#ifndef LIGHTWEIGHT_SHADOWS_INCLUDED #define LIGHTWEIGHT_SHADOWS_INCLUDED #include "CoreRP/ShaderLibrary/Common.hlsl" #define MAX_SHADOW_CASCADES 4 /////////////////////////////////////////////////////////////////////////////// // Light Classification shadow defines // // // // In order to reduce shader variations main light keywords were combined // // here we define shadow keywords. // /////////////////////////////////////////////////////////////////////////////// #if defined(_MAIN_LIGHT_DIRECTIONAL_SHADOW) || defined(_MAIN_LIGHT_DIRECTIONAL_SHADOW_CASCADE) || defined(_MAIN_LIGHT_DIRECTIONAL_SHADOW_SOFT) || defined(_MAIN_LIGHT_DIRECTIONAL_SHADOW_CASCADE_SOFT) || defined(_MAIN_LIGHT_SPOT_SHADOW) || defined(_MAIN_LIGHT_SPOT_SHADOW_SOFT) #define _SHADOWS_ENABLED #endif #if defined(_MAIN_LIGHT_DIRECTIONAL_SHADOW_SOFT) || defined(_MAIN_LIGHT_DIRECTIONAL_SHADOW_CASCADE_SOFT) || defined(_MAIN_LIGHT_SPOT_SHADOW_SOFT) #define _SHADOWS_SOFT #endif #if defined(_MAIN_LIGHT_DIRECTIONAL_SHADOW_CASCADE) || defined(_MAIN_LIGHT_DIRECTIONAL_SHADOW_CASCADE_SOFT) #define _SHADOWS_CASCADE #endif #if defined(_MAIN_LIGHT_SPOT_SHADOW) || defined(_MAIN_LIGHT_SPOT_SHADOW_SOFT) #define _SHADOWS_PERSPECTIVE #endif TEXTURE2D_SHADOW(_ShadowMap); SAMPLER_CMP(sampler_ShadowMap); CBUFFER_START(_ShadowBuffer) // Last cascade is initialized with a no-op matrix. It always transforms // shadow coord to half(0, 0, NEAR_PLANE). We use this trick to avoid // branching since ComputeCascadeIndex can return cascade index = MAX_SHADOW_CASCADES float4x4 _WorldToShadow[MAX_SHADOW_CASCADES + 1]; float4 _DirShadowSplitSpheres[MAX_SHADOW_CASCADES]; float4 _DirShadowSplitSphereRadii; half4 _ShadowOffset0; half4 _ShadowOffset1; half4 _ShadowOffset2; half4 _ShadowOffset3; half4 _ShadowData; // (x: shadowStrength) CBUFFER_END inline half SampleShadowmap(float4 shadowCoord) { #if defined(_SHADOWS_PERSPECTIVE) shadowCoord.xyz = shadowCoord.xyz /= shadowCoord.w; #endif #ifdef _SHADOWS_SOFT // 4-tap hardware comparison half4 attenuation4; attenuation4.x = SAMPLE_TEXTURE2D_SHADOW(_ShadowMap, sampler_ShadowMap, shadowCoord.xyz + _ShadowOffset0.xyz); attenuation4.y = SAMPLE_TEXTURE2D_SHADOW(_ShadowMap, sampler_ShadowMap, shadowCoord.xyz + _ShadowOffset1.xyz); attenuation4.z = SAMPLE_TEXTURE2D_SHADOW(_ShadowMap, sampler_ShadowMap, shadowCoord.xyz + _ShadowOffset2.xyz); attenuation4.w = SAMPLE_TEXTURE2D_SHADOW(_ShadowMap, sampler_ShadowMap, shadowCoord.xyz + _ShadowOffset3.xyz); half attenuation = dot(attenuation4, 0.25); #else // 1-tap hardware comparison half attenuation = SAMPLE_TEXTURE2D_SHADOW(_ShadowMap, sampler_ShadowMap, shadowCoord.xyz); #endif // Apply shadow strength attenuation = LerpWhiteTo(attenuation, _ShadowData.x); // Shadow coords that fall out of the light frustum volume must always return attenuation 1.0 // TODO: We can set shadowmap sampler to clamptoborder when we don't have a shadow atlas and avoid xy coord bounds check return (shadowCoord.x <= 0 || shadowCoord.x >= 1 || shadowCoord.y <= 0 || shadowCoord.y >= 1 || shadowCoord.z >= 1) ? 1.0 : attenuation; } inline half ComputeCascadeIndex(float3 wpos) { // TODO: profile if there's a performance improvement if we avoid indexing here float3 fromCenter0 = wpos.xyz - _DirShadowSplitSpheres[0].xyz; float3 fromCenter1 = wpos.xyz - _DirShadowSplitSpheres[1].xyz; float3 fromCenter2 = wpos.xyz - _DirShadowSplitSpheres[2].xyz; float3 fromCenter3 = wpos.xyz - _DirShadowSplitSpheres[3].xyz; float4 distances2 = float4(dot(fromCenter0, fromCenter0), dot(fromCenter1, fromCenter1), dot(fromCenter2, fromCenter2), dot(fromCenter3, fromCenter3)); half4 weights = half4(distances2 < _DirShadowSplitSphereRadii); weights.yzw = saturate(weights.yzw - weights.xyz); return 4 - dot(weights, half4(4, 3, 2, 1)); } inline float4 ComputeShadowCoord(float3 positionWS, half cascadeIndex = 0) { #ifdef _SHADOWS_CASCADE return mul(_WorldToShadow[cascadeIndex], float4(positionWS, 1.0)); #endif return mul(_WorldToShadow[0], float4(positionWS, 1.0)); } inline half RealtimeShadowAttenuation(float3 positionWS) { #if !defined(_SHADOWS_ENABLED) return 1.0; #endif half cascadeIndex = ComputeCascadeIndex(positionWS); float4 shadowCoord = ComputeShadowCoord(positionWS, cascadeIndex); return SampleShadowmap(shadowCoord); } half MixRealtimeAndBakedOcclusion(half realtimeAttenuation, half4 bakedOcclusion, half4 distanceAttenuation) { #if defined(LIGHTMAP_ON) #if defined(_MIXED_LIGHTING_SHADOWMASK) // TODO: #elif defined(_MIXED_LIGHTING_SUBTRACTIVE) // Subtractive Light mode has direct light contribution baked into lightmap for mixed lights. // We need to remove direct realtime contribution from mixed lights // distanceAttenuation.w is set 0.0 if this light is mixed, 1.0 otherwise. return realtimeAttenuation * distanceAttenuation.w; #endif #endif return realtimeAttenuation; } inline half3 SubtractDirectMainLightFromLightmap(half3 lightmap, half attenuation, half3 lambert) { // Let's try to make realtime shadows work on a surface, which already contains // baked lighting and shadowing from the main sun light. // Summary: // 1) Calculate possible value in the shadow by subtracting estimated light contribution from the places occluded by realtime shadow: // a) preserves other baked lights and light bounces // b) eliminates shadows on the geometry facing away from the light // 2) Clamp against user defined ShadowColor. // 3) Pick original lightmap value, if it is the darkest one. // 1) Gives good estimate of illumination as if light would've been shadowed during the bake. // Preserves bounce and other baked lights // No shadows on the geometry facing away from the light half shadowStrength = _ShadowData.x; half3 estimatedLightContributionMaskedByInverseOfShadow = lambert * (1.0 - attenuation); half3 subtractedLightmap = lightmap - estimatedLightContributionMaskedByInverseOfShadow; // 2) Allows user to define overall ambient of the scene and control situation when realtime shadow becomes too dark. half3 realtimeShadow = max(subtractedLightmap, _SubtractiveShadowColor.xyz); realtimeShadow = lerp(lightmap, realtimeShadow, shadowStrength); // 3) Pick darkest color return min(lightmap, realtimeShadow); } #endif