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Hello everybody o/ I know that this is more a math question than gmap, but I suppose that someone already pass through this =)

In my map, I have circle (actually I have several of them, but this not change the question), like this:

How do I know if a marker (with latitude X and longitude Y) is inside this circle?

Sorry for the bad english, I'm brazillian =p

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In Google Maps JavaScript API v3 you can use geometry library. To enable it you have to slightly change the script URL:

<script type="text/javascript" src=""></script>

The library contains utility functions for the computation of geometric data on sphere. You can utilize it to compute the distance of two points given by their latLngs this way:

var distanceInMetres = google.maps.geometry.spherical.computeDistanceBetween(latLngCircleCenter, latLngPoint);

Now you can easily check if the point is inside the circle (suppose R is in metres):

if(distanceInMetres < R)
   alert("in the circle");
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If (lat1, lon1) and (lat2, lon2) are your two points and R is the radius of the circle around your first point, then the distance between the points is given by the haversine formula (or the Great-circle distance). But I believe that for your problem, the angles are small enough to use this approximation:

Approximate Haversine formula

and then check whether d^2 is less than the radius R^2.

But if your latitude and longitude differences are larger than a few degrees, you'll want to use the full haversine formula.

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I tried if ((Math.pow((x - xc), 2) + Math.pow((y - yc), 2)) < Math.pow(R, 2)){ alert("Marker inside circle!"); } But aways "Marker inside circle!" – Lucas Pelegrino Feb 17 '11 at 14:57
Yeah definitely don't use that, it's not for lat-lon. In fact, I will remove it from the answer. – marshall.ward Feb 17 '11 at 21:10

I Recommend you read It provides a number of algorithms for computations of this kind. It includes JavaScript code for the computations.

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Basically if you have the coords of circle center (cX,cY) and radius R, and some marker at X,Y you can do the following calculations:

var distanceQuad = (X-cX)*(X-cX)+(Y-cY)*(Y-cY)
if (distanceQuad<=(R*R))
 alert("Marker inside circle!");

This is from trigonometry. You calculate distance as sqrt(sqr(deltaX)+sqr(deltaY)) and compare it with circle Radius. Given code is a bit optimized to get rid of calculating square root.

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I tried var cX = 37.79457586821203, cY = -122.37932682031499, R = 50, X = 37.791591528681565, Y = -121.81147098535405; var distanceQuad = (X-cX)*(X-cX)+(Y-cY)*(Y-cY) if (distanceQuad<=(R*R)) { alert("Marker inside circle!"); But aways "Marker inside circle" – Lucas Pelegrino Feb 17 '11 at 14:56
This will work if you're concerned about linear distances. The case the OP is concerned about deals with great circle arc lengths which require haversine formulations. – andand Feb 22 '11 at 19:11

It's much easier than you'd expect. Read this answer including a working jsFiddle example.

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