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I am currently doing straightforward direct-to-screen (no multiple passes or postprocessing) rendering in WebGL. I would like to determine the average brightness/luminance of the entire rendered image (i.e. a single number), in a way which is efficient enough to do every frame.

What I'm looking to accomplish is to implement “exposure” adjustment (as a video camera or the human eye would) in the scene, so as to view both indoor and outdoor scenes with realistic lighting and no transitions — the brightness of the current frame will be negative feedback to the brightness of the next frame.

I am currently calculating a very rough approximation on the CPU side by sending a few rays through my scene data to find the brightness at those points; this works, but has too few samples to be stable (brightness varies noticeably with view angle as the rays cross light sources). I would prefer to offload the work to the GPU if at all possible, as my application is typically CPU-bound.

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Is it by chance possible to use the information passed to WebGL or do you want an image-based solution? Does the solution need to be exact or is an approximation sufficient? –  Stefan Hanke Apr 15 '12 at 18:25
    
@StefanHanke See edit. Briefly: Approximations fine. Light is easily extracted from the world data but I don't want to add more CPU tasks. –  Kevin Reid Apr 15 '12 at 21:07
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My thoughts were: Using MRT to render to two color attachments with different resolution. Does not work, because WebGL supports only 1 color attachment, and I don't know whether rendering using multiple resolutions is supported even in newer OpenGL versions. –  Stefan Hanke Apr 16 '12 at 4:18

1 Answer 1

I just thought of a horrible kludge, namely to render to texture and generateMipmaps on it, then read the smallest level. I hope there's a better way.

What's wrong with that? This way is almost entirely done on the GPU, can be worked nicely into an existing render pipeline, and should give reasonable results. I don't know of any reason to recommend against it.

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What's wrong with it? Well, for example, it does a whole lot of resampling that's utterly irrelevant. But I did claim to be CPU-bound. Guess I'll have to try it. –  Kevin Reid Apr 15 '12 at 23:45
    
I've now tried implementing it. The basic concept seems to work fine — however, after generateMipmap, the texture immediately becomes black (even if the filters are not set to mipmap). I've made sure the framebuffer is not currently bound when I do the generateMipmap, or the later drawing to another framebuffer in order to readPixels. Removing the generateMipmap produces the results that would be expected. Any suggestions? –  Kevin Reid Apr 25 '12 at 21:30

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