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/****************************************************************************
**
** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
** Contact: Nokia Corporation (qt-info@nokia.com)
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/*!
\group model-view
\title Model/View Classes
*/
/*!
\page model-view-programming.html
\nextpage An Introduction to Model/View Programming
\startpage index.html Qt Reference Documentation
\title Model/View Programming
\brief A guide to the extensible model/view architecture used by Qt's
item view classes.
\ingroup frameworks-technologies
\list
\o \l{An Introduction to Model/View Programming}
\tableofcontents{1 An Introduction to Model/View Programming}
\o \l{Using Models and Views}
\tableofcontents{1 Using Models and Views}
\o \l{Model Classes}
\tableofcontents{1 Model Classes}
\o \l{Creating New Models}
\tableofcontents{1 Creating New Models}
\o \l{View Classes}
\tableofcontents{1 View Classes}
\o \l{Handling Selections in Item Views}
\tableofcontents{1 Handling Selections in Item Views}
\o \l{Delegate Classes}
\tableofcontents{1 Delegate Classes}
\o \l{Item View Convenience Classes}
\tableofcontents{1 Item View Convenience Classes}
\o \l{Using Drag and Drop with Item Views}
\tableofcontents{1 Using Drag and Drop with Item Views}
\o \l{Proxy Models}
\tableofcontents{1 Proxy Models}
\o \l{Model Subclassing Reference}
\tableofcontents{1 Model Subclassing Reference}
\endlist
\keyword Model/View Classes
\section1 All Model/View Classes
These classes use the model/view design pattern in which the
underlying data (in the model) is kept separate from the way the data
is presented and manipulated by the user (in the view).
\annotatedlist model-view
\section1 Related Examples
\list
\o \l{itemviews/dirview}{Dir View}
\o \l{itemviews/spinboxdelegate}{Spin Box Delegate}
\o \l{itemviews/pixelator}{Pixelator}
\o \l{itemviews/simpletreemodel}{Simple Tree Model}
\o \l{itemviews/chart}{Chart}
\endlist
*/
/*!
\page model-view-introduction.html
\previouspage Model/View Programming
\nextpage Using Models and Views
\startpage index.html Qt Reference Documentation
\title An Introduction to Model/View Programming
\tableofcontents
Qt 4 introduces a new set of item view classes that use a model/view
architecture to manage the relationship between data and the way it
is presented to the user. The separation of functionality introduced by
this architecture gives developers greater flexibility to customize the
presentation of items, and provides a standard model interface to allow
a wide range of data sources to be used with existing item views.
In this document, we give a brief introduction to the model/view paradigm,
outline the concepts involved, and describe the architecture of the item
view system. Each of the components in the architecture is explained,
and examples are given that show how to use the classes provided.
\section1 The Model/View Architecture
Model-View-Controller (MVC) is a design pattern originating from
Smalltalk that is often used when building user interfaces.
In \l{Design Patterns}, Gamma et al. write:
\quotation
MVC consists of three kinds of objects. The Model is the application
object, the View is its screen presentation, and the Controller defines
the way the user interface reacts to user input. Before MVC, user
interface designs tended to lump these objects together. MVC decouples
them to increase flexibility and reuse.
\endquotation
If the view and the controller objects are combined, the result is
the model/view architecture. 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.
To allow flexible handling of user input, we introduce the concept of
the \e delegate. The advantage of having a delegate in this framework
is that it allows the way items of data are rendered and edited to be
customized.
\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
Generally, the model/view classes can be separated into the three groups
described above: models, views, and delegates. Each of these components
is defined by \e abstract classes that provide common interfaces and,
in some cases, default implementations of features.
Abstract classes are meant to be subclassed in order to provide the full
set of functionality expected by other components; this also allows
specialized components to be written.
Models, views, and delegates communicate with each other using \e{signals
and slots}:
\list
\o Signals from the model inform the view about changes to the data
held by the data source.
\o Signals from the view provide information about the user's interaction
with the items being displayed.
\o Signals from the delegate are used during editing to tell the
model and view about the state of the editor.
\endlist
\section2 Models
All item models are based on the QAbstractItemModel class. This class
defines an interface that is used by views and delegates to access data.
The data itself does not have to be stored in the model; it can be held
in a data structure or repository provided by a separate class, a file,
a database, or some other application component.
The basic concepts surrounding models are presented in the section
on \l{Model Classes}.
QAbstractItemModel
provides an interface to data that is flexible enough to handle views
that represent data in the form of tables, lists, and trees. However,
when implementing new models for list and table-like data structures,
the QAbstractListModel and QAbstractTableModel classes are better
starting points because they provide appropriate default implementations
of common functions. Each of these classes can be subclassed to provide
models that support specialized kinds of lists and tables.
The process of subclassing models is discussed in the section on
\l{Creating New Models}.
Qt provides some ready-made models that can be used to handle items of
data:
\list
\o QStringListModel is used to store a simple list of QString items.
\o QStandardItemModel manages more complex tree structures of items, each
of which can contain arbitrary data.
\o QDirModel provides information about files and directories in the local
filing system.
\o QSqlQueryModel, QSqlTableModel, and QSqlRelationalTableModel are used
to access databases using model/view conventions.
\endlist
If these standard models do not meet your requirements, you can subclass
QAbstractItemModel, QAbstractListModel, or QAbstractTableModel to create
your own custom models.
\section2 Views
Complete implementations are provided for different kinds of
views: QListView displays a list of items, QTableView displays data
from a model in a table, and QTreeView shows model items of data in a
hierarchical list. Each of these classes is based on the
QAbstractItemView abstract base class. Although these classes are
ready-to-use implementations, they can also be subclassed to provide
customized views.
The available views are examined in the section on \l{View Classes}.
\section2 Delegates
QAbstractItemDelegate is the abstract base class for delegates in the
model/view framework. Since Qt 4.4, the default delegate implementation is
provided by QStyledItemDelegate, and this is used as the default delegate
by Qt's standard views. However, QStyledItemDelegate and QItemDelegate are
independent alternatives to painting and providing editors for items in
views. The difference between them is that QStyledItemDelegate uses the
current style to paint its items. We therefore recommend using
QStyledItemDelegate as the base class when implementing custom delegates or
when working with Qt style sheets.
Delegates are described in the section on \l{Delegate Classes}.
\section2 Sorting
There are two ways of approaching sorting in the model/view
architecture; which approach to choose depends on your underlying
model.
If your model is sortable, i.e, if it reimplements the
QAbstractItemModel::sort() function, both QTableView and QTreeView
provide an API that allows you to sort your model data
programmatically. In addition, you can enable interactive sorting
(i.e. allowing the users to sort the data by clicking the view's
headers), by connecting the QHeaderView::sortIndicatorChanged() signal
to the QTableView::sortByColumn() slot or the
QTreeView::sortByColumn() slot, respectively.
The alternative approach, if your model do not have the required
interface or if you want to use a list view to present your data,
is to use a proxy model to transform the structure of your model
before presenting the data in the view. This is covered in detail
in the section on \l {Proxy Models}.
\section2 Convenience Classes
A number of \e convenience classes are derived from the standard view
classes for the benefit of applications that rely on Qt's item-based
item view and table classes. They are not intended to be subclassed,
but simply exist to provide a familiar interface to the equivalent classes
in Qt 3.
Examples of such classes include \l QListWidget, \l QTreeWidget, and
\l QTableWidget; these provide similar behavior to the \c QListBox,
\c QListView, and \c QTable classes in Qt 3.
These classes are less flexible than the view classes, and cannot be
used with arbitrary models. We recommend that you use a model/view
approach to handling data in item views unless you strongly need an
item-based set of classes.
If you wish to take advantage of the features provided by the model/view
approach while still using an item-based interface, consider using view
classes, such as QListView, QTableView, and QTreeView with
QStandardItemModel.
\section1 The Model/View Components
The following sections describe the way in which the model/view pattern
is used in Qt. Each section provides an example of use, and is followed
by a section showing how you can create new components.
*/
/*!
\page model-view-using.html
\contentspage model-view-programming.html Contents
\previouspage An Introduction to Model/View Programming
\nextpage Model Classes
\title Using Models and Views
\tableofcontents
\section1 Introduction
Two of the standard models provided by Qt are QStandardItemModel and
QDirModel. QStandardItemModel is a multi-purpose model that can be used
to represent various different data structures needed by list, table,
and tree views. This model also holds the items of data.
QDirModel is a model that maintains information about the contents of a
directory. As a result, it does not hold any items of data itself, but
simply represents files and directories on the local filing system.
QDirModel provides a ready-to-use model to experiment with, and can be
easily configured to use existing data. Using this model, we can show how
to set up a model for use with ready-made views, and explore how to
manipulate data using model indexes.
\section1 Using Views with an Existing Model
The QListView and QTreeView classes are the most suitable views
to use with QDirModel. The example presented below displays the
contents of a directory in a tree view next to the same information in
a list view. The views share the user's selection so that the selected
items are highlighted in both views.
\img shareddirmodel.png
We set up a QDirModel so that it is ready for use, and create some
views to display the contents of a directory. This shows the simplest
way to use a model. The construction and use of the model is
performed from within a single \c main() function:
\snippet doc/src/snippets/shareddirmodel/main.cpp 0
The model is set up to use data from a default directory. We create two
views so that we can examine the items held in the model in two
different ways:
\snippet doc/src/snippets/shareddirmodel/main.cpp 5
The views are constructed in the same way as other widgets. Setting up
a view to display the items in the model is simply a matter of calling its
\l{QAbstractItemView::setModel()}{setModel()} function with the directory
model as the argument. The calls to
\l{QAbstractItemView::setRootIndex()}{setRootIndex()} tell the views which
directory to display by supplying a \e{model index} that we obtain from
the directory model.
The \c index() function used in this case is unique to QDirModel; we supply
it with a directory and it returns a model index. Model indexes are
discussed in the \l{Model Classes} chapter.
The rest of the function just displays the views within a splitter
widget, and runs the application's event loop:
\snippet doc/src/snippets/shareddirmodel/main.cpp 8
In the above example, we neglected to mention how to handle selections
of items. This subject is covered in more detail in the chapter on
\l{Handling Selections in Item Views}. Before examining how selections
are handled, you may find it useful to read the \l{Model Classes} chapter
which describes the concepts used in the model/view framework.
*/
/*!
\page model-view-model.html
\contentspage model-view-programming.html Contents
\previouspage Using Models and Views
\nextpage Creating New Models
\title Model Classes
\tableofcontents
\section1 Basic Concepts
In the model/view architecture, the model provides a standard interface
that views and delegates use to access data. In Qt, the standard
interface is defined by the QAbstractItemModel class. No matter how the
items of data are stored in any underlying data structure, all subclasses
of QAbstractItemModel represent the data as a hierarchical structure
containing tables of items. Views use this \e convention to access items
of data in the model, but they are not restricted in the way that they
present this information to the user.
\image modelview-models.png
Models also notify any attached views about changes to data through the
signals and slots mechanism.
This chapter describes some basic concepts that are central to the way
item of data are accessed by other components via a model class. More
advanced concepts are discussed in later chapters.
\section2 Model Indexes
To ensure that the representation of the data is kept separate from the
way it is accessed, the concept of a \e{model index} is introduced. Each
piece of information that can be obtained via a model is represented by
a model index. Views and delegates use these indexes to request items of
data to display.
As a result, only the model needs to know how to obtain data, and the type
of data managed by the model can be defined fairly generally. Model indexes
contain a pointer to the model that created them, and this prevents
confusion when working with more than one model.
\snippet doc/src/snippets/code/doc_src_model-view-programming.qdoc 0
Model indexes provide \e temporary references to pieces of information, and
can be used to retrieve or modify data via the model. Since models may
reorganize their internal structures from time to time, model indexes may
become invalid, and \e{should not be stored}. If a long-term reference to a
piece of information is required, a \e{persistent model index} must be
created. This provides a reference to the information that the model keeps
up-to-date. Temporary model indexes are provided by the QModelIndex class,
and persistent model indexes are provided by the QPersistentModelIndex
class.
To obtain a model index that corresponds to an item of data, three
properties must be specified to the model: a row number, a column number,
and the model index of a parent item. The following sections describe
and explain these properties in detail.
\section2 Rows and Columns
In its most basic form, a model can be accessed as a simple table in which
items are located by their row and column numbers. \e{This does not mean
that the underlying pieces of data are stored in an array structure}; the
use of row and column numbers is only a convention to allow components to
communicate with each other. We can retrieve information about any given
item by specifying its row and column numbers to the model, and we receive
an index that represents the item:
\snippet doc/src/snippets/code/doc_src_model-view-programming.qdoc 1
Models that provide interfaces to simple, single level data structures like
lists and tables do not need any other information to be provided but, as
the above code indicates, we need to supply more information when obtaining
a model index.
\table
\row \i \inlineimage modelview-tablemodel.png
\i \bold{Rows and columns}
The diagram shows a representation of a basic table model in which each
item is located by a pair of row and column numbers. We obtain a model
index that refers to an item of data by passing the relevant row and
column numbers to the model.
\snippet doc/src/snippets/code/doc_src_model-view-programming.qdoc 2
Top level items in a model are always referenced by specifying
\c QModelIndex() as their parent item. This is discussed in the next
section.
\endtable
\section2 Parents of Items
The table-like interface to item data provided by models is ideal when
using data in a table or list view; the row and column number system maps
exactly to the way the views display items. However, structures such as
tree views require the model to expose a more flexible interface to the
items within. As a result, each item can also be the parent of another
table of items, in much the same way that a top-level item in a tree view
can contain another list of items.
When requesting an index for a model item, we must provide some information
about the item's parent. Outside the model, the only way to refer to an
item is through a model index, so a parent model index must also be given:
\snippet doc/src/snippets/code/doc_src_model-view-programming.qdoc 3
\table
\row \i \inlineimage modelview-treemodel.png
\i \bold{Parents, rows, and columns}
The diagram shows a representation of a tree model in which each item is
referred to by a parent, a row number, and a column number.
Items "A" and "C" are represented as top-level siblings in the model:
\snippet doc/src/snippets/code/doc_src_model-view-programming.qdoc 4
Item "A" has a number of children. A model index for item "B" is
obtained with the following code:
\snippet doc/src/snippets/code/doc_src_model-view-programming.qdoc 5
\endtable
\section2 Item Roles
Items in a model can perform various \e roles for other components,
allowing different kinds of data to be supplied for different situations.
For example, Qt::DisplayRole is used to access a string that can be
displayed as text in a view. Typically, items contain data for a number of
different roles, and the standard roles are defined by Qt::ItemDataRole.
We can ask the model for the item's data by passing it the model index
corresponding to the item, and by specifying a role to obtain the type
of data we want:
\snippet doc/src/snippets/code/doc_src_model-view-programming.qdoc 6
\table
\row \i \inlineimage modelview-roles.png
\i \bold{Item roles}
The role indicates to the model which type of data is being referred to.
Views can display the roles in different ways, so it is important to
supply appropriate information for each role.
The \l{Creating New Models} section covers some specific uses of roles in
more detail.
\endtable
Most common uses for item data are covered by the standard roles defined in
Qt::ItemDataRole. By supplying appropriate item data for each role, models
can provide hints to views and delegates about how items should be
presented to the user. Different kinds of views have the freedom to
interpret or ignore this information as required. It is also possible to
define additional roles for application-specific purposes.
\section2 Summary of Concepts
\list
\o Model indexes give views and delegates information about the location
of items provided by models in a way that is independent of any
underlying data structures.
\o Items are referred to by their row and column numbers, and by the model
index of their parent items.
\o Model indexes are constructed by models at the request of other
components, such as views and delegates.
\o If a valid model index is specified for the parent item when an index is
requested using \l{QAbstractItemModel::index()}{index()}, the index
returned will refer to an item beneath that parent item in the
model.
The index obtained refers to a child of that item.
\o If an invalid model index is specified for the parent item when an index
is requested using \l{QAbstractItemModel::index()}{index()}, the index
returned will refer to a top-level item in the model.
\o The \l{Qt::ItemDataRole}{role} distinguishes between the
different kinds of data associated with an item.
\endlist
\section2 Using Model Indexes
To demonstrate how data can be retrieved from a model, using model
indexes, we set up a QDirModel without a view and display the
names of files and directories in a widget.
Although this does not show a normal way of using a model, it demonstrates
the conventions used by models when dealing with model indexes.
We construct a directory model in the following way:
\snippet doc/src/snippets/simplemodel-use/main.cpp 0
In this case, we set up a default QDirModel, obtain a parent index using
a specific implementation of \l{QDirModel::index()}{index()} provided by
that model, and we count the number of rows in the model using the
\l{QDirModel::rowCount()}{rowCount()} function.
For simplicity, we are only interested in the items in the first column
of the model. We examine each row in turn, obtaining a model index for
the first item in each row, and read the data stored for that item
in the model.
\snippet doc/src/snippets/simplemodel-use/main.cpp 1
To obtain a model index, we specify the row number, column number (zero
for the first column), and the appropriate model index for the parent
of all the items that we want.
The text stored in each item is retrieved using the model's
\l{QDirModel::data()}{data()} function. We specify the model index and
the \l{Qt::ItemDataRole}{DisplayRole} to obtain data for the
item in the form of a string.
\snippet doc/src/snippets/simplemodel-use/main.cpp 2
\codeline
\snippet doc/src/snippets/simplemodel-use/main.cpp 3
The above example demonstrates the basic principles used to retrieve
data from a model:
\list
\i The dimensions of a model can be found using
\l{QAbstractItemModel::rowCount()}{rowCount()} and
\l{QAbstractItemModel::columnCount()}{columnCount()}.
These functions generally require a parent model index to be
specified.
\i Model indexes are used to access items in the model. The row, column,
and parent model index are needed to specify the item.
\i To access top-level items in a model, specify a null model index
as the parent index with \c QModelIndex().
\i Items contain data for different roles. To obtain the data for a
particular role, both the model index and the role must be supplied
to the model.
\endlist
\section1 Further Reading
New models can be created by implementing the standard interface provided
by QAbstractItemModel. In the \l{Creating New Models} chapter, we will
demonstrate this by creating a convenient ready-to-use model for holding
lists of strings.
*/
/*!
\page model-view-view.html
\contentspage model-view-programming.html Contents
\previouspage Creating New Models
\nextpage Handling Selections in Item Views
\title View Classes
\tableofcontents
\section1 Concepts
In the model/view architecture, the view obtains items of data from the
model and presents them to the user. The way that the data is
presented need not resemble the representation of the data provided by
the model, and may be \e{completely different} from the underlying data
structure used to store items of data.
The separation of content and presentation is achieved by the use of a
standard model interface provided by QAbstractItemModel, a standard view
interface provided by QAbstractItemView, and the use of model indexes
that represent items of data in a general way.
Views typically manage the overall layout of the data obtained from
models. They may render individual items of data themselves, or use
\l{Delegate Classes}{delegates} to handle both rendering and editing
features.
As well as presenting data, views handle navigation between items,
and some aspects of item selection. The views also implement basic
user interface features, such as context menus and drag and drop.
A view can provide default editing facilities for items, or it may
work with a \l{Delegate Classes}{delegate} to provide a custom
editor.
A view can be constructed without a model, but a model must be
provided before it can display useful information. Views keep track of
the items that the user has selected through the use of
\l{Handling Selections in Item Views}{selections} which can be maintained
separately for each view, or shared between multiple views.
Some views, such as QTableView and QTreeView, display headers as well
as items. These are also implemented by a view class, QHeaderView.
Headers usually access the same model as the view that contains them.
They retrieve data from the model using the
\l{QAbstractItemModel::headerData()} function, and usually display
header information in the form of a label. New headers can be
subclassed from the QHeaderView class to provide more specialized
labels for views.
\section1 Using an Existing View
Qt provides three ready-to-use view classes that present data from
models in ways that are familiar to most users.
QListView can display items from a model as a simple list, or in the
form of a classic icon view. QTreeView displays items from a
model as a hierarchy of lists, allowing deeply nested structures to be
represented in a compact way. QTableView presents items from a model
in the form of a table, much like the layout of a spreadsheet
application.
\img standard-views.png
The default behavior of the standard views shown above should be
sufficient for most applications. They provide basic editing
facilities, and can be customized to suit the needs of more specialized
user interfaces.
\section2 Using a Model
We take the string list model that \l{Creating New Models}{we created as
an example model}, set it up with some data, and construct a view to
display the contents of the model. This can all be performed within a
single function:
\snippet doc/src/snippets/stringlistmodel/main.cpp 0
Note that the \c StringListModel is declared as a \l QAbstractItemModel.
This allows us to use the abstract interface to the model, and
ensures that the code will still work even if we replace the string list
model with a different model in the future.
The list view provided by \l QListView is sufficient for presenting
the items in the string list model. We construct the view, and set up
the model using the following lines of code:
\snippet doc/src/snippets/stringlistmodel/main.cpp 2
\snippet doc/src/snippets/stringlistmodel/main.cpp 4
The view is shown in the normal way:
\snippet doc/src/snippets/stringlistmodel/main.cpp 5
The view renders the contents of a model, accessing data via the model's
interface. When the user tries to edit an item, the view uses a default
delegate to provide an editor widget.
\img stringlistmodel.png
The above image shows how a QListView represents the data in the string
list model. Since the model is editable, the view automatically allows
each item in the list to be edited using the default delegate.
\section2 Using Multiple Views onto the Same Model
Providing multiple views onto the same model is simply a matter of
setting the same model for each view. In the following code we create
two table views, each using the same simple table model which we have
created for this example:
\snippet doc/src/snippets/sharedtablemodel/main.cpp 0
\codeline
\snippet doc/src/snippets/sharedtablemodel/main.cpp 1
The use of signals and slots in the model/view architecture means that
changes to the model can be propagated to all the attached views,
ensuring that we can always access the same data regardless of the
view being used.
\img sharedmodel-tableviews.png
The above image shows two different views onto the same model, each
containing a number of selected items. Although the data from the model
is shown consistently across view, each view maintains its own internal
selection model. This can be useful in certain situations but, for
many applications, a shared selection model is desirable.
\section1 Handling Selections of Items
The mechanism for handling selections of items within views is provided
by the \l QItemSelectionModel class. All of the standard views construct
their own selection models by default, and interact with them in the
normal way. The selection model being used by a view can be obtained
through the \l{QAbstractItemView::selectionModel()}{selectionModel()}
function, and a replacement selection model can be specified with
\l{QAbstractItemView::setSelectionModel()}{setSelectionModel()}.
The ability to control the selection model used by a view is useful
when we want to provide multiple consistent views onto the same model
data.
Generally, unless you are subclassing a model or view, you will not
need to manipulate the contents of selections directly. However, the
interface to the selection model can be accessed, if required, and
this is explored in the chapter on
\l{Handling Selections in Item Views}.
\section2 Sharing Selections Between Views
Although it is convenient that the view classes provide their own
selection models by default, when we use more than one view onto the
same model it is often desirable that both the model's data and the
user's selection are shown consistently in all views.
Since the view classes allow their internal selection models to be
replaced, we can achieve a unified selection between views with the
following line:
\snippet doc/src/snippets/sharedtablemodel/main.cpp 2
The second view is given the selection model for the first view.
Both views now operate on the same selection model, keeping both
the data and the selected items synchronized.
\img sharedselection-tableviews.png
In the example shown above, two views of the same type were used to
display the same model's data. However, if two different types of view
were used, the selected items may be represented very differently in
each view; for example, a contiguous selection in a table view can be
represented as a fragmented set of highlighted items in a tree view.
*/
/*!
\page model-view-delegate.html
\contentspage model-view-programming.html Contents
\previouspage Handling Selections in Item Views
\nextpage Item View Convenience Classes
\title Delegate Classes
\tableofcontents
\section1 Concepts
Unlike the Model-View-Controller pattern, the model/view design does not
include a completely separate component for managing interaction with
the user. Generally, the view is responsible for the presentation of
model data to the user, and for processing user input. To allow some
flexibility in the way this input is obtained, the interaction is
performed by delegates. These components provide input capabilities
and are also responsible for rendering individual items in some views.
The standard interface for controlling delegates is defined in the
\l QAbstractItemDelegate class.
Delegates are expected to be able to render their contents themselves
by implementing the \l{QItemDelegate::paint()}{paint()}
and \l{QItemDelegate::sizeHint()}{sizeHint()} functions.
However, simple widget-based delegates can subclass \l QItemDelegate
instead of \l QAbstractItemDelegate, and take advantage of the default
implementations of these functions.
Editors for delegates can be implemented either by using widgets to manage
the editing process or by handling events directly.
The first approach is covered later in this chapter, and it is also
shown in the \l{Spin Box Delegate Example}{Spin Box Delegate} example.
The \l{Pixelator Example}{Pixelator} example shows how to create a
custom delegate that performs specialized rendering for a table view.
\section1 Using an Existing Delegate
The standard views provided with Qt use instances of \l QItemDelegate
to provide editing facilities. This default implementation of the
delegate interface renders items in the usual style for each of the
standard views: \l QListView, \l QTableView, and \l QTreeView.
All the standard roles are handled by the default delegate used by
the standard views. The way these are interpreted is described in the
QItemDelegate documentation.
The delegate used by a view is returned by the
\l{QAbstractItemView::itemDelegate()}{itemDelegate()} function.
The \l{QAbstractItemView::setItemDelegate()}{setItemDelegate()} function
allows you to install a custom delegate for a standard view, and it is
necessary to use this function when setting the delegate for a custom
view.
\section1 A Simple Delegate
The delegate implemented here uses a \l QSpinBox to provide editing
facilities, and is mainly intended for use with models that display
integers. Although we set up a custom integer-based table model for
this purpose, we could easily have used \l QStandardItemModel instead
since the custom delegate will control data entry. We construct a
table view to display the contents of the model, and this will use
the custom delegate for editing.
\img spinboxdelegate-example.png
We subclass the delegate from \l QItemDelegate because we do not want
to write custom display functions. However, we must still provide
functions to manage the editor widget:
\snippet examples/itemviews/spinboxdelegate/delegate.h 0
Note that no editor widgets are set up when the delegate is
constructed. We only construct an editor widget when it is needed.
\section2 Providing an Editor
In this example, when the table view needs to provide an editor, it
asks the delegate to provide an editor widget that is appropriate
for the item being modified. The
\l{QAbstractItemDelegate::createEditor()}{createEditor()} function is
supplied with everything that the delegate needs to be able to set up
a suitable widget:
\snippet examples/itemviews/spinboxdelegate/delegate.cpp 1
Note that we do not need to keep a pointer to the editor widget because
the view takes responsibility for destroying it when it is no longer
needed.
We install the delegate's default event filter on the editor to ensure
that it provides the standard editing shortcuts that users expect.
Additional shortcuts can be added to the editor to allow more
sophisticated behavior; these are discussed in the section on
\l{#EditingHints}{Editing Hints}.
The view ensures that the editor's data and geometry are set
correctly by calling functions that we define later for these purposes.
We can create different editors depending on the model index supplied
by the view. For example, if we have a column of integers and a column
of strings we could return either a \c QSpinBox or a \c QLineEdit,
depending on which column is being edited.
The delegate must provide a function to copy model data into the
editor. In this example, we read the data stored in the
\l{Qt::ItemDataRole}{display role}, and set the value in the
spin box accordingly.
\snippet examples/itemviews/spinboxdelegate/delegate.cpp 2
In this example, we know that the editor widget is a spin box, but we
could have provided different editors for different types of data in
the model, in which case we would need to cast the widget to the
appropriate type before accessing its member functions.
\section2 Submitting Data to the Model
When the user has finished editing the value in the spin box, the view
asks the delegate to store the edited value in the model by calling the
\l{QAbstractItemDelegate::setModelData()}{setModelData()} function.
\snippet examples/itemviews/spinboxdelegate/delegate.cpp 3
Since the view manages the editor widgets for the delegate, we only
need to update the model with the contents of the editor supplied.
In this case, we ensure that the spin box is up-to-date, and update
the model with the value it contains using the index specified.
The standard \l QItemDelegate class informs the view when it has
finished editing by emitting the
\l{QAbstractItemDelegate::closeEditor()}{closeEditor()} signal.
The view ensures that the editor widget is closed and destroyed. In
this example, we only provide simple editing facilities, so we need
never emit this signal.
All the operations on data are performed through the interface
provided by \l QAbstractItemModel. This makes the delegate mostly
independent from the type of data it manipulates, but some
assumptions must be made in order to use certain types of
editor widgets. In this example, we have assumed that the model
always contains integer values, but we can still use this
delegate with different kinds of models because \l{QVariant}
provides sensible default values for unexpected data.
\section2 Updating the Editor's Geometry
It is the responsibility of the delegate to manage the editor's
geometry. The geometry must be set when the editor is created, and
when the item's size or position in the view is changed. Fortunately,
the view provides all the necessary geometry information inside a
\l{QStyleOptionViewItem}{view option} object.
\snippet examples/itemviews/spinboxdelegate/delegate.cpp 4
In this case, we just use the geometry information provided by the
view option in the item rectangle. A delegate that renders items with
several elements would not use the item rectangle directly. It would
position the editor in relation to the other elements in the item.
\target EditingHints
\section2 Editing Hints
After editing, delegates should provide hints to the other components
about the result of the editing process, and provide hints that will
assist any subsequent editing operations. This is achieved by
emitting the \l{QAbstractItemDelegate::closeEditor()}{closeEditor()}
signal with a suitable hint. This is taken care of by the default
QItemDelegate event filter which we installed on the spin box when
it was constructed.
The behavior of the spin box could be adjusted to make it more user
friendly. In the default event filter supplied by QItemDelegate, if
the user hits \key Return to confirm their choice in the spin box,
the delegate commits the value to the model and closes the spin box.
We can change this behavior by installing our own event filter on the
spin box, and provide editing hints that suit our needs; for example,
we might emit \l{QAbstractItemDelegate::closeEditor()}{closeEditor()}
with the \l{QAbstractItemDelegate::EndEditHint}{EditNextItem} hint to
automatically start editing the next item in the view.
Another approach that does not require the use of an event
filter is to provide our own editor widget, perhaps subclassing
QSpinBox for convenience. This alternative approach would give us
more control over how the editor widget behaves at the cost of
writing additional code. It is usually easier to install an event
filter in the delegate if you need to customize the behavior of
a standard Qt editor widget.
Delegates do not have to emit these hints, but those that do not will
be less integrated into applications, and will be less usable than
those that emit hints to support common editing actions.
*/
/*!
\page model-view-selection.html
\contentspage model-view-programming.html Contents
\previouspage View Classes
\nextpage Delegate Classes
\title Handling Selections in Item Views
\tableofcontents
\section1 Concepts
The selection model used in the item view classes offers many improvements
over the selection model used in Qt 3. It provides a more general
description of selections based on the facilities of the model/view
architecture. Although the standard classes for manipulating selections are
sufficient for the item views provided, the selection model allows you to
create specialized selection models to suit the requirements for your own
item models and views.
Information about the items selected in a view is stored in an instance of
the \l QItemSelectionModel class. This maintains model indexes for items in
a single model, and is independent of any views. Since there can be many
views onto a model, it is possible to share selections between views,
allowing applications to show multiple views in a consistent way.
Selections are made up of \e{selection ranges}. These efficiently maintain
information about large selections of items by recording only the starting
and ending model indexes for each range of selected items. Non-contiguous
selections of items are constructed by using more than one selection range
to describe the selection.
Selections are applied to a collection of model indexes held by a selection
model. The most recent selection of items applied is known as the
\e{current selection}. The effects of this selection can be modified even
after its application through the use of certain types of selection
commands. These are discussed later in this section.
\section2 Current Item and Selected Items
In a view, there is always a current item and a selected item - two
independent states. An item can be the current item and selected at the
same time. The view is responsible for ensuring that there is always a
current item as keyboard navigation, for example, requires a current item.
The table below highlights the differences between current item and
selected items.
\table
\header
\o Current Item
\o Selected Items
\row
\o There can only be one current item.
\o There can be multiple selected items.
\row
\o The current item will be changed with key navigation or mouse
button clicks.
\o The selected state of items is set or unset, depending on several
pre-defined modes - e.g., single selection, multiple selection,
etc. - when the user interacts with the items.
\row
\o The current item will be edited if the edit key, \gui F2, is
pressed or the item is double-clicked (provided that editing is
enabled).
\o The current item can be used together with an anchor to specify a
range that should be selected or deselected (or a combination of
the two).
\row
\o The current item is indicated by the focus rectangle.
\o The selected items are indicated with the selection rectangle.
\endtable
When manipulating selections, it is often helpful to think of
\l QItemSelectionModel as a record of the selection state of all the items
in an item model. Once a selection model is set up, collections of items
can be selected, deselected, or their selection states can be toggled
without the need to know which items are already selected. The indexes of
all selected items can be retrieved at any time, and other components can
be informed of changes to the selection model via the signals and slots
mechanism.
\section1 Using a Selection Model
The standard view classes provide default selection models that can
be used in most applications. A selection model belonging to one view
can be obtained using the view's
\l{QAbstractItemView::selectionModel()}{selectionModel()} function,
and shared between many views with
\l{QAbstractItemView::setSelectionModel()}{setSelectionModel()},
so the construction of new selection models is generally not required.
A selection is created by specifying a model, and a pair of model
indexes to a \l QItemSelection. This uses the indexes to refer to items
in the given model, and interprets them as the top-left and bottom-right
items in a block of selected items.
To apply the selection to items in a model requires the selection to be
submitted to a selection model; this can be achieved in a number of ways,
each having a different effect on the selections already present in the
selection model.
\section2 Selecting Items
To demonstrate some of the principal features of selections, we construct
an instance of a custom table model with 32 items in total, and open a
table view onto its data:
\snippet doc/src/snippets/itemselection/main.cpp 0
The table view's default selection model is retrieved for later use.
We do not modify any items in the model, but instead select a few
items that the view will display at the top-left of the table. To do
this, we need to retrieve the model indexes corresponding to the
top-left and bottom-right items in the region to be selected:
\snippet doc/src/snippets/itemselection/main.cpp 1
To select these items in the model, and see the corresponding change
in the table view, we need to construct a selection object then apply
it to the selection model:
\snippet doc/src/snippets/itemselection/main.cpp 2
The selection is applied to the selection model using a command
defined by a combination of
\l{QItemSelectionModel::SelectionFlag}{selection flags}.
In this case, the flags used cause the items recorded in the
selection object to be included in the selection model, regardless
of their previous state. The resulting selection is shown by the view.
\img selected-items1.png
The selection of items can be modified using various operations that
are defined by the selection flags. The selection that results from
these operations may have a complex structure, but will be represented
efficiently by the selection model. The use of different selection
flags to manipulate the selected items is described when we examine
how to update a selection.
\section2 Reading the Selection State
The model indexes stored in the selection model can be read using
the \l{QItemSelectionModel::selectedIndexes()}{selectedIndexes()}
function. This returns an unsorted list of model indexes that we can
iterate over as long as we know which model they are for:
\snippet doc/src/snippets/reading-selections/window.cpp 0
The above code uses Qt's convenient \l{Generic Containers}{foreach
keyword} to iterate over, and modify, the items corresponding to the
indexes returned by the selection model.
The selection model emits signals to indicate changes in the
selection. These notify other components about changes to both the
selection as a whole and the currently focused item in the item
model. We can connect the
\l{QItemSelectionModel::selectionChanged()}{selectionChanged()}
signal to a slot, and examine the items in the model that are selected or
deselected when the selection changes. The slot is called with two
\l{QItemSelection} objects: one contains a list of indexes that
correspond to newly selected items; the other contains indexes that
correspond to newly deselected items.
In the following code, we provide a slot that receives the
\l{QItemSelectionModel::selectionChanged()}{selectionChanged()}
signal, fills in the selected items with
a string, and clears the contents of the deselected items.
\snippet doc/src/snippets/updating-selections/window.cpp 0
\snippet doc/src/snippets/updating-selections/window.cpp 1
\codeline
\snippet doc/src/snippets/updating-selections/window.cpp 2
We can keep track of the currently focused item by connecting the
\l{QItemSelectionModel::currentChanged()}{currentChanged()} signal
to a slot that is called with two model indexes. These correspond to
the previously focused item, and the currently focused item.
In the following code, we provide a slot that receives the
\l{QItemSelectionModel::currentChanged()}{currentChanged()} signal,
and uses the information provided to update the status bar of a
\l QMainWindow:
\snippet doc/src/snippets/updating-selections/window.cpp 3
Monitoring selections made by the user is straightforward with these
signals, but we can also update the selection model directly.
\section2 Updating a Selection
Selection commands are provided by a combination of selection flags,
defined by \l{QItemSelectionModel::SelectionFlag}.
Each selection flag tells the selection model how to update its
internal record of selected items when either of the
\l{QItemSelection::select()}{select()} functions are called.
The most commonly used flag is the
\l{QItemSelectionModel::SelectionFlag}{Select} flag
which instructs the selection model to record the specified items as
being selected. The
\l{QItemSelectionModel::SelectionFlag}{Toggle} flag causes the
selection model to invert the state of the specified items,
selecting any deselected items given, and deselecting any currently
selected items. The \l{QItemSelectionModel::SelectionFlag}{Deselect}
flag deselects all the specified items.
Individual items in the selection model are updated by creating a
selection of items, and applying them to the selection model. In the
following code, we apply a second selection of items to the table
model shown above, using the
\l{QItemSelectionModel::SelectionFlag}{Toggle} command to invert the
selection state of the items given.
\snippet doc/src/snippets/itemselection/main.cpp 3
The results of this operation are displayed in the table view,
providing a convenient way of visualizing what we have achieved:
\img selected-items2.png
By default, the selection commands only operate on the individual
items specified by the model indexes. However, the flag used to
describe the selection command can be combined with additional flags
to change entire rows and columns. For example if you call
\l{QItemSelectionModel::select()}{select()} with only one index, but
with a command that is a combination of
\l{QItemSelectionModel::SelectionFlag}{Select} and
\l{QItemSelectionModel::SelectionFlag}{Rows}, the
entire row containing the item referred to will be selected.
The following code demonstrates the use of the
\l{QItemSelectionModel::SelectionFlag}{Rows} and
\l{QItemSelectionModel::SelectionFlag}{Columns} flags:
\snippet doc/src/snippets/itemselection/main.cpp 4
Although only four indexes are supplied to the selection model, the
use of the
\l{QItemSelectionModel::SelectionFlag}{Columns} and
\l{QItemSelectionModel::SelectionFlag}{Rows} selection flags means
that two columns and two rows are selected. The following image shows
the result of these two selections:
\img selected-items3.png
The commands performed on the example model have all involved
accumulating a selection of items in the model. It is also possible
to clear the selection, or to replace the current selection with
a new one.
To replace the current selection with a new selection, combine
the other selection flags with the
\l{QItemSelectionModel::SelectionFlag}{Current} flag. A command using
this flag instructs the selection model to replace its current collection
of model indexes with those specified in a call to
\l{QItemSelectionModel::select()}{select()}.
To clear all selections before you start adding new ones,
combine the other selection flags with the
\l{QItemSelectionModel::SelectionFlag}{Clear} flag. This
has the effect of resetting the selection model's collection of model
indexes.
\section2 Selecting All Items in a Model
To select all items in a model, it is necessary to create a
selection for each level of the model that covers all items in that
level. We do this by retrieving the indexes corresponding to the
top-left and bottom-right items with a given parent index:
\snippet doc/src/snippets/reading-selections/window.cpp 2
A selection is constructed with these indexes and the model. The
corresponding items are then selected in the selection model:
\snippet doc/src/snippets/reading-selections/window.cpp 3
This needs to be performed for all levels in the model.
For top-level items, we would define the parent index in the usual way:
\snippet doc/src/snippets/reading-selections/window.cpp 1
For hierarchical models, the
\l{QAbstractItemModel::hasChildren()}{hasChildren()} function is used to
determine whether any given item is the parent of another level of
items.
*/
/*!
\page model-view-creating-models.html
\contentspage model-view-programming.html Contents
\previouspage Model Classes
\nextpage View Classes
\title Creating New Models
\tableofcontents
\section1 Introduction
The separation of functionality between the model/view components allows
models to be created that can take advantage of existing views. This
approach lets us present data from a variety of sources using standard
graphical user interface components, such as QListView, QTableView, and
QTreeView.
The QAbstractItemModel class provides an interface that is flexible
enough to support data sources that arrange information in hierarchical
structures, allowing for the possibility that data will be inserted,
removed, modified, or sorted in some way. It also provides support for
drag and drop operations.
The QAbstractListModel and QAbstractTableModel classes provide support
for interfaces to simpler non-hierarchical data structures, and are
easier to use as a starting point for simple list and table models.
In this chapter, we create a simple read-only model to explore
the basic principles of the model/view architecture. Later in this
chapter, we will adapt this simple model so that items can be modified
by the user.
For an example of a more complex model, see the
\l{itemviews/simpletreemodel}{Simple Tree Model} example.
The requirements of QAbstractItemModel subclasses is described in more
detail in the \l{Model Subclassing Reference} document.
\section1 Designing a Model
When creating a new model for an existing data structure, it is important
to consider which type of model should be used to provide an interface
onto the data. If the data structure can be represented as a
list or table of items, you can subclass QAbstractListModel or
QAbstractTableModel since these classes provide suitable default
implementations for many functions.
However, if the underlying data structure can only be represented by a
hierarchical tree structure, it is necessary to subclass
QAbstractItemModel. This approach is taken in the
\l{itemviews/simpletreemodel}{Simple Tree Model} example.
In this chapter, we will implement a simple model based on a list of
strings, so the QAbstractListModel provides an ideal base class on
which to build.
Whatever form the underlying data structure takes, it is
usually a good idea to supplement the standard QAbstractItemModel API
in specialized models with one that allows more natural access to the
underlying data structure. This makes it easier to populate the model
with data, yet still enables other general model/view components to
interact with it using the standard API. The model described below
provides a custom constructor for just this purpose.
\section1 A Read-Only Example Model
The model implemented here is a simple, non-hierarchical, read-only data
model based on the standard QStringListModel class. It has a \l QStringList
as its internal data source, and implements only what is needed to make a
functioning model. To make the implementation easier, we subclass
\l QAbstractListModel because it defines sensible default behavior for list
models, and it exposes a simpler interface than the \l QAbstractItemModel
class.
When implementing a model it is important to remember that
\l QAbstractItemModel does not store any data itself, it merely
presents an interface that the views use to access the data.
For a minimal read-only model it is only necessary to implement a few
functions as there are default implementations for most of the
interface. The class declaration 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
Apart from the model's constructor, we only need to implement two
functions: \l{QAbstractItemModel::rowCount()}{rowCount()} returns the
number of rows in the model and \l{QAbstractItemModel::data()}{data()}
returns an item of data corresponding to a specified model index.
Well behaved models also implement
\l{QAbstractItemModel::headerData()}{headerData()} to give tree and
table views something to display in their headers.
Note that this is a non-hierarchical model, so we don't have to worry
about the parent-child relationships. If our model was hierarchical, we
would also have to implement the
\l{QAbstractItemModel::index()}{index()} and
\l{QAbstractItemModel::parent()}{parent()} functions.
The list of strings is stored internally in the \c stringList private
member variable.
\section2 Dimensions of The Model
We want the number of rows in the model to be the same as the number of
strings in the string list. We implement the
\l{QAbstractItemModel::rowCount()}{rowCount()} function with this in
mind:
\snippet doc/src/snippets/stringlistmodel/model.cpp 0
Since the model is non-hierarchical, we can safely ignore the model index
corresponding to the parent item. By default, models derived from
QAbstractListModel only contain one column, so we do not need to
reimplement the \l{QAbstractItemModel::columnCount()}{columnCount()}
function.
\section2 Model Headers and Data
For items in the view, we want to return the strings in the string list.
The \l{QAbstractItemModel::data()}{data()} function is responsible for
returning the item of data that corresponds to the index argument:
\snippet doc/src/snippets/stringlistmodel/model.cpp 1-data-read-only
We only return a valid QVariant if the model index supplied is valid,
the row number is within the range of items in the string list, and the
requested role is one that we support.
Some views, such as QTreeView and QTableView, are able to display headers
along with the item data. If our model is displayed in a view with headers,
we want the headers to show the row and column numbers. We can provide
information about the headers by subclassing the
\l{QAbstractItemModel::headerData()}{headerData()} function:
\snippet doc/src/snippets/stringlistmodel/model.cpp 2
Again, we return a valid QVariant only if the role is one that we support.
The orientation of the header is also taken into account when deciding the
exact data to return.
Not all views display headers with the item data, and those that do may
be configured to hide them. Nonetheless, it is recommended that you
implement the \l{QAbstractItemModel::headerData()}{headerData()} function
to provide relevant information about the data provided by the model.
An item can have several roles, giving out different data depending on the
role specified. The items in our model only have one role,
\l{Qt::ItemDataRole}{DisplayRole}, so we return the data
for items irrespective of the role specified.
However, we could reuse the data we provide for the
\l{Qt::ItemDataRole}{DisplayRole} in
other roles, such as the
\l{Qt::ItemDataRole}{ToolTipRole} that views can use to
display information about items in a tooltip.
\section1 An Editable Model
The read-only model shows how simple choices could be presented to the
user but, for many applications, an editable list model is much more
useful. We can modify the read-only model to make the items editable
by changing the data() function we implemented for read-only, and
by implementing two extra functions:
\l{QAbstractItemModel::flags()}{flags()} and
\l{QAbstractItemModel::setData()}{setData()}.
The following function declarations are added to the class definition:
\snippet doc/src/snippets/stringlistmodel/model.h 2
\snippet doc/src/snippets/stringlistmodel/model.h 3
\section2 Making the Model Editable
A delegate checks whether an item is editable before creating an
editor. The model must let the delegate know that its items are
editable. We do this by returning the correct flags for each item in
the model; in this case, we enable all items and make them both
selectable and editable:
\snippet doc/src/snippets/stringlistmodel/model.cpp 3
Note that we do not have to know how the delegate performs the actual
editing process. We only have to provide a way for the delegate to set the
data in the model. This is achieved through the
\l{QAbstractItemModel::setData()}{setData()} function:
\snippet doc/src/snippets/stringlistmodel/model.cpp 4
\snippet doc/src/snippets/stringlistmodel/model.cpp 5
In this model, the item in the string list that corresponds to the
model index is replaced by the value provided. However, before we
can modify the string list, we must make sure that the index is
valid, the item is of the correct type, and that the role is
supported. By convention, we insist that the role is the
\l{Qt::ItemDataRole}{EditRole} since this is the role used by the
standard item delegate. For boolean values, however, you can use
Qt::CheckStateRole and set the Qt::ItemIsUserCheckable flag; a
checkbox will then be used for editing the value. The underlying
data in this model is the same for all roles, so this detail just
makes it easier to integrate the model with standard components.
When the data has been set, the model must let the views know that some
data has changed. This is done by emitting the
\l{QAbstractItemModel::dataChanged()}{dataChanged()} signal. Since only
one item of data has changed, the range of items specified in the signal
is limited to just one model index.
Also the data() function needs to be changed to add the Qt::EditRole test:
\snippet doc/src/snippets/stringlistmodel/model.cpp 1
\section2 Inserting and Removing Rows
It is possible to change the number of rows and columns in a model. In the
string list model it only makes sense to change the number of rows, so we
only reimplement the functions for inserting and removing rows. These are
declared in the class definition:
\snippet doc/src/snippets/stringlistmodel/model.h 4
Since rows in this model correspond to strings in a list, the
\c insertRows() function inserts a number of empty strings into the string
list before the specified position. The number of strings inserted is
equivalent to the number of rows specified.
The parent index is normally used to determine where in the model the
rows should be added. In this case, we only have a single top-level list
of strings, so we just insert empty strings into that list.
\snippet doc/src/snippets/stringlistmodel/model.cpp 6
\snippet doc/src/snippets/stringlistmodel/model.cpp 7
The model first calls the
\l{QAbstractItemModel::beginInsertRows()}{beginInsertRows()} function to
inform other components that the number of rows is about to change. The
function specifies the row numbers of the first and last new rows to be
inserted, and the model index for their parent item. After changing the
string list, it calls
\l{QAbstractItemModel::endInsertRows()}{endInsertRows()} to complete the
operation and inform other components that the dimensions of the model
have changed, returning true to indicate success.
The function to remove rows from the model is also simple to write.
The rows to be removed from the model are specified by the position and
the number of rows given.
We ignore the parent index to simplify our implementation, and just
remove the corresponding items from the string list.
\snippet doc/src/snippets/stringlistmodel/model.cpp 8
\snippet doc/src/snippets/stringlistmodel/model.cpp 9
The \l{QAbstractItemModel::beginRemoveRows()}{beginRemoveRows()} function
is always called before any underlying data is removed, and specifies the
first and last rows to be removed. This allows other components to access
the data before it becomes unavailable.
After the rows have been removed, the model emits
\l{QAbstractItemModel::endRemoveRows()}{endRemoveRows()} to finish the
operation and let other components know that the dimensions of the model
have changed.
\section1 Next Steps
We can display the data provided by this model, or any other model, using
the \l QListView class to present the model's items in the form of a vertical
list.
For the string list model, this view also provides a default editor so that
the items can be manipulated. We examine the possibilities made available by
the standard view classes in the chapter on \l{View Classes}.
The \l{Model Subclassing Reference} document discusses the requirements of
QAbstractItemModel subclasses in more detail, and provides a guide to the
virtual functions that must be implemented to enable various features in
different types of models.
*/
/*!
\page model-view-convenience.html
\contentspage model-view-programming.html Contents
\previouspage Delegate Classes
\nextpage Using Drag and Drop with Item Views
\title Item View Convenience Classes
\tableofcontents
\section1 Overview
Alongside the model/view classes, Qt 4 also includes standard widgets to
provide classic item-based container widgets. These behave in a similar
way to the item view classes in Qt 3, but have been rewritten to use the
underlying model/view framework for performance and maintainability. The
old item view classes are still available in the compatibility library
(see the \l{porting4.html}{Porting Guide} for more information).
The item-based widgets have been given names which reflect their uses:
\c QListWidget provides a list of items, \c QTreeWidget displays a
multi-level tree structure, and \c QTableWidget provides a table of cell
items. Each class inherits the behavior of the \c QAbstractItemView
class which implements common behavior for item selection and header
management.
\section1 List Widgets
Single level lists of items are typically displayed using a \c QListWidget
and a number of \c{QListWidgetItem}s. A list widget is constructed in the
same way as any other widget:
\snippet doc/src/snippets/qlistwidget-using/mainwindow.cpp 0
List items can be added directly to the list widget when they are
constructed:
\snippet doc/src/snippets/qlistwidget-using/mainwindow.cpp 3
They can also be constructed without a parent list widget and added to
a list at some later time:
\snippet doc/src/snippets/qlistwidget-using/mainwindow.cpp 6
\snippet doc/src/snippets/qlistwidget-using/mainwindow.cpp 7
Each item in a list can display a text label and an icon. The colors
and font used to render the text can be changed to provide a customized
appearance for items. Tooltips, status tips, and "What's
This?" help are all easily configured to ensure that the list is properly
integrated into the application.
\snippet doc/src/snippets/qlistwidget-using/mainwindow.cpp 8
By default, items in a list are presented in the order of their creation.
Lists of items can be sorted according to the criteria given in
\l{Qt::SortOrder} to produce a list of items that is sorted in forward or
reverse alphabetical order:
\snippet doc/src/snippets/qlistwidget-using/mainwindow.cpp 4
\snippet doc/src/snippets/qlistwidget-using/mainwindow.cpp 5
\section1 Tree Widgets
Trees or hierarchical lists of items are provided by the \c QTreeWidget
and \c QTreeWidgetItem classes. Each item in the tree widget can have
child items of its own, and can display a number of columns of
information. Tree widgets are created just like any other widget:
\snippet doc/src/snippets/qtreewidget-using/mainwindow.cpp 0
Before items can be added to the tree widget, the number of columns must
be set. For example, we could define two columns, and create a header
to provide labels at the top of each column:
\snippet doc/src/snippets/qtreewidget-using/mainwindow.cpp 1
\snippet doc/src/snippets/qtreewidget-using/mainwindow.cpp 2
The easiest way to set up the labels for each section is to supply a string
list. For more sophisticated headers, you can construct a tree item,
decorate it as you wish, and use that as the tree widget's header.
Top-level items in the tree widget are constructed with the tree widget as
their parent widget. They can be inserted in an arbitrary order, or you
can ensure that they are listed in a particular order by specifying the
previous item when constructing each item:
\snippet doc/src/snippets/qtreewidget-using/mainwindow.cpp 3
\codeline
\snippet doc/src/snippets/qtreewidget-using/mainwindow.cpp 4
Tree widgets deal with top-level items slightly differently to other
items from deeper within the tree. Items can be removed from the top
level of the tree by calling the tree widget's
\l{QTreeWidget::takeTopLevelItem()}{takeTopLevelItem()} function, but
items from lower levels are removed by calling their parent item's
\l{QTreeWidgetItem::takeChild()}{takeChild()} function.
Items are inserted in the top level of the tree with the
\l{QTreeWidget::insertTopLevelItem()}{insertTopLevelItem()} function.
At lower levels in the tree, the parent item's
\l{QTreeWidgetItem::insertChild()}{insertChild()} function is used.
It is easy to move items around between the top level and lower levels
in the tree. We just need to check whether the items are top-level items
or not, and this information is supplied by each item's \c parent()
function. For example, we can remove the current item in the tree widget
regardless of its location:
\snippet doc/src/snippets/qtreewidget-using/mainwindow.cpp 10
\snippet doc/src/snippets/qtreewidget-using/mainwindow.cpp 11
Inserting the item somewhere else in the tree widget follows the same
pattern:
\snippet doc/src/snippets/qtreewidget-using/mainwindow.cpp 8
\snippet doc/src/snippets/qtreewidget-using/mainwindow.cpp 9
\section1 Table Widgets
Tables of items similar to those found in spreadsheet applications
are constructed with the \c QTableWidget and \c QTableWidgetItem. These
provide a scrolling table widget with headers and items to use within it.
Tables can be created with a set number of rows and columns, or these
can be added to an unsized table as they are needed.
\snippet doc/src/snippets/qtablewidget-using/mainwindow.h 0
\snippet doc/src/snippets/qtablewidget-using/mainwindow.cpp 0
Items are constructed outside the table before being added to the table
at the required location:
\snippet doc/src/snippets/qtablewidget-using/mainwindow.cpp 3
Horizontal and vertical headers can be added to the table by constructing
items outside the table and using them as headers:
\snippet doc/src/snippets/qtablewidget-using/mainwindow.cpp 1
Note that the rows and columns in the table begin at zero.
\section1 Common Features
There are a number of item-based features common to each of the
convenience classes that are available through the same interfaces
in each class. We present these in the following sections with some
examples for different widgets.
Look at the list of \l{Model/View Classes} for each of the widgets
for more details about the use of each function used.
\section2 Hidden Items
It is sometimes useful to be able to hide items in an item view widget
rather than remove them. Items for all of the above widgets can be
hidden and later shown again. You can determine whether an item is hidden
by calling the isItemHidden() function, and items can be hidden with
\c setItemHidden().
Since this operation is item-based, the same function is available for
all three convenience classes.
\section2 Selections
The way items are selected is controlled by the widget's selection mode
(\l{QAbstractItemView::SelectionMode}).
This property controls whether the user can select one or many items and,
in many-item selections, whether the selection must be a continuous range
of items. The selection mode works in the same way for all of the
above widgets.
\table
\row
\i \img selection-single.png
\i \bold{Single item selections:}
Where the user needs to choose a single item from a widget, the
default \c SingleSelection mode is most suitable. In this mode, the
current item and the selected item are the same.
\row
\i \img selection-multi.png
\i \bold{Multi-item selections:}
In this mode, the user can toggle the selection state of any item in the
widget without changing the existing selection, much like the way
non-exclusive checkboxes can be toggled independently.
\row
\i \img selection-extended.png
\i \bold{Extended selections:}
Widgets that often require many adjacent items to be selected, such
as those found in spreadsheets, require the \c ExtendedSelection mode.
In this mode, continuous ranges of items in the widget can be selected
with both the mouse and the keyboard.
Complex selections, involving many items that are not adjacent to other
selected items in the widget, can also be created if modifier keys are
used.
If the user selects an item without using a modifier key, the existing
selection is cleared.
\endtable
The selected items in a widget are read using the \c selectedItems()
function, providing a list of relevant items that can be iterated over.
For example, we can find the sum of all the numeric values within a
list of selected items with the following code:
\snippet doc/src/snippets/qtablewidget-using/mainwindow.cpp 4
Note that for the single selection mode, the current item will be in
the selection. In the multi-selection and extended selection modes, the
current item may not lie within the selection, depending on the way the
user formed the selection.
\section2 Searching
It is often useful to be able to find items within an item view widget,
either as a developer or as a service to present to users. All three
item view convenience classes provide a common \c findItems() function
to make this as consistent and simple as possible.
Items are searched for by the text that they contain according to
criteria specified by a selection of values from Qt::MatchFlags.
We can obtain a list of matching items with the \c findItems()
function:
\snippet doc/src/snippets/qtreewidget-using/mainwindow.cpp 6
\snippet doc/src/snippets/qtreewidget-using/mainwindow.cpp 7
The above code causes items in a tree widget to be selected if they
contain the text given in the search string. This pattern can also be
used in the list and table widgets.
*/
/*!
\page model-view-dnd.html
\contentspage model-view-programming.html Contents
\previouspage Item View Convenience Classes
\nextpage Proxy Models
\title Using Drag and Drop with Item Views
\tableofcontents
\section1 Overview
Qt's drag and drop infrastructure is fully supported by the model/view framework.
Items in lists, tables, and trees can be dragged within the views, and data can be
imported and exported as MIME-encoded data.
The standard views automatically support internal drag and drop, where items are
moved around to change the order in which they are displayed. By default, drag and
drop is not enabled for these views because they are configured for the simplest,
most common uses. To allow items to be dragged around, certain properties of the
view need to be enabled, and the items themselves must also allow dragging to occur.
The requirements for a model that only allows items to be exported from a
view, and which does not allow data to be dropped into it, are fewer than
those for a fully-enabled drag and drop model.
See also the \l{Model Subclassing Reference} for more information about
enabling drag and drop support in new models.
\section1 Using Convenience Views
Each of the types of item used with QListWidget, QTableWidget, and QTreeWidget
is configured to use a different set of flags by default. For example, each
QListWidgetItem or QTreeWidgetItem is initially enabled, checkable, selectable,
and can be used as the source of a drag and drop operation; each QTableWidgetItem
can also be edited and used as the target of a drag and drop operation.
Although all of the standard items have one or both flags set for drag and drop,
you generally need to set various properties in the view itself to take advantage
of the built-in support for drag and drop:
\list
\o To enable item dragging, set the view's
\l{QAbstractItemView::dragEnabled}{dragEnabled} property to \c true.
\o To allow the user to drop either internal or external items within the view,
set the view's \l{QAbstractScrollArea::}{viewport()}'s
\l{QWidget::acceptDrops}{acceptDrops} property to \c true.
\o To show the user where the item currently being dragged will be placed if
dropped, set the view's \l{QAbstractItemView::showDropIndicator}{showDropIndicator}
property. This provides the user with continuously updating information about
item placement within the view.
\endlist
For example, we can enable drag and drop in a list widget with the following lines
of code:
\snippet doc/src/snippets/qlistwidget-dnd/mainwindow.cpp 0
The result is a list widget which allows the items to be copied
around within the view, and even lets the user drag items between
views containing the same type of data. In both situations, the
items are copied rather than moved.
To enable the user to move the items around within the view, we
must set the list widget's \l {QAbstractItemView::}{dragDropMode}:
\snippet doc/src/snippets/qlistwidget-dnd/mainwindow.cpp 1
\section1 Using Model/View Classes
Setting up a view for drag and drop follows the same pattern used with the
convenience views. For example, a QListView can be set up in the same way as a
QListWidget:
\snippet doc/src/snippets/qlistview-dnd/mainwindow.cpp 0
Since access to the data displayed by the view is controlled by a model, the
model used also has to provide support for drag and drop operations. The
actions supported by a model can be specified by reimplementing the
QAbstractItemModel::supportedDropActions() function. For example, copy and
move operations are enabled with the following code:
\snippet doc/src/snippets/qlistview-dnd/model.cpp 10
Although any combination of values from Qt::DropActions can be given, the
model needs to be written to support them. For example, to allow Qt::MoveAction
to be used properly with a list model, the model must provide an implementation
of QAbstractItemModel::removeRows(), either directly or by inheriting the
implementation from its base class.
\section2 Enabling Drag and Drop for Items
Models indicate to views which items can be dragged, and which will accept drops,
by reimplementing the QAbstractItemModel::flags() function to provide suitable
flags.
For example, a model which provides a simple list based on QAbstractListModel
can enable drag and drop for each of the items by ensuring that the flags
returned contain the \l Qt::ItemIsDragEnabled and \l Qt::ItemIsDropEnabled
values:
\snippet doc/src/snippets/qlistview-dnd/model.cpp 7
Note that items can be dropped into the top level of the model, but dragging is
only enabled for valid items.
In the above code, since the model is derived from QStringListModel, we
obtain a default set of flags by calling its implementation of the flags()
function.
\section2 Encoding Exported Data
When items of data are exported from a model in a drag and drop operation, they
are encoded into an appropriate format corresponding to one or more MIME types.
Models declare the MIME types that they can use to supply items by reimplementing
the QAbstractItemModel::mimeTypes() function, returning a list of standard MIME
types.
For example, a model that only provides plain text would provide the following
implementation:
\snippet doc/src/snippets/qlistview-dnd/model.cpp 9
The model must also provide code to encode data in the advertised format. This
is achieved by reimplementing the QAbstractItemModel::mimeData() function to
provide a QMimeData object, just as in any other drag and drop operation.
The following code shows how each item of data, corresponding to a given list of
indexes, is encoded as plain text and stored in a QMimeData object.
\snippet doc/src/snippets/qlistview-dnd/model.cpp 8
Since a list of model indexes is supplied to the function, this approach is general
enough to be used in both hierarchical and non-heirarchical models.
Note that custom datatypes must be declared as \l{QMetaObject}{meta objects}
and that stream operators must be implemented for them. See the QMetaObject
class description for details.
\section2 Inserting Dropped Data into a Model
The way that any given model handles dropped data depends on both its type
(list, table, or tree) and the way its contents is likely to be presented to
the user. Generally, the approach taken to accommodate dropped data should
be the one that most suits the model's underlying data store.
Different types of model tend to handle dropped data in different ways. List
and table models only provide a flat structure in which items of data are
stored. As a result, they may insert new rows (and columns) when data is
dropped on an existing item in a view, or they may overwrite the item's
contents in the model using some of the data supplied. Tree models are
often able to add child items containing new data to their underlying data
stores, and will therefore behave more predictably as far as the user
is concerned.
Dropped data is handled by a model's reimplementation of
QAbstractItemModel::dropMimeData(). For example, a model that handles a
simple list of strings can provide an implementation that handles data
dropped onto existing items separately to data dropped into the top level
of the model (i.e., onto an invalid item).
The model first has to make sure that the operation should be acted on,
the data supplied is in a format that can be used, and that its destination
within the model is valid:
\snippet doc/src/snippets/qlistview-dnd/model.cpp 0
\snippet doc/src/snippets/qlistview-dnd/model.cpp 1
A simple one column string list model can indicate failure if the data
supplied is not plain text, or if the column number given for the drop
is invalid.
The data to be inserted into the model is treated differently depending on
whether it is dropped onto an existing item or not. In this simple example,
we want to allow drops between existing items, before the first item in the
list, and after the last item.
When a drop occurs, the model index corresponding to the parent item will
either be valid, indicating that the drop occurred on an item, or it will
be invalid, indicating that the drop occurred somewhere in the view that
corresponds to top level of the model.
\snippet doc/src/snippets/qlistview-dnd/model.cpp 2
We initially examine the row number supplied to see if we can use it
to insert items into the model, regardless of whether the parent index is
valid or not.
\snippet doc/src/snippets/qlistview-dnd/model.cpp 3
If the parent model index is valid, the drop occurred on an item. In this
simple list model, we find out the row number of the item and use that
value to insert dropped items into the top level of the model.
\snippet doc/src/snippets/qlistview-dnd/model.cpp 4
When a drop occurs elsewhere in the view, and the row number is unusable,
we append items to the top level of the model.
In hierarchical models, when a drop occurs on an item, it would be better to
insert new items into the model as children of that item. In the simple
example shown here, the model only has one level, so this approach is not
appropriate.
\section2 Decoding Imported Data
Each implementation of \l{QAbstractItemModel::dropMimeData()}{dropMimeData()} must
also decode the data and insert it into the model's underlying data structure.
For a simple string list model, the encoded items can be decoded and streamed
into a QStringList:
\snippet doc/src/snippets/qlistview-dnd/model.cpp 5
The strings can then be inserted into the underlying data store. For consistency,
this can be done through the model's own interface:
\snippet doc/src/snippets/qlistview-dnd/model.cpp 6
Note that the model will typically need to provide implementations of the
QAbstractItemModel::insertRows() and QAbstractItemModel::setData() functions.
\sa {Item Views Puzzle Example}
*/
/*!
\page model-view-proxy-models.html
\contentspage model-view-programming.html Contents
\previouspage Using Drag and Drop with Item Views
\nextpage Model Subclassing Reference
\title Proxy Models
\tableofcontents
\section1 Overview
In the model/view framework, items of data supplied by a single model can be shared
by any number of views, and each of these can possibly represent the same information
in completely different ways.
Custom views and delegates are effective ways to provide radically different
representations of the same data. However, applications often need to provide
conventional views onto processed versions of the same data, such as differently-sorted
views onto a list of items.
Although it seems appropriate to perform sorting and filtering operations as internal
functions of views, this approach does not allow multiple views to share the results
of such potentially costly operations. The alternative approach, involving sorting
within the model itself, leads to the similar problem where each view has to display
items of data that are organized according to the most recent processing operation.
To solve this problem, the model/view framework uses proxy models to manage the
information supplied between individual models and views. Proxy models are components
that behave like ordinary models from the perspective of a view, and access data from
source models on behalf of that view. The signals and slots used by the model/view
framework ensure that each view is updated appropriately no matter how many proxy models
are placed between itself and the source model.
\section1 Using Proxy Models
Proxy models can be inserted between an existing model and any number of views.
Qt is supplied with a standard proxy model, QSortFilterProxyModel, that is usually
instantiated and used directly, but can also be subclassed to provide custom filtering
and sorting behavior. The QSortFilterProxyModel class can be used in the following way:
\snippet doc/src/snippets/qsortfilterproxymodel/main.cpp 0
\codeline
\snippet doc/src/snippets/qsortfilterproxymodel/main.cpp 1
Since proxy models are inherit from QAbstractItemModel, they can be connected to
any kind of view, and can be shared between views. They can also be used to
process the information obtained from other proxy models in a pipeline arrangement.
The QSortFilterProxyModel class is designed to be instantiated and used directly
in applications. More specialized proxy models can be created by subclassing this
classes and implementing the required comparison operations.
\section1 Customizing Proxy Models
Generally, the type of processing used in a proxy model involves mapping each item of
data from its original location in the source model to either a different location in
the proxy model. In some models, some items may have no corresponding location in the
proxy model; these models are \e filtering proxy models. Views access items using
model indexes provided by the proxy model, and these contain no information about the
source model or the locations of the original items in that model.
QSortFilterProxyModel enables data from a source model to be filtered before
being supplied to views, and also allows the contents of a source model to
be supplied to views as pre-sorted data.
\section2 Custom Filtering Models
The QSortFilterProxyModel class provides a filtering model that is fairly versatile,
and which can be used in a variety of common situations. For advanced users,
QSortFilterProxyModel can be subclassed, providing a mechanism that enables custom
filters to be implemented.
Subclasses of QSortFilterProxyModel can reimplement two virtual functions that are
called whenever a model index from the proxy model is requested or used:
\list
\o \l{QSortFilterProxyModel::filterAcceptsColumn()}{filterAcceptsColumn()} is used to
filter specific columns from part of the source model.
\o \l{QSortFilterProxyModel::filterAcceptsRow()}{filterAcceptsRow()} is used to filter
specific rows from part of the source model.
\endlist
The default implementations of the above functions in QSortFilterProxyModel
return true to ensure that all items are passed through to views; reimplementations
of these functions should return false to filter out individual rows and columns.
\section2 Custom Sorting Models
QSortFilterProxyModel instances use Qt's built-in qStableSort() function to set up
mappings between items in the source model and those in the proxy model, allowing a
sorted hierarchy of items to be exposed to views without modifying the structure of the
source model. To provide custom sorting behavior, reimplement the
\l{QSortFilterProxyModel::lessThan()}{lessThan()} function to perform custom
comparisons.
*/
/*!
\page model-view-model-subclassing.html
\contentspage model-view-programming.html Contents
\previouspage Proxy Models
\title Model Subclassing Reference
\tableofcontents
\section1 Introduction
Model subclasses need to provide implementations of many of the virtual functions
defined in the QAbstractItemModel base class. The number of these functions that need
to be implemented depends on the type of model - whether it supplies views with
a simple list, a table, or a complex hierarchy of items. Models that inherit from
QAbstractListModel and QAbstractTableModel can take advantage of the default
implementations of functions provided by those classes. Models that expose items
of data in tree-like structures must provide implementations for many of the
virtual functions in QAbstractItemModel.
The functions that need to be implemented in a model subclass can be divided into three
groups:
\list
\o \bold{Item data handling:} All models need to implement functions to enable views and
delegates to query the dimensions of the model, examine items, and retrieve data.
\o \bold{Navigation and index creation:} Hierarchical models need to provide functions
that views can call to navigate the tree-like structures they expose, and obtain
model indexes for items.
\o \bold{Drag and drop support and MIME type handling:} Models inherit functions that
control the way that internal and external drag and drop operations are performed.
These functions allow items of data to be described in terms of MIME types that
other components and applications can understand.
\endlist
For more information, see the \l
{"Item View Classes" Chapter of C++ GUI Programming with Qt 4}.
\section1 Item Data Handling
Models can provide varying levels of access to the data they provide: They can be
simple read-only components, some models may support resizing operations, and
others may allow items to be edited.
\section2 Read-Only Access
To provide read-only access to data provided by a model, the following functions
\e{must} be implemented in the model's subclass:
\table 90%
\row \o \l{QAbstractItemModel::flags()}{flags()}
\o Used by other components to obtain information about each item provided by
the model. In many models, the combination of flags should include
Qt::ItemIsEnabled and Qt::ItemIsSelectable.
\row \o \l{QAbstractItemModel::data()}{data()}
\o Used to supply item data to views and delegates. Generally, models only
need to supply data for Qt::DisplayRole and any application-specific user
roles, but it is also good practice to provide data for Qt::ToolTipRole,
Qt::AccessibleTextRole, and Qt::AccessibleDescriptionRole.
See the Qt::ItemDataRole enum documentation for information about the types
associated with each role.
\row \o \l{QAbstractItemModel::headerData()}{headerData()}
\o Provides views with information to show in their headers. The information is
only retrieved by views that can display header information.
\row \o \l{QAbstractItemModel::rowCount()}{rowCount()}
\o Provides the number of rows of data exposed by the model.
\endtable
These four functions must be implemented in all types of model, including list models
(QAbstractListModel subclasses) and table models (QAbstractTableModel subclasses).
Additionally, the following functions \e{must} be implemented in direct subclasses
of QAbstractTableModel and QAbstractItemModel:
\table 90%
\row \o \l{QAbstractItemModel::columnCount()}{columnCount()}
\o Provides the number of columns of data exposed by the model. List models do not
provide this function because it is already implemented in QAbstractListModel.
\endtable
\section2 Editable Items
Editable models allow items of data to be modified, and may also provide
functions to allow rows and columns to be inserted and removed. To enable
editing, the following functions must be implemented correctly:
\table 90%
\row \o \l{QAbstractItemModel::flags()}{flags()}
\o Must return an appropriate combination of flags for each item. In particular,
the value returned by this function must include \l{Qt::ItemIsEditable} in
addition to the values applied to items in a read-only model.
\row \o \l{QAbstractItemModel::setData()}{setData()}
\o Used to modify the item of data associated with a specified model index.
To be able to accept user input, provided by user interface elements, this
function must handle data associated with Qt::EditRole.
The implementation may also accept data associated with many different kinds
of roles specified by Qt::ItemDataRole. After changing the item of data,
models must emit the \l{QAbstractItemModel::dataChanged()}{dataChanged()}
signal to inform other components of the change.
\row \o \l{QAbstractItemModel::setHeaderData()}{setHeaderData()}
\o Used to modify horizontal and vertical header information. After changing
the item of data, models must emit the
\l{QAbstractItemModel::headerDataChanged()}{headerDataChanged()}
signal to inform other components of the change.
\endtable
\section2 Resizable Models
All types of model can support the insertion and removal of rows. Table models
and hierarchical models can also support the insertion and removal of columns.
It is important to notify other components about changes to the model's dimensions
both \e before and \e after they occur. As a result, the following functions
can be implemented to allow the model to be resized, but implementations must
ensure that the appropriate functions are called to notify attached views and
delegates:
\table 90%
\row \o \l{QAbstractItemModel::insertRows()}{insertRows()}
\o Used to add new rows and items of data to all types of model.
Implementations must call
\l{QAbstractItemModel::beginInsertRows()}{beginInsertRows()} \e before
inserting new rows into any underlying data structures, and call
\l{QAbstractItemModel::endInsertRows()}{endInsertRows()}
\e{immediately afterwards}.
\row \o \l{QAbstractItemModel::removeRows()}{removeRows()}
\o Used to remove rows and the items of data they contain from all types of model.
Implementations must call
\l{QAbstractItemModel::beginRemoveRows()}{beginRemoveRows()}
\e before inserting new columns into any underlying data structures, and call
\l{QAbstractItemModel::endRemoveRows()}{endRemoveRows()}
\e{immediately afterwards}.
\row \o \l{QAbstractItemModel::insertColumns()}{insertColumns()}
\o Used to add new columns and items of data to table models and hierarchical models.
Implementations must call
\l{QAbstractItemModel::beginInsertColumns()}{beginInsertColumns()} \e before
rows are removed from any underlying data structures, and call
\l{QAbstractItemModel::endInsertColumns()}{endInsertColumns()}
\e{immediately afterwards}.
\row \o \l{QAbstractItemModel::removeColumns()}{removeColumns()}
\o Used to remove columns and the items of data they contain from table models and
hierarchical models.
Implementations must call
\l{QAbstractItemModel::beginRemoveColumns()}{beginRemoveColumns()}
\e before columns are removed from any underlying data structures, and call
\l{QAbstractItemModel::endRemoveColumns()}{endRemoveColumns()}
\e{immediately afterwards}.
\endtable
Generally, these functions should return true if the operation was successful.
However, there may be cases where the operation only partly succeeded; for example,
if less than the specified number of rows could be inserted. In such cases, the
model should return false to indicate failure to enable any attached components to
handle the situation.
The signals emitted by the functions called in implementations of the resizing
API give attached components the chance to take action before any data becomes
unavailable. The encapsulation of insert and remove operations with begin and end
functions also enable the model to manage
\l{QPersistentModelIndex}{persistent model indexes} correctly.
Normally, the begin and end functions are capable of informing other components
about changes to the model's underlying structure. For more complex changes to the
model's structure, perhaps involving internal reorganization or sorting of data,
it is necessary to emit the \l{QAbstractItemModel::layoutChanged()}{layoutChanged()}
signal to cause any attached views to be updated.
\section2 Lazy Population of Model Data
Lazy population of model data effectively allows requests for information
about the model to be deferred until it is actually needed by views.
Some models need to obtain data from remote sources, or must perform
time-consuming operations to obtain information about the way the
data is organized. Since views generally request as much information
as possible in order to accurately display model data, it can be useful
to restrict the amount of information returned to them to reduce
unnecessary follow-up requests for data.
In hierarchical models where finding the number of children of a given
item is an expensive operation, it is useful to ensure that the model's
\l{QAbstractItemModel::}{rowCount()} implementation is only called when
necessary. In such cases, the \l{QAbstractItemModel::}{hasChildren()}
function can be reimplemented to provide an inexpensive way for views to
check for the presence of children and, in the case of QTreeView, draw
the appropriate decoration for their parent item.
Whether the reimplementation of \l{QAbstractItemModel::}{hasChildren()}
returns \c true or \c false, it may not be necessary for the view to call
\l{QAbstractItemModel::}{rowCount()} to find out how many children are
present. For example, QTreeView does not need to know how many children
there are if the parent item has not been expanded to show them.
If it is known that many items will have children, reimplementing
\l{QAbstractItemModel::}{hasChildren()} to unconditionally return \c true
is sometimes a useful approach to take. This ensures that each item can
be later examined for children while making initial population of model
data as fast as possible. The only disadvantage is that items without
children may be displayed incorrectly in some views until the user
attempts to view the non-existent child items.
\section1 Navigation and Model Index Creation
Hierarchical models need to provide functions that views can call to navigate the
tree-like structures they expose, and obtain model indexes for items.
\section2 Parents and Children
Since the structure exposed to views is determined by the underlying data
structure, it is up to each model subclass to create its own model indexes
by providing implementations of the following functions:
\table 90%
\row \o \l{QAbstractItemModel::index()}{index()}
\o Given a model index for a parent item, this function allows views and delegates
to access children of that item. If no valid child item - corresponding to the
specified row, column, and parent model index, can be found, the function
must return QModelIndex(), which is an invalid model index.
\row \o \l{QAbstractItemModel::parent()}{parent()}
\o Provides a model index corresponding to the parent of any given child item.
If the model index specified corresponds to a top-level item in the model, or if
there is no valid parent item in the model, the function must return
an invalid model index, created with the empty QModelIndex() constructor.
\endtable
Both functions above use the \l{QAbstractItemModel::createIndex()}{createIndex()}
factory function to generate indexes for other components to use. It is normal for
models to supply some unique identifier to this function to ensure that
the model index can be re-associated with its corresponding item later on.
\section1 Drag and Drop Support and MIME Type Handling
The model/view classes support drag and drop operations, providing default behavior
that is sufficient for many applications. However, it is also possible to customize
the way items are encoded during drag and drop operations, whether they are copied
or moved by default, and how they are inserted into existing models.
Additionally, the convenience view classes implement specialized behavior that
should closely follow that expected by existing developers.
The \l{#Convenience Views}{Convenience Views} section provides an overview of this
behavior.
\section2 MIME Data
By default, the built-in models and views use an internal MIME type
(\c{application/x-qabstractitemmodeldatalist}) to pass around information about
model indexes. This specifies data for a list of items, containing the row and
column numbers of each item, and information about the roles that each item
supports.
Data encoded using this MIME type can be obtained by calling
QAbstractItemModel::mimeData() with a QModelIndexList containing the items to
be serialized.
\omit
The following types are used to store information about
each item as it is streamed into a QByteArray and stored in a QMimeData object:
\table 90%
\header \o Description \o Type
\row \o Row \o int
\row \o Column \o int
\row \o Data for each role \o QMap<int, QVariant>
\endtable
This information can be retrieved for use in non-model classes by calling
QMimeData::data() with the \c{application/x-qabstractitemmodeldatalist} MIME
type and streaming out the items one by one.
\endomit
When implementing drag and drop support in a custom model, it is possible to
export items of data in specialized formats by reimplementing the following
function:
\table 90%
\row \o \l{QAbstractItemModel::mimeData()}{mimeData()}
\o This function can be reimplemented to return data in formats other
than the default \c{application/x-qabstractitemmodeldatalist} internal
MIME type.
Subclasses can obtain the default QMimeData object from the base class
and add data to it in additional formats.
\endtable
For many models, it is useful to provide the contents of items in common format
represented by MIME types such as \c{text/plain} and \c{image/png}. Note that
images, colors and HTML documents can easily be added to a QMimeData object with
the QMimeData::setImageData(), QMimeData::setColorData(), and
QMimeData::setHtml() functions.
\section2 Accepting Dropped Data
When a drag and drop operation is performed over a view, the underlying model is
queried to determine which types of operation it supports and the MIME types
it can accept. This information is provided by the
QAbstractItemModel::supportedDropActions() and QAbstractItemModel::mimeTypes()
functions. Models that do not override the implementations provided by
QAbstractItemModel support copy operations and the default internal MIME type
for items.
When serialized item data is dropped onto a view, the data is inserted into
the current model using its implementation of QAbstractItemModel::dropMimeData().
The default implementation of this function will never overwrite any data in the
model; instead, it tries to insert the items of data either as siblings of an
item, or as children of that item.
To take advantage of QAbstractItemModel's default implementation for the built-in
MIME type, new models must provide reimplementations of the following functions:
\table 90%
\row \o \l{QAbstractItemModel::insertRows()}{insertRows()}
\o {1, 2} These functions enable the model to automatically insert new data using
the existing implementation provided by QAbstractItemModel::dropMimeData().
\row \o \l{QAbstractItemModel::insertColumns()}{insertColumns()}
\row \o \l{QAbstractItemModel::setData()}{setData()}
\o Allows the new rows and columns to be populated with items.
\row \o \l{QAbstractItemModel::setItemData()}{setItemData()}
\o This function provides more efficient support for populating new items.
\endtable
To accept other forms of data, these functions must be reimplemented:
\table 90%
\row \o \l{QAbstractItemModel::supportedDropActions()}{supportedDropActions()}
\o Used to return a combination of \l{Qt::DropActions}{drop actions},
indicating the types of drag and drop operations that the model accepts.
\row \o \l{QAbstractItemModel::mimeTypes()}{mimeTypes()}
\o Used to return a list of MIME types that can be decoded and handled by
the model. Generally, the MIME types that are supported for input into
the model are the same as those that it can use when encoding data for
use by external components.
\row \o \l{QAbstractItemModel::dropMimeData()}{dropMimeData()}
\o Performs the actual decoding of the data transferred by drag and drop
operations, determines where in the model it will be set, and inserts
new rows and columns where necessary. How this function is implemented
in subclasses depends on the requirements of the data exposed by each
model.
\endtable
If the implementation of the \l{QAbstractItemModel::dropMimeData()}{dropMimeData()}
function changes the dimensions of a model by inserting or removing rows or
columns, or if items of data are modified, care must be taken to ensure that
all relevant signals are emitted. It can be useful to simply call
reimplementations of other functions in the subclass, such as
\l{QAbstractItemModel::setData()}{setData()},
\l{QAbstractItemModel::insertRows()}{insertRows()}, and
\l{QAbstractItemModel::insertColumns()}{insertColumns()}, to ensure that the
model behaves consistently.
In order to ensure drag operations work properly, it is important to
reimplement the following functions that remove data from the model:
\list
\o \l{QAbstractItemModel::}{removeRows()}
\o \l{QAbstractItemModel::}{removeRow()}
\o \l{QAbstractItemModel::}{removeColumns()}
\o \l{QAbstractItemModel::}{removeColumn()}
\endlist
For more information about drag and drop with item views, refer to
\l{Using Drag and Drop with Item Views}.
\section2 Convenience Views
The convenience views (QListWidget, QTableWidget, and QTreeWidget) override
the default drag and drop functionality to provide less flexible, but more
natural behavior that is appropriate for many applications. For example,
since it is more common to drop data into cells in a QTableWidget, replacing
the existing contents with the data being transferred, the underlying model
will set the data of the target items rather than insert new rows and columns
into the model. For more information on drag and drop in convenience views,
you can see \l{Using Drag and Drop with Item Views}.
\section1 Performance Optimization for Large Amounts of Data
The \l{QAbstractItemModel::}{canFetchMore()} function checks if the parent
has more data available and returns true or false accordingly. The
\l{QAbstractItemModel::}{fetchMore()} function fetches data based on the
parent specified. Both these functions can be combined, for example, in a
database query involving incremental data to populate a QAbstractItemModel.
We reimplement \l{QAbstractItemModel::}{canFetchMore()} to indicate if there
is more data to be fetched and \l{QAbstractItemModel::}{fetchMore()} to
populate the model as required.
Another example would be dynamically populated tree models, where we
reimplement \l{QAbstractItemModel::}{fetchMore()} when a branch in the tree
model is expanded.
If your reimplementation of \l{QAbstractItemModel::}{fetchMore()} adds rows
to the model, you need to call \l{QAbstractItemModel::}{beginInsertRows()}
and \l{QAbstractItemModel::}{endInsertRows()}. Also, both
\l{QAbstractItemModel::}{canFetchMore()} and \l{QAbstractItemModel::}
{fetchMore()} must be reimplemented as their default implementation returns
false and does nothing.
*/
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