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197 行
8.7 KiB

Shader "Hidden/HDRenderPipeline/SubsurfaceScattering"
{
Properties
{
[HideInInspector] _DstBlend("", Float) = 1 // Can be set to 1 for blending with specular
}
SubShader
{
Pass
{
Stencil
{
Ref 1 // StencilLightingUsage.SplitLighting
Comp Equal
Pass Keep
}
Cull Off
ZTest Always
ZWrite Off
Blend One [_DstBlend]
HLSLPROGRAM
#pragma target 4.5
#pragma only_renderers d3d11 ps4 xboxone vulkan metal
// #pragma enable_d3d11_debug_symbols
#pragma vertex Vert
#pragma fragment Frag
#pragma multi_compile _ SSS_FILTER_HORIZONTAL_AND_COMBINE
// Do not modify these.
#include "../../ShaderPass/ShaderPass.cs.hlsl"
#define SHADERPASS SHADERPASS_SUBSURFACE_SCATTERING
//-------------------------------------------------------------------------------------
// Include
//-------------------------------------------------------------------------------------
#include "CoreRP/ShaderLibrary/Common.hlsl"
#include "../../ShaderVariables.hlsl"
#include "SubsurfaceScattering.hlsl"
//-------------------------------------------------------------------------------------
// Inputs & outputs
//-------------------------------------------------------------------------------------
float4 _FilterKernelsBasic[DIFFUSION_PROFILE_COUNT][SSS_BASIC_N_SAMPLES]; // RGB = weights, A = radial distance
float4 _HalfRcpWeightedVariances[SSS_BASIC_N_SAMPLES]; // RGB for chromatic, A for achromatic
TEXTURE2D(_IrradianceSource); // Includes transmitted light
//-------------------------------------------------------------------------------------
// Implementation
//-------------------------------------------------------------------------------------
struct Attributes
{
uint vertexID : SV_VertexID;
};
struct Varyings
{
float4 positionCS : SV_Position;
};
Varyings Vert(Attributes input)
{
Varyings output;
output.positionCS = GetFullScreenTriangleVertexPosition(input.vertexID);
return output;
}
float4 Frag(Varyings input) : SV_Target
{
PositionInputs posInput = GetPositionInput(input.positionCS.xy, _ScreenSize.zw);
// Note: When we are in this SubsurfaceScattering shader we know that we are a SSS material.
SSSData sssData;
DECODE_FROM_SSSBUFFER(posInput.positionSS, sssData);
int profileID = sssData.diffusionProfile;
float distScale = sssData.subsurfaceMask;
float maxDistance = _FilterKernelsBasic[profileID][SSS_BASIC_N_SAMPLES - 1].a;
// Take the first (central) sample.
// TODO: copy its neighborhood into LDS.
float2 centerPosition = posInput.positionSS;
float3 centerIrradiance = LOAD_TEXTURE2D(_IrradianceSource, centerPosition).rgb;
// Reconstruct the view-space position.
float2 centerPosSS = posInput.positionNDC;
float2 cornerPosSS = centerPosSS + 0.5 * _ScreenSize.zw;
float centerDepth = LOAD_TEXTURE2D(_MainDepthTexture, centerPosition).r;
float3 centerPosVS = ComputeViewSpacePosition(centerPosSS, centerDepth, UNITY_MATRIX_I_P);
float3 cornerPosVS = ComputeViewSpacePosition(cornerPosSS, centerDepth, UNITY_MATRIX_I_P);
// Rescaling the filter is equivalent to inversely scaling the world.
float metersPerUnit = _WorldScales[profileID].x / distScale * SSS_BASIC_DISTANCE_SCALE;
float centimPerUnit = CENTIMETERS_PER_METER * metersPerUnit;
// Compute the view-space dimensions of the pixel as a quad projected onto geometry.
float2 unitsPerPixel = 2 * abs(cornerPosVS.xy - centerPosVS.xy);
float2 pixelsPerCm = rcp(centimPerUnit * unitsPerPixel);
// Compute the filtering direction.
#ifdef SSS_FILTER_HORIZONTAL_AND_COMBINE
float2 unitDirection = float2(1, 0);
#else
float2 unitDirection = float2(0, 1);
#endif
float2 scaledDirection = pixelsPerCm * unitDirection;
float phi = 0; // Random rotation; unused for now
float2x2 rotationMatrix = float2x2(cos(phi), -sin(phi), sin(phi), cos(phi));
float2 rotatedDirection = mul(rotationMatrix, scaledDirection);
// Load (1 / (2 * WeightedVariance)) for bilateral weighting.
#if RBG_BILATERAL_WEIGHTS
float3 halfRcpVariance = _HalfRcpWeightedVariances[profileID].rgb;
#else
float halfRcpVariance = _HalfRcpWeightedVariances[profileID].a;
#endif
float3 albedo = ApplySubsurfaceScatteringTexturingMode(sssData.diffuseColor, profileID);
#ifndef SSS_FILTER_HORIZONTAL_AND_COMBINE
albedo = float3(1, 1, 1);
#endif
// Take the first (central) sample.
float2 samplePosition = posInput.positionSS;
float3 sampleWeight = _FilterKernelsBasic[profileID][0].rgb;
float3 sampleIrradiance = LOAD_TEXTURE2D(_IrradianceSource, samplePosition).rgb;
// We perform point sampling. Therefore, we can avoid the cost
// of filtering if we stay within the bounds of the current pixel.
// We use the value of 1 instead of 0.5 as an optimization.
float maxDistInPixels = maxDistance * max(pixelsPerCm.x, pixelsPerCm.y);
[branch]
if (distScale == 0 || maxDistInPixels < 1)
{
#if SSS_DEBUG_LOD
return float4(0, 0, 1, 1);
#else
return float4(albedo * sampleIrradiance, 1);
#endif
}
#if SSS_DEBUG_LOD
return float4(0.5, 0.5, 0, 1);
#endif
// Accumulate filtered irradiance and bilateral weights (for renormalization).
float3 totalIrradiance = sampleWeight * sampleIrradiance;
float3 totalWeight = sampleWeight;
[unroll]
for (int i = 1; i < SSS_BASIC_N_SAMPLES; i++)
{
samplePosition = posInput.positionSS + rotatedDirection * _FilterKernelsBasic[profileID][i].a;
sampleWeight = _FilterKernelsBasic[profileID][i].rgb;
sampleIrradiance = LOAD_TEXTURE2D(_IrradianceSource, samplePosition).rgb;
if (TestLightingForSSS(sampleIrradiance))
{
// Apply bilateral weighting.
// Ref #1: Skin Rendering by Pseudo–Separable Cross Bilateral Filtering.
// Ref #2: Separable SSS, Supplementary Materials, Section E.
float rawDepth = LOAD_TEXTURE2D(_MainDepthTexture, samplePosition).r;
float sampleDepth = LinearEyeDepth(rawDepth, _ZBufferParams);
float zDistance = centimPerUnit * sampleDepth - (centimPerUnit * centerPosVS.z);
sampleWeight *= exp(-zDistance * zDistance * halfRcpVariance);
totalIrradiance += sampleWeight * sampleIrradiance;
totalWeight += sampleWeight;
}
else
{
// The irradiance is 0. This could happen for 2 reasons.
// Most likely, the surface fragment does not have an SSS material.
// Alternatively, our sample comes from a region without any geometry.
// Our blur is energy-preserving, so 'centerWeight' should be set to 0.
// We do not terminate the loop since we want to gather the contribution
// of the remaining samples (e.g. in case of hair covering skin).
}
}
return float4(albedo * totalIrradiance / totalWeight, 1);
}
ENDHLSL
}
}
Fallback Off
}