/* SPDX-FileCopyrightText: 2013 Marco Martin SPDX-FileCopyrightText: SPDX-License-Identifier: LGPL-2.0-or-later */ #ifndef PLASMA_SHAREDQMLENGINE_H #define PLASMA_SHAREDQMLENGINE_H #include "ki18n_version.h" #include #include #include #include class QQmlComponent; class QQmlEngine; #if KI18N_VERSION >= QT_VERSION_CHECK(6, 8, 0) class KLocalizedQmlContext; #else class KLocalizedContext; #endif class SharedQmlEnginePrivate; /** * @class Plasma::SharedQmlEngine Plasma/sharedqmlengine.h Plasma/SharedQmlEngine * * @short An object that instantiates an entire QML context, with its own declarative engine * * Plasma::SharedQmlEngine provides a class to conveniently use QML based * declarative user interfaces. * A SharedQmlEngine corresponds to one QML file (which can include others). * It will a shared QQmlEngine with a single root object, described in the QML file. */ class SharedQmlEngine : public QObject { Q_OBJECT Q_PROPERTY(QUrl source READ source WRITE setSource) Q_PROPERTY(QString translationDomain READ translationDomain WRITE setTranslationDomain) Q_PROPERTY(bool initializationDelayed READ isInitializationDelayed WRITE setInitializationDelayed) Q_PROPERTY(QObject *rootObject READ rootObject) public: /** * Construct a new Plasma::SharedQmlEngine * * @param parent The QObject parent for this object. */ explicit SharedQmlEngine(const std::shared_ptr &engine, QObject *parent = nullptr); ~SharedQmlEngine() override; /** * Call this method before calling setupBindings to install a translation domain for all * i18n global functions. If a translation domain is set all i18n calls delegate to the * matching i18nd calls with the provided translation domain. * * The translationDomain affects all i18n calls including those from imports. Because of * that modules intended to be used as imports should prefer the i18nd variants and set * the translation domain explicitly in each call. * * This method is only required if your declarative usage is inside a library. If it's * in an application there is no need to set the translation domain as the application's * domain can be used. * * @param translationDomain The translation domain to be used for i18n calls. */ void setTranslationDomain(const QString &translationDomain); /** * @return the translation domain for the i18n calls done in this QML engine */ QString translationDomain() const; /** * Sets the path of the QML file to parse and execute * * @param path the absolute path of a QML file */ void setSource(const QUrl &source); /** * @return the absolute path of the current QML file */ QUrl source() const; /** * Sets whether the execution of the QML file has to be delayed later in the event loop. It has to be called before setQmlPath(). * In this case it will be possible to assign new objects in the main engine context * before the main component gets initialized. * In that case it will be possible to access it immediately from the QML code. * The initialization will either be completed automatically asynchronously * or explicitly by calling completeInitialization() * * @param delay if true the initialization of the QML file will be delayed * at the end of the event loop */ void setInitializationDelayed(const bool delay); /** * @return true if the initialization of the QML file will be delayed * at the end of the event loop */ bool isInitializationDelayed() const; /** * @return the declarative engine that runs the qml file assigned to this widget. */ std::shared_ptr engine(); /** * @return the root object of the declarative object tree */ QObject *rootObject() const; /** * @return the main QQmlComponent of the engine */ QQmlComponent *mainComponent() const; /** * The component's creation context. */ QQmlContext *rootContext() const; /* * The component's or incubator's error status. */ bool isError() const; /* * The component's or incubator's error string. */ QString errorString() const; /** * Creates and returns an object based on the provided url to a Qml file * with the same QQmlEngine and the same root context as the main object, * that will be the parent of the newly created object * @param source url where the QML file is located * @param context The QQmlContext in which we will create the object, * if 0 it will use the engine's root context * @param initialProperties optional properties that will be set on * the object when created (and before Component.onCompleted * gets emitted */ QObject *createObjectFromSource(const QUrl &source, QQmlContext *context = nullptr, const QVariantMap &initialProperties = QVariantMap()); /** * Creates and returns an object based on the provided QQmlComponent * with the same QQmlEngine and the same root context as the admin object, * that will be the parent of the newly created object * @param component the component we want to instantiate * @param context The QQmlContext in which we will create the object, * if 0 it will use the engine's root context * @param initialProperties optional properties that will be set on * the object when created (and before Component.onCompleted * gets emitted */ QObject *createObjectFromComponent(QQmlComponent *component, QQmlContext *context = nullptr, const QVariantMap &initialProperties = QVariantMap()); public Q_SLOTS: /** * Finishes the process of initialization. * If isInitializationDelayed() is false, calling this will have no effect. * @param initialProperties optional properties that will be set on * the object when created (and before Component.onCompleted * gets emitted */ void completeInitialization(const QVariantMap &initialProperties = QVariantMap()); Q_SIGNALS: /** * Emitted when the parsing and execution of the QML file is terminated */ void finished(); private: const std::unique_ptr d; }; #endif // multiple inclusion guard