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I am trying to write some code that takes some data, puts it into a 3-dimensional array, and then generates a 3D mesh for rendering. The data is a list of tiles with fields for defining the tile's type, etc. I am using Irrlicht for graphics right now and it has ways to manipulate the vertices/indices of a mesh but I can't come up with a fast, efficient way to do it. Are there any libraries or examples of how to do this that anyone knows of?

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I've seen some question around about how one could implement this. You might try some searchs with the phrase "convex hull". –  dmckee Sep 19 '10 at 21:11
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4 Answers

You want Delaunay triangulation. There are some links at the end of the wikipedia entry. I have used CGAL once for this, but it was quite painful. Note that the problem is particularly ill-conditioned, and you do need a library: CGAL uses some exact arithmetic tricks, hence its cumbersomeness.

Don't do this yourself.

In case you want mesh generation of the convex hull, CGAL provides it too (cumbersome too).

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It's unclear what exactly you mean by a 3D array of data, but I guess that you're searching for marching cubes algorithm. It's pretty easy to implement yourself but probably you can find an open-source implementation.

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If it's a fully 3D (with internal volumes and intersecting faces) then you need marching cubes or marching tetrahedra

But if it's 2.5D (ie xy and depth/height) then it's much quicker to do a 2D delauney triangulation on the XY - the best and fastest implementation is triangle but it's not free for commercial use

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Agreed with the other posters above -- the Marching Cubes algorithm is the way to go. Personally, I am interested in graphing implicitly defined surfaces. I wrote an introductory Marching Cubes example (that uses Three.js for the graphics) and posted it at:

http://stemkoski.github.com/Three.js/Marching-Cubes.html

For more details on the theory, you should check out the article at

http://paulbourke.net/geometry/polygonise/

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