Pop-Up Widgets
Pop-up widgets are used to create windows outside of the
window hierarchy defined by the widget tree.
Each pop-up child has a window that is a descendant of the root window,
so that the pop-up window is not clipped by the pop-up widget's parent window.
Therefore, pop-ups are created and attached differently to their widget parent
than normal widget children.
A parent of a pop-up widget does not actively manage its pop-up children;
in fact, it usually does not operate upon them in any way.
The popup_list field in the
CorePart
structure contains the list of its pop-up children.
This pop-up list exists mainly to provide the proper place in the widget
hierarchy for the pop-up to get resources and to provide a place for
to look for all extant children.
A
composite
widget can have both normal and pop-up children.
A pop-up can be popped up from almost anywhere, not just by its parent.
The term child always refers to a normal, geometry-managed widget
on the composite widget's list of children, and the term
pop-up child always refers to a
widget on the pop-up list.
Pop-Up Widget Types
There are three kinds of pop-up widgets:
Modeless pop-ups
A modeless pop-up (for example, a dialog box that does not prevent
continued interaction with the rest of the application)
can usually be manipulated by the window manager
and looks like any other application window from the
user's point of view.
The application main window itself is a special case of a modeless pop-up.
Modal pop-ups
A modal pop-up (for example, a dialog box that requires user input to
continue)
can sometimes be manipulated by the window manager,
and except for events that occur in the dialog box,
it disables user-event distribution to the rest of the application.
Spring-loaded pop-ups
A spring-loaded pop-up (for example, a menu)
can seldom be manipulated by the window manager,
and except for events that occur in the pop-up or its descendants,
it disables user-event distribution to all other applications.
Modal pop-ups and spring-loaded pop-ups are very similar and should be coded as
if they were the same.
In fact, the same widget (for example, a ButtonBox or Menu widget) can be used both
as a modal pop-up and as a spring-loaded pop-up within the same application.
The main difference is that spring-loaded pop-ups are brought up
with the pointer and, because of the grab that the pointer button causes,
require different processing by the Intrinsics.
Furthermore, all user input remap events occurring outside the spring-loaded
pop-up (e.g., in a descendant) are also delivered to the spring-loaded
pop-up after they have been dispatched to the appropriate descendant, so
that, for example, button-up can take down a spring-loaded pop-up no
matter where the
button-up occurs.
Any kind of pop-up, in turn, can pop up other widgets.
Modal and spring-loaded pop-ups can constrain user events to
the most recent such pop-up or allow user events to be dispatched
to any of the modal or spring-loaded pop-ups
currently mapped.
Regardless of their type,
all pop-up widget classes are responsible for communicating with the
X window manager and therefore are subclasses of
one of the
Shell
widget classes.
Creating a Pop-Up Shell
For a widget to be popped up,
it must be the child of a pop-up shell widget.
None of the Intrinsics-supplied shells will
simultaneously manage more than one child.
Both the shell and child taken together are referred to as the pop-up.
When you need to use a pop-up,
you always refer to the pop-up by the pop-up shell,
not the child.
To create a pop-up shell, use
.
name
Specifies the instance name for the created shell widget.
widget_class
Specifies the widget class pointer for the created shell widget.
parent
Specifies the parent widget. Must be of class Core or any subclass thereof.
args
Specifies the argument list to override any other resource specifications.
num_args
Specifies the number of entries in the argument list.
The
function ensures that the specified class is a subclass of
Shell
and, rather than using insert_child to attach the widget to the parent's
children list,
attaches the shell to the parent's popup_list directly.
The screen resource for this widget is determined by first scanning
args for the XtNscreen argument. If no XtNscreen argument is
found, the resource database associated with the parent's screen
is queried for the resource name.screen, class
Class.Screen where Class is the class_name
field from the
CoreClassPart
of the specified widget_class.
If this query fails, the parent's screen is used.
Once the screen is determined,
the resource database associated with that screen is used to retrieve
all remaining resources for the widget not specified in
args.
A spring-loaded pop-up invoked from a translation table via
must already exist
at the time that the translation is invoked,
so the translation manager can find the shell by name.
Pop-ups invoked in other ways can be created when
the pop-up actually is needed.
This delayed creation of the shell is particularly useful when you pop up
an unspecified number of pop-ups.
You can look to see if an appropriate unused shell (that is, not
currently popped up) exists and create a new shell if needed.
To create a pop-up shell using varargs lists, use
.
name
Specifies the instance name for the created shell widget.
widget_class
Specifies the widget class pointer for the created shell widget.
parent
Specifies the parent widget. Must be of class Core or any subclass thereof.
...
Specifies the variable argument list to override any other
resource specifications.
is identical in function to
with the args and num_args parameters replaced by a varargs list as
described in Section 2.5.1.
Creating Pop-Up Children
Once a pop-up shell is created,
the single child of the pop-up shell can be created
either statically or dynamically.
At startup,
an application can create the child of the pop-up shell,
which is appropriate for pop-up children composed of a fixed set
of widgets.
The application can change the state of the subparts of
the pop-up child as the application state changes.
For example, if an application creates a static menu,
it can call
(or, in general,
)
on any of the buttons that make up the menu.
Creating the pop-up child early means that pop-up time is minimized,
especially if the application calls
on the pop-up shell at startup.
When the menu is needed,
all the widgets that make up the menu already exist and need only be mapped.
The menu should pop up as quickly as the X server can respond.
Alternatively,
an application can postpone the creation of the child until it is needed,
which minimizes application startup time and allows the pop-up child to
reconfigure itself each time it is popped up.
In this case,
the pop-up child creation routine might poll the application
to find out if it should change the sensitivity of any of its subparts.
Pop-up child creation does not map the pop-up,
even if you create the child and call
on the pop-up shell.
All shells have pop-up and pop-down callbacks,
which provide the opportunity either to make last-minute changes to a
pop-up child before it is popped up or to change it after it is popped down.
Note that excessive use of pop-up callbacks can make
popping up occur more slowly.
Mapping a Pop-Up Widget
Pop-ups can be popped up through several mechanisms:
A call to
or
.
One of the supplied callback procedures
,
,
or
.
The standard translation action
.
Some of these routines take an argument of type
XtGrabKind,
which is defined as
typedef enum {XtGrabNone, XtGrabNonexclusive, XtGrabExclusive} XtGrabKind;
The create_popup_child_proc procedure pointer
in the shell widget instance record is of type
.
w
Specifies the shell widget being popped up.
To map a pop-up from within an application, use
.
popup_shell
Specifies the shell widget.
grab_kind
Specifies the way in which user events should be constrained.
The
function performs the following:
Calls
to ensure popup_shell's class is a subclass of
shellWidgetClass.
Raises the window and returns if the shell's popped_up field is already
True.
Calls the callback procedures on the shell's popup_callback list,
specifying a pointer to the value of grab_kind as the call_data
argument.
Sets the shell popped_up field to
True,
the shell spring_loaded field to
False,
and the shell grab_kind field from grab_kind.
If the shell's create_popup_child_proc field is non-NULL,
calls it with popup_shell as the parameter.
If grab_kind is either
XtGrabNonexclusive
or
XtGrabExclusive,
it calls
XtAddGrab(popup_shell, (grab_kind == XtGrabExclusive), False)
Calls
with popup_shell specified.
Calls
XMapRaised
with the window of popup_shell.
To map a spring-loaded pop-up from within an application, use
.
popup_shell
Specifies the shell widget to be popped up.
The
function performs exactly as
except that it sets the shell spring_loaded field to
True
and always calls
with exclusive
True
and spring-loaded
True.
To map a pop-up from a given widget's callback list,
you also can register one of the
,
,
or
convenience routines as callbacks, using the pop-up shell widget as the
client data.
void XtCallbackNone
Widget w
XtPointer client_data
XtPointer call_data
w
Specifies the widget.
client_data
Specifies the pop-up shell.
call_data
Specifies the callback data argument,
which is not used by this procedure.
void XtCallbackNonexclusive
Widget w
XtPointer client_data
XtPointer call_data
w
Specifies the widget.
client_data
Specifies the pop-up shell.
call_data
Specifies the callback data argument,
which is not used by this procedure.
void XtCallbackExclusive
Widget w
XtPointer client_data
XtPointer call_data
w
Specifies the widget.
client_data
Specifies the pop-up shell.
call_data
Specifies the callback data argument,
which is not used by this procedure.
The
,
,
and
functions call
with the shell specified by the client_data argument
and grab_kind set as the name specifies.
,
,
and
specify
XtGrabNone,
XtGrabNonexclusive,
and
XtGrabExclusive,
respectively.
Each function then sets the widget that executed the callback list
to be insensitive by calling
.
Using these functions in callbacks is not required.
In particular,
an application must provide customized code for
callbacks that create pop-up shells dynamically or that must do more than
desensitizing the button.
Within a translation table,
to pop up a menu when a key or pointer button is pressed or when the pointer
is moved into a widget, use
,
or its synonym,
MenuPopup.
From a translation writer's point of view,
the definition for this translation action is
shell_name
Specifies the name of the shell widget to pop up.
is known to the translation manager,
which registers the corresponding built-in action procedure
XtMenuPopupAction
using
specifying owner_events
True,
event_mask
ButtonPressMask
|
ButtonReleaseMask,
and pointer_mode and keyboard_mode
GrabModeAsync.
If
is invoked on
ButtonPress,
it calls
on the specified shell widget.
If
is invoked on
KeyPress
or
EnterWindow,
it calls
on the specified shell widget with grab_kind set to
XtGrabNonexclusive.
Otherwise, the translation manager generates a
warning message and ignores the action.
tries to find the shell by searching the widget tree starting at
the widget in which it is invoked.
If it finds a shell with the specified name in the pop-up children of
that widget, it pops up the shell with the appropriate parameters.
Otherwise, it moves up the parent chain to find a pop-up child with the
specified name.
If
gets to the application top-level shell widget and has not
found a matching shell, it generates a warning and returns immediately.
Unmapping a Pop-Up Widget
Pop-ups can be popped down through several mechanisms:
A call to
The supplied callback procedure
The standard translation action
To unmap a pop-up from within an application, use
.
void XtPopdown
Widget popup_shell
popup_shell
Specifies the shell widget to pop down.
The
function performs the following:
Calls
to ensure popup_shell's class is a subclass of
shellWidgetClass.
Checks that the popped_up field of popup_shell is
True;
otherwise, it returns immediately.
Unmaps popup_shell's window and, if override_redirect is
False,
sends a synthetic
UnmapNotify
event as specified by the Inter-Client Communication Conventions Manual.
If popup_shell's grab_kind is either
XtGrabNonexclusive
or
XtGrabExclusive,
it calls
.
Sets popup_shell's popped_up field to
False.
Calls the callback procedures on the shell's popdown_callback list,
specifying a pointer to the value of the shell's grab_kind field
as the call_data argument.
To pop down a pop-up from a callback list, you may use the callback
.
void XtCallbackPopdown
Widget w
XtPointer client_data
XtPointer call_data
w
Specifies the widget.
client_data
Specifies a pointer to the
XtPopdownID
structure.
call_data
Specifies the callback data argument,
which is not used by this procedure.
The
function casts the client_data parameter to a pointer of type
XtPopdownID.
typedef struct {
Widget shell_widget;
Widget enable_widget;
} XtPopdownIDRec, *XtPopdownID;
The shell_widget is the pop-up shell to pop down,
and the enable_widget is usually the widget that was used to pop it up
in one of the pop-up callback convenience procedures.
calls
with the specified shell_widget
and then calls
to resensitize enable_widget.
Within a translation table,
to pop down a spring-loaded menu when a key or pointer button is
released or when the
pointer is moved into a widget, use
or its synonym,
MenuPopdown.
From a translation writer's point of view,
the definition for this translation action is
shell_name
Specifies the name of the shell widget to pop down.
If a shell name is not given,
calls
with the widget for which the translation is specified.
If shell_name is specified in the translation table,
tries to find the shell by looking up the widget tree starting at the
widget in which it is invoked.
If it finds a shell with the specified name in the pop-up children
of that widget, it pops down the shell;
otherwise, it moves up the parent chain to find a pop-up child with the
specified name.
If
gets to the application top-level shell widget
and cannot find a matching shell,
it generates a warning and returns immediately.