forked from bartvdbraak/blender
Cycles: Scale denoising albedo contribution of Principled BSDFs according to average fresnel
The Principled BSDF uses Microfacet closures that include a fresnel term, which are a special case since their weight tends to be near white even if their average contribution is fairly low. The sample weight is scaled by the average fresnel weight to account for this, but the denoising albedo still used the unscaled weight. This was fine for the original denoiser, but apparently OIDN can't handle the resulting albedo pass well. Therefore, this commit adds the described scaling to the albedo pass contribution as well. This problem was described in T69770. Reviewed By: brecht Differential Revision: https://developer.blender.org/D6289
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@ -37,6 +37,7 @@ CCL_NAMESPACE_BEGIN
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typedef ccl_addr_space struct MicrofacetExtra {
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typedef ccl_addr_space struct MicrofacetExtra {
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float3 color, cspec0;
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float3 color, cspec0;
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float3 fresnel_color;
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float clearcoat;
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float clearcoat;
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} MicrofacetExtra;
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} MicrofacetExtra;
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@ -276,6 +277,22 @@ ccl_device_forceinline float D_GTR1(float NdotH, float alpha)
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return (alpha2 - 1.0f) / (M_PI_F * logf(alpha2) * t);
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return (alpha2 - 1.0f) / (M_PI_F * logf(alpha2) * t);
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}
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}
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ccl_device_forceinline void bsdf_microfacet_fresnel_color(const ShaderData *sd,
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MicrofacetBsdf *bsdf)
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{
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kernel_assert(CLOSURE_IS_BSDF_MICROFACET_FRESNEL(bsdf->type));
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float F0 = fresnel_dielectric_cos(1.0f, bsdf->ior);
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bsdf->extra->fresnel_color = interpolate_fresnel_color(
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sd->I, bsdf->N, bsdf->ior, F0, bsdf->extra->cspec0);
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if (bsdf->type == CLOSURE_BSDF_MICROFACET_GGX_CLEARCOAT_ID) {
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bsdf->extra->fresnel_color *= 0.25f * bsdf->extra->clearcoat;
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}
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bsdf->sample_weight *= average(bsdf->extra->fresnel_color);
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}
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/* GGX microfacet with Smith shadow-masking from:
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/* GGX microfacet with Smith shadow-masking from:
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*
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*
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* Microfacet Models for Refraction through Rough Surfaces
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* Microfacet Models for Refraction through Rough Surfaces
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@ -305,15 +322,13 @@ ccl_device int bsdf_microfacet_ggx_fresnel_setup(MicrofacetBsdf *bsdf, const Sha
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{
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{
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bsdf->extra->cspec0 = saturate3(bsdf->extra->cspec0);
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bsdf->extra->cspec0 = saturate3(bsdf->extra->cspec0);
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float F0 = fresnel_dielectric_cos(1.0f, bsdf->ior);
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float F = average(interpolate_fresnel_color(sd->I, bsdf->N, bsdf->ior, F0, bsdf->extra->cspec0));
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bsdf->sample_weight *= F;
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bsdf->alpha_x = saturate(bsdf->alpha_x);
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bsdf->alpha_x = saturate(bsdf->alpha_x);
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bsdf->alpha_y = bsdf->alpha_x;
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bsdf->alpha_y = bsdf->alpha_x;
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bsdf->type = CLOSURE_BSDF_MICROFACET_GGX_FRESNEL_ID;
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bsdf->type = CLOSURE_BSDF_MICROFACET_GGX_FRESNEL_ID;
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bsdf_microfacet_fresnel_color(sd, bsdf);
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return SD_BSDF | SD_BSDF_HAS_EVAL;
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return SD_BSDF | SD_BSDF_HAS_EVAL;
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}
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}
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@ -321,15 +336,13 @@ ccl_device int bsdf_microfacet_ggx_clearcoat_setup(MicrofacetBsdf *bsdf, const S
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{
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{
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bsdf->extra->cspec0 = saturate3(bsdf->extra->cspec0);
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bsdf->extra->cspec0 = saturate3(bsdf->extra->cspec0);
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float F0 = fresnel_dielectric_cos(1.0f, bsdf->ior);
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float F = average(interpolate_fresnel_color(sd->I, bsdf->N, bsdf->ior, F0, bsdf->extra->cspec0));
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bsdf->sample_weight *= 0.25f * bsdf->extra->clearcoat * F;
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bsdf->alpha_x = saturate(bsdf->alpha_x);
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bsdf->alpha_x = saturate(bsdf->alpha_x);
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bsdf->alpha_y = bsdf->alpha_x;
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bsdf->alpha_y = bsdf->alpha_x;
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bsdf->type = CLOSURE_BSDF_MICROFACET_GGX_CLEARCOAT_ID;
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bsdf->type = CLOSURE_BSDF_MICROFACET_GGX_CLEARCOAT_ID;
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bsdf_microfacet_fresnel_color(sd, bsdf);
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return SD_BSDF | SD_BSDF_HAS_EVAL;
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return SD_BSDF | SD_BSDF_HAS_EVAL;
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}
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}
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@ -364,15 +377,13 @@ ccl_device int bsdf_microfacet_ggx_aniso_fresnel_setup(MicrofacetBsdf *bsdf, con
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{
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{
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bsdf->extra->cspec0 = saturate3(bsdf->extra->cspec0);
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bsdf->extra->cspec0 = saturate3(bsdf->extra->cspec0);
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float F0 = fresnel_dielectric_cos(1.0f, bsdf->ior);
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float F = average(interpolate_fresnel_color(sd->I, bsdf->N, bsdf->ior, F0, bsdf->extra->cspec0));
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bsdf->sample_weight *= F;
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bsdf->alpha_x = saturate(bsdf->alpha_x);
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bsdf->alpha_x = saturate(bsdf->alpha_x);
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bsdf->alpha_y = saturate(bsdf->alpha_y);
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bsdf->alpha_y = saturate(bsdf->alpha_y);
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bsdf->type = CLOSURE_BSDF_MICROFACET_GGX_ANISO_FRESNEL_ID;
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bsdf->type = CLOSURE_BSDF_MICROFACET_GGX_ANISO_FRESNEL_ID;
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bsdf_microfacet_fresnel_color(sd, bsdf);
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return SD_BSDF | SD_BSDF_HAS_EVAL;
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return SD_BSDF | SD_BSDF_HAS_EVAL;
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}
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}
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@ -402,9 +402,7 @@ ccl_device int bsdf_microfacet_multi_ggx_aniso_fresnel_setup(MicrofacetBsdf *bsd
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bsdf->type = CLOSURE_BSDF_MICROFACET_MULTI_GGX_FRESNEL_ID;
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bsdf->type = CLOSURE_BSDF_MICROFACET_MULTI_GGX_FRESNEL_ID;
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float F0 = fresnel_dielectric_cos(1.0f, bsdf->ior);
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bsdf_microfacet_fresnel_color(sd, bsdf);
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float F = average(interpolate_fresnel_color(sd->I, bsdf->N, bsdf->ior, F0, bsdf->extra->cspec0));
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bsdf->sample_weight *= F;
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return bsdf_microfacet_multi_ggx_common_setup(bsdf);
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return bsdf_microfacet_multi_ggx_common_setup(bsdf);
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}
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}
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@ -424,9 +422,7 @@ ccl_device int bsdf_microfacet_multi_ggx_fresnel_setup(MicrofacetBsdf *bsdf, con
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bsdf->type = CLOSURE_BSDF_MICROFACET_MULTI_GGX_FRESNEL_ID;
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bsdf->type = CLOSURE_BSDF_MICROFACET_MULTI_GGX_FRESNEL_ID;
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float F0 = fresnel_dielectric_cos(1.0f, bsdf->ior);
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bsdf_microfacet_fresnel_color(sd, bsdf);
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float F = average(interpolate_fresnel_color(sd->I, bsdf->N, bsdf->ior, F0, bsdf->extra->cspec0));
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bsdf->sample_weight *= F;
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return bsdf_microfacet_multi_ggx_common_setup(bsdf);
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return bsdf_microfacet_multi_ggx_common_setup(bsdf);
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}
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}
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@ -582,9 +578,7 @@ ccl_device int bsdf_microfacet_multi_ggx_glass_fresnel_setup(MicrofacetBsdf *bsd
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bsdf->type = CLOSURE_BSDF_MICROFACET_MULTI_GGX_GLASS_FRESNEL_ID;
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bsdf->type = CLOSURE_BSDF_MICROFACET_MULTI_GGX_GLASS_FRESNEL_ID;
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float F0 = fresnel_dielectric_cos(1.0f, bsdf->ior);
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bsdf_microfacet_fresnel_color(sd, bsdf);
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float F = average(interpolate_fresnel_color(sd->I, bsdf->N, bsdf->ior, F0, bsdf->extra->cspec0));
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bsdf->sample_weight *= F;
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return SD_BSDF | SD_BSDF_HAS_EVAL | SD_BSDF_NEEDS_LCG;
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return SD_BSDF | SD_BSDF_HAS_EVAL | SD_BSDF_NEEDS_LCG;
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}
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}
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@ -145,7 +145,17 @@ ccl_device_inline void kernel_update_denoising_features(KernelGlobals *kg,
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normal += sc->N * sc->sample_weight;
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normal += sc->N * sc->sample_weight;
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sum_weight += sc->sample_weight;
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sum_weight += sc->sample_weight;
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if (bsdf_get_specular_roughness_squared(sc) > sqr(0.075f)) {
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if (bsdf_get_specular_roughness_squared(sc) > sqr(0.075f)) {
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albedo += sc->weight;
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float3 closure_albedo = sc->weight;
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/* Closures that include a Fresnel term typically have weights close to 1 even though their
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* actual contribution is significantly lower.
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* To account for this, we scale their weight by the average fresnel factor (the same is also
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* done for the sample weight in the BSDF setup, so we don't need to scale that here). */
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if (CLOSURE_IS_BSDF_MICROFACET_FRESNEL(sc->type)) {
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MicrofacetBsdf *bsdf = (MicrofacetBsdf *)sc;
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closure_albedo *= bsdf->extra->fresnel_color;
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}
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albedo += closure_albedo;
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sum_nonspecular_weight += sc->sample_weight;
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sum_nonspecular_weight += sc->sample_weight;
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}
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}
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}
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}
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@ -552,6 +552,12 @@ typedef enum ClosureType {
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(type >= CLOSURE_BSDF_MICROFACET_BECKMANN_REFRACTION_ID && \
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(type >= CLOSURE_BSDF_MICROFACET_BECKMANN_REFRACTION_ID && \
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type <= CLOSURE_BSDF_MICROFACET_MULTI_GGX_GLASS_ID) || \
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type <= CLOSURE_BSDF_MICROFACET_MULTI_GGX_GLASS_ID) || \
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(type == CLOSURE_BSDF_MICROFACET_MULTI_GGX_GLASS_FRESNEL_ID))
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(type == CLOSURE_BSDF_MICROFACET_MULTI_GGX_GLASS_FRESNEL_ID))
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#define CLOSURE_IS_BSDF_MICROFACET_FRESNEL(type) \
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(type == CLOSURE_BSDF_MICROFACET_MULTI_GGX_FRESNEL_ID || \
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type == CLOSURE_BSDF_MICROFACET_MULTI_GGX_GLASS_FRESNEL_ID || \
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type == CLOSURE_BSDF_MICROFACET_GGX_FRESNEL_ID || \
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type == CLOSURE_BSDF_MICROFACET_GGX_CLEARCOAT_ID || \
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type == CLOSURE_BSDF_MICROFACET_GGX_ANISO_FRESNEL_ID)
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#define CLOSURE_IS_BSDF_OR_BSSRDF(type) (type <= CLOSURE_BSSRDF_PRINCIPLED_RANDOM_WALK_ID)
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#define CLOSURE_IS_BSDF_OR_BSSRDF(type) (type <= CLOSURE_BSSRDF_PRINCIPLED_RANDOM_WALK_ID)
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#define CLOSURE_IS_BSSRDF(type) \
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#define CLOSURE_IS_BSSRDF(type) \
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(type >= CLOSURE_BSSRDF_CUBIC_ID && type <= CLOSURE_BSSRDF_PRINCIPLED_RANDOM_WALK_ID)
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(type >= CLOSURE_BSSRDF_CUBIC_ID && type <= CLOSURE_BSSRDF_PRINCIPLED_RANDOM_WALK_ID)
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