# Fastest triangulation algorithm with holes?

I'm working on path finding for an RTS game, where I am building a navigation mesh from the game's grid.

I have written an algorithm similar to Marching Squares which creates and simplifies the borders between the walkable and unwalkable regions of the map. Now I have a "mesh" consisting of only edges. I need to triangulate this mesh so that the final triangulation contains the initial edges, and then I can remove the unwalkable regions to create holes in the navigation mesh. For example, I need to do this...

The triangles represent the walkable regions of the map. The holes represent unwalkable regions such as mountains or buildings. The mesh can be considered 2D, since the height is irrelevant. This is obviously a very simplified case. The navigation mesh in the game will consist of thousands of vertices and many holes, but I may break it down into smaller chunks for dynamic updating.

I have looked at constrained Delaunay Triangulation algorithms, which first create a Delaunay Triangulation of the points, and then remove any triangles that intersect the constrained edges, then re-triangulates the removed triangles.

This seems a little redundant for my purposes. My mesh does not need to be Delaunay, and it consists completely of constrained edges, so I'd like to skip doing the extra triangulations if possible. Is there a better algorithm for this? I have looked and looked, and have only been able to find constrained Delaunay algorithms. Or maybe I'm wrong, and a constrained Delaunay algorithm would be best?

I've done navigation mesh path finding from scratch before, but never had to generate the navigation mesh myself. Triangulation algorithms are new to me. Any insight?

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Since you don't have special requests on triangles, simpler approach like polygon triangulation is better to use than Delaunay. –  Ante Dec 8 '13 at 20:57
I looked at the Ear-Clipping method, which seems to be slightly slower than a Delaunay triangulation, but would require me to sort my vertices in looping orders, right? –  Janz Dott Dec 8 '13 at 21:06
Now I realize that you have only edges. In each case you will need to connect and orient edges, find for a part is inside some other part (to know is it a hole or not) and then triangulate polygon with a holes. Holes can be removed by adding 2 same edges from a hole to polygon boundary or other hole. Ear clipping is simple method and with space partitioning (BSP tree, quad tree, ...) it is faster than O(n^2). –  Ante Dec 8 '13 at 21:34
I'm very familiar with space partitioning, so I think I'll give it a try. From what I read, it said that the vertices of the holes must be wound in the opposite direction of the vertices of the outer polygon. Ordering the vertices in clockwise and counterclockwise order for each edge loop will be another algorithm in its own, since they are currently not in order whatsoever, and are not grouped by edge loop. How fun this will be... –  Janz Dott Dec 8 '13 at 21:55
Just a thought, "edge mesh" is created from a map which has terrain probably described with some areas (polygons) and edges are where terrain change (e.g. field to mountain.) If areas are simple then there neighbourhood information can be used to make mesh, without going to general triangulation. –  Ante Dec 8 '13 at 22:45