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I want to map a grid to a sphere like this:

grid to sphere mapping

In other words, for every point (x, y) ∈[0,1] on the left, I need the (x, y, z) coordinates of the equivalent point on the sphere, between the -45º and +45º meridians on each axis. You can also think of the source coordinates as two angles such that:

phi   = -45º + x * 90º
theta = -45º + y * 90º

The traditional latitude-longitude or polar formulas I've found elsewhere are of no use because the results they produce are only distorted along one axis. Any other suggestions?

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Are you trying to simulate barrel distortion? If so, this may be helpful: stackoverflow.com/questions/6199636/… –  Blender Aug 16 '13 at 2:13
    
If I understand it correctly, barrel distortion is a purely two-dimensional effect? If so, I'm afraid it's not what I need. This is more like cube mapping. I'm generating procedural planets textured with cubemaps (think Spore) so I need it to be 3D. –  jSepia Aug 16 '13 at 2:34
    
This reminds me a lot a conformal mapping... Have you tried it already? –  Pedrom Aug 16 '13 at 11:13

1 Answer 1

Define two functions, a and b, that map your x and y coordinates to the appropriate theta and phi angles:

a(x) = (pi / 4) * (2x - 1)
b(y) = (pi / 4) * (4y + 1)

And then just map the resulting spherical coordinate back into a Cartesian coordinate:

enter image description here

You'll get a function of r, x', y', members of [0, 1] x [0, 1], which will map the 2D coordinate onto a sphere of radius r.

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Thanks for the a(x) and b(x) mapping functions, they saved me some work. Unfortunately, the formulas for spherical coordinate mapping don't get me the results I need. I tried them out on Excel anyway and got this dl.dropboxusercontent.com/u/1735705/… which confirmed my suspicions. It has to be some form of cube mapping, not ECP (latitude-longitude) mapping. –  jSepia Aug 16 '13 at 4:00

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