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#ifndef SHADOW_HLSL
#define SHADOW_HLSL
//
// Shadow master include header.
//
// There are four relevant files for shadows.
// First ShadowContext.hlsl provides a macro SHADOWCONTEXT_DECLARE that must be used in order to define the specific ShadowContext struct and accompanying loader.
// ShadowContext loading and resource setup from C# must be in sync.
//
/* Required defines: (define these to the desired numbers - must be in sync with loading and resource setup from C#)
#define SHADOWCONTEXT_MAX_TEX2DARRAY 0
#define SHADOWCONTEXT_MAX_TEXCUBEARRAY 0
#define SHADOWCONTEXT_MAX_SAMPLER 0
#define SHADOWCONTEXT_MAX_COMPSAMPLER 0
*/
/* Default values for optional defines:
#define SHADOW_SUPPORTS_DYNAMIC_INDEXING 0 // Dynamic indexing only works on >= sm 5.1
#define SHADOW_OPTIMIZE_REGISTER_USAGE 0 // Redefine this as 1 in your ShadowContext.hlsl to optimize for register usage over instruction count
#define SHADOW_USE_VIEW_BIAS_SCALING 0 // 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.
#define SHADOW_USE_ONLY_VIEW_BASED_BIASING 0 // Enable only light view vector based biasing. If undefined, biasing will be based on the normal and calling code must provide a valid normal.
#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
// #define SHADOW_DISPATCH_USE_CUSTOM_PUNCTUAL // Enable custom implementations of GetPunctualShadowAttenuation. If not defined, a default implementation will be used.
// #define SHADOW_DISPATCH_USE_CUSTOM_DIRECTIONAL // Enable custom implementations of GetDirectionalShadowAttenuation. If not defined, a default implementation will be used.
*/
#ifndef SHADOW_SUPPORTS_DYNAMIC_INDEXING
# define SHADOW_SUPPORTS_DYNAMIC_INDEXING 0
#endif
#ifndef SHADOW_OPTIMIZE_REGISTER_USAGE
# define SHADOW_OPTIMIZE_REGISTER_USAGE 0
#endif
#ifndef SHADOW_USE_VIEW_BIAS_SCALING
# define SHADOW_USE_VIEW_BIAS_SCALING 0
#endif
#ifndef SHADOW_USE_SAMPLE_BIAS
# define SHADOW_USE_SAMPLE_BIAS 0
#endif
#ifndef SHADOW_USE_SAMPLE_BIAS
# define SHADOW_USE_SAMPLE_BIAS 0
#endif
#ifndef SHADOW_USE_DEPTH_BIAS
# define SHADOW_USE_DEPTH_BIAS 0
#endif
#if SHADOW_USE_ONLY_VIEW_BASED_BIASING != 0
# if SHADOW_USE_SAMPLE_BIASING != 0
# pragma message "Shadows: SHADOW_USE_SAMPLE_BIASING was enabled together with SHADOW_USE_ONLY_VIEW_BASED_BIASING. Sample biasing requires the normal. Disabling SHADOW_USE_SAMPLE_BIASING again."
# undef SHADOW_USE_SAMPLE_BIASING
# define SHADOW_USE_SAMPLE_BIASING 0
# endif
#endif
#if SHADOW_OPTIMIZE_REGISTER_USAGE == 1
# pragma warning( disable : 3557 ) // loop only executes for 1 iteration(s)
#endif
#include "CoreRP/Shadow/ShadowBase.cs.hlsl" // ShadowData definition, auto generated (don't modify)
#include "ShadowTexFetch.hlsl" // Resource sampling definitions (don't modify)
struct ShadowContext
{
StructuredBuffer<ShadowData> shadowDatas;
StructuredBuffer<int4> payloads;
SHADOWCONTEXT_DECLARE_TEXTURES( SHADOWCONTEXT_MAX_TEX2DARRAY, SHADOWCONTEXT_MAX_TEXCUBEARRAY, SHADOWCONTEXT_MAX_COMPSAMPLER, SHADOWCONTEXT_MAX_SAMPLER )
float contactShadow;
};
SHADOW_DEFINE_SAMPLING_FUNCS( SHADOWCONTEXT_MAX_TEX2DARRAY, SHADOWCONTEXT_MAX_TEXCUBEARRAY, SHADOWCONTEXT_MAX_COMPSAMPLER, SHADOWCONTEXT_MAX_SAMPLER )
// helper function to extract shadowmap data from the ShadowData struct
void UnpackShadowmapId( uint shadowmapId, out uint texIdx, out uint sampIdx )
{
texIdx = (shadowmapId >> 24) & 0xff;
sampIdx = (shadowmapId >> 16) & 0xff;
}
void UnpackShadowType( uint packedShadowType, out uint shadowType, out uint shadowAlgorithm )
{
shadowType = packedShadowType >> 10;
shadowAlgorithm = packedShadowType & 0x1ff;
}
void UnpackShadowType( uint packedShadowType, out uint shadowType )
{
shadowType = packedShadowType >> 10;
}
// shadow sampling prototypes
real GetPunctualShadowAttenuation( ShadowContext shadowContext, real3 positionWS, real3 normalWS, int shadowDataIndex, real3 L, real L_dist );
real GetPunctualShadowAttenuation( ShadowContext shadowContext, real3 positionWS, real3 normalWS, int shadowDataIndex, real3 L, real L_dist, real2 positionSS );
// shadow sampling prototypes with screenspace info
real GetDirectionalShadowAttenuation( ShadowContext shadowContext, real3 positionWS, real3 normalWS, int shadowDataIndex, real3 L );
real GetDirectionalShadowAttenuation( ShadowContext shadowContext, real3 positionWS, real3 normalWS, int shadowDataIndex, real3 L, real2 positionSS );
#include "ShadowSampling.hlsl" // sampling patterns (don't modify)
#include "ShadowAlgorithms.hlsl" // engine default algorithms (don't modify)
#ifndef SHADOW_DISPATCH_USE_CUSTOM_PUNCTUAL
real GetPunctualShadowAttenuation( ShadowContext shadowContext, real3 positionWS, real3 normalWS, int shadowDataIndex, real3 L, real L_dist )
{
return EvalShadow_PunctualDepth( shadowContext, positionWS, normalWS, shadowDataIndex, L, L_dist );
}
real GetPunctualShadowAttenuation( ShadowContext shadowContext, real3 positionWS, real3 normalWS, int shadowDataIndex, real3 L, real L_dist, real2 positionSS )
{
return GetPunctualShadowAttenuation( shadowContext, positionWS, normalWS, shadowDataIndex, L, L_dist );
}
#endif
#ifndef SHADOW_DISPATCH_USE_CUSTOM_DIRECTIONAL
real GetDirectionalShadowAttenuation( ShadowContext shadowContext, real3 positionWS, real3 normalWS, int shadowDataIndex, real3 L )
{
return EvalShadow_CascadedDepth_Blend( shadowContext, positionWS, normalWS, shadowDataIndex, L );
}
real GetDirectionalShadowAttenuation( ShadowContext shadowContext, real3 positionWS, real3 normalWS, int shadowDataIndex, real3 L, real2 positionSS )
{
return GetDirectionalShadowAttenuation( shadowContext, positionWS, normalWS, shadowDataIndex, L );
}
#endif
#endif // SHADOW_HLSL