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Short version: What's the best practice going forward for efficiently rendering large numbers of independent texture-mapped, lighted 2D/3D primitives (circles, rects, etc.) in OpenGL?

For example: a typical particle system using billboarded quads/triangles, point sprites, or whatever other technique, with blending.

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Because after reading this thread on the messiness of OpenGL versioning/deprecation I'm starting to have my doubts.

My specific question is not the ABCs of displaying primitives in OpenGL, but rather how to do so efficiently in post-deprecation (or pre-deprecation) OpenGL, in a way that's going to be compatible with a wide range of commodity hardware and in a way that's not going to break or itself get deprecated, five years down the line.

Thanks!

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You targeting OpenGL 1.5 and before or 2.0 and later? –  genpfault Mar 21 '10 at 6:23
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Ideally? 2.0 and later. –  user2189331 Mar 21 '10 at 13:55

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I'm still trying to get a handle on the post-deprecation OpenGL world myself.

From what I understand though, the recommended methods for specifying geometry are Vertex Buffer Objects (VBOs) or vertex arrays. VBOs are the first preference, because the vertex data lives in the GPU's memory.

Also, you have to use shaders, because all the fixed-pipeline functionality is deprecated.

This stuff all works in OpenGL 2.1 and above (and OpenGL ES 2.0 it seems).

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Thanks. Gels with my own impressions; fixed-pipeline is out, even though deprecation may not have really "worked". There are politics here with nVidia et al. that I don't understand. –  user2189331 Mar 25 '10 at 14:29
    
Answer is correct. One tip, if you can express your particle effect functionally, it's possible to not have to re-upload the vertex data through clever use of setting uniform values. e.g. include a timestamp and a Mat4 (for particle emitter position & rotation) as uniforms. Then include an integer index with the vertex data. The shader can then calculate individual particle positions based on the data it has. Won't work for everything, but makes effects damn cheap on CPU time. –  Michael Feb 27 '11 at 13:14

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