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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
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 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
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package javafx.scene;

import com.sun.javafx.css.StyleManager;
import com.sun.javafx.scene.traversal.Direction;
import com.sun.javafx.scene.traversal.SubSceneTraversalEngine;
import com.sun.javafx.scene.traversal.TopMostTraversalEngine;
import com.sun.javafx.scene.traversal.TraversalMethod;
import javafx.application.ConditionalFeature;
import javafx.application.Platform;
import javafx.beans.NamedArg;
import javafx.beans.property.*;
import javafx.css.Stylesheet;
import javafx.geometry.NodeOrientation;
import javafx.geometry.Point3D;
import javafx.scene.input.PickResult;
import javafx.scene.paint.Paint;

import java.io.File;
import java.util.ArrayList;
import java.util.List;

import com.sun.javafx.geom.BaseBounds;
import com.sun.javafx.geom.PickRay;
import com.sun.javafx.geom.transform.BaseTransform;
import com.sun.javafx.scene.CssFlags;
import com.sun.javafx.scene.DirtyBits;
import com.sun.javafx.scene.NodeHelper;
import com.sun.javafx.scene.SubSceneHelper;
import com.sun.javafx.scene.input.PickResultChooser;
import com.sun.javafx.sg.prism.NGCamera;
import com.sun.javafx.sg.prism.NGLightBase;
import com.sun.javafx.sg.prism.NGNode;
import com.sun.javafx.sg.prism.NGSubScene;
import com.sun.javafx.tk.Toolkit;

import com.sun.javafx.logging.PlatformLogger;

/**
 * The {@code SubScene} class is the container for content in a scene graph.
 * {@code SubScene} provides separation of different parts of a scene, each
 * of which can be rendered with a different camera, depth buffer, or scene
 * anti-aliasing. A {@code SubScene} is embedded into the main scene or another
 * sub-scene.
 * 

* An application may request depth buffer support or scene anti-aliasing * support at the creation of a {@code SubScene}. A sub-scene with only 2D * shapes and without any 3D transforms does not need a depth buffer nor scene * anti-aliasing support. A sub-scene containing 3D shapes or 2D shapes with 3D * transforms may use depth buffer support for proper depth sorted rendering; to * avoid depth fighting (also known as Z fighting), disable depth testing on 2D * shapes that have no 3D transforms. See * {@link Node#depthTestProperty depthTest} for more information. A sub-scene * with 3D shapes may enable scene anti-aliasing to improve its rendering * quality. *

* The depthBuffer and antiAliasing flags are conditional features. With the * respective default values of: false and {@code SceneAntialiasing.DISABLED}. * See {@link javafx.application.ConditionalFeature#SCENE3D ConditionalFeature.SCENE3D} * for more information. * *

* Possible use cases are: *

    *
  • Mixing 2D and 3D content
  • *
  • Overlay for UI controls
  • *
  • Underlay for background
  • *
  • Heads-up display
  • *
* *

* A default headlight will be added to a {@code SubScene} that contains one or more * {@code Shape3D} nodes, but no light nodes. This light source is a * {@code Color.WHITE} {@code PointLight} placed at the camera position. *

* * @since JavaFX 8.0 */ public class SubScene extends Node { static { // This is used by classes in different packages to get access to // private and package private methods. SubSceneHelper.setSubSceneAccessor(new SubSceneHelper.SubSceneAccessor() { @Override public NGNode doCreatePeer(Node node) { return ((SubScene) node).doCreatePeer(); } @Override public void doUpdatePeer(Node node) { ((SubScene) node).doUpdatePeer(); } @Override public BaseBounds doComputeGeomBounds(Node node, BaseBounds bounds, BaseTransform tx) { return ((SubScene) node).doComputeGeomBounds(bounds, tx); } @Override public boolean doComputeContains(Node node, double localX, double localY) { return ((SubScene) node).doComputeContains(localX, localY); } @Override public void doProcessCSS(Node node) { ((SubScene) node).doProcessCSS(); } @Override public void doPickNodeLocal(Node node, PickRay localPickRay, PickResultChooser result) { ((SubScene) node).doPickNodeLocal(localPickRay, result); } @Override public boolean isDepthBuffer(SubScene subScene) { return subScene.isDepthBufferInternal(); } @Override public Camera getEffectiveCamera(SubScene subScene) { return subScene.getEffectiveCamera(); } }); } { // To initialize the class helper at the begining each constructor of this class SubSceneHelper.initHelper(this); } /** * Creates a {@code SubScene} for a specific root Node with a specific size. * * @param root The root node of the scene graph * @param width The width of the sub-scene * @param height The height of the sub-scene * * @throws NullPointerException if root is null */ public SubScene(@NamedArg("root") Parent root, @NamedArg("width") double width, @NamedArg("height") double height) { this(root, width, height, false, SceneAntialiasing.DISABLED); } /** * Constructs a {@code SubScene} consisting of a root, with a dimension of width and * height, specifies whether a depth buffer is created for this scene and * specifies whether scene anti-aliasing is requested. *

* A sub-scene with only 2D shapes and without any 3D transforms does not * need a depth buffer nor scene anti-aliasing support. A sub-scene * containing 3D shapes or 2D shapes with 3D transforms may use depth buffer * support for proper depth sorted rendering; to avoid depth fighting (also * known as Z fighting), disable depth testing on 2D shapes that have no 3D * transforms. See {@link Node#depthTestProperty depthTest} for more * information. A sub-scene with 3D shapes may enable scene anti-aliasing to * improve its rendering quality. * * @param root The root node of the scene graph * @param width The width of the sub-scene * @param height The height of the sub-scene * @param depthBuffer The depth buffer flag * @param antiAliasing The sub-scene anti-aliasing attribute. A value of * {@code null} is treated as DISABLED. *

* The depthBuffer and antiAliasing flags are conditional features. With the * respective default values of: false and {@code SceneAntialiasing.DISABLED}. * See {@link javafx.application.ConditionalFeature#SCENE3D ConditionalFeature.SCENE3D} * for more information. * * @throws NullPointerException if root is null * * @see javafx.scene.Node#setDepthTest(DepthTest) */ public SubScene(@NamedArg("root") Parent root, @NamedArg("width") double width, @NamedArg("height") double height, @NamedArg("depthBuffer") boolean depthBuffer, @NamedArg("antiAliasing") SceneAntialiasing antiAliasing) { this.depthBuffer = depthBuffer; this.antiAliasing = antiAliasing; boolean isAntiAliasing = !(antiAliasing == null || antiAliasing == SceneAntialiasing.DISABLED); setRoot(root); setWidth(width); setHeight(height); if ((depthBuffer || isAntiAliasing) && !is3DSupported) { String logname = SubScene.class.getName(); PlatformLogger.getLogger(logname).warning("System can't support " + "ConditionalFeature.SCENE3D"); } if (isAntiAliasing && !Toolkit.getToolkit().isMSAASupported()) { String logname = SubScene.class.getName(); PlatformLogger.getLogger(logname).warning("System can't support " + "antiAliasing"); } } private static boolean is3DSupported = Platform.isSupported(ConditionalFeature.SCENE3D); private final SceneAntialiasing antiAliasing; /** * Return the defined {@code SceneAntialiasing} for this {@code SubScene}. *

* Note: this is a conditional feature. See * {@link javafx.application.ConditionalFeature#SCENE3D ConditionalFeature.SCENE3D} * and {@link javafx.scene.SceneAntialiasing SceneAntialiasing} * for more information. * @return the SceneAntialiasing for this sub-scene * @since JavaFX 8.0 */ public final SceneAntialiasing getAntiAliasing() { return antiAliasing; } private final boolean depthBuffer; /** * Retrieves the depth buffer attribute for this {@code SubScene}. * @return the depth buffer attribute. */ public final boolean isDepthBuffer() { return depthBuffer; } private boolean isDepthBufferInternal() { return is3DSupported ? depthBuffer : false; } /** * Defines the root {@code Node} of the {@code SubScene} scene graph. * If a {@code Group} is used as the root, the * contents of the scene graph will be clipped by the {@code SubScene}'s width and height. * * {@code SubScene} doesn't accept null root. * */ private ObjectProperty root; public final void setRoot(Parent value) { rootProperty().set(value); } public final Parent getRoot() { return root == null ? null : root.get(); } public final ObjectProperty rootProperty() { if (root == null) { root = new ObjectPropertyBase<>() { private Parent oldRoot; private void forceUnbind() { System.err.println("Unbinding illegal root."); unbind(); } @Override protected void invalidated() { Parent _value = get(); if (_value == null) { if (isBound()) { forceUnbind(); } throw new NullPointerException("Scene's root cannot be null"); } if (_value.getParent() != null) { if (isBound()) { forceUnbind(); } throw new IllegalArgumentException(_value + "is already inside a scene-graph and cannot be set as root"); } if (_value.getClipParent() != null) { if (isBound()) forceUnbind(); throw new IllegalArgumentException(_value + "is set as a clip on another node, so cannot be set as root"); } if ((_value.getScene() != null && _value.getScene().getRoot() == _value) || (_value.getSubScene() != null && _value.getSubScene().getRoot() == _value && _value.getSubScene() != SubScene.this)) { if (isBound()) { forceUnbind(); } throw new IllegalArgumentException(_value + "is already set as root of another scene or subScene"); } // disabled and isTreeVisible properties are inherited _value.setTreeVisible(isTreeVisible()); _value.setDisabled(isDisabled()); if (oldRoot != null) { StyleManager.getInstance().forget(SubScene.this); oldRoot.setScenes(null, null); oldRoot.getStyleClass().remove("root"); } oldRoot = _value; _value.getStyleClass().add(0, "root"); _value.setScenes(getScene(), SubScene.this); markDirty(SubSceneDirtyBits.ROOT_SG_DIRTY); _value.resize(getWidth(), getHeight()); // maybe no-op if root is not resizable _value.requestLayout(); } @Override public Object getBean() { return SubScene.this; } @Override public String getName() { return "root"; } }; } return root; } /** * Specifies the type of camera use for rendering this {@code SubScene}. * If {@code camera} is null, a parallel camera is used for rendering. * It is illegal to set a camera that belongs to other {@code Scene} * or {@code SubScene}. *

* Note: this is a conditional feature. See * {@link javafx.application.ConditionalFeature#SCENE3D ConditionalFeature.SCENE3D} * for more information. * * @defaultValue null */ private ObjectProperty camera; public final void setCamera(Camera value) { cameraProperty().set(value); } public final Camera getCamera() { return camera == null ? null : camera.get(); } public final ObjectProperty cameraProperty() { if (camera == null) { camera = new ObjectPropertyBase<>() { Camera oldCamera = null; @Override protected void invalidated() { Camera _value = get(); if (_value != null) { if (_value instanceof PerspectiveCamera && !SubScene.is3DSupported) { String logname = SubScene.class.getName(); PlatformLogger.getLogger(logname).warning("System can't support " + "ConditionalFeature.SCENE3D"); } // Illegal value if it belongs to any scene or other subscene if ((_value.getScene() != null || _value.getSubScene() != null) && (_value.getScene() != getScene() || _value.getSubScene() != SubScene.this)) { throw new IllegalArgumentException(_value + "is already part of other scene or subscene"); } // throws exception if the camera already has a different owner _value.setOwnerSubScene(SubScene.this); _value.setViewWidth(getWidth()); _value.setViewHeight(getHeight()); } markDirty(SubSceneDirtyBits.CAMERA_DIRTY); if (oldCamera != null && oldCamera != _value) { oldCamera.setOwnerSubScene(null); } oldCamera = _value; } @Override public Object getBean() { return SubScene.this; } @Override public String getName() { return "camera"; } }; } return camera; } private Camera defaultCamera; Camera getEffectiveCamera() { final Camera cam = getCamera(); if (cam == null || (cam instanceof PerspectiveCamera && !is3DSupported)) { if (defaultCamera == null) { defaultCamera = new ParallelCamera(); defaultCamera.setOwnerSubScene(this); defaultCamera.setViewWidth(getWidth()); defaultCamera.setViewHeight(getHeight()); } return defaultCamera; } return cam; } // Used by the camera final void markContentDirty() { markDirty(SubSceneDirtyBits.CONTENT_DIRTY); } /** * Defines the width of this {@code SubScene} * * @defaultValue 0.0 */ private DoubleProperty width; public final void setWidth(double value) { widthProperty().set(value); } public final double getWidth() { return width == null ? 0.0 : width.get(); } public final DoubleProperty widthProperty() { if (width == null) { width = new DoublePropertyBase() { @Override public void invalidated() { final Parent _root = getRoot(); //TODO - use a better method to update mirroring if (_root.getEffectiveNodeOrientation() == NodeOrientation.RIGHT_TO_LEFT) { NodeHelper.transformsChanged(_root); } if (_root.isResizable()) { _root.resize(get() - _root.getLayoutX() - _root.getTranslateX(), _root.getLayoutBounds().getHeight()); } markDirty(SubSceneDirtyBits.SIZE_DIRTY); NodeHelper.geomChanged(SubScene.this); getEffectiveCamera().setViewWidth(get()); } @Override public Object getBean() { return SubScene.this; } @Override public String getName() { return "width"; } }; } return width; } /** * Defines the height of this {@code SubScene} * * @defaultValue 0.0 */ private DoubleProperty height; public final void setHeight(double value) { heightProperty().set(value); } public final double getHeight() { return height == null ? 0.0 : height.get(); } public final DoubleProperty heightProperty() { if (height == null) { height = new DoublePropertyBase() { @Override public void invalidated() { final Parent _root = getRoot(); if (_root.isResizable()) { _root.resize(_root.getLayoutBounds().getWidth(), get() - _root.getLayoutY() - _root.getTranslateY()); } markDirty(SubSceneDirtyBits.SIZE_DIRTY); NodeHelper.geomChanged(SubScene.this); getEffectiveCamera().setViewHeight(get()); } @Override public Object getBean() { return SubScene.this; } @Override public String getName() { return "height"; } }; } return height; } /** * Defines the background fill of this {@code SubScene}. Both a {@code null} * value meaning paint no background and a {@link javafx.scene.paint.Paint} * with transparency are supported. The default value is null. * * @defaultValue null */ private ObjectProperty fill; public final void setFill(Paint value) { fillProperty().set(value); } public final Paint getFill() { return fill == null ? null : fill.get(); } public final ObjectProperty fillProperty() { if (fill == null) { fill = new ObjectPropertyBase(null) { @Override protected void invalidated() { markDirty(SubSceneDirtyBits.FILL_DIRTY); } @Override public Object getBean() { return SubScene.this; } @Override public String getName() { return "fill"; } }; } return fill; } /* * Note: This method MUST only be called via its accessor method. */ private void doUpdatePeer() { // TODO deal with clip node dirtyNodes = false; if (isDirty()) { NGSubScene peer = getPeer(); final Camera cam = getEffectiveCamera(); boolean contentChanged = false; if (cam.getSubScene() == null && isDirty(SubSceneDirtyBits.CONTENT_DIRTY)) { // When camera is not a part of the graph, then its // owner(subscene) must take care of syncing it. And when a // property on the camera changes it will mark subscenes // CONTENT_DIRTY. cam.syncPeer(); } if (isDirty(SubSceneDirtyBits.FILL_DIRTY)) { Object platformPaint = getFill() == null ? null : Toolkit.getPaintAccessor().getPlatformPaint(getFill()); peer.setFillPaint(platformPaint); contentChanged = true; } if (isDirty(SubSceneDirtyBits.SIZE_DIRTY)) { // Note change in size is a geom change and is handled by peer peer.setWidth((float)getWidth()); peer.setHeight((float)getHeight()); } if (isDirty(SubSceneDirtyBits.CAMERA_DIRTY)) { peer.setCamera((NGCamera) cam.getPeer()); contentChanged = true; } if (isDirty(SubSceneDirtyBits.ROOT_SG_DIRTY)) { peer.setRoot(getRoot().getPeer()); contentChanged = true; } contentChanged |= syncLights(); if (contentChanged || isDirty(SubSceneDirtyBits.CONTENT_DIRTY)) { peer.markContentDirty(); } clearDirtyBits(); } } @Override void nodeResolvedOrientationChanged() { getRoot().parentResolvedOrientationInvalidated(); } /* ********************************************************************* * CSS * **********************************************************************/ /* * Note: This method MUST only be called via its accessor method. */ private void doProcessCSS() { // Nothing to do... if (cssFlag == CssFlags.CLEAN) { return; } if (getRoot().cssFlag == CssFlags.CLEAN) { getRoot().cssFlag = cssFlag; } SubSceneHelper.superProcessCSS(this); getRoot().processCSS(); } @Override void processCSS() { Parent root = getRoot(); if (root.isDirty(DirtyBits.NODE_CSS)) { root.clearDirty(DirtyBits.NODE_CSS); if (cssFlag == CssFlags.CLEAN) { cssFlag = CssFlags.UPDATE; } } super.processCSS(); } private ObjectProperty userAgentStylesheet = null; /** * Gets the userAgentStylesheet property. * @return the userAgentStylesheet property * @see #getUserAgentStylesheet() * @see #setUserAgentStylesheet(String) * @since JavaFX 8u20 */ public final ObjectProperty userAgentStylesheetProperty() { if (userAgentStylesheet == null) { userAgentStylesheet = new SimpleObjectProperty<>(SubScene.this, "userAgentStylesheet", null) { @Override protected void invalidated() { StyleManager.getInstance().forget(SubScene.this); reapplyCSS(); } }; } return userAgentStylesheet; } /** * Get the URL of the user-agent stylesheet that will be used by this SubScene. If the URL has not been set, * the platform-default user-agent stylesheet will be used. *

* For additional information about using CSS with the scene graph, * see the CSS Reference Guide. *

* @return The URL of the user-agent stylesheet that will be used by this SubScene, * or null if has not been set. * @since JavaFX 8u20 */ public final String getUserAgentStylesheet() { return userAgentStylesheet == null ? null : userAgentStylesheet.get(); } /** * Set the URL of the user-agent stylesheet that will be used by this SubScene in place of the * the platform-default user-agent stylesheet. If the URL does not resolve to a valid location, * the platform-default user-agent stylesheet will be used. *

* The URL is a hierarchical URI of the form [scheme:][//authority][path]. If the URL * does not have a [scheme:] component, the URL is considered to be the [path] component only. * Any leading '/' character of the [path] is ignored and the [path] is treated as a path relative to * the root of the application's classpath. *

* The RFC 2397 "data" scheme for URLs is supported in addition to the protocol handlers that * are registered for the application. * If a URL uses the "data" scheme and the MIME type is either empty, "text/plain", or "text/css", * the payload will be interpreted as a CSS file. * If the MIME type is "application/octet-stream", the payload will be interpreted as a binary * CSS file (see {@link Stylesheet#convertToBinary(File, File)}). *

* For additional information about using CSS with the scene graph, * see the CSS Reference Guide. * * @param url the URL of the user-agent stylesheet * @since JavaFX 8u20 */ public final void setUserAgentStylesheet(String url) { userAgentStylesheetProperty().set(url); } @Override void updateBounds() { super.updateBounds(); getRoot().updateBounds(); } /* * Note: This method MUST only be called via its accessor method. */ private NGNode doCreatePeer() { if (!is3DSupported) { return new NGSubScene(false, false); } boolean aa = !(antiAliasing == null || antiAliasing == SceneAntialiasing.DISABLED); return new NGSubScene(depthBuffer, aa && Toolkit.getToolkit().isMSAASupported()); } /* * Note: This method MUST only be called via its accessor method. */ private BaseBounds doComputeGeomBounds(BaseBounds bounds, BaseTransform tx) { int w = (int)Math.ceil(width.get()); int h = (int)Math.ceil(height.get()); bounds = bounds.deriveWithNewBounds(0.0f, 0.0f, 0.0f, w, h, 0.0f); bounds = tx.transform(bounds, bounds); return bounds; } /* ********************************************************************* * Dirty Bits * **********************************************************************/ boolean dirtyLayout = false; void setDirtyLayout(Parent p) { if (!dirtyLayout && p != null && p.getSubScene() == this && this.getScene() != null) { dirtyLayout = true; markDirtyLayoutBranch(); markDirty(SubSceneDirtyBits.CONTENT_DIRTY); } } private boolean dirtyNodes = false; void setDirty(Node n) { if (!dirtyNodes && n != null && n.getSubScene() == this && this.getScene() != null) { dirtyNodes = true; markDirty(SubSceneDirtyBits.CONTENT_DIRTY); } } void layoutPass() { if (dirtyLayout) { Parent r = getRoot(); if (r != null) { r.layout(); } dirtyLayout = false; } } private TopMostTraversalEngine traversalEngine = new SubSceneTraversalEngine(this); boolean traverse(Node node, Direction dir, TraversalMethod method) { return traversalEngine.trav(node, dir, method) != null; } private enum SubSceneDirtyBits { SIZE_DIRTY, FILL_DIRTY, ROOT_SG_DIRTY, CAMERA_DIRTY, LIGHTS_DIRTY, CONTENT_DIRTY; private int mask; private SubSceneDirtyBits() { mask = 1 << ordinal(); } public final int getMask() { return mask; } } private int dirtyBits = ~0; private void clearDirtyBits() { dirtyBits = 0; } private boolean isDirty() { return dirtyBits != 0; } // Should not be called directly, instead use markDirty private void setDirty(SubSceneDirtyBits dirtyBit) { this.dirtyBits |= dirtyBit.getMask(); } private boolean isDirty(SubSceneDirtyBits dirtyBit) { return ((this.dirtyBits & dirtyBit.getMask()) != 0); } private void markDirty(SubSceneDirtyBits dirtyBit) { if (!isDirty()) { // Force SubScene to redraw NodeHelper.markDirty(this, DirtyBits.NODE_CONTENTS); } setDirty(dirtyBit); } /* ********************************************************************* * Picking * **********************************************************************/ /* * Note: This method MUST only be called via its accessor method. */ private boolean doComputeContains(double localX, double localY) { if (subSceneComputeContains(localX, localY)) { return true; } else { return NodeHelper.computeContains(getRoot(), localX, localY); } } /** * Determines whether {@code SubScene} contains the given point. * It does not consider the contained nodes, only {@code SubScene}'s * size and fills. * @param localX horizontal coordinate in the local space of the {@code SubScene} node * @param localY vertical coordinate in the local space of the {@code SubScene} node * @return true if the point is inside {@code SubScene}'s area covered by its fill */ private boolean subSceneComputeContains(double localX, double localY) { if (localX < 0 || localY < 0 || localX > getWidth() || localY > getHeight()) { return false; } return getFill() != null; } /* * Generates a pick ray based on local coordinates and camera. Then finds a * top-most child node that intersects the pick ray. */ private PickResult pickRootSG(double localX, double localY) { final double viewWidth = getWidth(); final double viewHeight = getHeight(); if (localX < 0 || localY < 0 || localX > viewWidth || localY > viewHeight) { return null; } final PickResultChooser result = new PickResultChooser(); final PickRay pickRay = getEffectiveCamera().computePickRay(localX, localY, new PickRay()); pickRay.getDirectionNoClone().normalize(); getRoot().pickNode(pickRay, result); return result.toPickResult(); } /** * Finds a top-most child node that contains the given local coordinates. * * Returns the picked node, null if no such node was found. * * Note: This method MUST only be called via its accessor method. */ private void doPickNodeLocal(PickRay localPickRay, PickResultChooser result) { final double boundsDistance = intersectsBounds(localPickRay); if (!Double.isNaN(boundsDistance) && result.isCloser(boundsDistance)) { final Point3D intersectPt = PickResultChooser.computePoint( localPickRay, boundsDistance); final PickResult subSceneResult = pickRootSG(intersectPt.getX(), intersectPt.getY()); if (subSceneResult != null) { result.offerSubScenePickResult(this, subSceneResult, boundsDistance); } else if (isPickOnBounds() || subSceneComputeContains(intersectPt.getX(), intersectPt.getY())) { result.offer(this, boundsDistance, intersectPt); } } } private List lights = new ArrayList<>(); // @param light must not be null final void addLight(LightBase light) { if (!lights.contains(light)) { markDirty(SubSceneDirtyBits.LIGHTS_DIRTY); lights.add(light); } } final void removeLight(LightBase light) { if (lights.remove(light)) { markDirty(SubSceneDirtyBits.LIGHTS_DIRTY); } } /** * PG Light synchronizer. */ private boolean syncLights() { boolean lightOwnerChanged = false; if (!isDirty(SubSceneDirtyBits.LIGHTS_DIRTY)) { return lightOwnerChanged; } NGSubScene pgSubScene = getPeer(); NGLightBase peerLights[] = pgSubScene.getLights(); if (!lights.isEmpty() || (peerLights != null)) { if (lights.isEmpty()) { pgSubScene.setLights(null); } else { if (peerLights == null || peerLights.length < lights.size()) { peerLights = new NGLightBase[lights.size()]; } int i = 0; for (; i < lights.size(); i++) { peerLights[i] = lights.get(i).getPeer(); } // Clear the rest of the list while (i < peerLights.length && peerLights[i] != null) { peerLights[i++] = null; } pgSubScene.setLights(peerLights); } lightOwnerChanged = true; } return lightOwnerChanged; } List getLights() { return lights; } }





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