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I'm using OpenGL ES 1.1 and working on converting an OBJ export from Blender into some binary files containing vertex data. I actually already have a working tool, but I'm working on changing some things and came across a question.

Even with Smooth shading, it seems that with correct normals (perpendicular to the face plane) it achieves a flat appearance for faces. With Smooth shading enabled and the proper normals (simply via edges marked as sharp in Blender and an edge-split modifier applied), I can get the affect of smooth parts and sharp edges.

Where I'm going with this brings 2 questions.

  1. Are the "s 1" or "s off" lines where smooth or flat shading is denoted in the OBJ file completely unnecessary from a smooth shading and use of normals standpoint?

  2. When actually set to Flat shading in OpenGL, are normals completely ignored (or just assumed to all be perpendicular to the faces)?

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up vote 9 down vote accepted

For a vertex to look smooth, its normal has to be the average of the adjacent face normals (or something the like), but not perpendicular to the face plane (except if you meaned the average plane of all its adjacent faces).

GL_FLAT means, the color of a face is not interpolated over the triangle, but taken from a single triangle corner (don't know which, first or last). This color comes either from vertex colors or vertex lighting, so in fact you get per-face normals, but this is not neccessarily the faces direction, but the normal of a corner vertex.

If you got per vertex normals in the OBJ file you do not need the s parts. But you can use these to compute vertex normals. The s parts are the smoothing groups and are to be interpreted as 32bit bitfields. So there are actually 32 different smoothing groups and every face can be part of more than one. So all faces after an "s 5" line are part of smoothing groups 1 and 3 (first and third bits set). When two neighbouring faces are part of the same smoothing group, the edge between them is smooth (vertices share normals). This way you can reconstruct the neccessary per-vertex normals.

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There is nothing in the OBJ spec that says smooth groups should be interpreted as bitmasks, but its quite convenient to use them this way so I can see why a game engine might treat them this way. – ideasman42 Aug 26 '13 at 21:14
@ideasman42 Hmm, maybe I got this from the 3DS-format, because there they are definitely used this way. When just taking them as smooth group ID you cannot get one face to belong to multiple groups. – Christian Rau Aug 26 '13 at 21:23
Shouldn't all faces after an "s 5" line are part of smoothing groups 1 and 3 be [...] smoothing groups 1 and 4 ? – PinkTurtle Feb 9 at 13:53
@PinkTurtle No, the 1st and 3rd bits are set, 5 = 2^0 + 2^2. – Christian Rau Feb 9 at 13:58
= 1 + 4, I meant : smoothing groups 1 and 4 as you can't have non power of 2 smoothing groups - How do we misunderstand ? :) IE. 7th bit set is 2^7 = 128 which is smoothing group 128 (s 128). Is this not correct ? – PinkTurtle Feb 9 at 14:04

Changing the mode between gl_flat and gl_smooth doesn't seem to affect my rendering when I'm using per vertex normals. Your problem from what I can tell is that each face only has one normal. For smooth shading, each face should have three normals, one for each vertex, and they should all be different. For example, the normals of a cylinder, if projected inside of the cylinder, should all intersect at the axis of the cylinder. If your model has smooth normals, then an OBJ export should export per vertex normals. It sounds like you are probably assigning per face normals. As far as rendering in OpenGL-ES, the smoothing groups aren't used, only normals.

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