Rasagar/Library/PackageCache/com.unity.render-pipelines.universal/Runtime/VFXGraph/Shaders/VFXCommon.hlsl

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2024-08-26 13:07:20 -07:00
#include "Packages/com.unity.render-pipelines.core/ShaderLibrary/Common.hlsl"
#include "Packages/com.unity.render-pipelines.core/ShaderLibrary/CommonMaterial.hlsl"
#include "Packages/com.unity.render-pipelines.core/ShaderLibrary/Texture.hlsl"
#include "Packages/com.unity.render-pipelines.universal/ShaderLibrary/Core.hlsl"
#include "Packages/com.unity.render-pipelines.universal/ShaderLibrary/Shadows.hlsl"
#include "Packages/com.unity.render-pipelines.universal/ShaderLibrary/AmbientOcclusion.hlsl"
#include "Packages/com.unity.render-pipelines.universal/ShaderLibrary/DeclareDepthTexture.hlsl"
#include "Packages/com.unity.render-pipelines.universal/Editor/ShaderGraph/Includes/ShaderPass.hlsl"
float3 _LightDirection;
#ifdef VFX_VARYING_PS_INPUTS
void VFXTransformPSInputs(inout VFX_VARYING_PS_INPUTS input) {}
float4 VFXApplyPreExposure(float4 color, float exposureWeight)
{
return color;
}
float4 VFXApplyPreExposure(float4 color, VFX_VARYING_PS_INPUTS input)
{
return color;
}
#endif
float2 VFXGetNormalizedScreenSpaceUV(float4 clipPos)
{
return GetNormalizedScreenSpaceUV(clipPos);
}
void VFXEncodeMotionVector(float2 velocity, out float4 outBuffer)
{
outBuffer = float4(velocity.xy, 0, 0);
}
float4x4 VFXGetObjectToWorldMatrix()
{
// NOTE: If using the new generation path, explicitly call the object matrix (since the particle matrix is now baked into UNITY_MATRIX_M)
#if defined(HAVE_VFX_MODIFICATION) && !defined(SHADER_STAGE_COMPUTE)
return GetSGVFXUnityObjectToWorld();
#else
return GetObjectToWorldMatrix();
#endif
}
float4x4 VFXGetWorldToObjectMatrix()
{
// NOTE: If using the new generation path, explicitly call the object matrix (since the particle matrix is now baked into UNITY_MATRIX_I_M)
#if defined(HAVE_VFX_MODIFICATION) && !defined(SHADER_STAGE_COMPUTE)
return GetSGVFXUnityWorldToObject();
#else
return GetWorldToObjectMatrix();
#endif
}
float4 VFXTransformPositionWorldToClip(float3 posWS)
{
return TransformWorldToHClip(posWS);
}
float4 VFXTransformPositionWorldToNonJitteredClip(float3 posWS)
{
return mul(_NonJitteredViewProjMatrix, float4(posWS, 1.0f));
}
float4 VFXTransformPositionWorldToPreviousClip(float3 posWS)
{
return mul(_PrevViewProjMatrix, float4(posWS, 1.0f));
}
float4 VFXTransformPositionObjectToClip(float3 posOS)
{
float3 posWS = mul(VFXGetObjectToWorldMatrix(), float4(posOS,1)).xyz;
return VFXTransformPositionWorldToClip(posWS);
}
float4 VFXTransformPositionObjectToNonJitteredClip(float3 posOS)
{
float3 posWS = mul(VFXGetObjectToWorldMatrix(), float4(posOS,1)).xyz;
return VFXTransformPositionWorldToNonJitteredClip(posWS);
}
float3 VFXTransformPreviousObjectToWorld(float3 posOS)
{
return mul(GetPrevObjectToWorldMatrix(), float4(posOS, 1.0)).xyz;
}
float4 VFXTransformPositionObjectToPreviousClip(float3 posOS)
{
float3 posWS = VFXTransformPreviousObjectToWorld(posOS);
return VFXTransformPositionWorldToPreviousClip(posWS);
}
float3 VFXTransformPositionWorldToView(float3 posWS)
{
return TransformWorldToView(posWS);
}
float3 VFXTransformPositionWorldToCameraRelative(float3 posWS)
{
#if SHADEROPTIONS_CAMERA_RELATIVE_RENDERING
#error VFX Camera Relative rendering isn't supported in URP.
#endif
return posWS;
}
//Compatibility functions for the common ShaderGraph integration
float4x4 ApplyCameraTranslationToMatrix(float4x4 modelMatrix)
{
return modelMatrix;
}
float4x4 ApplyCameraTranslationToInverseMatrix(float4x4 inverseModelMatrix)
{
return inverseModelMatrix;
}
//End of compatibility functions
float3x3 VFXGetWorldToViewRotMatrix()
{
return (float3x3)GetWorldToViewMatrix();
}
float3 VFXGetViewWorldPosition()
{
return GetCurrentViewPosition();
}
float4x4 VFXGetViewToWorldMatrix()
{
return UNITY_MATRIX_I_V;
}
#ifdef USING_STEREO_MATRICES
float3 GetWorldStereoOffset()
{
return unity_StereoWorldSpaceCameraPos[0].xyz - unity_StereoWorldSpaceCameraPos[1].xyz;
}
float4x4 GetNonJitteredViewProjMatrix(int eye)
{
return _NonJitteredViewProjMatrixStereo[eye];
}
#endif
float VFXSampleDepth(float4 posSS)
{
float2 screenUV = GetNormalizedScreenSpaceUV(posSS.xy);
// In URP, the depth texture is optional and could be 4x4 white texture, Load isn't appropriate in that case.
//float depth = LoadSceneDepth(screenUV * _ScreenParams.xy);
float depth = SampleSceneDepth(screenUV);
return depth;
}
void VFXApplyShadowBias(inout float4 posCS, inout float3 posWS, float3 normalWS)
{
posWS = ApplyShadowBias(posWS, normalWS, _LightDirection);
posCS = VFXTransformPositionWorldToClip(posWS);
}
void VFXApplyShadowBias(inout float4 posCS, inout float3 posWS)
{
posWS = ApplyShadowBias(posWS, _LightDirection, _LightDirection);
posCS = VFXTransformPositionWorldToClip(posWS);
}
float4 VFXApplyAO(float4 color, float4 posCS)
{
#if defined(_SCREEN_SPACE_OCCLUSION) && !defined(_SURFACE_TYPE_TRANSPARENT)
float2 normalizedScreenSpaceUV = GetNormalizedScreenSpaceUV(posCS);
AmbientOcclusionFactor aoFactor = GetScreenSpaceAmbientOcclusion(normalizedScreenSpaceUV);
color.rgb *= aoFactor.directAmbientOcclusion;
#endif
return color;
}
float4 VFXTransformFinalColor(float4 color, float4 posCS)
{
if (IsOnlyAOLightingFeatureEnabled())
{
color.rgb = (float3)1.0f;
color = VFXApplyAO(color, posCS);
}
return color;
}
float4 VFXApplyFog(float4 color,float4 posCS,float3 posWS)
{
float4 fog = (float4)0;
fog.rgb = unity_FogColor.rgb;
float fogFactor = ComputeFogFactor(posCS.z * posCS.w);
fog.a = ComputeFogIntensity(fogFactor);
#if VFX_BLENDMODE_ALPHA || IS_OPAQUE_PARTICLE
color.rgb = lerp(fog.rgb, color.rgb, fog.a);
#elif VFX_BLENDMODE_ADD
color.rgb *= fog.a;
#elif VFX_BLENDMODE_PREMULTIPLY
color.rgb = lerp(fog.rgb * color.a, color.rgb, fog.a);
#endif
return color;
}
float3 VFXGetCameraWorldDirection()
{
return unity_CameraToWorld._m02_m12_m22;
}
#if defined(_GBUFFER_NORMALS_OCT)
#define VFXComputePixelOutputToNormalBuffer(i,normalWS,uvData,outNormalBuffer) \
{ \
float2 octNormalWS = PackNormalOctQuadEncode(normalWS); /*values between [-1, +1], must use fp32 on some platforms*/ \
float2 remappedOctNormalWS = saturate(octNormalWS * 0.5 + 0.5); /*values between [ 0, 1]*/ \
half3 packedNormalWS = PackFloat2To888(remappedOctNormalWS); /*values between [ 0, 1]*/ \
outNormalBuffer = float4(packedNormalWS, 0.0); \
}
#else
#define VFXComputePixelOutputToNormalBuffer(i,normalWS,uvData,outNormalBuffer) \
{ \
outNormalBuffer = float4(normalWS, 0.0); \
}
#endif