#ifndef LIGHTLOOP_SHADOW_HLSL #define LIGHTLOOP_SHADOW_HLSL #define SHADOW_DISPATCH_USE_CUSTOM_DIRECTIONAL #define SHADOW_DISPATCH_USE_CUSTOM_PUNCTUAL #define SHADOW_USE_VIEW_BIAS_SCALING 1 // Enable view bias scaling to mitigate light leaking across edges. Uses the light vector if SHADOW_USE_ONLY_VIEW_BASED_BIASING is defined, otherwise uses the normal. // Note: Sample biasing work well but is very costly in term of VGPR, disable it for now #define SHADOW_USE_SAMPLE_BIASING 0 // Enable per sample biasing for wide multi-tap PCF filters. Incompatible with SHADOW_USE_ONLY_VIEW_BASED_BIASING. #define SHADOW_USE_DEPTH_BIAS 0 // Enable clip space z biasing #include "ShadowContext.hlsl" // This is an example of how to override the default dynamic resource dispatcher // by hardcoding the resources used and calling the shadow sampling routines that take an explicit texture and sampler. // It is the responsibility of the author to make sure that ShadowContext.hlsl binds the correct texture to the right slot, // and that on the C# side the shadowContext bindDelegate binds the correct resource to the correct texture id. // Caution: When updating algorithm here, think to update Lightloop.ShadowSetup() function // (the various m_ShadowMgr.SetGlobalShadowOverride( GPUShadowType.Point, ShadowAlgorithm.PCF, ShadowVariant.V1, ShadowPrecision.High, useGlobalOverrides )); // The enum value for the variant is in GPUShadowAlgorithm and is express like: PCF_tent_3x3 = ShadowAlgorithm.PCF << 3 | ShadowVariant.V2 //#define SHADOW_DISPATCH_USE_SEPARATE_CASCADE_ALGOS // enables separate cascade sampling variants for each cascade //#define SHADOW_DISPATCH_USE_SEPARATE_PUNC_ALGOS // enables separate resources and algorithms for spot and point lights // directional #define SHADOW_DISPATCH_DIR_TEX 0 #define SHADOW_DISPATCH_DIR_SMP 0 #define SHADOW_DISPATCH_DIR_ALG GPUSHADOWALGORITHM_PCF_TENT_5X5 // all cascades #define SHADOW_DISPATCH_DIR_ALG_0 GPUSHADOWALGORITHM_PCF_TENT_7X7 // 1st cascade #define SHADOW_DISPATCH_DIR_ALG_1 GPUSHADOWALGORITHM_PCF_TENT_5X5 // 2nd cascade #define SHADOW_DISPATCH_DIR_ALG_2 GPUSHADOWALGORITHM_PCF_TENT_3X3 // 3rd cascade #define SHADOW_DISPATCH_DIR_ALG_3 GPUSHADOWALGORITHM_PCF_1TAP // 4th cascade // point #define SHADOW_DISPATCH_POINT_TEX 0 #define SHADOW_DISPATCH_POINT_SMP 0 #define SHADOW_DISPATCH_POINT_ALG GPUSHADOWALGORITHM_PCF_TENT_3X3 // spot #define SHADOW_DISPATCH_SPOT_TEX 0 #define SHADOW_DISPATCH_SPOT_SMP 0 #define SHADOW_DISPATCH_SPOT_ALG GPUSHADOWALGORITHM_PCF_TENT_3X3 //punctual #define SHADOW_DISPATCH_PUNC_TEX 0 #define SHADOW_DISPATCH_PUNC_SMP 0 #define SHADOW_DISPATCH_PUNC_ALG GPUSHADOWALGORITHM_PCF_TENT_3X3 // example of overriding directional lights #ifdef SHADOW_DISPATCH_USE_CUSTOM_DIRECTIONAL float GetDirectionalShadowAttenuation( ShadowContext shadowContext, float3 positionWS, float3 normalWS, int shadowDataIndex, float3 L ) { Texture2DArray tex = shadowContext.tex2DArray[SHADOW_DISPATCH_DIR_TEX]; SamplerComparisonState compSamp = shadowContext.compSamplers[SHADOW_DISPATCH_DIR_SMP]; #ifdef SHADOW_DISPATCH_USE_SEPARATE_CASCADE_ALGOS uint algo[kMaxShadowCascades] = { SHADOW_DISPATCH_DIR_ALG_0, SHADOW_DISPATCH_DIR_ALG_1, SHADOW_DISPATCH_DIR_ALG_2, SHADOW_DISPATCH_DIR_ALG_3 }; #else uint algo = SHADOW_DISPATCH_DIR_ALG; #endif return EvalShadow_CascadedDepth_Blend( shadowContext, algo, tex, compSamp, positionWS, normalWS, shadowDataIndex, L ); } float GetDirectionalShadowAttenuation( ShadowContext shadowContext, float3 positionWS, float3 normalWS, int shadowDataIndex, float3 L, float2 positionSS ) { return GetDirectionalShadowAttenuation( shadowContext, positionWS, normalWS, shadowDataIndex, L ); } #endif // example of overriding punctual lights #ifdef SHADOW_DISPATCH_USE_CUSTOM_PUNCTUAL float GetPunctualShadowAttenuation( ShadowContext shadowContext, float3 positionWS, float3 normalWS, int shadowDataIndex, float3 L, float L_dist ) { #ifdef SHADOW_DISPATCH_USE_SEPARATE_PUNC_ALGOS // example for choosing different algos for point and spot lights ShadowData sd = shadowContext.shadowDatas[shadowDataIndex]; uint shadowType; UnpackShadowType( sd.shadowType, shadowType ); UNITY_BRANCH if( shadowType == GPUSHADOWTYPE_POINT ) { Texture2DArray tex = shadowContext.tex2DArray[SHADOW_DISPATCH_POINT_TEX]; SamplerComparisonState compSamp = shadowContext.compSamplers[SHADOW_DISPATCH_POINT_SMP]; uint algo = SHADOW_DISPATCH_POINT_ALG; return EvalShadow_PointDepth( shadowContext, algo, tex, compSamp, positionWS, normalWS, shadowDataIndex, L, L_dist ); } else { Texture2DArray tex = shadowContext.tex2DArray[SHADOW_DISPATCH_SPOT_TEX]; SamplerComparisonState compSamp = shadowContext.compSamplers[SHADOW_DISPATCH_SPOT_SMP]; uint algo = SHADOW_DISPATCH_SPOT_ALG; return EvalShadow_SpotDepth( shadowContext, algo, tex, compSamp, positionWS, normalWS, shadowDataIndex, L, L_dist ); } #else // example for choosing the same algo Texture2DArray tex = shadowContext.tex2DArray[SHADOW_DISPATCH_PUNC_TEX]; SamplerComparisonState compSamp = shadowContext.compSamplers[SHADOW_DISPATCH_PUNC_SMP]; uint algo = SHADOW_DISPATCH_PUNC_ALG; return EvalShadow_PunctualDepth( shadowContext, algo, tex, compSamp, positionWS, normalWS, shadowDataIndex, L, L_dist ); #endif } float GetPunctualShadowAttenuation( ShadowContext shadowContext, float3 positionWS, float3 normalWS, int shadowDataIndex, float3 L, float L_dist, float2 positionSS ) { return GetPunctualShadowAttenuation( shadowContext, positionWS, normalWS, shadowDataIndex, L, L_dist ); } #endif // cleanup the defines #undef SHADOW_DISPATCH_DIR_TEX #undef SHADOW_DISPATCH_DIR_SMP #undef SHADOW_DISPATCH_DIR_ALG #undef SHADOW_DISPATCH_DIR_ALG_0 #undef SHADOW_DISPATCH_DIR_ALG_1 #undef SHADOW_DISPATCH_DIR_ALG_2 #undef SHADOW_DISPATCH_DIR_ALG_3 #undef SHADOW_DISPATCH_POINT_TEX #undef SHADOW_DISPATCH_POINT_SMP #undef SHADOW_DISPATCH_POINT_ALG #undef SHADOW_DISPATCH_SPOT_TEX #undef SHADOW_DISPATCH_SPOT_SMP #undef SHADOW_DISPATCH_SPOT_ALG #undef SHADOW_DISPATCH_PUNC_TEX #undef SHADOW_DISPATCH_PUNC_SMP #undef SHADOW_DISPATCH_PUNC_ALG #ifdef SHADOW_DISPATCH_USE_SEPARATE_PUNC_ALGOS #undef SHADOW_DISPATCH_USE_SEPARATE_PUNC_ALGOS #endif #endif // LIGHTLOOP_SHADOW_HLSL