# Using indices with Box2D?

Is there a way to create a polygon with Box2D, by defining Vertices with their Indices?
Since i'm using openGL, I have to define the vertices and indices anyway, and i'm surprised there isn't a way in Box2D to create a body (shape) in the same way i'd normally create a mesh. Am I missing something, or is this normally done differently?

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Why would you need that? Maybe something has changed since I last looked at it, but from what I know (though I might be wrong) Box2D does only support convex shapes. So all you need to do is supply a list of vertices, for which a convex hull will then be created. –  Bart May 19 '12 at 4:57
It indeed only supports convex shapes, and my terrain shape is not convex. Therefor I wanted to seperate it in triangles (multiple convex shapes to build the bigger shape). –  user717572 May 19 '12 at 13:10
Exactly. But all you have to do is pass the vertices of the separated convex shapes. I don't think there is a way to directly generate the multiple convex shapes using an indexed approach. Perhaps someone will prove me wrong, so not an answer but a comment. :) –  Bart May 19 '12 at 13:11
If you want to store your vertices to access them later, why don't you store them in the userData of your body ? –  L'ange Carasuelo Mar 7 '13 at 10:37

In AS3 it could be done with B2D 2.1a version.

``````package org.pf.constructor.shapes
{
import Box2D.Collision.Shapes.b2PolygonShape;
import Box2D.Common.Math.b2Vec2;

/**
* ...
* @author zeksa'
*/
public class PFb2dConvexShape extends b2PolygonShape
{
private var _vertices:Array = new Array();

public function PFb2dConvexShape(vertices:Array)
{
for (var i:int = 0; i < vertices.length; i++)
{
_vertices.push(new b2Vec2(vertices[i][0] / 30, vertices[i][1] / 30));
}
SetAsArray(_vertices, _vertices.length);
}

}

}
``````

I've done that in this way. Think you can make the same on C++. Box2D supports only convex shapes. If you want concave shapes, I think this article will help you, AS3 only =). Hope you will catch idea how to do this on C++. Have fun!

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You should have a look at the poly2tri library : http://code.google.com/p/poly2tri/

It's a very quick an efficient lib to perform Constrained Delaunay Triangulation (http://en.m.wikipedia.org/wiki/Constrained_Delaunay_triangulation). It outputs a map of triangles from your input vertices (and eventually Steiner points, but you'll have to compute them by yourself to have a refined Delaunay, or use the C version of the lib), then you can build your fixtures with them.

That's what I did here : http://vimeo.com/m/33500649

Be careful that the lib will not accept self-intersecting polygons, duplicate points or colinear points. You'll have to check for this before computing the triangulation.

If you're used to the glib library, I guess you should try to implement the C version, but I didn't try it myself, so I can't tell. I think it's even faster than the C++ one, and it does implement refining. Can be useful for a mesh.

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