# Gettting Different Distance When Using the Google Map and User defined Function

I want to get the Distance between two latitude and longitude in meter / km . So i am using the below function . It gives me the different result than the google Map.

Can you help me to solve my problem ? i dont understand What is the Problem ?

Code

``````   float[] results = {0};

android.location.Location.distanceBetween(lat1, lon1, lat2, lon2, results);
``````

Current Latitude = `23.012281666666663` Current Longitude = `72.51798333333333`

Destination Latitude = `23.1120487` Destination Latitude = `72.5766759`

It gives this Result = 12579.679 in Meter, while in google map it gives this result = 17.9 Km

I do not understand why this two gives the different result.

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How did you get this `Result = 12579.679 in Meter` ? I have the same code you have above and it displays 1.3348807E7 . Why is my answer different? –  Miguel Rivera Nov 19 '13 at 6:17

This diagram explains why you get 12.5 and 17.6 kms

To calculate the driving distance (17.6 km) , you need to use the directions API

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Thanks for your quick response,I also thought this at that time but has no clue for that..and tried to search for the method to get the Distance as like Google. –  MKJParekh Nov 15 '11 at 8:30

Hey I found one source code here and People arround says it will return the correct distance travelling by road. I haven't try this but you may try and tell me if it really works. GPSSample.java

I dont know how you are passing the Lat - Long Values..Please Try this whole sample code once.

and the code written in `android.location.Location.java` for this is as below..if you wish can directly use this in your app.

``````private static void computeDistanceAndBearing(double lat1,
double lon1, double lat2, double lon2, float[] results) {
// Based on http://www.ngs.noaa.gov/PUBS_LIB/inverse.pdf
// using the "Inverse Formula" (section 4)

int MAXITERS = 20;
lat1 *= Math.PI / 180.0;
lat2 *= Math.PI / 180.0;
lon1 *= Math.PI / 180.0;
lon2 *= Math.PI / 180.0;

double a = 6378137.0; // WGS84 major axis
double b = 6356752.3142; // WGS84 semi-major axis
double f = (a - b) / a;
double aSqMinusBSqOverBSq = (a * a - b * b) / (b * b);

double L = lon2 - lon1;
double A = 0.0;
double U1 = Math.atan((1.0 - f) * Math.tan(lat1));
double U2 = Math.atan((1.0 - f) * Math.tan(lat2));

double cosU1 = Math.cos(U1);
double cosU2 = Math.cos(U2);
double sinU1 = Math.sin(U1);
double sinU2 = Math.sin(U2);
double cosU1cosU2 = cosU1 * cosU2;
double sinU1sinU2 = sinU1 * sinU2;

double sigma = 0.0;
double deltaSigma = 0.0;
double cosSqAlpha = 0.0;
double cos2SM = 0.0;
double cosSigma = 0.0;
double sinSigma = 0.0;
double cosLambda = 0.0;
double sinLambda = 0.0;

double lambda = L; // initial guess
for (int iter = 0; iter < MAXITERS; iter++) {
double lambdaOrig = lambda;
cosLambda = Math.cos(lambda);
sinLambda = Math.sin(lambda);
double t1 = cosU2 * sinLambda;
double t2 = cosU1 * sinU2 - sinU1 * cosU2 * cosLambda;
double sinSqSigma = t1 * t1 + t2 * t2; // (14)
sinSigma = Math.sqrt(sinSqSigma);
cosSigma = sinU1sinU2 + cosU1cosU2 * cosLambda; // (15)
sigma = Math.atan2(sinSigma, cosSigma); // (16)
double sinAlpha = (sinSigma == 0) ? 0.0 : cosU1cosU2
* sinLambda / sinSigma; // (17)
cosSqAlpha = 1.0 - sinAlpha * sinAlpha;
cos2SM = (cosSqAlpha == 0) ? 0.0 : cosSigma - 2.0
* sinU1sinU2 / cosSqAlpha; // (18)

double uSquared = cosSqAlpha * aSqMinusBSqOverBSq; // defn
A = 1
+ (uSquared / 16384.0)
* // (3)
(4096.0 + uSquared
* (-768 + uSquared
* (320.0 - 175.0 * uSquared)));
double B = (uSquared / 1024.0) * // (4)
(256.0 + uSquared
* (-128.0 + uSquared
* (74.0 - 47.0 * uSquared)));
double C = (f / 16.0) * cosSqAlpha
* (4.0 + f * (4.0 - 3.0 * cosSqAlpha)); // (10)
double cos2SMSq = cos2SM * cos2SM;
deltaSigma = B
* sinSigma
* // (6)
(cos2SM + (B / 4.0)
* (cosSigma * (-1.0 + 2.0 * cos2SMSq) - (B / 6.0)
* cos2SM
* (-3.0 + 4.0 * sinSigma * sinSigma)
* (-3.0 + 4.0 * cos2SMSq)));

lambda = L
+ (1.0 - C)
* f
* sinAlpha
* (sigma + C
* sinSigma
* (cos2SM + C * cosSigma
* (-1.0 + 2.0 * cos2SM * cos2SM))); // (11)

double delta = (lambda - lambdaOrig) / lambda;
if (Math.abs(delta) < 1.0e-12) {
break;
}
}

float distance = (float) (b * A * (sigma - deltaSigma));
results[0] = distance;
if (results.length > 1) {
float initialBearing = (float) Math.atan2(
cosU2 * sinLambda, cosU1 * sinU2 - sinU1 * cosU2
* cosLambda);
initialBearing *= 180.0 / Math.PI;
results[1] = initialBearing;
if (results.length > 2) {
float finalBearing = (float) Math.atan2(cosU1
* sinLambda, -sinU1 * cosU2 + cosU1 * sinU2
* cosLambda);
finalBearing *= 180.0 / Math.PI;
results[2] = finalBearing;
}
}
}
``````
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thanks for your answer. –  Chirag Raval Nov 8 '11 at 13:42

You can use this 2 function to find the distance

*NOTE:*If you cant get the distance correctly then try setting the MILLION var to 1 cause in my case i have multiplied the lat-long values with 1E6 so have to divide with it.

``````public double calcdist() {
int MILLION = 1000000;

double lat1 = la1 / MILLION;
double lon1 = lo1 / MILLION;
double lat2 = la2 / MILLION;
double lon2 = lo2 / MILLION;

double dist = Math
return dist;

}
``````

and

``````private float round(float dist, int i) {
float p1 = (float) Math.pow(10, i);
dist = dist * p1;
float tmp = Math.round(dist);
return (float) tmp / p1;
}
``````

then use them as

``````float tempdist = (float) calcdist();
dist = round(tempdist, 2);
``````
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Hey..after posting this answer i have tested it using your inputs but it gave me dist 12.7 so sorry about that..i think we are calculating distance like "direct line from one point to another" and Google Map is giving "distance by following the route suggested"..so it gives few km/meters differece.. –  MKJParekh Oct 13 '11 at 10:40