import ApproximateTerrainHeights from "../Core/ApproximateTerrainHeights.js"; import Cartesian3 from "../Core/Cartesian3.js"; import Check from "../Core/Check.js"; import Color from "../Core/Color.js"; import ColorGeometryInstanceAttribute from "../Core/ColorGeometryInstanceAttribute.js"; import CorridorGeometry from "../Core/CorridorGeometry.js"; import CorridorOutlineGeometry from "../Core/CorridorOutlineGeometry.js"; import defined from "../Core/defined.js"; import DeveloperError from "../Core/DeveloperError.js"; import DistanceDisplayConditionGeometryInstanceAttribute from "../Core/DistanceDisplayConditionGeometryInstanceAttribute.js"; import GeometryInstance from "../Core/GeometryInstance.js"; import Iso8601 from "../Core/Iso8601.js"; import OffsetGeometryInstanceAttribute from "../Core/OffsetGeometryInstanceAttribute.js"; import Rectangle from "../Core/Rectangle.js"; import ShowGeometryInstanceAttribute from "../Core/ShowGeometryInstanceAttribute.js"; import HeightReference from "../Scene/HeightReference.js"; import MaterialAppearance from "../Scene/MaterialAppearance.js"; import PerInstanceColorAppearance from "../Scene/PerInstanceColorAppearance.js"; import ColorMaterialProperty from "./ColorMaterialProperty.js"; import DynamicGeometryUpdater from "./DynamicGeometryUpdater.js"; import GeometryUpdater from "./GeometryUpdater.js"; import GroundGeometryUpdater from "./GroundGeometryUpdater.js"; import Property from "./Property.js"; const scratchColor = new Color(); const defaultOffset = Cartesian3.ZERO; const offsetScratch = new Cartesian3(); const scratchRectangle = new Rectangle(); function CorridorGeometryOptions(entity) { this.id = entity; this.vertexFormat = undefined; this.positions = undefined; this.width = undefined; this.cornerType = undefined; this.height = undefined; this.extrudedHeight = undefined; this.granularity = undefined; this.offsetAttribute = undefined; } /** * A {@link GeometryUpdater} for corridors. * Clients do not normally create this class directly, but instead rely on {@link DataSourceDisplay}. * @alias CorridorGeometryUpdater * @constructor * * @param {Entity} entity The entity containing the geometry to be visualized. * @param {Scene} scene The scene where visualization is taking place. */ function CorridorGeometryUpdater(entity, scene) { GroundGeometryUpdater.call(this, { entity: entity, scene: scene, geometryOptions: new CorridorGeometryOptions(entity), geometryPropertyName: "corridor", observedPropertyNames: ["availability", "corridor"], }); this._onEntityPropertyChanged(entity, "corridor", entity.corridor, undefined); } if (defined(Object.create)) { CorridorGeometryUpdater.prototype = Object.create( GroundGeometryUpdater.prototype ); CorridorGeometryUpdater.prototype.constructor = CorridorGeometryUpdater; } /** * Creates the geometry instance which represents the fill of the geometry. * * @param {JulianDate} time The time to use when retrieving initial attribute values. * @returns {GeometryInstance} The geometry instance representing the filled portion of the geometry. * * @exception {DeveloperError} This instance does not represent a filled geometry. */ CorridorGeometryUpdater.prototype.createFillGeometryInstance = function (time) { //>>includeStart('debug', pragmas.debug); Check.defined("time", time); if (!this._fillEnabled) { throw new DeveloperError( "This instance does not represent a filled geometry." ); } //>>includeEnd('debug'); const entity = this._entity; const isAvailable = entity.isAvailable(time); const attributes = { show: new ShowGeometryInstanceAttribute( isAvailable && entity.isShowing && this._showProperty.getValue(time) && this._fillProperty.getValue(time) ), distanceDisplayCondition: DistanceDisplayConditionGeometryInstanceAttribute.fromDistanceDisplayCondition( this._distanceDisplayConditionProperty.getValue(time) ), offset: undefined, color: undefined, }; if (this._materialProperty instanceof ColorMaterialProperty) { let currentColor; if ( defined(this._materialProperty.color) && (this._materialProperty.color.isConstant || isAvailable) ) { currentColor = this._materialProperty.color.getValue(time, scratchColor); } if (!defined(currentColor)) { currentColor = Color.WHITE; } attributes.color = ColorGeometryInstanceAttribute.fromColor(currentColor); } if (defined(this._options.offsetAttribute)) { attributes.offset = OffsetGeometryInstanceAttribute.fromCartesian3( Property.getValueOrDefault( this._terrainOffsetProperty, time, defaultOffset, offsetScratch ) ); } return new GeometryInstance({ id: entity, geometry: new CorridorGeometry(this._options), attributes: attributes, }); }; /** * Creates the geometry instance which represents the outline of the geometry. * * @param {JulianDate} time The time to use when retrieving initial attribute values. * @returns {GeometryInstance} The geometry instance representing the outline portion of the geometry. * * @exception {DeveloperError} This instance does not represent an outlined geometry. */ CorridorGeometryUpdater.prototype.createOutlineGeometryInstance = function ( time ) { //>>includeStart('debug', pragmas.debug); Check.defined("time", time); if (!this._outlineEnabled) { throw new DeveloperError( "This instance does not represent an outlined geometry." ); } //>>includeEnd('debug'); const entity = this._entity; const isAvailable = entity.isAvailable(time); const outlineColor = Property.getValueOrDefault( this._outlineColorProperty, time, Color.BLACK, scratchColor ); const attributes = { show: new ShowGeometryInstanceAttribute( isAvailable && entity.isShowing && this._showProperty.getValue(time) && this._showOutlineProperty.getValue(time) ), color: ColorGeometryInstanceAttribute.fromColor(outlineColor), distanceDisplayCondition: DistanceDisplayConditionGeometryInstanceAttribute.fromDistanceDisplayCondition( this._distanceDisplayConditionProperty.getValue(time) ), offset: undefined, }; if (defined(this._options.offsetAttribute)) { attributes.offset = OffsetGeometryInstanceAttribute.fromCartesian3( Property.getValueOrDefault( this._terrainOffsetProperty, time, defaultOffset, offsetScratch ) ); } return new GeometryInstance({ id: entity, geometry: new CorridorOutlineGeometry(this._options), attributes: attributes, }); }; CorridorGeometryUpdater.prototype._computeCenter = function (time, result) { const positions = Property.getValueOrUndefined( this._entity.corridor.positions, time ); if (!defined(positions) || positions.length === 0) { return; } return Cartesian3.clone( positions[Math.floor(positions.length / 2.0)], result ); }; CorridorGeometryUpdater.prototype._isHidden = function (entity, corridor) { return ( !defined(corridor.positions) || !defined(corridor.width) || GeometryUpdater.prototype._isHidden.call(this, entity, corridor) ); }; CorridorGeometryUpdater.prototype._isDynamic = function (entity, corridor) { return ( !corridor.positions.isConstant || // !Property.isConstant(corridor.height) || // !Property.isConstant(corridor.extrudedHeight) || // !Property.isConstant(corridor.granularity) || // !Property.isConstant(corridor.width) || // !Property.isConstant(corridor.outlineWidth) || // !Property.isConstant(corridor.cornerType) || // !Property.isConstant(corridor.zIndex) || // (this._onTerrain && !Property.isConstant(this._materialProperty) && !(this._materialProperty instanceof ColorMaterialProperty)) ); }; CorridorGeometryUpdater.prototype._setStaticOptions = function ( entity, corridor ) { let heightValue = Property.getValueOrUndefined( corridor.height, Iso8601.MINIMUM_VALUE ); const heightReferenceValue = Property.getValueOrDefault( corridor.heightReference, Iso8601.MINIMUM_VALUE, HeightReference.NONE ); let extrudedHeightValue = Property.getValueOrUndefined( corridor.extrudedHeight, Iso8601.MINIMUM_VALUE ); const extrudedHeightReferenceValue = Property.getValueOrDefault( corridor.extrudedHeightReference, Iso8601.MINIMUM_VALUE, HeightReference.NONE ); if (defined(extrudedHeightValue) && !defined(heightValue)) { heightValue = 0; } const options = this._options; options.vertexFormat = this._materialProperty instanceof ColorMaterialProperty ? PerInstanceColorAppearance.VERTEX_FORMAT : MaterialAppearance.MaterialSupport.TEXTURED.vertexFormat; options.positions = corridor.positions.getValue( Iso8601.MINIMUM_VALUE, options.positions ); options.width = corridor.width.getValue(Iso8601.MINIMUM_VALUE); options.granularity = Property.getValueOrUndefined( corridor.granularity, Iso8601.MINIMUM_VALUE ); options.cornerType = Property.getValueOrUndefined( corridor.cornerType, Iso8601.MINIMUM_VALUE ); options.offsetAttribute = GroundGeometryUpdater.computeGeometryOffsetAttribute( heightValue, heightReferenceValue, extrudedHeightValue, extrudedHeightReferenceValue ); options.height = GroundGeometryUpdater.getGeometryHeight( heightValue, heightReferenceValue ); extrudedHeightValue = GroundGeometryUpdater.getGeometryExtrudedHeight( extrudedHeightValue, extrudedHeightReferenceValue ); if (extrudedHeightValue === GroundGeometryUpdater.CLAMP_TO_GROUND) { extrudedHeightValue = ApproximateTerrainHeights.getMinimumMaximumHeights( CorridorGeometry.computeRectangle(options, scratchRectangle) ).minimumTerrainHeight; } options.extrudedHeight = extrudedHeightValue; }; CorridorGeometryUpdater.DynamicGeometryUpdater = DynamicCorridorGeometryUpdater; /** * @private */ function DynamicCorridorGeometryUpdater( geometryUpdater, primitives, groundPrimitives ) { DynamicGeometryUpdater.call( this, geometryUpdater, primitives, groundPrimitives ); } if (defined(Object.create)) { DynamicCorridorGeometryUpdater.prototype = Object.create( DynamicGeometryUpdater.prototype ); DynamicCorridorGeometryUpdater.prototype.constructor = DynamicCorridorGeometryUpdater; } DynamicCorridorGeometryUpdater.prototype._isHidden = function ( entity, corridor, time ) { const options = this._options; return ( !defined(options.positions) || !defined(options.width) || DynamicGeometryUpdater.prototype._isHidden.call( this, entity, corridor, time ) ); }; DynamicCorridorGeometryUpdater.prototype._setOptions = function ( entity, corridor, time ) { const options = this._options; let heightValue = Property.getValueOrUndefined(corridor.height, time); const heightReferenceValue = Property.getValueOrDefault( corridor.heightReference, time, HeightReference.NONE ); let extrudedHeightValue = Property.getValueOrUndefined( corridor.extrudedHeight, time ); const extrudedHeightReferenceValue = Property.getValueOrDefault( corridor.extrudedHeightReference, time, HeightReference.NONE ); if (defined(extrudedHeightValue) && !defined(heightValue)) { heightValue = 0; } options.positions = Property.getValueOrUndefined(corridor.positions, time); options.width = Property.getValueOrUndefined(corridor.width, time); options.granularity = Property.getValueOrUndefined( corridor.granularity, time ); options.cornerType = Property.getValueOrUndefined(corridor.cornerType, time); options.offsetAttribute = GroundGeometryUpdater.computeGeometryOffsetAttribute( heightValue, heightReferenceValue, extrudedHeightValue, extrudedHeightReferenceValue ); options.height = GroundGeometryUpdater.getGeometryHeight( heightValue, heightReferenceValue ); extrudedHeightValue = GroundGeometryUpdater.getGeometryExtrudedHeight( extrudedHeightValue, extrudedHeightReferenceValue ); if (extrudedHeightValue === GroundGeometryUpdater.CLAMP_TO_GROUND) { extrudedHeightValue = ApproximateTerrainHeights.getMinimumMaximumHeights( CorridorGeometry.computeRectangle(options, scratchRectangle) ).minimumTerrainHeight; } options.extrudedHeight = extrudedHeightValue; }; export default CorridorGeometryUpdater;