I have a 3d modeling application. Right now I'm drawing the meshes double-sided, but I'd like to switch to single sided when the object is closed.

If the polygonal mesh is closed (no boundary edges/completely periodic), it seems like I should always be able to determine if the object is currently flipped, and automatically correct.

Being flipped means that my normals point into the object instead of out of the object. Being flipped is a result of a mismatch between my winding rules and the current frontface setting, but I compute the normals directly from the geometry, so looking at the normals is a simple way to detect it.

One thing I was thinking was to take the bounding box, find the highest point, and see if its normal points up or down - if it's down, then the object is flipped.

But it seems like this solution might be prone to errors with degenerate geometry, or floating point error, as I'd only be looking at a single point. I guess I could get all 6 axis-aligned extents, but that seems like a slightly better kludge, and not a proper solution.

Is there a robust, simple way to do this? Robust and hard would also work.. :)

  • I think you should explain better what you mean with 'flipped', i.e. is that flipped over x, y or z? – Frans Bouma Apr 17 '09 at 16:08
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    I think he means that if the normals are pointing inward (since they should be pointing outward). – Jim Buck Apr 17 '09 at 16:14
  • You're writing the app, so can you introduce the convention that all triangles obey the "right hand rule"? i.e.: if you were to curl your right hand around the triangle from point 0 to point 2, the normal would point in the direction of your thumb. – e.James Apr 17 '09 at 16:28
  • If you create your objects with this convention in place, perhaps you can avoid the test for inversion altogether. – e.James Apr 17 '09 at 16:29
  • As a general modeling app, it's tricky to prohibit users from doing the wrong thing. With an open surface, I don't think there's a correct answer to whether it's flipped or not, both are equally correct. And users can go from an open to a closed surface easily, so I think the best I can do is fix it then. – tfinniga Apr 17 '09 at 16:42
up vote 5 down vote accepted

This is a robust, but slow way to get there:

Take a corner of a bounding box offset from the centroid (force it to be guaranteed outside your closed polygonal mesh), then create a line segment from that to the center point of any triangle on your mesh.

Measure the angle between that line segment and the normal of the triangle.

Intersect that line segment with each triangle face of your mesh (including the tri you used to generate the segment).

If there are an odd number of intersections, the angle between the normal and the line segment should be <180. If there are an even number, it should be >180.

If there are an even number of intersections, the numbers should be reversed.

This should work for very complex surfaces, but they must be closed, or it breaks down.

"I'm drawing the meshes double-sided"

Why are you doing that? If you're using OpenGL then there is a much better way to go and save yourself all the work. use:

glLightModeli(GL_LIGHT_MODEL_TWO_SIDE, 1);

With this, all the polygons are always two sided.
The only reason why you would want to use one-sided lighting is if you have an open or partially inverted mesh and you want to somehow indicate what part belong to the inside by having them unlighted.

Generally, the problem you're posing is an open problem in geometry processing and AFAIK there is no sure-fire general way that can always determine the orientation. As you suggest, there are heuristics that work almost always.
Another approach is reminiscent of a famous point-in-polygon algorithm: choose a vertex on the mesh and shoot a ray from it in the direction of the normal. If the ray hits an even number of faces then the normal is pointed to the outside, if it is odd then the normal is towards to inside. notice not to count the point of origin as an intersection. This approach will work only if the mesh is a closed manifold and it can reach some edge cases if the ray happens to pass exactly between two polygons so you might want to do it a number of times and take the leading vote.

  • Thanks for this answer. To clarify, I'm writing a new geometry type for an existing graphics pipeline. I just provide tessellation meshes, with a few drawing options. In this case, I'm trying to match the behavior of other geometry types, which draw single-sided for closed objects, to allow you to see out of them when the camera is inside. It still draws isoparameter lines, so you can tell where you are, but getting my winding backwards looks really bad. – tfinniga Apr 17 '09 at 16:37
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    Turning on two sided lighting has performance implications in OpenGL, though. If there's a way to avoid the need, it can be beneficial. There's also implications if you're going to be using shaders vs. the FF pipeline - handling 2 sided lighting in shaders is much less fun. – Reed Copsey Apr 17 '09 at 16:38

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