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fresnel corrections for prior exploratory pr

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This commit is contained in:
AzaezelX 2025-12-15 14:33:47 -06:00
parent 37ef090137
commit ec34e1a984
2 changed files with 8 additions and 4 deletions
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6
Templates/BaseGame/game/core/rendering/shaders/gl/lighting.glsl
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@ -226,9 +226,11 @@ float getDistanceAtt( vec3 unormalizedLightVector , float invSqrAttRadius )
vec3 evaluateStandardBRDF(Surface surface, SurfaceToLight surfaceToLight)
{
if (surface.depth >= 0.9999f)
return float3(0.0,0.0,0.0);
// Compute Fresnel term
vec3 F = F_Schlick(surface.f0, surfaceToLight.HdotV);
F += lerp(vec3(0.04f,0.04f,0.04f), surface.baseColor.rgb, surface.metalness);
// GGX Normal Distribution Function
float D = D_GGX(surfaceToLight.NdotH, surface.linearRoughness);
@ -594,7 +596,7 @@ vec4 computeForwardProbes(Surface surface,
vec2 envBRDF = textureLod(BRDFTexture, vec2(surface.NdotV, surface.roughness),0).rg;
vec3 diffuse = irradiance * lerp(surface.baseColor.rgb, vec3(0.04f,0.04f,0.04f), surface.metalness);
vec3 specularCol = ((specular * surface.baseColor.rgb) * envBRDF.x + envBRDF.y)*surface.metalness;
vec3 specularCol = ((specular * surface.f0) * envBRDF.x + envBRDF.y)*surface.metalness;
float horizonOcclusion = 1.3;
float horizon = saturate( 1 + horizonOcclusion * dot(surface.R, surface.N));

6
Templates/BaseGame/game/core/rendering/shaders/lighting.hlsl
View file

@ -226,9 +226,11 @@ float getDistanceAtt( float3 unormalizedLightVector , float invSqrAttRadius )
float3 evaluateStandardBRDF(Surface surface, SurfaceToLight surfaceToLight)
{
if (surface.depth >= 0.9999f)
return float3(0.0,0.0,0.0);
// Compute Fresnel term
float3 F = F_Schlick(surface.f0, surfaceToLight.HdotV);
F += lerp(0.04f, surface.baseColor.rgb, surface.metalness);
// GGX Normal Distribution Function
float D = D_GGX(surfaceToLight.NdotH, surface.linearRoughness);
@ -599,7 +601,7 @@ float4 computeForwardProbes(Surface surface,
float2 envBRDF = TORQUE_TEX2DLOD(BRDFTexture, float4(surface.NdotV, surface.roughness,0,0)).rg;
float3 diffuse = irradiance * lerp(surface.baseColor.rgb, 0.04f, surface.metalness);
float3 specularCol = ((specular * surface.baseColor.rgb) * envBRDF.x + envBRDF.y)*surface.metalness;
float3 specularCol = ((specular * surface.f0) * envBRDF.x + envBRDF.y)*surface.metalness;
float horizonOcclusion = 1.3;
float horizon = saturate( 1 + horizonOcclusion * dot(surface.R, surface.N));