backend ()); Display *xdisplay = meta_backend_x11_get_xdisplay (backend); XIUngrabDevice (xdisplay, META_VIRTUAL_CORE_KEYBOARD_ID, timestamp); } gboolean meta_window_grab_all_keys (MetaWindow *window, guint32 timestamp) { Window grabwindow; gboolean retval; MetaBackend *backend = meta_get_backend (); if (!META_IS_BACKEND_X11 (backend)) return TRUE; if (window->all_keys_grabbed) return FALSE; if (window->keys_grabbed) meta_window_ungrab_keys (window); /* Make sure the window is focused, otherwise the grab * won't do a lot of good. */ meta_topic (META_DEBUG_FOCUS, "Focusing %s because we're grabbing all its keys\n", window->desc); meta_window_focus (window, timestamp); grabwindow = meta_window_get_toplevel_xwindow (window); meta_topic (META_DEBUG_KEYBINDINGS, "Grabbing all keys on window %s\n", window->desc); retval = grab_keyboard (window->display, grabwindow, timestamp, XIGrabModeAsync); if (retval) { window->keys_grabbed = FALSE; window->all_keys_grabbed = TRUE; window->grab_on_frame = window->frame != NULL; } return retval; } void meta_window_ungrab_all_keys (MetaWindow *window, guint32 timestamp) { if (window->all_keys_grabbed) { ungrab_keyboard (window->display, timestamp); window->grab_on_frame = FALSE; window->all_keys_grabbed = FALSE; window->keys_grabbed = FALSE; /* Re-establish our standard bindings */ meta_window_grab_keys (window); } } void meta_display_freeze_keyboard (MetaDisplay *display, Window window, guint32 timestamp) { grab_keyboard (display, window, timestamp, XIGrabModeSync); } void meta_display_ungrab_keyboard (MetaDisplay *display, guint32 timestamp) { ungrab_keyboard (display, timestamp); } void meta_display_unfreeze_keyboard (MetaDisplay *display, guint32 timestamp) { MetaBackend *backend = meta_get_backend (); if (!META_IS_BACKEND_X11 (backend)) return; Display *xdisplay = meta_backend_x11_get_xdisplay (META_BACKEND_X11 (backend)); XIAllowEvents (xdisplay, META_VIRTUAL_CORE_KEYBOARD_ID, XIAsyncDevice, timestamp); /* We shouldn't need to unfreeze the pointer device here, however we * have to, due to the workaround we do in grab_keyboard(). */ XIAllowEvents (xdisplay, META_VIRTUAL_CORE_POINTER_ID, XIAsyncDevice, timestamp); } static gboolean is_modifier (xkb_keysym_t keysym) { switch (keysym) { case XKB_KEY_Shift_L: case XKB_KEY_Shift_R: case XKB_KEY_Control_L: case XKB_KEY_Control_R: case XKB_KEY_Caps_Lock: case XKB_KEY_Shift_Lock: case XKB_KEY_Meta_L: case XKB_KEY_Meta_R: case XKB_KEY_Alt_L: case XKB_KEY_Alt_R: case XKB_KEY_Super_L: case XKB_KEY_Super_R: case XKB_KEY_Hyper_L: case XKB_KEY_Hyper_R: return TRUE; default: return FALSE; } } static void invoke_handler (MetaDisplay *display, MetaScreen *screen, MetaKeyHandler *handler, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding) { if (handler->func) (* handler->func) (display, screen, handler->flags & META_KEY_BINDING_PER_WINDOW ? window : NULL, event, binding, handler->user_data); else (* handler->default_func) (display, screen, handler->flags & META_KEY_BINDING_PER_WINDOW ? window: NULL, event, binding, NULL); } static gboolean process_event (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event) { MetaKeyBinding *binding; /* we used to have release-based bindings but no longer. */ if (event->type == CLUTTER_KEY_RELEASE) return FALSE; binding = display_get_keybinding (display, event->hardware_keycode, event->modifier_state); if (!binding || (!window && binding->flags & META_KEY_BINDING_PER_WINDOW)) goto not_found; /* If the compositor filtered out the keybindings, that * means they don't want the binding to trigger, so we do * the same thing as if the binding didn't exist. */ if (meta_compositor_filter_keybinding (display->compositor, binding)) goto not_found; if (binding->handler == NULL) meta_bug ("Binding %s has no handler\n", binding->name); else meta_topic (META_DEBUG_KEYBINDINGS, "Running handler for %s\n", binding->name); /* Global keybindings count as a let-the-terminal-lose-focus * due to new window mapping until the user starts * interacting with the terminal again. */ display->allow_terminal_deactivation = TRUE; invoke_handler (display, screen, binding->handler, window, event, binding); return TRUE; not_found: meta_topic (META_DEBUG_KEYBINDINGS, "No handler found for this event in this binding table\n"); return FALSE; } static gboolean process_overlay_key (MetaDisplay *display, MetaScreen *screen, ClutterKeyEvent *event, MetaWindow *window) { MetaBackend *backend = meta_get_backend (); Display *xdisplay; if (META_IS_BACKEND_X11 (backend)) xdisplay = meta_backend_x11_get_xdisplay (META_BACKEND_X11 (backend)); else xdisplay = NULL; if (display->overlay_key_only_pressed) { if (event->hardware_keycode != (int)display->overlay_key_combo.keycode) { display->overlay_key_only_pressed = FALSE; /* OK, the user hit modifier+key rather than pressing and * releasing the ovelay key. We want to handle the key * sequence "normally". Unfortunately, using * XAllowEvents(..., ReplayKeyboard, ...) doesn't quite * work, since global keybindings won't be activated ("this * time, however, the function ignores any passive grabs at * above (toward the root of) the grab_window of the grab * just released.") So, we first explicitly check for one of * our global keybindings, and if not found, we then replay * the event. Other clients with global grabs will be out of * luck. */ if (process_event (display, screen, window, event)) { /* As normally, after we've handled a global key * binding, we unfreeze the keyboard but keep the grab * (this is important for something like cycling * windows */ if (xdisplay) XIAllowEvents (xdisplay, clutter_input_device_get_device_id (event->device), XIAsyncDevice, event->time); } else { /* Replay the event so it gets delivered to our * per-window key bindings or to the application */ if (xdisplay) XIAllowEvents (xdisplay, clutter_input_device_get_device_id (event->device), XIReplayDevice, event->time); return FALSE; } } else if (event->type == CLUTTER_KEY_RELEASE) { MetaKeyBinding *binding; display->overlay_key_only_pressed = FALSE; /* We want to unfreeze events, but keep the grab so that if the user * starts typing into the overlay we get all the keys */ if (xdisplay) XIAllowEvents (xdisplay, clutter_input_device_get_device_id (event->device), XIAsyncDevice, event->time); binding = display_get_keybinding (display, display->overlay_key_combo.keycode, 0); if (binding && meta_compositor_filter_keybinding (display->compositor, binding)) return TRUE; meta_display_overlay_key_activate (display); } else { /* In some rare race condition, mutter might not receive the Super_L * KeyRelease event because: * - the compositor might end the modal mode and call XIUngrabDevice * while the key is still down * - passive grabs are only activated on KeyPress and not KeyRelease. * * In this case, display->overlay_key_only_pressed might be wrong. * Mutter still ought to acknowledge events, otherwise the X server * will not send the next events. * * https://bugzilla.gnome.org/show_bug.cgi?id=666101 */ if (xdisplay) XIAllowEvents (xdisplay, clutter_input_device_get_device_id (event->device), XIAsyncDevice, event->time); } return TRUE; } else if (event->type == CLUTTER_KEY_PRESS && event->hardware_keycode == (int)display->overlay_key_combo.keycode) { display->overlay_key_only_pressed = TRUE; /* We keep the keyboard frozen - this allows us to use ReplayKeyboard * on the next event if it's not the release of the overlay key */ if (xdisplay) XIAllowEvents (xdisplay, clutter_input_device_get_device_id (event->device), XISyncDevice, event->time); return TRUE; } else return FALSE; } static gboolean process_iso_next_group (MetaDisplay *display, MetaScreen *screen, ClutterKeyEvent *event) { gboolean activate; int i; if (event->type == CLUTTER_KEY_RELEASE) return FALSE; activate = FALSE; for (i = 0; i < display->n_iso_next_group_combos; ++i) { if (event->hardware_keycode == display->iso_next_group_combos[i].keycode && event->modifier_state == (unsigned int)display->iso_next_group_combos[i].modifiers) { /* If the signal handler returns TRUE the keyboard will remain frozen. It's the signal handler's responsibility to unfreeze it. */ if (!meta_display_modifiers_accelerator_activate (display)) meta_display_unfreeze_keyboard (display, event->time); activate = TRUE; break; } } return activate; } static gboolean process_key_event (MetaDisplay *display, MetaWindow *window, ClutterKeyEvent *event) { gboolean keep_grab; gboolean all_keys_grabbed; gboolean handled; MetaScreen *screen; /* window may be NULL */ screen = display->screen; all_keys_grabbed = window ? window->all_keys_grabbed : FALSE; if (!all_keys_grabbed) { handled = process_overlay_key (display, screen, event, window); if (handled) return TRUE; handled = process_iso_next_group (display, screen, event); if (handled) return TRUE; } { MetaBackend *backend = meta_get_backend (); if (META_IS_BACKEND_X11 (backend)) { Display *xdisplay = meta_backend_x11_get_xdisplay (META_BACKEND_X11 (backend)); XIAllowEvents (xdisplay, clutter_input_device_get_device_id (event->device), XIAsyncDevice, event->time); } } keep_grab = TRUE; if (all_keys_grabbed) { if (display->grab_op == META_GRAB_OP_NONE) return TRUE; /* If we get here we have a global grab, because * we're in some special keyboard mode such as window move * mode. */ if ((window && window == display->grab_window) || !window) { switch (display->grab_op) { case META_GRAB_OP_MOVING: case META_GRAB_OP_RESIZING_SE: case META_GRAB_OP_RESIZING_S: case META_GRAB_OP_RESIZING_SW: case META_GRAB_OP_RESIZING_N: case META_GRAB_OP_RESIZING_NE: case META_GRAB_OP_RESIZING_NW: case META_GRAB_OP_RESIZING_W: case META_GRAB_OP_RESIZING_E: meta_topic (META_DEBUG_KEYBINDINGS, "Processing event for mouse-only move/resize\n"); g_assert (window != NULL); keep_grab = process_mouse_move_resize_grab (display, screen, window, event); break; case META_GRAB_OP_KEYBOARD_MOVING: meta_topic (META_DEBUG_KEYBINDINGS, "Processing event for keyboard move\n"); g_assert (window != NULL); keep_grab = process_keyboard_move_grab (display, screen, window, event); break; case META_GRAB_OP_KEYBOARD_RESIZING_UNKNOWN: case META_GRAB_OP_KEYBOARD_RESIZING_S: case META_GRAB_OP_KEYBOARD_RESIZING_N: case META_GRAB_OP_KEYBOARD_RESIZING_W: case META_GRAB_OP_KEYBOARD_RESIZING_E: case META_GRAB_OP_KEYBOARD_RESIZING_SE: case META_GRAB_OP_KEYBOARD_RESIZING_NE: case META_GRAB_OP_KEYBOARD_RESIZING_SW: case META_GRAB_OP_KEYBOARD_RESIZING_NW: meta_topic (META_DEBUG_KEYBINDINGS, "Processing event for keyboard resize\n"); g_assert (window != NULL); keep_grab = process_keyboard_resize_grab (display, screen, window, event); break; default: break; } } if (!keep_grab) meta_display_end_grab_op (display, event->time); return TRUE; } /* Do the normal keybindings */ return process_event (display, screen, window, event); } /* Handle a key event. May be called recursively: some key events cause * grabs to be ended and then need to be processed again in their own * right. This cannot cause infinite recursion because we never call * ourselves when there wasn't a grab, and we always clear the grab * first; the invariant is enforced using an assertion. See #112560. * * The return value is whether we handled the key event. * * FIXME: We need to prove there are no race conditions here. * FIXME: Does it correctly handle alt-Tab being followed by another * grabbing keypress without letting go of alt? * FIXME: An iterative solution would probably be simpler to understand * (and help us solve the other fixmes). */ gboolean meta_keybindings_process_event (MetaDisplay *display, MetaWindow *window, const ClutterEvent *event) { switch (event->type) { case CLUTTER_BUTTON_PRESS: case CLUTTER_BUTTON_RELEASE: display->overlay_key_only_pressed = FALSE; return FALSE; case CLUTTER_KEY_PRESS: case CLUTTER_KEY_RELEASE: return process_key_event (display, window, (ClutterKeyEvent *) event); default: return FALSE; } } static gboolean process_mouse_move_resize_grab (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event) { /* don't care about releases, but eat them, don't end grab */ if (event->type == CLUTTER_KEY_RELEASE) return TRUE; if (event->keyval == CLUTTER_KEY_Escape) { /* Hide the tiling preview if necessary */ if (window->tile_mode != META_TILE_NONE) meta_screen_hide_tile_preview (screen); /* Restore the original tile mode */ window->tile_mode = display->grab_tile_mode; window->tile_monitor_number = display->grab_tile_monitor_number; /* End move or resize and restore to original state. If the * window was a maximized window that had been "shaken loose" we * need to remaximize it. In normal cases, we need to do a * moveresize now to get the position back to the original. */ if (window->shaken_loose || window->tile_mode == META_TILE_MAXIMIZED) meta_window_maximize (window, META_MAXIMIZE_BOTH); else if (window->tile_mode != META_TILE_NONE) meta_window_tile (window); else meta_window_move_resize_frame (display->grab_window, TRUE, display->grab_initial_window_pos.x, display->grab_initial_window_pos.y, display->grab_initial_window_pos.width, display->grab_initial_window_pos.height); /* End grab */ return FALSE; } return TRUE; } static gboolean process_keyboard_move_grab (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event) { gboolean handled; MetaRectangle frame_rect; int x, y; int incr; gboolean smart_snap; handled = FALSE; /* don't care about releases, but eat them, don't end grab */ if (event->type == CLUTTER_KEY_RELEASE) return TRUE; /* don't end grab on modifier key presses */ if (is_modifier (event->keyval)) return TRUE; meta_window_get_frame_rect (window, &frame_rect); x = frame_rect.x; y = frame_rect.y; smart_snap = (event->modifier_state & CLUTTER_SHIFT_MASK) != 0; #define SMALL_INCREMENT 1 #define NORMAL_INCREMENT 10 if (smart_snap) incr = 1; else if (event->modifier_state & CLUTTER_CONTROL_MASK) incr = SMALL_INCREMENT; else incr = NORMAL_INCREMENT; if (event->keyval == CLUTTER_KEY_Escape) { /* End move and restore to original state. If the window was a * maximized window that had been "shaken loose" we need to * remaximize it. In normal cases, we need to do a moveresize * now to get the position back to the original. */ if (window->shaken_loose) meta_window_maximize (window, META_MAXIMIZE_BOTH); else meta_window_move_resize_frame (display->grab_window, TRUE, display->grab_initial_window_pos.x, display->grab_initial_window_pos.y, display->grab_initial_window_pos.width, display->grab_initial_window_pos.height); } /* When moving by increments, we still snap to edges if the move * to the edge is smaller than the increment. This is because * Shift + arrow to snap is sort of a hidden feature. This way * people using just arrows shouldn't get too frustrated. */ switch (event->keyval) { case CLUTTER_KEY_KP_Home: case CLUTTER_KEY_KP_Prior: case CLUTTER_KEY_Up: case CLUTTER_KEY_KP_Up: y -= incr; handled = TRUE; break; case CLUTTER_KEY_KP_End: case CLUTTER_KEY_KP_Next: case CLUTTER_KEY_Down: case CLUTTER_KEY_KP_Down: y += incr; handled = TRUE; break; } switch (event->keyval) { case CLUTTER_KEY_KP_Home: case CLUTTER_KEY_KP_End: case CLUTTER_KEY_Left: case CLUTTER_KEY_KP_Left: x -= incr; handled = TRUE; break; case CLUTTER_KEY_KP_Prior: case CLUTTER_KEY_KP_Next: case CLUTTER_KEY_Right: case CLUTTER_KEY_KP_Right: x += incr; handled = TRUE; break; } if (handled) { meta_topic (META_DEBUG_KEYBINDINGS, "Computed new window location %d,%d due to keypress\n", x, y); meta_window_edge_resistance_for_move (window, &x, &y, NULL, smart_snap, TRUE); meta_window_move_frame (window, TRUE, x, y); meta_window_update_keyboard_move (window); } return handled; } static gboolean process_keyboard_resize_grab_op_change (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event) { gboolean handled; handled = FALSE; switch (display->grab_op) { case META_GRAB_OP_KEYBOARD_RESIZING_UNKNOWN: switch (event->keyval) { case CLUTTER_KEY_Up: case CLUTTER_KEY_KP_Up: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_N; handled = TRUE; break; case CLUTTER_KEY_Down: case CLUTTER_KEY_KP_Down: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_S; handled = TRUE; break; case CLUTTER_KEY_Left: case CLUTTER_KEY_KP_Left: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_W; handled = TRUE; break; case CLUTTER_KEY_Right: case CLUTTER_KEY_KP_Right: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_E; handled = TRUE; break; } break; case META_GRAB_OP_KEYBOARD_RESIZING_S: switch (event->keyval) { case CLUTTER_KEY_Left: case CLUTTER_KEY_KP_Left: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_W; handled = TRUE; break; case CLUTTER_KEY_Right: case CLUTTER_KEY_KP_Right: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_E; handled = TRUE; break; } break; case META_GRAB_OP_KEYBOARD_RESIZING_N: switch (event->keyval) { case CLUTTER_KEY_Left: case CLUTTER_KEY_KP_Left: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_W; handled = TRUE; break; case CLUTTER_KEY_Right: case CLUTTER_KEY_KP_Right: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_E; handled = TRUE; break; } break; case META_GRAB_OP_KEYBOARD_RESIZING_W: switch (event->keyval) { case CLUTTER_KEY_Up: case CLUTTER_KEY_KP_Up: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_N; handled = TRUE; break; case CLUTTER_KEY_Down: case CLUTTER_KEY_KP_Down: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_S; handled = TRUE; break; } break; case META_GRAB_OP_KEYBOARD_RESIZING_E: switch (event->keyval) { case CLUTTER_KEY_Up: case CLUTTER_KEY_KP_Up: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_N; handled = TRUE; break; case CLUTTER_KEY_Down: case CLUTTER_KEY_KP_Down: display->grab_op = META_GRAB_OP_KEYBOARD_RESIZING_S; handled = TRUE; break; } break; case META_GRAB_OP_KEYBOARD_RESIZING_SE: case META_GRAB_OP_KEYBOARD_RESIZING_NE: case META_GRAB_OP_KEYBOARD_RESIZING_SW: case META_GRAB_OP_KEYBOARD_RESIZING_NW: break; default: g_assert_not_reached (); break; } if (handled) { meta_window_update_keyboard_resize (window, TRUE); return TRUE; } return FALSE; } static gboolean process_keyboard_resize_grab (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event) { MetaRectangle frame_rect; gboolean handled; int height_inc; int width_inc; int width, height; gboolean smart_snap; int gravity; handled = FALSE; /* don't care about releases, but eat them, don't end grab */ if (event->type == CLUTTER_KEY_RELEASE) return TRUE; /* don't end grab on modifier key presses */ if (is_modifier (event->keyval)) return TRUE; if (event->keyval == CLUTTER_KEY_Escape) { /* End resize and restore to original state. */ meta_window_move_resize_frame (display->grab_window, TRUE, display->grab_initial_window_pos.x, display->grab_initial_window_pos.y, display->grab_initial_window_pos.width, display->grab_initial_window_pos.height); return FALSE; } if (process_keyboard_resize_grab_op_change (display, screen, window, event)) return TRUE; width = window->rect.width; height = window->rect.height; meta_window_get_frame_rect (window, &frame_rect); width = frame_rect.width; height = frame_rect.height; gravity = meta_resize_gravity_from_grab_op (display->grab_op); smart_snap = (event->modifier_state & CLUTTER_SHIFT_MASK) != 0; #define SMALL_INCREMENT 1 #define NORMAL_INCREMENT 10 if (smart_snap) { height_inc = 1; width_inc = 1; } else if (event->modifier_state & CLUTTER_CONTROL_MASK) { width_inc = SMALL_INCREMENT; height_inc = SMALL_INCREMENT; } else { width_inc = NORMAL_INCREMENT; height_inc = NORMAL_INCREMENT; } /* If this is a resize increment window, make the amount we resize * the window by match that amount (well, unless snap resizing...) */ if (window->size_hints.width_inc > 1) width_inc = window->size_hints.width_inc; if (window->size_hints.height_inc > 1) height_inc = window->size_hints.height_inc; switch (event->keyval) { case CLUTTER_KEY_Up: case CLUTTER_KEY_KP_Up: switch (gravity) { case NorthGravity: case NorthWestGravity: case NorthEastGravity: /* Move bottom edge up */ height -= height_inc; break; case SouthGravity: case SouthWestGravity: case SouthEastGravity: /* Move top edge up */ height += height_inc; break; case EastGravity: case WestGravity: case CenterGravity: g_assert_not_reached (); break; } handled = TRUE; break; case CLUTTER_KEY_Down: case CLUTTER_KEY_KP_Down: switch (gravity) { case NorthGravity: case NorthWestGravity: case NorthEastGravity: /* Move bottom edge down */ height += height_inc; break; case SouthGravity: case SouthWestGravity: case SouthEastGravity: /* Move top edge down */ height -= height_inc; break; case EastGravity: case WestGravity: case CenterGravity: g_assert_not_reached (); break; } handled = TRUE; break; case CLUTTER_KEY_Left: case CLUTTER_KEY_KP_Left: switch (gravity) { case EastGravity: case SouthEastGravity: case NorthEastGravity: /* Move left edge left */ width += width_inc; break; case WestGravity: case SouthWestGravity: case NorthWestGravity: /* Move right edge left */ width -= width_inc; break; case NorthGravity: case SouthGravity: case CenterGravity: g_assert_not_reached (); break; } handled = TRUE; break; case CLUTTER_KEY_Right: case CLUTTER_KEY_KP_Right: switch (gravity) { case EastGravity: case SouthEastGravity: case NorthEastGravity: /* Move left edge right */ width -= width_inc; break; case WestGravity: case SouthWestGravity: case NorthWestGravity: /* Move right edge right */ width += width_inc; break; case NorthGravity: case SouthGravity: case CenterGravity: g_assert_not_reached (); break; } handled = TRUE; break; default: break; } /* fixup hack (just paranoia, not sure it's required) */ if (height < 1) height = 1; if (width < 1) width = 1; if (handled) { meta_topic (META_DEBUG_KEYBINDINGS, "Computed new window size due to keypress: " "%dx%d, gravity %s\n", width, height, meta_gravity_to_string (gravity)); /* Do any edge resistance/snapping */ meta_window_edge_resistance_for_resize (window, &width, &height, gravity, NULL, smart_snap, TRUE); meta_window_resize_frame_with_gravity (window, TRUE, width, height, gravity); meta_window_update_keyboard_resize (window, FALSE); } return handled; } static void handle_switch_to_last_workspace (MetaDisplay *display, MetaScreen *screen, MetaWindow *event_window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { gint target = meta_screen_get_n_workspaces(screen) - 1; MetaWorkspace *workspace = meta_screen_get_workspace_by_index (screen, target); meta_workspace_activate (workspace, event->time); } static void handle_switch_to_workspace (MetaDisplay *display, MetaScreen *screen, MetaWindow *event_window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { gint which = binding->handler->data; MetaWorkspace *workspace; if (which < 0) { /* Negative workspace numbers are directions with respect to the * current workspace. */ workspace = meta_workspace_get_neighbor (screen->active_workspace, which); } else { workspace = meta_screen_get_workspace_by_index (screen, which); } if (workspace) { meta_workspace_activate (workspace, event->time); } else { /* We could offer to create it I suppose */ } } static void handle_maximize_vertically (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->has_resize_func) { if (window->maximized_vertically) meta_window_unmaximize (window, META_MAXIMIZE_VERTICAL); else meta_window_maximize (window, META_MAXIMIZE_VERTICAL); } } static void handle_maximize_horizontally (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->has_resize_func) { if (window->maximized_horizontally) meta_window_unmaximize (window, META_MAXIMIZE_HORIZONTAL); else meta_window_maximize (window, META_MAXIMIZE_HORIZONTAL); } } static void handle_always_on_top (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->wm_state_above == FALSE) meta_window_make_above (window); else meta_window_unmake_above (window); } static void handle_move_to_corner_backend (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, int gravity) { MetaRectangle work_area; MetaRectangle frame_rect; int new_x, new_y; meta_window_get_work_area_all_monitors (window, &work_area); meta_window_get_frame_rect (window, &frame_rect); switch (gravity) { case NorthWestGravity: case WestGravity: case SouthWestGravity: new_x = work_area.x; break; case NorthGravity: case SouthGravity: new_x = frame_rect.x; break; case NorthEastGravity: case EastGravity: case SouthEastGravity: new_x = work_area.x + work_area.width - frame_rect.width; break; default: g_assert_not_reached (); } switch (gravity) { case NorthWestGravity: case NorthGravity: case NorthEastGravity: new_y = work_area.y; break; case WestGravity: case EastGravity: new_y = frame_rect.y; break; case SouthWestGravity: case SouthGravity: case SouthEastGravity: new_y = work_area.y + work_area.height - frame_rect.height; break; default: g_assert_not_reached (); } meta_window_move_frame (window, TRUE, new_x, new_y); } static void handle_move_to_corner_nw (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { handle_move_to_corner_backend (display, screen, window, NorthWestGravity); } static void handle_move_to_corner_ne (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { handle_move_to_corner_backend (display, screen, window, NorthEastGravity); } static void handle_move_to_corner_sw (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { handle_move_to_corner_backend (display, screen, window, SouthWestGravity); } static void handle_move_to_corner_se (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { handle_move_to_corner_backend (display, screen, window, SouthEastGravity); } static void handle_move_to_side_n (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { handle_move_to_corner_backend (display, screen, window, NorthGravity); } static void handle_move_to_side_s (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { handle_move_to_corner_backend (display, screen, window, SouthGravity); } static void handle_move_to_side_e (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { handle_move_to_corner_backend (display, screen, window, EastGravity); } static void handle_move_to_side_w (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { handle_move_to_corner_backend (display, screen, window, WestGravity); } static void handle_move_to_center (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { MetaRectangle work_area; MetaRectangle frame_rect; meta_window_get_work_area_all_monitors (window, &work_area); meta_window_get_frame_rect (window, &frame_rect); meta_window_move_frame (window, TRUE, work_area.x + (work_area.width - frame_rect.width ) / 2, work_area.y + (work_area.height - frame_rect.height) / 2); } static void handle_show_desktop (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (screen->active_workspace->showing_desktop) { meta_screen_unshow_desktop (screen); meta_workspace_focus_default_window (screen->active_workspace, NULL, event->time); } else meta_screen_show_desktop (screen, event->time); } static void handle_panel (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { MetaKeyBindingAction action = binding->handler->data; Atom action_atom; XClientMessageEvent ev; action_atom = None; switch (action) { /* FIXME: The numbers are wrong */ case META_KEYBINDING_ACTION_PANEL_MAIN_MENU: action_atom = display->atom__GNOME_PANEL_ACTION_MAIN_MENU; break; case META_KEYBINDING_ACTION_PANEL_RUN_DIALOG: action_atom = display->atom__GNOME_PANEL_ACTION_RUN_DIALOG; break; default: return; } ev.type = ClientMessage; ev.window = screen->xroot; ev.message_type = display->atom__GNOME_PANEL_ACTION; ev.format = 32; ev.data.l[0] = action_atom; ev.data.l[1] = event->time; meta_topic (META_DEBUG_KEYBINDINGS, "Sending panel message with timestamp %u, and turning mouse_mode " "off due to keybinding press\n", event->time); display->mouse_mode = FALSE; meta_error_trap_push (display); /* Release the grab for the panel before sending the event */ XUngrabKeyboard (display->xdisplay, event->time); XSendEvent (display->xdisplay, screen->xroot, False, StructureNotifyMask, (XEvent*) &ev); meta_error_trap_pop (display); } static void handle_activate_window_menu (MetaDisplay *display, MetaScreen *screen, MetaWindow *event_window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (display->focus_window) { int x, y; MetaRectangle frame_rect; cairo_rectangle_int_t child_rect; meta_window_get_frame_rect (display->focus_window, &frame_rect); meta_window_get_client_area_rect (display->focus_window, &child_rect); x = frame_rect.x + child_rect.x; if (meta_ui_get_direction() == META_UI_DIRECTION_RTL) x += child_rect.width; y = frame_rect.y + child_rect.y; meta_window_show_menu (display->focus_window, META_WINDOW_MENU_WM, x, y); } } static void do_choose_window (MetaDisplay *display, MetaScreen *screen, MetaWindow *event_window, ClutterKeyEvent *event, MetaKeyBinding *binding, gboolean backward) { MetaTabList type = binding->handler->data; MetaWindow *window; meta_topic (META_DEBUG_KEYBINDINGS, "Tab list = %u\n", type); /* reverse direction if shift is down */ if (event->modifier_state & CLUTTER_SHIFT_MASK) backward = !backward; window = meta_display_get_tab_next (display, type, screen->active_workspace, NULL, backward); if (window) meta_window_activate (window, event->time); } static void handle_switch (MetaDisplay *display, MetaScreen *screen, MetaWindow *event_window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { gint backwards = (binding->handler->flags & META_KEY_BINDING_IS_REVERSED) != 0; do_choose_window (display, screen, event_window, event, binding, backwards); } static void handle_cycle (MetaDisplay *display, MetaScreen *screen, MetaWindow *event_window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { gint backwards = (binding->handler->flags & META_KEY_BINDING_IS_REVERSED) != 0; do_choose_window (display, screen, event_window, event, binding, backwards); } static void handle_toggle_fullscreen (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->fullscreen) meta_window_unmake_fullscreen (window); else if (window->has_fullscreen_func) meta_window_make_fullscreen (window); } static void handle_toggle_above (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->wm_state_above) meta_window_unmake_above (window); else meta_window_make_above (window); } static void handle_toggle_tiled (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { MetaTileMode mode = binding->handler->data; if ((META_WINDOW_TILED_LEFT (window) && mode == META_TILE_LEFT) || (META_WINDOW_TILED_RIGHT (window) && mode == META_TILE_RIGHT)) { window->tile_monitor_number = window->saved_maximize ? window->monitor->number : -1; window->tile_mode = window->saved_maximize ? META_TILE_MAXIMIZED : META_TILE_NONE; if (window->saved_maximize) meta_window_maximize (window, META_MAXIMIZE_BOTH); else meta_window_unmaximize (window, META_MAXIMIZE_BOTH); } else if (meta_window_can_tile_side_by_side (window)) { window->tile_monitor_number = window->monitor->number; window->tile_mode = mode; /* Maximization constraints beat tiling constraints, so if the window * is maximized, tiling won't have any effect unless we unmaximize it * horizontally first; rather than calling meta_window_unmaximize(), * we just set the flag and rely on meta_window_tile() syncing it to * save an additional roundtrip. */ window->maximized_horizontally = FALSE; meta_window_tile (window); } } static void handle_toggle_maximized (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (META_WINDOW_MAXIMIZED (window)) meta_window_unmaximize (window, META_MAXIMIZE_BOTH); else if (window->has_maximize_func) meta_window_maximize (window, META_MAXIMIZE_BOTH); } static void handle_maximize (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->has_maximize_func) meta_window_maximize (window, META_MAXIMIZE_BOTH); } static void handle_unmaximize (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->maximized_vertically || window->maximized_horizontally) meta_window_unmaximize (window, META_MAXIMIZE_BOTH); } static void handle_toggle_shaded (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->shaded) meta_window_unshade (window, event->time); else if (window->has_shade_func) meta_window_shade (window, event->time); } static void handle_close (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->has_close_func) meta_window_delete (window, event->time); } static void handle_minimize (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->has_minimize_func) meta_window_minimize (window); } static void handle_begin_move (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->has_move_func) { meta_window_begin_grab_op (window, META_GRAB_OP_KEYBOARD_MOVING, FALSE, event->time); } } static void handle_begin_resize (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->has_resize_func) { meta_window_begin_grab_op (window, META_GRAB_OP_KEYBOARD_RESIZING_UNKNOWN, FALSE, event->time); } } static void handle_toggle_on_all_workspaces (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { if (window->on_all_workspaces_requested) meta_window_unstick (window); else meta_window_stick (window); } static void handle_move_to_workspace_last (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { gint which; MetaWorkspace *workspace; if (window->always_sticky) return; which = meta_screen_get_n_workspaces (screen) - 1; workspace = meta_screen_get_workspace_by_index (screen, which); meta_window_change_workspace (window, workspace); } static void handle_move_to_workspace (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { gint which = binding->handler->data; gboolean flip = (which < 0); MetaWorkspace *workspace; /* If which is zero or positive, it's a workspace number, and the window * should move to the workspace with that number. * * However, if it's negative, it's a direction with respect to the current * position; it's expressed as a member of the MetaMotionDirection enum, * all of whose members are negative. Such a change is called a flip. */ if (window->always_sticky) return; workspace = NULL; if (flip) { workspace = meta_workspace_get_neighbor (screen->active_workspace, which); } else { workspace = meta_screen_get_workspace_by_index (screen, which); } if (workspace) { /* Activate second, so the window is never unmapped */ meta_window_change_workspace (window, workspace); if (flip) { meta_topic (META_DEBUG_FOCUS, "Resetting mouse_mode to FALSE due to " "handle_move_to_workspace() call with flip set.\n"); meta_display_clear_mouse_mode (workspace->screen->display); meta_workspace_activate_with_focus (workspace, window, event->time); } } else { /* We could offer to create it I suppose */ } } static void handle_move_to_monitor (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { gint which = binding->handler->data; const MetaMonitorInfo *current, *new; current = meta_screen_get_monitor_for_window (screen, window); new = meta_screen_get_monitor_neighbor (screen, current->number, which); if (new == NULL) return; meta_window_move_to_monitor (window, new->number); } static void handle_raise_or_lower (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { /* Get window at pointer */ MetaWindow *above = NULL; /* Check if top */ if (meta_stack_get_top (window->screen->stack) == window) { meta_window_lower (window); return; } /* else check if windows in same layer are intersecting it */ above = meta_stack_get_above (window->screen->stack, window, TRUE); while (above) { MetaRectangle tmp, win_rect, above_rect; if (above->mapped) { meta_window_get_frame_rect (window, &win_rect); meta_window_get_frame_rect (above, &above_rect); /* Check if obscured */ if (meta_rectangle_intersect (&win_rect, &above_rect, &tmp)) { meta_window_raise (window); return; } } above = meta_stack_get_above (window->screen->stack, above, TRUE); } /* window is not obscured */ meta_window_lower (window); } static void handle_raise (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { meta_window_raise (window); } static void handle_lower (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { meta_window_lower (window); } static void handle_set_spew_mark (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { meta_verbose ("-- MARK MARK MARK MARK --\n"); } static void handle_switch_vt (MetaDisplay *display, MetaScreen *screen, MetaWindow *window, ClutterKeyEvent *event, MetaKeyBinding *binding, gpointer dummy) { gint vt = binding->handler->data; GError *error = NULL; if (!meta_activate_vt (vt, &error)) { g_warning ("Failed to switch VT: %s", error->message); g_error_free (error); } } /** * meta_keybindings_set_custom_handler: * @name: The name of the keybinding to set * @handler: (allow-none): The new handler function * @user_data: User data to pass to the callback * @free_data: Will be called when this handler is overridden. * * Allows users to register a custom handler for a * builtin key binding. * * Returns: %TRUE if the binding known as @name was found, * %FALSE otherwise. */ gboolean meta_keybindings_set_custom_handler (const gchar *name, MetaKeyHandlerFunc handler, gpointer user_data, GDestroyNotify free_data) { MetaKeyHandler *key_handler = HANDLER (name); if (!key_handler) return FALSE; if (key_handler->user_data_free_func && key_handler->user_data) key_handler->user_data_free_func (key_handler->user_data); key_handler->func = handler; key_handler->user_data = user_data; key_handler->user_data_free_func = free_data; return TRUE; } static void init_builtin_key_bindings (MetaDisplay *display) { #define REVERSES_AND_REVERSED (META_KEY_BINDING_REVERSES | \ META_KEY_BINDING_IS_REVERSED) GSettings *common_keybindings = g_settings_new (SCHEMA_COMMON_KEYBINDINGS); GSettings *mutter_keybindings = g_settings_new (SCHEMA_MUTTER_KEYBINDINGS); GSettings *mutter_wayland_keybindings = g_settings_new (SCHEMA_MUTTER_WAYLAND_KEYBINDINGS); add_builtin_keybinding (display, "switch-to-workspace-1", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_1, handle_switch_to_workspace, 0); add_builtin_keybinding (display, "switch-to-workspace-2", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_2, handle_switch_to_workspace, 1); add_builtin_keybinding (display, "switch-to-workspace-3", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_3, handle_switch_to_workspace, 2); add_builtin_keybinding (display, "switch-to-workspace-4", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_4, handle_switch_to_workspace, 3); add_builtin_keybinding (display, "switch-to-workspace-5", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_5, handle_switch_to_workspace, 4); add_builtin_keybinding (display, "switch-to-workspace-6", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_6, handle_switch_to_workspace, 5); add_builtin_keybinding (display, "switch-to-workspace-7", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_7, handle_switch_to_workspace, 6); add_builtin_keybinding (display, "switch-to-workspace-8", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_8, handle_switch_to_workspace, 7); add_builtin_keybinding (display, "switch-to-workspace-9", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_9, handle_switch_to_workspace, 8); add_builtin_keybinding (display, "switch-to-workspace-10", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_10, handle_switch_to_workspace, 9); add_builtin_keybinding (display, "switch-to-workspace-11", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_11, handle_switch_to_workspace, 10); add_builtin_keybinding (display, "switch-to-workspace-12", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_12, handle_switch_to_workspace, 11); add_builtin_keybinding (display, "switch-to-workspace-left", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_LEFT, handle_switch_to_workspace, META_MOTION_LEFT); add_builtin_keybinding (display, "switch-to-workspace-right", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_RIGHT, handle_switch_to_workspace, META_MOTION_RIGHT); add_builtin_keybinding (display, "switch-to-workspace-up", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_UP, handle_switch_to_workspace, META_MOTION_UP); add_builtin_keybinding (display, "switch-to-workspace-down", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_DOWN, handle_switch_to_workspace, META_MOTION_DOWN); add_builtin_keybinding (display, "switch-to-workspace-last", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_WORKSPACE_LAST, handle_switch_to_last_workspace, 0); /* The ones which have inverses. These can't be bound to any keystroke * containing Shift because Shift will invert their "backward" state. * * TODO: "NORMAL" and "DOCKS" should be renamed to the same name as their * action, for obviousness. * * TODO: handle_switch and handle_cycle should probably really be the * same function checking a bit in the parameter for difference. */ add_builtin_keybinding (display, "switch-group", common_keybindings, META_KEY_BINDING_REVERSES, META_KEYBINDING_ACTION_SWITCH_GROUP, handle_switch, META_TAB_LIST_GROUP); add_builtin_keybinding (display, "switch-group-backward", common_keybindings, REVERSES_AND_REVERSED, META_KEYBINDING_ACTION_SWITCH_GROUP_BACKWARD, handle_switch, META_TAB_LIST_GROUP); add_builtin_keybinding (display, "switch-applications", common_keybindings, META_KEY_BINDING_REVERSES, META_KEYBINDING_ACTION_SWITCH_APPLICATIONS, handle_switch, META_TAB_LIST_NORMAL); add_builtin_keybinding (display, "switch-applications-backward", common_keybindings, REVERSES_AND_REVERSED, META_KEYBINDING_ACTION_SWITCH_APPLICATIONS_BACKWARD, handle_switch, META_TAB_LIST_NORMAL); add_builtin_keybinding (display, "switch-windows", common_keybindings, META_KEY_BINDING_REVERSES, META_KEYBINDING_ACTION_SWITCH_WINDOWS, handle_switch, META_TAB_LIST_NORMAL); add_builtin_keybinding (display, "switch-windows-backward", common_keybindings, REVERSES_AND_REVERSED, META_KEYBINDING_ACTION_SWITCH_WINDOWS_BACKWARD, handle_switch, META_TAB_LIST_NORMAL); add_builtin_keybinding (display, "switch-panels", common_keybindings, META_KEY_BINDING_REVERSES, META_KEYBINDING_ACTION_SWITCH_PANELS, handle_switch, META_TAB_LIST_DOCKS); add_builtin_keybinding (display, "switch-panels-backward", common_keybindings, REVERSES_AND_REVERSED, META_KEYBINDING_ACTION_SWITCH_PANELS_BACKWARD, handle_switch, META_TAB_LIST_DOCKS); add_builtin_keybinding (display, "cycle-group", common_keybindings, META_KEY_BINDING_REVERSES, META_KEYBINDING_ACTION_CYCLE_GROUP, handle_cycle, META_TAB_LIST_GROUP); add_builtin_keybinding (display, "cycle-group-backward", common_keybindings, REVERSES_AND_REVERSED, META_KEYBINDING_ACTION_CYCLE_GROUP_BACKWARD, handle_cycle, META_TAB_LIST_GROUP); add_builtin_keybinding (display, "cycle-windows", common_keybindings, META_KEY_BINDING_REVERSES, META_KEYBINDING_ACTION_CYCLE_WINDOWS, handle_cycle, META_TAB_LIST_NORMAL); add_builtin_keybinding (display, "cycle-windows-backward", common_keybindings, REVERSES_AND_REVERSED, META_KEYBINDING_ACTION_CYCLE_WINDOWS_BACKWARD, handle_cycle, META_TAB_LIST_NORMAL); add_builtin_keybinding (display, "cycle-panels", common_keybindings, META_KEY_BINDING_REVERSES, META_KEYBINDING_ACTION_CYCLE_PANELS, handle_cycle, META_TAB_LIST_DOCKS); add_builtin_keybinding (display, "cycle-panels-backward", common_keybindings, REVERSES_AND_REVERSED, META_KEYBINDING_ACTION_CYCLE_PANELS_BACKWARD, handle_cycle, META_TAB_LIST_DOCKS); /***********************************/ add_builtin_keybinding (display, "show-desktop", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_SHOW_DESKTOP, handle_show_desktop, 0); add_builtin_keybinding (display, "panel-main-menu", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_PANEL_MAIN_MENU, handle_panel, META_KEYBINDING_ACTION_PANEL_MAIN_MENU); add_builtin_keybinding (display, "panel-run-dialog", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_PANEL_RUN_DIALOG, handle_panel, META_KEYBINDING_ACTION_PANEL_RUN_DIALOG); add_builtin_keybinding (display, "set-spew-mark", common_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_SET_SPEW_MARK, handle_set_spew_mark, 0); if (meta_is_wayland_compositor ()) { add_builtin_keybinding (display, "switch-to-session-1", mutter_wayland_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_NONE, handle_switch_vt, 1); add_builtin_keybinding (display, "switch-to-session-2", mutter_wayland_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_NONE, handle_switch_vt, 2); add_builtin_keybinding (display, "switch-to-session-3", mutter_wayland_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_NONE, handle_switch_vt, 3); add_builtin_keybinding (display, "switch-to-session-4", mutter_wayland_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_NONE, handle_switch_vt, 4); add_builtin_keybinding (display, "switch-to-session-5", mutter_wayland_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_NONE, handle_switch_vt, 5); add_builtin_keybinding (display, "switch-to-session-6", mutter_wayland_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_NONE, handle_switch_vt, 6); add_builtin_keybinding (display, "switch-to-session-7", mutter_wayland_keybindings, META_KEY_BINDING_NONE, META_KEYBINDING_ACTION_NONE, handle_switch_vt, 7); } #undef REVERSES_AND_REVERSED /************************ PER WINDOW BINDINGS ************************/ /* These take a window as an extra parameter; they have no effect * if no window is active. */ add_builtin_keybinding (display, "activate-window-menu", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_ACTIVATE_WINDOW_MENU, handle_activate_window_menu, 0); add_builtin_keybinding (display, "toggle-fullscreen", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_TOGGLE_FULLSCREEN, handle_toggle_fullscreen, 0); add_builtin_keybinding (display, "toggle-maximized", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_TOGGLE_MAXIMIZED, handle_toggle_maximized, 0); add_builtin_keybinding (display, "toggle-tiled-left", mutter_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_TOGGLE_TILED_LEFT, handle_toggle_tiled, META_TILE_LEFT); add_builtin_keybinding (display, "toggle-tiled-right", mutter_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_TOGGLE_TILED_RIGHT, handle_toggle_tiled, META_TILE_RIGHT); add_builtin_keybinding (display, "toggle-above", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_TOGGLE_ABOVE, handle_toggle_above, 0); add_builtin_keybinding (display, "maximize", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MAXIMIZE, handle_maximize, 0); add_builtin_keybinding (display, "unmaximize", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_UNMAXIMIZE, handle_unmaximize, 0); add_builtin_keybinding (display, "toggle-shaded", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_TOGGLE_SHADED, handle_toggle_shaded, 0); add_builtin_keybinding (display, "minimize", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MINIMIZE, handle_minimize, 0); add_builtin_keybinding (display, "close", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_CLOSE, handle_close, 0); add_builtin_keybinding (display, "begin-move", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_BEGIN_MOVE, handle_begin_move, 0); add_builtin_keybinding (display, "begin-resize", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_BEGIN_RESIZE, handle_begin_resize, 0); add_builtin_keybinding (display, "toggle-on-all-workspaces", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_TOGGLE_ON_ALL_WORKSPACES, handle_toggle_on_all_workspaces, 0); add_builtin_keybinding (display, "move-to-workspace-1", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_1, handle_move_to_workspace, 0); add_builtin_keybinding (display, "move-to-workspace-2", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_2, handle_move_to_workspace, 1); add_builtin_keybinding (display, "move-to-workspace-3", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_3, handle_move_to_workspace, 2); add_builtin_keybinding (display, "move-to-workspace-4", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_4, handle_move_to_workspace, 3); add_builtin_keybinding (display, "move-to-workspace-5", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_5, handle_move_to_workspace, 4); add_builtin_keybinding (display, "move-to-workspace-6", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_6, handle_move_to_workspace, 5); add_builtin_keybinding (display, "move-to-workspace-7", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_7, handle_move_to_workspace, 6); add_builtin_keybinding (display, "move-to-workspace-8", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_8, handle_move_to_workspace, 7); add_builtin_keybinding (display, "move-to-workspace-9", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_9, handle_move_to_workspace, 8); add_builtin_keybinding (display, "move-to-workspace-10", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_10, handle_move_to_workspace, 9); add_builtin_keybinding (display, "move-to-workspace-11", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_11, handle_move_to_workspace, 10); add_builtin_keybinding (display, "move-to-workspace-12", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_12, handle_move_to_workspace, 11); add_builtin_keybinding (display, "move-to-workspace-last", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_LAST, handle_move_to_workspace_last, 0); add_builtin_keybinding (display, "move-to-workspace-left", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_LEFT, handle_move_to_workspace, META_MOTION_LEFT); add_builtin_keybinding (display, "move-to-workspace-right", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_RIGHT, handle_move_to_workspace, META_MOTION_RIGHT); add_builtin_keybinding (display, "move-to-workspace-up", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_UP, handle_move_to_workspace, META_MOTION_UP); add_builtin_keybinding (display, "move-to-workspace-down", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_WORKSPACE_DOWN, handle_move_to_workspace, META_MOTION_DOWN); add_builtin_keybinding (display, "move-to-monitor-left", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_MONITOR_LEFT, handle_move_to_monitor, META_SCREEN_LEFT); add_builtin_keybinding (display, "move-to-monitor-right", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_MONITOR_RIGHT, handle_move_to_monitor, META_SCREEN_RIGHT); add_builtin_keybinding (display, "move-to-monitor-down", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_MONITOR_DOWN, handle_move_to_monitor, META_SCREEN_DOWN); add_builtin_keybinding (display, "move-to-monitor-up", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_MONITOR_UP, handle_move_to_monitor, META_SCREEN_UP); add_builtin_keybinding (display, "raise-or-lower", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_RAISE_OR_LOWER, handle_raise_or_lower, 0); add_builtin_keybinding (display, "raise", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_RAISE, handle_raise, 0); add_builtin_keybinding (display, "lower", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_LOWER, handle_lower, 0); add_builtin_keybinding (display, "maximize-vertically", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MAXIMIZE_VERTICALLY, handle_maximize_vertically, 0); add_builtin_keybinding (display, "maximize-horizontally", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MAXIMIZE_HORIZONTALLY, handle_maximize_horizontally, 0); add_builtin_keybinding (display, "always-on-top", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_ALWAYS_ON_TOP, handle_always_on_top, 0); add_builtin_keybinding (display, "move-to-corner-nw", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_CORNER_NW, handle_move_to_corner_nw, 0); add_builtin_keybinding (display, "move-to-corner-ne", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_CORNER_NE, handle_move_to_corner_ne, 0); add_builtin_keybinding (display, "move-to-corner-sw", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_CORNER_SW, handle_move_to_corner_sw, 0); add_builtin_keybinding (display, "move-to-corner-se", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_CORNER_SE, handle_move_to_corner_se, 0); add_builtin_keybinding (display, "move-to-side-n", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_SIDE_N, handle_move_to_side_n, 0); add_builtin_keybinding (display, "move-to-side-s", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_SIDE_S, handle_move_to_side_s, 0); add_builtin_keybinding (display, "move-to-side-e", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_SIDE_E, handle_move_to_side_e, 0); add_builtin_keybinding (display, "move-to-side-w", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_SIDE_W, handle_move_to_side_w, 0); add_builtin_keybinding (display, "move-to-center", common_keybindings, META_KEY_BINDING_PER_WINDOW, META_KEYBINDING_ACTION_MOVE_TO_CENTER, handle_move_to_center, 0); g_object_unref (common_keybindings); g_object_unref (mutter_keybindings); g_object_unref (mutter_wayland_keybindings); } void meta_display_init_keys (MetaDisplay *display) { MetaKeyHandler *handler; /* Keybindings */ display->keymap = NULL; display->keysyms_per_keycode = 0; display->min_keycode = 0; display->max_keycode = 0; display->ignored_modifier_mask = 0; display->hyper_mask = 0; display->super_mask = 0; display->meta_mask = 0; display->key_bindings = g_hash_table_new_full (NULL, NULL, NULL, g_free); display->key_bindings_index = g_hash_table_new (NULL, NULL); XDisplayKeycodes (display->xdisplay, &display->min_keycode, &display->max_keycode); meta_topic (META_DEBUG_KEYBINDINGS, "Display has keycode range %d to %d\n", display->min_keycode, display->max_keycode); reload_keymap (display); reload_modmap (display); key_handlers = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, (GDestroyNotify) key_handler_free); handler = g_new0 (MetaKeyHandler, 1); handler->name = g_strdup ("overlay-key"); handler->flags = META_KEY_BINDING_BUILTIN; g_hash_table_insert (key_handlers, g_strdup ("overlay-key"), handler); handler = g_new0 (MetaKeyHandler, 1); handler->name = g_strdup ("iso-next-group"); handler->flags = META_KEY_BINDING_BUILTIN; g_hash_table_insert (key_handlers, g_strdup ("iso-next-group"), handler); handler = g_new0 (MetaKeyHandler, 1); handler->name = g_strdup ("external-grab"); handler->func = handle_external_grab; handler->default_func = handle_external_grab; g_hash_table_insert (key_handlers, g_strdup ("external-grab"), handler); external_grabs = g_hash_table_new_full (g_str_hash, g_str_equal, NULL, (GDestroyNotify)meta_key_grab_free); init_builtin_key_bindings (display); rebuild_key_binding_table (display); rebuild_special_bindings (display); reload_keycodes (display); reload_modifiers (display); rebuild_binding_index (display); /* Keys are actually grabbed in meta_screen_grab_keys() */ meta_prefs_add_listener (bindings_changed_callback, display); #ifdef HAVE_XKB /* meta_display_init_keys() should have already called XkbQueryExtension() */ if (display->xkb_base_event_type != -1) XkbSelectEvents (display->xdisplay, XkbUseCoreKbd, XkbNewKeyboardNotifyMask | XkbMapNotifyMask, XkbNewKeyboardNotifyMask | XkbMapNotifyMask); #endif }