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- "use strict";
- Object.defineProperty(exports, "__esModule", { value: true });
- // https://en.wikipedia.org/wiki/Rhumb_line
- var helpers_1 = require("@turf/helpers");
- var invariant_1 = require("@turf/invariant");
- /**
- * Takes two {@link Point|points} and finds the bearing angle between them along a Rhumb line
- * i.e. the angle measured in degrees start the north line (0 degrees)
- *
- * @name rhumbBearing
- * @param {Coord} start starting Point
- * @param {Coord} end ending Point
- * @param {Object} [options] Optional parameters
- * @param {boolean} [options.final=false] calculates the final bearing if true
- * @returns {number} bearing from north in decimal degrees, between -180 and 180 degrees (positive clockwise)
- * @example
- * var point1 = turf.point([-75.343, 39.984], {"marker-color": "#F00"});
- * var point2 = turf.point([-75.534, 39.123], {"marker-color": "#00F"});
- *
- * var bearing = turf.rhumbBearing(point1, point2);
- *
- * //addToMap
- * var addToMap = [point1, point2];
- * point1.properties.bearing = bearing;
- * point2.properties.bearing = bearing;
- */
- function rhumbBearing(start, end, options) {
- if (options === void 0) { options = {}; }
- var bear360;
- if (options.final) {
- bear360 = calculateRhumbBearing(invariant_1.getCoord(end), invariant_1.getCoord(start));
- }
- else {
- bear360 = calculateRhumbBearing(invariant_1.getCoord(start), invariant_1.getCoord(end));
- }
- var bear180 = bear360 > 180 ? -(360 - bear360) : bear360;
- return bear180;
- }
- /**
- * Returns the bearing from ‘this’ point to destination point along a rhumb line.
- * Adapted from Geodesy: https://github.com/chrisveness/geodesy/blob/master/latlon-spherical.js
- *
- * @private
- * @param {Array<number>} from - origin point.
- * @param {Array<number>} to - destination point.
- * @returns {number} Bearing in degrees from north.
- * @example
- * var p1 = new LatLon(51.127, 1.338);
- * var p2 = new LatLon(50.964, 1.853);
- * var d = p1.rhumbBearingTo(p2); // 116.7 m
- */
- function calculateRhumbBearing(from, to) {
- // φ => phi
- // Δλ => deltaLambda
- // Δψ => deltaPsi
- // θ => theta
- var phi1 = helpers_1.degreesToRadians(from[1]);
- var phi2 = helpers_1.degreesToRadians(to[1]);
- var deltaLambda = helpers_1.degreesToRadians(to[0] - from[0]);
- // if deltaLambdaon over 180° take shorter rhumb line across the anti-meridian:
- if (deltaLambda > Math.PI) {
- deltaLambda -= 2 * Math.PI;
- }
- if (deltaLambda < -Math.PI) {
- deltaLambda += 2 * Math.PI;
- }
- var deltaPsi = Math.log(Math.tan(phi2 / 2 + Math.PI / 4) / Math.tan(phi1 / 2 + Math.PI / 4));
- var theta = Math.atan2(deltaLambda, deltaPsi);
- return (helpers_1.radiansToDegrees(theta) + 360) % 360;
- }
- exports.default = rhumbBearing;
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