Ashikhmin-Shirley lightning model
Hi, I'm trying to implement an anisotropic Phong BRDF lightning model http://www.cs.utah.e...dfs/jgtbrdf.pdf. Where specular component is defined as: . I.m having problems with dot(n, h) exponent, because its numeric value is to big. Right now I think there is a problem with equation or my interpretation: according to the document Nu and Nv are freely chosen constants and can be equal, so if we chose Nu=Nv, exponent is equal to Nv whose value can range 1000, with is obviously to big and returns NaN in pow() function. Maybe someone can pinpoint my mistake?
1000 is usually not too big for an exponent, so your mistake must be somewhere else located.
Best is you post your source code to make it easier to hunt down the prob.
Best is you post your source code to make it easier to hunt down the prob.
I.m having problems with dot(n, h) exponent, because its numeric value is to big[/quote]
This worries me. If your n and h are normalized, then dot(n, h) is in the range [-1,+1] so what you describe shouldn't happen.
Are you sure your vectors are normalized?
Why not isolate the different parts of the equation?
Also, the pow function does not work with values below or equal 0 because the implementation is done with the equation exp(log(value) * value). Try to put something like this: max(dot(…), 0.0001f);
Good luck!!!
Also, the pow function does not work with values below or equal 0 because the implementation is done with the equation exp(log(value) * value). Try to put something like this: max(dot(…), 0.0001f);
Good luck!!!
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