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# how to find the distance between two geopoints?

double distance;

Location locationA = new Location("point A");

locationA.setLatitude(latA);
locationA.setLongitude(lngA);

Location locationB = new Location("point B");

locationB.setLatitude(latB);
LocationB.setLongitude(lngB);

distance = locationA.distanceTo(locationB);

the above code is not working and i am getting 0.0 Km as distance? Also in the constructor of the location class, what does the string provider mean. In the above code i am using PointA and PointB as the providers.

why is the above code not working?

LOGCAT 05-09 17:48:56.144: INFO/current loc(1573): lat 0.0 lng 0.0 05-09 17:48:56.155: INFO/checklocation loc(1573): lat 54.4288665 lng 10.169366

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Are you sure your values of latA/latB and lngA/lngB are different, and in the correct range? Can you provide examples of values you're using? Also, note distanceTo's result is in metres, not kilometres. – Dave May 9 '11 at 12:48
yes. i am converting to meters. i have put up the logcat result. the values that i am getting are different for the different locations.... – user590849 May 9 '11 at 13:01
You don't need to convert to metres, the result is in metres already. Please post a full code sample, as I believe the issue here is not in the code you've posted. – Dave May 10 '11 at 12:27

Update:

If you are getting lat/lon from GeoPoint then they are in microdegrees. You must multiply by 1e6.

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For the same input, this will give the same result. I believe there's an issue in the input being used, from code not shown in the original question. – Dave May 10 '11 at 12:35
@user590849 - are you perhaps getting lon/lat from GeoPoint? Those are in microdegrees - you should multiply by 1e6. – Peter Knego May 10 '11 at 12:38

Just a quick snippet since I didn't see a complete and simple solution with GeoPoints above:

public float getDistanceInMiles(GeoPoint p1, GeoPoint p2) {
double lat1 = ((double)p1.getLatitudeE6()) / 1e6;
double lng1 = ((double)p1.getLongitudeE6()) / 1e6;
double lat2 = ((double)p2.getLatitudeE6()) / 1e6;
double lng2 = ((double)p2.getLongitudeE6()) / 1e6;
float [] dist = new float[1];
Location.distanceBetween(lat1, lng1, lat2, lng2, dist);
return dist[0] * 0.000621371192f;
}

If you want meters, just return dist[0] directly.

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Works perfect, thanks! – jbc25 Jan 29 '13 at 21:20

As stated above, the Location Class is the way to go. Here is the code I have used :

Location locationA = new Location("point A");

locationA.setLatitude(pointA.getLatitudeE6() / 1E6);
locationA.setLongitude(pointA.getLongitudeE6() / 1E6);

Location locationB = new Location("point B");

locationB.setLatitude(pointB.getLatitudeE6() / 1E6);
locationB.setLongitude(pointB.getLongitudeE6() / 1E6);

double distance = locationA.distanceTo(locationB);

In this example, both pointA and pointB are instances of the GeoPoint class.

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This is not an answer, but note the signature for the Location constructor is Location(String provider).

i.e. the String you pass to the constructor should be one of LocationManager.GPS_PROVIDER, LocationManager.NETWORK_PROVIDER or LocationManager.PASSIVE_PROVIDER, not "point A" and "point B".

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public class Distance {

public static double distance(double lat1, double lon1, double lat2, double lon2) {

double theta = lon1 - lon2;

dist = Math.acos(dist);
dist = dist * 60 * 1.1515;
//if (unit == "K") {
//  dist = dist * 1.609344;
// else if (unit == "N") {
//dist = dist * 0.8684;
//}
return (dist);
}

public static final double PI = 3.14159265;
public static final double deg2radians = PI/180.0;

public static double getDistance(double latitude1, double longitude1, double latitude2,double longitude2) {

double lat1 = latitude1 * deg2radians;
double lat2 = latitude2 * deg2radians;
double lon1 = longitude1 * deg2radians;
double lon2 = longitude2 * deg2radians;
// Williams gives two formulae;
// this is the more accurate for close distances.
// In practice, the two differed only in the 8th or 9th place, for
// separations as small as 1 degree.
double radd = 2 * Math.asin(Math.sqrt(Math.pow(Math.sin((lat1 - lat2) / 2),
2.0)
+ Math.cos(lat1)
* Math.cos(lat2)
* Math.pow(Math.sin((lon1 - lon2) / 2), 2.0)));

}

/* ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: */
/* :: This function converts decimal degrees to radians : */
/* ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: */
private static double deg2rad(double deg) {
return (deg * Math.PI / 180.0);
}

/* ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: */
/* :: This function converts radians to decimal degrees : */
/* ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: */
return (rad * 180.0 / Math.PI);
}

}

It's not my code, but I can't remember where I found this from.

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double CalculateDistance( double nLat1, double nLon1, double nLat2, double nLon2 )
{
// Get the difference between our two points
// then convert the difference into radians

double nDLat = ToRad(nLat2 - nLat1);
double nDLon = ToRad(nLon2 - nLon1);

// Here is the new line