I was experimenting over the weekend with a simple Waveform OBJ importer I developed for school. While doing that I read about glDrawArrays and glDrawElements and how the latter outperforms the former by keeping vertices in buffer for easy access rather than redrawing them. I developed simple algorithms to sort my vertex, texture and normal arrays to use both. However, when using gDE, I can't associate the same vertex to a different normal and/or texture since it uses the same index for all 3 buffers. Therefore, vertices that are drawn upon a different polygon keep the same texture they get in the first appearance on the OBJ. That can be solved by writing the same vertex n-times as necessary in the buffer with the normal/texture values they need. However, this solution turns the final buffer result into the same buffers that would be used for gDA. So, my question is: Is there still any performance advantage? Or is there a different solution to this inconvenience?
You fell for a common misconception, namely that "vertex" equals "position". This is not the case! A vertex is the whole combination of position, normal, texture coordinate and all the other attributes you use. You change one of the attribute's values and you get a different vertex. So what you have to do is generating the actual vertices of your model from the faces in the OBJ file.
Unfortunately many people fell for the misconception that "vertex" == "position" and so you can find many file formats and specifications that wrongly substitute position with vertex. For example in the wavefront OBJ format positions are defined with
The distrinction between the mathematical object called "vertex" and a position becomes very apparent in modern OpenGL where you have to supply a vertex shader that takes arbitrary, generic attributes as vertex input, of which none of them actually needs to be a position and can create clip space position in an arbitrary way from the input.