Shader "Hidden/HDRenderPipeline/DrawSssProfile" { SubShader { Pass { Cull Off ZTest Always ZWrite Off Blend Off HLSLPROGRAM #pragma target 4.5 #pragma only_renderers d3d11 ps4 vulkan metal // TEMP: until we go further in dev #pragma vertex Vert #pragma fragment Frag #pragma multi_compile SSS_MODEL_BASIC SSS_MODEL_DISNEY //------------------------------------------------------------------------------------- // Include //------------------------------------------------------------------------------------- #include "../../../Core/ShaderLibrary/Common.hlsl" #define USE_LEGACY_UNITY_MATRIX_VARIABLES #include "../../ShaderVariables.hlsl" #ifdef SSS_MODEL_BASIC #include "../../Material/Lit/SubsurfaceScatteringSettings.cs.hlsl" #endif //------------------------------------------------------------------------------------- // Inputs & outputs //------------------------------------------------------------------------------------- #ifdef SSS_MODEL_DISNEY float4 _ShapeParam; float _MaxRadius; // See 'SubsurfaceScatteringProfile' #else float4 _StdDev1, _StdDev2; float _LerpWeight, _MaxRadius; // See 'SubsurfaceScatteringParameters' #endif //------------------------------------------------------------------------------------- // Implementation //------------------------------------------------------------------------------------- struct Attributes { float3 vertex : POSITION; float2 texcoord : TEXCOORD0; }; struct Varyings { float4 vertex : SV_POSITION; float2 texcoord : TEXCOORD0; }; Varyings Vert(Attributes input) { Varyings output; output.vertex = TransformWorldToHClip(input.vertex); output.texcoord = input.texcoord.xy; return output; } float4 Frag(Varyings input) : SV_Target { #ifdef SSS_MODEL_DISNEY float r = (2 * length(input.texcoord - 0.5)) * _MaxRadius; float3 S = _ShapeParam.rgb; float3 M = S * (exp(-r * S) + exp(-r * S * (1.0 / 3.0))) / (8 * PI * r); float3 A = _MaxRadius / S; // N.b.: we multiply by the surface albedo of the actual geometry during shading. // Apply gamma for visualization only. Do not apply gamma to the color. return float4(sqrt(M) * A, 1); #else float r = (2 * length(input.texcoord - 0.5)) * _MaxRadius * SSS_BASIC_DISTANCE_SCALE; float3 var1 = _StdDev1.rgb * _StdDev1.rgb; float3 var2 = _StdDev2.rgb * _StdDev2.rgb; // Evaluate the linear combination of two 2D Gaussians instead of // product of the linear combination of two normalized 1D Gaussians // since we do not want to bother artists with the lack of radial symmetry. float3 magnitude = lerp(exp(-r * r / (2 * var1)) / (TWO_PI * var1), exp(-r * r / (2 * var2)) / (TWO_PI * var2), _LerpWeight); // N.b.: we multiply by the surface albedo of the actual geometry during shading. // Apply gamma for visualization only. return float4(sqrt(magnitude), 1); #endif } ENDHLSL } } Fallback Off }