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// Copyright (C) 2016 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GFDL-1.3-no-invariants-only
/*!
\example customwidgetplugin
\ingroup examples-designer
\title Custom Widget Plugin Example
\brief Creating a custom widget plugin for Qt Designer.
\image customwidgetplugin-example.png
In this example, the custom widget used is based on the
\l{widgets/analogclock}{Analog Clock example}, and does not provide any custom
signals or slots.
\section1 Preparation
To provide a custom widget that can be used with \QD, we need to supply a
self-contained implementation and provide a plugin interface. In this
example, we reuse the \l{widgets/analogclock}{Analog Clock example} for
convenience.
\section1 Project files
\section2 CMake
The project files need to state that a plugin linking
to the \QD libraries is to be built:
\snippet customwidgetplugin/CMakeLists.txt 0
\codeline
\snippet customwidgetplugin/CMakeLists.txt 2
The link libraries list specifies \c Qt::UiPlugin. This indicates that
the plugin uses the abstract interfaces QDesignerCustomWidgetInterface
and QDesignerCustomWidgetCollectionInterface only and has no linkage
to the \QD libraries. When accessing other interfaces of \QD that have
linkage, \c Designer should be used instead; this ensures that the plugin
dynamically links to the \QD libraries and has a run-time dependency on
them.
The following example shows how to add the header and source files of the
widget:
\snippet customwidgetplugin/CMakeLists.txt 1
We provide an implementation of the plugin interface so that \QD
can use the custom widget.
It is also important to ensure that the plugin is installed in a
location that is searched by \QD. We do this by specifying a
target path for the project and adding it to the list of items to
install:
\snippet customwidgetplugin/CMakeLists.txt 3
\snippet customwidgetplugin/CMakeLists.txt 4
The custom widget is created as a library. It will be
installed alongside the other \QD plugins when the project is
installed (using \c{ninja install} or an equivalent installation
procedure).
For more information about plugins, see the
\l {How to Create Qt Plugins} documentation.
\section2 qmake
The following example shows how to link a plugin to the \QD libraries:
\snippet customwidgetplugin/customwidgetplugin.pro 0
\codeline
\snippet customwidgetplugin/customwidgetplugin.pro 1
The \c QT variable contains the keyword \c uiplugin, which is
the equivalent of the \c Qt::UiPlugin library.
The following example shows how to add the header and source files of the
widget:
\snippet customwidgetplugin/customwidgetplugin.pro 2
The following example shows how to install a plugin to the \QD's plugin path:
\snippet customwidgetplugin/customwidgetplugin.pro 3
\section1 AnalogClock Class Definition and Implementation
The \c AnalogClock class is defined and implemented in exactly the same
way as described in the \l{widgets/analogclock}{Analog Clock example}.
Since the class is self-contained, and does not require any external
configuration, it can be used without modification as a custom widget in
\QD.
\section1 AnalogClockPlugin Class Definition
The \c AnalogClock class is exposed to \QD through the \c
AnalogClockPlugin class. This class inherits from both QObject and
the QDesignerCustomWidgetInterface class, and implements an
interface defined by QDesignerCustomWidgetInterface.
To ensure that Qt recognizes the widget as a plugin, export relevant
information about the widget by adding the \c Q_PLUGIN_METADATA() macro:
\snippet customwidgetplugin/customwidgetplugin.h 0
The functions provide information about the widget that \QD can use in
the \l{Getting to Know Qt Designer#WidgetBox}{widget box}.
The \c initialized private member variable is used to record whether
the plugin has been initialized by \QD.
Note that the only part of the class definition that is specific to
this particular custom widget is the class name.
\section1 AnalogClockPlugin Implementation
The class constructor simply calls the QObject base class constructor
and sets the \c initialized variable to \c false.
\snippet customwidgetplugin/customwidgetplugin.cpp 0
\QD will initialize the plugin when it is required by calling the
\c initialize() function:
\snippet customwidgetplugin/customwidgetplugin.cpp 1
In this example, the \c initialized private variable is tested, and only
set to \c true if the plugin is not already initialized. Although, this
plugin does not require any special code to be executed when it is
initialized, we could include such code after the test for initialization.
The \c isInitialized() function lets \QD know whether the plugin is
ready for use:
\snippet customwidgetplugin/customwidgetplugin.cpp 2
Instances of the custom widget are supplied by the \c createWidget()
function. The implementation for the analog clock is straightforward:
\snippet customwidgetplugin/customwidgetplugin.cpp 3
In this case, the custom widget only requires a \c parent to be specified.
If other arguments need to be supplied to the widget, they can be
introduced here.
The following functions provide information for \QD to use to represent
the widget in the widget box.
The \c name() function returns the name of class that provides the
custom widget:
\snippet customwidgetplugin/customwidgetplugin.cpp 4
The \c group() function is used to describe the type of widget that the
custom widget belongs to:
\snippet customwidgetplugin/customwidgetplugin.cpp 5
The widget plugin will be placed in a section identified by its
group name in \QD's widget box. The icon used to represent the
widget in the widget box is returned by the \c icon() function:
\snippet customwidgetplugin/customwidgetplugin.cpp 6
In this case, we return a null icon to indicate that we have no icon
that can be used to represent the widget.
A tool tip and "What's This?" help can be supplied for the custom widget's
entry in the widget box. The \c toolTip() function should return a short
message describing the widget:
\snippet customwidgetplugin/customwidgetplugin.cpp 7
The \c whatsThis() function can return a longer description:
\snippet customwidgetplugin/customwidgetplugin.cpp 8
The \c isContainer() function tells \QD whether the widget is supposed to
be used as a container for other widgets. If not, \QD will not allow the
user to place widgets inside it.
\snippet customwidgetplugin/customwidgetplugin.cpp 9
Most widgets in Qt can contain child widgets, but it only makes sense
to use dedicated container widgets for this purpose in \QD. By returning
\c false, we indicate that the custom widget cannot hold other widgets;
if we returned true, \QD would allow other widgets to be placed inside
the analog clock and a layout to be defined.
The \c domXml() function provides a way to include default settings for
the widget in the standard XML format used by \QD. In this case, we only
specify the widget's geometry:
\snippet customwidgetplugin/customwidgetplugin.cpp 10
If the widget provides a reasonable size hint, it is not necessary to
define it here. In addition, returning an empty string instead of a
\c{<widget>} element will tell \QD not to install the widget in the
widget box.
To make the analog clock widget usable by applications, we implement
the \c includeFile() function to return the name of the header file
containing the custom widget class definition:
\snippet customwidgetplugin/customwidgetplugin.cpp 12
*/
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