Athena Widgets and The Intrinsics
The X Toolkit is made up of two distinct pieces, the Xt Intrinsics and a
widget set. The Athena widget set is a sample implementation of a
widget set built upon the Intrinsics. In the X Toolkit, a widget is the
combination of an X window or subwindow and its associated input and
output semantics.
Because the Intrinsics provide the same basic functionality to all widget
sets it may be possible to use widgets from the Athena widget set with
other widget sets based upon the Intrinsics. Since widget sets may also
implement private protocols, all functionality may not be available when
mixing and matching widget sets. For information about the Intrinsics, see
the X Toolkit Intrinsics - C Language Interface.
The Athena widget set is a library package layered on top of the Intrinsics
and Xlib that provides a set of user interface tools sufficient to build
a wide variety of applications. This layer extends the basic
abstractions provided by X and provides the next layer of functionality
primarily by supplying a cohesive set of sample widgets. Although the
Intrinsics are a Consortium standard, there is no standard widget set.
To the extent possible, the Intrinsics are "policy-free". The application
environment and widget set, not the Intrinsics, define, implement, and
enforce:
Policy
Consistency
Style
Each individual widget implementation defines its own policy. The X Toolkit
design allows for, but does not necessarily encourage, the free mixing
of radically differing widget implementations.
Introduction to the X Toolkit
introduction
The X Toolkit provides tools that simplify the design of
application user interfaces in the X Window System programming environment.
It assists application programmers by providing a set of common
underlying user-interface functions. It also lets widget programmers
modify existing widgets, by subclassing, or add new widgets. By using
the X Toolkit in their applications, programmers can present a similar
user interface across applications to all workstation users.
The X Toolkit consists of:
A set of Intrinsics functions for building widgets
An architectural model for constructing widgets
A widget set for application programming
While the majority of the Intrinsics functions are intended
for the widget programmer,
a subset of the Intrinsics functions are to be used by application programmers
(see X Toolkit Intrinsics - C Language Interface).
The architectural model lets the widget programmer design new widgets
by using the Intrinsics and by combining other widgets.
The application interface layers built on top of the X Toolkit include a
coordinated set of widgets and composition policies.
Some of these widgets and policies are specific to a single
application domain, and others are common to a variety of
applications.
The remainder of this chapter discusses the X Toolkit and Athena widget set:
Terminology
Model
Conventions used in this manual
Format of the Widget Reference Chapters
Terminology
In addition to the terms already defined for X programming (see
Xlib - C Language Interface),
the following terms are specific to the Intrinsics and Athena widget set
and used throughout this document.
Application programmer
application programmer
A programmer who uses the X Toolkit to produce an application user interface.
Child
child
A widget that is contained within another "parent" widget.
Class
class
The general group to which a specific object belongs.
Client
client
A function that uses a widget in an application or for composing
other widgets.
FullName
FullName
The name of a widget instance appended to the full name of its parent.
Instance
instance
A specific widget object as opposed to a general widget class.
Method
method
A function or procedure implemented by a widget class.
Name
namewidget
The name that is specific to an instance of a widget for a given client.
This name is specified at creation time and cannot be modified.
Object
object
A data abstraction consisting of private data and private and public
functions that operate on the private data.
Users of the abstraction can interact with the object only through calls
to the object's public functions.
In the X Toolkit,
some of the object's public functions are called directly by the application,
while others are called indirectly when the application calls the common
Intrinsics functions.
In general, if a function is common to all widgets,
an application uses a single Intrinsics function to invoke the function for all
types of widgets.
If a function is unique to a single widget type,
the widget exports the function.
Parent
parent
A widget that contains at least one other ("child") widget.
A parent widget is also known as a composite widget.
Resource
resource
A named piece of data in a widget that can be set by a client,
by an application, or by user defaults.
Superclass
superclass
A larger class of which a specific class is a member.
All members of a class are also members of the superclass.
User
user
A person interacting with a workstation.
Widget
widget
An object providing a user-interface abstraction (for example, a Scrollbar
widget).
Widget class
widget class
The general group to which a specific widget belongs,
otherwise known as the type of the widget.
Widget programmer
widget programmer
A programmer who adds new widgets to the X Toolkit.
Underlying Model
underlying model
The underlying architectural model is based on the following premises:
Widgets are X windows
Every user-interface widget is associated with an X window.
The X window ID for a widget is readily available from the widget.
Standard Xlib calls can be used by widgets for many of their input and
output operations.
Information hiding
The data for every widget is private to the widget and its subclasses.
That is, the data is neither directly accessible
nor visible outside of the module implementing the widget.
All program interaction with the widget is performed by a set of operations
(methods) that are defined for the widget.
Widget semantics and widget layout geometry
Widget semantics are clearly separated from widget layout geometry.
Widgets are concerned with implementing specific user-interface
semantics. They have little control over issues such as their size or
placement relative to other widget peers. Mechanisms are provided for
associating geometric managers with widgets and for widgets to make
suggestions about their own geometry.
Conventions Used in this Manual
conventionsused in manual
All resources available to the widgets are listed with each widget. Many
of these are available to more than one widget class due to the object
oriented nature of the Intrinsics. The new resources for each widget are
listed in bold text, and the inherited resources are listed in plain text.
Global symbols are printed in bold and can be function names,
symbols defined in include files, or structure names. Arguments are
printed in italics.
Each function is introduced by a general discussion that distinguishes
it from other functions. The function declaration itself follows, and
each argument is specifically explained. General discussion of the
function, if any is required, follows the arguments. Where
applicable, the last paragraph of the explanation lists the return values
of the function.
To eliminate any ambiguity between those arguments that you pass and
those that a function returns to you, the explanations for all
arguments that you pass start with the word specifies or, in the
case of multiple arguments, the word specify. The explanations
for all arguments that are returned to you start with the word
returns or, in the case of multiple arguments, the word
return. The explanations for all arguments that you can pass
and are returned start with the words specifies and returns.
Any pointer to a structure that is used to return a value is
designated as such by the _return suffix as part of its name.
All other pointers passed to these functions are used for reading
only. A few arguments use pointers to structures that are used for
both input and output and are indicated by using the _in_out
suffix.
_return
_in_out
Format of the Widget Reference Chapters
conventionschapter format
chapter format
The majority of this document is a reference guide for the Athena
widget set. Chapters three through six give the programmer all
information necessary to use the widgets. The layout of the chapters
follows a specific pattern to allow the programmer to easily find the
desired information.
The first few pages of every chapter give an overview of the widgets
in that section. Widgets are grouped into chapters by functionality.
Following the introduction will be a description of each widget in that
chapter. When no functional grouping is obvious the widgets are listed
in alphabetical order, such as in chapters three and six.
The first section of each widget's description is a table that
contains general information about this widget class. Here is the
table for the Box widget, and an explanation of all the entries.
Application Header file <X11/Xaw/Box.h>
Class Header file <X11/Xaw/BoxP.h>
Class boxWidgetClass
Class Name Box
Superclass Composite
Application Header File
application header file
This file must be included when an application uses this widget.
It usually contains the class definition, and some resource macros.
This is often called the public
header file.
class header file
Class Header File
This file will only be used by widget programmers. It will need to be
included by any widget that subclasses this widget. This is often
called the private
header file.
class
Class
This is the widget class of this widget. This global symbol is passed to
XtCreateWidget so that the Intrinsics will know which type of widget
to create.
class name
Class Name
This is the resource name of this class. This name can be used in
a resource file to match any widget of this class.
superclass
Superclass
This is the superclass that this widget class is descended from. If
you understand how the superclass works it will allow you to more quickly
understand what this widget does, since much of its functionality may be
inherited from its superclass.
After this table follows a general description of the default behavior of
this widget, as seen by the user. In many cases this functionality
may be overridden by the application programmer, or by the user.
The next section is a table showing the
name, class, type and default value of each resource that is available
to this widget. There is also a column containing notes describing
special restrictions placed upon individual resources.
notes
A, note
D, note
C, note
R, note
A
This resource may be automatically adjusted when another
resource is changed.
C
This resource is only settable at widget creation time, and may not
be modified with .
D
Do not modify this resource. While setting this resource will
work, it can cause unexpected behavior. When this symbol appears
there is another, preferred, interface provided by the X Toolkit.
R
This resource is READ-ONLY, and may not be modified.
After the resource table is a detailed description of every resource
available to that widget. Many of these are redundant, but printing
them with each widget saves page flipping. The names of the resources
that are inherited are printed in plain text, while the names of the
resources that are new to this class are printed in bold.
If you have already read the description of the superclass you need
only pay attention to the resources printed in bold.
For each composite widget there is a section on layout semantics that
follows the resource description. This section will describe the
effect of constraint resources on the layout of the children, as well
as a general description of where it prefers to place its children.
Descriptions of default translations and action routines come next, for
widgets to which they apply. The last item in each widget's
documentation is the description of all convenience routines provided by
the widget.
Input Focus
input focus
input
XtNinput
The Intrinsics define a resource on all Shell widgets that interact with
the window manager called input. This resource requests the
assistance of window manager in acquiring the input focus. The
resource defaults to False in the Intrinsics, but is redefined to
default to True when an application is using the Athena widget
set. An application programmer may override this default and set the
resource back to False if the application does not need the window
manager to give it the input focus. See the
X Toolkit Intrinsics - C Language Interface for details
on the input resource.