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The setup: I'm using a cubemap projection to create a planet out of blocks. A cubemap projection is quite simple: take the vector from the center of a cube to any point on that cube, normalize it, then multiply that by the radius of a sphere and you have your coordinate's new position. Here's a quick illustration in 2D:

diagram of cubemap projection


Now, as I said, I've created this so that it's made of blocks. So in practice, I divide my cube into equal square subdivisions (like a rubik's cube). I use a custom coordinate: (Face, X, Y, Shell). Face refers to which face on the cube the point is on. X and Y refer to its position on the face. Shell refers to its 'height'. In practice this translates into the radius of the sphere I project the point onto. If I haven't explained it well, hopefully an image will help:

image of a rendered planet


--That's a planet generated with an entirely random heightmap, with backface culling turned off. Anyways, now that you have the idea of what I'm working with--

My problem is that I cannot get backface culling to work predictably. My current system works as follows:

  • Calculate the center of the block
  • Get the normal of the vertices on each triangle of the block by taking the cross product of two sides of the triangle
  • Get the vector from the center of the triangle (the average of the triangle's vertices) to the center of the block, normalize it.
  • Take the dot product of the normal of the triangle and the normal to the center of the block
  • If the dot product is >= 0, flip the first and last indices of the triangle

Here's that in code:

public bool CheckIndices(Quad q, Vector3 centerOfBlock)
        Vector3[] vertices = new Vector3[3];
        for (int v = 0; v < 3; v++)
            vertices[v] = q.Corners[indices[v]].Position;

        Vector3 center = (vertices[0] + vertices[1] + vertices[2]) / 3f;
        Vector3 normal = Vector3.Cross(vertices[1] - vertices[0], vertices[2] - vertices[0]);
        Vector3 position = center - centerOfBlock;

        float dotProduct = Vector3.Dot(position, normal);

        if (dotProduct >= 0)
            int swap = indices[0];
            indices[0] = indices[2];
            indices[2] = swap;
            return false;
        return true;

I use a Quad class to hold triangles and some other data. Triangles store an int[3] for indices which correspond to the vertices stored in Quad.

However, when I use this method, at least half of the faces are drawn in the wrong direction. I have noticed two patterns in the problem:

  • Faces which point outward from the center of the planet are always correct
  • Faces which point inward toward the center of the planet are always incorrect

This led me to believe that my calculated center of the block was incorrect and in fact somewhere between the block and the center of the planet. However, changing my calculations for the center of the block was ineffective.

I have used two different methods to calculate the center of the block. The first was to find the projected position of a coordinate which had +.5 X, +.5 Y, and +.5 Shell (Z) from the block's position. Because I define block position using the bottom-left-back corner, this new coordinate would naturally be in the center of the block. The other method I use is to calculate the real position of each corner of the block and then average these vectors. This method seemed pretty foolproof to me, yet it did not succeed.

For this reason I am beginning to doubt the code I pasted above which determines if a triangle must be flipped. I do not remember all of the reasoning behind some of the logic, specifically behind the >= 0 statement. I just need another pair of eyes: is something wrong here?

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Your image links are broken for me... Can you re-upload them? (and if you weren't using SO's built in image feature, then you should be) – Merlyn Morgan-Graham Oct 18 '11 at 5:52
I think imgur is having trouble at the moment-- here's the first link:, and the second: – A-Type Oct 18 '11 at 15:22
N/m yep, it is imgur, and I see that uploads got disabled... I don't think checking the dot(normal, normal) >= 0 is the right approach. Think about this: sideways polys' normals will be perpendicular to that line, and floating point math is lossy (rounding errors), so you'll get random results depending on exactly how much rounding error you have, and where. Maybe there is a way to build your data so you don't have to swap it to begin with? Like, figure out the correct policy for the way it should face when building each poly. Can you share some of that code/pseudocode? – Merlyn Morgan-Graham Oct 18 '11 at 18:10
Absolutely, I'll share the classes which pertain to the geometry: Triangle.cs Quad.cs PlanetBlockGeometry.cs Creating a block If you need more, please let me know. As you may see in my Quad class, creating the indices for triangles is entirely arbitrary. In the past I have tried to specify triangle order using the FaceName, but this has yielded even messier results than the current method! – A-Type Oct 18 '11 at 18:24
I had an epiphany last night. You mentioned adding indices so that I wouldn't have to correct in the first place-- I had done that originally when I wrote this code. It was a while ago so I'd forgotten. I purposefully loaded vertices into Quad so that they would be clockwise. Going on that information, I tracked the problem into my projection logic. Specifically, the GetCorrectedCubePosition() method's rotation logic was too general, grouping the N/S, B/F, and E/W faces together instead of handling them separately. Here's the new, perfectly working code: :D – A-Type Oct 19 '11 at 15:46

The problem was that I was being too general in my cubemap projection when I got the position of an arbitrary point on a cube. Compare the GetCorrectedCubePosition method here to the same method here to see the improvements made. The methods for clockwise index order checking I noted in my post should are still unknown in effectiveness, as I won't be using them anymore. Using a correct projection means I can hard-define my vertices as clockwise in the generation methods themselves instead of having to guess.

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