This widget implements a top level window. It is used as the base class for dialogs, ...
A window has both a default widget (to which events are sent if no other widget has been selected and has the focus), and a focus widget (which gets the events and overrides the default widget).
You can set many hints on the window (its minimum and maximum size, its decoration, etc.) but these are only hints to the window manager, which might not respect them.
A useful hint, respected by most window managers, can be used to force some secondary windows to stay on top of the main window on the screen (for instance, so that a smaller window can not be hidden by a bigger one). See the function Set_Transient_For below.
A window can also be modal, i.e. grab all the mouse and keyboard events in the application while it is displayed.
Widget Hierarchy |
---|
GObject (see Package_Glib.Object) Gtk_Object (see Package_Gtk.Object) \___ Gtk_Widget (see Package_Gtk.Widget) \___ Gtk_Container (see Package_Gtk.Container) \___ Gtk_Bin (see Package_Gtk.Bin) \___ Gtk_Window (see Package_Gtk.Window) |
Signals |
---|
function Handler
(Window : access Gtk_Window_Record'Class;
Event : Gdk.Event.Gdk_Event) return Boolean;
If this function is called on a window before it is realized or showed it will have a "frame" window around widget-window. Called when the "frame" window set around a window receives events. This is mainly used by the linux-fb port to implement managed windows, but it could concievably be used by X-programs that want to do their own window decorations.
procedure Handler (Window : access Gtk_Window_Record'Class;
Widget : access Gtk_Widget_Record'Class);
Called when the widget that has the focus has changed. This widget gets all keyboard events that happen in the window. You should not block the emission of this signal, since most of the work is done in the default handler.
Subprograms |
---|
procedure Gtk_New (Window : out Gtk_Window; The_Type : Gtk.Enums.Gtk_Window_Type := Gtk.Enums.Window_Toplevel); | ||
Create a new window. The_Type specifies the type of the window, and can be either a top level window, a dialog or a popup window. You will most often only need to use Window_Toplevel, the other types are mostly used internally by gtk+. A Popup window is used to display a temporary information window. It has no borders nor resizing handles. | ||
function Get_Type return Glib.GType; | ||
Return the internal value associated with a Gtk_Window. | ||
procedure Set_Title (Window : access Gtk_Window_Record; Title : UTF8_String); | ||
Change the title of the window, as it appears in the title bar. Note that on some systems you might not be able to change it. | ||
function Get_Title (Window : access Gtk_Window_Record) return UTF8_String; | ||
Return the title of the window, or "" if there is none | ||
procedure Set_Wmclass (Window : access Gtk_Window_Record; Wmclass_Name : String; Wmclass_Class : String); | ||
Don't use this function. It sets the X Window System "class" and "name" hints for a window. According to the ICCCM, you should always set these to the same value for all windows in an application, and GTK sets them to that value by default, so calling this function is sort of pointless. However, you may want to call Set_Role on each window in your application, for the benefit of the session manager. Setting the role allows the window manager to restore window positions when loading a saved session. | ||
procedure Set_Role (Window : access Gtk_Window_Record; Role : String); | ||
In combination with the window title, the window role allows a window manager to identify "the same" window when an application is restarted. So for example you might set the "toolbox" role on your app's toolbox window, so that when the user restarts their session, the window manager can put the toolbox back in the same place. If a window already has a unique title, you don't need to set the role, since the WM can use the title to identify the window when restoring the session. Role: unique identifier for the window to be used when restoring a session | ||
procedure Add_Accel_Group (Window : access Gtk_Window_Record; Accel_Group : Gtk.Accel_Group.Gtk_Accel_Group); | ||
Specify an accelerator group for the window. | ||
procedure Remove_Accel_Group (Window : access Gtk_Window_Record; Accel_Group : Gtk.Accel_Group.Gtk_Accel_Group); | ||
Remove the specified accelerator group for the window. | ||
procedure Set_Position (Window : access Gtk_Window_Record; Position : Gtk.Enums.Gtk_Window_Position); | ||
Specify how the position of the window should be computed. If Position is Win_Pos_Center_Always or Win_Pos_Center, then the window is centered on the screen. In the first case, it is also recentered when the window is resized with Gtk.Widget.Set_Usize (ie except on user action). If Position is Win_Pos_Mouse, then the window is positioned so that it centered around the mouse. If Position is Win_Pos_None, no calculation is done. If Gtk.Widget.Set_Uposition as been called, it is respected. This is the default case. | ||
function Activate_Focus (Window : access Gtk_Window_Record) return Boolean; | ||
Call Gtk.Widget.Activate on the widget that currently has the focus in the window, ie sends an "activate" signal to that widget. Note that this signal does not really exists and is mapped to some widget-specific signal. Return True if the widget could be activated, False otherwise. The Focus widget is set through a signal "set_focus". | ||
function Activate_Default (Window : access Gtk_Window_Record) return Boolean; | ||
Activate the default widget in the window. In other words, send an "activate" signal to that widget. Note that this signal is a virtual one and is mapped to some widget specific signal. Return False is the widget could not be activated or if there was no default widget. You can set the default widget with the following calls: Gtk.Widget.Set_Flags (Widget, Can_Default); Gtk.Widget.Grab_Default (Widget); | ||
procedure Set_Transient_For (Window : access Gtk_Window_Record; Parent : access Gtk_Window_Record'Class); | ||
Specify that Window is a transient window. A transient window is a temporary window, like a popup menu or a dialog box). Parent is the toplevel window of the application to which Window belongs. A window that has set this can expect less decoration from the window manager (for instance no title bar and no borders). (see XSetTransientForHint(3) on Unix systems) The main usage of this function is to force Window to be on top of Parent on the screen at all times. Most window managers respect this hint, even if this is not mandatory. | ||
procedure Set_Type_Hint (Window : access Gtk_Window_Record; Hint : Gdk.Window.Gdk_Window_Type_Hint); | ||
allow the window manager to decorate and handle the window in a way which is suitable to the function of the window in your application. This function should be called before the window becomes visible. | ||
procedure Set_Destroy_With_Parent (Window : access Gtk_Window_Record; Setting : Boolean := True); | ||
Set whether destroying the transient parent of Window will also destroy Window itself. This is useful for dialogs that shouldn't persist beyond the lifetime of the main window they're associated with, for example. | ||
procedure Set_Resizable (Window : access Gtk_Window_Record; Resizable : Boolean := True); | ||
Set whether the user can resize a window. Windows are user resizable by default. | ||
function Get_Resizable (Window : access Gtk_Window_Record) return Boolean; | ||
Whether the user can resize a window. | ||
function Get_Resizeable (Window : access Gtk_Window_Record) return Boolean; | ||
This function is deprecated. | ||
procedure Set_Gravity (Window : access Gtk_Window_Record; Gravity : Gdk.Window.Gdk_Gravity); | ||
Window gravity defines the "reference point" to be used when positioning or resizing a window. Calls to Gtk.Widget.Set_UPosition will position a different point on the window depending on the window gravity. When the window changes size the reference point determined by the window's gravity will stay in a fixed location. See Gdk_Gravity for full details. To briefly summarize, Gravity_North_West means that the reference point is the northwest (top left) corner of the window frame. Gravity_South_East would be the bottom right corner of the frame, and so on. If you want to position the window contents, rather than the window manager's frame, Gravity_Static moves the reference point to the northwest corner of the Gtk_Window itself. The default window gravity is Gravity_North_West. | ||
function Get_Gravity (Window : access Gtk_Window_Record) return Gdk.Window.Gdk_Gravity; | ||
Return the value set by Set_Gravity. | ||
procedure Set_Geometry_Hints (Window : access Gtk_Window_Record; Geometry_Widget : Gtk.Widget.Gtk_Widget; Geometry : Gdk.Window.Gdk_Geometry; Geom_Mask : Gdk.Window.Gdk_Window_Hints); | ||
Specify some geometry hints for the window. This includes its minimal and maximal sizes, ... These attributes are specified in Geometry. Geom_Mask indicates which of the fields in Geometry are set. Geometry_Widget can be null (and thus is not an access parameter). It adds some extra size to Geometry based on the actual size of Geometry_Widget (the extra amount is Window'Size - Geometry_Widget'Size) Geometry.Base_* indicates the size that is used by the window manager to report the size: for instance, if Base_Width = 600 and actual width is 200, the window manager will indicate a width of -400. If your window manager respects the hints (and its doesn't have to), then the user will never be able to resize the window to a size not in Geometry.Min_* .. Geometry.Max_*. Geometry.*_Inc specifies by which amount the size will be multiplied. For instance, if Width_Inc = 50 and the size reported by the Window Manager is 2x3, then the actual width of the window is 100. Your window's size will always be a multiple of the *_Inc values. Geometry.*_Aspect specifies the aspect ratio for the window. The window will always be resized so that the ratio between its width and its height remains in the range Min_Aspect .. Max_Aspect. | ||
procedure Set_Has_Frame (Window : access Gtk_Window_Record); | ||
If this function is called on a window before it is realized or showed it will have a "frame" window around widget-window. Using the signal frame_event you can receive all events targeted at the frame. This function is used by the linux-fb port to implement managed windows, but it could concievably be used by X-programs that want to do their own window decorations. | ||
procedure Set_Frame_Dimensions (Window : access Gtk_Window_Record; Left : Gint; Top : Gint; Right : Gint; Bottom : Gint); | ||
Change the size of the frame border. This has only an effect for windows with frames (see Set_Has_Frame). | ||
procedure Set_Decorated (Window : access Gtk_Window_Record; Setting : Boolean := True); | ||
By default, windows are decorated with a title bar, resize controls, etc. Some window managers allow GtkAda to disable these decorations, creating a borderless window. If you set the decorated property to False using this function, GtkAda will do its best to convince the window manager not to decorate the window. | ||
procedure Set_Modal (Window : access Gtk_Window_Record; Modal : Boolean := True); | ||
Define the window as being Modal. It will grab the input from the keyboard and the mouse while it is displayed and will release it when it is hidden. The grab is only in effect for the windows that belong to the same application, and will not affect other applications running on the same screen. In cunjunction with Gtk.Main.Main, this is the easiest way to show a dialog to which the user has to answer before the application can continue. | ||
function List_Toplevels return Gtk.Widget.Widget_List.Glist; | ||
Return a list of all existing toplevel windows. The widgets in the list are not individually referenced. If you want to iterate through the list and perform actions involving callbacks that might destroy the widgets, you must "ref"erence all the widgets in the list first and then unref all the widgets afterwards. The list itself must be freed by the caller | ||
procedure Present (Window : access Gtk_Window_Record); | ||
Present a window to the user. This may mean raising the window in the stacking order, deiconifying it, moving it to the current desktop, and/or giving it the keyboard focus, possibly dependent on the user's platform, window manager, and preferences. If Window is hidden, this function calls Gtk.Widget.Show as well. This function should be used when the user tries to open a window that's already open. Say for example the preferences dialog is currently open, and the user chooses Preferences from the menu a second time; use Present to move the already-open dialog where the user can see it. | ||
procedure Iconify (Window : access Gtk_Window_Record); | ||
Ask to iconify Window. Note that you shouldn't assume the window is definitely iconified afterward, because other entities (e.g. the user or window manager) could deiconify it again, or there may not be a window manager in which case iconification isn't possible, etc. But normally the window will end up iconified. Just don't write code that crashes if not. It's permitted to call this function before showing a window, in which case the window will be iconified before it ever appears onscreen. You can track iconification via the "window_state_event" signal on Gtk_Widget. | ||
procedure Deiconify (Window : access Gtk_Window_Record); | ||
Ask to deiconify Window. Note that you shouldn't assume the window is definitely deiconified afterward, because other entities (e.g. the user or window manager) could iconify it again before your code which assumes deiconification gets to run. You can track iconification via the "window_state_event" signal on Gtk_Widget. | ||
procedure Stick (Window : access Gtk_Window_Record); | ||
Ask to stick Window, which means that it will appear on all user desktops. Note that you shouldn't assume the window is definitely stuck afterward, because other entities (e.g. the user or window manager) could unstick it again, and some window managers do not support sticking windows. But normally the window will end up stuck. It's permitted to call this function before showing a window. You can track stickiness via the "window_state_event" signal on Gtk_Widget. | ||
procedure Unstick (Window : access Gtk_Window_Record); | ||
Ask to unstick Window, which means that it will appear on only one of the user's desktops. Note that you shouldn't assume the window is definitely unstuck afterward, because other entities (e.g. the user or window manager) could stick it again. But normally the window will end up stuck. You can track stickiness via the "window_state_event" signal on Gtk_Widget. | ||
procedure Maximize (Window : access Gtk_Window_Record); | ||
Ask to maximize Window, so that it becomes full-screen. Note that you shouldn't assume the window is definitely maximized afterward, because other entities (e.g. the user or window manager) could unmaximize it again, and not all window managers support maximization. But normally the window will end up maximized. It's permitted to call this function before showing a window, in which case the window will be maximized when it appears onscreen initially. You can track maximization via the "window_state_event" signal on Gtk_Widget. | ||
procedure Unmaximize (Window : access Gtk_Window_Record); | ||
Ask to unmaximize Window. Note that you shouldn't assume the window is definitely unmaximized afterward, because other entities (e.g. the user or window manager) could maximize it again, and not all window managers honor requests to unmaximize. But normally the window will end up unmaximized. You can track maximization via the "window_state_event" signal on Gtk_Widget. | ||
function Get_Transient_For (Window : access Gtk_Window_Record) return Gtk_Window; | ||
Return the window for which this one is a temporary window. See Set_Transient_For below for more information on transient windows. null is returned if there is no such window. | ||
procedure Set_Default_Size (Window : access Gtk_Window_Record; Width : Gint; Height : Gint); | ||
Sets the default size of a window. If the window's "natural" size (its size request) is larger than the default, the default will be ignored. More generally, if the default size does not obey the geometry hints for the window (Set_Geometry_Hints can be used to set these explicitly), the default size will be clamped to the nearest permitted size. Unlike Gtk.Widget.Set_Size_Request, which sets a size request for a widget and thus would keep users from shrinking the window, this function only sets the initial size, just as if the user had resized the window themselves. Users can still shrink the window again as they normally would. Setting a default size of -1 means to use the "natural" default size (the size request of the window). For more control over a window's initial size and how resizing works, investigate Set_Geometry_Hints. For some uses, Resize is a more appropriate function. Resize changes the current size of the window, rather than the size to be used on initial display. Resize always affects the window itself, not the geometry widget. The default size of a window only affects the first time a window is shown; if a window is hidden and re-shown, it will remember the size it had prior to hiding, rather than using the default size. Windows can't actually be 0x0 in size, they must be at least 1x1, but passing 0 for Width and Height is OK, resulting in a 1x1 default size. This has no effect on Popup windows (set in call to Gtk_New). | ||
procedure Resize (Window : access Gtk_Window_Record; Width, Height : Gint); | ||
Resize the window as if the user had done so, obeying geometry constraints. The default geometry constraint is that windows may not be smaller than their size request; to override this constraint, call Gtk.Widget.Set_Size_Request to set the window's request to a smaller value. If Resize is called before showing a window for the – first time, it overrides any default size set with – Set_Default_Size. Windows may not be resized smaller than 1 by 1 pixels. However, as a special case, if both Width and Height are set to -1, the best requested size is recomputed for the window, and used. | ||
procedure Add_Mnemonic (Window : access Gtk_Window_Record; Keyval : Gdk.Types.Gdk_Key_Type; Target : access Gtk.Widget.Gtk_Widget_Record'Class); | ||
Add a mnemonic to this window. Target will receive the "activate" signal when Keyval is pressed inside the window. | ||
Focus | ||
function Get_Focus (Window : access Gtk_Window_Record) return Gtk.Widget.Gtk_Widget; | ||
Return the widget that would have the keyboard focus if Window itself has the focus. It currently has the focus only if Has_Focus_Is_Set returns True. To know whether the Window itself currently has the focus, check the Has_Toplevel_Focus_Property property described below | ||
procedure Set_Focus (Window : access Gtk_Window_Record; Focus : Gtk.Widget.Gtk_Widget); | ||
Set the focus child for Window. If Focus is not the current focus widget, and is focusable, sets it as the focus widget for the window. If Focus is null, unsets the focus widget for this window. To set the focus to a particular widget in the toplevel, it is usually more convenient to use gtk_widget_grab_focus() instead of this function. |
Example |
---|
-- This example shows how you can display a banner while your application is -- loading with Gtk.Window, Gtk.Enums, Gtk.Main, Gtk.Label; use Gtk.Window, Gtk.Enums, Gtk.Main, Gtk.Label; procedure Banner is Win : Gtk_Window; Label : Gtk_Label; begin Gtk.Main.Init; Gtk_New (Win, Window_Popup); Set_Policy (Win, Allow_Shrink => False, Allow_Grow => False, Auto_Shrink => False); Set_Position (Win, Win_Pos_Center); Set_Size_Request (Win, 300, 300); Gtk_New (Label, "You should show a pixmap instead..."); Add (Win, Label); Show_All (Win); Gtk.Main.Main; end Banner;