//
// This is a modified version of the SSAO renderer from Microsoft's MiniEngine
// library. The copyright notice from the original version is included below.
//
// The original source code of MiniEngine is available on GitHub.
// https://github.com/Microsoft/DirectX-Graphics-Samples
//
//
// Copyright (c) Microsoft. All rights reserved.
// This code is licensed under the MIT License (MIT).
// THIS CODE IS PROVIDED *AS IS* WITHOUT WARRANTY OF
// ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING ANY
// IMPLIED WARRANTIES OF FITNESS FOR A PARTICULAR
// PURPOSE, MERCHANTABILITY, OR NON-INFRINGEMENT.
//
// Developed by Minigraph
//
// Author: James Stanard
//
#pragma warning(disable : 3568)
#pragma exclude_renderers gles gles3 d3d11_9x
#pragma kernel MultiScaleVOUpSample MAIN=MultiScaleVOUpSample
#pragma kernel MultiScaleVOUpSample_invert MAIN=MultiScaleVOUpSample_invert INVERT
#pragma kernel MultiScaleVOUpSample_premin MAIN=MultiScaleVOUpSample_premin COMBINE_LOWER_RESOLUTIONS
#pragma kernel MultiScaleVOUpSample_blendout MAIN=MultiScaleVOUpSample_blendout BLEND_WITH_HIGHER_RESOLUTION
#pragma kernel MultiScaleVOUpSample_premin_blendout MAIN=MultiScaleVOUpSample_premin_blendout COMBINE_LOWER_RESOLUTIONS BLEND_WITH_HIGHER_RESOLUTION
#pragma kernel MultiScaleVOUpSample_MSAA MAIN=MultiScaleVOUpSample_MSAA
#pragma kernel MultiScaleVOUpSample_MSAA_invert MAIN=MultiScaleVOUpSample_MSAA_invert MSAA INVERT
#pragma kernel MultiScaleVOUpSample_MSAA_premin MAIN=MultiScaleVOUpSample_MSAA_premin MSAA COMBINE_LOWER_RESOLUTIONS
#pragma kernel MultiScaleVOUpSample_MSAA_blendout MAIN=MultiScaleVOUpSample_MSAA_blendout MSAA BLEND_WITH_HIGHER_RESOLUTION
#pragma kernel MultiScaleVOUpSample_MSAA_premin_blendout MAIN=MultiScaleVOUpSample_MSAA_premin_blendout MSAA COMBINE_LOWER_RESOLUTIONS BLEND_WITH_HIGHER_RESOLUTION
#include "Packages/com.unity.postprocessing/PostProcessing/Shaders/StdLib.hlsl"
#ifdef MSAA
Texture2D<float2> LoResDB; SamplerState samplerLoResDB;
Texture2D<float2> HiResDB; SamplerState samplerHiResDB;
Texture2D<float2> LoResAO1; SamplerState samplerLoResAO1;
#ifdef COMBINE_LOWER_RESOLUTIONS
Texture2D<float2> LoResAO2; SamplerState samplerLoResAO2;
#endif
#ifdef BLEND_WITH_HIGHER_RESOLUTION
Texture2D<float2> HiResAO; SamplerState samplerHiResAO;
#endif
// Output textures
RWTexture2D<float2> AoResult;
// Shared memory
groupshared float2 DepthCache[256];
groupshared float2 AOCache1[256];
groupshared float2 AOCache2[256];
#else
// Input textures
Texture2D<float> LoResDB; SamplerState samplerLoResDB;
Texture2D<float> HiResDB; SamplerState samplerHiResDB;
Texture2D<float> LoResAO1; SamplerState samplerLoResAO1;
#ifdef COMBINE_LOWER_RESOLUTIONS
Texture2D<float> LoResAO2; SamplerState samplerLoResAO2;
#endif
#ifdef BLEND_WITH_HIGHER_RESOLUTION
Texture2D<float> HiResAO; SamplerState samplerHiResAO;
#endif
// Ouput textures
RWTexture2D<float> AoResult;
// Shared memory
groupshared float DepthCache[256];
groupshared float AOCache1[256];
groupshared float AOCache2[256];
#endif
CBUFFER_START(CB1)
float4 InvLowResolution;
float4 InvHighResolution;
float4 AdditionalParams;
CBUFFER_END
#define NoiseFilterStrength AdditionalParams.x
#define StepSize AdditionalParams.y
#define kBlurTolerance AdditionalParams.z
#define kUpsampleTolerance AdditionalParams.w
void PrefetchData(uint index, float2 uv)
{
#ifdef MSAA
float4 AO1_0 = LoResAO1.GatherRed(samplerLoResAO1, uv);
float4 AO1_1 = LoResAO1.GatherGreen(samplerLoResAO1, uv);
#ifdef COMBINE_LOWER_RESOLUTIONS
AO1_0 = min(AO1_0, LoResAO2.GatherRed(samplerLoResAO2, uv));
AO1_1 = min(AO1_1, LoResAO2.GatherGreen(samplerLoResAO2, uv));
#endif
AOCache1[index] = float2(AO1_0.w, AO1_1.w);
AOCache1[index + 1] = float2(AO1_0.z, AO1_1.z);
AOCache1[index + 16] = float2(AO1_0.x, AO1_1.x);
AOCache1[index + 17] = float2(AO1_0.y, AO1_1.y);
float4 ID_0 = 1.0 / LoResDB.GatherRed(samplerLoResDB, uv);
float4 ID_1 = 1.0 / LoResDB.GatherGreen(samplerLoResDB, uv);
DepthCache[index] = float2(ID_0.w, ID_1.w);
DepthCache[index + 1] = float2(ID_0.z, ID_1.z);
DepthCache[index + 16] = float2(ID_0.x, ID_1.x);
DepthCache[index + 17] = float2(ID_0.y, ID_1.y);
#else
float4 AO1 = LoResAO1.Gather(samplerLoResAO1, uv);
#ifdef COMBINE_LOWER_RESOLUTIONS
AO1 = min(AO1, LoResAO2.Gather(samplerLoResAO2, uv));
#endif
AOCache1[index] = AO1.w;
AOCache1[index + 1] = AO1.z;
AOCache1[index + 16] = AO1.x;
AOCache1[index + 17] = AO1.y;
float4 ID = 1.0 / LoResDB.Gather(samplerLoResDB, uv);
DepthCache[index] = ID.w;
DepthCache[index + 1] = ID.z;
DepthCache[index + 16] = ID.x;
DepthCache[index + 17] = ID.y;
#endif
}
float SmartBlur(float a, float b, float c, float d, float e, bool Left, bool Middle, bool Right)
{
b = Left | Middle ? b : c;
a = Left ? a : b;
d = Right | Middle ? d : c;
e = Right ? e : d;
return ((a + e) / 2.0 + b + c + d) / 4.0;
}
bool CompareDeltas(float d1, float d2, float l1, float l2)
{
float temp = d1 * d2 + StepSize;
return temp * temp > l1 * l2 * kBlurTolerance;
}
void BlurHorizontally(uint leftMostIndex)
{
#ifdef MSAA
float2 a0 = AOCache1[leftMostIndex];
float2 a1 = AOCache1[leftMostIndex + 1];
float2 a2 = AOCache1[leftMostIndex + 2];
float2 a3 = AOCache1[leftMostIndex + 3];
float2 a4 = AOCache1[leftMostIndex + 4];
float2 a5 = AOCache1[leftMostIndex + 5];
float2 a6 = AOCache1[leftMostIndex + 6];
float2 d0 = DepthCache[leftMostIndex];
float2 d1 = DepthCache[leftMostIndex + 1];
float2 d2 = DepthCache[leftMostIndex + 2];
float2 d3 = DepthCache[leftMostIndex + 3];
float2 d4 = DepthCache[leftMostIndex + 4];
float2 d5 = DepthCache[leftMostIndex + 5];
float2 d6 = DepthCache[leftMostIndex + 6];
float2 d01 = d1 - d0;
float2 d12 = d2 - d1;
float2 d23 = d3 - d2;
float2 d34 = d4 - d3;
float2 d45 = d5 - d4;
float2 d56 = d6 - d5;
float2 l01 = d01 * d01 + StepSize;
float2 l12 = d12 * d12 + StepSize;
float2 l23 = d23 * d23 + StepSize;
float2 l34 = d34 * d34 + StepSize;
float2 l45 = d45 * d45 + StepSize;
float2 l56 = d56 * d56 + StepSize;
bool c02_0 = CompareDeltas(d01.x, d12.x, l01.x, l12.x);
bool c13_0 = CompareDeltas(d12.x, d23.x, l12.x, l23.x);
bool c24_0 = CompareDeltas(d23.x, d34.x, l23.x, l34.x);
bool c35_0 = CompareDeltas(d34.x, d45.x, l34.x, l45.x);
bool c46_0 = CompareDeltas(d45.x, d56.x, l45.x, l56.x);
bool c02_1 = CompareDeltas(d01.y, d12.y, l01.y, l12.y);
bool c13_1 = CompareDeltas(d12.y, d23.y, l12.y, l23.y);
bool c24_1 = CompareDeltas(d23.y, d34.y, l23.y, l34.y);
bool c35_1 = CompareDeltas(d34.y, d45.y, l34.y, l45.y);
bool c46_1 = CompareDeltas(d45.y, d56.y, l45.y, l56.y);
AOCache2[leftMostIndex] = float2(SmartBlur(a0.x.x, a1.x, a2.x, a3.x, a4.x, c02_0, c13_0, c24_0), SmartBlur(a0.y, a1.y, a2.y, a3.y, a4.y, c02_1, c13_1, c24_1));
AOCache2[leftMostIndex + 1] = float2(SmartBlur(a1.x, a2.x, a3.x, a4.x, a5.x, c13_0, c24_0, c35_0), SmartBlur(a1.y, a2.y, a3.y, a4.y, a5.y, c13_1, c24_1, c35_1));
AOCache2[leftMostIndex + 2] = float2(SmartBlur(a2.x, a3.x, a4.x, a5.x, a6.x, c24_0, c35_0, c46_0), SmartBlur(a2.y, a3.y, a4.y, a5.y, a6.y, c24_1, c35_1, c46_1));
#else
float a0 = AOCache1[leftMostIndex];
float a1 = AOCache1[leftMostIndex + 1];
float a2 = AOCache1[leftMostIndex + 2];
float a3 = AOCache1[leftMostIndex + 3];
float a4 = AOCache1[leftMostIndex + 4];
float a5 = AOCache1[leftMostIndex + 5];
float a6 = AOCache1[leftMostIndex + 6];
float d0 = DepthCache[leftMostIndex];
float d1 = DepthCache[leftMostIndex + 1];
float d2 = DepthCache[leftMostIndex + 2];
float d3 = DepthCache[leftMostIndex + 3];
float d4 = DepthCache[leftMostIndex + 4];
float d5 = DepthCache[leftMostIndex + 5];
float d6 = DepthCache[leftMostIndex + 6];
float d01 = d1 - d0;
float d12 = d2 - d1;
float d23 = d3 - d2;
float d34 = d4 - d3;
float d45 = d5 - d4;
float d56 = d6 - d5;
float l01 = d01 * d01 + StepSize;
float l12 = d12 * d12 + StepSize;
float l23 = d23 * d23 + StepSize;
float l34 = d34 * d34 + StepSize;
float l45 = d45 * d45 + StepSize;
float l56 = d56 * d56 + StepSize;
bool c02 = CompareDeltas(d01, d12, l01, l12);
bool c13 = CompareDeltas(d12, d23, l12, l23);
bool c24 = CompareDeltas(d23, d34, l23, l34);
bool c35 = CompareDeltas(d34, d45, l34, l45);
bool c46 = CompareDeltas(d45, d56, l45, l56);
AOCache2[leftMostIndex] = SmartBlur(a0, a1, a2, a3, a4, c02, c13, c24);
AOCache2[leftMostIndex + 1] = SmartBlur(a1, a2, a3, a4, a5, c13, c24, c35);
AOCache2[leftMostIndex + 2] = SmartBlur(a2, a3, a4, a5, a6, c24, c35, c46);
#endif
}
void BlurVertically(uint topMostIndex)
{
#ifdef MSAA
float2 a0 = AOCache2[topMostIndex];
float2 a1 = AOCache2[topMostIndex + 16];
float2 a2 = AOCache2[topMostIndex + 32];
float2 a3 = AOCache2[topMostIndex + 48];
float2 a4 = AOCache2[topMostIndex + 64];
float2 a5 = AOCache2[topMostIndex + 80];
float2 d0 = DepthCache[topMostIndex + 2];
float2 d1 = DepthCache[topMostIndex + 18];
float2 d2 = DepthCache[topMostIndex + 34];
float2 d3 = DepthCache[topMostIndex + 50];
float2 d4 = DepthCache[topMostIndex + 66];
float2 d5 = DepthCache[topMostIndex + 82];
float2 d01 = d1 - d0;
float2 d12 = d2 - d1;
float2 d23 = d3 - d2;
float2 d34 = d4 - d3;
float2 d45 = d5 - d4;
float2 l01 = d01 * d01 + StepSize;
float2 l12 = d12 * d12 + StepSize;
float2 l23 = d23 * d23 + StepSize;
float2 l34 = d34 * d34 + StepSize;
float2 l45 = d45 * d45 + StepSize;
bool c02_0 = CompareDeltas(d01.x, d12.x, l01.x, l12.x);
bool c13_0 = CompareDeltas(d12.x, d23.x, l12.x, l23.x);
bool c24_0 = CompareDeltas(d23.x, d34.x, l23.x, l34.x);
bool c35_0 = CompareDeltas(d34.x, d45.x, l34.x, l45.x);
bool c02_1 = CompareDeltas(d01.y, d12.y, l01.y, l12.y);
bool c13_1 = CompareDeltas(d12.y, d23.y, l12.y, l23.y);
bool c24_1 = CompareDeltas(d23.y, d34.y, l23.y, l34.y);
bool c35_1 = CompareDeltas(d34.y, d45.y, l34.y, l45.y);
float2 aoResult1 = float2(SmartBlur(a0.x, a1.x, a2.x, a3.x, a4.x, c02_0, c13_0, c24_0), SmartBlur(a0.y, a1.y, a2.y, a3.y, a4.y, c02_1, c13_1, c24_1));
float2 aoResult2 = float2(SmartBlur(a1.x, a2.x, a3.x, a4.x, a5.x, c13_0, c24_0, c35_0), SmartBlur(a1.y, a2.y, a3.y, a4.y, a5.y, c13_1, c24_1, c35_1));
AOCache1[topMostIndex] = aoResult1;
AOCache1[topMostIndex + 16] = aoResult2;
#else
float a0 = AOCache2[topMostIndex];
float a1 = AOCache2[topMostIndex + 16];
float a2 = AOCache2[topMostIndex + 32];
float a3 = AOCache2[topMostIndex + 48];
float a4 = AOCache2[topMostIndex + 64];
float a5 = AOCache2[topMostIndex + 80];
float d0 = DepthCache[topMostIndex + 2];
float d1 = DepthCache[topMostIndex + 18];
float d2 = DepthCache[topMostIndex + 34];
float d3 = DepthCache[topMostIndex + 50];
float d4 = DepthCache[topMostIndex + 66];
float d5 = DepthCache[topMostIndex + 82];
float d01 = d1 - d0;
float d12 = d2 - d1;
float d23 = d3 - d2;
float d34 = d4 - d3;
float d45 = d5 - d4;
float l01 = d01 * d01 + StepSize;
float l12 = d12 * d12 + StepSize;
float l23 = d23 * d23 + StepSize;
float l34 = d34 * d34 + StepSize;
float l45 = d45 * d45 + StepSize;
bool c02 = CompareDeltas(d01, d12, l01, l12);
bool c13 = CompareDeltas(d12, d23, l12, l23);
bool c24 = CompareDeltas(d23, d34, l23, l34);
bool c35 = CompareDeltas(d34, d45, l34, l45);
float aoResult1 = SmartBlur(a0, a1, a2, a3, a4, c02, c13, c24);
float aoResult2 = SmartBlur(a1, a2, a3, a4, a5, c13, c24, c35);
AOCache1[topMostIndex] = aoResult1;
AOCache1[topMostIndex + 16] = aoResult2;
#endif
}
// We essentially want 5 weights: 4 for each low-res pixel and 1 to blend in when none of the 4 really
// match. The filter strength is 1 / DeltaZTolerance. So a tolerance of 0.01 would yield a strength of 100.
// Note that a perfect match of low to high depths would yield a weight of 10^6, completely superceding any
// noise filtering. The noise filter is intended to soften the effects of shimmering when the high-res depth
// buffer has a lot of small holes in it causing the low-res depth buffer to inaccurately represent it.
float BilateralUpsample(float HiDepth, float HiAO, float4 LowDepths, float4 LowAO)
{
float4 weights = float4(9, 3, 1, 3) / (abs(HiDepth - LowDepths) + kUpsampleTolerance);
float TotalWeight = dot(weights, 1) + NoiseFilterStrength;
float WeightedSum = dot(LowAO, weights) + NoiseFilterStrength;// * HiAO;
return HiAO * WeightedSum / TotalWeight;
}
#ifdef DISABLE_COMPUTE_SHADERS
TRIVIAL_COMPUTE_KERNEL(MAIN)
#else
[numthreads(8, 8, 1)]
void MAIN(uint3 Gid : SV_GroupID, uint GI : SV_GroupIndex, uint3 GTid : SV_GroupThreadID, uint3 DTid : SV_DispatchThreadID)
{
//
// Load 4 pixels per thread into LDS to fill the 16x16 LDS cache with depth and AO
//
PrefetchData(GTid.x << 1 | GTid.y << 5, int2(DTid.xy + GTid.xy - 2) * InvLowResolution.xy);
GroupMemoryBarrierWithGroupSync();
// Goal: End up with a 9x9 patch that is blurred so we can upsample. Blur radius is 2 pixels, so start with 13x13 area.
//
// Horizontally blur the pixels. 13x13 -> 9x13
//
if (GI < 39)
BlurHorizontally((GI / 3) * 16 + (GI % 3) * 3);
GroupMemoryBarrierWithGroupSync();
//
// Vertically blur the pixels. 9x13 -> 9x9
//
if (GI < 45)
BlurVertically((GI / 9) * 32 + GI % 9);
GroupMemoryBarrierWithGroupSync();
//
// Bilateral upsample
//
uint Idx0 = GTid.x + GTid.y * 16;
#ifdef MSAA
float4 LoSSAOs0 = float4(AOCache1[Idx0 + 16].x, AOCache1[Idx0 + 17].x, AOCache1[Idx0 + 1].x, AOCache1[Idx0].x);
float4 LoSSAOs1 = float4(AOCache1[Idx0 + 16].y, AOCache1[Idx0 + 17].y, AOCache1[Idx0 + 1].y, AOCache1[Idx0].y);
#else
float4 LoSSAOs = float4(AOCache1[Idx0 + 16], AOCache1[Idx0 + 17], AOCache1[Idx0 + 1], AOCache1[Idx0]);
#endif
// We work on a quad of pixels at once because then we can gather 4 each of high and low-res depth values
float2 UV0 = DTid.xy * InvLowResolution.xy;
float2 UV1 = DTid.xy * 2 * InvHighResolution.xy;
#ifdef MSAA
#ifdef BLEND_WITH_HIGHER_RESOLUTION
float4 HiSSAOs0 = HiResAO.GatherRed(samplerHiResAO, UV1);
float4 HiSSAOs1 = HiResAO.GatherGreen(samplerHiResAO, UV1);
#else
float4 HiSSAOs0 = 1.0;
float4 HiSSAOs1 = 1.0;
#endif
float4 LoDepths0 = LoResDB.GatherRed(samplerLoResDB, UV0);
float4 LoDepths1 = LoResDB.GatherGreen(samplerLoResDB, UV0);
float4 HiDepths0 = HiResDB.GatherRed(samplerHiResDB, UV1);
float4 HiDepths1 = HiResDB.GatherGreen(samplerHiResDB, UV1);
int2 OutST = DTid.xy << 1;
#ifdef INVERT
AoResult[OutST + int2(-1, 0)] = float2(1.0 - BilateralUpsample(HiDepths0.x, HiSSAOs0.x, LoDepths0.xyzw, LoSSAOs0.xyzw), 1.0 - BilateralUpsample(HiDepths1.x, HiSSAOs1.x, LoDepths1.xyzw, LoSSAOs1.xyzw));
AoResult[OutST + int2( 0, 0)] = float2(1.0 - BilateralUpsample(HiDepths0.y, HiSSAOs0.y, LoDepths0.yzwx, LoSSAOs0.yzwx), 1.0 - BilateralUpsample(HiDepths1.y, HiSSAOs1.y, LoDepths1.yzwx, LoSSAOs1.yzwx));
AoResult[OutST + int2( 0, -1)] = float2(1.0 - BilateralUpsample(HiDepths0.z, HiSSAOs0.z, LoDepths0.zwxy, LoSSAOs0.zwxy), 1.0 - BilateralUpsample(HiDepths1.z, HiSSAOs1.z, LoDepths1.zwxy, LoSSAOs1.zwxy));
AoResult[OutST + int2(-1, -1)] = float2(1.0 - BilateralUpsample(HiDepths0.w, HiSSAOs0.w, LoDepths0.wxyz, LoSSAOs0.wxyz), 1.0 - BilateralUpsample(HiDepths1.w, HiSSAOs1.w, LoDepths1.wxyz, LoSSAOs1.wxyz));
#else
AoResult[OutST + int2(-1, 0)] = float2(BilateralUpsample(HiDepths0.x, HiSSAOs0.x, LoDepths0.xyzw, LoSSAOs0.xyzw), BilateralUpsample(HiDepths1.x, HiSSAOs1.x, LoDepths1.xyzw, LoSSAOs1.xyzw));
AoResult[OutST + int2( 0, 0)] = float2(BilateralUpsample(HiDepths0.y, HiSSAOs0.y, LoDepths0.yzwx, LoSSAOs0.yzwx), BilateralUpsample(HiDepths1.y, HiSSAOs1.y, LoDepths1.yzwx, LoSSAOs1.yzwx));
AoResult[OutST + int2( 0, -1)] = float2(BilateralUpsample(HiDepths0.z, HiSSAOs0.z, LoDepths0.zwxy, LoSSAOs0.zwxy), BilateralUpsample(HiDepths1.z, HiSSAOs1.z, LoDepths1.zwxy, LoSSAOs1.zwxy));
AoResult[OutST + int2(-1, -1)] = float2(BilateralUpsample(HiDepths0.w, HiSSAOs0.w, LoDepths0.wxyz, LoSSAOs0.wxyz),BilateralUpsample(HiDepths1.w, HiSSAOs1.w, LoDepths1.wxyz, LoSSAOs1.wxyz));
#endif
#else
#ifdef BLEND_WITH_HIGHER_RESOLUTION
float4 HiSSAOs = HiResAO.Gather(samplerHiResAO, UV1);
#else
float4 HiSSAOs = 1.0;
#endif
float4 LoDepths = LoResDB.Gather(samplerLoResDB, UV0);
float4 HiDepths = HiResDB.Gather(samplerHiResDB, UV1);
int2 OutST = DTid.xy << 1;
#ifdef INVERT
AoResult[OutST + int2(-1, 0)] = 1.0 - BilateralUpsample(HiDepths.x, HiSSAOs.x, LoDepths.xyzw, LoSSAOs.xyzw);
AoResult[OutST + int2( 0, 0)] = 1.0 - BilateralUpsample(HiDepths.y, HiSSAOs.y, LoDepths.yzwx, LoSSAOs.yzwx);
AoResult[OutST + int2( 0, -1)] = 1.0 - BilateralUpsample(HiDepths.z, HiSSAOs.z, LoDepths.zwxy, LoSSAOs.zwxy);
AoResult[OutST + int2(-1, -1)] = 1.0 - BilateralUpsample(HiDepths.w, HiSSAOs.w, LoDepths.wxyz, LoSSAOs.wxyz);
#else
AoResult[OutST + int2(-1, 0)] = BilateralUpsample(HiDepths.x, HiSSAOs.x, LoDepths.xyzw, LoSSAOs.xyzw);
AoResult[OutST + int2( 0, 0)] = BilateralUpsample(HiDepths.y, HiSSAOs.y, LoDepths.yzwx, LoSSAOs.yzwx);
AoResult[OutST + int2( 0, -1)] = BilateralUpsample(HiDepths.z, HiSSAOs.z, LoDepths.zwxy, LoSSAOs.zwxy);
AoResult[OutST + int2(-1, -1)] = BilateralUpsample(HiDepths.w, HiSSAOs.w, LoDepths.wxyz, LoSSAOs.wxyz);
#endif
#endif
}
#endif // DISABLE_COMPUTE_SHADERS