X-Git-Url: https://git.openstreetmap.org./rails.git/blobdiff_plain/13d650e2dcbe2467a82253097e10d58dddf9d9d2..23dfc4d3bde49ef907de08ee2efbece0d4ce261d:/vendor/assets/leaflet/leaflet.polyline.js diff --git a/vendor/assets/leaflet/leaflet.polyline.js b/vendor/assets/leaflet/leaflet.polyline.js old mode 100755 new mode 100644 index b7e85d6c5..772e7ebc6 --- a/vendor/assets/leaflet/leaflet.polyline.js +++ b/vendor/assets/leaflet/leaflet.polyline.js @@ -1,127 +1,233 @@ /* - * L.PolylineUtil contains utilify functions for polylines, two methods - * are added to the L.Polyline object to support creation of polylines - * from an encoded string and converting existing polylines to an - * encoded string. + * Utility functions to decode/encode numbers and array's of numbers + * to/from strings (Google maps polyline encoding) * - * - L.Polyline.fromEncoded(encoded [, options]) returns a L.Polyline - * - L.Polyline.encodePath() returns a string + * Extends the L.Polyline and L.Polygon object with methods to convert + * to and create from these strings. * - * Actual code from: - * http://facstaff.unca.edu/mcmcclur/GoogleMaps/EncodePolyline/\ + * Jan Pieter Waagmeester + * + * Original code from: + * http://facstaff.unca.edu/mcmcclur/GoogleMaps/EncodePolyline/ + * (which is down as of december 2014) */ -/*jshint browser:true, debug: true, strict:false, globalstrict:false, indent:4, white:true, smarttabs:true*/ -/*global L:true, console:true*/ - - -// Inject functionality into Leaflet -(function (L) { - if (!(L.Polyline.prototype.fromEncoded)) { - L.Polyline.fromEncoded = function (encoded, options) { - return new L.Polyline(L.PolylineUtil.decode(encoded), options); - }; - } - if (!(L.Polygon.prototype.fromEncoded)) { - L.Polygon.fromEncoded = function (encoded, options) { - return new L.Polygon(L.PolylineUtil.decode(encoded), options); - }; - } - - var encodeMixin = { - encodePath: function () { - return L.PolylineUtil.encode(this.getLatLngs()); - } - }; - - if (!L.Polyline.prototype.encodePath) { - L.Polyline.include(encodeMixin); - } - if (!L.Polygon.prototype.encodePath) { - L.Polygon.include(encodeMixin); - } -})(L); - -// Utility functions. -L.PolylineUtil = {}; - -L.PolylineUtil.encode = function (latlngs) { - var i, dlat, dlng; - var plat = 0; - var plng = 0; - var encoded_points = ""; - - for (i = 0; i < latlngs.length; i++) { - var lat = latlngs[i].lat; - var lng = latlngs[i].lng; - var late5 = Math.floor(lat * 1e5); - var lnge5 = Math.floor(lng * 1e5); - dlat = late5 - plat; - dlng = lnge5 - plng; - plat = late5; - plng = lnge5; - encoded_points += - L.PolylineUtil.encodeSignedNumber(dlat) + - L.PolylineUtil.encodeSignedNumber(dlng); - } - return encoded_points; -}; - -// This function is very similar to Google's, but I added -// some stuff to deal with the double slash issue. -L.PolylineUtil.encodeNumber = function (num) { - var encodeString = ""; - var nextValue, finalValue; - while (num >= 0x20) { - nextValue = (0x20 | (num & 0x1f)) + 63; - encodeString += (String.fromCharCode(nextValue)); - num >>= 5; - } - finalValue = num + 63; - encodeString += (String.fromCharCode(finalValue)); - return encodeString; -}; - -// This one is Google's verbatim. -L.PolylineUtil.encodeSignedNumber = function (num) { - var sgn_num = num << 1; - if (num < 0) { - sgn_num = ~(sgn_num); - } - return (L.PolylineUtil.encodeNumber(sgn_num)); -}; - -L.PolylineUtil.decode = function (encoded) { - var len = encoded.length; - var index = 0; - var latlngs = []; - var lat = 0; - var lng = 0; - - while (index < len) { - var b; - var shift = 0; - var result = 0; - do { - b = encoded.charCodeAt(index++) - 63; - result |= (b & 0x1f) << shift; - shift += 5; - } while (b >= 0x20); - var dlat = ((result & 1) ? ~(result >> 1) : (result >> 1)); - lat += dlat; - - shift = 0; - result = 0; - do { - b = encoded.charCodeAt(index++) - 63; - result |= (b & 0x1f) << shift; - shift += 5; - } while (b >= 0x20); - var dlng = ((result & 1) ? ~(result >> 1) : (result >> 1)); - lng += dlng; - - latlngs.push(new L.LatLng(lat * 1e-5, lng * 1e-5)); - } - - return latlngs; -}; \ No newline at end of file +(function () { + 'use strict'; + + var defaultOptions = function (options) { + if (typeof options === 'number') { + // Legacy + options = { + precision: options + }; + } else { + options = options || {}; + } + + options.precision = options.precision || 5; + options.factor = options.factor || Math.pow(10, options.precision); + options.dimension = options.dimension || 2; + return options; + }; + + var PolylineUtil = { + encode: function (points, options) { + options = defaultOptions(options); + + var flatPoints = []; + for (var i = 0, len = points.length; i < len; ++i) { + var point = points[i]; + + if (options.dimension === 2) { + flatPoints.push(point.lat || point[0]); + flatPoints.push(point.lng || point[1]); + } else { + for (var dim = 0; dim < options.dimension; ++dim) { + flatPoints.push(point[dim]); + } + } + } + + return this.encodeDeltas(flatPoints, options); + }, + + decode: function (encoded, options) { + options = defaultOptions(options); + + var flatPoints = this.decodeDeltas(encoded, options); + + var points = []; + for (var i = 0, len = flatPoints.length; i + (options.dimension - 1) < len;) { + var point = []; + + for (var dim = 0; dim < options.dimension; ++dim) { + point.push(flatPoints[i++]); + } + + points.push(point); + } + + return points; + }, + + encodeDeltas: function (numbers, options) { + options = defaultOptions(options); + + var lastNumbers = []; + + for (var i = 0, len = numbers.length; i < len;) { + for (var d = 0; d < options.dimension; ++d, ++i) { + var num = numbers[i]; + var delta = num - (lastNumbers[d] || 0); + lastNumbers[d] = num; + + numbers[i] = delta; + } + } + + return this.encodeFloats(numbers, options); + }, + + decodeDeltas: function (encoded, options) { + options = defaultOptions(options); + + var lastNumbers = []; + + var numbers = this.decodeFloats(encoded, options); + for (var i = 0, len = numbers.length; i < len;) { + for (var d = 0; d < options.dimension; ++d, ++i) { + numbers[i] = Math.round((lastNumbers[d] = numbers[i] + (lastNumbers[d] || 0)) * options.factor) / options.factor; + } + } + + return numbers; + }, + + encodeFloats: function (numbers, options) { + options = defaultOptions(options); + + for (var i = 0, len = numbers.length; i < len; ++i) { + numbers[i] = Math.round(numbers[i] * options.factor); + } + + return this.encodeSignedIntegers(numbers); + }, + + decodeFloats: function (encoded, options) { + options = defaultOptions(options); + + var numbers = this.decodeSignedIntegers(encoded); + for (var i = 0, len = numbers.length; i < len; ++i) { + numbers[i] /= options.factor; + } + + return numbers; + }, + + encodeSignedIntegers: function (numbers) { + for (var i = 0, len = numbers.length; i < len; ++i) { + var num = numbers[i]; + numbers[i] = (num < 0) ? ~(num << 1) : (num << 1); + } + + return this.encodeUnsignedIntegers(numbers); + }, + + decodeSignedIntegers: function (encoded) { + var numbers = this.decodeUnsignedIntegers(encoded); + + for (var i = 0, len = numbers.length; i < len; ++i) { + var num = numbers[i]; + numbers[i] = (num & 1) ? ~(num >> 1) : (num >> 1); + } + + return numbers; + }, + + encodeUnsignedIntegers: function (numbers) { + var encoded = ''; + for (var i = 0, len = numbers.length; i < len; ++i) { + encoded += this.encodeUnsignedInteger(numbers[i]); + } + return encoded; + }, + + decodeUnsignedIntegers: function (encoded) { + var numbers = []; + + var current = 0; + var shift = 0; + + for (var i = 0, len = encoded.length; i < len; ++i) { + var b = encoded.charCodeAt(i) - 63; + + current |= (b & 0x1f) << shift; + + if (b < 0x20) { + numbers.push(current); + current = 0; + shift = 0; + } else { + shift += 5; + } + } + + return numbers; + }, + + encodeSignedInteger: function (num) { + num = (num < 0) ? ~(num << 1) : (num << 1); + return this.encodeUnsignedInteger(num); + }, + + // This function is very similar to Google's, but I added + // some stuff to deal with the double slash issue. + encodeUnsignedInteger: function (num) { + var value, encoded = ''; + while (num >= 0x20) { + value = (0x20 | (num & 0x1f)) + 63; + encoded += (String.fromCharCode(value)); + num >>= 5; + } + value = num + 63; + encoded += (String.fromCharCode(value)); + + return encoded; + } + }; + + // Export Node module + if (typeof module === 'object' && typeof module.exports === 'object') { + module.exports = PolylineUtil; + } + + // Inject functionality into Leaflet + if (typeof L === 'object') { + if (!(L.Polyline.prototype.fromEncoded)) { + L.Polyline.fromEncoded = function (encoded, options) { + return L.polyline(PolylineUtil.decode(encoded), options); + }; + } + if (!(L.Polygon.prototype.fromEncoded)) { + L.Polygon.fromEncoded = function (encoded, options) { + return L.polygon(PolylineUtil.decode(encoded), options); + }; + } + + var encodeMixin = { + encodePath: function () { + return PolylineUtil.encode(this.getLatLngs()); + } + }; + + if (!L.Polyline.prototype.encodePath) { + L.Polyline.include(encodeMixin); + } + if (!L.Polygon.prototype.encodePath) { + L.Polygon.include(encodeMixin); + } + + L.PolylineUtil = PolylineUtil; + } +})();