loopback-datasource-juggler/lib/geo.js

319 lines
9.2 KiB
JavaScript
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

// Copyright IBM Corp. 2013,2016. All Rights Reserved.
// Node module: loopback-datasource-juggler
// This file is licensed under the MIT License.
// License text available at https://opensource.org/licenses/MIT
'use strict';
var assert = require('assert');
/*!
* Get a near filter from a given where object. For connector use only.
*/
exports.nearFilter = function nearFilter(where) {
function nearSearch(clause, parentKeys) {
if (typeof clause !== 'object') {
return false;
}
parentKeys = parentKeys || [];
Object.keys(clause).forEach(function(clauseKey) {
if (Array.isArray(clause[clauseKey])) {
clause[clauseKey].forEach(function(el, index) {
var ret = nearSearch(el, parentKeys.concat(clauseKey).concat(index));
if (ret) return ret;
});
} else {
if (clause[clauseKey].hasOwnProperty('near')) {
var result = clause[clauseKey];
nearResults.push({
near: result.near,
maxDistance: result.maxDistance,
minDistance: result.minDistance,
unit: result.unit,
// If key is at root, define a single string, otherwise append it to the full path array
mongoKey: parentKeys.length ? parentKeys.concat(clauseKey) : clauseKey,
key: clauseKey,
});
}
}
});
}
var nearResults = [];
nearSearch(where);
return (!nearResults.length ? false : nearResults);
};
/*!
* Filter a set of results using the given filters returned by `nearFilter()`.
* Can support multiple locations, but will include results from all of them.
*
* WARNING: "or" operator with GeoPoint does not work as expected, eg:
* {where: {or: [{location: {near: (29,-90)}},{name:'Sean'}]}}
* Will actually work as if you had used "and". This is because geo filtering
* takes place outside of the SQL query, so the result set of "name = Sean" is
* returned by the database, and then the location filtering happens in the app
* logic. So the "near" operator is always an "and" of the SQL filters, and "or"
* of other GeoPoint filters.
*
* Additionally, since this step occurs after the SQL result set is returned,
* if using GeoPoints with pagination the result set may be smaller than the
* page size. The page size is enforced at the DB level, and then we may
* remove results at the Geo-app level. If we "limit: 25", but 4 of those results
* do not have a matching geopoint field, the request will only return 21 results.
* This may make it erroneously look like a given page is the end of the result set.
*/
exports.filter = function(rawResults, filters) {
var distances = {};
var results = [];
filters.forEach(function(filter) {
var origin = filter.near;
var max = filter.maxDistance > 0 ? filter.maxDistance : false;
var min = filter.minDistance > 0 ? filter.minDistance : false;
var unit = filter.unit;
var key = filter.key;
// create distance index
rawResults.forEach(function(result) {
var loc = result[key];
// filter out results without locations
if (!loc) return;
if (!(loc instanceof GeoPoint)) loc = GeoPoint(loc);
if (typeof loc.lat !== 'number') return;
if (typeof loc.lng !== 'number') return;
var d = GeoPoint.distanceBetween(origin, loc, {type: unit});
// filter result if distance is either < minDistance or > maxDistance
if ((min && d < min) || (max && d > max)) return;
distances[result.id] = d;
results.push(result);
});
results.sort(function(resA, resB) {
var a = resA[key];
var b = resB[key];
if (a && b) {
var da = distances[resA.id];
var db = distances[resB.id];
if (db === da) return 0;
return da > db ? 1 : -1;
} else {
return 0;
}
});
});
return results;
};
exports.GeoPoint = GeoPoint;
/**
* The GeoPoint object represents a physical location.
*
* For example:
*
* ```js
* var loopback = require(loopback);
* var here = new loopback.GeoPoint({lat: 10.32424, lng: 5.84978});
* ```
*
* Embed a latitude / longitude point in a model.
*
* ```js
* var CoffeeShop = loopback.createModel('coffee-shop', {
* location: 'GeoPoint'
* });
* ```
*
* You can query LoopBack models with a GeoPoint property and an attached data source using geo-spatial filters and
* sorting. For example, the following code finds the three nearest coffee shops.
*
* ```js
* CoffeeShop.attachTo(oracle);
* var here = new GeoPoint({lat: 10.32424, lng: 5.84978});
* CoffeeShop.find( {where: {location: {near: here}}, limit:3}, function(err, nearbyShops) {
* console.info(nearbyShops); // [CoffeeShop, ...]
* });
* ```
* @class GeoPoint
* @property {Number} lat The latitude in degrees.
* @property {Number} lng The longitude in degrees.
*
* @options {Object} Options Object with two Number properties: lat and long.
* @property {Number} lat The latitude point in degrees. Range: -90 to 90.
* @property {Number} lng The longitude point in degrees. Range: -180 to 180.
*
* @options {Array} Options Array with two Number entries: [lat,long].
* @property {Number} lat The latitude point in degrees. Range: -90 to 90.
* @property {Number} lng The longitude point in degrees. Range: -180 to 180.
*/
function GeoPoint(data) {
if (!(this instanceof GeoPoint)) {
return new GeoPoint(data);
}
if (arguments.length === 2) {
data = {
lat: arguments[0],
lng: arguments[1],
};
}
assert(Array.isArray(data) || typeof data === 'object' || typeof data === 'string',
'must provide valid geo-coordinates array [lat, lng] or object or a "lat, lng" string');
if (typeof data === 'string') {
try {
data = JSON.parse(data);
} catch (err) {
data = data.split(/,\s*/);
assert(data.length === 2, 'must provide a string "lat,lng" creating a GeoPoint with a string');
}
}
if (Array.isArray(data)) {
data = {
lat: Number(data[0]),
lng: Number(data[1]),
};
} else {
data.lng = Number(data.lng);
data.lat = Number(data.lat);
}
assert(typeof data === 'object', 'must provide a lat and lng object when creating a GeoPoint');
assert(typeof data.lat === 'number' && !isNaN(data.lat), 'lat must be a number when creating a GeoPoint');
assert(typeof data.lng === 'number' && !isNaN(data.lng), 'lng must be a number when creating a GeoPoint');
assert(data.lng <= 180, 'lng must be <= 180');
assert(data.lng >= -180, 'lng must be >= -180');
assert(data.lat <= 90, 'lat must be <= 90');
assert(data.lat >= -90, 'lat must be >= -90');
this.lat = data.lat;
this.lng = data.lng;
}
/**
* Determine the spherical distance between two GeoPoints.
*
* @param {GeoPoint} pointA Point A
* @param {GeoPoint} pointB Point B
* @options {Object} options Options object with one key, 'type'. See below.
* @property {String} type Unit of measurement, one of:
*
* - `miles` (default)
* - `radians`
* - `kilometers`
* - `meters`
* - `miles`
* - `feet`
* - `degrees`
*/
GeoPoint.distanceBetween = function distanceBetween(a, b, options) {
if (!(a instanceof GeoPoint)) {
a = GeoPoint(a);
}
if (!(b instanceof GeoPoint)) {
b = GeoPoint(b);
}
var x1 = a.lat;
var y1 = a.lng;
var x2 = b.lat;
var y2 = b.lng;
return geoDistance(x1, y1, x2, y2, options);
};
/**
* Determine the spherical distance to the given point.
* Example:
* ```js
* var loopback = require(loopback);
*
* var here = new loopback.GeoPoint({lat: 10, lng: 10});
* var there = new loopback.GeoPoint({lat: 5, lng: 5});
*
* loopback.GeoPoint.distanceBetween(here, there, {type: 'miles'}) // 438
* ```
* @param {Object} point GeoPoint object to which to measure distance.
* @options {Object} options Options object with one key, 'type'. See below.
* @property {String} type Unit of measurement, one of:
*
* - `miles` (default)
* - `radians`
* - `kilometers`
* - `meters`
* - `miles`
* - `feet`
* - `degrees`
*/
GeoPoint.prototype.distanceTo = function(point, options) {
return GeoPoint.distanceBetween(this, point, options);
};
/**
* Simple serialization.
*/
GeoPoint.prototype.toString = function() {
return this.lat + ',' + this.lng;
};
/**
* @property {Number} DEG2RAD - Factor to convert degrees to radians.
* @property {Number} RAD2DEG - Factor to convert radians to degrees.
* @property {Object} EARTH_RADIUS - Radius of the earth.
*/
// factor to convert degrees to radians
var DEG2RAD = 0.01745329252;
// factor to convert radians degrees to degrees
var RAD2DEG = 57.29577951308;
// radius of the earth
var EARTH_RADIUS = {
kilometers: 6370.99056,
meters: 6370990.56,
miles: 3958.75,
feet: 20902200,
radians: 1,
degrees: RAD2DEG,
};
function geoDistance(x1, y1, x2, y2, options) {
var type = (options && options.type) || 'miles';
// Convert to radians
x1 = x1 * DEG2RAD;
y1 = y1 * DEG2RAD;
x2 = x2 * DEG2RAD;
y2 = y2 * DEG2RAD;
// use the haversine formula to calculate distance for any 2 points on a sphere.
// ref http://en.wikipedia.org/wiki/Haversine_formula
var haversine = function(a) {
return Math.pow(Math.sin(a / 2.0), 2);
};
var f = Math.sqrt(haversine(x2 - x1) + Math.cos(x2) * Math.cos(x1) * haversine(y2 - y1));
return 2 * Math.asin(f) * EARTH_RADIUS[type];
}