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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?

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up vote 19 down vote accepted

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).

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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
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
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.

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Delphi implementation of the Vincenty formulae can be found here.

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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
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