@Override protected GeometryList getOccludersToRender(int shadowMapIndex, GeometryList shadowMapOccluders) { for (Spatial scene : viewPort.getScenes()) { ShadowUtil.getGeometriesInCamFrustum(scene, shadowCams[shadowMapIndex], RenderQueue.ShadowMode.Cast, shadowMapOccluders); } return shadowMapOccluders; }
private void initSoftParticles(ViewPort vp, boolean enabledSP) { if (depthTexture != null) { for (Spatial scene : vp.getScenes()) { makeSoftParticleEmitter(scene, enabledSP && enabled); } } }
@Override protected GeometryList getOccludersToRender(int shadowMapIndex, GeometryList shadowMapOccluders) { for (Spatial scene : viewPort.getScenes()) { ShadowUtil.getGeometriesInCamFrustum(scene, shadowCam, RenderQueue.ShadowMode.Cast, shadowMapOccluders); } return shadowMapOccluders; }
/** * Draws the viewport but without notifying {@link SceneProcessor scene * processors} of any rendering events. * * @param vp The ViewPort to render * * @see #renderViewPort(com.jme3.renderer.ViewPort, float) */ public void renderViewPortRaw(ViewPort vp) { setCamera(vp.getCamera(), false); List<Spatial> scenes = vp.getScenes(); for (int i = scenes.size() - 1; i >= 0; i--) { renderScene(scenes.get(i), vp); } flushQueue(vp); }
@Override protected void getReceivers(GeometryList lightReceivers) { lightReceivers.clear(); for (Spatial scene : viewPort.getScenes()) { ShadowUtil.getLitGeometriesInViewPort(scene, viewPort.getCamera(), shadowCams, RenderQueue.ShadowMode.Receive, lightReceivers); } }
@Override protected void getReceivers(GeometryList lightReceivers) { lightReceivers.clear(); Camera[] cameras = new Camera[1]; cameras[0] = shadowCam; for (Spatial scene : viewPort.getScenes()) { ShadowUtil.getLitGeometriesInViewPort(scene, viewPort.getCamera(), cameras, RenderQueue.ShadowMode.Receive, lightReceivers); } }
@Override protected void getReceivers(GeometryList lightReceivers) { if (lightReceivers.size()==0) { for (Spatial scene : viewPort.getScenes()) { ShadowUtil.getGeometriesInCamFrustum(scene, viewPort.getCamera(), RenderQueue.ShadowMode.Receive, lightReceivers); } } }
@Override protected void getReceivers(GeometryList lightReceivers) { if (lightReceivers.size()==0) { for (Spatial scene : viewPort.getScenes()) { ShadowUtil.getGeometriesInCamFrustum(scene, viewPort.getCamera(), RenderQueue.ShadowMode.Receive, lightReceivers); } } }
@Override protected void doDisplayFrustumDebug(int shadowMapIndex) { ((Node) viewPort.getScenes().get(0)).attachChild(createFrustum(points, shadowMapIndex)); ShadowUtil.updateFrustumPoints2(shadowCam, points); ((Node) viewPort.getScenes().get(0)).attachChild(createFrustum(points, shadowMapIndex)); }
@Override protected void doDisplayFrustumDebug(int shadowMapIndex) { ((Node) viewPort.getScenes().get(0)).attachChild(createFrustum(points, shadowMapIndex)); ShadowUtil.updateFrustumPoints2(shadowCam, points); ((Node) viewPort.getScenes().get(0)).attachChild(createFrustum(points, shadowMapIndex)); }
@Override protected void doDisplayFrustumDebug(int shadowMapIndex) { Vector3f[] points2 = points.clone(); ((Node) viewPort.getScenes().get(0)).attachChild(createFrustum(points, shadowMapIndex)); ShadowUtil.updateFrustumPoints2(shadowCam, points2); ((Node) viewPort.getScenes().get(0)).attachChild(createFrustum(points2, shadowMapIndex)); }
private ViewPort setupViewBuffers(Camera cam, String viewName) { // TODO this function is identical to that in VRViewManagerOpenVR; merge the two. if (environment != null) { if (environment.getApplication() != null) { ViewPort viewPort = environment.getApplication().getRenderManager().createPreView(viewName, cam); viewPort.setClearFlags(true, true, true); viewPort.setBackgroundColor(ColorRGBA.Black); Iterator<Spatial> spatialIter = environment.getApplication().getViewPort().getScenes().iterator(); while (spatialIter.hasNext()) { viewPort.attachScene(spatialIter.next()); } // The viewbuffer to render into will be set during prerender. return viewPort; } else { throw new IllegalStateException("This VR environment is not attached to any application."); } } else { throw new IllegalStateException("This VR view manager is not attached to any VR environment."); } } }
@Override protected GeometryList getOccludersToRender(int shadowMapIndex, GeometryList shadowMapOccluders) { // update frustum points based on current camera and split ShadowUtil.updateFrustumPoints(viewPort.getCamera(), splitsArray[shadowMapIndex], splitsArray[shadowMapIndex + 1], 1.0f, points); //Updating shadow cam with current split frusta if (lightReceivers.size()==0) { for (Spatial scene : viewPort.getScenes()) { ShadowUtil.getGeometriesInCamFrustum(scene, viewPort.getCamera(), RenderQueue.ShadowMode.Receive, lightReceivers); } } ShadowUtil.updateShadowCamera(viewPort, lightReceivers, shadowCam, points, shadowMapOccluders, stabilize?shadowMapSize:0); return shadowMapOccluders; }
@Override protected GeometryList getOccludersToRender(int shadowMapIndex, GeometryList shadowMapOccluders) { // update frustum points based on current camera and split ShadowUtil.updateFrustumPoints(viewPort.getCamera(), splitsArray[shadowMapIndex], splitsArray[shadowMapIndex + 1], 1.0f, points); //Updating shadow cam with current split frusta if (lightReceivers.size()==0) { for (Spatial scene : viewPort.getScenes()) { ShadowUtil.getGeometriesInCamFrustum(scene, viewPort.getCamera(), RenderQueue.ShadowMode.Receive, lightReceivers); } } ShadowUtil.updateShadowCamera(viewPort, lightReceivers, shadowCam, points, shadowMapOccluders, stabilize?shadowMapSize:0); return shadowMapOccluders; }
@Override protected void doDisplayFrustumDebug(int shadowMapIndex) { if (frustums == null) { frustums = new Geometry[CAM_NUMBER]; Vector3f[] points = new Vector3f[8]; for (int i = 0; i < 8; i++) { points[i] = new Vector3f(); } for (int i = 0; i < CAM_NUMBER; i++) { ShadowUtil.updateFrustumPoints2(shadowCams[i], points); frustums[i] = createFrustum(points, i); } } if (frustums[shadowMapIndex].getParent() == null) { ((Node) viewPort.getScenes().get(0)).attachChild(frustums[shadowMapIndex]); } }
@Override protected void initialize(Application app) { debugNode = new Node("Environment debug Node"); Sphere s = new Sphere(16, 16, 0.15f); debugGeom = new Geometry("debugEnvProbe", s); debugMaterial = new Material(app.getAssetManager(), "Common/MatDefs/Misc/reflect.j3md"); debugGeom.setMaterial(debugMaterial); debugBounds = BoundingSphereDebug.createDebugSphere(app.getAssetManager()); if (scene == null) { scene = app.getViewPort().getScenes().get(0); } }
viewPort.setBackgroundColor(ColorRGBA.Black); Iterator<Spatial> spatialIter = environment.getApplication().getViewPort().getScenes().iterator(); while(spatialIter.hasNext()){ viewPort.attachScene(spatialIter.next());
private ViewPort setupViewBuffers(Camera cam, String viewName) { if (environment != null) { if (environment.getApplication() != null) { // create offscreen framebuffer FrameBuffer offBufferLeft = new FrameBuffer(cam.getWidth(), cam.getHeight(), 1); //offBufferLeft.setSrgb(true); //setup framebuffer's texture Texture2D offTex = new Texture2D(cam.getWidth(), cam.getHeight(), Image.Format.RGBA8); offTex.setMinFilter(Texture2D.MinFilter.BilinearNoMipMaps); offTex.setMagFilter(Texture2D.MagFilter.Bilinear); //setup framebuffer to use texture offBufferLeft.setDepthBuffer(Image.Format.Depth); offBufferLeft.setColorTexture(offTex); ViewPort viewPort = environment.getApplication().getRenderManager().createPreView(viewName, cam); viewPort.setClearFlags(true, true, true); viewPort.setBackgroundColor(ColorRGBA.Black); Iterator<Spatial> spatialIter = environment.getApplication().getViewPort().getScenes().iterator(); while (spatialIter.hasNext()) { viewPort.attachScene(spatialIter.next()); } //set viewport to render to offscreen framebuffer viewPort.setOutputFrameBuffer(offBufferLeft); return viewPort; } else { throw new IllegalStateException("This VR environment is not attached to any application."); } } else { throw new IllegalStateException("This VR view manager is not attached to any VR environment."); } }
viewPort.setBackgroundColor(ColorRGBA.Black); Iterator<Spatial> spatialIter = environment.getApplication().getViewPort().getScenes().iterator(); while(spatialIter.hasNext()){ viewPort.attachScene(spatialIter.next());
@Override public void update(float tpf) { // update VR pose & cameras if( environment.getVRViewManager() != null ) { environment.getVRViewManager().update(tpf); } else if( environment.getObserver() != null ) { environment.getCamera().setFrame(((Spatial)environment.getObserver()).getWorldTranslation(), ((Spatial)environment.getObserver()).getWorldRotation()); } if( environment.isInVR() == false || environment.getVRGUIManager().getPositioningMode() == VRGUIPositioningMode.MANUAL ) { // only update geometric state here if GUI is in manual mode, or not in VR // it will get updated automatically in the viewmanager update otherwise // TODO isn't this done by SimpleApplication? for (Spatial spatial : application.getGuiViewPort().getScenes()) { //spatial.updateLogicalState(tpf); spatial.updateGeometricState(); } } // use the analog control on the first tracked controller to push around the mouse environment.getVRMouseManager().updateAnalogAsMouse(0, null, null, null, tpf); }