GtkSocket

GtkSocket — Container for widgets from other processes

Functions

Signals

Types and Values

struct GtkSocket

Object Hierarchy

    GObject
    ╰── GInitiallyUnowned
        ╰── GtkObject
            ╰── GtkWidget
                ╰── GtkContainer
                    ╰── GtkSocket

Implemented Interfaces

GtkSocket implements AtkImplementorIface and GtkBuildable.

Includes

#include <gtk/gtk.h>

Description

Together with GtkPlug, GtkSocket provides the ability to embed widgets from one process into another process in a fashion that is transparent to the user. One process creates a GtkSocket widget and passes that widget's window ID to the other process, which then creates a GtkPlug with that window ID. Any widgets contained in the GtkPlug then will appear inside the first application's window.

The socket's window ID is obtained by using gtk_socket_get_id(). Before using this function, the socket must have been realized, and for hence, have been added to its parent.

Example 59. Obtaining the window ID of a socket.

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GtkWidget *socket = gtk_socket_new ();
gtk_widget_show (socket);
gtk_container_add (GTK_CONTAINER (parent), socket);

/* The following call is only necessary if one of
 * the ancestors of the socket is not yet visible.
 */
gtk_widget_realize (socket);
g_print ("The ID of the sockets window is %<GTKDOCLINK HREF="x">x</GTKDOCLINK>\n",
         gtk_socket_get_id (socket));

Note that if you pass the window ID of the socket to another process that will create a plug in the socket, you must make sure that the socket widget is not destroyed until that plug is created. Violating this rule will cause unpredictable consequences, the most likely consequence being that the plug will appear as a separate toplevel window. You can check if the plug has been created by using gtk_socket_get_plug_window(). If it returns a non-NULL value, then the plug has been successfully created inside of the socket.

When GTK+ is notified that the embedded window has been destroyed, then it will destroy the socket as well. You should always, therefore, be prepared for your sockets to be destroyed at any time when the main event loop is running. To prevent this from happening, you can connect to the “plug-removed” signal.

The communication between a GtkSocket and a GtkPlug follows the

XEmbed

protocol. This protocol has also been implemented in other toolkits, e.g.

Qt, allowing the same level of integration

when embedding a Qt widget in GTK or vice versa.

A socket can also be used to swallow arbitrary pre-existing top-level windows using gtk_socket_steal(), though the integration when this is done will not be as close as between a GtkPlug and a GtkSocket.

The GtkPlug and GtkSocket widgets are currently not available on all platforms supported by GTK+.

Functions

gtk_socket_new ()

GtkWidget *
gtk_socket_new (void);

Create a new empty GtkSocket.

Returns

the new GtkSocket.


gtk_socket_steal ()

void
gtk_socket_steal (GtkSocket *socket_,
                  GdkNativeWindow wid);

gtk_socket_steal is deprecated and should not be used in newly-written code.

Reparents a pre-existing toplevel window into a GtkSocket. This is meant to embed clients that do not know about embedding into a GtkSocket, however doing so is inherently unreliable, and using this function is not recommended.

The GtkSocket must have already be added into a toplevel window before you can make this call.

Parameters

socket_

a GtkSocket

 

wid

the window ID of an existing toplevel window.

 

gtk_socket_add_id ()

void
gtk_socket_add_id (GtkSocket *socket_,
                   GdkNativeWindow window_id);

Adds an XEMBED client, such as a GtkPlug, to the GtkSocket. The client may be in the same process or in a different process.

To embed a GtkPlug in a GtkSocket, you can either create the GtkPlug with gtk_plug_new (0), call gtk_plug_get_id() to get the window ID of the plug, and then pass that to the gtk_socket_add_id(), or you can call gtk_socket_get_id() to get the window ID for the socket, and call gtk_plug_new() passing in that ID.

The GtkSocket must have already be added into a toplevel window before you can make this call.

Parameters

socket_

a GtkSocket

 

window_id

the window ID of a client participating in the XEMBED protocol.

 

gtk_socket_get_id ()

GdkNativeWindow
gtk_socket_get_id (GtkSocket *socket_);

Gets the window ID of a GtkSocket widget, which can then be used to create a client embedded inside the socket, for instance with gtk_plug_new().

The GtkSocket must have already be added into a toplevel window before you can make this call.

Parameters

socket_

a GtkSocket.

 

Returns

the window ID for the socket


gtk_socket_get_plug_window ()

GdkWindow *
gtk_socket_get_plug_window (GtkSocket *socket_);

Retrieves the window of the plug. Use this to check if the plug has been created inside of the socket.

Parameters

socket_

a GtkSocket.

 

Returns

the window of the plug if available, or NULL.

[transfer none]

Since 2.14

Types and Values

struct GtkSocket

struct GtkSocket;

Signal Details

The “plug-added” signal

void
user_function (GtkSocket *socket_,
               gpointer   user_data)

This signal is emitted when a client is successfully added to the socket.

Parameters

socket_

the object which received the signal

 

user_data

user data set when the signal handler was connected.

 

Flags: Run Last


The “plug-removed” signal

gboolean
user_function (GtkSocket *socket_,
               gpointer   user_data)

This signal is emitted when a client is removed from the socket. The default action is to destroy the GtkSocket widget, so if you want to reuse it you must add a signal handler that returns TRUE.

Parameters

socket_

the object which received the signal

 

user_data

user data set when the signal handler was connected.

 

Returns

TRUE to stop other handlers from being invoked.

Flags: Run Last

See Also

GtkPlug, XEmbed