Awesome
WaveOpticsBrdf
Description
This code implements the key ideas of the SIGGRAPH 2018 paper:
Rendering Specular Microgeometry with Wave Optics, by
Ling-Qi Yan, Miloš Hašan, Bruce Walter, Steve Marschner and Ravi Ramamoorthi.
It generates a BRDF image, given:
(1) A heightfield,
(2) A query (center, size) as pixel footprint or coherence area,
(3) An incident direction, and
(4) A diffraction BRDF model (for wave optics only).
It supports both geometric optics and wave optics. For geometric optics, it uses the binning method. For wave optics, you can switch between single and multiple wavelengths.
Usage:
In order to build, you need the eigen library and the OpenEXR library. Both can be installed using a package manager such as apt in Ubuntu.
To compile for Linux, use
make -f makefile.linux
For macOS, use
make -f makefile.osx
Note that, if you are using macOS, by default the clang compiler does not have OpenMP support. To enable it, you need to install the libomp library ("brew install libomp" if you use Homebrew).
To generate a BRDF image, use the genBrdf command. You'll find the examples below useful. Also, be sure to read the command line options in genBrdf.cpp.
We provide three different kinds of heightfields (download separately):
Isotropic(1.6 MB),
Scratched(4.3 MB), and
Brushed(99.3 MB).
Note that, to run the examples below, you need to download these heightfields and put them in a heightfields folder.
To view the generated BRDF image in EXR format, we recommend the tev EXR viewer.
Examples:
(1) A colored wave optics BRDF generaged from an isotropic heightfield, queried at (512, 512) with a size of 10 as one standard deviation. The incident light comes from (-1, -1, 1). The output has a resolution of 128 by 128.
./genBrdf -m Wave -d OHS -i heightfields/isotropic.exr -o isotropicBrdf.exr -x 512 -y 512 -p 10.0 -w 1.0 -s -1.0 -t -1.0 -r 128
(2) A grayscale wave optics BRDF generaged from a scratched isotropic heightfield, where each texel has a length of 0.5 microns. The incident light comes from top to down by default. The wave length is 0.5 microns (500 nm). The diffraction model is ROHS.
./genBrdf -m Wave -d ROHS -i heightfields/scratched.exr -o scratchedBrdf.exr -w 0.5 -x 8512 -y 422 -p 10.0 -l 0.5 -r 128
(3) A geometric optics BRDF generated from a large brushed heightfield, with five million samples.
./genBrdf -m Geom -i heightfields/brushed_8K.exr -o brushed_geom_brdf.exr -r 256 -x 20000 -y 10000 -p 20.0 -n 5000000