#if (SHADERPASS != SHADERPASS_DEPTHONLY) && (SHADERPASS != SHADERPASS_DBUFFER_PROJECTOR) && (SHADERPASS != SHADERPASS_DBUFFER_MESH) && (SHADERPASS != SHADERPASS_FORWARD_EMISSIVE_PROJECTOR) && (SHADERPASS != SHADERPASS_FORWARD_EMISSIVE_MESH) && (SHADERPASS != SHADERPASS_DECAL_SCREEN_SPACE_PROJECTOR) && (SHADERPASS != SHADERPASS_DECAL_SCREEN_SPACE_MESH) && (SHADERPASS != SHADERPASS_DECAL_GBUFFER_PROJECTOR) && (SHADERPASS != SHADERPASS_DECAL_GBUFFER_MESH) #error SHADERPASS_is_not_correctly_define #endif #if !defined(SHADERPASS) #error SHADERPASS_is_not_define #endif #if (SHADERPASS == SHADERPASS_DBUFFER_PROJECTOR) || (SHADERPASS == SHADERPASS_FORWARD_EMISSIVE_PROJECTOR) || (SHADERPASS == SHADERPASS_DECAL_SCREEN_SPACE_PROJECTOR) || (SHADERPASS == SHADERPASS_DECAL_GBUFFER_PROJECTOR) #define DECAL_PROJECTOR #endif #if (SHADERPASS == SHADERPASS_DBUFFER_MESH) || (SHADERPASS == SHADERPASS_FORWARD_EMISSIVE_MESH) || (SHADERPASS == SHADERPASS_DECAL_SCREEN_SPACE_MESH) || (SHADERPASS == SHADERPASS_DECAL_GBUFFER_MESH) #define DECAL_MESH #endif #if (SHADERPASS == SHADERPASS_DBUFFER_PROJECTOR) || (SHADERPASS == SHADERPASS_DBUFFER_MESH) #define DECAL_DBUFFER #endif #if (SHADERPASS == SHADERPASS_DECAL_SCREEN_SPACE_PROJECTOR) || (SHADERPASS == SHADERPASS_DECAL_SCREEN_SPACE_MESH) #define DECAL_SCREEN_SPACE #endif #if (SHADERPASS == SHADERPASS_DECAL_GBUFFER_PROJECTOR) || (SHADERPASS == SHADERPASS_DECAL_GBUFFER_MESH) #define DECAL_GBUFFER #endif #if (SHADERPASS == SHADERPASS_FORWARD_EMISSIVE_PROJECTOR) || (SHADERPASS == SHADERPASS_FORWARD_EMISSIVE_MESH) #define DECAL_FORWARD_EMISSIVE #endif #if ((!defined(_MATERIAL_AFFECTS_NORMAL) && defined(_MATERIAL_AFFECTS_ALBEDO)) || (defined(_MATERIAL_AFFECTS_NORMAL) && defined(_MATERIAL_AFFECTS_NORMAL_BLEND))) && (defined(DECAL_SCREEN_SPACE) || defined(DECAL_GBUFFER)) #define DECAL_RECONSTRUCT_NORMAL #elif defined(DECAL_ANGLE_FADE) #define DECAL_LOAD_NORMAL #endif #if defined(DECAL_LOAD_NORMAL) #include "Packages/com.unity.render-pipelines.universal/ShaderLibrary/DeclareNormalsTexture.hlsl" #endif #if defined(DECAL_PROJECTOR) || defined(DECAL_RECONSTRUCT_NORMAL) #include "Packages/com.unity.render-pipelines.universal/ShaderLibrary/DeclareDepthTexture.hlsl" #endif #ifdef DECAL_MESH #include "Packages/com.unity.render-pipelines.universal/Editor/ShaderGraph/Includes/DecalMeshBiasTypeEnum.cs.hlsl" #endif #ifdef DECAL_RECONSTRUCT_NORMAL #include "Packages/com.unity.render-pipelines.universal/ShaderLibrary/NormalReconstruction.hlsl" #endif void MeshDecalsPositionZBias(inout Varyings input) { #if UNITY_REVERSED_Z input.positionCS.z -= _DecalMeshDepthBias; #else input.positionCS.z += _DecalMeshDepthBias; #endif } void InitializeInputData(Varyings input, float3 positionWS, half3 normalWS, half3 viewDirectionWS, out InputData inputData) { inputData = (InputData)0; inputData.positionWS = positionWS; inputData.normalWS = normalWS; inputData.viewDirectionWS = viewDirectionWS; #if defined(VARYINGS_NEED_SHADOW_COORD) && defined(REQUIRES_VERTEX_SHADOW_COORD_INTERPOLATOR) inputData.shadowCoord = input.shadowCoord; #elif defined(MAIN_LIGHT_CALCULATE_SHADOWS) inputData.shadowCoord = TransformWorldToShadowCoord(positionWS); #else inputData.shadowCoord = float4(0, 0, 0, 0); #endif #ifdef VARYINGS_NEED_FOG_AND_VERTEX_LIGHT inputData.fogCoord = half(input.fogFactorAndVertexLight.x); inputData.vertexLighting = half3(input.fogFactorAndVertexLight.yzw); #endif #if defined(VARYINGS_NEED_DYNAMIC_LIGHTMAP_UV) && defined(DYNAMICLIGHTMAP_ON) inputData.bakedGI = SAMPLE_GI(input.staticLightmapUV, input.dynamicLightmapUV.xy, half3(input.sh), normalWS); #elif defined(VARYINGS_NEED_STATIC_LIGHTMAP_UV) inputData.bakedGI = SAMPLE_GI(input.staticLightmapUV, half3(input.sh), normalWS); #endif #if defined(VARYINGS_NEED_STATIC_LIGHTMAP_UV) inputData.shadowMask = SAMPLE_SHADOWMASK(input.staticLightmapUV); #endif #if defined(DEBUG_DISPLAY) #if defined(VARYINGS_NEED_DYNAMIC_LIGHTMAP_UV) && defined(DYNAMICLIGHTMAP_ON) inputData.dynamicLightmapUV = input.dynamicLightmapUV.xy; #endif #if defined(VARYINGS_NEED_STATIC_LIGHTMAP_UV) && defined(LIGHTMAP_ON) inputData.staticLightmapUV = input.staticLightmapUV; #elif defined(VARYINGS_NEED_SH) inputData.vertexSH = input.sh; #endif #endif inputData.normalizedScreenSpaceUV = GetNormalizedScreenSpaceUV(input.positionCS); } void GetSurface(DecalSurfaceData decalSurfaceData, inout SurfaceData surfaceData) { surfaceData.albedo = decalSurfaceData.baseColor.rgb; surfaceData.metallic = saturate(decalSurfaceData.metallic); surfaceData.specular = 0; surfaceData.smoothness = saturate(decalSurfaceData.smoothness); surfaceData.occlusion = decalSurfaceData.occlusion; surfaceData.emission = decalSurfaceData.emissive; surfaceData.alpha = saturate(decalSurfaceData.baseColor.w); surfaceData.clearCoatMask = 0; surfaceData.clearCoatSmoothness = 1; } PackedVaryings Vert(Attributes inputMesh) { Varyings output = (Varyings)0; #ifdef DECAL_MESH if (_DecalMeshBiasType == DECALMESHDEPTHBIASTYPE_VIEW_BIAS) // TODO: Check performance of branch { float3 viewDirectionOS = GetObjectSpaceNormalizeViewDir(inputMesh.positionOS); inputMesh.positionOS += viewDirectionOS * (_DecalMeshViewBias); } output = BuildVaryings(inputMesh); if (_DecalMeshBiasType == DECALMESHDEPTHBIASTYPE_DEPTH_BIAS) // TODO: Check performance of branch { MeshDecalsPositionZBias(output); } #else output = BuildVaryings(inputMesh); #endif #if defined(VARYINGS_NEED_STATIC_LIGHTMAP_UV) OUTPUT_LIGHTMAP_UV(inputMesh.uv1, unity_LightmapST, output.staticLightmapUV); #endif #if defined(VARYINGS_NEED_DYNAMIC_LIGHTMAP_UV) && defined(DYNAMICLIGHTMAP_ON) output.dynamicLightmapUV.xy = inputMesh.uv2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw; #endif #if defined(VARYINGS_NEED_SH) && !defined(LIGHTMAP_ON) output.sh = float3(SampleSHVertex(half3(output.normalWS))); #endif PackedVaryings packedOutput = (PackedVaryings)0; packedOutput = PackVaryings(output); return packedOutput; } void Frag(PackedVaryings packedInput, #if defined(DECAL_DBUFFER) OUTPUT_DBUFFER(outDBuffer) #elif defined(DECAL_SCREEN_SPACE) out half4 outColor : SV_Target0 #elif defined(DECAL_GBUFFER) out FragmentOutput fragmentOutput #elif defined(DECAL_FORWARD_EMISSIVE) out half4 outEmissive : SV_Target0 #elif defined(SCENEPICKINGPASS) out float4 outColor : SV_Target0 #else #error SHADERPASS_is_not_correctly_define #endif ) { #ifdef SCENEPICKINGPASS outColor = _SelectionID; #else UNITY_SETUP_STEREO_EYE_INDEX_POST_VERTEX(packedInput); UNITY_SETUP_INSTANCE_ID(packedInput); Varyings input = UnpackVaryings(packedInput); half angleFadeFactor = 1.0; float2 positionCS = input.positionCS.xy; // Only screen space needs flip logic, other passes do not setup needed properties so we skip here #if defined(DECAL_SCREEN_SPACE) TransformScreenUV(positionCS, _ScreenSize.y); #endif #if defined(DECAL_PROJECTOR) #if UNITY_REVERSED_Z float depth = LoadSceneDepth(positionCS.xy); #else // Adjust z to match NDC for OpenGL float depth = lerp(UNITY_NEAR_CLIP_VALUE, 1, LoadSceneDepth(positionCS.xy)); #endif #endif #if defined(DECAL_RECONSTRUCT_NORMAL) #if defined(_DECAL_NORMAL_BLEND_HIGH) half3 normalWS = half3(ReconstructNormalTap9(positionCS.xy)); #elif defined(_DECAL_NORMAL_BLEND_MEDIUM) half3 normalWS = half3(ReconstructNormalTap5(positionCS.xy)); #else half3 normalWS = half3(ReconstructNormalDerivative(input.positionCS.xy)); #endif #elif defined(DECAL_LOAD_NORMAL) half3 normalWS = half3(LoadSceneNormals(positionCS.xy)); #endif float2 positionSS = input.positionCS.xy * _ScreenSize.zw; #ifdef DECAL_PROJECTOR float3 positionWS = ComputeWorldSpacePosition(positionSS, depth, UNITY_MATRIX_I_VP); #ifdef VARYINGS_NEED_POSITION_WS input.positionWS = positionWS; #endif // Transform from relative world space to decal space (DS) to clip the decal float3 positionDS = TransformWorldToObject(positionWS); positionDS = positionDS * float3(1.0, -1.0, 1.0); // call clip as early as possible float clipValue = 0.5 - Max3(abs(positionDS).x, abs(positionDS).y, abs(positionDS).z); clip(clipValue); float2 texCoord = positionDS.xz + float2(0.5, 0.5); #ifdef VARYINGS_NEED_TEXCOORD0 input.texCoord0.xy = texCoord; #endif #ifdef VARYINGS_NEED_TEXCOORD1 input.texCoord1.xy = texCoord; #endif #ifdef VARYINGS_NEED_TEXCOORD2 input.texCoord2.xy = texCoord; #endif #ifdef VARYINGS_NEED_TEXCOORD3 input.texCoord3.xy = texCoord; #endif #ifdef DECAL_ANGLE_FADE // Check if this decal projector require angle fading half4x4 normalToWorld = UNITY_ACCESS_INSTANCED_PROP(Decal, _NormalToWorld); half2 angleFade = half2(normalToWorld[1][3], normalToWorld[2][3]); if (angleFade.y < 0.0f) // if angle fade is enabled { half3 decalNormal = half3(normalToWorld[0].z, normalToWorld[1].z, normalToWorld[2].z); half dotAngle = dot(normalWS, decalNormal); // See equation in DecalCreateDrawCallSystem.cs - simplified to a madd mul add here angleFadeFactor = saturate(angleFade.x + angleFade.y * (dotAngle * (dotAngle - 2.0))); } #endif #else // Decal mesh float3 positionWS = input.positionWS.xyz; #endif half3 viewDirectionWS = GetWorldSpaceNormalizeViewDir(positionWS); DecalSurfaceData surfaceData; GetSurfaceData(input, (uint2)positionSS, angleFadeFactor, surfaceData); #if defined(DECAL_DBUFFER) ENCODE_INTO_DBUFFER(surfaceData, outDBuffer); #elif defined(DECAL_SCREEN_SPACE) // Blend normal with background #ifdef DECAL_RECONSTRUCT_NORMAL surfaceData.normalWS.xyz = normalize(lerp(normalWS.xyz, surfaceData.normalWS.xyz, surfaceData.normalWS.w)); #endif InputData inputData; InitializeInputData(input, positionWS, surfaceData.normalWS.xyz, viewDirectionWS, inputData); SurfaceData surface = (SurfaceData)0; GetSurface(surfaceData, surface); half4 color = UniversalFragmentPBR(inputData, surface); color.rgb = MixFog(color.rgb, inputData.fogCoord); outColor = color; #elif defined(DECAL_GBUFFER) InputData inputData; InitializeInputData(input, positionWS, surfaceData.normalWS.xyz, viewDirectionWS, inputData); SurfaceData surface = (SurfaceData)0; GetSurface(surfaceData, surface); BRDFData brdfData; InitializeBRDFData(surface.albedo, surface.metallic, 0, surface.smoothness, surface.alpha, brdfData); // Skip GI if there is no abledo #ifdef _MATERIAL_AFFECTS_ALBEDO // GI needs blended normal #ifdef DECAL_RECONSTRUCT_NORMAL half3 normalGI = normalize(lerp(normalWS.xyz, surfaceData.normalWS.xyz, surfaceData.normalWS.w)); #endif Light mainLight = GetMainLight(inputData.shadowCoord, inputData.positionWS, inputData.shadowMask); MixRealtimeAndBakedGI(mainLight, normalGI, inputData.bakedGI, inputData.shadowMask); half3 color = GlobalIllumination(brdfData, inputData.bakedGI, surface.occlusion, normalGI, inputData.viewDirectionWS); #else half3 color = 0; #endif // We can not use usual GBuffer functions (etc. BRDFDataToGbuffer) as we use alpha for blending half3 packedNormalWS = PackNormal(surfaceData.normalWS.xyz); fragmentOutput.GBuffer0 = half4(surfaceData.baseColor.rgb, surfaceData.baseColor.a); fragmentOutput.GBuffer1 = 0; fragmentOutput.GBuffer2 = half4(packedNormalWS, surfaceData.normalWS.a); fragmentOutput.GBuffer3 = half4(surfaceData.emissive + color, surfaceData.baseColor.a); #if OUTPUT_SHADOWMASK fragmentOutput.GBuffer4 = inputData.shadowMask; // will have unity_ProbesOcclusion value if subtractive lighting is used (baked) #endif #elif defined(DECAL_FORWARD_EMISSIVE) // Emissive need to be pre-exposed outEmissive.rgb = surfaceData.emissive;// *GetCurrentExposureMultiplier(); outEmissive.a = surfaceData.baseColor.a; #else #endif #endif }