Fix pjax and inline editable fields in admin
This commit is contained in:
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16
package-lock.json
generated
16
package-lock.json
generated
@ -2,9 +2,6 @@
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"requires": true,
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"lockfileVersion": 1,
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"dependencies": {
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"Leaflet.Geodesic": {
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"version": "git+https://git@github.com/henrythasler/Leaflet.Geodesic.git#c5dd6d6a0ee394d0c274d2a3a09d69a11fc11b8b"
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},
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"abbrev": {
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"version": "1.1.1",
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"resolved": "https://registry.npmjs.org/abbrev/-/abbrev-1.1.1.tgz",
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@ -1203,14 +1200,6 @@
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"resolved": "https://registry.npmjs.org/bootstrap/-/bootstrap-3.3.7.tgz",
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"integrity": "sha1-WjiTlFSfIzMIdaOxUGVldPip63E="
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},
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"bootstrap-datepicker": {
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"version": "1.7.1",
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"resolved": "https://registry.npmjs.org/bootstrap-datepicker/-/bootstrap-datepicker-1.7.1.tgz",
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"integrity": "sha1-Tuf680iI2+x4NPv52+fEJ34B3a8=",
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"requires": {
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"jquery": "3.2.1"
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}
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},
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"bootstrap-sass": {
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"version": "3.3.7",
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"resolved": "https://registry.npmjs.org/bootstrap-sass/-/bootstrap-sass-3.3.7.tgz",
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@ -5481,6 +5470,11 @@
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"resolved": "https://registry.npmjs.org/jquery-mousewheel/-/jquery-mousewheel-3.1.13.tgz",
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"integrity": "sha1-BvAzXxbjU6aV5yBr9QUDy1I6buU="
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},
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"jquery-pjax": {
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"version": "2.0.1",
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"resolved": "https://registry.npmjs.org/jquery-pjax/-/jquery-pjax-2.0.1.tgz",
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"integrity": "sha1-azoboW5kTmJL3P5y62s9lqhG9fI="
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},
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"js-base64": {
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"version": "2.4.0",
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"resolved": "https://registry.npmjs.org/js-base64/-/js-base64-2.4.0.tgz",
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@ -18,6 +18,7 @@
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"eonasdan-bootstrap-datetimepicker": "^4.17.47",
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"icheck": "^1.0.2",
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"jquery": "^3.2.1",
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"jquery-pjax": "^2.0.1",
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"laravel-mix": "^1.0",
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"leaflet": "^1.2.0",
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"leaflet-ajax": "2.1.0",
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BIN
public/assets/admin/css/clear.png
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public/assets/admin/css/clear.png
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After Width: | Height: | Size: 509 B |
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public/assets/admin/css/loading.gif
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public/assets/admin/css/loading.gif
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After Width: | Height: | Size: 1.8 KiB |
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@ -39766,555 +39766,6 @@ module.exports = (function() {
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},{}]},{},[1])
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(1)
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});
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"use strict";
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// This file is part of Leaflet.Geodesic.
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// Copyright (C) 2017 Henry Thasler
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// based on code by Chris Veness Copyright (C) 2014 https://github.com/chrisveness/geodesy
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//
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// Leaflet.Geodesic is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// Leaflet.Geodesic is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with Leaflet.Geodesic. If not, see <http://www.gnu.org/licenses/>.
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/** Extend Number object with method to convert numeric degrees to radians */
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if (typeof Number.prototype.toRadians === "undefined") {
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Number.prototype.toRadians = function() {
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return this * Math.PI / 180
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}
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}
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/** Extend Number object with method to convert radians to numeric (signed) degrees */
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if (typeof Number.prototype.toDegrees === "undefined") {
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Number.prototype.toDegrees = function() {
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return this * 180 / Math.PI
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}
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}
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const INTERSECT_LNG = 179.999 // Lng used for intersection and wrap around on map edges
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L.Geodesic = L.Polyline.extend({
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options: {
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color: "blue",
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steps: 10,
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dash: 1,
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wrap: true
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},
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initialize: function(latlngs, options) {
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this.options = this._merge_options(this.options, options)
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this.datum = {}
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this.datum.ellipsoid = {
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a: 6378137,
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b: 6356752.3142,
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f: 1 / 298.257223563
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} // WGS-84
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this._latlngs = (this.options.dash < 1) ? this._generate_GeodesicDashed(
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latlngs) : this._generate_Geodesic(latlngs)
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L.Polyline.prototype.initialize.call(this, this._latlngs, this.options)
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},
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setLatLngs: function(latlngs) {
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this._latlngs = (this.options.dash < 1) ? this._generate_GeodesicDashed(
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latlngs) : this._generate_Geodesic(latlngs)
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L.Polyline.prototype.setLatLngs.call(this, this._latlngs)
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},
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/**
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* Calculates some statistic values of current geodesic multipolyline
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* @returns (Object} Object with several properties (e.g. overall distance)
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*/
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getStats: function() {
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let obj = {
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distance: 0,
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points: 0,
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polygons: this._latlngs.length
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},
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poly, points
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for (poly = 0; poly < this._latlngs.length; poly++) {
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obj.points += this._latlngs[poly].length
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for (points = 0; points < (this._latlngs[poly].length - 1); points++) {
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obj.distance += this._vincenty_inverse(this._latlngs[poly][points],
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this._latlngs[poly][points + 1]).distance
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}
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}
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return obj
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},
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/**
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* Creates geodesic lines from geoJson. Replaces all current features of this instance.
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* Supports LineString, MultiLineString and Polygon
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* @param {Object} geojson - geosjon as object.
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*/
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geoJson: function(geojson) {
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let normalized = L.GeoJSON.asFeature(geojson)
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let features = normalized.type === "FeatureCollection" ? normalized.features : [
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normalized
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]
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this._latlngs = []
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for (let feature of features) {
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let geometry = feature.type === "Feature" ? feature.geometry :
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feature,
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coords = geometry.coordinates
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switch (geometry.type) {
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case "LineString":
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this._latlngs.push(this._generate_Geodesic([L.GeoJSON.coordsToLatLngs(
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coords, 0)]))
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break
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case "MultiLineString":
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case "Polygon":
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this._latlngs.push(this._generate_Geodesic(L.GeoJSON.coordsToLatLngs(
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coords, 1)))
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break
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case "Point":
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case "MultiPoint":
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console.log("Dude, points can't be drawn as geodesic lines...")
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break
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default:
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console.log("Drawing " + geometry.type +
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" as a geodesic is not supported. Skipping...")
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}
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}
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L.Polyline.prototype.setLatLngs.call(this, this._latlngs)
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},
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/**
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* Creates a great circle. Replaces all current lines.
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* @param {Object} center - geographic position
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* @param {number} radius - radius of the circle in metres
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*/
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createCircle: function(center, radius) {
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let polylineIndex = 0
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let prev = {
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lat: 0,
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lng: 0,
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brg: 0
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}
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let step
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this._latlngs = []
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this._latlngs[polylineIndex] = []
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let direct = this._vincenty_direct(L.latLng(center), 0, radius, this.options
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.wrap)
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prev = L.latLng(direct.lat, direct.lng)
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this._latlngs[polylineIndex].push(prev)
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for (step = 1; step <= this.options.steps;) {
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direct = this._vincenty_direct(L.latLng(center), 360 / this.options
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.steps * step, radius, this.options.wrap)
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let gp = L.latLng(direct.lat, direct.lng)
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if (Math.abs(gp.lng - prev.lng) > 180) {
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let inverse = this._vincenty_inverse(prev, gp)
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let sec = this._intersection(prev, inverse.initialBearing, {
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lat: -89,
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lng: ((gp.lng - prev.lng) > 0) ? -INTERSECT_LNG : INTERSECT_LNG
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}, 0)
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if (sec) {
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this._latlngs[polylineIndex].push(L.latLng(sec.lat, sec.lng))
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polylineIndex++
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this._latlngs[polylineIndex] = []
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prev = L.latLng(sec.lat, -sec.lng)
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this._latlngs[polylineIndex].push(prev)
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} else {
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polylineIndex++
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this._latlngs[polylineIndex] = []
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this._latlngs[polylineIndex].push(gp)
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prev = gp
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step++
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}
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} else {
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this._latlngs[polylineIndex].push(gp)
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prev = gp
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step++
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}
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}
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L.Polyline.prototype.setLatLngs.call(this, this._latlngs)
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},
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/**
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* Creates a geodesic Polyline from given coordinates
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* @param {Object} latlngs - One or more polylines as an array. See Leaflet doc about Polyline
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* @returns (Object} An array of arrays of geographical points.
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*/
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_generate_Geodesic: function(latlngs) {
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let _geo = [],
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_geocnt = 0,
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s, poly, points, pointA, pointB
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for (poly = 0; poly < latlngs.length; poly++) {
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_geo[_geocnt] = []
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for (points = 0; points < (latlngs[poly].length - 1); points++) {
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pointA = L.latLng(latlngs[poly][points])
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pointB = L.latLng(latlngs[poly][points + 1])
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if (pointA.equals(pointB)) {
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continue;
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}
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let inverse = this._vincenty_inverse(pointA, pointB)
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let prev = pointA
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_geo[_geocnt].push(prev)
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for (s = 1; s <= this.options.steps;) {
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let direct = this._vincenty_direct(pointA, inverse.initialBearing,
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inverse.distance / this.options.steps * s, this.options.wrap
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)
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let gp = L.latLng(direct.lat, direct.lng)
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if (Math.abs(gp.lng - prev.lng) > 180) {
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let sec = this._intersection(pointA, inverse.initialBearing, {
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lat: -89,
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lng: ((gp.lng - prev.lng) > 0) ? -INTERSECT_LNG : INTERSECT_LNG
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}, 0)
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if (sec) {
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_geo[_geocnt].push(L.latLng(sec.lat, sec.lng))
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_geocnt++
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_geo[_geocnt] = []
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prev = L.latLng(sec.lat, -sec.lng)
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_geo[_geocnt].push(prev)
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} else {
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_geocnt++
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_geo[_geocnt] = []
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_geo[_geocnt].push(gp)
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prev = gp
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s++
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}
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} else {
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_geo[_geocnt].push(gp)
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prev = gp
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s++
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}
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}
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}
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_geocnt++
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}
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return _geo
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},
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/**
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* Creates a dashed geodesic Polyline from given coordinates - under work
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* @param {Object} latlngs - One or more polylines as an array. See Leaflet doc about Polyline
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* @returns (Object} An array of arrays of geographical points.
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*/
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_generate_GeodesicDashed: function(latlngs) {
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let _geo = [],
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_geocnt = 0,
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s, poly, points
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// _geo = latlngs; // bypass
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for (poly = 0; poly < latlngs.length; poly++) {
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_geo[_geocnt] = []
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for (points = 0; points < (latlngs[poly].length - 1); points++) {
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let inverse = this._vincenty_inverse(L.latLng(latlngs[poly][
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points
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]), L.latLng(latlngs[poly][points + 1]))
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let prev = L.latLng(latlngs[poly][points])
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_geo[_geocnt].push(prev)
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for (s = 1; s <= this.options.steps;) {
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let direct = this._vincenty_direct(L.latLng(latlngs[poly][
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points
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]), inverse.initialBearing, inverse.distance / this.options
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.steps * s - inverse.distance / this.options.steps * (1 -
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this.options.dash), this.options.wrap)
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let gp = L.latLng(direct.lat, direct.lng)
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if (Math.abs(gp.lng - prev.lng) > 180) {
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let sec = this._intersection(L.latLng(latlngs[poly][points]),
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inverse.initialBearing, {
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lat: -89,
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lng: ((gp.lng - prev.lng) > 0) ? -INTERSECT_LNG : INTERSECT_LNG
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}, 0)
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if (sec) {
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_geo[_geocnt].push(L.latLng(sec.lat, sec.lng))
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_geocnt++
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_geo[_geocnt] = []
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prev = L.latLng(sec.lat, -sec.lng)
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_geo[_geocnt].push(prev)
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} else {
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_geocnt++
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_geo[_geocnt] = []
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_geo[_geocnt].push(gp)
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prev = gp
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s++
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}
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} else {
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_geo[_geocnt].push(gp)
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_geocnt++
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let direct2 = this._vincenty_direct(L.latLng(latlngs[poly][
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points
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]), inverse.initialBearing, inverse.distance / this.options
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.steps * s, this.options.wrap)
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_geo[_geocnt] = []
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_geo[_geocnt].push(L.latLng(direct2.lat, direct2.lng))
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s++
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}
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}
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}
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_geocnt++
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}
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return _geo
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},
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/**
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* Vincenty direct calculation.
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* based on the work of Chris Veness (https://github.com/chrisveness/geodesy)
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*
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* @private
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* @param {number} initialBearing - Initial bearing in degrees from north.
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* @param {number} distance - Distance along bearing in metres.
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* @returns (Object} Object including point (destination point), finalBearing.
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*/
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_vincenty_direct: function(p1, initialBearing, distance, wrap) {
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var φ1 = p1.lat.toRadians(),
|
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λ1 = p1.lng.toRadians();
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var α1 = initialBearing.toRadians();
|
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var s = distance;
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var a = this.datum.ellipsoid.a,
|
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b = this.datum.ellipsoid.b,
|
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f = this.datum.ellipsoid.f;
|
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|
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var sinα1 = Math.sin(α1);
|
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var cosα1 = Math.cos(α1);
|
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var tanU1 = (1 - f) * Math.tan(φ1),
|
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cosU1 = 1 / Math.sqrt((1 + tanU1 * tanU1)),
|
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sinU1 = tanU1 * cosU1;
|
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var σ1 = Math.atan2(tanU1, cosα1);
|
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var sinα = cosU1 * sinα1;
|
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var cosSqα = 1 - sinα * sinα;
|
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var uSq = cosSqα * (a * a - b * b) / (b * b);
|
||||
var A = 1 + uSq / 16384 * (4096 + uSq * (-768 + uSq * (320 - 175 *
|
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uSq)));
|
||||
var B = uSq / 1024 * (256 + uSq * (-128 + uSq * (74 - 47 * uSq)));
|
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|
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var σ = s / (b * A),
|
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σʹ, iterations = 0;
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do {
|
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var cos2σM = Math.cos(2 * σ1 + σ);
|
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var sinσ = Math.sin(σ);
|
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var cosσ = Math.cos(σ);
|
||||
var Δσ = B * sinσ * (cos2σM + B / 4 * (cosσ * (-1 + 2 * cos2σM *
|
||||
cos2σM) -
|
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B / 6 * cos2σM * (-3 + 4 * sinσ * sinσ) * (-3 + 4 * cos2σM *
|
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cos2σM)));
|
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σʹ = σ;
|
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σ = s / (b * A) + Δσ;
|
||||
} while (Math.abs(σ - σʹ) > 1e-12 && ++iterations);
|
||||
|
||||
var x = sinU1 * sinσ - cosU1 * cosσ * cosα1;
|
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var φ2 = Math.atan2(sinU1 * cosσ + cosU1 * sinσ * cosα1, (1 - f) *
|
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Math.sqrt(sinα * sinα + x * x));
|
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var λ = Math.atan2(sinσ * sinα1, cosU1 * cosσ - sinU1 * sinσ * cosα1);
|
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var C = f / 16 * cosSqα * (4 + f * (4 - 3 * cosSqα));
|
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var L = λ - (1 - C) * f * sinα *
|
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(σ + C * sinσ * (cos2σM + C * cosσ * (-1 + 2 * cos2σM * cos2σM)));
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|
||||
if (wrap)
|
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var λ2 = (λ1 + L + 3 * Math.PI) % (2 * Math.PI) - Math.PI; // normalise to -180...+180
|
||||
else
|
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var λ2 = (λ1 + L); // do not normalize
|
||||
|
||||
var revAz = Math.atan2(sinα, -x);
|
||||
|
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return {
|
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lat: φ2.toDegrees(),
|
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lng: λ2.toDegrees(),
|
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finalBearing: revAz.toDegrees()
|
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};
|
||||
},
|
||||
|
||||
/**
|
||||
* Vincenty inverse calculation.
|
||||
* based on the work of Chris Veness (https://github.com/chrisveness/geodesy)
|
||||
*
|
||||
* @private
|
||||
* @param {LatLng} p1 - Latitude/longitude of start point.
|
||||
* @param {LatLng} p2 - Latitude/longitude of destination point.
|
||||
* @returns {Object} Object including distance, initialBearing, finalBearing.
|
||||
* @throws {Error} If formula failed to converge.
|
||||
*/
|
||||
_vincenty_inverse: function(p1, p2) {
|
||||
var φ1 = p1.lat.toRadians(),
|
||||
λ1 = p1.lng.toRadians();
|
||||
var φ2 = p2.lat.toRadians(),
|
||||
λ2 = p2.lng.toRadians();
|
||||
|
||||
var a = this.datum.ellipsoid.a,
|
||||
b = this.datum.ellipsoid.b,
|
||||
f = this.datum.ellipsoid.f;
|
||||
|
||||
var L = λ2 - λ1;
|
||||
var tanU1 = (1 - f) * Math.tan(φ1),
|
||||
cosU1 = 1 / Math.sqrt((1 + tanU1 * tanU1)),
|
||||
sinU1 = tanU1 * cosU1;
|
||||
var tanU2 = (1 - f) * Math.tan(φ2),
|
||||
cosU2 = 1 / Math.sqrt((1 + tanU2 * tanU2)),
|
||||
sinU2 = tanU2 * cosU2;
|
||||
|
||||
var λ = L,
|
||||
λʹ, iterations = 0;
|
||||
do {
|
||||
var sinλ = Math.sin(λ),
|
||||
cosλ = Math.cos(λ);
|
||||
var sinSqσ = (cosU2 * sinλ) * (cosU2 * sinλ) + (cosU1 * sinU2 -
|
||||
sinU1 * cosU2 * cosλ) * (cosU1 * sinU2 - sinU1 * cosU2 * cosλ);
|
||||
var sinσ = Math.sqrt(sinSqσ);
|
||||
if (sinσ == 0) return 0; // co-incident points
|
||||
var cosσ = sinU1 * sinU2 + cosU1 * cosU2 * cosλ;
|
||||
var σ = Math.atan2(sinσ, cosσ);
|
||||
var sinα = cosU1 * cosU2 * sinλ / sinσ;
|
||||
var cosSqα = 1 - sinα * sinα;
|
||||
var cos2σM = cosσ - 2 * sinU1 * sinU2 / cosSqα;
|
||||
if (isNaN(cos2σM)) cos2σM = 0; // equatorial line: cosSqα=0 (§6)
|
||||
var C = f / 16 * cosSqα * (4 + f * (4 - 3 * cosSqα));
|
||||
λʹ = λ;
|
||||
λ = L + (1 - C) * f * sinα * (σ + C * sinσ * (cos2σM + C * cosσ * (-
|
||||
1 + 2 * cos2σM * cos2σM)));
|
||||
} while (Math.abs(λ - λʹ) > 1e-12 && ++iterations < 100);
|
||||
if (iterations >= 100) {
|
||||
console.log("Formula failed to converge. Altering target position.")
|
||||
return this._vincenty_inverse(p1, {
|
||||
lat: p2.lat,
|
||||
lng: p2.lng - 0.01
|
||||
})
|
||||
// throw new Error('Formula failed to converge');
|
||||
}
|
||||
|
||||
var uSq = cosSqα * (a * a - b * b) / (b * b);
|
||||
var A = 1 + uSq / 16384 * (4096 + uSq * (-768 + uSq * (320 - 175 *
|
||||
uSq)));
|
||||
var B = uSq / 1024 * (256 + uSq * (-128 + uSq * (74 - 47 * uSq)));
|
||||
var Δσ = B * sinσ * (cos2σM + B / 4 * (cosσ * (-1 + 2 * cos2σM *
|
||||
cos2σM) -
|
||||
B / 6 * cos2σM * (-3 + 4 * sinσ * sinσ) * (-3 + 4 * cos2σM *
|
||||
cos2σM)));
|
||||
|
||||
var s = b * A * (σ - Δσ);
|
||||
|
||||
var fwdAz = Math.atan2(cosU2 * sinλ, cosU1 * sinU2 - sinU1 * cosU2 *
|
||||
cosλ);
|
||||
var revAz = Math.atan2(cosU1 * sinλ, -sinU1 * cosU2 + cosU1 * sinU2 *
|
||||
cosλ);
|
||||
|
||||
s = Number(s.toFixed(3)); // round to 1mm precision
|
||||
return {
|
||||
distance: s,
|
||||
initialBearing: fwdAz.toDegrees(),
|
||||
finalBearing: revAz.toDegrees()
|
||||
};
|
||||
},
|
||||
|
||||
|
||||
/**
|
||||
* Returns the point of intersection of two paths defined by point and bearing.
|
||||
* based on the work of Chris Veness (https://github.com/chrisveness/geodesy)
|
||||
*
|
||||
* @param {LatLon} p1 - First point.
|
||||
* @param {number} brng1 - Initial bearing from first point.
|
||||
* @param {LatLon} p2 - Second point.
|
||||
* @param {number} brng2 - Initial bearing from second point.
|
||||
* @returns {Object} containing lat/lng information of intersection.
|
||||
*
|
||||
* @example
|
||||
* var p1 = LatLon(51.8853, 0.2545), brng1 = 108.55;
|
||||
* var p2 = LatLon(49.0034, 2.5735), brng2 = 32.44;
|
||||
* var pInt = LatLon.intersection(p1, brng1, p2, brng2); // pInt.toString(): 50.9078°N, 4.5084°E
|
||||
*/
|
||||
_intersection: function(p1, brng1, p2, brng2) {
|
||||
// see http://williams.best.vwh.net/avform.htm#Intersection
|
||||
|
||||
var φ1 = p1.lat.toRadians(),
|
||||
λ1 = p1.lng.toRadians();
|
||||
var φ2 = p2.lat.toRadians(),
|
||||
λ2 = p2.lng.toRadians();
|
||||
var θ13 = Number(brng1).toRadians(),
|
||||
θ23 = Number(brng2).toRadians();
|
||||
var Δφ = φ2 - φ1,
|
||||
Δλ = λ2 - λ1;
|
||||
|
||||
var δ12 = 2 * Math.asin(Math.sqrt(Math.sin(Δφ / 2) * Math.sin(Δφ / 2) +
|
||||
Math.cos(φ1) * Math.cos(φ2) * Math.sin(Δλ / 2) * Math.sin(Δλ /
|
||||
2)));
|
||||
if (δ12 == 0) return null;
|
||||
|
||||
// initial/final bearings between points
|
||||
var θ1 = Math.acos((Math.sin(φ2) - Math.sin(φ1) * Math.cos(δ12)) /
|
||||
(Math.sin(δ12) * Math.cos(φ1)));
|
||||
if (isNaN(θ1)) θ1 = 0; // protect against rounding
|
||||
var θ2 = Math.acos((Math.sin(φ1) - Math.sin(φ2) * Math.cos(δ12)) /
|
||||
(Math.sin(δ12) * Math.cos(φ2)));
|
||||
|
||||
if (Math.sin(λ2 - λ1) > 0) {
|
||||
var θ12 = θ1;
|
||||
var θ21 = 2 * Math.PI - θ2;
|
||||
} else {
|
||||
var θ12 = 2 * Math.PI - θ1;
|
||||
var θ21 = θ2;
|
||||
}
|
||||
|
||||
var α1 = (θ13 - θ12 + Math.PI) % (2 * Math.PI) - Math.PI; // angle 2-1-3
|
||||
var α2 = (θ21 - θ23 + Math.PI) % (2 * Math.PI) - Math.PI; // angle 1-2-3
|
||||
|
||||
if (Math.sin(α1) == 0 && Math.sin(α2) == 0) return null; // infinite intersections
|
||||
if (Math.sin(α1) * Math.sin(α2) < 0) return null; // ambiguous intersection
|
||||
|
||||
//α1 = Math.abs(α1);
|
||||
//α2 = Math.abs(α2);
|
||||
// ... Ed Williams takes abs of α1/α2, but seems to break calculation?
|
||||
|
||||
var α3 = Math.acos(-Math.cos(α1) * Math.cos(α2) +
|
||||
Math.sin(α1) * Math.sin(α2) * Math.cos(δ12));
|
||||
var δ13 = Math.atan2(Math.sin(δ12) * Math.sin(α1) * Math.sin(α2),
|
||||
Math.cos(α2) + Math.cos(α1) * Math.cos(α3))
|
||||
var φ3 = Math.asin(Math.sin(φ1) * Math.cos(δ13) +
|
||||
Math.cos(φ1) * Math.sin(δ13) * Math.cos(θ13));
|
||||
var Δλ13 = Math.atan2(Math.sin(θ13) * Math.sin(δ13) * Math.cos(φ1),
|
||||
Math.cos(δ13) - Math.sin(φ1) * Math.sin(φ3));
|
||||
var λ3 = λ1 + Δλ13;
|
||||
λ3 = (λ3 + 3 * Math.PI) % (2 * Math.PI) - Math.PI; // normalise to -180..+180º
|
||||
|
||||
return {
|
||||
lat: φ3.toDegrees(),
|
||||
lng: λ3.toDegrees()
|
||||
};
|
||||
},
|
||||
|
||||
/**
|
||||
* Overwrites obj1's values with obj2's and adds obj2's if non existent in obj1
|
||||
* @param obj1
|
||||
* @param obj2
|
||||
* @returns obj3 a new object based on obj1 and obj2
|
||||
*/
|
||||
_merge_options: function(obj1, obj2) {
|
||||
let obj3 = {};
|
||||
for (let attrname in obj1) {
|
||||
obj3[attrname] = obj1[attrname];
|
||||
}
|
||||
for (let attrname in obj2) {
|
||||
obj3[attrname] = obj2[attrname];
|
||||
}
|
||||
return obj3;
|
||||
}
|
||||
});
|
||||
|
||||
L.geodesic = function(latlngs, options) {
|
||||
return new L.Geodesic(latlngs, options);
|
||||
};
|
||||
|
||||
(function() {
|
||||
// save these original methods before they are overwritten
|
||||
var proto_initIcon = L.Marker.prototype._initIcon;
|
||||
|
@ -4,11 +4,13 @@
|
||||
"/assets/system/js/jquery.js": "/assets/system/js/jquery.js?id=09dd64a64ba840c31a81",
|
||||
"/assets/fonts/glyphicons-halflings-regular.woff2": "/assets/fonts/glyphicons-halflings-regular.woff2?id=b5b5055c6d812c0f9f0d",
|
||||
"/assets/admin/fonts/glyphicons-halflings-regular.woff2": "/assets/admin/fonts/glyphicons-halflings-regular.woff2?id=b5b5055c6d812c0f9f0d",
|
||||
"/assets/admin/css/clear.png": "/assets/admin/css/clear.png?id=0e92f4c3efc6988a3c96",
|
||||
"/assets/admin/css/loading.gif": "/assets/admin/css/loading.gif?id=90a4b76b4f11558691f6",
|
||||
"/assets/admin/css/vendor.min.css": "/assets/admin/css/vendor.min.css?id=b7f27b62f5cf3ebb7a65",
|
||||
"/assets/admin/js/vendor.js": "/assets/admin/js/vendor.js?id=2831a0e25aded202c08c",
|
||||
"/assets/admin/js/vendor.js": "/assets/admin/js/vendor.js?id=0f6b516f7ea80d70d407",
|
||||
"/assets/admin/css/blue.png": "/assets/admin/css/blue.png?id=753a3c0dec86d3a38d9c",
|
||||
"/assets/admin/css/blue@2x.png": "/assets/admin/css/blue@2x.png?id=97da23d47b838cbd4bef",
|
||||
"/assets/system/js/vendor.js": "/assets/system/js/vendor.js?id=022e73793e29fb2c6825",
|
||||
"/assets/system/js/vendor.js": "/assets/system/js/vendor.js?id=434db3f2c9beafd58bae",
|
||||
"/assets/system/css/vendor.css": "/assets/system/css/vendor.css?id=7bd98a28084fea99e307",
|
||||
"/assets/system/js/installer-vendor.js": "/assets/system/js/installer-vendor.js?id=b2bca761f222e97bf4ff"
|
||||
}
|
@ -1,6 +1,6 @@
|
||||
@section('scripts')
|
||||
<script>
|
||||
$(document).ready(function() {
|
||||
function setEditable() {
|
||||
$('#aircraft_fares a').editable({
|
||||
type: 'text',
|
||||
mode: 'inline',
|
||||
@ -16,15 +16,22 @@ $(document).ready(function() {
|
||||
}
|
||||
}
|
||||
});
|
||||
}
|
||||
|
||||
$(document).ready(function() {
|
||||
|
||||
setEditable();
|
||||
|
||||
$(document).on('submit', 'form.rm_fare', function(event) {
|
||||
event.preventDefault();
|
||||
console.log(event);
|
||||
$.pjax.submit(event, '#aircraft_fares_wrapper', {push: false});
|
||||
setEditable();
|
||||
});
|
||||
|
||||
$(document).on('pjax:complete', function() {
|
||||
$(".select2").select2();
|
||||
setEditable();
|
||||
});
|
||||
});
|
||||
</script>
|
||||
|
@ -23,6 +23,7 @@ mix.webpackConfig({
|
||||
mix.copy('node_modules/jquery/dist/jquery.js', 'public/assets/system/js/');
|
||||
mix.copy('node_modules/bootstrap3/fonts/*.woff2', 'public/assets/fonts/');
|
||||
mix.copy('node_modules/bootstrap3/fonts/*.woff2', 'public/assets/admin/fonts/');
|
||||
mix.copy('node_modules/x-editable/dist/bootstrap3-editable/img/*', 'public/assets/admin/css/');
|
||||
|
||||
/**
|
||||
* ADMIN REQUIRED FILES
|
||||
@ -59,10 +60,11 @@ mix.scripts([
|
||||
'node_modules/select2/dist/js/select2.js',
|
||||
'node_modules/leaflet/dist/leaflet.js',
|
||||
'node_modules/icheck/icheck.js',
|
||||
'node_modules/pjax/pjax.js',
|
||||
// 'node_modules/pjax/pjax.js',
|
||||
'node_modules/x-editable/dist/bootstrap3-editable/js/bootstrap-editable.js',
|
||||
// 'node_modules/x-editable/dist/bootstrap-datepicker/dist/js/bootstrap-datepicker.js',
|
||||
'node_modules/eonasdan-bootstrap-datetimepicker/src/js/bootstrap-datetimepicker.js',
|
||||
'node_modules/jquery-pjax/jquery.pjax.js',
|
||||
], 'public/assets/admin/js/vendor.js');
|
||||
|
||||
mix.copy('node_modules/icheck/skins/square/blue*.png', 'public/assets/admin/css');
|
||||
|
Loading…
Reference in New Issue
Block a user