2023-08-04 19:08:16 -04:00
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/**
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* Based off of [the offical Google document](https://developers.google.com/maps/documentation/utilities/polylinealgorithm)
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*
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* Some parts from [this implementation](http://facstaff.unca.edu/mcmcclur/GoogleMaps/EncodePolyline/PolylineEncoder.js)
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* by [Mark McClure](http://facstaff.unca.edu/mcmcclur/)
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*
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* @module polyline
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*/
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var polyline = {};
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function py2_round(value) {
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2024-02-24 11:09:34 -05:00
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// Google's polyline algorithm uses the same rounding strategy as Python 2, which is different from JS for negative values
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return Math.floor(Math.abs(value) + 0.5) * (value >= 0 ? 1 : -1);
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2023-08-04 19:08:16 -04:00
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}
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function encode(current, previous, factor) {
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current = py2_round(current * factor);
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previous = py2_round(previous * factor);
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var coordinate = (current - previous) * 2;
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if (coordinate < 0) {
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coordinate = -coordinate - 1;
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}
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var output = '';
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while (coordinate >= 0x20) {
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output += String.fromCharCode((0x20 | (coordinate & 0x1f)) + 63);
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coordinate /= 32;
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}
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output += String.fromCharCode((coordinate | 0) + 63);
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return output;
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2023-08-04 19:08:16 -04:00
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}
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/**
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* Decodes to a [latitude, longitude] coordinates array.
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*
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* This is adapted from the implementation in Project-OSRM.
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*
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* @param {String} str
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* @param {Number} precision
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* @returns {Array}
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*
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* @see https://github.com/Project-OSRM/osrm-frontend/blob/master/WebContent/routing/OSRM.RoutingGeometry.js
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*/
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polyline.decode = function (str, precision) {
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var index = 0,
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lat = 0,
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lng = 0,
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coordinates = [],
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shift = 0,
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result = 0,
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byte = null,
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latitude_change,
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longitude_change,
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factor = Math.pow(10, Number.isInteger(precision) ? precision : 5);
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// Coordinates have variable length when encoded, so just keep
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// track of whether we've hit the end of the string. In each
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// loop iteration, a single coordinate is decoded.
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while (index < str.length) {
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// Reset shift, result, and byte
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byte = null;
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shift = 1;
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result = 0;
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do {
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byte = str.charCodeAt(index++) - 63;
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result += (byte & 0x1f) * shift;
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shift *= 32;
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} while (byte >= 0x20);
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latitude_change = result & 1 ? (-result - 1) / 2 : result / 2;
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shift = 1;
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result = 0;
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do {
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byte = str.charCodeAt(index++) - 63;
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result += (byte & 0x1f) * shift;
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shift *= 32;
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} while (byte >= 0x20);
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longitude_change = result & 1 ? (-result - 1) / 2 : result / 2;
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lat += latitude_change;
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lng += longitude_change;
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coordinates.push([lat / factor, lng / factor]);
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}
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return coordinates;
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2023-08-04 19:08:16 -04:00
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};
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/**
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* Encodes the given [latitude, longitude] coordinates array.
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*
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* @param {Array.<Array.<Number>>} coordinates
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* @param {Number} precision
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* @returns {String}
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*/
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polyline.encode = function (coordinates, precision) {
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if (!coordinates.length) {
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return '';
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}
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var factor = Math.pow(10, Number.isInteger(precision) ? precision : 5),
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output =
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encode(coordinates[0][0], 0, factor) +
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encode(coordinates[0][1], 0, factor);
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for (var i = 1; i < coordinates.length; i++) {
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var a = coordinates[i],
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b = coordinates[i - 1];
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output += encode(a[0], b[0], factor);
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output += encode(a[1], b[1], factor);
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}
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return output;
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2023-08-04 19:08:16 -04:00
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};
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function flipped(coords) {
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var flipped = [];
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for (var i = 0; i < coords.length; i++) {
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var coord = coords[i].slice();
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flipped.push([coord[1], coord[0]]);
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}
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return flipped;
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2023-08-04 19:08:16 -04:00
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}
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/**
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* Encodes a GeoJSON LineString feature/geometry.
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*
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* @param {Object} geojson
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* @param {Number} precision
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* @returns {String}
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*/
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polyline.fromGeoJSON = function (geojson, precision) {
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if (geojson && geojson.type === 'Feature') {
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geojson = geojson.geometry;
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}
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if (!geojson || geojson.type !== 'LineString') {
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throw new Error('Input must be a GeoJSON LineString');
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}
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return polyline.encode(flipped(geojson.coordinates), precision);
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};
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/**
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* Decodes to a GeoJSON LineString geometry.
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*
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* @param {String} str
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* @param {Number} precision
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* @returns {Object}
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*/
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polyline.toGeoJSON = function (str, precision) {
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var coords = polyline.decode(str, precision);
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return {
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type: 'LineString',
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coordinates: flipped(coords),
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};
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};
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let polyline_decode = polyline.decode;
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export {polyline_decode as decode};
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