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07e7719441
2006-10-08 Matthias Clasen <mclasen@redhat.com> * Apply a cleanup patch by Kjartan Maraas (#341812)
316 lines
12 KiB
Plaintext
316 lines
12 KiB
Plaintext
The Reference Counting Scheme of GDK an GTK+
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============================================
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Each data structure that provides reference counting offers a bunch of
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functions that follow these conventions:
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*_new: Create a new structure with a reference count of 1.
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*_ref: Increase ref count by one.
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*_unref: Decrease ref count by one. If the count drops to zero,
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run appropriate finalization code and free the memory.
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For data structures with a _destroy function, it will be
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invoked at this point, if the data structure is not
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already in a destroyed state.
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GtkObjects also provide the following functions:
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*_destroy: Render an object `unusable', but as long as there are
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references to it, its allocated memory will not be freed.
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*_sink: Clear a GtkObjects `floating' state and decrement the
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reference count by 1.
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GdkWindow
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---------
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A GdkWindow has to be explicitly destroyed with gdk_window_destroy.
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This will send out a request to destroy this window and all its
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children, and will decrement the ref_count of the GdkWindow by one.
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Thus, it releases the initial reference created by gdk_window_new.
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All GdkWindows are kept in a hash table to translate from their XId to
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the actual structure and the pointer in the hash table is reflected in
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the reference count. When a DestroyNotify event is received for a
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particular GdkWindow, it is removed from the hash table and the
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ref_count is updated accordingly.
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You can call gdk_window_destroy more than once on a particular
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GdkWindow, it will only be destroyed when it hasn't been yet. The
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ref_count is *always* decremented, tho. Be careful.
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Remark: When writing NO_WINDOW widgets, care should be taken about
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proper referencing/unreferencing of the parent's GdkWindow
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that is used by the widget.
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GdkPixmap
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---------
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There is no gdk_pixmap_destroy function. The Pixmap is destroyed when
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the last reference to it vanishes.
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GdkPixmaps are kept in the same hash table as GdkWindows but the
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pointer in the hash table is *not* reflected in the ref_count.
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This works only when Pixmaps never get XEvents. I'm not sure if this
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is the case.
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GdkBitmap
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---------
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A GdkBitmap is only another name for a special use of GdkPixmap.
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GdkVisual
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---------
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There are no *_new or *_destroy functions and the *_ref and *_unref
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functions are no-ops. GdkVisuals are static structures and thus do not
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need reference counting. The ref counting functions are only there
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for extra defensive programming.
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GdkColormap
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-----------
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Nothing special. There is no gdk_colormap_destroy function.
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GdkFont / GdkFontSet
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--------------------
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GdkFont and GdkFontSet are equivalent as far as ref counting is
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concerned. Use gdk_font_ref and gdk_font_unref for both.
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There is no gdk_font_free or gdk_fontset_free function.
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GtkAcceleratorTable
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-------------------
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There is no gtk_accelerator_table_destroy function.
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GtkTooltips
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-----------
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There is no gtk_tooltips_destroy function.
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GtkStyle
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--------
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There is no gtk_style_destroy function.
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GtkObject
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---------
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GtkObjects follow the usual ref_counting strategy, but with a twist.
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They are created with a ref_count of 1. GtkObjects are able to
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run finalization code when the ref_count drops to zero but you cannot
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register arbitrary signal handlers to run at finalization time.
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There is also the old gtk_object_destroy function and the "destroy"
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signal but they are somewhat independent from finalization. Just as
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stated at the top of this text, gtk_object_destroy merely renders an
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object unusable. When the object is a container widget for example,
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it unrealizes that widget, removes all children and disconnects all
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signal handlers. The finalization code is different, it would for
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example free associated memory for text strings and release the
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attached style.
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This is the biggest change. Every widget must be revised to have a
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proper "destroy" function, etc. Such a destroy function will only
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be called once and is expected to leave the widget in a minimal but
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consistent state. Widgets that have been "destroyed" but not yet
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finalized are flagged with GTK_DESTROY. The "finalization" function
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is new and should perform last-minute cleanup actions, in contrast
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to the destroy function it will not be emitted as signal though.
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It can assume that the "destroy" function has been called as the
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last function on this widget.
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Essentially, the old "destroy" function has been split into a
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"finalize" plus a "destroy" function.
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It is not possible to create GtkObjects with a ref_count of 0
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because the first ref/unref pair will destroy it unintentionally.
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To be mostly backward compatible with existing practice, a GtkObject
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leads a more complicated life than the other reference counted structures.
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When a GtkObject is created, it starts out in a special state called
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"floating" (this is the twist). This means that it is alive and has a
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reference to it, but the `owner' of this reference is not known.
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There are certain `potential owners' that will adopt a floating
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GtkObject. For GtkWidgets the most common adopters are the parent
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widget.
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When you want to adopt a possibly floating GtkObject, you call
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gtk_object_sink on it. This clears the floating state of the
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GtkObject and decrements the ref_count by one, if it has been floating
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previously. Once the floating state has been cleared, it will never
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be set again.
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All widgets that are part of the display are linked into a
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parent/child tree. The link from the parent to a child is reflected
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in the ref_count of the child, but the link from the child to the
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parent is not reflected in the ref_count of the parent.
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Like a GtkObject, a GtkWidget is created with a ref_count of 1 and
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initially flagged as `floating'. As soon as it is added as a child to
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a parent, the `floating' flag is cleared and never will be set again.
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Not even when it is later unparented. The act of clearing the
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`floating' flag also decrements the ref_count of the widget by one.
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When the widget is unparented, its underlying GdkWindow is destroyed
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(when it has one), it loses its reference from the parent and
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naturally the ref_count is decremented.
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It is considered a bug if a widget still has a GdkWindow when it is
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being freed.
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Toplevel widgets, which don't have a `natural' parent, are adopted by
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special registering functions. Because the of the reference count that
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is set by the registering functions, toplevel widgets will have to be
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explicitly destroyed, with the exception of GtkMenus. GtkMenus are a
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special case of toplevel widgets in that they will be `attached' to and
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`detached' from other widgets. The act of attaching a GtkMenu to a
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widget will be reflected in its reference count. The act of detaching
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a GtkMenu will revert that. Therefore GtkMenus naturally get destroyed
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and finalized once they are detached from their reference holder.
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So, the typical career of a GtkWindow a GtMenu attached to a
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GtkOptionMenu looks like this:
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window = gtk_window_new (GTK_WINDOW_TOPLEVEL);
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/* window is created with ref_count == 1. It is not flagged as
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* `floating' because it has already been registered as a toplevel
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* widget.
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*/
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option_menu = gtk_option_menu_new ();
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/* option_menu->ref_count == 1 and it is flagged as `floating'.
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*/
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gtk_container_add (window, option_menu);
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/* option_menu->ref_count still == 1, but it is no longer `floating'.
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*/
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menu = gtk_menu_new ();
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/* menu->ref_count == 1 and it is flagged as `floating'.
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*/
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menu_item = gtk_menu_item_new_with_label ("Choose Me");
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/* menu_item->ref_count == 1 and it is flagged as `floating'.
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*/
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gtk_menu_append (GTK_MENU (menu), menu_item);
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/* menu_item->ref_count still == 1, but it is no longer `floating'.
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*/
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gtk_option_menu_set_menu (GTK_OPTION_MENU (option_menu), menu);
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/* menu->ref_count still == 1, but it is no longer `floating'.
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*/
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gtk_widget_show (menu_item);
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gtk_widget_show (option_menu);
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gtk_widget_show (window);
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/* The widgets get their GdkWindows, nothing significant happens to
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* the ref_counts.
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*/
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Then, when the user wants to get rid of the window:
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gtk_widget_destroy (window);
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/* The GdkWindow of `window' and all its child GdkWindows are
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* destroyed.
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*
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* window is unregistered from the toplevel list and its ref_count
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* drops to zero. The destroy code of `window' destroys `option_menu'.
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*
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* The destroy code of `option_menu' causes the `menu' to be detached
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* from it and its reference count drops to zero.
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*
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* The destroy code of `menu' destroys `menu_item'.
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*
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* The destruction of `menu_item' removes it from its parent, the
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* menu_item->ref_count drops to zero and `menu_item' is finalized (freed).
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*
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* Now `menu', `option_menu' and `window' will be destroyed and finalized,
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* in this order, since the reference count of each is zero.
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*/
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Taking care of proper referencing
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---------------------------------
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There are some cases where referencing of widgets from outside the toolkit
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(on the application side) is needed.
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Once the application performs an operation on a widget that will cause
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its reference count to drop, if it wants to take further actions on the
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widget, it needs to hold a reference to it.
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Example code sequences that require reference wraps:
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/* gtk_container_remove() will unparent the child and therefore
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* cause its reference count to be decremented by one.
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*/
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gtk_widget_ref (widget);
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gtk_container_remove (container, widget);
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/* without the reference count, the widget would have been destroyed here.
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*/
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gtk_container_add (container, widget);
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gtk_widget_unref (widget);
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/* all items in item_list need to be referenced
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* before gtk_list_remove_items() is invoked.
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* this is somewhat tricky as gtk_list_append_items/gtk_list_prepend_items/
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* gtk_list_insert_items will take over the lists nodes.
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* we therefore have an extra GSList `*slist' for later unreferencing.
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*/
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slist = NULL;
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for (list = item_list; list; list = list->next)
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{
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gtk_widget_ref (GTK_WIDGET (list->data));
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slist = g_slist_prepend (slist, list->data);
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}
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gtk_list_remove_items (list, item_list);
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gtk_list_append_items (other_list, item_list);
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/* gtk_list_prepend_items (other_list, item_list); */
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/* gtk_list_insert_items (other_list, item_list, 3); */
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while (slist)
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{
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GSList *tmp;
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tmp = slist;
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slist = slist->next;
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gtk_widget_unref (GTK_WIDGET (tmp->data));
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g_slist_free_1 (tmp);
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}
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/* Alternatively to the removal above you could just use
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* gtk_list_remove_items_no_unref() which will add the additional
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* reference count to the widget.
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*/
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gtk_list_remove_items_no_unref (list, item_list);
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gtk_list_prepend_items (other_list, item_list);
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Now a (hopefully) complete list of functions that require
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wrappers similar to the examples above:
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void gtk_container_remove (GtkContainer *container,
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GtkWidget *widget);
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void gtk_list_remove_items (GtkList *list,
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GList *items);
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void gtk_tree_remove_items (GtkTree *tree,
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GList *items);
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void gtk_tree_item_remove_subtree (GtkTreeItem *tree_item);
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void gtk_menu_item_remove_submenu (GtkMenuItem *menu_item);
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void gtk_option_menu_remove_menu (GtkOptionMenu *option_menu);
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Initial proposal:
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- Marius Vollmer <mvo@zagadka.ping.de>
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Some modifications/additions, "Taking care of proper referencing" and
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reference counting solution for GtkMenus:
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- Tim Janik <timj@gimp.org>
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