# Function to calculate distance between two coordinates

I'm currently using the function below and it doesn't work properly. According to Google Maps, the distance between these coordinates (from 59.3293371,13.4877472 to 59.3225525,13.4619422) are 2.2 kilometres while the function returns 1.6 kilometres. How can I make this function return the correct distance?

function getDistanceFromLatLonInKm(lat1, lon1, lat2, lon2) {
var R = 6371; // Radius of the earth in km
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; // Distance in km
return d;
}

return deg * (Math.PI/180)
}

jsFiddle: http://jsfiddle.net/edgren/gAHJB/

What you're using is called the haversine formula, which calculates the distance between two points on a sphere as the crow flies. The Google Maps link you provided shows the distance as 2.2 km because it's not a straight line.

Wolfram Alpha is a great resource for doing geographic calculations, and also shows a distance of 1.652 km between these two points.

If you're looking for straight-line distance (as the crow files), your function is working correctly. If what you want is driving distance (or biking distance or public transportation distance or walking distance), you'll have to use a mapping API (Google or Bing being the most popular) to get the appropriate route, which will include the distance.

Incidentally, the Google Maps API provides a packaged method for spherical distance, in its google.maps.geometry.spherical namespace (look for computeDistanceBetween). It's probably better than rolling your own (for starters, it uses a more precise value for the Earth's radius).

For the picky among us, when I say "straight-line distance", I'm referring to a "straight line on a sphere", which is actually a curved line (i.e. the great-circle distance), of course.

• My pleasure! It was fun to answer. Sep 18, 2013 at 23:22
• It's a beautiful answer. I say beautiful because the details provided are just too good for understanding the difference even for a novice like me. Nov 27, 2015 at 9:18

I have written a similar equation before - tested it and also got 1.6 km.

Your function is calculating as the crow flies (straight line distance).

//This function takes in latitude and longitude of two location and returns the distance between them as the crow flies (in km)
function calcCrow(lat1, lon1, lat2, lon2)
{
var R = 6371; // km

var a = Math.sin(dLat/2) * Math.sin(dLat/2) +
Math.sin(dLon/2) * Math.sin(dLon/2) * Math.cos(lat1) * Math.cos(lat2);
var c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a));
var d = R * c;
return d;
}

// Converts numeric degrees to radians
{
return Value * Math.PI / 180;
}
• I think your variable names are way too descriptive :) Mar 17, 2019 at 9:37
• this returns meters, not km d = R * c; returns meters d = R * c / 1000.0; returns kilometers Jul 26, 2022 at 15:01

Derek's solution worked fine for me, and I've just simply converted it to PHP, hope it helps somebody out there !

function calcCrow(\$lat1, \$lon1, \$lat2, \$lon2){
\$R = 6371; // km

\$a = sin(\$dLat/2) * sin(\$dLat/2) +sin(\$dLon/2) * sin(\$dLon/2) * cos(\$lat1) * cos(\$lat2);
\$c = 2 * atan2(sqrt(\$a), sqrt(1-\$a));
\$d = \$R * \$c;
return \$d;
}

// Converts numeric degrees to radians
{
return \$Value * pi() / 180;
}

Using Haversine formula, source of the code:

//:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::
//:::                                                                         :::
//:::  This routine calculates the distance between two points (given the     :::
//:::  latitude/longitude of those points). It is being used to calculate     :::
//:::  the distance between two locations using GeoDataSource (TM) prodducts  :::
//:::                                                                         :::
//:::  Definitions:                                                           :::
//:::    South latitudes are negative, east longitudes are positive           :::
//:::                                                                         :::
//:::  Passed to function:                                                    :::
//:::    lat1, lon1 = Latitude and Longitude of point 1 (in decimal degrees)  :::
//:::    lat2, lon2 = Latitude and Longitude of point 2 (in decimal degrees)  :::
//:::    unit = the unit you desire for results                               :::
//:::           where: 'M' is statute miles (default)                         :::
//:::                  'K' is kilometers                                      :::
//:::                  'N' is nautical miles                                  :::
//:::                                                                         :::
//:::  Worldwide cities and other features databases with latitude longitude  :::
//:::  are available at https://www.geodatasource.com                         :::
//:::                                                                         :::
//:::                                                                         :::
//:::  Official Web site: https://www.geodatasource.com                       :::
//:::                                                                         :::
//:::                                                                         :::
//:::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::

function distance(lat1, lon1, lat2, lon2, unit) {
if ((lat1 == lat2) && (lon1 == lon2)) {
return 0;
}
else {
var radlat1 = Math.PI * lat1/180;
var radlat2 = Math.PI * lat2/180;
var theta = lon1-lon2;
var radtheta = Math.PI * theta/180;
if (dist > 1) {
dist = 1;
}
dist = Math.acos(dist);
dist = dist * 180/Math.PI;
dist = dist * 60 * 1.1515;
if (unit=="K") { dist = dist * 1.609344 }
if (unit=="N") { dist = dist * 0.8684 }
return dist;
}
}

• why you are doing this ? if (dist > 1) { dist = 1; } Mar 15, 2021 at 15:28
• This was very useful, and much more accurate than some other answers I found Apr 9 at 4:57

Adding this for Node.JS users. You can use the haversine-distance module to do this so you won't need to handle the calculations on your own. See the npm page for more information.

To install:

npm install --save haversine-distance

You can use the module as follows:

var haversine = require("haversine-distance");

//First point in your haversine calculation
var point1 = { lat: 6.1754, lng: 106.8272 }

//Second point in your haversine calculation
var point2 = { lat: 6.1352, lng: 106.8133 }

var haversine_m = haversine(point1, point2); //Results in meters (default)
var haversine_km = haversine_m /1000; //Results in kilometers

console.log("distance (in meters): " + haversine_m + "m");
console.log("distance (in kilometers): " + haversine_km + "km");

Update: i created a npm package that implements the algorithm below: https://www.npmjs.com/package/calculate-distance-between-coordinates

I implemeneted this algorithm in typescript and ES6

export type Coordinate = {
lat: number;
lon: number;
};

get the distance between two points:

function getDistanceBetweenTwoPoints(cord1: Coordinate, cord2: Coordinate) {
if (cord1.lat == cord2.lat && cord1.lon == cord2.lon) {
return 0;
}

const radlat1 = (Math.PI * cord1.lat) / 180;
const radlat2 = (Math.PI * cord2.lat) / 180;

const theta = cord1.lon - cord2.lon;
const radtheta = (Math.PI * theta) / 180;

let dist =

if (dist > 1) {
dist = 1;
}

dist = Math.acos(dist);
dist = (dist * 180) / Math.PI;
dist = dist * 60 * 1.1515;
dist = dist * 1.609344; //convert miles to km

return dist;
}

get the distance between an array of coordinates

export function getTotalDistance(coordinates: Coordinate[]) {
coordinates = coordinates.filter((cord) => {
if (cord.lat && cord.lon) {
return true;
}
});

let totalDistance = 0;

if (!coordinates) {
return 0;
}

if (coordinates.length < 2) {
return 0;
}

for (let i = 0; i < coordinates.length - 2; i++) {
if (
!coordinates[i].lon ||
!coordinates[i].lat ||
!coordinates[i + 1].lon ||
!coordinates[i + 1].lat
) {
totalDistance = totalDistance;
}
totalDistance =
totalDistance +
getDistanceBetweenTwoPoints(coordinates[i], coordinates[i + 1]);
}

}

Calculate the Distance between Two Points in javascript

function distance(lat1, lon1, lat2, lon2, unit) {
var radlat1 = Math.PI * lat1/180
var radlat2 = Math.PI * lat2/180
var theta = lon1-lon2
var radtheta = Math.PI * theta/180
dist = Math.acos(dist)
dist = dist * 180/Math.PI
dist = dist * 60 * 1.1515
if (unit=="K") { dist = dist * 1.609344 }
if (unit=="N") { dist = dist * 0.8684 }
return dist
}

For more details refer this: Reference Link

Try this. It is in VB.net and you need to convert it to Javascript. This function accepts parameters in decimal minutes.

Private Function calculateDistance(ByVal long1 As String, ByVal lat1 As String, ByVal long2 As String, ByVal lat2 As String) As Double
long1 = Double.Parse(long1)
lat1 = Double.Parse(lat1)
long2 = Double.Parse(long2)
lat2 = Double.Parse(lat2)

lat1 = (lat1 * 2.0 * Math.PI) / 60.0 / 360.0
long1 = (long1 * 2.0 * Math.PI) / 60.0 / 360.0
lat2 = (lat2 * 2.0 * Math.PI) / 60.0 / 360.0
long2 = (long2 * 2.0 * Math.PI) / 60.0 / 360.0

' use to different earth axis length
Dim a As Double = 6378137.0        ' Earth Major Axis (WGS84)
Dim b As Double = 6356752.3142     ' Minor Axis
Dim f As Double = (a - b) / a        ' "Flattening"
Dim e As Double = 2.0 * f - f * f      ' "Eccentricity"

Dim beta As Double = (a / Math.Sqrt(1.0 - e * Math.Sin(lat1) * Math.Sin(lat1)))
Dim cos As Double = Math.Cos(lat1)
Dim x As Double = beta * cos * Math.Cos(long1)
Dim y As Double = beta * cos * Math.Sin(long1)
Dim z As Double = beta * (1 - e) * Math.Sin(lat1)

beta = (a / Math.Sqrt(1.0 - e * Math.Sin(lat2) * Math.Sin(lat2)))
cos = Math.Cos(lat2)
x -= (beta * cos * Math.Cos(long2))
y -= (beta * cos * Math.Sin(long2))
z -= (beta * (1 - e) * Math.Sin(lat2))

Return Math.Sqrt((x * x) + (y * y) + (z * z))
End Function

Edit The converted function in javascript

function calculateDistance(lat1, long1, lat2, long2)
{

lat1 = (lat1 * 2.0 * Math.PI) / 60.0 / 360.0;
long1 = (long1 * 2.0 * Math.PI) / 60.0 / 360.0;
lat2 = (lat2 * 2.0 * Math.PI) / 60.0 / 360.0;
long2 = (long2 * 2.0 * Math.PI) / 60.0 / 360.0;

// use to different earth axis length
var a = 6378137.0;        // Earth Major Axis (WGS84)
var b = 6356752.3142;     // Minor Axis
var f = (a-b) / a;        // "Flattening"
var e = 2.0*f - f*f;      // "Eccentricity"

var beta = (a / Math.sqrt( 1.0 - e * Math.sin( lat1 ) * Math.sin( lat1 )));
var cos = Math.cos( lat1 );
var x = beta * cos * Math.cos( long1 );
var y = beta * cos * Math.sin( long1 );
var z = beta * ( 1 - e ) * Math.sin( lat1 );

beta = ( a / Math.sqrt( 1.0 -  e * Math.sin( lat2 ) * Math.sin( lat2 )));
cos = Math.cos( lat2 );
x -= (beta * cos * Math.cos( long2 ));
y -= (beta * cos * Math.sin( long2 ));
z -= (beta * (1 - e) * Math.sin( lat2 ));

return (Math.sqrt( (x*x) + (y*y) + (z*z) )/1000);
}
• 这个问题问了JavaScript的答案。. You have to convert it to english :) Oct 12, 2015 at 15:56
• added a javascript version Oct 16, 2015 at 3:12
• Try using more meaningful names for your variables. Don't be afraid to be verbose, since nowadays javascript is usually minified and the variable names then become only useful for humans. for example: const earthsMajorAccess = 6378137.0; eliminating the need for helpful comments (since the variable name implies what it is) Jun 13, 2019 at 11:28
• This function was written more than 5 years ago. You are welcome to modify :) Jun 16, 2019 at 13:30

You could use a module too:

Install:

\$ npm install geolib

Usage:

import { getDistance } from 'geolib'

const distance = getDistance(
{ latitude: 51.5103, longitude: 7.49347 },
{ latitude: "51° 31' N", longitude: "7° 28' E" }
)

console.log(distance)

Documentation: https://www.npmjs.com/package/geolib

• It gives me NaN distance Apr 6 at 21:35

I have written the function to find distance between two coordinates. It will return distance in meter.

function findDistance() {
var R = 6371e3; // R is earth’s radius
var lat1 = 23.18489670753479; // starting point lat
var lat2 = 32.726601;         // ending point lat
var lon1 = 72.62524545192719; // starting point lon
var lon2 = 74.857025;         // ending point lon

var c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a));

var d = R * c;

console.log(d)
}

var PI = 3.1415926535;
return val / 180.0 * PI;
}

Visit this address. https://www.movable-type.co.uk/scripts/latlong.html You can use this code:

JavaScript:

const R = 6371e3; // metres
const φ1 = lat1 * Math.PI/180; // φ, λ in radians
const φ2 = lat2 * Math.PI/180;
const Δφ = (lat2-lat1) * Math.PI/180;
const Δλ = (lon2-lon1) * Math.PI/180;

const a = Math.sin(Δφ/2) * Math.sin(Δφ/2) +
Math.cos(φ1) * Math.cos(φ2) *
Math.sin(Δλ/2) * Math.sin(Δλ/2);
const c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a));

const d = R * c; // in metres
• Not sure if the math is right (hope it is), but not depending on external libraries and using urf8 variables makes this my favorite answer.... Apr 16, 2021 at 11:49

## Great-circle distance - From chord length

Here's an elegant solution applying the strategy design pattern; I hope it's readable enough.

TwoPointsDistanceCalculatorStrategy.js:

module.exports = () =>

class TwoPointsDistanceCalculatorStrategy {

constructor() {}

calculateDistance({ point1Coordinates, point2Coordinates }) {}
};

GreatCircleTwoPointsDistanceCalculatorStrategy.js:

module.exports = ({ TwoPointsDistanceCalculatorStrategy }) =>

class GreatCircleTwoPointsDistanceCalculatorStrategy extends TwoPointsDistanceCalculatorStrategy {

constructor() {
super();
}

/**
* Following the algorithm documented here:
* https://en.wikipedia.org/wiki/Great-circle_distance#Computational_formulas
*
* @param {object} inputs
* @param {array} inputs.point1Coordinates
* @param {array} inputs.point2Coordinates
*
* @returns {decimal} distance in kelometers
*/
calculateDistance({ point1Coordinates, point2Coordinates }) {

const EARTH_RADIUS = 6371;   // in kelometers

const [lat1 = 0, lon1 = 0] = point1Coordinates;
const [lat2 = 0, lon2 = 0] = point2Coordinates;

const centralAngle = _computeCentralAngle({
});

const distance = EARTH_RADIUS * centralAngle;

return distance;
}
};

/**
*
* @param {object} inputs
* @param {decimal} inputs.lat1
* @param {decimal} inputs.lon1
* @param {decimal} inputs.lat2
* @param {decimal} inputs.lon2
*
* @returns {decimal} centralAngle
*/
function _computeCentralAngle({ lat1, lon1, lat2, lon2 }) {

const chordLength = _computeChordLength({ lat1, lon1, lat2, lon2 });
const centralAngle = 2 * Math.asin(chordLength / 2);

return centralAngle;
}

/**
*
* @param {object} inputs
* @param {decimal} inputs.lat1
* @param {decimal} inputs.lon1
* @param {decimal} inputs.lat2
* @param {decimal} inputs.lon2
*
* @returns {decimal} chordLength
*/
function _computeChordLength({ lat1, lon1, lat2, lon2 }) {

const { sin, cos, pow, sqrt } = Math;

const ΔX = cos(lat2) * cos(lon2) - cos(lat1) * cos(lon1);
const ΔY = cos(lat2) * sin(lon2) - cos(lat1) * sin(lon1);
const ΔZ = sin(lat2) - sin(lat1);

const ΔXSquare = pow(ΔX, 2);
const ΔYSquare = pow(ΔY, 2);
const ΔZSquare = pow(ΔZ, 2);

const chordLength = sqrt(ΔXSquare + ΔYSquare + ΔZSquare);

return chordLength;
}

module.exports = function convertDegreesToRadians({ degrees }) {

return degrees * Math.PI / 180;
};

This's following the Great-circle distance - From chord length, documented here.

And the check from three part.

https://www.distancefromto.net/

static distance({ x: x1, y: y1 }, { x: x2, y: y2 }) {
return value * Math.PI / 180
}

var R = 6371.0710
var difflat = rlat2 - rlat1 // Radian difference (latitudes)
return 2 * R * Math.asin(Math.sqrt(Math.sin(difflat / 2) * Math.sin(difflat / 2) + Math.cos(rlat1) * Math.cos(rlat2) * Math.sin(difflon / 2) * Math.sin(difflon / 2)))
}

As said before, your function is calculating a straight line distance to the destination point. If you want the driving distance/route, you can use Google Maps Distance Matrix Service:

getDrivingDistanceBetweenTwoLatLong(origin, destination) {

return new Observable(subscriber => {
service.getDistanceMatrix(
{
travelMode: 'DRIVING'
}, (response, status) => {
console.log('Error:', status);
subscriber.error({error: status, status: status});
} else {
console.log(response);
try {
let valueInMeters = response.rows[0].elements[0].distance.value;
let valueInKms = valueInMeters / 1000;
subscriber.next(valueInKms);
subscriber.complete();
}
catch(error) {
subscriber.error({error: error, status: status});
}
}
});
});
}

I try to make the code a little bit understandable by naming the variables, I hope this can help

function getDistanceFromLatLonInKm(point1, point2) {

const [lat1, lon1] = point1;
const [lat2, lon2] = point2;
const dLat = convertDegToRad(lat2 - lat1);
const dLon = convertDegToRad(lon2 - lon1);
const squarehalfChordLength =
Math.sin(dLat / 2) * Math.sin(dLat / 2) +
Math.sin(dLon / 2) * Math.sin(dLon / 2);

const angularDistance = 2 * Math.atan2(Math.sqrt(squarehalfChordLength), Math.sqrt(1 - squarehalfChordLength));
const distance = earthRadius * angularDistance;
return distance;

}
• ReferenceError: convertDegToRad is not defined
– Phil
Feb 25, 2022 at 23:01
• what phil said:
– Sam
Jun 14, 2022 at 17:09
• function convertDegToRad(value) { return value * Math.PI / 180 } Nov 9, 2022 at 9:30

This is the answer from ChatGPT. it can handle more then two cities.

function calculateTripDistance(cityNames) {
const cities = {
Grenoble: { latitude: 45.188529, longitude: 5.724524 },
Dijon: { latitude: 47.322047, longitude: 5.04148 },
Nîmes: { latitude: 43.836699, longitude: 4.360054 }
// Add more cities and their coordinates if needed
};

let totalDistance = 0;

for (let i = 0; i < cityNames.length - 1; i++) {
const startCity = cities[cityNames[i]];
const endCity = cities[cityNames[i + 1]];

const distance = calculateDistance(startCity.latitude, startCity.longitude, endCity.latitude, endCity.longitude);
totalDistance += distance;
}

}

function calculateDistance(lat1, lon1, lat2, lon2) {

const dLat = toRadians(lat2 - lat1);
const dLon = toRadians(lon2 - lon1);

const a =
Math.sin(dLat / 2) * Math.sin(dLat / 2) +

const c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1 - a));

const distance = earthRadius * c;

return distance;
}

return degrees * (Math.PI / 180);
}

// Example usage:
const cityNames = ["Grenoble", "Dijon", "Nîmes"];
const totalDistance = calculateTripDistance(cityNames);
console.log(`Total Distance: \${totalDistance} km`);