I have a GPX file with a GPS track. Now I want to calculate the distance I covered with this track.

What's the best way to calculate this?


The traditional way of calculating the distance between two points (each pair of waypoints in your GPX file) is with the Haversine formula.

I have a SQL Server function that implements the algorithm. This should be easy to translate into other languages:

create function dbo.udf_Haversine(@lat1 float, @long1 float, 
                   @lat2 float, @long2 float) returns float begin
    declare @dlon float, @dlat float, @rlat1 float, 
                 @rlat2 float, @rlong1 float, @rlong2 float, 
                 @a float, @c float, @R float, @d float, @DtoR float

    select @DtoR = 0.017453293
    select @R = 3959      -- Earth radius

        @rlat1 = @lat1 * @DtoR,
        @rlong1 = @long1 * @DtoR,
        @rlat2 = @lat2 * @DtoR,
        @rlong2 = @long2 * @DtoR

        @dlon = @rlong1 - @rlong2,
        @dlat = @rlat1 - @rlat2

    select @a = power(sin(@dlat/2), 2) + cos(@rlat1) * 
                     cos(@rlat2) * power(sin(@dlon/2), 2)
    select @c = 2 * atn2(sqrt(@a), sqrt(1-@a))
    select @d = @R * @c

    return @d 

This returns the distance in Miles. For kilometers, replace the earth radius with it's km equivalent.

Here is a more in-depth explanation.

Edit: This function is fast enough and accurate enough for doing radius searches with a ZIP code database. It has been doing a great job on this site for years (but it no longer does, as the link is broken now).

  • Thanks a lot. I will port it to java and post it here. What does @DtoR means? Distance to Radius? – guerda Feb 20 '09 at 16:34
  • 1
    That's the factor that converts degrees into Radians, pi/180. – cdonner Feb 21 '09 at 0:23
  • Thanks for the link. I will post my Java version soon – guerda Feb 23 '09 at 21:24
  • 1
    The method is great for simple calculations, but it assumes the Earth is spherical. A more accurate calculation should use the WGS 84 ellipsoid standard or similar. – Holstebroe Jul 14 '11 at 14:31

Mike Gavaghan has an algorithm for distance calculations on his site. There is a C# and also a JAVA version of the code.


Delphi implementation of the Vincenty formulae can be found here.

  • Do you have an updated link for this? – Adam Carter Sep 11 '12 at 23:00
  • @Adam Carter: I've checked the URL and it's still OK. – menjaraz Sep 14 '12 at 9:24

Here's a Scala implementation.

3958.761 is the mean radius of the Earth in miles. To get a result in km (or some other unit) just alter this number.

// The Haversine formula
def haversineDistance(pointA: (Double, Double), pointB: (Double, Double)): Double = {
  val deltaLat = math.toRadians(pointB._1 - pointA._1)
  val deltaLong = math.toRadians(pointB._2 - pointA._2)
  val a = math.pow(math.sin(deltaLat / 2), 2) + math.cos(math.toRadians(pointA._1)) * math.cos(math.toRadians(pointB._1)) * math.pow(math.sin(deltaLong / 2), 2)
  val greatCircleDistance = 2 * math.atan2(math.sqrt(a), math.sqrt(1 - a))
  3958.761 * greatCircleDistance

// A sequence of gpx trackpoint lat,long pairs parsed from the track GPX data
val trkpts: Seq[(Double, Double)] = {
  val x = scala.xml.XML.loadString(track)
  (x \\ "trkpt").map(trkpt => ((trkpt \ "@lat").text.toDouble, (trkpt \ "@lon").text.toDouble))

// Distance of track in miles using Haversine formula
val trackDistance: Double = {
  trkpts match {
    case head :: tail => tail.foldLeft(head, 0.0)((accum, elem) => (elem, accum._2 + haversineDistance(accum._1, elem)))._2
    case Nil => 0.0

This question is rather old, but I would like to add a python option for completeness. GeoPy has both great-circle distance and Vincenty distance.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.