public void Dispose() { #if DRAW_SAMPLE_CONTENT if (gpuParticleSystemRenderer != null) { gpuParticleSystemRenderer.Dispose(); gpuParticleSystemRenderer = null; } #endif }
public void SetHolographicSpace(HolographicSpace holographicSpace) { this.holographicSpace = holographicSpace; // // TODO: Add code here to initialize your content. // #if DRAW_SAMPLE_CONTENT // Initialize the sample hologram. gpuParticleSystemRenderer = new GPUParticleSystemRenderer(deviceResources); spatialInputHandler = new SpatialInputHandler(); #endif // Use the default SpatialLocator to track the motion of the device. locator = SpatialLocator.GetDefault(); // Be able to respond to changes in the positional tracking state. locator.LocatabilityChanged += this.OnLocatabilityChanged; // Respond to camera added events by creating any resources that are specific // to that camera, such as the back buffer render target view. // When we add an event handler for CameraAdded, the API layer will avoid putting // the new camera in new HolographicFrames until we complete the deferral we created // for that handler, or return from the handler without creating a deferral. This // allows the app to take more than one frame to finish creating resources and // loading assets for the new holographic camera. // This function should be registered before the app creates any HolographicFrames. holographicSpace.CameraAdded += this.OnCameraAdded; // Respond to camera removed events by releasing resources that were created for that // camera. // When the app receives a CameraRemoved event, it releases all references to the back // buffer right away. This includes render target views, Direct2D target bitmaps, and so on. // The app must also ensure that the back buffer is not attached as a render target, as // shown in DeviceResources.ReleaseResourcesForBackBuffer. holographicSpace.CameraRemoved += this.OnCameraRemoved; // The simplest way to render world-locked holograms is to create a stationary reference frame // when the app is launched. This is roughly analogous to creating a "world" coordinate system // with the origin placed at the device's position as the app is launched. referenceFrame = locator.CreateStationaryFrameOfReferenceAtCurrentLocation(); // Notes on spatial tracking APIs: // * Stationary reference frames are designed to provide a best-fit position relative to the // overall space. Individual positions within that reference frame are allowed to drift slightly // as the device learns more about the environment. // * When precise placement of individual holograms is required, a SpatialAnchor should be used to // anchor the individual hologram to a position in the real world - for example, a point the user // indicates to be of special interest. Anchor positions do not drift, but can be corrected; the // anchor will use the corrected position starting in the next frame after the correction has // occurred. }