import ApproximateTerrainHeights from "../Core/ApproximateTerrainHeights.js"; import Cartesian2 from "../Core/Cartesian2.js"; import Cartesian3 from "../Core/Cartesian3.js"; import Cartographic from "../Core/Cartographic.js"; import Check from "../Core/Check.js"; import clone from "../Core/clone.js"; import Credit from "../Core/Credit.js"; import defaultValue from "../Core/defaultValue.js"; import defer from "../Core/defer.js"; import defined from "../Core/defined.js"; import deprecationWarning from "../Core/deprecationWarning.js"; import destroyObject from "../Core/destroyObject.js"; import DeveloperError from "../Core/DeveloperError.js"; import Ellipsoid from "../Core/Ellipsoid.js"; import Event from "../Core/Event.js"; import ExperimentalFeatures from "../Core/ExperimentalFeatures.js"; import ImageBasedLighting from "./ImageBasedLighting.js"; import JulianDate from "../Core/JulianDate.js"; import ManagedArray from "../Core/ManagedArray.js"; import CesiumMath from "../Core/Math.js"; import Matrix4 from "../Core/Matrix4.js"; import Resource from "../Core/Resource.js"; import RuntimeError from "../Core/RuntimeError.js"; import Transforms from "../Core/Transforms.js"; import ClearCommand from "../Renderer/ClearCommand.js"; import Pass from "../Renderer/Pass.js"; import RenderState from "../Renderer/RenderState.js"; import Axis from "./Axis.js"; import Cesium3DTile from "./Cesium3DTile.js"; import Cesium3DTileColorBlendMode from "./Cesium3DTileColorBlendMode.js"; import Cesium3DTileContentState from "./Cesium3DTileContentState.js"; import Cesium3DTilesetMetadata from "./Cesium3DTilesetMetadata.js"; import Cesium3DTileOptimizations from "./Cesium3DTileOptimizations.js"; import Cesium3DTilePass from "./Cesium3DTilePass.js"; import Cesium3DTileRefine from "./Cesium3DTileRefine.js"; import Cesium3DTilesetCache from "./Cesium3DTilesetCache.js"; import Cesium3DTilesetHeatmap from "./Cesium3DTilesetHeatmap.js"; import Cesium3DTilesetStatistics from "./Cesium3DTilesetStatistics.js"; import Cesium3DTileStyleEngine from "./Cesium3DTileStyleEngine.js"; import ClippingPlaneCollection from "./ClippingPlaneCollection.js"; import hasExtension from "./hasExtension.js"; import ImplicitTileset from "./ImplicitTileset.js"; import ImplicitTileCoordinates from "./ImplicitTileCoordinates.js"; import LabelCollection from "./LabelCollection.js"; import PointCloudEyeDomeLighting from "./PointCloudEyeDomeLighting.js"; import PointCloudShading from "./PointCloudShading.js"; import ResourceCache from "./ResourceCache.js"; import SceneMode from "./SceneMode.js"; import ShadowMode from "./ShadowMode.js"; import SplitDirection from "./SplitDirection.js"; import StencilConstants from "./StencilConstants.js"; import TileBoundingRegion from "./TileBoundingRegion.js"; import TileBoundingSphere from "./TileBoundingSphere.js"; import TileOrientedBoundingBox from "./TileOrientedBoundingBox.js"; /** * A {@link https://github.com/CesiumGS/3d-tiles/tree/main/specification|3D Tiles tileset}, * used for streaming massive heterogeneous 3D geospatial datasets. * * @alias Cesium3DTileset * @constructor * * @param {Object} options Object with the following properties: * @param {Resource|String|Promise|Promise} options.url The url to a tileset JSON file. * @param {Boolean} [options.show=true] Determines if the tileset will be shown. * @param {Matrix4} [options.modelMatrix=Matrix4.IDENTITY] A 4x4 transformation matrix that transforms the tileset's root tile. * @param {ShadowMode} [options.shadows=ShadowMode.ENABLED] Determines whether the tileset casts or receives shadows from light sources. * @param {Number} [options.maximumScreenSpaceError=16] The maximum screen space error used to drive level of detail refinement. * @param {Number} [options.maximumMemoryUsage=512] The maximum amount of memory in MB that can be used by the tileset. * @param {Boolean} [options.cullWithChildrenBounds=true] Optimization option. Whether to cull tiles using the union of their children bounding volumes. * @param {Boolean} [options.cullRequestsWhileMoving=true] Optimization option. Don't request tiles that will likely be unused when they come back because of the camera's movement. This optimization only applies to stationary tilesets. * @param {Number} [options.cullRequestsWhileMovingMultiplier=60.0] Optimization option. Multiplier used in culling requests while moving. Larger is more aggressive culling, smaller less aggressive culling. * @param {Boolean} [options.preloadWhenHidden=false] Preload tiles when tileset.show is false. Loads tiles as if the tileset is visible but does not render them. * @param {Boolean} [options.preloadFlightDestinations=true] Optimization option. Preload tiles at the camera's flight destination while the camera is in flight. * @param {Boolean} [options.preferLeaves=false] Optimization option. Prefer loading of leaves first. * @param {Boolean} [options.dynamicScreenSpaceError=false] Optimization option. Reduce the screen space error for tiles that are further away from the camera. * @param {Number} [options.dynamicScreenSpaceErrorDensity=0.00278] Density used to adjust the dynamic screen space error, similar to fog density. * @param {Number} [options.dynamicScreenSpaceErrorFactor=4.0] A factor used to increase the computed dynamic screen space error. * @param {Number} [options.dynamicScreenSpaceErrorHeightFalloff=0.25] A ratio of the tileset's height at which the density starts to falloff. * @param {Number} [options.progressiveResolutionHeightFraction=0.3] Optimization option. If between (0.0, 0.5], tiles at or above the screen space error for the reduced screen resolution of progressiveResolutionHeightFraction*screenHeight will be prioritized first. This can help get a quick layer of tiles down while full resolution tiles continue to load. * @param {Boolean} [options.foveatedScreenSpaceError=true] Optimization option. Prioritize loading tiles in the center of the screen by temporarily raising the screen space error for tiles around the edge of the screen. Screen space error returns to normal once all the tiles in the center of the screen as determined by the {@link Cesium3DTileset#foveatedConeSize} are loaded. * @param {Number} [options.foveatedConeSize=0.1] Optimization option. Used when {@link Cesium3DTileset#foveatedScreenSpaceError} is true to control the cone size that determines which tiles are deferred. Tiles that are inside this cone are loaded immediately. Tiles outside the cone are potentially deferred based on how far outside the cone they are and their screen space error. This is controlled by {@link Cesium3DTileset#foveatedInterpolationCallback} and {@link Cesium3DTileset#foveatedMinimumScreenSpaceErrorRelaxation}. Setting this to 0.0 means the cone will be the line formed by the camera position and its view direction. Setting this to 1.0 means the cone encompasses the entire field of view of the camera, disabling the effect. * @param {Number} [options.foveatedMinimumScreenSpaceErrorRelaxation=0.0] Optimization option. Used when {@link Cesium3DTileset#foveatedScreenSpaceError} is true to control the starting screen space error relaxation for tiles outside the foveated cone. The screen space error will be raised starting with tileset value up to {@link Cesium3DTileset#maximumScreenSpaceError} based on the provided {@link Cesium3DTileset#foveatedInterpolationCallback}. * @param {Cesium3DTileset.foveatedInterpolationCallback} [options.foveatedInterpolationCallback=Math.lerp] Optimization option. Used when {@link Cesium3DTileset#foveatedScreenSpaceError} is true to control how much to raise the screen space error for tiles outside the foveated cone, interpolating between {@link Cesium3DTileset#foveatedMinimumScreenSpaceErrorRelaxation} and {@link Cesium3DTileset#maximumScreenSpaceError} * @param {Number} [options.foveatedTimeDelay=0.2] Optimization option. Used when {@link Cesium3DTileset#foveatedScreenSpaceError} is true to control how long in seconds to wait after the camera stops moving before deferred tiles start loading in. This time delay prevents requesting tiles around the edges of the screen when the camera is moving. Setting this to 0.0 will immediately request all tiles in any given view. * @param {Boolean} [options.skipLevelOfDetail=false] Optimization option. Determines if level of detail skipping should be applied during the traversal. * @param {Number} [options.baseScreenSpaceError=1024] When skipLevelOfDetail is true, the screen space error that must be reached before skipping levels of detail. * @param {Number} [options.skipScreenSpaceErrorFactor=16] When skipLevelOfDetail is true, a multiplier defining the minimum screen space error to skip. Used in conjunction with skipLevels to determine which tiles to load. * @param {Number} [options.skipLevels=1] When skipLevelOfDetail is true, a constant defining the minimum number of levels to skip when loading tiles. When it is 0, no levels are skipped. Used in conjunction with skipScreenSpaceErrorFactor to determine which tiles to load. * @param {Boolean} [options.immediatelyLoadDesiredLevelOfDetail=false] When skipLevelOfDetail is true, only tiles that meet the maximum screen space error will ever be downloaded. Skipping factors are ignored and just the desired tiles are loaded. * @param {Boolean} [options.loadSiblings=false] When skipLevelOfDetail is true, determines whether siblings of visible tiles are always downloaded during traversal. * @param {ClippingPlaneCollection} [options.clippingPlanes] The {@link ClippingPlaneCollection} used to selectively disable rendering the tileset. * @param {ClassificationType} [options.classificationType] Determines whether terrain, 3D Tiles or both will be classified by this tileset. See {@link Cesium3DTileset#classificationType} for details about restrictions and limitations. * @param {Ellipsoid} [options.ellipsoid=Ellipsoid.WGS84] The ellipsoid determining the size and shape of the globe. * @param {Object} [options.pointCloudShading] Options for constructing a {@link PointCloudShading} object to control point attenuation based on geometric error and lighting. * @param {Cartesian3} [options.lightColor] The light color when shading models. When undefined the scene's light color is used instead. * @param {ImageBasedLighting} [options.imageBasedLighting] The properties for managing image-based lighting for this tileset. * @param {Cartesian2} [options.imageBasedLightingFactor=new Cartesian2(1.0, 1.0)] Scales the diffuse and specular image-based lighting from the earth, sky, atmosphere and star skybox. Deprecated in Cesium 1.92, will be removed in Cesium 1.94. * @param {Number} [options.luminanceAtZenith=0.2] The sun's luminance at the zenith in kilo candela per meter squared to use for this model's procedural environment map. Deprecated in Cesium 1.92, will be removed in Cesium 1.94. * @param {Cartesian3[]} [options.sphericalHarmonicCoefficients] The third order spherical harmonic coefficients used for the diffuse color of image-based lighting. Deprecated in Cesium 1.92, will be removed in Cesium 1.94. * @param {String} [options.specularEnvironmentMaps] A URL to a KTX2 file that contains a cube map of the specular lighting and the convoluted specular mipmaps. Deprecated in Cesium 1.92, will be removed in Cesium 1.94. * @param {Boolean} [options.backFaceCulling=true] Whether to cull back-facing geometry. When true, back face culling is determined by the glTF material's doubleSided property; when false, back face culling is disabled. * @param {Boolean} [options.showOutline=true] Whether to display the outline for models using the {@link https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Vendor/CESIUM_primitive_outline|CESIUM_primitive_outline} extension. When true, outlines are displayed. When false, outlines are not displayed. * @param {Boolean} [options.vectorClassificationOnly=false] Indicates that only the tileset's vector tiles should be used for classification. * @param {Boolean} [options.vectorKeepDecodedPositions=false] Whether vector tiles should keep decoded positions in memory. This is used with {@link Cesium3DTileFeature.getPolylinePositions}. * @param {String|Number} [options.featureIdLabel="featureId_0"] Label of the feature ID set to use for picking and styling. For EXT_mesh_features, this is the feature ID's label property, or "featureId_N" (where N is the index in the featureIds array) when not specified. EXT_feature_metadata did not have a label field, so such feature ID sets are always labeled "featureId_N" where N is the index in the list of all feature Ids, where feature ID attributes are listed before feature ID textures. If featureIdLabel is an integer N, it is converted to the string "featureId_N" automatically. If both per-primitive and per-instance feature IDs are present, the instance feature IDs take priority. * @param {String|Number} [options.instanceFeatureIdLabel="instanceFeatureId_0"] Label of the instance feature ID set used for picking and styling. If instanceFeatureIdLabel is set to an integer N, it is converted to the string "instanceFeatureId_N" automatically. If both per-primitive and per-instance feature IDs are present, the instance feature IDs take priority. * @param {Boolean} [options.showCreditsOnScreen=false] Whether to display the credits of this tileset on screen. * @param {SplitDirection} [options.splitDirection=SplitDirection.NONE] The {@link SplitDirection} split to apply to this tileset. * @param {String} [options.debugHeatmapTilePropertyName] The tile variable to colorize as a heatmap. All rendered tiles will be colorized relative to each other's specified variable value. * @param {Boolean} [options.debugFreezeFrame=false] For debugging only. Determines if only the tiles from last frame should be used for rendering. * @param {Boolean} [options.debugColorizeTiles=false] For debugging only. When true, assigns a random color to each tile. * @param {Boolean} [options.debugWireframe=false] For debugging only. When true, render's each tile's content as a wireframe. * @param {Boolean} [options.debugShowBoundingVolume=false] For debugging only. When true, renders the bounding volume for each tile. * @param {Boolean} [options.debugShowContentBoundingVolume=false] For debugging only. When true, renders the bounding volume for each tile's content. * @param {Boolean} [options.debugShowViewerRequestVolume=false] For debugging only. When true, renders the viewer request volume for each tile. * @param {Boolean} [options.debugShowGeometricError=false] For debugging only. When true, draws labels to indicate the geometric error of each tile. * @param {Boolean} [options.debugShowRenderingStatistics=false] For debugging only. When true, draws labels to indicate the number of commands, points, triangles and features for each tile. * @param {Boolean} [options.debugShowMemoryUsage=false] For debugging only. When true, draws labels to indicate the texture and geometry memory in megabytes used by each tile. * @param {Boolean} [options.debugShowUrl=false] For debugging only. When true, draws labels to indicate the url of each tile. * * @exception {DeveloperError} The tileset must be 3D Tiles version 0.0 or 1.0. * * @example * const tileset = scene.primitives.add(new Cesium.Cesium3DTileset({ * url : 'http://localhost:8002/tilesets/Seattle/tileset.json' * })); * * @example * // Common setting for the skipLevelOfDetail optimization * const tileset = scene.primitives.add(new Cesium.Cesium3DTileset({ * url : 'http://localhost:8002/tilesets/Seattle/tileset.json', * skipLevelOfDetail : true, * baseScreenSpaceError : 1024, * skipScreenSpaceErrorFactor : 16, * skipLevels : 1, * immediatelyLoadDesiredLevelOfDetail : false, * loadSiblings : false, * cullWithChildrenBounds : true * })); * * @example * // Common settings for the dynamicScreenSpaceError optimization * const tileset = scene.primitives.add(new Cesium.Cesium3DTileset({ * url : 'http://localhost:8002/tilesets/Seattle/tileset.json', * dynamicScreenSpaceError : true, * dynamicScreenSpaceErrorDensity : 0.00278, * dynamicScreenSpaceErrorFactor : 4.0, * dynamicScreenSpaceErrorHeightFalloff : 0.25 * })); * * @see {@link https://github.com/CesiumGS/3d-tiles/tree/main/specification|3D Tiles specification} */ function Cesium3DTileset(options) { options = defaultValue(options, defaultValue.EMPTY_OBJECT); //>>includeStart('debug', pragmas.debug); Check.defined("options.url", options.url); //>>includeEnd('debug'); this._url = undefined; this._basePath = undefined; this._root = undefined; this._resource = undefined; this._asset = undefined; // Metadata for the entire tileset this._properties = undefined; // Metadata for per-model/point/etc properties this._geometricError = undefined; // Geometric error when the tree is not rendered at all this._extensionsUsed = undefined; this._extensions = undefined; this._gltfUpAxis = undefined; this._cache = new Cesium3DTilesetCache(); this._processingQueue = []; this._selectedTiles = []; this._emptyTiles = []; this._requestedTiles = []; this._selectedTilesToStyle = []; this._loadTimestamp = undefined; this._timeSinceLoad = 0.0; this._updatedVisibilityFrame = 0; this._updatedModelMatrixFrame = 0; this._modelMatrixChanged = false; this._previousModelMatrix = undefined; this._extras = undefined; this._credits = undefined; this._showCreditsOnScreen = defaultValue(options.showCreditsOnScreen, false); this._cullWithChildrenBounds = defaultValue( options.cullWithChildrenBounds, true ); this._allTilesAdditive = true; this._hasMixedContent = false; this._stencilClearCommand = undefined; this._backfaceCommands = new ManagedArray(); this._maximumScreenSpaceError = defaultValue( options.maximumScreenSpaceError, 16 ); this._maximumMemoryUsage = defaultValue(options.maximumMemoryUsage, 512); this._styleEngine = new Cesium3DTileStyleEngine(); this._modelMatrix = defined(options.modelMatrix) ? Matrix4.clone(options.modelMatrix) : Matrix4.clone(Matrix4.IDENTITY); this._statistics = new Cesium3DTilesetStatistics(); this._statisticsLast = new Cesium3DTilesetStatistics(); this._statisticsPerPass = new Array(Cesium3DTilePass.NUMBER_OF_PASSES); for (let i = 0; i < Cesium3DTilePass.NUMBER_OF_PASSES; ++i) { this._statisticsPerPass[i] = new Cesium3DTilesetStatistics(); } this._requestedTilesInFlight = []; this._maximumPriority = { foveatedFactor: -Number.MAX_VALUE, depth: -Number.MAX_VALUE, distance: -Number.MAX_VALUE, reverseScreenSpaceError: -Number.MAX_VALUE, }; this._minimumPriority = { foveatedFactor: Number.MAX_VALUE, depth: Number.MAX_VALUE, distance: Number.MAX_VALUE, reverseScreenSpaceError: Number.MAX_VALUE, }; this._heatmap = new Cesium3DTilesetHeatmap( options.debugHeatmapTilePropertyName ); /** * Optimization option. Don't request tiles that will likely be unused when they come back because of the camera's movement. This optimization only applies to stationary tilesets. * * @type {Boolean} * @default true */ this.cullRequestsWhileMoving = defaultValue( options.cullRequestsWhileMoving, true ); this._cullRequestsWhileMoving = false; /** * Optimization option. Multiplier used in culling requests while moving. Larger is more aggressive culling, smaller less aggressive culling. * * @type {Number} * @default 60.0 */ this.cullRequestsWhileMovingMultiplier = defaultValue( options.cullRequestsWhileMovingMultiplier, 60.0 ); /** * Optimization option. If between (0.0, 0.5], tiles at or above the screen space error for the reduced screen resolution of progressiveResolutionHeightFraction*screenHeight will be prioritized first. This can help get a quick layer of tiles down while full resolution tiles continue to load. * * @type {Number} * @default 0.3 */ this.progressiveResolutionHeightFraction = CesiumMath.clamp( defaultValue(options.progressiveResolutionHeightFraction, 0.3), 0.0, 0.5 ); /** * Optimization option. Prefer loading of leaves first. * * @type {Boolean} * @default false */ this.preferLeaves = defaultValue(options.preferLeaves, false); this._tilesLoaded = false; this._initialTilesLoaded = false; this._tileDebugLabels = undefined; this._readyPromise = defer(); this._classificationType = options.classificationType; this._ellipsoid = defaultValue(options.ellipsoid, Ellipsoid.WGS84); this._initialClippingPlanesOriginMatrix = Matrix4.IDENTITY; // Computed from the tileset JSON. this._clippingPlanesOriginMatrix = undefined; // Combines the above with any run-time transforms. this._clippingPlanesOriginMatrixDirty = true; this._vectorClassificationOnly = defaultValue( options.vectorClassificationOnly, false ); this._vectorKeepDecodedPositions = defaultValue( options.vectorKeepDecodedPositions, false ); /** * Preload tiles when tileset.show is false. Loads tiles as if the tileset is visible but does not render them. * * @type {Boolean} * @default false */ this.preloadWhenHidden = defaultValue(options.preloadWhenHidden, false); /** * Optimization option. Fetch tiles at the camera's flight destination while the camera is in flight. * * @type {Boolean} * @default true */ this.preloadFlightDestinations = defaultValue( options.preloadFlightDestinations, true ); this._pass = undefined; // Cesium3DTilePass /** * Optimization option. Whether the tileset should refine based on a dynamic screen space error. Tiles that are further * away will be rendered with lower detail than closer tiles. This improves performance by rendering fewer * tiles and making less requests, but may result in a slight drop in visual quality for tiles in the distance. * The algorithm is biased towards "street views" where the camera is close to the ground plane of the tileset and looking * at the horizon. In addition results are more accurate for tightly fitting bounding volumes like box and region. * * @type {Boolean} * @default false */ this.dynamicScreenSpaceError = defaultValue( options.dynamicScreenSpaceError, false ); /** * Optimization option. Prioritize loading tiles in the center of the screen by temporarily raising the * screen space error for tiles around the edge of the screen. Screen space error returns to normal once all * the tiles in the center of the screen as determined by the {@link Cesium3DTileset#foveatedConeSize} are loaded. * * @type {Boolean} * @default true */ this.foveatedScreenSpaceError = defaultValue( options.foveatedScreenSpaceError, true ); this._foveatedConeSize = defaultValue(options.foveatedConeSize, 0.1); this._foveatedMinimumScreenSpaceErrorRelaxation = defaultValue( options.foveatedMinimumScreenSpaceErrorRelaxation, 0.0 ); /** * Gets or sets a callback to control how much to raise the screen space error for tiles outside the foveated cone, * interpolating between {@link Cesium3DTileset#foveatedMinimumScreenSpaceErrorRelaxation} and {@link Cesium3DTileset#maximumScreenSpaceError}. * * @type {Cesium3DTileset.foveatedInterpolationCallback} */ this.foveatedInterpolationCallback = defaultValue( options.foveatedInterpolationCallback, CesiumMath.lerp ); /** * Optimization option. Used when {@link Cesium3DTileset#foveatedScreenSpaceError} is true to control * how long in seconds to wait after the camera stops moving before deferred tiles start loading in. * This time delay prevents requesting tiles around the edges of the screen when the camera is moving. * Setting this to 0.0 will immediately request all tiles in any given view. * * @type {Number} * @default 0.2 */ this.foveatedTimeDelay = defaultValue(options.foveatedTimeDelay, 0.2); /** * A scalar that determines the density used to adjust the dynamic screen space error, similar to {@link Fog}. Increasing this * value has the effect of increasing the maximum screen space error for all tiles, but in a non-linear fashion. * The error starts at 0.0 and increases exponentially until a midpoint is reached, and then approaches 1.0 asymptotically. * This has the effect of keeping high detail in the closer tiles and lower detail in the further tiles, with all tiles * beyond a certain distance all roughly having an error of 1.0. *

* The dynamic error is in the range [0.0, 1.0) and is multiplied by dynamicScreenSpaceErrorFactor to produce the * final dynamic error. This dynamic error is then subtracted from the tile's actual screen space error. *

*

* Increasing dynamicScreenSpaceErrorDensity has the effect of moving the error midpoint closer to the camera. * It is analogous to moving fog closer to the camera. *

* * @type {Number} * @default 0.00278 */ this.dynamicScreenSpaceErrorDensity = 0.00278; /** * A factor used to increase the screen space error of tiles for dynamic screen space error. As this value increases less tiles * are requested for rendering and tiles in the distance will have lower detail. If set to zero, the feature will be disabled. * * @type {Number} * @default 4.0 */ this.dynamicScreenSpaceErrorFactor = 4.0; /** * A ratio of the tileset's height at which the density starts to falloff. If the camera is below this height the * full computed density is applied, otherwise the density falls off. This has the effect of higher density at * street level views. *

* Valid values are between 0.0 and 1.0. *

* * @type {Number} * @default 0.25 */ this.dynamicScreenSpaceErrorHeightFalloff = 0.25; this._dynamicScreenSpaceErrorComputedDensity = 0.0; // Updated based on the camera position and direction /** * Determines whether the tileset casts or receives shadows from light sources. *

* Enabling shadows has a performance impact. A tileset that casts shadows must be rendered twice, once from the camera and again from the light's point of view. *

*

* Shadows are rendered only when {@link Viewer#shadows} is true. *

* * @type {ShadowMode} * @default ShadowMode.ENABLED */ this.shadows = defaultValue(options.shadows, ShadowMode.ENABLED); /** * Determines if the tileset will be shown. * * @type {Boolean} * @default true */ this.show = defaultValue(options.show, true); /** * Defines how per-feature colors set from the Cesium API or declarative styling blend with the source colors from * the original feature, e.g. glTF material or per-point color in the tile. * * @type {Cesium3DTileColorBlendMode} * @default Cesium3DTileColorBlendMode.HIGHLIGHT */ this.colorBlendMode = Cesium3DTileColorBlendMode.HIGHLIGHT; /** * Defines the value used to linearly interpolate between the source color and feature color when the {@link Cesium3DTileset#colorBlendMode} is MIX. * A value of 0.0 results in the source color while a value of 1.0 results in the feature color, with any value in-between * resulting in a mix of the source color and feature color. * * @type {Number} * @default 0.5 */ this.colorBlendAmount = 0.5; this._pointCloudShading = new PointCloudShading(options.pointCloudShading); this._pointCloudEyeDomeLighting = new PointCloudEyeDomeLighting(); /** * The event fired to indicate progress of loading new tiles. This event is fired when a new tile * is requested, when a requested tile is finished downloading, and when a downloaded tile has been * processed and is ready to render. *

* The number of pending tile requests, numberOfPendingRequests, and number of tiles * processing, numberOfTilesProcessing are passed to the event listener. *

*

* This event is fired at the end of the frame after the scene is rendered. *

* * @type {Event} * @default new Event() * * @example * tileset.loadProgress.addEventListener(function(numberOfPendingRequests, numberOfTilesProcessing) { * if ((numberOfPendingRequests === 0) && (numberOfTilesProcessing === 0)) { * console.log('Stopped loading'); * return; * } * * console.log('Loading: requests: ' + numberOfPendingRequests + ', processing: ' + numberOfTilesProcessing); * }); */ this.loadProgress = new Event(); /** * The event fired to indicate that all tiles that meet the screen space error this frame are loaded. The tileset * is completely loaded for this view. *

* This event is fired at the end of the frame after the scene is rendered. *

* * @type {Event} * @default new Event() * * @example * tileset.allTilesLoaded.addEventListener(function() { * console.log('All tiles are loaded'); * }); * * @see Cesium3DTileset#tilesLoaded */ this.allTilesLoaded = new Event(); /** * The event fired to indicate that all tiles that meet the screen space error this frame are loaded. This event * is fired once when all tiles in the initial view are loaded. *

* This event is fired at the end of the frame after the scene is rendered. *

* * @type {Event} * @default new Event() * * @example * tileset.initialTilesLoaded.addEventListener(function() { * console.log('Initial tiles are loaded'); * }); * * @see Cesium3DTileset#allTilesLoaded */ this.initialTilesLoaded = new Event(); /** * The event fired to indicate that a tile's content was loaded. *

* The loaded {@link Cesium3DTile} is passed to the event listener. *

*

* This event is fired during the tileset traversal while the frame is being rendered * so that updates to the tile take effect in the same frame. Do not create or modify * Cesium entities or primitives during the event listener. *

* * @type {Event} * @default new Event() * * @example * tileset.tileLoad.addEventListener(function(tile) { * console.log('A tile was loaded.'); * }); */ this.tileLoad = new Event(); /** * The event fired to indicate that a tile's content was unloaded. *

* The unloaded {@link Cesium3DTile} is passed to the event listener. *

*

* This event is fired immediately before the tile's content is unloaded while the frame is being * rendered so that the event listener has access to the tile's content. Do not create * or modify Cesium entities or primitives during the event listener. *

* * @type {Event} * @default new Event() * * @example * tileset.tileUnload.addEventListener(function(tile) { * console.log('A tile was unloaded from the cache.'); * }); * * @see Cesium3DTileset#maximumMemoryUsage * @see Cesium3DTileset#trimLoadedTiles */ this.tileUnload = new Event(); /** * The event fired to indicate that a tile's content failed to load. *

* If there are no event listeners, error messages will be logged to the console. *

*

* The error object passed to the listener contains two properties: *

url: the url of the failed tile.
message: the error message.

*

* If multiple contents are present, this event is raised once per inner content with errors. *

* * @type {Event} * @default new Event() * * @example * tileset.tileFailed.addEventListener(function(error) { * console.log('An error occurred loading tile: ' + error.url); * console.log('Error: ' + error.message); * }); */ this.tileFailed = new Event(); /** * This event fires once for each visible tile in a frame. This can be used to manually * style a tileset. *

* The visible {@link Cesium3DTile} is passed to the event listener. *

*

* This event is fired during the tileset traversal while the frame is being rendered * so that updates to the tile take effect in the same frame. Do not create or modify * Cesium entities or primitives during the event listener. *

* * @type {Event} * @default new Event() * * @example * tileset.tileVisible.addEventListener(function(tile) { * if (tile.content instanceof Cesium.Batched3DModel3DTileContent) { * console.log('A Batched 3D Model tile is visible.'); * } * }); * * @example * // Apply a red style and then manually set random colors for every other feature when the tile becomes visible. * tileset.style = new Cesium.Cesium3DTileStyle({ * color : 'color("red")' * }); * tileset.tileVisible.addEventListener(function(tile) { * const content = tile.content; * const featuresLength = content.featuresLength; * for (let i = 0; i < featuresLength; i+=2) { * content.getFeature(i).color = Cesium.Color.fromRandom(); * } * }); */ this.tileVisible = new Event(); /** * Optimization option. Determines if level of detail skipping should be applied during the traversal. *

* The common strategy for replacement-refinement traversal is to store all levels of the tree in memory and require * all children to be loaded before the parent can refine. With this optimization levels of the tree can be skipped * entirely and children can be rendered alongside their parents. The tileset requires significantly less memory when * using this optimization. *

* * @type {Boolean} * @default false */ this.skipLevelOfDetail = defaultValue(options.skipLevelOfDetail, false); this._skipLevelOfDetail = this.skipLevelOfDetail; this._disableSkipLevelOfDetail = false; /** * The screen space error that must be reached before skipping levels of detail. *

* Only used when {@link Cesium3DTileset#skipLevelOfDetail} is true. *

* * @type {Number} * @default 1024 */ this.baseScreenSpaceError = defaultValue(options.baseScreenSpaceError, 1024); /** * Multiplier defining the minimum screen space error to skip. * For example, if a tile has screen space error of 100, no tiles will be loaded unless they * are leaves or have a screen space error <= 100 / skipScreenSpaceErrorFactor. *

* Only used when {@link Cesium3DTileset#skipLevelOfDetail} is true. *

* * @type {Number} * @default 16 */ this.skipScreenSpaceErrorFactor = defaultValue( options.skipScreenSpaceErrorFactor, 16 ); /** * Constant defining the minimum number of levels to skip when loading tiles. When it is 0, no levels are skipped. * For example, if a tile is level 1, no tiles will be loaded unless they are at level greater than 2. *

* Only used when {@link Cesium3DTileset#skipLevelOfDetail} is true. *

* * @type {Number} * @default 1 */ this.skipLevels = defaultValue(options.skipLevels, 1); /** * When true, only tiles that meet the maximum screen space error will ever be downloaded. * Skipping factors are ignored and just the desired tiles are loaded. *

* Only used when {@link Cesium3DTileset#skipLevelOfDetail} is true. *

* * @type {Boolean} * @default false */ this.immediatelyLoadDesiredLevelOfDetail = defaultValue( options.immediatelyLoadDesiredLevelOfDetail, false ); /** * Determines whether siblings of visible tiles are always downloaded during traversal. * This may be useful for ensuring that tiles are already available when the viewer turns left/right. *

* Only used when {@link Cesium3DTileset#skipLevelOfDetail} is true. *

* * @type {Boolean} * @default false */ this.loadSiblings = defaultValue(options.loadSiblings, false); this._clippingPlanes = undefined; this.clippingPlanes = options.clippingPlanes; const hasIndividualIBLParameters = defined(options.imageBasedLightingFactor) || defined(options.luminanceAtZenith) || defined(options.sphericalHarmonicCoefficients) || defined(options.specularEnvironmentMaps); if (defined(options.imageBasedLighting)) { this._imageBasedLighting = options.imageBasedLighting; this._shouldDestroyImageBasedLighting = false; } else if (hasIndividualIBLParameters) { deprecationWarning( "ImageBasedLightingConstructor", "Individual image-based lighting parameters were deprecated in Cesium 1.92. They will be removed in version 1.94. Use options.imageBasedLighting instead." ); // Create image-based lighting from the old constructor parameters. this._imageBasedLighting = new ImageBasedLighting({ imageBasedLightingFactor: options.imageBasedLightingFactor, luminanceAtZenith: options.luminanceAtZenith, sphericalHarmonicCoefficients: options.sphericalHarmonicCoefficients, specularEnvironmentMaps: options.specularEnvironmentMaps, }); this._shouldDestroyImageBasedLighting = true; } else { this._imageBasedLighting = new ImageBasedLighting(); this._shouldDestroyImageBasedLighting = true; } /** * The light color when shading models. When undefined the scene's light color is used instead. *

* For example, disabling additional light sources by setting model.imageBasedLighting.imageBasedLightingFactor = new Cartesian2(0.0, 0.0) will make the * model much darker. Here, increasing the intensity of the light source will make the model brighter. *

* * @type {Cartesian3} * @default undefined */ this.lightColor = options.lightColor; /** * Whether to cull back-facing geometry. When true, back face culling is determined * by the glTF material's doubleSided property; when false, back face culling is disabled. * * @type {Boolean} * @default true */ this.backFaceCulling = defaultValue(options.backFaceCulling, true); /** * Whether to display the outline for models using the * {@link https://github.com/KhronosGroup/glTF/tree/master/extensions/2.0/Vendor/CESIUM_primitive_outline|CESIUM_primitive_outline} extension. * When true, outlines are displayed. When false, outlines are not displayed. * * @type {Boolean} * @readonly * * @default true */ this.showOutline = defaultValue(options.showOutline, true); /** * The {@link SplitDirection} to apply to this tileset. * * @type {SplitDirection} * @default {@link SplitDirection.NONE} */ this.splitDirection = defaultValue( options.splitDirection, SplitDirection.NONE ); /** * This property is for debugging only; it is not optimized for production use. *

* Determines if only the tiles from last frame should be used for rendering. This * effectively "freezes" the tileset to the previous frame so it is possible to zoom * out and see what was rendered. *

* * @type {Boolean} * @default false */ this.debugFreezeFrame = defaultValue(options.debugFreezeFrame, false); /** * This property is for debugging only; it is not optimized for production use. *

* When true, assigns a random color to each tile. This is useful for visualizing * what features belong to what tiles, especially with additive refinement where features * from parent tiles may be interleaved with features from child tiles. *

* * @type {Boolean} * @default false */ this.debugColorizeTiles = defaultValue(options.debugColorizeTiles, false); /** * This property is for debugging only; it is not optimized for production use. *

* When true, renders each tile's content as a wireframe. *

* * @type {Boolean} * @default false */ this.debugWireframe = defaultValue(options.debugWireframe, false); /** * This property is for debugging only; it is not optimized for production use. *

* When true, renders the bounding volume for each visible tile. The bounding volume is * white if the tile has a content bounding volume or is empty; otherwise, it is red. Tiles that don't meet the * screen space error and are still refining to their descendants are yellow. *

* * @type {Boolean} * @default false */ this.debugShowBoundingVolume = defaultValue( options.debugShowBoundingVolume, false ); /** * This property is for debugging only; it is not optimized for production use. *

* When true, renders the bounding volume for each visible tile's content. The bounding volume is * blue if the tile has a content bounding volume; otherwise it is red. *

* * @type {Boolean} * @default false */ this.debugShowContentBoundingVolume = defaultValue( options.debugShowContentBoundingVolume, false ); /** * This property is for debugging only; it is not optimized for production use. *

* When true, renders the viewer request volume for each tile. *

* * @type {Boolean} * @default false */ this.debugShowViewerRequestVolume = defaultValue( options.debugShowViewerRequestVolume, false ); this._tileDebugLabels = undefined; this.debugPickedTileLabelOnly = false; this.debugPickedTile = undefined; this.debugPickPosition = undefined; /** * This property is for debugging only; it is not optimized for production use. *

* When true, draws labels to indicate the geometric error of each tile. *

* * @type {Boolean} * @default false */ this.debugShowGeometricError = defaultValue( options.debugShowGeometricError, false ); /** * This property is for debugging only; it is not optimized for production use. *

* When true, draws labels to indicate the number of commands, points, triangles and features of each tile. *

* * @type {Boolean} * @default false */ this.debugShowRenderingStatistics = defaultValue( options.debugShowRenderingStatistics, false ); /** * This property is for debugging only; it is not optimized for production use. *

* When true, draws labels to indicate the geometry and texture memory usage of each tile. *

* * @type {Boolean} * @default false */ this.debugShowMemoryUsage = defaultValue(options.debugShowMemoryUsage, false); /** * This property is for debugging only; it is not optimized for production use. *

* When true, draws labels to indicate the url of each tile. *

* * @type {Boolean} * @default false */ this.debugShowUrl = defaultValue(options.debugShowUrl, false); /** * Function for examining vector lines as they are being streamed. * * @experimental This feature is using part of the 3D Tiles spec that is not final and is subject to change without Cesium's standard deprecation policy. * * @type {Function} */ this.examineVectorLinesFunction = undefined; // this is the underlying Cesium3DTileMetadata object, whether it came from // the 3DTILES_metadata extension or a 3D Tiles 1.1 tileset JSON. Getters // like tileset.metadata and tileset.schema will delegate to this object. this._metadataExtension = undefined; this._customShader = options.customShader; /** * If true, {@link ModelExperimental} will be used instead of {@link Model} * for each tile with a glTF or 3D Tiles 1.0 content (where applicable). *

* The value defaults to {@link ExperimentalFeatures.enableModelExperimental}. *

* * @memberof Cesium3DTileset.prototype * @type {Boolean} * @experimental This feature is using part of the 3D Tiles spec that is not final and is subject to change without Cesium's standard deprecation policy. */ this.enableModelExperimental = defaultValue( options.enableModelExperimental, ExperimentalFeatures.enableModelExperimental ); let featureIdLabel = defaultValue(options.featureIdLabel, "featureId_0"); if (typeof featureIdLabel === "number") { featureIdLabel = `featureId_${featureIdLabel}`; } this._featureIdLabel = featureIdLabel; let instanceFeatureIdLabel = defaultValue( options.instanceFeatureIdLabel, "instanceFeatureId_0" ); if (typeof instanceFeatureIdLabel === "number") { instanceFeatureIdLabel = `instanceFeatureId_${instanceFeatureIdLabel}`; } this._instanceFeatureIdLabel = instanceFeatureIdLabel; this._schemaLoader = undefined; const that = this; let resource; Promise.resolve(options.url) .then(function (url) { let basePath; resource = Resource.createIfNeeded(url); that._resource = resource; // ion resources have a credits property we can use for additional attribution. that._credits = resource.credits; if (resource.extension === "json") { basePath = resource.getBaseUri(true); } else if (resource.isDataUri) { basePath = ""; } that._url = resource.url; that._basePath = basePath; return Cesium3DTileset.loadJson(resource); }) .then(function (tilesetJson) { // This needs to be called before loadTileset() so tile metadata // can be initialized synchronously in the Cesium3DTile constructor return processMetadataExtension(that, tilesetJson); }) .then(function (tilesetJson) { that._root = that.loadTileset(resource, tilesetJson); const gltfUpAxis = defined(tilesetJson.asset.gltfUpAxis) ? Axis.fromName(tilesetJson.asset.gltfUpAxis) : Axis.Y; const asset = tilesetJson.asset; that._asset = asset; that._properties = tilesetJson.properties; that._geometricError = tilesetJson.geometricError; that._extensionsUsed = tilesetJson.extensionsUsed; that._extensions = tilesetJson.extensions; that._gltfUpAxis = gltfUpAxis; that._extras = tilesetJson.extras; const extras = asset.extras; if ( defined(extras) && defined(extras.cesium) && defined(extras.cesium.credits) ) { const extraCredits = extras.cesium.credits; let credits = that._credits; if (!defined(credits)) { credits = []; that._credits = credits; } for (let i = 0; i < extraCredits.length; ++i) { const credit = extraCredits[i]; credits.push(new Credit(credit.html, that._showCreditsOnScreen)); } } // Save the original, untransformed bounding volume position so we can apply // the tile transform and model matrix at run time const boundingVolume = that._root.createBoundingVolume( tilesetJson.root.boundingVolume, Matrix4.IDENTITY ); const clippingPlanesOrigin = boundingVolume.boundingSphere.center; // If this origin is above the surface of the earth // we want to apply an ENU orientation as our best guess of orientation. // Otherwise, we assume it gets its position/orientation completely from the // root tile transform and the tileset's model matrix const originCartographic = that._ellipsoid.cartesianToCartographic( clippingPlanesOrigin ); if ( defined(originCartographic) && originCartographic.height > ApproximateTerrainHeights._defaultMinTerrainHeight ) { that._initialClippingPlanesOriginMatrix = Transforms.eastNorthUpToFixedFrame( clippingPlanesOrigin ); } that._clippingPlanesOriginMatrix = Matrix4.clone( that._initialClippingPlanesOriginMatrix ); that._readyPromise.resolve(that); }) .catch(function (error) { that._readyPromise.reject(error); }); } Object.defineProperties(Cesium3DTileset.prototype, { /** * NOTE: This getter exists so that `Picking.js` can differentiate between * PrimitiveCollection and Cesium3DTileset objects without inflating * the size of the module via `instanceof Cesium3DTileset` * @private */ isCesium3DTileset: { get: function () { return true; }, }, /** * Gets the tileset's asset object property, which contains metadata about the tileset. *

* See the {@link https://github.com/CesiumGS/3d-tiles/tree/main/specification#reference-asset|asset schema reference} * in the 3D Tiles spec for the full set of properties. *

* * @memberof Cesium3DTileset.prototype * * @type {Object} * @readonly * * @exception {DeveloperError} The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true. */ asset: { get: function () { //>>includeStart('debug', pragmas.debug); if (!this.ready) { throw new DeveloperError( "The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true." ); } //>>includeEnd('debug'); return this._asset; }, }, /** * Gets the tileset's extensions object property. * * @memberof Cesium3DTileset.prototype * * @type {Object} * @readonly * * @exception {DeveloperError} The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true. */ extensions: { get: function () { //>>includeStart('debug', pragmas.debug); if (!this.ready) { throw new DeveloperError( "The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true." ); } //>>includeEnd('debug'); return this._extensions; }, }, /** * The {@link ClippingPlaneCollection} used to selectively disable rendering the tileset. * * @memberof Cesium3DTileset.prototype * * @type {ClippingPlaneCollection} */ clippingPlanes: { get: function () { return this._clippingPlanes; }, set: function (value) { ClippingPlaneCollection.setOwner(value, this, "_clippingPlanes"); }, }, /** * Gets the tileset's properties dictionary object, which contains metadata about per-feature properties. *

* See the {@link https://github.com/CesiumGS/3d-tiles/tree/main/specification#reference-properties|properties schema reference} * in the 3D Tiles spec for the full set of properties. *

* * @memberof Cesium3DTileset.prototype * * @type {Object} * @readonly * * @exception {DeveloperError} The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true. * * @example * console.log('Maximum building height: ' + tileset.properties.height.maximum); * console.log('Minimum building height: ' + tileset.properties.height.minimum); * * @see Cesium3DTileFeature#getProperty * @see Cesium3DTileFeature#setProperty */ properties: { get: function () { //>>includeStart('debug', pragmas.debug); if (!this.ready) { throw new DeveloperError( "The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true." ); } //>>includeEnd('debug'); return this._properties; }, }, /** * When true, the tileset's root tile is loaded and the tileset is ready to render. * This is set to true right before {@link Cesium3DTileset#readyPromise} is resolved. * * @memberof Cesium3DTileset.prototype * * @type {Boolean} * @readonly * * @default false */ ready: { get: function () { return defined(this._root); }, }, /** * Gets the promise that will be resolved when the tileset's root tile is loaded and the tileset is ready to render. *

* This promise is resolved at the end of the frame before the first frame the tileset is rendered in. *

* * @memberof Cesium3DTileset.prototype * * @type {Promise.} * @readonly * * @example * tileset.readyPromise.then(function(tileset) { * // tile.properties is not defined until readyPromise resolves. * const properties = tileset.properties; * if (Cesium.defined(properties)) { * for (const name in properties) { * console.log(properties[name]); * } * } * }); */ readyPromise: { get: function () { return this._readyPromise.promise; }, }, /** * When true, all tiles that meet the screen space error this frame are loaded. The tileset is * completely loaded for this view. * * @memberof Cesium3DTileset.prototype * * @type {Boolean} * @readonly * * @default false * * @see Cesium3DTileset#allTilesLoaded */ tilesLoaded: { get: function () { return this._tilesLoaded; }, }, /** * The resource used to fetch the tileset JSON file * * @memberof Cesium3DTileset.prototype * * @type {Resource} * @readonly */ resource: { get: function () { return this._resource; }, }, /** * The base path that non-absolute paths in tileset JSON file are relative to. * * @memberof Cesium3DTileset.prototype * * @type {String} * @readonly * @deprecated */ basePath: { get: function () { deprecationWarning( "Cesium3DTileset.basePath", "Cesium3DTileset.basePath has been deprecated. All tiles are relative to the url of the tileset JSON file that contains them. Use the url property instead." ); return this._basePath; }, }, /** * The style, defined using the * {@link https://github.com/CesiumGS/3d-tiles/tree/main/specification/Styling|3D Tiles Styling language}, * applied to each feature in the tileset. *

* Assign undefined to remove the style, which will restore the visual * appearance of the tileset to its default when no style was applied. *

*

* The style is applied to a tile before the {@link Cesium3DTileset#tileVisible} * event is raised, so code in tileVisible can manually set a feature's * properties (e.g. color and show) after the style is applied. When * a new style is assigned any manually set properties are overwritten. *

*

* Use an always "true" condition to specify the Color for all objects that are not * overridden by pre-existing conditions. Otherwise, the default color Cesium.Color.White * will be used. Similarly, use an always "true" condition to specify the show property * for all objects that are not overridden by pre-existing conditions. Otherwise, the * default show value true will be used. *

* * @memberof Cesium3DTileset.prototype * * @type {Cesium3DTileStyle|undefined} * * @default undefined * * @example * tileset.style = new Cesium.Cesium3DTileStyle({ * color : { * conditions : [ * ['${Height} >= 100', 'color("purple", 0.5)'], * ['${Height} >= 50', 'color("red")'], * ['true', 'color("blue")'] * ] * }, * show : '${Height} > 0', * meta : { * description : '"Building id ${id} has height ${Height}."' * } * }); * * @see {@link https://github.com/CesiumGS/3d-tiles/tree/main/specification/Styling|3D Tiles Styling language} */ style: { get: function () { return this._styleEngine.style; }, set: function (value) { this._styleEngine.style = value; }, }, /** * A custom shader to apply to all tiles in the tileset. Only used for * contents that use {@link ModelExperimental}. Using custom shaders with a * {@link Cesium3DTileStyle} may lead to undefined behavior. *

* To enable {@link ModelExperimental}, set {@link ExperimentalFeatures.enableModelExperimental} or tileset.enableModelExperimental to true. *

* * @memberof Cesium3DTileset.prototype * * @type {CustomShader|undefined} * * @default undefined * * @experimental This feature is using part of the 3D Tiles spec that is not final and is subject to change without Cesium's standard deprecation policy. */ customShader: { get: function () { return this._customShader; }, set: function (value) { this._customShader = value; }, }, /** * The tileset's schema, groups, tileset metadata and other details from the * 3DTILES_metadata extension or a 3D Tiles 1.1 tileset JSON. This getter is * for internal use by other classes. * * @memberof Cesium3DTileset.prototype * @type {Cesium3DTilesetMetadata} * @private * @readonly * * @experimental This feature is using part of the 3D Tiles spec that is not final and is subject to change without Cesium's standard deprecation policy. */ metadataExtension: { get: function () { return this._metadataExtension; }, }, /** * The metadata properties attached to the tileset as a whole. * * @memberof Cesium3DTileset.prototype * * @type {TilesetMetadata} * @private * @readonly * * @experimental This feature is using part of the 3D Tiles spec that is not final and is subject to change without Cesium's standard deprecation policy. */ metadata: { get: function () { if (defined(this._metadataExtension)) { return this._metadataExtension.tileset; } return undefined; }, }, /** * The metadata schema used in this tileset. Shorthand for * tileset.metadataExtension.schema * * @memberof Cesium3DTileset.prototype * * @type {MetadataSchema} * @private * @readonly * * @experimental This feature is using part of the 3D Tiles spec that is not final and is subject to change without Cesium's standard deprecation policy. */ schema: { get: function () { if (defined(this._metadataExtension)) { return this._metadataExtension.schema; } return undefined; }, }, /** * The maximum screen space error used to drive level of detail refinement. This value helps determine when a tile * refines to its descendants, and therefore plays a major role in balancing performance with visual quality. *

* A tile's screen space error is roughly equivalent to the number of pixels wide that would be drawn if a sphere with a * radius equal to the tile's geometric error were rendered at the tile's position. If this value exceeds * maximumScreenSpaceError the tile refines to its descendants. *

*

* Depending on the tileset, maximumScreenSpaceError may need to be tweaked to achieve the right balance. * Higher values provide better performance but lower visual quality. *

* * @memberof Cesium3DTileset.prototype * * @type {Number} * @default 16 * * @exception {DeveloperError} maximumScreenSpaceError must be greater than or equal to zero. */ maximumScreenSpaceError: { get: function () { return this._maximumScreenSpaceError; }, set: function (value) { //>>includeStart('debug', pragmas.debug); Check.typeOf.number.greaterThanOrEquals( "maximumScreenSpaceError", value, 0 ); //>>includeEnd('debug'); this._maximumScreenSpaceError = value; }, }, /** * The maximum amount of GPU memory (in MB) that may be used to cache tiles. This value is estimated from * geometry, textures, and batch table textures of loaded tiles. For point clouds, this value also * includes per-point metadata. *

* Tiles not in view are unloaded to enforce this. *

*

* If decreasing this value results in unloading tiles, the tiles are unloaded the next frame. *

*

* If tiles sized more than maximumMemoryUsage are needed * to meet the desired screen space error, determined by {@link Cesium3DTileset#maximumScreenSpaceError}, * for the current view, then the memory usage of the tiles loaded will exceed * maximumMemoryUsage. For example, if the maximum is 256 MB, but * 300 MB of tiles are needed to meet the screen space error, then 300 MB of tiles may be loaded. When * these tiles go out of view, they will be unloaded. *

* * @memberof Cesium3DTileset.prototype * * @type {Number} * @default 512 * * @exception {DeveloperError} maximumMemoryUsage must be greater than or equal to zero. * @see Cesium3DTileset#totalMemoryUsageInBytes */ maximumMemoryUsage: { get: function () { return this._maximumMemoryUsage; }, set: function (value) { //>>includeStart('debug', pragmas.debug); Check.typeOf.number.greaterThanOrEquals("value", value, 0); //>>includeEnd('debug'); this._maximumMemoryUsage = value; }, }, /** * Options for controlling point size based on geometric error and eye dome lighting. * * @memberof Cesium3DTileset.prototype * * @type {PointCloudShading} */ pointCloudShading: { get: function () { return this._pointCloudShading; }, set: function (value) { //>>includeStart('debug', pragmas.debug); Check.defined("pointCloudShading", value); //>>includeEnd('debug'); this._pointCloudShading = value; }, }, /** * The root tile. * * @memberOf Cesium3DTileset.prototype * * @type {Cesium3DTile} * @readonly * * @exception {DeveloperError} The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true. */ root: { get: function () { //>>includeStart('debug', pragmas.debug); if (!this.ready) { throw new DeveloperError( "The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true." ); } //>>includeEnd('debug'); return this._root; }, }, /** * The tileset's bounding sphere. * * @memberof Cesium3DTileset.prototype * * @type {BoundingSphere} * @readonly * * @exception {DeveloperError} The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true. * * @example * const tileset = viewer.scene.primitives.add(new Cesium.Cesium3DTileset({ * url : 'http://localhost:8002/tilesets/Seattle/tileset.json' * })); * * tileset.readyPromise.then(function(tileset) { * // Set the camera to view the newly added tileset * viewer.camera.viewBoundingSphere(tileset.boundingSphere, new Cesium.HeadingPitchRange(0, -0.5, 0)); * }); */ boundingSphere: { get: function () { //>>includeStart('debug', pragmas.debug); if (!this.ready) { throw new DeveloperError( "The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true." ); } //>>includeEnd('debug'); this._root.updateTransform(this._modelMatrix); return this._root.boundingSphere; }, }, /** * A 4x4 transformation matrix that transforms the entire tileset. * * @memberof Cesium3DTileset.prototype * * @type {Matrix4} * @default Matrix4.IDENTITY * * @example * // Adjust a tileset's height from the globe's surface. * const heightOffset = 20.0; * const boundingSphere = tileset.boundingSphere; * const cartographic = Cesium.Cartographic.fromCartesian(boundingSphere.center); * const surface = Cesium.Cartesian3.fromRadians(cartographic.longitude, cartographic.latitude, 0.0); * const offset = Cesium.Cartesian3.fromRadians(cartographic.longitude, cartographic.latitude, heightOffset); * const translation = Cesium.Cartesian3.subtract(offset, surface, new Cesium.Cartesian3()); * tileset.modelMatrix = Cesium.Matrix4.fromTranslation(translation); */ modelMatrix: { get: function () { return this._modelMatrix; }, set: function (value) { this._modelMatrix = Matrix4.clone(value, this._modelMatrix); }, }, /** * Returns the time, in milliseconds, since the tileset was loaded and first updated. * * @memberof Cesium3DTileset.prototype * * @type {Number} * @readonly */ timeSinceLoad: { get: function () { return this._timeSinceLoad; }, }, /** * The total amount of GPU memory in bytes used by the tileset. This value is estimated from * geometry, texture, and batch table textures of loaded tiles. For point clouds, this value also * includes per-point metadata. * * @memberof Cesium3DTileset.prototype * * @type {Number} * @readonly * * @see Cesium3DTileset#maximumMemoryUsage */ totalMemoryUsageInBytes: { get: function () { const statistics = this._statistics; return ( statistics.texturesByteLength + statistics.geometryByteLength + statistics.batchTableByteLength ); }, }, /** * @private */ clippingPlanesOriginMatrix: { get: function () { if (!defined(this._clippingPlanesOriginMatrix)) { return Matrix4.IDENTITY; } if (this._clippingPlanesOriginMatrixDirty) { Matrix4.multiply( this.root.computedTransform, this._initialClippingPlanesOriginMatrix, this._clippingPlanesOriginMatrix ); this._clippingPlanesOriginMatrixDirty = false; } return this._clippingPlanesOriginMatrix; }, }, /** * @private */ styleEngine: { get: function () { return this._styleEngine; }, }, /** * @private */ statistics: { get: function () { return this._statistics; }, }, /** * Determines whether terrain, 3D Tiles or both will be classified by this tileset. *

* This option is only applied to tilesets containing batched 3D models, geometry data, or vector data. Even when undefined, vector data and geometry data * must render as classifications and will default to rendering on both terrain and other 3D Tiles tilesets. *

*

* When enabled for batched 3D model tilesets, there are a few requirements/limitations on the glTF: *

POSITION and _BATCHID semantics are required.
All indices with the same batch id must occupy contiguous sections of the index buffer.
All shaders and techniques are ignored. The generated shader simply multiplies the position by the model-view-projection matrix.
The only supported extensions are CESIUM_RTC and WEB3D_quantized_attributes.
Only one node is supported.
Only one mesh per node is supported.
Only one primitive per mesh is supported.

*

* * @memberof Cesium3DTileset.prototype * * @type {ClassificationType} * @default undefined * * @experimental This feature is using part of the 3D Tiles spec that is not final and is subject to change without Cesium's standard deprecation policy. * @readonly */ classificationType: { get: function () { return this._classificationType; }, }, /** * Gets an ellipsoid describing the shape of the globe. * * @memberof Cesium3DTileset.prototype * * @type {Ellipsoid} * @readonly */ ellipsoid: { get: function () { return this._ellipsoid; }, }, /** * Optimization option. Used when {@link Cesium3DTileset#foveatedScreenSpaceError} is true to control the cone size that determines which tiles are deferred. * Tiles that are inside this cone are loaded immediately. Tiles outside the cone are potentially deferred based on how far outside the cone they are and {@link Cesium3DTileset#foveatedInterpolationCallback} and {@link Cesium3DTileset#foveatedMinimumScreenSpaceErrorRelaxation}. * Setting this to 0.0 means the cone will be the line formed by the camera position and its view direction. Setting this to 1.0 means the cone encompasses the entire field of view of the camera, essentially disabling the effect. * * @memberof Cesium3DTileset.prototype * * @type {Number} * @default 0.3 */ foveatedConeSize: { get: function () { return this._foveatedConeSize; }, set: function (value) { //>>includeStart('debug', pragmas.debug); Check.typeOf.number.greaterThanOrEquals("foveatedConeSize", value, 0.0); Check.typeOf.number.lessThanOrEquals("foveatedConeSize", value, 1.0); //>>includeEnd('debug'); this._foveatedConeSize = value; }, }, /** * Optimization option. Used when {@link Cesium3DTileset#foveatedScreenSpaceError} is true to control the starting screen space error relaxation for tiles outside the foveated cone. * The screen space error will be raised starting with this value up to {@link Cesium3DTileset#maximumScreenSpaceError} based on the provided {@link Cesium3DTileset#foveatedInterpolationCallback}. * * @memberof Cesium3DTileset.prototype * * @type {Number} * @default 0.0 */ foveatedMinimumScreenSpaceErrorRelaxation: { get: function () { return this._foveatedMinimumScreenSpaceErrorRelaxation; }, set: function (value) { //>>includeStart('debug', pragmas.debug); Check.typeOf.number.greaterThanOrEquals( "foveatedMinimumScreenSpaceErrorRelaxation", value, 0.0 ); Check.typeOf.number.lessThanOrEquals( "foveatedMinimumScreenSpaceErrorRelaxation", value, this.maximumScreenSpaceError ); //>>includeEnd('debug'); this._foveatedMinimumScreenSpaceErrorRelaxation = value; }, }, /** * Returns the extras property at the top-level of the tileset JSON, which contains application specific metadata. * Returns undefined if extras does not exist. * * @memberof Cesium3DTileset.prototype * * @exception {DeveloperError} The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true. * * @type {*} * @readonly * * @see {@link https://github.com/CesiumGS/3d-tiles/tree/main/specification#specifying-extensions-and-application-specific-extras|Extras in the 3D Tiles specification.} */ extras: { get: function () { //>>includeStart('debug', pragmas.debug); if (!this.ready) { throw new DeveloperError( "The tileset is not loaded. Use Cesium3DTileset.readyPromise or wait for Cesium3DTileset.ready to be true." ); } //>>includeEnd('debug'); return this._extras; }, }, /** * The properties for managing image-based lighting on this tileset. * * @memberof Cesium3DTileset.prototype * * @type {ImageBasedLighting} */ imageBasedLighting: { get: function () { return this._imageBasedLighting; }, set: function (value) { //>>includeStart('debug', pragmas.debug); Check.typeOf.object("imageBasedLighting", this._imageBasedLighting); //>>includeEnd('debug'); if (value !== this._imageBasedLighting) { if ( this._shouldDestroyImageBasedLighting && !this._imageBasedLighting.isDestroyed() ) { this._imageBasedLighting.destroy(); } this._imageBasedLighting = value; this._shouldDestroyImageBasedLighting = false; } }, }, /** * Cesium adds lighting from the earth, sky, atmosphere, and star skybox. This cartesian is used to scale the final * diffuse and specular lighting contribution from those sources to the final color. A value of 0.0 will disable those light sources. * * @memberof Cesium3DTileset.prototype * * @type {Cartesian2} * @default Cartesian2(1.0, 1.0) */ imageBasedLightingFactor: { get: function () { return this._imageBasedLighting.imageBasedLightingFactor; }, set: function (value) { this._imageBasedLighting.imageBasedLightingFactor = value; }, }, /** * The sun's luminance at the zenith in kilo candela per meter squared to use for this model's procedural environment map. * This is used when {@link Cesium3DTileset#specularEnvironmentMaps} and {@link Cesium3DTileset#sphericalHarmonicCoefficients} are not defined. * * @memberof Cesium3DTileset.prototype * * @type {Number} * @default 0.2 */ luminanceAtZenith: { get: function () { return this._imageBasedLighting.luminanceAtZenith; }, set: function (value) { this._imageBasedLighting.luminanceAtZenith = value; }, }, /** * The third order spherical harmonic coefficients used for the diffuse color of image-based lighting. When undefined, a diffuse irradiance * computed from the atmosphere color is used. *

* There are nine Cartesian3 coefficients. * The order of the coefficients is: L_0,0, L_1,-1, L_1,0, L_1,1, L_2,-2, L_2,-1, L_2,0, L_2,1, L_2,2 *

* * These values can be obtained by preprocessing the environment map using the cmgen tool of * {@link https://github.com/google/filament/releases|Google's Filament project}. This will also generate a KTX file that can be * supplied to {@link Cesium3DTileset#specularEnvironmentMaps}. * * @memberof Cesium3DTileset.prototype * * @type {Cartesian3[]} * * @demo {@link https://sandcastle.cesium.com/index.html?src=Image-Based Lighting.html|Sandcastle Image Based Lighting Demo} * @see {@link https://graphics.stanford.edu/papers/envmap/envmap.pdf|An Efficient Representation for Irradiance Environment Maps} */ sphericalHarmonicCoefficients: { get: function () { return this._imageBasedLighting.sphericalHarmonicCoefficients; }, set: function (value) { this._imageBasedLighting.sphericalHarmonicCoefficients = value; }, }, /** * A URL to a KTX file that contains a cube map of the specular lighting and the convoluted specular mipmaps. * * @memberof Cesium3DTileset.prototype * * @type {String} * * @demo {@link https://sandcastle.cesium.com/index.html?src=Image-Based Lighting.html|Sandcastle Image Based Lighting Demo} * @see Cesium3DTileset#sphericalHarmonicCoefficients */ specularEnvironmentMaps: { get: function () { return this._imageBasedLighting.specularEnvironmentMaps; }, set: function (value) { this._imageBasedLighting.specularEnvironmentMaps = value; }, }, /** * Indicates that only the tileset's vector tiles should be used for classification. * * @memberof Cesium3DTileset.prototype * * @experimental This feature is using part of the 3D Tiles spec that is not final and is subject to change without Cesium's standard deprecation policy. * * @type {Boolean} * @default false */ vectorClassificationOnly: { get: function () { return this._vectorClassificationOnly; }, }, /** * Whether vector tiles should keep decoded positions in memory. * This is used with {@link Cesium3DTileFeature.getPolylinePositions}. * * @memberof Cesium3DTileset.prototype * * @experimental This feature is using part of the 3D Tiles spec that is not final and is subject to change without Cesium's standard deprecation policy. * * @type {Boolean} * @default false */ vectorKeepDecodedPositions: { get: function () { return this._vectorKeepDecodedPositions; }, }, /** * Determines whether the credits of the tileset will be displayed on the screen * * @memberof Cesium3DTileset.prototype * * @type {Boolean} * @default false */ showCreditsOnScreen: { get: function () { return this._showCreditsOnScreen; }, set: function (value) { this._showCreditsOnScreen = value; }, }, /** * Label of the feature ID set to use for picking and styling. *

* For EXT_mesh_features, this is the feature ID's label property, or * "featureId_N" (where N is the index in the featureIds array) when not * specified. EXT_feature_metadata did not have a label field, so such * feature ID sets are always labeled "featureId_N" where N is the index in * the list of all feature Ids, where feature ID attributes are listed before * feature ID textures. *

*

* If featureIdLabel is set to an integer N, it is converted to * the string "featureId_N" automatically. If both per-primitive and * per-instance feature IDs are present, the instance feature IDs take * priority. *

* * @memberof Cesium3DTileset.prototype * * @type {String} * @experimental This feature is using part of the 3D Tiles spec that is not final and is subject to change without Cesium's standard deprecation policy. */ featureIdLabel: { get: function () { return this._featureIdLabel; }, set: function (value) { // indices get converted into featureId_N if (typeof value === "number") { value = `featureId_${value}`; } //>>includeStart('debug', pragmas.debug); Check.typeOf.string("value", value); //>>includeEnd('debug'); this._featureIdLabel = value; }, }, /** * Label of the instance feature ID set used for picking and styling. *

* If instanceFeatureIdLabel is set to an integer N, it is converted to * the string "instanceFeatureId_N" automatically. * If both per-primitive and per-instance feature IDs are present, the * instance feature IDs take priority. *

* * @memberof Cesium3DTileset.prototype * * @type {String} * @experimental This feature is using part of the 3D Tiles spec that is not final and is subject to change without Cesium's standard deprecation policy. */ instanceFeatureIdLabel: { get: function () { return this._instanceFeatureIdLabel; }, set: function (value) { // indices get converted into instanceFeatureId_N if (typeof value === "number") { value = `instanceFeatureId_${value}`; } //>>includeStart('debug', pragmas.debug); Check.typeOf.string("value", value); //>>includeEnd('debug'); this._instanceFeatureIdLabel = value; }, }, }); /** * Provides a hook to override the method used to request the tileset json * useful when fetching tilesets from remote servers * @param {Resource|String} tilesetUrl The url of the json file to be fetched * @returns {Promise.