A QML application that demonstrates using Qt Quick 2 within a Qt 3D scene.
Scene2D demonstrates rendering a Qt Quick 2 scene into a texture and utilising the texture within a Qt 3D application including handling mouse events. The 3D scene contains a single active camera and renders a 3D Qt logo along with some controls declared with Qt Quick Controls.
To run the example from Qt Creator, open the Welcome mode and select the example from Examples. For more information, visit Building and Running an Example.
We set up the 3D scene in an Entity that acts as the root of the object tree. The virtual camera is specified in main.qml:
Camera { id: camera projectionType: CameraLens.PerspectiveProjection position: Qt.vector3d( 0.0, 0.0, 20 ) }
The RenderSettings specify the rendering algorithm used and also enable triangle based picking which is needed to properly handle mouse events when projecting a Qt Quick scene onto 3D geometry:
RenderSettings { activeFrameGraph: ForwardRenderer { camera: camera clearColor: "white" } pickingSettings.pickMethod: PickingSettings.TrianglePicking },
The 3D Qt logo that will be controlled by the controls in the Qt Quick scene is declared with:
Entity { id: logoEntity Transform { id: logoTransform scale: 1 translation: Qt.vector3d( 0, 0, logoControls.logoCentreZ ) rotation: fromEulerAngles( logoControls.rotationX, logoControls.rotationY, logoControls.rotationZ ) } Mesh { id: logoMesh source: "Qt_logo.obj" } PhongMaterial { id: logoMaterial diffuse: Qt.rgba( logoControls.colorR/255, logoControls.colorG/255, logoControls.colorB/255, 1.0 ) ambient: Qt.rgba( 0.1, 0.1, 0.1, 1.0 ) shininess: logoControls.shininess } components: [ logoTransform, logoMesh, logoMaterial ] }
It simply consists of a Mesh component to load the geometry; a PhongMaterial component to give it a surface appearance, and a Transform component to specify its postion, orientation, and scale. The properties of these components are bound to properties on the logoControls element which we will discuss next.
We begin by declaring the Entity that will become our control panel. It consists of a CuboidMesh onto which we will place the texture containing a rendering of the Qt Quick scene. In this case we are using a simple cube for the geometry, but we could use any valid 3D geometry as long as it has texture coordinates. The texture coordinates are used for projecting the texture onto the 3D surface, and also for calculating the coordinates of mouse events to be passed to the originating Qt Quick scene.
Entity { id: cube components: [cubeTransform, cubeMaterial, cubeMesh, cubePicker] property real rotationAngle: 0 Transform { id: cubeTransform translation: Qt.vector3d(2, 0, 10) scale3D: Qt.vector3d(1, 4, 1) rotation: fromAxisAndAngle(Qt.vector3d(0,1,0), cube.rotationAngle) } CuboidMesh { id: cubeMesh }
We also include an ObjectPicker component so that we can interact with the controls using the mouse:
ObjectPicker { id: cubePicker hoverEnabled: true dragEnabled: true // Explicitly require a middle click to have the Scene2D grab the mouse // events from the picker onPressed: { if (pick.button === PickEvent.MiddleButton) { qmlTexture.mouseEnabled = !qmlTexture.mouseEnabled logoControls.enabled = !logoControls.enabled } } }
For this example we have chosen to use an interaction mechanism whereby you must explicitly middle-click the controls to enable them.
To apply the texture to the mesh, we make use of the built in TextureMaterial:
TextureMaterial { id: cubeMaterial texture: offscreenTexture }
The final remaining piece is how to render the above texture from a Qt Quick scene. This is done with the Scene2D element:
Scene2D { id: qmlTexture output: RenderTargetOutput { attachmentPoint: RenderTargetOutput.Color0 texture: Texture2D { id: offscreenTexture width: 256 height: 1024 format: Texture.RGBA8_UNorm generateMipMaps: true magnificationFilter: Texture.Linear minificationFilter: Texture.LinearMipMapLinear wrapMode { x: WrapMode.ClampToEdge y: WrapMode.ClampToEdge
where we have made use of the Texture2D and RenderTargetOutput types to create a destination texture and attach it as the output of the Scene2D renderer.
Next, we tell the Scene2D object which entities may feed it input events and we initially disable the handling of mouse events:
} } } entities: [ cube ]
Finally, we can specify the Qt Quick scene to render by adding a custom QML component as a child to the Scene2D element:
LogoControls { id: logoControls width: offscreenTexture.width height: offscreenTexture.height } }
When the mouseEnabled property is set to true by the ObjectPicker, then the Scene2D object will process mouse events from any ObjectPickers attached to the listed entities. In this way, you have the freedom to use the texture generated by the Scene2D object in any way you wish, even on more than one Entity.
The LogoControls.qml file is just a regular Qt Quick 2 scene which in this case also makes use of the Qt Quick Controls components.
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