Binding C++ properties exposed to QML to dynamically created QML objects
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@Obi-Wan I really don't know, but because you already work with C++, it might be a good solution. On the other hand it depends on what you actually do with the model, and to be honest I can't even say if it solves your particular problem (which seems to be small).
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@Eeli-K Yes, my problem is not big because I work around it. But it seems to me that binding properties of dynamically created QML objects to other properties is a, if not fundamental, but a useful thing to be able to do! :)
As for using QAbstractListModel, I don't know. I haven't worked that much with "normal" C++ Qt, so I'm not sure what the recommended practice is. My undestanding is that you want to handle as much as possible in C++, and if you have some more complex model you would want to use one of Qt's model classes. In this case the "model" is really just two numbers, and the only reason for using a QML ListModel is to manage the dynamically created objects. (I haven't read up on model view programming so I might be way off though.)
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Why not just use the QVariantList as a model in QML ?
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@Obi-Wan said in Binding C++ properties exposed to QML to dynamically created QML objects:
backEnd.array.x
You didn't tell what this is, I presume the array is QList<QVariant> which you mentioned, but what is x?
But this doesn't work. I'm assuming because the box object goes out of scope?
I don't think so; rather it's not automatically updated if x isn't a property with the "changed" signal. And how can it be if the array is just QList<QVariant>? Then x is just a static value in the binding, the engine can't know when it's changed.
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@GrecKo I don't quite understand what this means, could you elaborate? :)
@Eeli-K said in Binding C++ properties exposed to QML to dynamically created QML objects:
You didn't tell what this is, I presume the array is QList<QVariant> which you mentioned, but what is x?
I left out the details because I assumed the answer would be more of a conceptual one. The QVariant in the QList is a QVector2D in C++, which is a vector2d in QML, so the .x is just the way to access the x property of the vector2d. The array is the representation of the QList in javascript as a javascript array.
@Eeli-K said in Binding C++ properties exposed to QML to dynamically created QML objects:
I don't think so; rather it's not automatically updated if x isn't a property with the "changed" signal. And how can it be if the array is just QList<QVariant>? Then x is just a static value in the binding, the engine can't know when it's changed.
The QList<QVariant> property emits a signal every time the C++ QVector2D changes, and I access this slot in QML. So the engine knowns when the array changes. It doesn't know when x changes directly, but it knows when the array changes and I then want it to use its current x value through a binding rather than calling it manually.
Basically I have two properties. One is exposed from C++ and one belongs to a QML object that is created after the program has started. I want the property of the QML object to change whenever the C++ property changes.
Not sure if I'm making it clearer or the opposite, but I'm thankful for any and all help! :)
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I don't know what you need but in my mind I would do something like that :
Repeater { id: repeater model: vectorList Rectangle { x: modelData.x y: modelData.y width: 5 height: 5 color: "red" } }
Don't dynamically create the components myself, let
Repeater
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@Obi-Wan No need to elaborate, I presumed correctly that you've got QList<QVariant> in C++ and "array" in QML is that list object. But in "backend.array.x" x would be a member of QList, which it is not. It should be something like array[index].x to work. And even then x in C++ should be a property (Q_PROPERTY) for it to work automatically in bindings so that box.pos_x would be bind to it and updated automatically when the C++ x value is changed. QVector2D doesn't have properties (and cannot have because it's not a QObject). You must write your own class if you want that.
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@Eeli-K You are absolutely right, backend.array.x should be backend.array[i].x in both cases. That what a mistake in my example code. I edited the original question.
The second part has me confused however. I don't understand why I should have to bind the C++ QVector2D.x specifically? In my head (which again might be confused) it should be enough to create a property of the QList, and all the data in the QList should be available in QML.
If I have a single QVector2D in C++ and use Q_PROPERTY to expose that to QML, I can indeed bind the x and y components of that vector to a property of any static QML object. I do not have to create a property of the x and y components in that case, why is that different now?
I haven't tried, but I expect I would have the same problem if I used a single QVector2D to expose some data to QML and then dynamically created one single box. That is, I think the problems comes from the QML object being created some time after application start, and that the bindings therefore need to be handled in a special way.
@GrecKo Thanks for the tip! How do you use the Repeater to create objects on the go?
In the documentation it says:
The Repeater type creates all of its delegate items when the repeater is first created. This can be inefficient if there are a large number of delegate items and not all of the items are required to be visible at the same time. If this is the case, consider using other view types like ListView (which only creates delegate items when they are scrolled into view) or use the Dynamic Object Creation methods to create items as they are required.
The Dynamic Object Creation methods they refer to are the ones I am using :)
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@Obi-Wan Maybe it was me who was confused. You wrote "In C++ I create a QList<QVariant> that I expose to QML through the use of Q_PROPERTY, and this list contains information about the boxes received in the message." I interpreted it to mean that there's one list which has one element per one QML box object. Correct me if I was wrong. But in any case, if you have a binding
x: y
or the dynamic equivalent
x = Qt.binding(function() {return y})
y must be a property if you want it to evaluated automatically every time when y is changed. I think it this way: it's not just an ordinary function but the QML engine kind of keeps the whole function and every property which is inside it so that when one property inside that function changes the function can be evaluated anew. If y is not a property in C++ but just a normal C++ object or member, then the QML engine can't know when it's changed.
I'm not actually sure how deeply the binding can reach different things in QML, but when it comes to C++ objects it's quite clear when you think about it. In C++ you use the signal/slot for dynamic messages about changes, but you have always emit signals manually, or they have to be emitted by the library (written in the C++ code) for the connections to work. There's just no way anyone can know that something inside a QList is changed unless a signal is sent. There's no such signal in QList, and QVector2D doesn't have such signals. But when you create a Q_PROPERTY, for example:
Q_PROPERTY(QColor color MEMBER m_color NOTIFY colorChanged)
and then emit the signal when that member value is changed, all listeners who have been connected to the colorChanged signal are notified. The QML engine uses that possibility, using the meta object system, and can listen to property changes of C++ objects. When such a property is used inside a binding the whole function is evaluated when the C++ property is changed and the corresponding signal is emitted.
You wrote:
If i have a single QVector2D in C++ and use Q_PROPERTY to expose that to QML, I can indeed bind the x and y components of that vector to a property of any static QML object. I do not have to create a property of the x and y components in that case, why is that different now?
But you can't do that to achieve automatic binding evaluation. You can use x and y, yes, but the binding isn't evaluated automatically when the values are changed. The function is evaluated only once, with the values they have when the binding is made. If you actually have tested it and it works as you supposed, tell me I'm wrong.
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@Obi-Wan I just noticed that there happens an implicit data type conversion between C++ and QML: QVector2D becomes vector2D. It doesn't have properties, it has members x and y. If x or y are used in bindings they don't trigger automatic evaluation. And when I try this (in main.cpp):
auto vec = QVector2D{3.4, 5.6}; QQmlApplicationEngine engine; engine.rootContext()->setContextProperty("vector", vec); vec.setX(6.7);
QML side gets only the first set x value 3.4, not 6.7. So it handles only a copy of the original. Your list probably becomes a javascript array which have vector2d elements and which is only a copy of the original C++ list.
So, in short, your problem isn't in dynamic creation of objects, it's in the C++ data. You just have to use your current method which worked for you or write much more complicated C++ code.
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@Eeli-K said in Binding C++ properties exposed to QML to dynamically created QML objects:
Maybe it was me who was confused. You wrote "In C++ I create a QList<QVariant> that I expose to QML through the use of Q_PROPERTY, and this list contains information about the boxes received in the message." I interpreted it to mean that there's one list which has one element per one QML box object. Correct me if I was wrong.
No, this is correct.
@Eeli-K said in Binding C++ properties exposed to QML to dynamically created QML objects:
There's just no way anyone can know that something inside a QList is changed unless a signal is sent
Agreed. But there is a signal being sent whenever any part of the QList changes. In C++ I manually send a signal whenever the QList is updated with new data in order make NOTIFY work properly. And this does indeed work. Every time I change the QList in C++ a slot in QML is triggered, and I can do stuff with the updated data in the array.
@Eeli-K said in Binding C++ properties exposed to QML to dynamically created QML objects:
You can use x and y, yes, but the binding isn't evaluated automatically when the values are changed. The function is evaluated only once, with the values they have when the binding is made.
This is exactly what seems to be happening when I try to bind to dynamic objects.
@Eeli-K said in Binding C++ properties exposed to QML to dynamically created QML objects:
If you actually have tested it and it works as you supposed, tell me I'm wrong.
But yes, with a static object (not sure if static is the right word, but one that I declare in QML with an id, and that I know will be there from the start), I can simply bind any property to the QVector2D's x and y members.
Say I have a C++ class called "backend". It has a single QVector2D that I expose to QML through Q_PROPERTY and that has a manually defined signal that is emitted whenever the QVector2D changes. This QVector2D has the name "box". I am able to bind the text property of a static object in QML with the x member of the QVector2D as such:
Text { text: backend.box.x // This binding works }
I don't have the code available for the weekend, but I will have to try some more come Monday. Thanks for all input in any case! :)
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text: backend.box.x // This binding works
OK. This probably works because backend.box.x is re-evaluated every time the boxChanged (or whatever the name is) signal is sent. Then behind the scenes backend.box() (or whatever the getter name is) function is called and you receive a new copy of the 2d vector. Therefore the x is correct. Maybe I now understand better: x doesn't need to be a property, it's enough that the expression is evaluated when x is changed. I have to test what it means in practice.
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@Eeli-K It very well might be that you are right about the problem being something related to C++! I created a working example where I bind properties of dynamic objects using QML only, and it works! It does however use a method explicitly warned against in the documentation, so I think I should find an alternative. The documentation says about ListModel.get that():
Warning: The returned object is not guaranteed to remain valid. It should not be used in property bindings.
which is what I'm doing now.
I will have to check again on Monday why this doesn't work in the original code, and if the problem lies with the C++ property!
main.qml
import QtQuick 2.6 import QtQuick.Window 2.2 import QtQuick.Controls 2.1 Window { visible: true width: 640 height: 480 ListModel { id: listModel } Column { id: mainCol anchors.centerIn: parent spacing: 10 Button { text: "Click to create object" onClicked: { var component = Qt.createComponent("Box.qml"); var obj = component.createObject(mainCol); listModel.append({"obj": obj}) } } TextField { id: inputTxt } Button { text: "Click to bind properties" onClicked: { for (var i = 0; i < listModel.count; ++i) { var dynObj = listModel.get(i).obj; dynObj.boxTxt = Qt.binding(function() {return inputTxt.text}); } } } } }
Box.qml
import QtQuick 2.0 Rectangle { property alias boxTxt: txt.text width: 100 height: 100 color: "lightblue" Text { id: txt text: "Dynamic object" } }
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It does however use a method explicitly warned against in the documentation, so I think I should find an alternative. The documentation says about ListModel.get that():
Warning: The returned object is not guaranteed to remain valid. It should not be used in property bindings.I think it rather means using it in the right side of the binding. But I may be wrong. After all, I have demonstrably been wrong sometimes :)
But here is my code:
main.qml:import QtQuick 2.7 import QtQuick.Controls 2.0 import QtQuick.Layouts 1.3 ApplicationWindow { visible: true width: 640 height: 480 title: qsTr("Hello World") ColumnLayout { id: layout anchors.fill:parent ListModel { id: boxListModel } Button { text: "create qml model" onClicked: { for (var i = 0; i < 1; ++i) { var component = Qt.createComponent("Box.qml"); var obj = component.createObject(layout); boxListModel.append({"obj": obj}) obj.boxTxt = Qt.binding(function() {return backend.proplist[i].x}) } } } Button { id: button1 text: "change backend" onClicked: { backend.changeList() } } } }
backend.changeList() which you should be able to add to your backend class easily:
void MyClass::changeList() { float f = m_list.at(0).value<QVector2D>().x() + 1; m_list.clear(); m_list.append(QVariant(QVector2D{f, f})); emit arrayChanged(); }
(The m_list is supposed to have at least one QVector2D in it.)
This doesn't work, but if you change
obj.boxTxt = Qt.binding(function() {return backend.proplist[i].x})
to
obj.boxTxt = Qt.binding(function() {return backend.proplist[0].x})
it works!
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@Obi-Wan (Had to finish the previous post in a hurry, continuing...) So the problem is not in dynamic objects or C++ but that the property binding function can't handle variables taken from the immediate function context, in this case the loop counter. However, I got this working:
var f = function(indx) {return function(){return backend.array[indx].x}} obj.boxTxt = Qt.binding(f(i))
Don't ask me why.
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@Eeli-K said in Binding C++ properties exposed to QML to dynamically created QML objects:
Don't ask me why.
I asked myself. This seems to be an example of a closure and functional programming in javascript. f() returns a function where indx is bound, it has a new value in each invocation of f(), and therefore the inner anonymous function works in the binding without the original scope. The backend object is in scope anyways (in QML) and the function is run every time when the array property is changed.
There's nothing miraculous in it, but the Qt documentation doesn't seem to give any advice about these kinds of situations where the binding function should handle variables which are in the outer function scope but not in the QML scope.
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In the documentation it says:
The Repeater type creates all of its delegate items when the repeater is first created. This can be inefficient if there are a large number of delegate items and not all of the items are required to be visible at the same time. If this is the case, consider using other view types like ListView (which only creates delegate items when they are scrolled into view) or use the Dynamic Object Creation methods to create items as they are required.
The Dynamic Object Creation methods they refer to are the ones I am using :)
Why do you need that though ? A repeater can do what you are doing with less code.
Most of the time, handling dynamic object creation is counter-productive.