QQmlIncubator#
The QQmlIncubator
class allows QML objects to be created asynchronously. More…
Synopsis#
Functions#
def
clear
()def
errors
()def
forceCompletion
()def
incubationMode
()def
isError
()def
isLoading
()def
isNull
()def
isReady
()def
object
()def
setInitialProperties
(initialProperties)def
status
()
Virtual functions#
def
setInitialState
(arg__1)def
statusChanged
(arg__1)
Note
This documentation may contain snippets that were automatically translated from C++ to Python. We always welcome contributions to the snippet translation. If you see an issue with the translation, you can also let us know by creating a ticket on https:/bugreports.qt.io/projects/PYSIDE
Detailed Description#
Creating QML objects - like delegates in a view, or a new page in an application - can take a noticeable amount of time, especially on resource constrained mobile devices. When an application uses create()
directly, the QML object instance is created synchronously which, depending on the complexity of the object, can cause noticeable pauses or stutters in the application.
The use of QQmlIncubator
gives more control over the creation of a QML object, including allowing it to be created asynchronously using application idle time. The following example shows a simple use of QQmlIncubator
.
// Initialize the incubator QQmlIncubator incubator; component->create(incubator);
Let the incubator run for a while (normally by returning control to the event loop), then poll it. There are a number of ways to get back to the incubator later. You may want to connect to one of the signals sent by QQuickWindow, or you may want to run a QTimer especially for that. You may also need the object for some specific purpose and poll the incubator when that purpose arises.
// Poll the incubator if (incubator.isReady()) { QObject *object = incubator.object(); // Use created object }
Asynchronous incubators are controlled by a QQmlIncubationController
that is set on the QQmlEngine
, which lets the engine know when the application is idle and incubating objects should be processed. If an incubation controller is not set on the QQmlEngine
, QQmlIncubator
creates objects synchronously regardless of the specified IncubationMode
. By default, no incubation controller is set. However, QQuickView, QQuickWindow and QQuickWidget all set incubation controllers on their respective QQmlEngine
s. These incubation controllers space out incubations across multiple frames while the view is being rendered.
QQmlIncubator
supports three incubation modes:
Synchronous The creation occurs synchronously. That is, once the
create()
call returns, the incubator will already be in either the Error or Ready state. A synchronous incubator has no real advantage compared to using the synchronous creation methods onQQmlComponent
directly, but it may simplify an application’s implementation to use the same API for both synchronous and asynchronous creations.Asynchronous (default) The creation occurs asynchronously, assuming a QQmlIncubatorController is set on the
QQmlEngine
.The incubator will remain in the Loading state until either the creation is complete or an error occurs. The
statusChanged()
callback can be used to be notified of status changes.Applications should use the Asynchronous incubation mode to create objects that are not needed immediately. For example, the ListView type uses Asynchronous incubation to create objects that are slightly off screen while the list is being scrolled. If, during asynchronous creation, the object is needed immediately the
forceCompletion()
method can be called to complete the creation process synchronously.
AsynchronousIfNested
The creation will occur asynchronously if part of a nested asynchronous creation, or synchronously if not.In most scenarios where a QML component wants the appearance of a synchronous instantiation, it should use this mode.
This mode is best explained with an example. When the ListView type is first created, it needs to populate itself with an initial set of delegates to show. If the ListView was 400 pixels high, and each delegate was 100 pixels high, it would need to create four initial delegate instances. If the ListView used the Asynchronous incubation mode, the ListView would always be created empty and then, sometime later, the four initial items would appear.
Conversely, if the ListView was to use the Synchronous incubation mode it would behave correctly but it may introduce stutters into the application. As QML would have to stop and instantiate the ListView’s delegates synchronously, if the ListView was part of a QML component that was being instantiated asynchronously this would undo much of the benefit of asynchronous instantiation.
The
AsynchronousIfNested
mode reconciles this problem. By usingAsynchronousIfNested
, the ListView delegates are instantiated asynchronously if the ListView itself is already part of an asynchronous instantiation, and synchronously otherwise. In the case of a nested asynchronous instantiation, the outer asynchronous instantiation will not complete until after all the nested instantiations have also completed. This ensures that by the time the outer asynchronous instantitation completes, inner items like ListView have already completed loading their initial delegates.It is almost always incorrect to use the Synchronous incubation mode - elements or components that want the appearance of synchronous instantiation, but without the downsides of introducing freezes or stutters into the application, should use the
AsynchronousIfNested
incubation mode.
- class PySide6.QtQml.QQmlIncubator([arg__1=QQmlIncubator.IncubationMode.Asynchronous])#
- Parameters:
arg__1 –
IncubationMode
Create a new incubator with the specified mode
- PySide6.QtQml.QQmlIncubator.IncubationMode#
Specifies the mode the incubator operates in. Regardless of the incubation mode, a QQmlIncubator
will behave synchronously if the QQmlEngine
does not have a QQmlIncubationController
set.
Constant
Description
QQmlIncubator.Asynchronous
The object will be created asynchronously.
QQmlIncubator.AsynchronousIfNested
If the object is being created in a context that is already part of an asynchronous creation, this incubator will join that existing incubation and execute asynchronously. The existing incubation will not become Ready until both it and this incubation have completed. Otherwise, the incubation will execute synchronously.
QQmlIncubator.Synchronous
The object will be created synchronously.
- PySide6.QtQml.QQmlIncubator.Status#
Specifies the status of the QQmlIncubator
.
Constant
Description
QQmlIncubator.Null
Incubation is not in progress. Call
create()
to begin incubating.QQmlIncubator.Ready
The object is fully created and can be accessed by calling
object()
.QQmlIncubator.Loading
The object is in the process of being created.
QQmlIncubator.Error
An error occurred. The errors can be access by calling
errors()
.
- PySide6.QtQml.QQmlIncubator.clear()#
Clears the incubator. Any in-progress incubation is aborted. If the incubator is in the Ready state, the created object is not deleted.
Return the list of errors encountered while incubating the object.
- PySide6.QtQml.QQmlIncubator.forceCompletion()#
Force any in-progress incubation to finish synchronously. Once this call returns, the incubator will not be in the Loading state.
- PySide6.QtQml.QQmlIncubator.incubationMode()#
- Return type:
Return the incubation mode passed to the QQmlIncubator
constructor.
- PySide6.QtQml.QQmlIncubator.isError()#
- Return type:
bool
Returns true if the incubator’s status()
is Error.
- PySide6.QtQml.QQmlIncubator.isLoading()#
- Return type:
bool
Returns true if the incubator’s status()
is Loading.
- PySide6.QtQml.QQmlIncubator.isNull()#
- Return type:
bool
Returns true if the incubator’s status()
is Null.
- PySide6.QtQml.QQmlIncubator.isReady()#
- Return type:
bool
Returns true if the incubator’s status()
is Ready.
- PySide6.QtQml.QQmlIncubator.object()#
- Return type:
Return the incubated object if the status is Ready, otherwise 0.
- PySide6.QtQml.QQmlIncubator.setInitialProperties(initialProperties)#
- Parameters:
initialProperties – Dictionary with keys of type .QString and values of type QVariant.
Stores a mapping from property names to initial values, contained in initialProperties
, with which the incubated component will be initialized.
See also
- PySide6.QtQml.QQmlIncubator.setInitialState(arg__1)#
- Parameters:
arg__1 –
PySide6.QtCore.QObject
Called after the object
is first created, but before complex property bindings are evaluated and, if applicable, componentComplete()
is called. This is equivalent to the point between beginCreate()
and completeCreate()
, and can be used to assign initial values to the object’s properties.
The default implementation does nothing.
Note
Simple bindings such as numeric literals are evaluated before setInitialState() is called. The categorization of bindings into simple and complex ones is intentionally unspecified and may change between versions of Qt and depending on whether and how you are using qmlcachegen . You should not rely on any particular binding to be evaluated either before or after setInitialState() is called. For example, a constant expression like MyType.EnumValue may be recognized as such at compile time or deferred to be executed as binding. The same holds for constant expressions like -(5) or “a” + “ constant string”.
Return the current status of the incubator.
Called when the status of the incubator changes. status
is the new status.
The default implementation does nothing.