gtk2/gtk/gtkapplicationwindow.c

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/*
* Copyright © 2011 Canonical Limited
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the licence, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
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* License along with this library. If not, see <http://www.gnu.org/licenses/>.
*
* Author: Ryan Lortie <desrt@desrt.ca>
*/
#include "config.h"
#include "gtkapplicationwindow.h"
#include "gtkapplicationprivate.h"
#include "gtkwidgetprivate.h"
#include "gtkwindowprivate.h"
#include "gtkheaderbar.h"
#include "gtkmenubar.h"
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#include "gtkintl.h"
#include "gtksettings.h"
#include "gtkshortcutswindowprivate.h"
#if defined(HAVE_GIO_UNIX) && !defined(__APPLE__)
#include <gio/gdesktopappinfo.h>
#endif
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/**
* SECTION:gtkapplicationwindow
* @title: GtkApplicationWindow
* @short_description: GtkWindow subclass with GtkApplication support
*
* #GtkApplicationWindow is a #GtkWindow subclass that offers some
* extra functionality for better integration with #GtkApplication
* features. Notably, it can handle both the application menu as well
* as the menubar. See gtk_application_set_app_menu() and
* gtk_application_set_menubar().
*
* This class implements the #GActionGroup and #GActionMap interfaces,
* to let you add window-specific actions that will be exported by the
* associated #GtkApplication, together with its application-wide
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* actions. Window-specific actions are prefixed with the win.
* prefix and application-wide actions are prefixed with the app.
* prefix. Actions must be addressed with the prefixed name when
* referring to them from a #GMenuModel.
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*
* Note that widgets that are placed inside a #GtkApplicationWindow
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* can also activate these actions, if they implement the
* #GtkActionable interface.
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*
* As with #GtkApplication, the GDK lock will be acquired when
* processing actions arriving from other processes and should therefore
* be held when activating actions locally (if GDK threads are enabled).
*
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* The settings #GtkSettings:gtk-shell-shows-app-menu and
* #GtkSettings:gtk-shell-shows-menubar tell GTK+ whether the
* desktop environment is showing the application menu and menubar
* models outside the application as part of the desktop shell.
* For instance, on OS X, both menus will be displayed remotely;
* on Windows neither will be. gnome-shell (starting with version 3.4)
* will display the application menu, but not the menubar.
*
* If the desktop environment does not display the menubar, then
* #GtkApplicationWindow will automatically show a #GtkMenuBar for it.
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* This behaviour can be overridden with the #GtkApplicationWindow:show-menubar
* property. If the desktop environment does not display the application
* menu, then it will automatically be included in the menubar or in the
* windows client-side decorations.
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*
* ## A GtkApplicationWindow with a menubar
*
* |[<!-- language="C" -->
* GtkApplication *app = gtk_application_new ("org.gtk.test", 0);
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*
* GtkBuilder *builder = gtk_builder_new_from_string (
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* "<interface>"
* " <menu id='menubar'>"
* " <submenu label='_Edit'>"
* " <item label='_Copy' action='win.copy'/>"
* " <item label='_Paste' action='win.paste'/>"
* " </submenu>"
* " </menu>"
* "</interface>",
* -1);
*
* GMenuModel *menubar = G_MENU_MODEL (gtk_builder_get_object (builder,
* "menubar"));
* gtk_application_set_menubar (GTK_APPLICATION (app), menubar);
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* g_object_unref (builder);
*
* // ...
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*
* GtkWidget *window = gtk_application_window_new (app);
* ]|
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*
* ## Handling fallback yourself
*
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* [A simple example](https://git.gnome.org/browse/gtk+/tree/examples/sunny.c)
*
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* The XML format understood by #GtkBuilder for #GMenuModel consists
* of a toplevel `<menu>` element, which contains one or more `<item>`
* elements. Each `<item>` element contains `<attribute>` and `<link>`
* elements with a mandatory name attribute. `<link>` elements have the
* same content model as `<menu>`. Instead of `<link name="submenu>` or
* `<link name="section">`, you can use `<submenu>` or `<section>`
* elements.
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*
* Attribute values can be translated using gettext, like other #GtkBuilder
* content. `<attribute>` elements can be marked for translation with a
* `translatable="yes"` attribute. It is also possible to specify message
* context and translator comments, using the context and comments attributes.
* To make use of this, the #GtkBuilder must have been given the gettext
* domain to use.
*
* The following attributes are used when constructing menu items:
* - "label": a user-visible string to display
* - "action": the prefixed name of the action to trigger
* - "target": the parameter to use when activating the action
* - "icon" and "verb-icon": names of icons that may be displayed
* - "submenu-action": name of an action that may be used to determine
* if a submenu can be opened
* - "hidden-when": a string used to determine when the item will be hidden.
* Possible values include "action-disabled", "action-missing", "macos-menubar".
*
* The following attributes are used when constructing sections:
* - "label": a user-visible string to use as section heading
* - "display-hint": a string used to determine special formatting for the section.
* Possible values include "horizontal-buttons".
* - "text-direction": a string used to determine the #GtkTextDirection to use
* when "display-hint" is set to "horizontal-buttons". Possible values
* include "rtl", "ltr", and "none".
*
* The following attributes are used when constructing submenus:
* - "label": a user-visible string to display
* - "icon": icon name to display
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*/
typedef GSimpleActionGroupClass GtkApplicationWindowActionsClass;
typedef struct
{
GSimpleActionGroup parent_instance;
GtkWindow *window;
} GtkApplicationWindowActions;
static GType gtk_application_window_actions_get_type (void);
static void gtk_application_window_actions_iface_init (GRemoteActionGroupInterface *iface);
G_DEFINE_TYPE_WITH_CODE (GtkApplicationWindowActions, gtk_application_window_actions, G_TYPE_SIMPLE_ACTION_GROUP,
G_IMPLEMENT_INTERFACE (G_TYPE_REMOTE_ACTION_GROUP, gtk_application_window_actions_iface_init))
static void
gtk_application_window_actions_activate_action_full (GRemoteActionGroup *remote,
const gchar *action_name,
GVariant *parameter,
GVariant *platform_data)
{
GtkApplicationWindowActions *actions = (GtkApplicationWindowActions *) remote;
GApplication *application;
GApplicationClass *class;
application = G_APPLICATION (gtk_window_get_application (actions->window));
class = G_APPLICATION_GET_CLASS (application);
class->before_emit (application, platform_data);
g_action_group_activate_action (G_ACTION_GROUP (actions), action_name, parameter);
class->after_emit (application, platform_data);
}
static void
gtk_application_window_actions_change_action_state_full (GRemoteActionGroup *remote,
const gchar *action_name,
GVariant *value,
GVariant *platform_data)
{
GtkApplicationWindowActions *actions = (GtkApplicationWindowActions *) remote;
GApplication *application;
GApplicationClass *class;
application = G_APPLICATION (gtk_window_get_application (actions->window));
class = G_APPLICATION_GET_CLASS (application);
class->before_emit (application, platform_data);
g_action_group_change_action_state (G_ACTION_GROUP (actions), action_name, value);
class->after_emit (application, platform_data);
}
static void
gtk_application_window_actions_init (GtkApplicationWindowActions *actions)
{
}
static void
gtk_application_window_actions_iface_init (GRemoteActionGroupInterface *iface)
{
iface->activate_action_full = gtk_application_window_actions_activate_action_full;
iface->change_action_state_full = gtk_application_window_actions_change_action_state_full;
}
static void
gtk_application_window_actions_class_init (GtkApplicationWindowActionsClass *class)
{
}
static GSimpleActionGroup *
gtk_application_window_actions_new (GtkApplicationWindow *window)
{
GtkApplicationWindowActions *actions;
actions = g_object_new (gtk_application_window_actions_get_type (), NULL);
actions->window = GTK_WINDOW (window);
return G_SIMPLE_ACTION_GROUP (actions);
}
/* Now onto GtkApplicationWindow... */
struct _GtkApplicationWindowPrivate
{
GSimpleActionGroup *actions;
GtkWidget *menubar;
gboolean show_menubar;
GMenu *app_menu_section;
GMenu *menubar_section;
guint id;
GtkShortcutsWindow *help_overlay;
};
static void
gtk_application_window_update_menubar (GtkApplicationWindow *window)
{
gboolean should_have_menubar;
gboolean have_menubar;
have_menubar = window->priv->menubar != NULL;
should_have_menubar = window->priv->show_menubar &&
(g_menu_model_get_n_items (G_MENU_MODEL (window->priv->app_menu_section)) ||
g_menu_model_get_n_items (G_MENU_MODEL (window->priv->menubar_section)));
if (have_menubar && !should_have_menubar)
{
gtk_widget_unparent (window->priv->menubar);
window->priv->menubar = NULL;
}
if (!have_menubar && should_have_menubar)
{
GMenu *combined;
combined = g_menu_new ();
g_menu_append_section (combined, NULL, G_MENU_MODEL (window->priv->app_menu_section));
g_menu_append_section (combined, NULL, G_MENU_MODEL (window->priv->menubar_section));
window->priv->menubar = gtk_menu_bar_new_from_model (G_MENU_MODEL (combined));
gtk_widget_set_parent (window->priv->menubar, GTK_WIDGET (window));
g_object_unref (combined);
}
}
static gchar *
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gtk_application_window_get_app_desktop_name (void)
{
gchar *retval = NULL;
#if defined(HAVE_GIO_UNIX) && !defined(__APPLE__)
GDesktopAppInfo *app_info;
const gchar *app_name = NULL;
gchar *desktop_file;
desktop_file = g_strconcat (g_get_prgname (), ".desktop", NULL);
app_info = g_desktop_app_info_new (desktop_file);
g_free (desktop_file);
if (app_info != NULL)
app_name = g_app_info_get_name (G_APP_INFO (app_info));
if (app_name != NULL)
retval = g_strdup (app_name);
g_clear_object (&app_info);
#endif /* HAVE_GIO_UNIX */
return retval;
}
static void
gtk_application_window_update_shell_shows_app_menu (GtkApplicationWindow *window,
GtkSettings *settings)
{
gboolean shown_by_shell;
gboolean shown_by_titlebar;
g_object_get (settings, "gtk-shell-shows-app-menu", &shown_by_shell, NULL);
shown_by_titlebar = _gtk_window_titlebar_shows_app_menu (GTK_WINDOW (window));
if (shown_by_shell || shown_by_titlebar)
{
/* the shell shows it, so don't show it locally */
if (g_menu_model_get_n_items (G_MENU_MODEL (window->priv->app_menu_section)) != 0)
g_menu_remove (window->priv->app_menu_section, 0);
}
else
{
/* the shell does not show it, so make sure we show it */
if (g_menu_model_get_n_items (G_MENU_MODEL (window->priv->app_menu_section)) == 0)
{
GMenuModel *app_menu = NULL;
if (gtk_window_get_application (GTK_WINDOW (window)) != NULL)
app_menu = gtk_application_get_app_menu (gtk_window_get_application (GTK_WINDOW (window)));
if (app_menu != NULL)
{
const gchar *app_name;
gchar *name;
app_name = g_get_application_name ();
if (app_name != g_get_prgname ())
{
/* the app has set its application name, use it */
name = g_strdup (app_name);
}
else
{
/* get the name from .desktop file */
name = gtk_application_window_get_app_desktop_name ();
if (name == NULL)
name = g_strdup (_("Application"));
}
g_menu_append_submenu (window->priv->app_menu_section, name, app_menu);
g_free (name);
}
}
}
}
static void
gtk_application_window_update_shell_shows_menubar (GtkApplicationWindow *window,
GtkSettings *settings)
{
gboolean shown_by_shell;
g_object_get (settings, "gtk-shell-shows-menubar", &shown_by_shell, NULL);
if (shown_by_shell)
{
/* the shell shows it, so don't show it locally */
if (g_menu_model_get_n_items (G_MENU_MODEL (window->priv->menubar_section)) != 0)
g_menu_remove (window->priv->menubar_section, 0);
}
else
{
/* the shell does not show it, so make sure we show it */
if (g_menu_model_get_n_items (G_MENU_MODEL (window->priv->menubar_section)) == 0)
{
GMenuModel *menubar = NULL;
if (gtk_window_get_application (GTK_WINDOW (window)) != NULL)
menubar = gtk_application_get_menubar (gtk_window_get_application (GTK_WINDOW (window)));
if (menubar != NULL)
g_menu_append_section (window->priv->menubar_section, NULL, menubar);
}
}
}
static void
gtk_application_window_shell_shows_app_menu_changed (GObject *object,
GParamSpec *pspec,
gpointer user_data)
{
GtkApplicationWindow *window = user_data;
gtk_application_window_update_shell_shows_app_menu (window, GTK_SETTINGS (object));
gtk_application_window_update_menubar (window);
}
static void
gtk_application_window_shell_shows_menubar_changed (GObject *object,
GParamSpec *pspec,
gpointer user_data)
{
GtkApplicationWindow *window = user_data;
gtk_application_window_update_shell_shows_menubar (window, GTK_SETTINGS (object));
gtk_application_window_update_menubar (window);
}
static gchar **
gtk_application_window_list_actions (GActionGroup *group)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (group);
Fix GtkApplicationWindow action group implementation GtkApplicationWindow frees its internal action group on dispose for the usual reasons: to avoid the possibility of reference cycles caused by actions referring back to the window again. Unfortunately, if it happens to be inside of a GtkActionMuxer at the time that it is disposed, it will (eventually) be removed from the muxer after it has been disposed. Removing an action group from a muxer involves a call to g_action_group_list_actions() which will crash because the internal action group to which we normally delegate the call has been freed. A future patch that reworks the quartz menu code will introduce a use of GtkActionMuxer in a way that causes exactly this problem. We can guard against the problem in a number of ways. First, we can avoid the entire situation by ensuring that we are removed from the muxer before we destroy the action group. To this end, we delay destruction of the action group until after the chain-up to the dispose of GtkWindow (which is where the window is removed from the GtkApplication). Secondly, we can add checks to each of our GActionGroup and GActionMap implementation functions to check that the internal action group is still alive before we attempt to delegate to it. We have to be careful, though: because our _list_actions() call will suddenly be returning an empty list, people watching the group from outside will have expected to see "action-removed" calls for the now-missing items. Make sure we send those. but only if someone is watching. https://bugzilla.gnome.org/show_bug.cgi?id=710351
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/* may be NULL after dispose has run */
if (!window->priv->actions)
return g_new0 (char *, 0 + 1);
return g_action_group_list_actions (G_ACTION_GROUP (window->priv->actions));
}
static gboolean
gtk_application_window_query_action (GActionGroup *group,
const gchar *action_name,
gboolean *enabled,
const GVariantType **parameter_type,
const GVariantType **state_type,
GVariant **state_hint,
GVariant **state)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (group);
Fix GtkApplicationWindow action group implementation GtkApplicationWindow frees its internal action group on dispose for the usual reasons: to avoid the possibility of reference cycles caused by actions referring back to the window again. Unfortunately, if it happens to be inside of a GtkActionMuxer at the time that it is disposed, it will (eventually) be removed from the muxer after it has been disposed. Removing an action group from a muxer involves a call to g_action_group_list_actions() which will crash because the internal action group to which we normally delegate the call has been freed. A future patch that reworks the quartz menu code will introduce a use of GtkActionMuxer in a way that causes exactly this problem. We can guard against the problem in a number of ways. First, we can avoid the entire situation by ensuring that we are removed from the muxer before we destroy the action group. To this end, we delay destruction of the action group until after the chain-up to the dispose of GtkWindow (which is where the window is removed from the GtkApplication). Secondly, we can add checks to each of our GActionGroup and GActionMap implementation functions to check that the internal action group is still alive before we attempt to delegate to it. We have to be careful, though: because our _list_actions() call will suddenly be returning an empty list, people watching the group from outside will have expected to see "action-removed" calls for the now-missing items. Make sure we send those. but only if someone is watching. https://bugzilla.gnome.org/show_bug.cgi?id=710351
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if (!window->priv->actions)
return FALSE;
return g_action_group_query_action (G_ACTION_GROUP (window->priv->actions),
action_name, enabled, parameter_type, state_type, state_hint, state);
}
static void
gtk_application_window_activate_action (GActionGroup *group,
const gchar *action_name,
GVariant *parameter)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (group);
Fix GtkApplicationWindow action group implementation GtkApplicationWindow frees its internal action group on dispose for the usual reasons: to avoid the possibility of reference cycles caused by actions referring back to the window again. Unfortunately, if it happens to be inside of a GtkActionMuxer at the time that it is disposed, it will (eventually) be removed from the muxer after it has been disposed. Removing an action group from a muxer involves a call to g_action_group_list_actions() which will crash because the internal action group to which we normally delegate the call has been freed. A future patch that reworks the quartz menu code will introduce a use of GtkActionMuxer in a way that causes exactly this problem. We can guard against the problem in a number of ways. First, we can avoid the entire situation by ensuring that we are removed from the muxer before we destroy the action group. To this end, we delay destruction of the action group until after the chain-up to the dispose of GtkWindow (which is where the window is removed from the GtkApplication). Secondly, we can add checks to each of our GActionGroup and GActionMap implementation functions to check that the internal action group is still alive before we attempt to delegate to it. We have to be careful, though: because our _list_actions() call will suddenly be returning an empty list, people watching the group from outside will have expected to see "action-removed" calls for the now-missing items. Make sure we send those. but only if someone is watching. https://bugzilla.gnome.org/show_bug.cgi?id=710351
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if (!window->priv->actions)
return;
g_action_group_activate_action (G_ACTION_GROUP (window->priv->actions), action_name, parameter);
}
static void
gtk_application_window_change_action_state (GActionGroup *group,
const gchar *action_name,
GVariant *state)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (group);
Fix GtkApplicationWindow action group implementation GtkApplicationWindow frees its internal action group on dispose for the usual reasons: to avoid the possibility of reference cycles caused by actions referring back to the window again. Unfortunately, if it happens to be inside of a GtkActionMuxer at the time that it is disposed, it will (eventually) be removed from the muxer after it has been disposed. Removing an action group from a muxer involves a call to g_action_group_list_actions() which will crash because the internal action group to which we normally delegate the call has been freed. A future patch that reworks the quartz menu code will introduce a use of GtkActionMuxer in a way that causes exactly this problem. We can guard against the problem in a number of ways. First, we can avoid the entire situation by ensuring that we are removed from the muxer before we destroy the action group. To this end, we delay destruction of the action group until after the chain-up to the dispose of GtkWindow (which is where the window is removed from the GtkApplication). Secondly, we can add checks to each of our GActionGroup and GActionMap implementation functions to check that the internal action group is still alive before we attempt to delegate to it. We have to be careful, though: because our _list_actions() call will suddenly be returning an empty list, people watching the group from outside will have expected to see "action-removed" calls for the now-missing items. Make sure we send those. but only if someone is watching. https://bugzilla.gnome.org/show_bug.cgi?id=710351
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if (!window->priv->actions)
return;
g_action_group_change_action_state (G_ACTION_GROUP (window->priv->actions), action_name, state);
}
static GAction *
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gtk_application_window_lookup_action (GActionMap *action_map,
const gchar *action_name)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (action_map);
Fix GtkApplicationWindow action group implementation GtkApplicationWindow frees its internal action group on dispose for the usual reasons: to avoid the possibility of reference cycles caused by actions referring back to the window again. Unfortunately, if it happens to be inside of a GtkActionMuxer at the time that it is disposed, it will (eventually) be removed from the muxer after it has been disposed. Removing an action group from a muxer involves a call to g_action_group_list_actions() which will crash because the internal action group to which we normally delegate the call has been freed. A future patch that reworks the quartz menu code will introduce a use of GtkActionMuxer in a way that causes exactly this problem. We can guard against the problem in a number of ways. First, we can avoid the entire situation by ensuring that we are removed from the muxer before we destroy the action group. To this end, we delay destruction of the action group until after the chain-up to the dispose of GtkWindow (which is where the window is removed from the GtkApplication). Secondly, we can add checks to each of our GActionGroup and GActionMap implementation functions to check that the internal action group is still alive before we attempt to delegate to it. We have to be careful, though: because our _list_actions() call will suddenly be returning an empty list, people watching the group from outside will have expected to see "action-removed" calls for the now-missing items. Make sure we send those. but only if someone is watching. https://bugzilla.gnome.org/show_bug.cgi?id=710351
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if (!window->priv->actions)
return NULL;
return g_action_map_lookup_action (G_ACTION_MAP (window->priv->actions), action_name);
}
static void
gtk_application_window_add_action (GActionMap *action_map,
GAction *action)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (action_map);
Fix GtkApplicationWindow action group implementation GtkApplicationWindow frees its internal action group on dispose for the usual reasons: to avoid the possibility of reference cycles caused by actions referring back to the window again. Unfortunately, if it happens to be inside of a GtkActionMuxer at the time that it is disposed, it will (eventually) be removed from the muxer after it has been disposed. Removing an action group from a muxer involves a call to g_action_group_list_actions() which will crash because the internal action group to which we normally delegate the call has been freed. A future patch that reworks the quartz menu code will introduce a use of GtkActionMuxer in a way that causes exactly this problem. We can guard against the problem in a number of ways. First, we can avoid the entire situation by ensuring that we are removed from the muxer before we destroy the action group. To this end, we delay destruction of the action group until after the chain-up to the dispose of GtkWindow (which is where the window is removed from the GtkApplication). Secondly, we can add checks to each of our GActionGroup and GActionMap implementation functions to check that the internal action group is still alive before we attempt to delegate to it. We have to be careful, though: because our _list_actions() call will suddenly be returning an empty list, people watching the group from outside will have expected to see "action-removed" calls for the now-missing items. Make sure we send those. but only if someone is watching. https://bugzilla.gnome.org/show_bug.cgi?id=710351
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if (!window->priv->actions)
return;
g_action_map_add_action (G_ACTION_MAP (window->priv->actions), action);
}
static void
gtk_application_window_remove_action (GActionMap *action_map,
const gchar *action_name)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (action_map);
Fix GtkApplicationWindow action group implementation GtkApplicationWindow frees its internal action group on dispose for the usual reasons: to avoid the possibility of reference cycles caused by actions referring back to the window again. Unfortunately, if it happens to be inside of a GtkActionMuxer at the time that it is disposed, it will (eventually) be removed from the muxer after it has been disposed. Removing an action group from a muxer involves a call to g_action_group_list_actions() which will crash because the internal action group to which we normally delegate the call has been freed. A future patch that reworks the quartz menu code will introduce a use of GtkActionMuxer in a way that causes exactly this problem. We can guard against the problem in a number of ways. First, we can avoid the entire situation by ensuring that we are removed from the muxer before we destroy the action group. To this end, we delay destruction of the action group until after the chain-up to the dispose of GtkWindow (which is where the window is removed from the GtkApplication). Secondly, we can add checks to each of our GActionGroup and GActionMap implementation functions to check that the internal action group is still alive before we attempt to delegate to it. We have to be careful, though: because our _list_actions() call will suddenly be returning an empty list, people watching the group from outside will have expected to see "action-removed" calls for the now-missing items. Make sure we send those. but only if someone is watching. https://bugzilla.gnome.org/show_bug.cgi?id=710351
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if (!window->priv->actions)
return;
g_action_map_remove_action (G_ACTION_MAP (window->priv->actions), action_name);
}
static void
gtk_application_window_group_iface_init (GActionGroupInterface *iface)
{
iface->list_actions = gtk_application_window_list_actions;
iface->query_action = gtk_application_window_query_action;
iface->activate_action = gtk_application_window_activate_action;
iface->change_action_state = gtk_application_window_change_action_state;
}
static void
gtk_application_window_map_iface_init (GActionMapInterface *iface)
{
iface->lookup_action = gtk_application_window_lookup_action;
iface->add_action = gtk_application_window_add_action;
iface->remove_action = gtk_application_window_remove_action;
}
G_DEFINE_TYPE_WITH_CODE (GtkApplicationWindow, gtk_application_window, GTK_TYPE_WINDOW,
G_ADD_PRIVATE (GtkApplicationWindow)
G_IMPLEMENT_INTERFACE (G_TYPE_ACTION_GROUP, gtk_application_window_group_iface_init)
G_IMPLEMENT_INTERFACE (G_TYPE_ACTION_MAP, gtk_application_window_map_iface_init))
enum {
PROP_0,
PROP_SHOW_MENUBAR,
N_PROPS
};
static GParamSpec *gtk_application_window_properties[N_PROPS];
static void
gtk_application_window_measure (GtkWidget *widget,
GtkOrientation orientation,
int for_size,
int *minimum,
int *natural,
int *minimum_baseline,
int *natural_baseline)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (widget);
GtkApplicationWindowPrivate *priv = gtk_application_window_get_instance_private (window);
GTK_WIDGET_CLASS (gtk_application_window_parent_class)->measure (widget,
orientation,
for_size,
minimum, natural,
minimum_baseline, natural_baseline);
if (priv->menubar != NULL)
{
int menubar_min, menubar_nat;
if (orientation == GTK_ORIENTATION_HORIZONTAL)
{
GtkBorder border = {0};
int menubar_height = 0;
gtk_widget_measure (priv->menubar, GTK_ORIENTATION_VERTICAL,
for_size, &menubar_height, NULL, NULL, NULL);
GTK_WIDGET_CLASS (gtk_application_window_parent_class)->measure (widget,
orientation,
for_size - menubar_height,
minimum, natural,
minimum_baseline, natural_baseline);
gtk_widget_measure (window->priv->menubar, orientation, menubar_height, &menubar_min, &menubar_nat, NULL, NULL);
_gtk_window_get_shadow_width (GTK_WINDOW (widget), &border);
menubar_min += border.left + border.right;
menubar_nat += border.left + border.right;
*minimum = MAX (*minimum, menubar_min);
*natural = MAX (*natural, menubar_nat);
}
else /* VERTICAL */
{
GTK_WIDGET_CLASS (gtk_application_window_parent_class)->measure (widget,
orientation,
for_size,
minimum, natural,
minimum_baseline, natural_baseline);
gtk_widget_measure (priv->menubar, orientation, for_size, &menubar_min, &menubar_nat, NULL, NULL);
*minimum += menubar_min;
*natural += menubar_nat;
}
}
else
{
GTK_WIDGET_CLASS (gtk_application_window_parent_class)->measure (widget,
orientation,
for_size,
minimum, natural,
minimum_baseline, natural_baseline);
}
}
static void
gtk_application_window_real_size_allocate (GtkWidget *widget,
const GtkAllocation *allocation,
int baseline,
GtkAllocation *out_clip)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (widget);
if (window->priv->menubar != NULL)
{
GtkAllocation menubar_allocation;
GtkAllocation child_allocation;
gint menubar_height;
GtkWidget *child;
_gtk_window_set_allocation (GTK_WINDOW (widget), allocation, &child_allocation);
menubar_allocation = child_allocation;
gtk_widget_measure (window->priv->menubar, GTK_ORIENTATION_VERTICAL,
menubar_allocation.width,
&menubar_height, NULL, NULL, NULL);
menubar_allocation.height = menubar_height;
gtk_widget_size_allocate (window->priv->menubar, &menubar_allocation, baseline, out_clip);
child_allocation.y += menubar_height;
child_allocation.height -= menubar_height;
child = gtk_bin_get_child (GTK_BIN (window));
if (child != NULL && gtk_widget_get_visible (child))
gtk_widget_size_allocate (child, &child_allocation, baseline, out_clip);
}
else
GTK_WIDGET_CLASS (gtk_application_window_parent_class)->size_allocate (widget,
allocation,
baseline,
out_clip);
}
static void
gtk_application_window_real_realize (GtkWidget *widget)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (widget);
GtkSettings *settings;
settings = gtk_widget_get_settings (widget);
g_signal_connect (settings, "notify::gtk-shell-shows-app-menu",
G_CALLBACK (gtk_application_window_shell_shows_app_menu_changed), window);
g_signal_connect (settings, "notify::gtk-shell-shows-menubar",
G_CALLBACK (gtk_application_window_shell_shows_menubar_changed), window);
GTK_WIDGET_CLASS (gtk_application_window_parent_class)->realize (widget);
gtk_application_window_update_shell_shows_app_menu (window, settings);
gtk_application_window_update_shell_shows_menubar (window, settings);
gtk_application_window_update_menubar (window);
}
static void
gtk_application_window_real_unrealize (GtkWidget *widget)
{
GtkSettings *settings;
settings = gtk_widget_get_settings (widget);
g_signal_handlers_disconnect_by_func (settings, gtk_application_window_shell_shows_app_menu_changed, widget);
g_signal_handlers_disconnect_by_func (settings, gtk_application_window_shell_shows_menubar_changed, widget);
GTK_WIDGET_CLASS (gtk_application_window_parent_class)->unrealize (widget);
}
GActionGroup *
gtk_application_window_get_action_group (GtkApplicationWindow *window)
{
return G_ACTION_GROUP (window->priv->actions);
}
static void
gtk_application_window_real_map (GtkWidget *widget)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (widget);
/* XXX could eliminate this by tweaking gtk_window_map */
if (window->priv->menubar)
gtk_widget_map (window->priv->menubar);
GTK_WIDGET_CLASS (gtk_application_window_parent_class)->map (widget);
}
static void
gtk_application_window_real_unmap (GtkWidget *widget)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (widget);
/* XXX could eliminate this by tweaking gtk_window_unmap */
if (window->priv->menubar)
gtk_widget_unmap (window->priv->menubar);
GTK_WIDGET_CLASS (gtk_application_window_parent_class)->unmap (widget);
}
static void
gtk_application_window_real_forall_internal (GtkContainer *container,
GtkCallback callback,
gpointer user_data)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (container);
if (window->priv->menubar)
callback (window->priv->menubar, user_data);
GTK_CONTAINER_CLASS (gtk_application_window_parent_class)
->forall (container, callback, user_data);
}
static void
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gtk_application_window_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (object);
switch (prop_id)
{
case PROP_SHOW_MENUBAR:
g_value_set_boolean (value, window->priv->show_menubar);
break;
default:
g_assert_not_reached ();
}
}
static void
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gtk_application_window_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (object);
switch (prop_id)
{
case PROP_SHOW_MENUBAR:
gtk_application_window_set_show_menubar (window, g_value_get_boolean (value));
break;
default:
g_assert_not_reached ();
}
}
static void
gtk_application_window_dispose (GObject *object)
{
GtkApplicationWindow *window = GTK_APPLICATION_WINDOW (object);
if (window->priv->menubar)
{
gtk_widget_unparent (window->priv->menubar);
window->priv->menubar = NULL;
}
g_clear_object (&window->priv->app_menu_section);
g_clear_object (&window->priv->menubar_section);
if (window->priv->help_overlay)
{
gtk_widget_destroy (GTK_WIDGET (window->priv->help_overlay));
g_clear_object (&window->priv->help_overlay);
}
G_OBJECT_CLASS (gtk_application_window_parent_class)->dispose (object);
Fix GtkApplicationWindow action group implementation GtkApplicationWindow frees its internal action group on dispose for the usual reasons: to avoid the possibility of reference cycles caused by actions referring back to the window again. Unfortunately, if it happens to be inside of a GtkActionMuxer at the time that it is disposed, it will (eventually) be removed from the muxer after it has been disposed. Removing an action group from a muxer involves a call to g_action_group_list_actions() which will crash because the internal action group to which we normally delegate the call has been freed. A future patch that reworks the quartz menu code will introduce a use of GtkActionMuxer in a way that causes exactly this problem. We can guard against the problem in a number of ways. First, we can avoid the entire situation by ensuring that we are removed from the muxer before we destroy the action group. To this end, we delay destruction of the action group until after the chain-up to the dispose of GtkWindow (which is where the window is removed from the GtkApplication). Secondly, we can add checks to each of our GActionGroup and GActionMap implementation functions to check that the internal action group is still alive before we attempt to delegate to it. We have to be careful, though: because our _list_actions() call will suddenly be returning an empty list, people watching the group from outside will have expected to see "action-removed" calls for the now-missing items. Make sure we send those. but only if someone is watching. https://bugzilla.gnome.org/show_bug.cgi?id=710351
2013-12-16 17:25:54 +00:00
/* We do this below the chain-up above to give us a chance to be
* removed from the GtkApplication (which is done in the dispose
* handler of GtkWindow).
*
* That reduces our chances of being watched as a GActionGroup from a
* muxer constructed by GtkApplication.
Fix GtkApplicationWindow action group implementation GtkApplicationWindow frees its internal action group on dispose for the usual reasons: to avoid the possibility of reference cycles caused by actions referring back to the window again. Unfortunately, if it happens to be inside of a GtkActionMuxer at the time that it is disposed, it will (eventually) be removed from the muxer after it has been disposed. Removing an action group from a muxer involves a call to g_action_group_list_actions() which will crash because the internal action group to which we normally delegate the call has been freed. A future patch that reworks the quartz menu code will introduce a use of GtkActionMuxer in a way that causes exactly this problem. We can guard against the problem in a number of ways. First, we can avoid the entire situation by ensuring that we are removed from the muxer before we destroy the action group. To this end, we delay destruction of the action group until after the chain-up to the dispose of GtkWindow (which is where the window is removed from the GtkApplication). Secondly, we can add checks to each of our GActionGroup and GActionMap implementation functions to check that the internal action group is still alive before we attempt to delegate to it. We have to be careful, though: because our _list_actions() call will suddenly be returning an empty list, people watching the group from outside will have expected to see "action-removed" calls for the now-missing items. Make sure we send those. but only if someone is watching. https://bugzilla.gnome.org/show_bug.cgi?id=710351
2013-12-16 17:25:54 +00:00
*/
g_clear_object (&window->priv->actions);
}
static void
gtk_application_window_init (GtkApplicationWindow *window)
{
window->priv = gtk_application_window_get_instance_private (window);
window->priv->actions = gtk_application_window_actions_new (window);
window->priv->app_menu_section = g_menu_new ();
window->priv->menubar_section = g_menu_new ();
gtk_widget_insert_action_group (GTK_WIDGET (window), "win", G_ACTION_GROUP (window->priv->actions));
/* window->priv->actions is the one and only ref on the group, so when
* we dispose, the action group will die, disconnecting all signals.
*/
g_signal_connect_swapped (window->priv->actions, "action-added",
G_CALLBACK (g_action_group_action_added), window);
g_signal_connect_swapped (window->priv->actions, "action-enabled-changed",
G_CALLBACK (g_action_group_action_enabled_changed), window);
g_signal_connect_swapped (window->priv->actions, "action-state-changed",
G_CALLBACK (g_action_group_action_state_changed), window);
g_signal_connect_swapped (window->priv->actions, "action-removed",
G_CALLBACK (g_action_group_action_removed), window);
}
static void
gtk_application_window_class_init (GtkApplicationWindowClass *class)
{
GtkContainerClass *container_class = GTK_CONTAINER_CLASS (class);
GtkWidgetClass *widget_class = GTK_WIDGET_CLASS (class);
GObjectClass *object_class = G_OBJECT_CLASS (class);
container_class->forall = gtk_application_window_real_forall_internal;
widget_class->measure = gtk_application_window_measure;
widget_class->size_allocate = gtk_application_window_real_size_allocate;
widget_class->realize = gtk_application_window_real_realize;
widget_class->unrealize = gtk_application_window_real_unrealize;
widget_class->map = gtk_application_window_real_map;
widget_class->unmap = gtk_application_window_real_unmap;
object_class->get_property = gtk_application_window_get_property;
object_class->set_property = gtk_application_window_set_property;
object_class->dispose = gtk_application_window_dispose;
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/**
* GtkApplicationWindow:show-menubar:
*
* If this property is %TRUE, the window will display a menubar
* that includes the app menu and menubar, unless these are
* shown by the desktop shell. See gtk_application_set_app_menu()
* and gtk_application_set_menubar().
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*
* If %FALSE, the window will not display a menubar, regardless
* of whether the desktop shell is showing the menus or not.
*/
gtk_application_window_properties[PROP_SHOW_MENUBAR] =
g_param_spec_boolean ("show-menubar",
P_("Show a menubar"),
2011-12-04 23:40:19 +00:00
P_("TRUE if the window should show a "
"menubar at the top of the window"),
TRUE, G_PARAM_CONSTRUCT | G_PARAM_STATIC_STRINGS | G_PARAM_READWRITE | G_PARAM_EXPLICIT_NOTIFY);
g_object_class_install_properties (object_class, N_PROPS, gtk_application_window_properties);
}
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/**
* gtk_application_window_new:
* @application: a #GtkApplication
*
* Creates a new #GtkApplicationWindow.
*
* Returns: a newly created #GtkApplicationWindow
*/
GtkWidget *
gtk_application_window_new (GtkApplication *application)
{
g_return_val_if_fail (GTK_IS_APPLICATION (application), NULL);
return g_object_new (GTK_TYPE_APPLICATION_WINDOW,
"application", application,
NULL);
}
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/**
* gtk_application_window_get_show_menubar:
* @window: a #GtkApplicationWindow
*
* Returns whether the window will display a menubar for the app menu
* and menubar as needed.
*
* Returns: %TRUE if @window will display a menubar when needed
*/
gboolean
gtk_application_window_get_show_menubar (GtkApplicationWindow *window)
{
return window->priv->show_menubar;
}
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/**
* gtk_application_window_set_show_menubar:
* @window: a #GtkApplicationWindow
* @show_menubar: whether to show a menubar when needed
*
* Sets whether the window will display a menubar for the app menu
* and menubar as needed.
*/
void
gtk_application_window_set_show_menubar (GtkApplicationWindow *window,
gboolean show_menubar)
{
g_return_if_fail (GTK_IS_APPLICATION_WINDOW (window));
show_menubar = !!show_menubar;
if (window->priv->show_menubar != show_menubar)
{
window->priv->show_menubar = show_menubar;
gtk_application_window_update_menubar (window);
g_object_notify_by_pspec (G_OBJECT (window), gtk_application_window_properties[PROP_SHOW_MENUBAR]);
}
}
/**
* gtk_application_window_get_id:
* @window: a #GtkApplicationWindow
*
* Returns the unique ID of the window. If the window has not yet been added to
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* a #GtkApplication, returns `0`.
*
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* Returns: the unique ID for @window, or `0` if the window
* has not yet been added to a #GtkApplication
*/
guint
gtk_application_window_get_id (GtkApplicationWindow *window)
{
g_return_val_if_fail (GTK_IS_APPLICATION_WINDOW (window), 0);
return window->priv->id;
}
void
gtk_application_window_set_id (GtkApplicationWindow *window,
guint id)
{
g_return_if_fail (GTK_IS_APPLICATION_WINDOW (window));
window->priv->id = id;
}
static void
show_help_overlay (GSimpleAction *action,
GVariant *parameter,
gpointer user_data)
{
GtkApplicationWindow *window = user_data;
if (window->priv->help_overlay)
gtk_widget_show (GTK_WIDGET (window->priv->help_overlay));
}
/**
* gtk_application_window_set_help_overlay:
* @window: a #GtkApplicationWindow
* @help_overlay: (nullable): a #GtkShortcutsWindow
*
* Associates a shortcuts window with the application window, and
2015-11-14 21:19:58 +00:00
* sets up an action with the name win.show-help-overlay to present
* it.
*
* @window takes resposibility for destroying @help_overlay.
*/
void
gtk_application_window_set_help_overlay (GtkApplicationWindow *window,
GtkShortcutsWindow *help_overlay)
{
g_return_if_fail (GTK_IS_APPLICATION_WINDOW (window));
g_return_if_fail (help_overlay == NULL || GTK_IS_SHORTCUTS_WINDOW (help_overlay));
if (window->priv->help_overlay)
gtk_widget_destroy (GTK_WIDGET (window->priv->help_overlay));
g_set_object (&window->priv->help_overlay, help_overlay);
if (!window->priv->help_overlay)
return;
gtk_window_set_modal (GTK_WINDOW (help_overlay), TRUE);
gtk_window_set_hide_on_close (GTK_WINDOW (help_overlay), TRUE);
gtk_window_set_transient_for (GTK_WINDOW (help_overlay), GTK_WINDOW (window));
gtk_shortcuts_window_set_window (help_overlay, GTK_WINDOW (window));
if (!g_action_map_lookup_action (G_ACTION_MAP (window->priv->actions), "show-help-overlay"))
{
GSimpleAction *action;
action = g_simple_action_new ("show-help-overlay", NULL);
g_signal_connect (action, "activate", G_CALLBACK (show_help_overlay), window);
g_action_map_add_action (G_ACTION_MAP (window->priv->actions), G_ACTION (action));
g_object_unref (G_OBJECT (action));
}
}
/**
* gtk_application_window_get_help_overlay:
* @window: a #GtkApplicationWindow
*
* Gets the #GtkShortcutsWindow that has been set up with
* a prior call to gtk_application_window_set_help_overlay().
*
* Returns: (transfer none) (nullable): the help overlay associated with @window, or %NULL
*/
GtkShortcutsWindow *
gtk_application_window_get_help_overlay (GtkApplicationWindow *window)
{
g_return_val_if_fail (GTK_IS_APPLICATION_WINDOW (window), NULL);
return window->priv->help_overlay;
}