# Direct3d not rendering sphere correctly

I'm using Visual C++ 2012 with DirectX11 on Win7x64. I have created a sphere in code which works, but working out the normals was too much trouble. So I have used 3d modelling softwares including 3ds Max and Blender to export obj-files, then used the code here to convert them to a text file that can be easily used to extract vertices and normals. Finally, I have taken part of the code here to render it.

No matter what sphere I generate there seems to be a strange edge along the sphere when I run my program, as in this image.

Any ideas what the problem/cause is?

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Clearly, what's wrong are your normals, but without seeing your actual code or your exported normals it's impossible to tell why your normals are wrong. Anyway, for sure, "working out the normals" is much less trouble than creating a sphere in a 3D modeling software and importing it in your application. My advice is that you should really learn the maths to do it yourself in your code, otherwise you will not be able do anything useful with DirectX or OpenGL anyway :) (i.e., you will get stuck with another issue very soon) – Boris Jul 5 '13 at 10:23
Yeah, you're probably right. The thing is that appr. half of the normal vectors created by the cross product is pointing in the wrong direction. I duplicated each vertex, with one normal pointing inwards and one outwards, but I didn't get it to work. I gave up when I read that 3d software calculate them for you. I guess I will have to look at my algorithms again :) – Ma Sa Jul 5 '13 at 12:04
In the simple case of a sphere, you don't have to compute the normals with a cross product :) You -know- mathematically what those are. The points on a sphere of radius `r` centered at the origin are `p(theta,phi) = r * (cos(theta)cos(phi), sin(theta)cos(phi), sin(phi))`, and the normals are the same without multiplying by `r`, i.e.: `n(theta,phi) = (cos(theta)cos(phi), sin(theta)cos(phi), sin(phi))`. But of course, you still have to understand how to compute them with a cross product for more complex models, when you'll not be able to do this ;) – Boris Jul 5 '13 at 12:18
Funny, I figured it out the moment I started looking at the code, problem solved. – Ma Sa Jul 5 '13 at 12:22