gtk2/docs/reference/gtk/tmpl/gtkmain.sgml

<!-- ##### SECTION Title ##### -->
General

<!-- ##### SECTION Short_Description ##### -->
Mainloop and event handling

<!-- ##### SECTION Long_Description ##### -->
<para>
GTK uses an event oriented programming model. While conventional C programs
have control over the program flow all the time this does not apply to 
applications written using GTK. Instead you set up some objects and 
register some functions (<quote>callbacks</quote>) to be called whenever 
some event occurs and give control to the GTK mainloop (e.g. by calling 
gtk_main).
</para>

<example>
<title> Typical <function>main</function> function for a GTK application</title>
<programlisting>
int 
main (int argc, char **argv)
{
  /* Initialize i18n support */
  gtk_set_locale ();

  /* Initialize the widget set */
  gtk_init (&amp;argc, &amp;argv);

  /* Create the main window */
  mainwin = gtk_window_new (GTK_WINDOW_TOPLEVEL);

  /* Set up our GUI elements */
  ...

  /* Show the application window */
  gtk_widget_showall (mainwin);

  /* Let the user interact with our application */
  gtk_main ();

  /* The user lost interest */
  gtk_exit (0);
}
</programlisting>
</example>

<!-- ##### SECTION See_Also ##### -->
<para>
</para>

<!-- ##### FUNCTION gtk_set_locale ##### -->
<para>
Sets the current locale according to the program environment. This is the 
same as calling the libc function setlocale(LC_ALL, "") but also takes 
care of the locale specific setup of the windowing system used by GDK.
</para>

<para> 
You should call this function before <function>gtk_init</function> to 
support internationalization of your GTK+ applications.
</para>

@Returns: A string corresponding to the locale set.


<!-- ##### FUNCTION gtk_get_default_language ##### -->
<para>

</para>

@Returns: 


<!-- ##### FUNCTION gtk_init ##### -->
<para>
Call this function before using any other GTK functions in your GUI
applications.  It will initialize everything needed to operate the toolkit and
parses some standard command line options. <parameter>argc</parameter> and 
<parameter>argv</parameter> are adjusted accordingly so your own code will 
never see those standard arguments.
</para>

<note>
<para>
This function will terminate your program if it was unable to initialize 
the GUI for some reason. If you want your program to fall back to a 
textual interface you want to call <function>gtk_init_check</function> 
instead.
</para>
</note>

@argc: Address of the <parameter>argc</parameter> parameter of your 
<function>main</function> function. Changed if any arguments were 
handled.
@argv: Address of the <parameter>argv</parameter> parameter of 
<function>main</function>. Any parameters understood by <function>
gtk_init</function> are stripped before return.


<!-- ##### FUNCTION gtk_init_check ##### -->
<para>
This function does the same work as <function>gtk_init</function> with only 
a single change: It does not terminate the program if the GUI can't be 
initialized. Instead it returns %FALSE on failure.
</para>
<para>
This way the application can fall back to some other means of communication 
with the user - for example a curses or command line interface.
</para>

@argc: A reference to the <parameter>argc</parameter> of the <function>main
</function> function.
@argv: A reference to the <parameter>argv</parameter> of the <function>main
</function> function.
@Returns: %TRUE if the GUI has been successful initialized, 
%FALSE otherwise.


<!-- ##### FUNCTION gtk_exit ##### -->
<para>
Terminate the program and return the given exit code to the caller. 
This function will shut down the GUI and free all resources allocated 
for GTK.
</para>

@error_code: Return value to pass to the caller. This is dependend on the
target system but at least on Unix systems %0 means 
success.


<!-- ##### FUNCTION gtk_events_pending ##### -->
<para>
Check if any events are pending. This can be used to update the GUI 
and invoke timeouts etc. while doing some time intensive computation.
</para>

<example>
<title> Updating the GUI during a long computation</title>
<programlisting>
	/* computation going on */
...
        while (gtk_events_pending ())
	  gtk_main_iteration ();
...
	/* computation continued */
</programlisting>
</example>

@Returns: %TRUE if any events are pending, %FALSE otherwise.


<!-- ##### FUNCTION gtk_main ##### -->
<para>
Runs the main loop until gtk_main_quit() is called. You can nest calls to
gtk_main. In that case gtk_main_quit() will make the innerst invocation
of the main loop return.
</para>



<!-- ##### FUNCTION gtk_main_level ##### -->
<para>
Ask for the current nesting level of the main loop. This can be useful
when calling gtk_quit_add.
</para>

@Returns: the nesting level of the current invocation of the main loop.


<!-- ##### FUNCTION gtk_main_quit ##### -->
<para>
Makes the innermost invocation of the main loop return when it regains 
control.
</para>



<!-- ##### FUNCTION gtk_main_iteration ##### -->
<para>
Runs a single iteration of the mainloop. If no events are waiting to be
processed GTK+ will block until the next event is noticed. If you don't
want to block look at gtk_main_iteration_do or check if any events are
pending with gtk_events_pending first.
</para>

@Returns: %TRUE if gtk_main_quit has been called for the innermost mainloop.


<!-- ##### FUNCTION gtk_main_iteration_do ##### -->
<para>
Run a single iteration of the mainloop. If no events are available either
return or block dependend on the value of @blocking. 
</para>

@blocking: %TRUE if you want GTK+ to block if no events are pending.
@Returns: %TRUE if gtk_main_quit has been called for the innermost mainloop.


<!-- ##### FUNCTION gtk_main_do_event ##### -->
<para>
Process a single GDK event. This is public only to allow filtering of events
between GDK and GTK. You will not usually need to call this function directly.
</para>
<para>
While you should not call this function directly, you might want to know
how exactly events are handled. So here is what this function does with 
the event:
</para>

<orderedlist>
<listitem><para>
  Compress enter/leave notify events. If the event passed build an 
  enter/leave pair together with the next event (peeked from Gdk)
  both events are thrown away. This is to avoid a backlog of (de-)highlighting
  widgets crossed by the pointer.
</para></listitem>
<listitem><para>
  Find the widget which got the event. If the widget can't be determined 
  the event is thrown away unless it belongs to a INCR transaction. In that
  case it is passed to gtk_selection_incr_event.
</para></listitem>
<listitem><para>
  Then the event is passed on a stack so you can query the currently handled
  event with gtk_get_current_event. 
</para></listitem>
<listitem><para>
  The event is sent to a widget. If a grab is active all events for 
  widgets that are not in the contained in the grab widget are sent to the 
  latter with a few exceptions: 

  <itemizedlist>
  <listitem><para>
    Deletion and destruction events are still sent to the event widget for
    obvious reasons.
  </para></listitem>
  <listitem><para>
    Events which directly relate to the visual representation of the event
    widget.
  </para></listitem>
  <listitem><para>
    Leave events are delivered to the event widget if there was an enter 
    event delivered to it before without the paired leave event.
  </para></listitem>
  <listitem><para>
    Drag events are not redirected because it is unclear what the semantics
    of that would be.
  </para></listitem>
  </itemizedlist>

  Another point of interest might be that all keypresses are first passed
  through the key snooper functions if there are any. Read the description
  of gtk_key_snooper_install() if you need this feature.
</para></listitem>
<listitem><para>
  After finishing the delivery the event is popped from the event stack.
</para></listitem>
</orderedlist>

@event: An event to process (normally) passed by Gdk.


<!-- ##### USER_FUNCTION GtkModuleInitFunc ##### -->
<para>
Each GTK+ module must have a function gtk_module_init with this prototype.
This function is called after loading the module with the argc and argv 
cleaned from any arguments that GTK+ handles itself.
</para>

@argc: Pointer to the number of arguments remaining after gtk_init.
@argv: Points to the argument vector.


<!-- ##### FUNCTION gtk_true ##### -->
<para>
All this function does it to return TRUE. This can be useful for example
if you want to inhibit the deletion of a window. Of course you should 
not do this as the user expects a reaction from clicking the close 
icon of the window...
</para>

<example>
<title> A persistent window</title>
<programlisting>
##include &lt;gtk/gtk.h&gt;

int
main (int argc, char **argv)
{
  GtkWidget     *win, *but;

  gtk_init( &amp;argc, &amp;argv );

  win = gtk_window_new (GTK_WINDOW_TOPLEVEL);
  gtk_signal_connect (GTK_OBJECT(win), "delete-event", 
                      (GtkSignalFunc) gtk_true, NULL);
  gtk_signal_connect (GTK_OBJECT(win), "destroy", 
		      (GtkSignalFunc) gtk_main_quit, NULL);

  but = gtk_button_new_with_label ("Close yourself. I mean it!");
  gtk_signal_connect_object (
		  GTK_OBJECT (but), "clicked", 
		  (GtkSignalFunc) gtk_object_destroy, (gpointer) win );
  gtk_container_add (GTK_CONTAINER (win), but);

  gtk_widget_show_all (win);
  gtk_main ();
  return 0;
}
</programlisting>
</example>

@Returns: %TRUE


<!-- ##### FUNCTION gtk_false ##### -->
<para>
Analogical to <function>gtk_true</function> this function does nothing 
but always returns %FALSE.
</para>

@Returns: %FALSE


<!-- ##### FUNCTION gtk_grab_add ##### -->
<para>
Makes %widget the current grabbed widget. This means that interaction with 
other widgets in the same application is blocked and mouse as well as 
keyboard events are delivered to this %widget.
</para>

@widget: The widget that grabs keyboard and pointer events.


<!-- ##### FUNCTION gtk_grab_get_current ##### -->
<para>
Queries the current grab. 
</para>

@Returns: The widget which currently has the grab or %NULL if no grab is active.


<!-- ##### FUNCTION gtk_grab_remove ##### -->
<para>
Remove the grab from the given widget. You have to pair calls to gtk_grab_add
and gtk_grab_remove.
</para>

@widget: The widget which gives up the grab.


<!-- ##### FUNCTION gtk_init_add ##### -->
<para>
Register a function to be called when the mainloop is started.
</para>

@function: Function to invoke when gtk_main is called next.
@data: Data to pass to that function.


<!-- ##### FUNCTION gtk_quit_add_destroy ##### -->
<para>
Trigger destruction of %object in case the mainloop at level %main_level
is quit.
</para>

@main_level: Level of the mainloop which shall trigger the destruction.
@object: Object to be destroyed.


<!-- ##### FUNCTION gtk_quit_add ##### -->
<para>
Registers a function to be called when an instance of the mainloop is left.
</para>

@main_level: Level at which termination the function shall be called. You
 can pass 0 here to have the function run at the termination of the current
 mainloop.
@function: The function to call. This should return 0 to be removed from the 
 list of quit handlers. Otherwise the function might be called again.
@data: Pointer to pass when calling %function.
@Returns: A handle for this quit handler (you need this for gtk_quit_remove())
  or 0 if you passed a NULL pointer in %function.


<!-- ##### FUNCTION gtk_quit_add_full ##### -->
<para>
Registers a function to be called when an instance of the mainloop is left.
In comparison to gtk_quit_add() this function adds the possibility to 
pass a marshaller and a function to be called when the quit handler is freed.
</para>
<para>
The former can be used to run interpreted code instead of a compiled function
while the latter can be used to free the information stored in %data (while
you can do this in %function as well)... So this function will mostly be
used by GTK+ wrappers for languages other than C.
</para>

@main_level: Level at which termination the function shall be called. You
 can pass 0 here to have the function run at the termination of the current
 mainloop.
@function: The function to call. This should return 0 to be removed from the 
 list of quit handlers. Otherwise the function might be called again.
@marshal: The marshaller to be used. If this is non-NULL, %function is 
 ignored.
@data: Pointer to pass when calling %function.
@destroy: Function to call to destruct %data. Gets %data as argument.
@Returns: A handle for this quit handler (you need this for gtk_quit_remove())
  or 0 if you passed a NULL pointer in %function.


<!-- ##### FUNCTION gtk_quit_remove ##### -->
<para>
Remove a quit handler by it's identifier.
</para>

@quit_handler_id: Identifier for the handler returned when installing it.


<!-- ##### FUNCTION gtk_quit_remove_by_data ##### -->
<para>
Remove a quit handler identified by it's %data field.
</para>

@data: The pointer passed as %data to gtk_quit_add() or gtk_quit_add_full().


<!-- ##### FUNCTION gtk_timeout_add_full ##### -->
<para>
Registers a function to be called periodically. The function will be called
repeatedly after %interval milliseconds until it returns %FALSE at which 
point the timeout is destroyed and will not be called again.
</para>

@interval: The time between calls to the function, in milliseconds 
	(1/1000ths of a second.)
@function: The function to call periodically.
@marshal: The marshaller to use instead of the function (if non-NULL).
@data: The data to pass to the function.
@destroy: Function to call when the timeout is destroyed or NULL.
@Returns: A unique id for the event source.


<!-- ##### FUNCTION gtk_timeout_add ##### -->
<para>
Registers a function to be called periodically. The function will be called
repeatedly after %interval milliseconds until it returns %FALSE at which 
point the timeout is destroyed and will not be called again.
</para>

@interval: The time between calls to the function, in milliseconds 
	(1/1000ths of a second.)
@function: The function to call periodically.
@data: The data to pass to the function.
@Returns: A unique id for the event source.


<!-- ##### FUNCTION gtk_timeout_remove ##### -->
<para>
Removes the given timeout destroying all information about it.
</para>

@timeout_handler_id: The identifier returned when installing the timeout.


<!-- ##### FUNCTION gtk_idle_add ##### -->
<para>
Causes the mainloop to call the given function whenever no events with 
higher priority are to be processed. The default priority is 
GTK_PRIORITY_DEFAULT, which is rather low.
</para>

@function: The function to call.
@data: The information to pass to the function.
@Returns: a unique handle for this registration.


<!-- ##### FUNCTION gtk_idle_add_priority ##### -->
<para>
Like gtk_idle_add() this function allows you to have a function called
when the event loop is idle. The difference is that you can give a 
priority different from GTK_PRIORITY_DEFAULT to the idle function.
</para>

@priority: The priority which should not be above G_PRIORITY_HIGH_IDLE.
Note that you will interfere with GTK if you use a priority above
GTK_PRIORITY_RESIZE.
@function: The function to call.
@data: Data to pass to that function.
@Returns: A unique id for the event source.


<!-- ##### FUNCTION gtk_idle_add_full ##### -->
<para>

</para>

@priority: 
@function: 
@marshal: 
@data: 
@destroy: 
@Returns: 


<!-- ##### FUNCTION gtk_idle_remove ##### -->
<para>
Removes the idle function with the given id.
</para>

@idle_handler_id: Identifies the idle function to remove.


<!-- ##### FUNCTION gtk_idle_remove_by_data ##### -->
<para>
Removes the idle function identified by the user data.
</para>

@data: remove the idle function which was registered with this user data.


<!-- ##### FUNCTION gtk_input_add_full ##### -->
<para>

</para>

@source: 
@condition: 
@function: 
@marshal: 
@data: 
@destroy: 
@Returns: 


<!-- ##### FUNCTION gtk_input_remove ##### -->
<para>

</para>

@input_handler_id: 


<!-- ##### MACRO GTK_PRIORITY_REDRAW ##### -->
<para>
Use this priority for redrawing related stuff. It is used internally by
GTK+ to do pending redraws. This priority is lower than %GTK_PRIORITY_RESIZE
to avoid redrawing a widget just before resizing (and therefore redrawing
it again).
</para>



<!-- ##### MACRO GTK_PRIORITY_RESIZE ##### -->
<para>
Use this priority for resizing related stuff. It is used internally by
GTK+ to compute the sizes of widgets. This priority is higher than 
%GTK_PRIORITY_REDRAW to avoid resizing a widget which was just redrawn.
</para>



<!-- ##### MACRO GTK_PRIORITY_HIGH ##### -->
<para>
Use this for high priority timeouts. This priority is never used inside
GTK+ so everything running at this priority will be running before anything
inside the toolkit.
<note><para>
This macro is deprecated. You should use G_PRIORITY_HIGH instead.
</para></note>
</para>



<!-- ##### MACRO GTK_PRIORITY_INTERNAL ##### -->
<para>
This priority is for GTK+ internal stuff. Don't use it in your applications.
</para>



<!-- ##### MACRO GTK_PRIORITY_DEFAULT ##### -->
<para>
Default priority for idle functions.
<note><para>
This macro is deprecated. You should use G_PRIORITY_DEFAULT_IDLE instead.
</para></note>
</para>



<!-- ##### MACRO GTK_PRIORITY_LOW ##### -->
<para>
Priority for very unimportant background tasks.
<note><para>
This macro is deprecated. You should use G_PRIORITY_LOW instead.
</para></note>
</para>



<!-- ##### FUNCTION gtk_key_snooper_install ##### -->
<para>

</para>

@snooper: 
@func_data: 
@Returns: 


<!-- ##### USER_FUNCTION GtkKeySnoopFunc ##### -->
<para>

</para>

@grab_widget: 
@event: 
@func_data: 
@Returns: 


<!-- ##### FUNCTION gtk_key_snooper_remove ##### -->
<para>

</para>

@snooper_handler_id: 


<!-- ##### FUNCTION gtk_get_current_event ##### -->
<para>

</para>

@Returns: 


<!-- ##### FUNCTION gtk_get_event_widget ##### -->
<para>

</para>

@event: 
@Returns: 


<!-- ##### FUNCTION gtk_propagate_event ##### -->
<para>

</para>

@widget: 
@event: