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How can I test if a LatLng point is within the bounds of a circle? (Google Maps JavaScript v3)

The getBounds() method returns the bounding box for the circle, which is a rectangle, so if a point falls outside the circle but within the bounding box, you'll get the wrong answer.

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Why don't you simple calculate this with Pythagorean theorem? You know a²+b²=c². If c is lower than r (radius) you know it is inside. –  rekire Jan 30 '13 at 7:06

5 Answers 5

up vote 1 down vote accepted

Use the spherical geometry library (be sure to include it with the API)

function pointInCircle(point, radius, center)
{
    return (google.maps.geometry.spherical.computeDistanceBetween(point, center) <= radius)
}
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Bingo! That's essentially what I ended up doing (Circle Selection for Google Maps.) Thanks. –  Michael-DC Jan 31 '13 at 5:31
    
Oh, and it seems you don't need to specify the library anymore - it seems they added it to the default code set. –  Michael-DC Jan 31 '13 at 5:34
    
I wouldn't recommend leaving it out until they change the documentation. –  geocodezip Jan 31 '13 at 11:37

You could just do the distance comparison manually, fairly trivially.

(x1 - x2)^2 + (y1 - y2)^2 <= D^2 
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Why don't you simple calculate this with Pythagorean theorem? You know a²+b²=c². If c is lower than r (radius) you know it is inside.

var isInside=Math.pow(x1 - x2, 2) + Math.pow(y1 - y2, 2) >= r*r;
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Thanks, that's what I ended up doing, using the API's built-in functions. It would be easier if the circle object had a containsLocation() method. (I would also love a fitBounds() method!) You can see the code here: Circle Selection for Google Maps. –  Michael-DC Jan 31 '13 at 5:27

You might use the Circle object to show it;

new google.maps.Circle({
            map : map,
            center : new google.maps.LatLng(lat,lng),
            strokeColor:'#00FFCC',
            strokeWeight:2,
            fillOpacity:0,
            radius:radiusm
        });

And apply the Pythagorean theorem to coordinates: but in this case to make it a "real" circle since the ration between 1° of lat and longitude varies across latitudes, you should at the very least adjust them like:

var kmRadius = 100; //(radius of 100 km)
var lat_gap = kmRadius/111.1;
var lng_gap = lat_gap / Math.cos(lat / (Math.PI/180));
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Something like this should do the trick (code not tested):

public boolean pointInCircle(Circle c, LatLng coord) {
  Rectangle r = c.getBounds();
  double rectX = r.getX();
  double rectY = r.getY();
  double rectWidth = r.getWidth();
  double rectHeight = r.getHeight();

  double circleCenterX = rectX + rectWidth/2;
  double circleCenterY = rectY + rectHeight/2;

  double lat = coord.getLatitude();
  double lon = coord.getLongitude();

  // Point in circle if (x−h)^2 + (y−k)^2 <= r^2
  double rSquared = Math.pow(rectWidth/2, 2);
  double point = Math.pow(lat - circleCenterX, 2) + Math.pow(lon - circleCenterY, 2);

  return (point <= rSquared) ? true : false;
}
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