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The QDeclarativeComponent class encapsulates a QML component definition. More...
Inherits QObject.
The QDeclarativeComponent class encapsulates a QML component definition.
Components are reusable, encapsulated QML elements with well-defined interfaces. They are often defined in Component Files.
A QDeclarativeComponent instance can be created from a QML file. For example, if there is a main.qml file like this:
import QtQuick 1.0 Item { width: 200 height: 200 }
The following code loads this QML file as a component, creates an instance of this component using create(), and then queries the Item's width value:
QDeclarativeEngine *engine = new QDeclarativeEngine; QDeclarativeComponent component(engine, QUrl.fromLocalFile("main.qml")); QObject *myObject = component.create(); QDeclarativeItem *item = qobject_cast<QDeclarativeItem*>(myObject); int width = item->width(); // width = 200
If the URL passed to QDeclarativeComponent is a network resource, or if the QML document references a network resource, the QDeclarativeComponent has to fetch the network data before it is able to create objects. In this case, the QDeclarativeComponent will have a Loading status. An application will have to wait until the component is Ready before calling QDeclarativeComponent.create().
The following example shows how to load a QML file from a network resource. After creating the QDeclarativeComponent, it tests whether the component is loading. If it is, it connects to the QDeclarativeComponent.statusChanged() signal and otherwise calls the continueLoading() method directly. Note that QDeclarativeComponent.isLoading() may be false for a network component if the component has been cached and is ready immediately.
MyApplication.MyApplication() { // ... component = new QDeclarativeComponent(engine, QUrl("http://www.example.com/main.qml")); if (component->isLoading()) QObject.connect(component, SIGNAL(statusChanged(QDeclarativeComponent.Status)), this, SLOT(continueLoading())); else continueLoading(); } void MyApplication.continueLoading() { if (component->isError()) { qWarning() << component->errors(); } else { QObject *myObject = component->create(); } }
Specifies the loading status of the QDeclarativeComponent.
Constant | Value | Description |
---|---|---|
QDeclarativeComponent.Null | 0 | This QDeclarativeComponent has no data. Call loadUrl() or setData() to add QML content. |
QDeclarativeComponent.Ready | 1 | This QDeclarativeComponent is ready and create() may be called. |
QDeclarativeComponent.Loading | 2 | This QDeclarativeComponent is loading network data. |
QDeclarativeComponent.Error | 3 | An error has occurred. Call errors() to retrieve a list of {QDeclarativeError}{errors}. |
The parent argument, if not None, causes self to be owned by Qt instead of PyQt.
Create a QDeclarativeComponent with no data and give it the specified engine and parent. Set the data with setData().
The parent argument, if not None, causes self to be owned by Qt instead of PyQt.
The parent argument, if not None, causes self to be owned by Qt instead of PyQt.
Create a QDeclarativeComponent from the given fileName and give it the specified parent and engine.
See also loadUrl().
This method provides more advanced control over component instance creation. In general, programmers should use QDeclarativeComponent.create() to create a component.
Create an object instance from this component. Returns 0 if creation failed. context specifies the context within which to create the object instance.
When QDeclarativeComponent constructs an instance, it occurs in three steps:
QDeclarativeComponent.beginCreate() differs from QDeclarativeComponent.create() in that it only performs step 1. QDeclarativeComponent.completeCreate() must be called to complete steps 2 and 3.
This breaking point is sometimes useful when using attached properties to communicate information to an instantiated component, as it allows their initial values to be configured before property bindings take effect.
This method provides more advanced control over component instance creation. In general, programmers should use QDeclarativeComponent.create() to create a component.
Complete a component creation begin with QDeclarativeComponent.beginCreate().
Create an object instance from this component. Returns 0 if creation failed. context specifies the context within which to create the object instance.
If context is 0 (the default), it will create the instance in the engine' s root context.
Returns the QDeclarativeContext the component was created in. This is only valid for components created directly from QML.
Return the list of errors that occurred during the last compile or create operation. An empty list is returned if isError() is not set.
Returns true if status() == QDeclarativeComponent.Error.
Returns true if status() == QDeclarativeComponent.Loading.
Returns true if status() == QDeclarativeComponent.Null.
Returns true if status() == QDeclarativeComponent.Ready.
Load the QDeclarativeComponent from the provided url.
Ensure that the URL provided is full and correct, in particular, use QUrl.fromLocalFile() when loading a file from the local filesystem.
Sets the QDeclarativeComponent to use the given QML data. If url is provided, it is used to set the component name and to provide a base path for items resolved by this component.
This is the default overload of this signal.
Emitted whenever the component's loading progress changes. progress will be the current progress between 0.0 (nothing loaded) and 1.0 (finished).
This is the default overload of this signal.
Emitted whenever the component's status changes. status will be the new status.
PyQt 4.9.4 for Windows | Copyright © Riverbank Computing Ltd and Nokia 2012 | Qt 4.8.2 |