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#ifndef UNITY_COMMON_LIGHTING_INCLUDED
#define UNITY_COMMON_LIGHTING_INCLUDED
//-----------------------------------------------------------------------------
// Attenuation functions
//-----------------------------------------------------------------------------
// Ref: Moving Frostbite to PBR
float SmoothDistanceAttenuation(float squaredDistance, float invSqrAttenuationRadius)
{
float factor = squaredDistance * invSqrAttenuationRadius;
float smoothFactor = saturate(1.0f - factor * factor);
return smoothFactor * smoothFactor;
}
#define PUNCTUAL_LIGHT_THRESHOLD 0.01 // 1cm (in Unity 1 is 1m)
float GetDistanceAttenuation(float3 unL, float invSqrAttenuationRadius)
{
float sqrDist = dot(unL, unL);
float attenuation = 1.0f / (max(PUNCTUAL_LIGHT_THRESHOLD * PUNCTUAL_LIGHT_THRESHOLD, sqrDist));
// Non physically based hack to limit light influence to attenuationRadius.
attenuation *= SmoothDistanceAttenuation(sqrDist, invSqrAttenuationRadius);
return attenuation;
}
float GetAngleAttenuation(float3 L, float3 lightDir, float lightAngleScale, float lightAngleOffset)
{
float cd = dot(lightDir, L);
float attenuation = saturate(cd * lightAngleScale + lightAngleOffset);
// smooth the transition
attenuation *= attenuation;
return attenuation;
}
//-----------------------------------------------------------------------------
// Helper function for anisotropy
//-----------------------------------------------------------------------------
// Ref: http://blog.selfshadow.com/publications/s2012-shading-course/burley/s2012_pbs_disney_brdf_notes_v3.pdf (in addenda)
// Convert anisotropic ratio (0->no isotropic; 1->full anisotropy in tangent direction) to roughness
void ConvertAnisotropyToRoughness(float roughness, float anisotropy, out float roughnessT, out float roughnessB)
{
float anisoAspect = sqrt(1.0 - 0.9 * anisotropy);
roughnessT = roughness * anisoAspect;
roughnessB = roughness / anisoAspect;
}
// Fake anisotropic by distorting the normal as suggested by:
// Ref: Donald Revie - Implementing Fur Using Deferred Shading (GPU Pro 2)
// anisotropic ratio (0->no isotropic; 1->full anisotropy in tangent direction)
float3 GetAnisotropicModifiedNormal(float3 N, float3 T, float3 V, float anisotropy)
{
float3 anisoT = cross(-V, T);
float3 anisoN = cross(anisoT, T);
return normalize(lerp(N, anisoN, anisotropy));
}
//-----------------------------------------------------------------------------
// Helper function for perceptual roughness
//-----------------------------------------------------------------------------
float PerceptualRoughnessToRoughness(float perceptualRoughness)
{
return perceptualRoughness * perceptualRoughness;
}
float RoughnessToPerceptualRoughness(float roughness)
{
return sqrt(roughness);
}
float PerceptualSmoothnessToRoughness(float perceptualSmoothness)
{
return (1 - perceptualSmoothness) * (1 - perceptualSmoothness);
}
float PerceptualSmoothnessToPerceptualRoughness(float perceptualSmoothness)
{
return (1 - perceptualSmoothness);
}
//-----------------------------------------------------------------------------
// Get local frame
//-----------------------------------------------------------------------------
// generate an orthonormalBasis from 3d unit vector.
void GetLocalFrame(float3 N, out float3 tangentX, out float3 tangentY)
{
float3 upVector = abs(N.z) < 0.999 ? float3(0.0, 0.0, 1.0) : float3(1.0, 0.0, 0.0);
tangentX = normalize(cross(upVector, N));
tangentY = cross(N, tangentX);
}
// TODO: test
/*
// http://orbit.dtu.dk/files/57573287/onb_frisvad_jgt2012.pdf
void GetLocalFrame(float3 N, out float3 tangentX, out float3 tangentY)
{
if (N.z < -0.999) // Handle the singularity
{
tangentX = float3(0.0, -1.0, 0.0);
tangentY = float3(-1.0, 0.0, 0.0);
return ;
}
float a = 1.0 / (1.0 + N.z);
float b = -N.x * N.y * a;
tangentX = float3(1.0f - N.x * N.x * a , b, -N.x);
tangentY = float3(b, 1.0f - N.y * N.y * a, -N.y);
}
*/
#endif // UNITY_COMMON_LIGHTING_INCLUDED