Deploying QML Applications

QML documents are loaded and executed by the QML runtime. This includes the Declarative UI engine along with the built-in QML types and plugin modules, and it also provides access to third-party QML types and modules.

Applications that use QML need to invoke the QML runtime in order to execute QML documents. This can be done by creating a QQuickView or a QQmlEngine, as described below. In addition, the Declarative UI package includes the qmlscene tool, which loads .qml files. This tool is useful for developing and testing QML code without the need to write a C++ application to load the QML runtime.

Deploying Applications with Qt Creator

Qt Creator deploys and packages QML applications to various platforms. For mobile devices, Qt Creator can directly bundle applications to the respective platform package formats such as APK and BAR.

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When running applications on the target platform, the application needs to access the location of the QML libraries. When using qmake, the QT_INSTALL_QML environment points to the location of the libraries. The Qt Installers install the QML libraries in <version>/<compiler>/qml directory.

Prototyping with QML Scene

The Declarative UI package includes a QML runtime tool, qmlscene, which loads and displays QML documents. This is useful during the application development phase for prototyping QML-based applications without writing your own C++ applications to invoke the QML runtime.

Initializing the QML Runtime in Applications

To run an application that uses QML, the QML runtime must be invoked by the application. This is done by writing a Qt C++ application that loads the QQmlEngine by either:

Initializing with QQuickView

QQuickView is a QWindow-based class that is able to load QML files. For example, if there is a QML file, application.qml, it will look like this:

import QtQuick 2.3

Rectangle { width: 100; height: 100; color: "red" }

It can be loaded in a Qt application's main.cpp file like this:

#include <QGuiApplication>
#include <QQuickView>

int main(int argc, char *argv[])
    QGuiApplication app(argc, argv);

    QQuickView view;

    return app.exec();

This creates a QWindow-based view that displays the contents of application.qml.

The application's .pro project file must specify the declarative module for the QT variable. For example:

QT += quick
SOURCES += main.cpp

Creating a QQmlEngine directly

If application.qml does not have any graphical components, or if it is preferred to avoid QQuickView for other reasons, the QQmlEngine can be constructed directly instead. In this case, application.qml is loaded as a QQmlComponent instance rather than placed into a view:

#include <QGuiApplication>
#include <QQmlEngine>
#include <QQmlContext>
#include <QQmlComponent>

int main(int argc, char *argv[])
    QGuiApplication app(argc, argv);

    QQmlEngine engine;
    QQmlContext *objectContext = new QQmlContext(engine.rootContext());

    QQmlComponent component(&engine, "application.qml");
    QObject *object = component.create(objectContext);

    // ... delete object and objectContext when necessary

    return app.exec();

QGuiApplication can be replaced by a QCoreApplication in the code above in case you are not using any graphical items from Qt Quick. This allows using QML as a language without any dependencies to the Qt GUI module.

See qtqml-cppintegration-exposecppattributes.html{Exposing Attributes of C++ Types to QML} for more information about using QQmlEngine, QQmlContext and QQmlComponent, as well as details on including QML files through Qt's Resource system.

Managing Resource Files with the Qt Resource System

The Qt resource system allows resource files to be stored as binary files in an application executable. This can be useful when building a mixed QML/C++ application as it enables QML files (as well as other resources such as images and sound files) to be referred to through the resource system URI scheme rather than relative or absolute paths to filesystem resources. Note, however, that if you use the resource system, the application executable must be re-compiled whenever a QML source file is changed in order to update the resources in the package.

To use the resource system in a mixed QML/C++ application:

  • Create a .qrc resource collection file that lists resource files in XML format
  • From C++, load the main QML file as a resource using the :/ prefix or as a URL with the qrc scheme

Once this is done, all files specified by relative paths in QML will be loaded from the resource system instead. Use of the resource system is completely transparent to the QML layer; this means all QML code should refer to resource files using relative paths and should not use the qrc scheme. This scheme should only be used from C++ code for referring to resource files.

Here is a application packaged using the Qt resource system. The directory structure looks like this:

    |- example.qrc
    |- main.qml
    |- images
        |- background.png
    |- main.cpp

The main.qml and background.png files will be packaged as resource files. This is done in the example.qrc resource collection file:

<RCC version="1.0">

<qresource prefix="/">


Since background.png is a resource file, main.qml can refer to it using the relative path specified in example.qrc:

// main.qml
import QtQuick 2.3

Image { source: "images/background.png" }

To allow QML to locate resource files correctly, the main.cpp loads the main QML file, main.qml, as a resource file using the qrc scheme:

int main(int argc, char *argv[])
    QApplication app(argc, argv);

    QQuickView view;

    return app.exec();

Finally, uses the RESOURCES variable to indicate that example.qrc should be used to build the application resources:

QT += qml

SOURCES += main.cpp
RESOURCES += example.qrc

See The Qt Resource System for more information.

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