I am working with geospatial shapes and looking at the centroid algorithm here,

http://en.wikipedia.org/wiki/Centroid#Centroid_of_polygon

I have implemented the code in C# like this (which is just this adapted),

Finding the centroid of a polygon?

```
class Program
{
static void Main(string[] args)
{
List<Point> vertices = new List<Point>();
vertices.Add(new Point() { X = 1, Y = 1 });
vertices.Add(new Point() { X = 1, Y = 10 });
vertices.Add(new Point() { X = 2, Y = 10 });
vertices.Add(new Point() { X = 2, Y = 2 });
vertices.Add(new Point() { X = 10, Y = 2 });
vertices.Add(new Point() { X = 10, Y = 1 });
vertices.Add(new Point() { X = 1, Y = 1 });
Point centroid = Compute2DPolygonCentroid(vertices);
}
static Point Compute2DPolygonCentroid(List<Point> vertices)
{
Point centroid = new Point() { X = 0.0, Y = 0.0 };
double signedArea = 0.0;
double x0 = 0.0; // Current vertex X
double y0 = 0.0; // Current vertex Y
double x1 = 0.0; // Next vertex X
double y1 = 0.0; // Next vertex Y
double a = 0.0; // Partial signed area
// For all vertices except last
int i=0;
for (i = 0; i < vertices.Count - 1; ++i)
{
x0 = vertices[i].X;
y0 = vertices[i].Y;
x1 = vertices[i+1].X;
y1 = vertices[i+1].Y;
a = x0*y1 - x1*y0;
signedArea += a;
centroid.X += (x0 + x1)*a;
centroid.Y += (y0 + y1)*a;
}
// Do last vertex
x0 = vertices[i].X;
y0 = vertices[i].Y;
x1 = vertices[0].X;
y1 = vertices[0].Y;
a = x0*y1 - x1*y0;
signedArea += a;
centroid.X += (x0 + x1)*a;
centroid.Y += (y0 + y1)*a;
signedArea *= 0.5;
centroid.X /= (6*signedArea);
centroid.Y /= (6*signedArea);
return centroid;
}
}
public class Point
{
public double X { get; set; }
public double Y { get; set; }
}
```

The problem is that this algorithm when I have this shape (which is an L shape),

(1,1) (1,10) (2,10) (2,2) (10,2) (10,1) (1,1)

It gives me the result (3.62, 3.62). Which is OK, except that point is outside the shape. Is there another algorithm around that takes this into account?

Basically a person is going to be drawing a shape on a map. This shape might span multiple roads (so could be an L shape) and I want to work out the centre of the shape. This is so I can work out the road name at that point. It doesn't make sense to me for it to be outside the shape if they have drawn a long skinny L shape.

convexpolygons. – Hong Ooi Mar 22 '12 at 2:51