/* This file is automatically rebuilt by the Cesium build process. */ define(['exports', './AxisAlignedBoundingBox-96fb2a8b', './Matrix2-0e286ffc', './RuntimeError-4fdc4459', './when-8166c7dd', './IntersectionTests-30f5d388', './Plane-456cf3fd', './Transforms-de823166'], (function (exports, AxisAlignedBoundingBox, Matrix2, RuntimeError, when, IntersectionTests, Plane, Transforms) { 'use strict'; var scratchCart4 = new Matrix2.Cartesian4(); /** * A plane tangent to the provided ellipsoid at the provided origin. * If origin is not on the surface of the ellipsoid, it's surface projection will be used. * If origin is at the center of the ellipsoid, an exception will be thrown. * @alias EllipsoidTangentPlane * @constructor * * @param {Cartesian3} origin The point on the surface of the ellipsoid where the tangent plane touches. * @param {Ellipsoid} [ellipsoid=Ellipsoid.WGS84] The ellipsoid to use. * * @exception {DeveloperError} origin must not be at the center of the ellipsoid. */ function EllipsoidTangentPlane(origin, ellipsoid) { //>>includeStart('debug', pragmas.debug); RuntimeError.Check.defined("origin", origin); //>>includeEnd('debug'); ellipsoid = when.defaultValue(ellipsoid, Matrix2.Ellipsoid.WGS84); origin = ellipsoid.scaleToGeodeticSurface(origin); //>>includeStart('debug', pragmas.debug); if (!when.defined(origin)) { throw new RuntimeError.DeveloperError( "origin must not be at the center of the ellipsoid." ); } //>>includeEnd('debug'); var eastNorthUp = Transforms.Transforms.eastNorthUpToFixedFrame(origin, ellipsoid); this._ellipsoid = ellipsoid; this._origin = origin; this._xAxis = Matrix2.Cartesian3.fromCartesian4( Matrix2.Matrix4.getColumn(eastNorthUp, 0, scratchCart4) ); this._yAxis = Matrix2.Cartesian3.fromCartesian4( Matrix2.Matrix4.getColumn(eastNorthUp, 1, scratchCart4) ); var normal = Matrix2.Cartesian3.fromCartesian4( Matrix2.Matrix4.getColumn(eastNorthUp, 2, scratchCart4) ); this._plane = Plane.Plane.fromPointNormal(origin, normal); } Object.defineProperties(EllipsoidTangentPlane.prototype, { /** * Gets the ellipsoid. * @memberof EllipsoidTangentPlane.prototype * @type {Ellipsoid} */ ellipsoid: { get: function () { return this._ellipsoid; }, }, /** * Gets the origin. * @memberof EllipsoidTangentPlane.prototype * @type {Cartesian3} */ origin: { get: function () { return this._origin; }, }, /** * Gets the plane which is tangent to the ellipsoid. * @memberof EllipsoidTangentPlane.prototype * @readonly * @type {Plane} */ plane: { get: function () { return this._plane; }, }, /** * Gets the local X-axis (east) of the tangent plane. * @memberof EllipsoidTangentPlane.prototype * @readonly * @type {Cartesian3} */ xAxis: { get: function () { return this._xAxis; }, }, /** * Gets the local Y-axis (north) of the tangent plane. * @memberof EllipsoidTangentPlane.prototype * @readonly * @type {Cartesian3} */ yAxis: { get: function () { return this._yAxis; }, }, /** * Gets the local Z-axis (up) of the tangent plane. * @memberof EllipsoidTangentPlane.prototype * @readonly * @type {Cartesian3} */ zAxis: { get: function () { return this._plane.normal; }, }, }); var tmp = new AxisAlignedBoundingBox.AxisAlignedBoundingBox(); /** * Creates a new instance from the provided ellipsoid and the center * point of the provided Cartesians. * * @param {Cartesian3[]} cartesians The list of positions surrounding the center point. * @param {Ellipsoid} [ellipsoid=Ellipsoid.WGS84] The ellipsoid to use. * @returns {EllipsoidTangentPlane} The new instance of EllipsoidTangentPlane. */ EllipsoidTangentPlane.fromPoints = function (cartesians, ellipsoid) { //>>includeStart('debug', pragmas.debug); RuntimeError.Check.defined("cartesians", cartesians); //>>includeEnd('debug'); var box = AxisAlignedBoundingBox.AxisAlignedBoundingBox.fromPoints(cartesians, tmp); return new EllipsoidTangentPlane(box.center, ellipsoid); }; var scratchProjectPointOntoPlaneRay = new IntersectionTests.Ray(); var scratchProjectPointOntoPlaneCartesian3 = new Matrix2.Cartesian3(); /** * Computes the projection of the provided 3D position onto the 2D plane, radially outward from the {@link EllipsoidTangentPlane.ellipsoid} coordinate system origin. * * @param {Cartesian3} cartesian The point to project. * @param {Cartesian2} [result] The object onto which to store the result. * @returns {Cartesian2} The modified result parameter or a new Cartesian2 instance if none was provided. Undefined if there is no intersection point */ EllipsoidTangentPlane.prototype.projectPointOntoPlane = function ( cartesian, result ) { //>>includeStart('debug', pragmas.debug); RuntimeError.Check.defined("cartesian", cartesian); //>>includeEnd('debug'); var ray = scratchProjectPointOntoPlaneRay; ray.origin = cartesian; Matrix2.Cartesian3.normalize(cartesian, ray.direction); var intersectionPoint = IntersectionTests.IntersectionTests.rayPlane( ray, this._plane, scratchProjectPointOntoPlaneCartesian3 ); if (!when.defined(intersectionPoint)) { Matrix2.Cartesian3.negate(ray.direction, ray.direction); intersectionPoint = IntersectionTests.IntersectionTests.rayPlane( ray, this._plane, scratchProjectPointOntoPlaneCartesian3 ); } if (when.defined(intersectionPoint)) { var v = Matrix2.Cartesian3.subtract( intersectionPoint, this._origin, intersectionPoint ); var x = Matrix2.Cartesian3.dot(this._xAxis, v); var y = Matrix2.Cartesian3.dot(this._yAxis, v); if (!when.defined(result)) { return new Matrix2.Cartesian2(x, y); } result.x = x; result.y = y; return result; } return undefined; }; /** * Computes the projection of the provided 3D positions onto the 2D plane (where possible), radially outward from the global origin. * The resulting array may be shorter than the input array - if a single projection is impossible it will not be included. * * @see EllipsoidTangentPlane.projectPointOntoPlane * * @param {Cartesian3[]} cartesians The array of points to project. * @param {Cartesian2[]} [result] The array of Cartesian2 instances onto which to store results. * @returns {Cartesian2[]} The modified result parameter or a new array of Cartesian2 instances if none was provided. */ EllipsoidTangentPlane.prototype.projectPointsOntoPlane = function ( cartesians, result ) { //>>includeStart('debug', pragmas.debug); RuntimeError.Check.defined("cartesians", cartesians); //>>includeEnd('debug'); if (!when.defined(result)) { result = []; } var count = 0; var length = cartesians.length; for (var i = 0; i < length; i++) { var p = this.projectPointOntoPlane(cartesians[i], result[count]); if (when.defined(p)) { result[count] = p; count++; } } result.length = count; return result; }; /** * Computes the projection of the provided 3D position onto the 2D plane, along the plane normal. * * @param {Cartesian3} cartesian The point to project. * @param {Cartesian2} [result] The object onto which to store the result. * @returns {Cartesian2} The modified result parameter or a new Cartesian2 instance if none was provided. */ EllipsoidTangentPlane.prototype.projectPointToNearestOnPlane = function ( cartesian, result ) { //>>includeStart('debug', pragmas.debug); RuntimeError.Check.defined("cartesian", cartesian); //>>includeEnd('debug'); if (!when.defined(result)) { result = new Matrix2.Cartesian2(); } var ray = scratchProjectPointOntoPlaneRay; ray.origin = cartesian; Matrix2.Cartesian3.clone(this._plane.normal, ray.direction); var intersectionPoint = IntersectionTests.IntersectionTests.rayPlane( ray, this._plane, scratchProjectPointOntoPlaneCartesian3 ); if (!when.defined(intersectionPoint)) { Matrix2.Cartesian3.negate(ray.direction, ray.direction); intersectionPoint = IntersectionTests.IntersectionTests.rayPlane( ray, this._plane, scratchProjectPointOntoPlaneCartesian3 ); } var v = Matrix2.Cartesian3.subtract( intersectionPoint, this._origin, intersectionPoint ); var x = Matrix2.Cartesian3.dot(this._xAxis, v); var y = Matrix2.Cartesian3.dot(this._yAxis, v); result.x = x; result.y = y; return result; }; /** * Computes the projection of the provided 3D positions onto the 2D plane, along the plane normal. * * @see EllipsoidTangentPlane.projectPointToNearestOnPlane * * @param {Cartesian3[]} cartesians The array of points to project. * @param {Cartesian2[]} [result] The array of Cartesian2 instances onto which to store results. * @returns {Cartesian2[]} The modified result parameter or a new array of Cartesian2 instances if none was provided. This will have the same length as cartesians. */ EllipsoidTangentPlane.prototype.projectPointsToNearestOnPlane = function ( cartesians, result ) { //>>includeStart('debug', pragmas.debug); RuntimeError.Check.defined("cartesians", cartesians); //>>includeEnd('debug'); if (!when.defined(result)) { result = []; } var length = cartesians.length; result.length = length; for (var i = 0; i < length; i++) { result[i] = this.projectPointToNearestOnPlane(cartesians[i], result[i]); } return result; }; var projectPointsOntoEllipsoidScratch = new Matrix2.Cartesian3(); /** * Computes the projection of the provided 2D position onto the 3D ellipsoid. * * @param {Cartesian2} cartesian The points to project. * @param {Cartesian3} [result] The Cartesian3 instance to store result. * @returns {Cartesian3} The modified result parameter or a new Cartesian3 instance if none was provided. */ EllipsoidTangentPlane.prototype.projectPointOntoEllipsoid = function ( cartesian, result ) { //>>includeStart('debug', pragmas.debug); RuntimeError.Check.defined("cartesian", cartesian); //>>includeEnd('debug'); if (!when.defined(result)) { result = new Matrix2.Cartesian3(); } var ellipsoid = this._ellipsoid; var origin = this._origin; var xAxis = this._xAxis; var yAxis = this._yAxis; var tmp = projectPointsOntoEllipsoidScratch; Matrix2.Cartesian3.multiplyByScalar(xAxis, cartesian.x, tmp); result = Matrix2.Cartesian3.add(origin, tmp, result); Matrix2.Cartesian3.multiplyByScalar(yAxis, cartesian.y, tmp); Matrix2.Cartesian3.add(result, tmp, result); ellipsoid.scaleToGeocentricSurface(result, result); return result; }; /** * Computes the projection of the provided 2D positions onto the 3D ellipsoid. * * @param {Cartesian2[]} cartesians The array of points to project. * @param {Cartesian3[]} [result] The array of Cartesian3 instances onto which to store results. * @returns {Cartesian3[]} The modified result parameter or a new array of Cartesian3 instances if none was provided. */ EllipsoidTangentPlane.prototype.projectPointsOntoEllipsoid = function ( cartesians, result ) { //>>includeStart('debug', pragmas.debug); RuntimeError.Check.defined("cartesians", cartesians); //>>includeEnd('debug'); var length = cartesians.length; if (!when.defined(result)) { result = new Array(length); } else { result.length = length; } for (var i = 0; i < length; ++i) { result[i] = this.projectPointOntoEllipsoid(cartesians[i], result[i]); } return result; }; exports.EllipsoidTangentPlane = EllipsoidTangentPlane; }));