gtk2/gtk/gtkmenutracker.c

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/*
* Copyright © 2013 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
* License along with this library; if not, see <http://www.gnu.org/licenses/>.
*
* Author: Ryan Lortie <desrt@desrt.ca>
*/
#include "config.h"
#include "gtkmenutracker.h"
/*< private >
* SECTION:gtkmenutracker
* @Title: GtkMenuTracker
* @Short_description: A helper class for interpreting #GMenuModel
*
* #GtkMenuTracker is a simple object to ease implementations of #GMenuModel.
* Given a #GtkActionObservable (usually a #GActionMuxer) along with a
* #GMenuModel, it will tell you which menu items to create and where to place
* them. If a menu item is removed, it will tell you the position of the menu
* item to remove.
*
* Using #GtkMenuTracker is fairly simple. The only guarantee you must make
* to #GtkMenuTracker is that you must obey all insert signals and track the
* position of items that #GtkMenuTracker gives you. That is, #GtkMenuTracker
* expects positions of all the latter items to change when it calls your
* insertion callback with an early position, as it may ask you to remove
* an item with a readjusted position later.
*
* #GtkMenuTracker will give you a #GtkMenuTrackerItem in your callback. You
* must hold onto this object until a remove signal is emitted. This item
* represents a single menu item, which can be one of three classes: normal item,
* separator, or submenu.
*
* Certain properties on the #GtkMenuTrackerItem are mutable, and you must
* listen for changes in the item. For more details, see the documentation
* for #GtkMenuTrackerItem along with https://live.gnome.org/GApplication/GMenuModel.
*
* The idea of @with_separators is for special cases where menu models may
* be tracked in places where separators are not available, like in toplevel
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* "File", Edit menu bars. Ignoring separator items is wrong, as #GtkMenuTracker
* expects the position to change, so we must tell #GtkMenuTracker to ignore
* separators itself.
*/
typedef struct _GtkMenuTrackerSection GtkMenuTrackerSection;
struct _GtkMenuTracker
{
add GtkMenuTrackerItem Add a new class, GtkMenuTrackerItem that represents a menu item, to be used with GtkMenuTracker. GtkMenuTracker's insert callback now works in terms of this new type (instead of passing reference to the model and an index to the item). GtkMenuShell now handles all of the binding tasks internally, mostly through the use of property bindings. Having bindings for the label and visibility attributes, in partiular, will help with supporting upcoming extensions to GMenuModel. GtkModelMenu has been reduced to a helper class that has nothing to do with GMenuModel. It represents something closer to an "ideal" API for GtkMenuItem if we didn't have compatibility concerns (eg: not emitting "activate" when setting toggle state, no separate subclasses per menu item type, supporting icons, etc.) Improvements to GtkMenuItem could eventually shrink the size of this class or remove the need for it entirely. Some GtkActionHelper functionality has been duplicated in GtkMenuTracker, which is suboptimal. The duplication exists so that other codebases (such as Unity and gnome-shell) can reuse the GtkMenuTracker code, whereas GtkActionHelper is very much tied to GtkWidget. Supporting binding arbitrary GtkWidgets to actions vs. supporting the full range of GMenuModel features for menu items turns out to be two overlapping but not entirely similar problems. Some of the duplication (such as roles) can be removed from GtkActionHelper once Gtk's internal Mac OS menubar support is ported to GtkMenuTracker. The intent to reuse the code outside of Gtk is also the reason for the unusual treatment of the enum type introduced in this comment. This adds no new "public" API to the Gtk library, other than types that we cannot make private due to GType limitations.
2013-05-08 12:20:23 +00:00
GtkActionObservable *observable;
GtkMenuTrackerInsertFunc insert_func;
GtkMenuTrackerRemoveFunc remove_func;
gpointer user_data;
GtkMenuTrackerSection *toplevel;
};
struct _GtkMenuTrackerSection
{
gpointer model; /* may be a GtkMenuTrackerItem or a GMenuModel */
GSList *items;
gchar *action_namespace;
guint separator_label : 1;
guint with_separators : 1;
guint has_separator : 1;
guint is_fake : 1;
gulong handler;
};
static GtkMenuTrackerSection * gtk_menu_tracker_section_new (GtkMenuTracker *tracker,
GMenuModel *model,
gboolean with_separators,
gboolean separator_label,
gint offset,
const gchar *action_namespace);
static void gtk_menu_tracker_section_free (GtkMenuTrackerSection *section);
static GtkMenuTrackerSection *
gtk_menu_tracker_section_find_model (GtkMenuTrackerSection *section,
gpointer model,
gint *offset)
{
GSList *item;
if (section->has_separator)
(*offset)++;
if (section->model == model)
return section;
for (item = section->items; item; item = item->next)
{
GtkMenuTrackerSection *subsection = item->data;
if (subsection)
{
GtkMenuTrackerSection *found_section;
found_section = gtk_menu_tracker_section_find_model (subsection, model, offset);
if (found_section)
return found_section;
}
else
(*offset)++;
}
return FALSE;
}
/* this is responsible for syncing the showing of a separator for a
* single subsection (and its children).
*
* we only ever show separators if we have _actual_ children (ie: we do
* not show a separator if the section contains only empty child
* sections). its difficult to determine this on-the-fly, so we have
* this separate function to come back later and figure it out.
*
* 'section' is that section.
*
* 'tracker' is passed in so that we can emit callbacks when we decide
* to add/remove separators.
*
* 'offset' is passed in so we know which position to emit in our
* callbacks. ie: if we add a separator right at the top of this
* section then we would emit it with this offset. deeper inside, we
* adjust accordingly.
*
* could_have_separator is true in two situations:
*
* - our parent section had with_separators defined and there are items
* before us (ie: we should add a separator if we have content in
* order to divide us from the items above)
*
* - if we had a label attribute set for this section
*
* parent_model and parent_index are passed in so that we can give them
* to the insertion callback so that it can see the label (and anything
* else that happens to be defined on the section).
*
* we iterate each item in ourselves. for subsections, we recursively
* run ourselves to sync separators. after we are done, we notice if we
* have any items in us or if we are completely empty and sync if our
* separator is shown or not.
*/
static gint
gtk_menu_tracker_section_sync_separators (GtkMenuTrackerSection *section,
GtkMenuTracker *tracker,
gint offset,
gboolean could_have_separator,
GMenuModel *parent_model,
gint parent_index)
{
gboolean should_have_separator;
gint n_items = 0;
GSList *item;
gint i = 0;
for (item = section->items; item; item = item->next)
{
GtkMenuTrackerSection *subsection = item->data;
if (subsection)
{
gboolean could_have_separator;
could_have_separator = (section->with_separators && n_items > 0) || subsection->separator_label;
/* Only pass the parent_model and parent_index in case they may be used to create the separator. */
n_items += gtk_menu_tracker_section_sync_separators (subsection, tracker, offset + n_items,
could_have_separator,
could_have_separator ? section->model : NULL,
could_have_separator ? i : 0);
}
else
n_items++;
i++;
}
should_have_separator = !section->is_fake && could_have_separator && n_items != 0;
if (should_have_separator > section->has_separator)
{
/* Add a separator */
add GtkMenuTrackerItem Add a new class, GtkMenuTrackerItem that represents a menu item, to be used with GtkMenuTracker. GtkMenuTracker's insert callback now works in terms of this new type (instead of passing reference to the model and an index to the item). GtkMenuShell now handles all of the binding tasks internally, mostly through the use of property bindings. Having bindings for the label and visibility attributes, in partiular, will help with supporting upcoming extensions to GMenuModel. GtkModelMenu has been reduced to a helper class that has nothing to do with GMenuModel. It represents something closer to an "ideal" API for GtkMenuItem if we didn't have compatibility concerns (eg: not emitting "activate" when setting toggle state, no separate subclasses per menu item type, supporting icons, etc.) Improvements to GtkMenuItem could eventually shrink the size of this class or remove the need for it entirely. Some GtkActionHelper functionality has been duplicated in GtkMenuTracker, which is suboptimal. The duplication exists so that other codebases (such as Unity and gnome-shell) can reuse the GtkMenuTracker code, whereas GtkActionHelper is very much tied to GtkWidget. Supporting binding arbitrary GtkWidgets to actions vs. supporting the full range of GMenuModel features for menu items turns out to be two overlapping but not entirely similar problems. Some of the duplication (such as roles) can be removed from GtkActionHelper once Gtk's internal Mac OS menubar support is ported to GtkMenuTracker. The intent to reuse the code outside of Gtk is also the reason for the unusual treatment of the enum type introduced in this comment. This adds no new "public" API to the Gtk library, other than types that we cannot make private due to GType limitations.
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GtkMenuTrackerItem *item;
item = _gtk_menu_tracker_item_new (tracker->observable, parent_model, parent_index, NULL, TRUE);
(* tracker->insert_func) (item, offset, tracker->user_data);
g_object_unref (item);
section->has_separator = TRUE;
}
else if (should_have_separator < section->has_separator)
{
/* Remove a separator */
(* tracker->remove_func) (offset, tracker->user_data);
section->has_separator = FALSE;
}
n_items += section->has_separator;
return n_items;
}
static void
gtk_menu_tracker_item_visibility_changed (GtkMenuTrackerItem *item,
gboolean is_now_visible,
gpointer user_data)
{
GtkMenuTracker *tracker = user_data;
GtkMenuTrackerSection *section;
gboolean was_visible;
gint offset = 0;
/* remember: the item is our model */
section = gtk_menu_tracker_section_find_model (tracker->toplevel, item, &offset);
was_visible = section->items != NULL;
if (is_now_visible == was_visible)
return;
if (is_now_visible)
{
section->items = g_slist_prepend (NULL, NULL);
(* tracker->insert_func) (section->model, offset, tracker->user_data);
}
else
{
section->items = g_slist_delete_link (section->items, section->items);
(* tracker->remove_func) (offset, tracker->user_data);
}
gtk_menu_tracker_section_sync_separators (tracker->toplevel, tracker, 0, FALSE, NULL, 0);
}
static gint
gtk_menu_tracker_section_measure (GtkMenuTrackerSection *section)
{
GSList *item;
gint n_items;
if (section == NULL)
return 1;
n_items = 0;
if (section->has_separator)
n_items++;
for (item = section->items; item; item = item->next)
n_items += gtk_menu_tracker_section_measure (item->data);
return n_items;
}
static void
gtk_menu_tracker_remove_items (GtkMenuTracker *tracker,
GSList **change_point,
gint offset,
gint n_items)
{
gint i;
for (i = 0; i < n_items; i++)
{
GtkMenuTrackerSection *subsection;
gint n;
subsection = (*change_point)->data;
*change_point = g_slist_delete_link (*change_point, *change_point);
n = gtk_menu_tracker_section_measure (subsection);
gtk_menu_tracker_section_free (subsection);
while (n--)
(* tracker->remove_func) (offset, tracker->user_data);
}
}
static void
gtk_menu_tracker_add_items (GtkMenuTracker *tracker,
GtkMenuTrackerSection *section,
GSList **change_point,
gint offset,
GMenuModel *model,
gint position,
gint n_items)
{
while (n_items--)
{
GMenuModel *submenu;
submenu = g_menu_model_get_item_link (model, position + n_items, G_MENU_LINK_SECTION);
g_assert (submenu != model);
if (submenu != NULL)
{
GtkMenuTrackerSection *subsection;
gchar *action_namespace = NULL;
gboolean has_label;
has_label = g_menu_model_get_item_attribute (model, position + n_items,
G_MENU_ATTRIBUTE_LABEL, "s", NULL);
g_menu_model_get_item_attribute (model, position + n_items,
G_MENU_ATTRIBUTE_ACTION_NAMESPACE, "s", &action_namespace);
if (section->action_namespace)
{
gchar *namespace;
namespace = g_strjoin (".", section->action_namespace, action_namespace, NULL);
subsection = gtk_menu_tracker_section_new (tracker, submenu, FALSE, has_label, offset, namespace);
g_free (namespace);
}
else
subsection = gtk_menu_tracker_section_new (tracker, submenu, FALSE, has_label, offset, action_namespace);
*change_point = g_slist_prepend (*change_point, subsection);
g_free (action_namespace);
g_object_unref (submenu);
}
else
{
add GtkMenuTrackerItem Add a new class, GtkMenuTrackerItem that represents a menu item, to be used with GtkMenuTracker. GtkMenuTracker's insert callback now works in terms of this new type (instead of passing reference to the model and an index to the item). GtkMenuShell now handles all of the binding tasks internally, mostly through the use of property bindings. Having bindings for the label and visibility attributes, in partiular, will help with supporting upcoming extensions to GMenuModel. GtkModelMenu has been reduced to a helper class that has nothing to do with GMenuModel. It represents something closer to an "ideal" API for GtkMenuItem if we didn't have compatibility concerns (eg: not emitting "activate" when setting toggle state, no separate subclasses per menu item type, supporting icons, etc.) Improvements to GtkMenuItem could eventually shrink the size of this class or remove the need for it entirely. Some GtkActionHelper functionality has been duplicated in GtkMenuTracker, which is suboptimal. The duplication exists so that other codebases (such as Unity and gnome-shell) can reuse the GtkMenuTracker code, whereas GtkActionHelper is very much tied to GtkWidget. Supporting binding arbitrary GtkWidgets to actions vs. supporting the full range of GMenuModel features for menu items turns out to be two overlapping but not entirely similar problems. Some of the duplication (such as roles) can be removed from GtkActionHelper once Gtk's internal Mac OS menubar support is ported to GtkMenuTracker. The intent to reuse the code outside of Gtk is also the reason for the unusual treatment of the enum type introduced in this comment. This adds no new "public" API to the Gtk library, other than types that we cannot make private due to GType limitations.
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GtkMenuTrackerItem *item;
item = _gtk_menu_tracker_item_new (tracker->observable, model, position + n_items,
section->action_namespace, FALSE);
/* In the case that the item may disappear we handle that by
* treating the item that we just created as being its own
* subsection. This happens as so:
*
* - the subsection is created without the possibility of
* showing a separator
*
* - the subsection will have either 0 or 1 item in it at all
* times: either the shown item or not (in the case it is
* hidden)
*
* - the created item acts as the "model" for this section
* and we use its "visiblity-changed" signal in the same
* way that we use the "items-changed" signal from a real
* GMenuModel
*
* We almost never use the '->model' stored in the section for
* anything other than lookups and for dropped the ref and
* disconnecting the signal when we destroy the menu, and we
* need to do exactly those things in this case as well.
*
* The only other thing that '->model' is used for is in the
* case that we want to show a separator, but we will never do
* that because separators are not shown for this fake section.
*/
if (_gtk_menu_tracker_item_may_disappear (item))
{
GtkMenuTrackerSection *fake_section;
fake_section = g_slice_new0 (GtkMenuTrackerSection);
fake_section->is_fake = TRUE;
fake_section->model = g_object_ref (item);
fake_section->handler = g_signal_connect (item, "visibility-changed",
G_CALLBACK (gtk_menu_tracker_item_visibility_changed),
tracker);
*change_point = g_slist_prepend (*change_point, fake_section);
if (_gtk_menu_tracker_item_is_visible (item))
{
(* tracker->insert_func) (item, offset, tracker->user_data);
fake_section->items = g_slist_prepend (NULL, NULL);
}
}
else
{
/* In the normal case, we store NULL in the linked list.
* The measurement and lookup code count NULL always as
* exactly 1: an item that will always be there.
*/
(* tracker->insert_func) (item, offset, tracker->user_data);
*change_point = g_slist_prepend (*change_point, NULL);
}
g_object_unref (item);
}
}
}
static void
gtk_menu_tracker_model_changed (GMenuModel *model,
gint position,
gint removed,
gint added,
gpointer user_data)
{
GtkMenuTracker *tracker = user_data;
GtkMenuTrackerSection *section;
GSList **change_point;
gint offset = 0;
gint i;
/* First find which section the changed model corresponds to, and the
* position of that section within the overall menu.
*/
section = gtk_menu_tracker_section_find_model (tracker->toplevel, model, &offset);
/* Next, seek through that section to the change point. This gives us
* the correct GSList** to make the change to and also finds the final
* offset at which we will make the changes (by measuring the number
* of items within each item of the section before the change point).
*/
change_point = &section->items;
for (i = 0; i < position; i++)
{
offset += gtk_menu_tracker_section_measure ((*change_point)->data);
change_point = &(*change_point)->next;
}
/* We remove items in order and add items in reverse order. This
* means that the offset used for all inserts and removes caused by a
* single change will be the same.
*
* This also has a performance advantage: GtkMenuShell stores the
* menu items in a linked list. In the case where we are creating a
* menu for the first time, adding the items in reverse order means
* that we only ever insert at index zero, prepending the list. This
* means that we can populate in O(n) time instead of O(n^2) that we
* would do by appending.
*/
gtk_menu_tracker_remove_items (tracker, change_point, offset, removed);
gtk_menu_tracker_add_items (tracker, section, change_point, offset, model, position, added);
/* The offsets for insertion/removal of separators will be all over
* the place, however...
*/
gtk_menu_tracker_section_sync_separators (tracker->toplevel, tracker, 0, FALSE, NULL, 0);
}
static void
gtk_menu_tracker_section_free (GtkMenuTrackerSection *section)
{
if (section == NULL)
return;
g_signal_handler_disconnect (section->model, section->handler);
g_slist_free_full (section->items, (GDestroyNotify) gtk_menu_tracker_section_free);
g_free (section->action_namespace);
g_object_unref (section->model);
g_slice_free (GtkMenuTrackerSection, section);
}
static GtkMenuTrackerSection *
gtk_menu_tracker_section_new (GtkMenuTracker *tracker,
GMenuModel *model,
gboolean with_separators,
gboolean separator_label,
gint offset,
const gchar *action_namespace)
{
GtkMenuTrackerSection *section;
section = g_slice_new0 (GtkMenuTrackerSection);
section->model = g_object_ref (model);
section->with_separators = with_separators;
section->action_namespace = g_strdup (action_namespace);
section->separator_label = separator_label;
gtk_menu_tracker_add_items (tracker, section, &section->items, offset, model, 0, g_menu_model_get_n_items (model));
section->handler = g_signal_connect (model, "items-changed", G_CALLBACK (gtk_menu_tracker_model_changed), tracker);
return section;
}
/*< private >
* gtk_menu_tracker_new:
* @model: the model to flatten
* @with_separators: if the toplevel should have separators (ie: TRUE
* for menus, FALSE for menubars)
* @action_namespace: the passed-in action namespace
* @insert_func: insert callback
* @remove_func: remove callback
* @user_data user data for callbacks
*
* Creates a GtkMenuTracker for @model, holding a ref on @model for as
* long as the tracker is alive.
*
* This flattens out the model, merging sections and inserting
* separators where appropriate. It monitors for changes and performs
* updates on the fly. It also handles action_namespace for subsections
* (but you will need to handle it yourself for submenus).
*
* When the tracker is first created, @insert_func will be called many
* times to populate the menu with the initial contents of @model
* (unless it is empty), before gtk_menu_tracker_new() returns. For
* this reason, the menu that is using the tracker ought to be empty
* when it creates the tracker.
*
* Future changes to @model will result in more calls to @insert_func
* and @remove_func.
*
* The position argument to both functions is the linear 0-based
* position in the menu at which the item in question should be inserted
* or removed.
*
* For @insert_func, @model and @item_index are used to get the
* information about the menu item to insert. @action_namespace is the
* action namespace that actions referred to from that item should place
* themselves in. Note that if the item is a submenu and the
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* action-namespace attribute is defined on the item, it will _not_ be
* applied to the @action_namespace argument as it is meant for the
* items inside of the submenu, not the submenu item itself.
*
* @is_separator is set to %TRUE in case the item being added is a
* separator. @model and @item_index will still be meaningfully set in
* this case -- to the section menu item corresponding to the separator.
* This is useful if the section specifies a label, for example. If
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* there is an action-namespace attribute on this menu item then it
* should be ignored by the consumer because #GtkMenuTracker has already
* handled it.
*
* When using #GtkMenuTracker there is no need to hold onto @model or
* monitor it for changes. The model will be unreffed when
* gtk_menu_tracker_free() is called.
*/
GtkMenuTracker *
add GtkMenuTrackerItem Add a new class, GtkMenuTrackerItem that represents a menu item, to be used with GtkMenuTracker. GtkMenuTracker's insert callback now works in terms of this new type (instead of passing reference to the model and an index to the item). GtkMenuShell now handles all of the binding tasks internally, mostly through the use of property bindings. Having bindings for the label and visibility attributes, in partiular, will help with supporting upcoming extensions to GMenuModel. GtkModelMenu has been reduced to a helper class that has nothing to do with GMenuModel. It represents something closer to an "ideal" API for GtkMenuItem if we didn't have compatibility concerns (eg: not emitting "activate" when setting toggle state, no separate subclasses per menu item type, supporting icons, etc.) Improvements to GtkMenuItem could eventually shrink the size of this class or remove the need for it entirely. Some GtkActionHelper functionality has been duplicated in GtkMenuTracker, which is suboptimal. The duplication exists so that other codebases (such as Unity and gnome-shell) can reuse the GtkMenuTracker code, whereas GtkActionHelper is very much tied to GtkWidget. Supporting binding arbitrary GtkWidgets to actions vs. supporting the full range of GMenuModel features for menu items turns out to be two overlapping but not entirely similar problems. Some of the duplication (such as roles) can be removed from GtkActionHelper once Gtk's internal Mac OS menubar support is ported to GtkMenuTracker. The intent to reuse the code outside of Gtk is also the reason for the unusual treatment of the enum type introduced in this comment. This adds no new "public" API to the Gtk library, other than types that we cannot make private due to GType limitations.
2013-05-08 12:20:23 +00:00
gtk_menu_tracker_new (GtkActionObservable *observable,
GMenuModel *model,
gboolean with_separators,
const gchar *action_namespace,
GtkMenuTrackerInsertFunc insert_func,
GtkMenuTrackerRemoveFunc remove_func,
gpointer user_data)
{
GtkMenuTracker *tracker;
tracker = g_slice_new (GtkMenuTracker);
add GtkMenuTrackerItem Add a new class, GtkMenuTrackerItem that represents a menu item, to be used with GtkMenuTracker. GtkMenuTracker's insert callback now works in terms of this new type (instead of passing reference to the model and an index to the item). GtkMenuShell now handles all of the binding tasks internally, mostly through the use of property bindings. Having bindings for the label and visibility attributes, in partiular, will help with supporting upcoming extensions to GMenuModel. GtkModelMenu has been reduced to a helper class that has nothing to do with GMenuModel. It represents something closer to an "ideal" API for GtkMenuItem if we didn't have compatibility concerns (eg: not emitting "activate" when setting toggle state, no separate subclasses per menu item type, supporting icons, etc.) Improvements to GtkMenuItem could eventually shrink the size of this class or remove the need for it entirely. Some GtkActionHelper functionality has been duplicated in GtkMenuTracker, which is suboptimal. The duplication exists so that other codebases (such as Unity and gnome-shell) can reuse the GtkMenuTracker code, whereas GtkActionHelper is very much tied to GtkWidget. Supporting binding arbitrary GtkWidgets to actions vs. supporting the full range of GMenuModel features for menu items turns out to be two overlapping but not entirely similar problems. Some of the duplication (such as roles) can be removed from GtkActionHelper once Gtk's internal Mac OS menubar support is ported to GtkMenuTracker. The intent to reuse the code outside of Gtk is also the reason for the unusual treatment of the enum type introduced in this comment. This adds no new "public" API to the Gtk library, other than types that we cannot make private due to GType limitations.
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tracker->observable = g_object_ref (observable);
tracker->insert_func = insert_func;
tracker->remove_func = remove_func;
tracker->user_data = user_data;
tracker->toplevel = gtk_menu_tracker_section_new (tracker, model, with_separators, FALSE, 0, action_namespace);
gtk_menu_tracker_section_sync_separators (tracker->toplevel, tracker, 0, FALSE, NULL, 0);
return tracker;
}
add GtkMenuTrackerItem Add a new class, GtkMenuTrackerItem that represents a menu item, to be used with GtkMenuTracker. GtkMenuTracker's insert callback now works in terms of this new type (instead of passing reference to the model and an index to the item). GtkMenuShell now handles all of the binding tasks internally, mostly through the use of property bindings. Having bindings for the label and visibility attributes, in partiular, will help with supporting upcoming extensions to GMenuModel. GtkModelMenu has been reduced to a helper class that has nothing to do with GMenuModel. It represents something closer to an "ideal" API for GtkMenuItem if we didn't have compatibility concerns (eg: not emitting "activate" when setting toggle state, no separate subclasses per menu item type, supporting icons, etc.) Improvements to GtkMenuItem could eventually shrink the size of this class or remove the need for it entirely. Some GtkActionHelper functionality has been duplicated in GtkMenuTracker, which is suboptimal. The duplication exists so that other codebases (such as Unity and gnome-shell) can reuse the GtkMenuTracker code, whereas GtkActionHelper is very much tied to GtkWidget. Supporting binding arbitrary GtkWidgets to actions vs. supporting the full range of GMenuModel features for menu items turns out to be two overlapping but not entirely similar problems. Some of the duplication (such as roles) can be removed from GtkActionHelper once Gtk's internal Mac OS menubar support is ported to GtkMenuTracker. The intent to reuse the code outside of Gtk is also the reason for the unusual treatment of the enum type introduced in this comment. This adds no new "public" API to the Gtk library, other than types that we cannot make private due to GType limitations.
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GtkMenuTracker *
gtk_menu_tracker_new_for_item_submenu (GtkMenuTrackerItem *item,
GtkMenuTrackerInsertFunc insert_func,
GtkMenuTrackerRemoveFunc remove_func,
gpointer user_data)
{
GtkMenuTracker *tracker;
GMenuModel *submenu;
gchar *namespace;
submenu = _gtk_menu_tracker_item_get_submenu (item);
namespace = _gtk_menu_tracker_item_get_submenu_namespace (item);
tracker = gtk_menu_tracker_new (_gtk_menu_tracker_item_get_observable (item), submenu,
TRUE, namespace, insert_func, remove_func, user_data);
g_object_unref (submenu);
g_free (namespace);
return tracker;
add GtkMenuTrackerItem Add a new class, GtkMenuTrackerItem that represents a menu item, to be used with GtkMenuTracker. GtkMenuTracker's insert callback now works in terms of this new type (instead of passing reference to the model and an index to the item). GtkMenuShell now handles all of the binding tasks internally, mostly through the use of property bindings. Having bindings for the label and visibility attributes, in partiular, will help with supporting upcoming extensions to GMenuModel. GtkModelMenu has been reduced to a helper class that has nothing to do with GMenuModel. It represents something closer to an "ideal" API for GtkMenuItem if we didn't have compatibility concerns (eg: not emitting "activate" when setting toggle state, no separate subclasses per menu item type, supporting icons, etc.) Improvements to GtkMenuItem could eventually shrink the size of this class or remove the need for it entirely. Some GtkActionHelper functionality has been duplicated in GtkMenuTracker, which is suboptimal. The duplication exists so that other codebases (such as Unity and gnome-shell) can reuse the GtkMenuTracker code, whereas GtkActionHelper is very much tied to GtkWidget. Supporting binding arbitrary GtkWidgets to actions vs. supporting the full range of GMenuModel features for menu items turns out to be two overlapping but not entirely similar problems. Some of the duplication (such as roles) can be removed from GtkActionHelper once Gtk's internal Mac OS menubar support is ported to GtkMenuTracker. The intent to reuse the code outside of Gtk is also the reason for the unusual treatment of the enum type introduced in this comment. This adds no new "public" API to the Gtk library, other than types that we cannot make private due to GType limitations.
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}
/*< private >
* gtk_menu_tracker_free:
* @tracker: a #GtkMenuTracker
*
* Frees the tracker, ...
*/
void
gtk_menu_tracker_free (GtkMenuTracker *tracker)
{
gtk_menu_tracker_section_free (tracker->toplevel);
add GtkMenuTrackerItem Add a new class, GtkMenuTrackerItem that represents a menu item, to be used with GtkMenuTracker. GtkMenuTracker's insert callback now works in terms of this new type (instead of passing reference to the model and an index to the item). GtkMenuShell now handles all of the binding tasks internally, mostly through the use of property bindings. Having bindings for the label and visibility attributes, in partiular, will help with supporting upcoming extensions to GMenuModel. GtkModelMenu has been reduced to a helper class that has nothing to do with GMenuModel. It represents something closer to an "ideal" API for GtkMenuItem if we didn't have compatibility concerns (eg: not emitting "activate" when setting toggle state, no separate subclasses per menu item type, supporting icons, etc.) Improvements to GtkMenuItem could eventually shrink the size of this class or remove the need for it entirely. Some GtkActionHelper functionality has been duplicated in GtkMenuTracker, which is suboptimal. The duplication exists so that other codebases (such as Unity and gnome-shell) can reuse the GtkMenuTracker code, whereas GtkActionHelper is very much tied to GtkWidget. Supporting binding arbitrary GtkWidgets to actions vs. supporting the full range of GMenuModel features for menu items turns out to be two overlapping but not entirely similar problems. Some of the duplication (such as roles) can be removed from GtkActionHelper once Gtk's internal Mac OS menubar support is ported to GtkMenuTracker. The intent to reuse the code outside of Gtk is also the reason for the unusual treatment of the enum type introduced in this comment. This adds no new "public" API to the Gtk library, other than types that we cannot make private due to GType limitations.
2013-05-08 12:20:23 +00:00
g_object_unref (tracker->observable);
g_slice_free (GtkMenuTracker, tracker);
}