UnityGame/Library/PackageCache/com.unity.render-pipelines.universal/Editor/ShaderGraph/Includes/PBRForwardPass.hlsl

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HLSL
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2024-10-27 10:53:47 +03:00
void InitializeInputData(Varyings input, SurfaceDescription surfaceDescription, out InputData inputData)
{
inputData = (InputData)0;
inputData.positionWS = input.positionWS;
#ifdef _NORMALMAP
// IMPORTANT! If we ever support Flip on double sided materials ensure bitangent and tangent are NOT flipped.
float crossSign = (input.tangentWS.w > 0.0 ? 1.0 : -1.0) * GetOddNegativeScale();
float3 bitangent = crossSign * cross(input.normalWS.xyz, input.tangentWS.xyz);
inputData.tangentToWorld = half3x3(input.tangentWS.xyz, bitangent.xyz, input.normalWS.xyz);
#if _NORMAL_DROPOFF_TS
inputData.normalWS = TransformTangentToWorld(surfaceDescription.NormalTS, inputData.tangentToWorld);
#elif _NORMAL_DROPOFF_OS
inputData.normalWS = TransformObjectToWorldNormal(surfaceDescription.NormalOS);
#elif _NORMAL_DROPOFF_WS
inputData.normalWS = surfaceDescription.NormalWS;
#endif
#else
inputData.normalWS = input.normalWS;
#endif
inputData.normalWS = NormalizeNormalPerPixel(inputData.normalWS);
inputData.viewDirectionWS = GetWorldSpaceNormalizeViewDir(input.positionWS);
#if defined(REQUIRES_VERTEX_SHADOW_COORD_INTERPOLATOR)
inputData.shadowCoord = input.shadowCoord;
#elif defined(MAIN_LIGHT_CALCULATE_SHADOWS)
inputData.shadowCoord = TransformWorldToShadowCoord(inputData.positionWS);
#else
inputData.shadowCoord = float4(0, 0, 0, 0);
#endif
inputData.fogCoord = InitializeInputDataFog(float4(input.positionWS, 1.0), input.fogFactorAndVertexLight.x);
inputData.vertexLighting = input.fogFactorAndVertexLight.yzw;
inputData.normalizedScreenSpaceUV = GetNormalizedScreenSpaceUV(input.positionCS);
#if defined(DEBUG_DISPLAY)
#if defined(DYNAMICLIGHTMAP_ON)
inputData.dynamicLightmapUV = input.dynamicLightmapUV.xy;
#endif
#if defined(LIGHTMAP_ON)
inputData.staticLightmapUV = input.staticLightmapUV;
#else
inputData.vertexSH = input.sh;
#endif
#if defined(USE_APV_PROBE_OCCLUSION)
inputData.probeOcclusion = input.probeOcclusion;
#endif
inputData.positionCS = input.positionCS;
#endif
}
void InitializeBakedGIData(Varyings input, inout InputData inputData)
{
#if defined(DYNAMICLIGHTMAP_ON)
inputData.bakedGI = SAMPLE_GI(input.staticLightmapUV, input.dynamicLightmapUV.xy, input.sh, inputData.normalWS);
inputData.shadowMask = SAMPLE_SHADOWMASK(input.staticLightmapUV);
#elif !defined(LIGHTMAP_ON) && (defined(PROBE_VOLUMES_L1) || defined(PROBE_VOLUMES_L2))
inputData.bakedGI = SAMPLE_GI(input.sh,
GetAbsolutePositionWS(inputData.positionWS),
inputData.normalWS,
inputData.viewDirectionWS,
input.positionCS.xy,
input.probeOcclusion,
inputData.shadowMask);
#else
inputData.bakedGI = SAMPLE_GI(input.staticLightmapUV, input.sh, inputData.normalWS);
inputData.shadowMask = SAMPLE_SHADOWMASK(input.staticLightmapUV);
#endif
}
PackedVaryings vert(Attributes input)
{
Varyings output = (Varyings)0;
output = BuildVaryings(input);
PackedVaryings packedOutput = (PackedVaryings)0;
packedOutput = PackVaryings(output);
return packedOutput;
}
void frag(
PackedVaryings packedInput
, out half4 outColor : SV_Target0
#ifdef _WRITE_RENDERING_LAYERS
, out float4 outRenderingLayers : SV_Target1
#endif
)
{
Varyings unpacked = UnpackVaryings(packedInput);
UNITY_SETUP_INSTANCE_ID(unpacked);
UNITY_SETUP_STEREO_EYE_INDEX_POST_VERTEX(unpacked);
SurfaceDescription surfaceDescription = BuildSurfaceDescription(unpacked);
#if defined(_SURFACE_TYPE_TRANSPARENT)
bool isTransparent = true;
#else
bool isTransparent = false;
#endif
#if defined(_ALPHATEST_ON)
half alpha = AlphaDiscard(surfaceDescription.Alpha, surfaceDescription.AlphaClipThreshold);
#elif defined(_SURFACE_TYPE_TRANSPARENT)
half alpha = surfaceDescription.Alpha;
#else
half alpha = half(1.0);
#endif
#if defined(LOD_FADE_CROSSFADE) && USE_UNITY_CROSSFADE
LODFadeCrossFade(unpacked.positionCS);
#endif
InputData inputData;
InitializeInputData(unpacked, surfaceDescription, inputData);
#ifdef VARYINGS_NEED_TEXCOORD0
SETUP_DEBUG_TEXTURE_DATA(inputData, unpacked.texCoord0);
#else
SETUP_DEBUG_TEXTURE_DATA_NO_UV(inputData);
#endif
#ifdef _SPECULAR_SETUP
float3 specular = surfaceDescription.Specular;
float metallic = 1;
#else
float3 specular = 0;
float metallic = surfaceDescription.Metallic;
#endif
half3 normalTS = half3(0, 0, 0);
#if defined(_NORMALMAP) && defined(_NORMAL_DROPOFF_TS)
normalTS = surfaceDescription.NormalTS;
#endif
SurfaceData surface;
surface.albedo = surfaceDescription.BaseColor;
surface.metallic = saturate(metallic);
surface.specular = specular;
surface.smoothness = saturate(surfaceDescription.Smoothness),
surface.occlusion = surfaceDescription.Occlusion,
surface.emission = surfaceDescription.Emission,
surface.alpha = saturate(alpha);
surface.normalTS = normalTS;
surface.clearCoatMask = 0;
surface.clearCoatSmoothness = 1;
#ifdef _CLEARCOAT
surface.clearCoatMask = saturate(surfaceDescription.CoatMask);
surface.clearCoatSmoothness = saturate(surfaceDescription.CoatSmoothness);
#endif
surface.albedo = AlphaModulate(surface.albedo, surface.alpha);
#if defined(_DBUFFER)
ApplyDecalToSurfaceData(unpacked.positionCS, surface, inputData);
#endif
InitializeBakedGIData(unpacked, inputData);
half4 color = UniversalFragmentPBR(inputData, surface);
color.rgb = MixFog(color.rgb, inputData.fogCoord);
color.a = OutputAlpha(color.a, isTransparent);
outColor = color;
#ifdef _WRITE_RENDERING_LAYERS
uint renderingLayers = GetMeshRenderingLayer();
outRenderingLayers = float4(EncodeMeshRenderingLayer(renderingLayers), 0, 0, 0);
#endif
}