# How to check if a certain coordinates fall to another coordinates radius using PHP only

I have seen some functions but it happens only in MySQL or Postgresql But what I want is the equivalent when doing only in PHP? I just doing some comparison, Like I have this data that is produced when created.

``````Lat: 56.130366
Long: -106.34677099999
``````

Later on, I want to check if that data coordinates will fall within the radius of the following coordinates. Like If data1 is within the data2 radius then return true otherwise false.

``````Lat: 57.223366
Long: -106.34675644699
``````

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Google "Haversine formula" or "Vincenty formula" to work out the distance between two lat/long positions –  Mark Baker Sep 15 '12 at 18:08

You should use Haversine formula to compute distance between two points. You have a PHP version here.

Then just check if `distance < 100000`.

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Good codes you got there. But the distance is really in meters or kilometers? –  Kenneth Palaganas Sep 15 '12 at 18:24
It depends on the earth radius. If you use 6371 like in the code I have linked, it is kilometers :) –  Guillaume Poussel Sep 15 '12 at 18:30
I saw some algorithms using 6367 as the earth radius but most of them are 6371 does it really matters or not? anyway thanks :) –  Kenneth Palaganas Sep 15 '12 at 18:31

Thanks for the help guys here's now the code might someone out there find it useful.

``````function getDistance( \$latitude1, \$longitude1, \$latitude2, \$longitude2 )
{

\$dLat = deg2rad( \$latitude2 - \$latitude1 );
\$dLon = deg2rad( \$longitude2 - \$longitude1 );

\$a = sin(\$dLat/2) * sin(\$dLat/2) + cos(deg2rad(\$latitude1)) * cos(deg2rad(\$latitude2)) * sin(\$dLon/2) * sin(\$dLon/2);
\$c = 2 * asin(sqrt(\$a));

return \$d;
}

\$distance = getDistance( 56.130366, -106.34677099999, 57.223366, -106.34675644699 );
if( \$distance < 100 ){
echo 'fall within the 100kilometer radius';
} else {
}
``````
-

This should help,

``````\$lat_origin = 56.130366;
\$long_origin = -106.34677099999;

\$lat_dest = 57.223366;
\$long_dest = -106.34675644699;

\$distance = (\$radius * pi() * sqrt(
(\$lat_origin - \$lat_dest)
* (\$lat_origin - \$lat_dest)
+ cos(\$lat_origin / \$deg_per_rad)  # Convert these to
* (\$long_origin - \$long_dest)
* (\$long_origin - \$long_dest)
) / 180);
``````
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``````//  Vincenty formula to calculate great circle distance between 2 locations
//      expressed as Lat/Long in KM

function VincentyDistance(\$lat1,\$lat2,\$lon1,\$lon2){
\$a = 6378137 - 21 * sin(lat);
\$b = 6356752.3142;
\$f = 1/298.257223563;

\$p1_lat = \$lat1/57.29577951;
\$p2_lat = \$lat2/57.29577951;
\$p1_lon = \$lon1/57.29577951;
\$p2_lon = \$lon2/57.29577951;

\$L = \$p2_lon - \$p1_lon;

\$U1 = atan((1-\$f) * tan(\$p1_lat));
\$U2 = atan((1-\$f) * tan(\$p2_lat));

\$sinU1 = sin(\$U1);
\$cosU1 = cos(\$U1);
\$sinU2 = sin(\$U2);
\$cosU2 = cos(\$U2);

\$lambda = \$L;
\$lambdaP = 2*PI;
\$iterLimit = 20;

while(abs(\$lambda-\$lambdaP) > 1e-12 && \$iterLimit>0) {
\$sinLambda = sin(\$lambda);
\$cosLambda = cos(\$lambda);
\$sinSigma = sqrt((\$cosU2*\$sinLambda) * (\$cosU2*\$sinLambda) + (\$cosU1*\$sinU2-\$sinU1*\$cosU2*\$cosLambda) * (\$cosU1*\$sinU2-\$sinU1*\$cosU2*\$cosLambda));

//if (\$sinSigma==0){return 0;}  // co-incident points
\$cosSigma = \$sinU1*\$sinU2 + \$cosU1*\$cosU2*\$cosLambda;
\$sigma = atan2(\$sinSigma, \$cosSigma);
\$alpha = asin(\$cosU1 * \$cosU2 * \$sinLambda / \$sinSigma);
\$cosSqAlpha = cos(\$alpha) * cos(\$alpha);
\$cos2SigmaM = \$cosSigma - 2*\$sinU1*\$sinU2/\$cosSqAlpha;
\$C = \$f/16*\$cosSqAlpha*(4+\$f*(4-3*\$cosSqAlpha));
\$lambdaP = \$lambda;
\$lambda = \$L + (1-\$C) * \$f * sin(\$alpha) * (\$sigma + \$C*\$sinSigma*(\$cos2SigmaM+\$C*\$cosSigma*(-1+2*\$cos2SigmaM*\$cos2SigmaM)));
}

\$uSq = \$cosSqAlpha*(\$a*\$a-\$b*\$b)/(\$b*\$b);
\$A = 1 + \$uSq/16384*(4096+\$uSq*(-768+\$uSq*(320-175*\$uSq)));
\$B = \$uSq/1024 * (256+\$uSq*(-128+\$uSq*(74-47*\$uSq)));

\$deltaSigma = \$B*\$sinSigma*(\$cos2SigmaM+\$B/4*(\$cosSigma*(-1+2*\$cos2SigmaM*\$cos2SigmaM)- \$B/6*\$cos2SigmaM*(-3+4*\$sinSigma*\$sinSigma)*(-3+4*\$cos2SigmaM*\$cos2SigmaM)));

\$s = \$b*\$A*(\$sigma-\$deltaSigma);
return \$s/1000;
}

echo VincentyDistance(\$lat1,\$lat2,\$lon1,\$lon2);
``````
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Please take a look at this function:

It should be something like this if I'm right:

``````<?php

\$lat = 56.130366;
\$long = -106.34677099999;