# Using the Haversine Formula in Javascript

I'm trying to use the Haversine Distance Formula (as found here: http://www.movable-type.co.uk/scripts/latlong.html) but I can't get it to work, please see the following code

``````    function test() {
var lat2 = 42.741;
var lon2 = -71.3161;
var lat1 = 42.806911;
var lon1 = -71.290611;

var R = 6371; // km
//has a problem with the .toRad() method below.
var a = Math.sin(dLat/2) * Math.sin(dLat/2) +
Math.sin(dLon/2) * Math.sin(dLon/2);
var c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a));
var d = R * c;

}
``````

And the error is:

``````Uncaught TypeError: Object -0.06591099999999983 has no method 'toRad'
``````

Which I understand to be because it needs to do the following:

``````Number.prototype.toRad = function() {
return this * Math.PI / 180;
}
``````

But when I put this below the function, it still comes back with the same error message. How do I make it use the helper method? Or is there an alternative way to code this to get it to work? Thanks!

This code is working:

``````Number.prototype.toRad = function() {
return this * Math.PI / 180;
}

var lat2 = 42.741;
var lon2 = -71.3161;
var lat1 = 42.806911;
var lon1 = -71.290611;

var R = 6371; // km
//has a problem with the .toRad() method below.
var x1 = lat2-lat1;
var x2 = lon2-lon1;
var a = Math.sin(dLat/2) * Math.sin(dLat/2) +
Math.sin(dLon/2) * Math.sin(dLon/2);
var c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a));
var d = R * c;

``````

Notice how I defined x1 and x2. Play with it at: https://tinker.io/3f794

• I encountered the same problem. I defined a toRadians() as a utility function and computed dLat and dLon like this: toRadians(lat1 - lat2) ... This gave me the wrong answer vs explicitly computing the difference first up and storing it in a variable. Why is that? Aug 20, 2014 at 17:56
• I don't know why that happens either @Parijat Kalia, I had the same problem. Dec 11, 2015 at 14:17

Here's a refactored function based on 3 of the other answers!

Please note that the coords arguments are [longitude, latitude].

``````function haversineDistance(coords1, coords2, isMiles) {
return x * Math.PI / 180;
}

var lon1 = coords1[0];
var lat1 = coords1[1];

var lon2 = coords2[0];
var lat2 = coords2[1];

var R = 6371; // km

var x1 = lat2 - lat1;
var x2 = lon2 - lon1;
var a = Math.sin(dLat / 2) * Math.sin(dLat / 2) +
Math.sin(dLon / 2) * Math.sin(dLon / 2);
var c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a));
var d = R * c;

if(isMiles) d /= 1.60934;

return d;
}
``````
• one thing that tripped me up with your function, you are expecting: `haversineDistance([lng, lat], [lng, lat], isMiles);` Mar 22, 2017 at 21:33
• Again, not sure if I've implemented something wrong but this answer gives an inaccurate result whereas the currently accepted answer, without refactoring, gives the same result as Google Maps. See my comment on @Harry Mumford-Turner's answer for more detail. Oct 20, 2018 at 23:56
• Great -- thanks! For reference, here's the same function, except compressed and always returning KM: `function distKM(lat1,lon1,lat2,lon2){var a=Math,r=(lat2-lat1)*a.PI/180,c=(lon2-lon1)*a.PI/180,e=a.sin(r/2)*a.sin(r/2)+a.cos(lat1*a.PI/180)*a.cos(lat2*a.PI/180)*a.sin(c/2)*a.sin(c/2);return d=2*a.atan2(a.sqrt(e),a.sqrt(1-e))*6371}` Sep 23, 2021 at 1:52

ES6 JavaScript/NodeJS refactored version:

``````   /**
* Calculates the haversine distance between point A, and B.
* @param {number[]} latlngA [lat, lng] point A
* @param {number[]} latlngB [lat, lng] point B
* @param {boolean} isMiles If we are using miles, else km.
*/
const haversineDistance = ([lat1, lon1], [lat2, lon2], isMiles = false) => {
const toRadian = angle => (Math.PI / 180) * angle;
const distance = (a, b) => (Math.PI / 180) * (a - b);

const dLat = distance(lat2, lat1);
const dLon = distance(lon2, lon1);

// Haversine Formula
const a =
Math.pow(Math.sin(dLat / 2), 2) +
Math.pow(Math.sin(dLon / 2), 2) * Math.cos(lat1) * Math.cos(lat2);
const c = 2 * Math.asin(Math.sqrt(a));

let finalDistance = RADIUS_OF_EARTH_IN_KM * c;

if (isMiles) {
finalDistance /= 1.60934;
}

return finalDistance;
};
``````

See codepen for tests against accepted answer: https://codepen.io/harrymt/pen/dyYvLpJ?editors=1011

• You're accessing the 1st element of the `latlngA` and `latlngB` parameters to calculate the delta of the latitude, but the docblock for the function states that the 1st element is the longitude. Oct 20, 2018 at 2:18
• I got an inaccurate result using this solution when testing against Google Maps for the following coords: const latlngA = [52.375603, 4.903206]; const latlngB = [52.366059, 4.926692]; This solution returns 2.8km whereas the currently accepted answer correctly returns 1.92km (which closely matches the 1.91km given by Google Maps). Oct 20, 2018 at 23:54
• @bigsee thank you, I have fixed the formula to be more accurate and understandable Aug 28, 2019 at 14:23
• this is the most accurate I have seen on stack and matches up with googlemaps perfectly, well done Sep 15, 2019 at 18:00
• That is some nice clean code right there. I look forward to testing it when I get home Feb 5, 2020 at 22:20

Why not try the straight forward solution? Instead of extending Number prototype, just define toRad as a regular function:

``````function toRad(x) {
return x * Math.PI / 180;
}
``````

and then call `toRad` everywhere:

``````var dLat = toRad(lat2-lat1);
``````

Extending the Number prototype does not always work as expected. For example calling 123.toRad() does not work. I think that if you do `var x1 = lat2 - lat1; x1.toRad();` works better than doing `(lat2-lat1).toRad()`

when I put this below the function

You only need to put it above the point where you call `test()`. Where the `test` function itself is declared does not matter.

You need to extend the Number prototype, before calling those extensions in a function.

So just ensure

``````Number.prototype.toRad = function() {
return this * Math.PI / 180;
}
``````

is called before your function is called.

• No, it does not need to be put before the function definition. Jan 28, 2013 at 11:47
• @bergi - sorry you are right - it needs to be defined before the function is called - will edit my answer. Jan 28, 2013 at 12:03

Another variant to reduce redundancy and also compatible with Google LatLng objects:

``````  function haversine_distance(coords1, coords2) {

return x * Math.PI / 180;
}

var dLat = toRad(coords2.latitude - coords1.latitude);
var dLon = toRad(coords2.longitude - coords1.longitude)

var a = Math.sin(dLat / 2) * Math.sin(dLat / 2) +
Math.sin(dLon / 2) * Math.sin(dLon / 2);

return 12742 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a));
}
``````
• Is this still in km? It should be commented as such, as well as the change required to make it return miles. Feb 14, 2018 at 3:41

Here's another refactored answer in JavaScript:

``````getHaversineDistance = (firstLocation, secondLocation) => {
const earthRadius = 6371; // km

const diffLat = (secondLocation.lat-firstLocation.lat) * Math.PI / 180;
const diffLng = (secondLocation.lng-firstLocation.lng) * Math.PI / 180;

const arc = Math.cos(
firstLocation.lat * Math.PI / 180) * Math.cos(secondLocation.lat * Math.PI / 180)
* Math.sin(diffLng/2) * Math.sin(diffLng/2)
+ Math.sin(diffLat/2) * Math.sin(diffLat/2);
const line = 2 * Math.atan2(Math.sqrt(arc), Math.sqrt(1-arc));

const distance = earthRadius * line;

return distance;
}

const philly = { lat: 39.9526, lng: -75.1652 }
const nyc = { lat: 40.7128, lng: -74.0060 }
const losAngeles = { lat: 34.0522, lng: -118.2437 }

console.log(getHaversineDistance(philly, nyc)) //129.61277152662188
console.log(getHaversineDistance(philly, losAngeles)) //3843.4534005980404
``````

This is a java implemetation of talkol's solution above. His or her solution worked very well for us. I'm not trying to answer the question, since the original question was for javascript. I'm just sharing our java implementation of the given javascript solution in case others find it of use.

``````// this was a pojo class we used internally...
public class GisPostalCode {

private String country;
private String postalCode;
private double latitude;
private double longitude;

// getters/setters, etc.
}

public static double distanceBetweenCoordinatesInMiles2(GisPostalCode c1, GisPostalCode c2) {

double lat2 = c2.getLatitude();
double lon2 = c2.getLongitude();
double lat1 = c1.getLatitude();
double lon1 = c1.getLongitude();

double R = 6371; // km
double x1 = lat2 - lat1;
double dLat = x1 * Math.PI / 180;
double x2 = lon2 - lon1;
double dLon = x2 * Math.PI / 180;

double a = Math.sin(dLat/2) * Math.sin(dLat/2) +
Math.cos(lat1*Math.PI/180) * Math.cos(lat2*Math.PI/180) *
Math.sin(dLon/2) * Math.sin(dLon/2);

double c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a));
double d = R * c;

// convert to miles
return d / 1.60934;
}
``````