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/****************************************************************************
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/*!
\page qt4-interview.html
\title The Interview Framework
\contentspage {What's New in Qt 4}{Home}
\previouspage The Tulip Container Classes
\nextpage The Arthur Paint System
The Interview classes provide a model/view framework for Qt
applications based on the well known Model-View-Controller design
pattern. In this document, we will describe Qt's model/view
architecture, provide some examples, and show the improvements
offered over Qt 3's item view classes.
\tableofcontents
\section1 Overview of The Model/View Architecture
The model/view architecture is a variation of the Model-View-Controller
(MVC) design pattern, originating from Smalltalk, that is often used when
building user interfaces.
In the model/view architecture, the view and the controller objects are
combined. This still separates the way that data is stored from the way
that it is presented to the user, but provides a simpler framework based
on the same principles. This separation makes it possible to display the
same data in several different views, and to implement new types of views,
without changing the underlying data structures.
User input is handled by \e delegates. The advantage of this approach is
that it allows rendering and editing of individual items of data to be
customized to suit each data type in use.
\table
\row \i \inlineimage modelview-overview.png
\i \bold{The model/view architecture}
The model communicates with a source of data, providing an \e interface
for the other components in the architecture. The nature of the
communication depends on the type of data source, and the way the model
is implemented.
The view obtains \e{model indexes} from the model; these are references
to items of data. By supplying model indexes to the model, the view can
retrieve items of data from the data source.
In standard views, a \e delegate renders the items of data. When an item
is edited, the delegate communicates with the model directly using
model indexes.
\endtable
\section1 Model/View Classes
On a fundamental level, the Interview classes define the interfaces and
common functionality for models, views, and delegates. All implemented
components subclass QAbstractItemModel, QAbstractItemView, or
QAbstractItemDelegate. The use of a common API ensures a level of
interoperability between the components.
\image standard-views.png
Interview provides ready-to-use implementations of views for table,
tree, and list widgets: QTableView, QTreeView, and QListView.
These standard views are suitable for displaying the most common
types of data structures used in applications, and can be used with
the ready-made models supplied with Qt:
\list
\o QStandardItemModel is a minimal convenience model that developers
can use to manage items of data.
\o QFileSystemModel provides directory information for use with QListView
and QTreeView.
\o QStringListModel is a convenience model that can be used to hold
strings for views such as QListView and QComboBox.
\endlist
Two specialized abstract models are provided that can be subclassed
and extended (see the
\l{model-view-programming.html#related-examples}{Model/View Programming}
examples):
\list
\o QAbstractTableModel is a useful starting point for providing a custom
model that can be used with QTableView.
\o QAbstractListModel can be subclassed to produce a list-based model
for use with QListView.
\endlist
Operations on items, such as filtering and sorting, are handled by \e{proxy
models} that allow views to display processed data without having to
copy or modify data obtained from a source model. Interview provides
the QSortFilterProxyModel class to allow items of data from a source model
to be sorted and filtered before they are supplied to views.
Developers who are familiar with the conventional list, tree, and table
widgets may find QListWidget, QTreeWidget, and QTableWidget useful.
These present a simplified interface to the views that does not require a
knowledge of the underlying model/view architecture.
For details about how to use the model/view classes, see the
\l{Model/View Programming} document.
See also the \l{The Qt 4 Database GUI Layer}{Database GUI Layer} document
for information about Qt 4's database models.
\section1 Example Code
To illustrate how the Interview classes are used, we present two
examples that show different aspects of the model/view architecture.
\section2 Sharing a Model Between Views
In this example, we display the contents of a model using two
different views, and share the user's selection between
them. We will use the QFileSystemModel supplied with Qt because it
requires very little configuration, and provides existing data to
the views.
The main() function for this example demonstrates all the
principles involved in setting up a model and two views. We also
share the selection between the two views:
\snippet doc/src/snippets/shareddirmodel/main.cpp 1
In the above function, we construct a directory model to display
the contents of a default directory. The two views are constructed
and given the same model to work with. By default, each view will
maintain and display its own selection of items from the model,
so we explicitly create a new selection that is shared between the
tree view and the list view. As a result, changes to the selection
in either of these views will automatically cause the selection in
the other to change.
\image interview-shareddirmodel.png
The model/view architecture allows us to replace the QFileSystemModel in
this example with a completely different model, one that will perhaps
obtain data from a remote server, or from a database.
\section2 Creating a Custom Model
In this example, we display items of data obtained from a custom list
model using a standard view. The custom model is a subclass of
QAbstractListModel and provides implementations of a core set of
functions.
The complete declaration of our model is as follows:
\snippet doc/src/snippets/stringlistmodel/model.h 0
\snippet doc/src/snippets/stringlistmodel/model.h 1
\codeline
\snippet doc/src/snippets/stringlistmodel/model.h 5
The model takes a list of strings when constructed, and supplies these
to views as required. Since this is only a simple read-only model, we
only need to implement a few functions.
The underlying data structure used to hold the strings is a QStringList.
Since the model maps each item in the list to a row in the model, the
rowCount() function is quite simple:
\snippet doc/src/snippets/stringlistmodel/model.cpp 0
The data() function returns an item of data for each model index
supplied by a view:
\snippet doc/src/snippets/stringlistmodel/model.cpp 1
The data() function returns a QVariant containing the information
referred to by the model index. Items of data are returned to the view,
but only if a number of checks are satisfied; for example, if the view
specifies an invalid model index, the model indicates this by returning
an invalid QVariant.
Vertical and horizontal headers are supplied by the headerData()
function. In this model, the value returned for these items is the row
or column number, depending on the header:
\snippet doc/src/snippets/stringlistmodel/model.cpp 2
We only include an excerpt from the main() function for this short
example:
\snippet doc/src/snippets/stringlistmodel/main.cpp 1
\dots
\snippet doc/src/snippets/stringlistmodel/main.cpp 3
We create a string list to use with the model, and we supply it to the
model when it is constructed. The information in the string list is
made available to the view via the model.
\image stringlistmodel.png
This example shows that it can be easy to populate views with data
from a simple model. The standard models and views planned for
Qt 4 will make the process even easier, and the convenience widgets
supplied provide support for the classic item-based approach.
\section1 What's Changed Since Qt 3?
The table and item view classes in Qt 3 implemented widgets that
both stored data and presented it to the user. These classes were
designed to be easy-to-use and consistent, but were sometimes
difficult to customize and extend.
The equivalent classes in Qt 4 are designed to be extensible while
remaining easy-to-use; the introduction of the model/view
architecture ensures that they will be more consistent than their
predecessors. The view classes provided can be summarized in the
following way:
\list
\i QListView class provides a view widget that looks similar to
Qt 3's QListBox widget, but displays data provided by a model.
It can also be used to display icons in a similar way to Qt 3's
QIconView.
\i The QTableView class is a view widget that displays tabular data
like Qt 3's QTable widget, but uses data provided by a model.
\i The QTreeView class provides a view widget that behaves like
Qt 3's QListView widget, except that it displays data provided
by a model.
\endlist
Since the model takes responsibility for supplying items of data,
and the view takes care of their presentation to the user, we do
not require item classes to represent individual items.
Delegates handle the painting and editing of data obtained from
the model.
Qt continues to provide a number of classic item view widgets with
familiar item-based interfaces that are not based on compatibility
classes:
\list
\i The QListWidget class provides a widget to display a
list of items, as found in Qt 3's QListBox class.
\i The QTreeWidget class implements the equivalent of Qt 3's
QListView class.
\i The QTableWidget class provides comparable functionality to
Qt 3's QTable class.
\endlist
Each of the convenience classes have a corresponding item class:
QListWidgetItem, QTreeWidgetItem, and QTableWidgetItem are the Qt 4
equivalents of Qt 3's QListBoxItem, QListViewItem, and QTableItem
respectively.
The move towards a model/view architecture presents both challenges
and opportunities for developers. Although the approach may appear to
be rather powerful for simple applications, it encourages greater
reuse of components within applications.
*/
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