# Anyone know were i could find an algorithm or have a algorithm they could share to split a sphere (mesh) into random parts?

I have a list a vertices and a list of triangles. I'd like to split this single mesh into, say 5, randomly shaped meshes. When the 5 randomly shaped meshes are in place the sphere should all line up and look like 1 solid mesh.

I need a algorithm to do this programmatically, not a tool to do it form me. Any pointers would be great!

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Similar to Svante's proposal but a slightly different approach:

1. Select five random vertices, mark these vertices as "visited" with the number 1 to 5
2. From each of the visited vertices, go to all adjacent vertices. Store the same number there as well.
3. If you visit a vertex which already has a number assigned, stop there
4. Stop, if all vertices are visited. All vertices marked with the same number end up in the same piece

This appears to me to be the simplest to implement, while still resulting in nice puzzle pieces. For added random-ness, you could add a probability, of visiting each adjacent vertex.

Nevertheless, any "too random" approach might result in heavily concave pieces, like very long pieces consisting only of a long strip of single triangles; and pieces with deep ugly thin cuts into them. You should possibly specify another question on how to make nice puzzle pieces (and what nice puzzle pieces are!) if you care for that.

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You could make a crack by walking a random walk across the edges, until the number of pieces you want is achieved. If you want to have mostly big pieces, you could modify the randomness of the walk by reducing the attractiveness of edges that are close to an existing crack.

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Select 3 random points and split along that plane. What is the problem?

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Sorry, I was thinking more randomly shaped parts (puzzle pieces like), not wedges. –  Justin808 Jun 11 '10 at 9:06
Okay split more than the 5 and then glue several of them back together. –  graham.reeds Jun 11 '10 at 9:35