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hh `H `\ @@PP!@@%4& 'j-1X1/7P0 Ex(F I!Data/Shaders/S_Mesh_vs__Mesh_fs__37202.cgfx#221B7DB28A8A97BC3471128E8C54CF69#materialData/Shaders/S_Mesh_vs__Mesh_fs__37202.fx#221B7DB28A8A97BC3471128E8C54CF69 #line 1 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" #define D_PLATFORM_D3D11x64 #define EDGE_DETAIL #define CHAMELEON #define CHAM_NORM #define UV_CHAM #define UV_OFFSET #define ALPHATESTENABLE // Automatically generated. Do not edit. // =======================================================================================================================[COMMON DEFINES]=== #define PHYRE3X_ENABLED #if !defined(D_PLATFORM_GXM) #define h2tex3D tex3D #define h4tex2D tex2D #define h3tex2D tex2D #define h2tex2D tex2D #define h1tex2D tex2D #define h4texCUBE texCUBE #define h3texCUBE texCUBE #endif // ========================================================================================================================[COMMON STATES]=== #if !defined(D_PLATFORM_GXM) BlendState ourBlendState { BlendEnable[0] = FALSE; BlendEnable[1] = FALSE; SrcBlend[0] = Src_Alpha; DestBlend[0] = Inv_Src_Alpha; BlendOp[0] = ADD; SrcBlendAlpha[0] = ONE; DestBlendAlpha[0] = ONE; BlendOpAlpha[0] = ADD; RenderTargetWriteMask[0] = 15; AlphaToCoverageEnable = false; }; DepthStencilState ourDepthStencilState { DepthEnable=true; DepthFunc=less; StencilEnable=false; }; RasterizerState ourRasterState { CullMode=None; DepthBias=0.0f; ScissorEnable=false; MultiSampleEnable=false; DepthClipEnable=false; AntialiasedLineEnable=false; }; #endif // ==================================================================================================================[VERTEX SHADER BEGIN]=== #define main Opaque_vs_main #define IN Opaque_vs_IN #define OUT Opaque_vs_OUT #define v2f Opaque_vs_v2f #define a2v Opaque_vs_a2v // ------------------------------------------------------------------------------------------------------------------------------------------ #define GLOBAL_LEAN_AND_MEAN #line 1 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #ifndef MIGRATORY_SH #define MIGRATORY_SH //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// #ifdef D_PLATFORM_D3D11x64 #define D_PLATFORM_D3D11 #endif #ifdef D_PLATFORM_D3D11 //#pragma pack_matrix(column_major) #define D_D3D11_OTHER(x,y) x #define D_D3D11_ONLY(x) x #define POSITION_OUT SV_POSITION #define FINAL_COLOR D_D3D11_OTHER(SV_TARGET0,COLOR) #elif defined(D_PLATFORM_GNM) #ifdef __ORBIS__ #pragma warning (disable:5203) // parameter unreferenced #pragma warning (disable:5206) // local variable unreferenced #pragma warning (disable:6204) // does not support uniform default values #pragma warning (disable:6459) // __user_defined__ is not a valid semantic for uniform #pragma warning (disable:5581) // PSSL treats 'half' type as 'float' #pragma warning (disable:5609) // PSSL treats 'half' type as 'float' #pragma warning (disable:5583) // PSSL treats 'half' literals as 'float' #pragma warning (disable:5524) // unsupported compiler hint //! Some evil #defines to sort out matrix multiplies. #define float4x4 row_major float4x4 #define float3x4 row_major float3x4 #define float4x3 row_major float4x3 //! Semantics for VS/PS inputs and outputs. #define POSITION S_POSITION #define SV_POSITION S_POSITION #define SV_GroupID S_GROUP_ID #define SV_VertexID S_VERTEX_ID #define SV_DispatchThreadID S_DISPATCH_THREAD_ID #define SV_GroupThreadID S_GROUP_THREAD_ID #define SV_GroupIndex S_GROUP_INDEX #define SV_PRIMITIVEID S_PRIMITIVE_ID #define SV_IsFrontFace S_FRONT_FACE #define SV_Depth FRAG_OUTPUT_DEPTH #define FRAG_OUTPUT_COLOR S_TARGET_OUTPUT0 #define FRAG_OUTPUT_COLOR0 S_TARGET_OUTPUT0 #define FRAG_OUTPUT_COLOR1 S_TARGET_OUTPUT1 #define FRAG_OUTPUT_COLOR2 S_TARGET_OUTPUT2 #define FRAG_OUTPUT_COLOR3 S_TARGET_OUTPUT3 #define FRAG_OUTPUT_DEPTH S_DEPTH_OUTPUT //! Some defines to make textures compile with PSSL for now (sort out later) SamplerState globalSamplerState; SamplerComparisonState globalSamplerComparisonState { // Sampler state Filter = MIN_MAG_LINEAR_MIP_POINT; AddressU = CLAMP; AddressV = CLAMP; // Sampler comparison state ComparisonFunc = LESS; ComparisonFilter = COMPARISON_MIN_MAG_LINEAR_MIP_POINT; }; #define cbuffer ConstantBuffer #define sampler SamplerState #define sampler2D Texture2D #define sampler3D Texture3D #define samplerCUBE TextureCube #define tex2Dproj(a,b) a.Sample(globalSamplerState, (b).xy / (b).w) #define h1tex2Dproj(a,b) ((half)(a.Sample(globalSamplerState, (b).xy / (b).w).x)) #define h4tex2D(a,b) ((half4)a.Sample(globalSamplerState, (b).xy)) #define h4tex2Dlod(a,b) ((half4)a.SampleLOD(globalSamplerState, (b).xy, (b).w)) #define tex2D(a,b) a.Sample(globalSamplerState, (b).xy) #define SampleLevel SampleLOD #define SampleCmpLevelZero SampleCmpLOD0 #define StructuredBuffer RegularBuffer #define RWStructuredBuffer RW_RegularBuffer #define numthreads NUM_THREADS #define maxvertexcount MAX_VERTEX_COUNT #define groupshared thread_group_memory #define TriangleStream TriangleBuffer #define PointStream PointBuffer #define triangle Triangle #define IncrementCounter IncrementCount #define DecrementCounter DecrementCount #define GroupMemoryBarrierWithGroupSync ThreadGroupMemoryBarrierSync #define InterlockedMin AtomicMin #define InterlockedMax AtomicMax #define InterlockedAdd AtomicAdd #endif //! __ORBIS__ #if defined(PHYRE_D3DFX) && !defined(__ORBIS__) #define FRAG_OUTPUT_COLOR SV_TARGET #define FRAG_OUTPUT_COLOR0 SV_TARGET0 #define FRAG_OUTPUT_COLOR1 SV_TARGET1 #define FRAG_OUTPUT_COLOR2 SV_TARGET2 #define FRAG_OUTPUT_COLOR3 SV_TARGET3 #define FRAG_OUTPUT_DEPTH SV_DEPTH #define SYSTEM_PRIMITIVE_INDEX SV_PRIMITIVEID #endif //! defined(PHYRE_D3DFX) && !defined(__ORBIS__) #define D_D3D11_OTHER(x,y) x #define D_D3D11_ONLY(x) x #define POSITION_OUT POSITION #define FINAL_COLOR FRAG_OUTPUT_COLOR #else #define D_D3D11_OTHER(x,y) y #define D_D3D11_ONLY(x) #define HALF half #define HALF2 half2 #define HALF3 half3 #define HALF4 half4 #define HALF3x3 float3x3 #define HALF3x4 float3x4 #define HALF4x4 float4x4 #define POSITION_OUT POSITION #define FINAL_COLOR D_D3D11_OTHER(SV_TARGET0,COLOR) #endif #if defined(__psp2__) #define NATIVECOLOR __nativecolor #define REGFORMAT __regformat #else #define NATIVECOLOR #define REGFORMAT #endif #if !defined(__ORBIS__) && !defined(D_PLATFORM_GXM) BlendState NoBlend_BlendState { BlendEnable[0] = FALSE; }; BlendState Alpha_BlendState { BlendEnable[0] = TRUE; SrcBlend[0] = Src_Alpha; DestBlend[0] = Inv_Src_Alpha; BlendOp[0] = ADD; SrcBlendAlpha[0] = Src_Alpha; DestBlendAlpha[0] = Inv_Src_Alpha; BlendOpAlpha[0] = ADD; BlendEnable[1] = FALSE; }; BlendState Additive_BlendState { BlendEnable[0] = TRUE; SrcBlend[0] = Src_Alpha; DestBlend[0] = ONE; BlendOp[0] = ADD; SrcBlendAlpha[0] = Src_Alpha; DestBlendAlpha[0] = ONE; BlendOpAlpha[0] = ADD; BlendEnable[1] = FALSE; }; BlendState ParticleBlended_BlendState { BlendEnable[0] = TRUE; SrcBlend[0] = ONE; DestBlend[0] = Inv_Src_Alpha; BlendOp[0] = ADD; SrcBlendAlpha[0] = ONE; DestBlendAlpha[0] = Inv_Src_Alpha; BlendOpAlpha[0] = ADD; BlendEnable[1] = FALSE; }; DepthStencilState NoDepthTest_NoDepthWrite_DepthState { DepthEnable = FALSE; DepthWriteMask = Zero; DepthFunc = Less; StencilEnable = FALSE; }; DepthStencilState NoDepthTest_DepthWrite_DepthState { DepthEnable = FALSE; DepthWriteMask = All; DepthFunc = Less; StencilEnable = FALSE; }; DepthStencilState DepthTest_NoDepthWrite_DepthState { DepthEnable = TRUE; DepthWriteMask = Zero; DepthFunc = Less; StencilEnable = FALSE; }; DepthStencilState DepthTest_DepthWrite_DepthState { DepthEnable = TRUE; DepthWriteMask = All; DepthFunc = Less; StencilEnable = FALSE; }; RasterizerState NoCull_RasterizerState { CullMode=None; }; RasterizerState BackFaceCull_RasterizerState { CullMode=Back; FrontCounterClockwise = TRUE; }; RasterizerState FrontFaceCull_RasterizerState { CullMode=Front; FrontCounterClockwise = TRUE; }; #endif #if defined(D_PLATFORM_D3D11) || defined(D_PLATFORM_GNM) #define MatrixMul(a,b) mul(b,a) #define HALF float #define HALF2 float2 #define HALF3 float3 #define HALF4 float4 #define HALF3x3 float3x3 #define HALF3x4 float3x4 #define HALF4x4 float4x4 #define half float #define half2 float2 #define half3 float3 #define half4 float4 #else #define MatrixMul(a,b) mul(a,b) #endif // samplers #if defined(D_PLATFORM_D3D11) || defined(D_PLATFORM_GNM) sampler PointClampSampler : register(s8) { Filter = Min_Mag_Mip_Point; AddressU = Clamp; AddressV = Clamp; AddressW = Clamp; }; sampler LinearClampSampler : register(s9) { Filter = Min_Mag_Mip_Linear; AddressU = Clamp; AddressV = Clamp; AddressW = Clamp; }; sampler LinearWrapTSampler : register(s10) { Filter = Min_Mag_Mip_Linear; AddressU = Clamp; AddressV = Wrap; AddressW = Clamp; }; sampler LinearWrapSampler : register(s11) { Filter = Min_Mag_Mip_Linear; AddressU = Wrap; AddressV = Wrap; AddressW = Wrap; }; sampler PointWrapSampler : register(s12) { Filter = Min_Mag_Mip_Point; AddressU = Wrap; AddressV = Wrap; AddressW = Wrap; }; sampler AnisoClampSampler : register(s13) { Filter = ANISOTROPIC; AddressU = Clamp; AddressV = Clamp; AddressW = Clamp; MaxAnisotropy = 16; }; sampler LinearWrapAnisoSampler : register(s14) { Filter = ANISOTROPIC; AddressU = Wrap; AddressV = Wrap; AddressW = Wrap; MaxAnisotropy = 16; }; sampler PointWrapAnisoSampler : register(s15) { Filter = Min_Mag_Point_Mip_Linear; AddressU = Wrap; AddressV = Wrap; AddressW = Wrap; MaxAnisotropy = 16; }; #define SAMPLER_WRAP_ANISO LinearWrapAnisoSampler #define SAMPLER_WRAP_LINEAR LinearWrapSampler #define SAMPLER_WRAP_POINT PointWrapSampler #define SAMPLER_CLAMP_ANISO AnisoClampSampler #define SAMPLER_CLAMP_LINEAR LinearClampSampler #define SAMPLER_CLAMP_POINT PointClampSampler static const float kSRGB = 2.2f; #define SRGB_ON(x) pow(x,kSRGB) #define SRGB_OFF(x) x #define SAMPLETEX(tex,uv,filter,wrap,srgb) SRGB_##srgb(tex.Sample(SAMPLER_##wrap##_##filter, uv)) #ifdef __ORBIS__ #define D_DECLARE_TEXTURE2DMS_4(x) MS_Texture2D x #else #define D_DECLARE_TEXTURE2DMS_4(x) Texture2DMS x #endif #define D_DECLARE_TEXTURE2D_4(x) Texture2D x #define D_DECLARE_TEXTURE3D_4(x) Texture3D x #define D_DECLARE_TEXTURE_CUBE_4(x) TextureCube x #define D_SAMPLE_TEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv) #define D_POINT_SAMPLE_TEXTURE(tex,uv) tex.Sample(PointClampSampler,uv) #define D_SAMPLE_TEXTURE_PROJ(tex,uv) tex.Sample(LinearClampSampler,(float2) (uv.xy / uv.w) ) #define D_POINT_SAMPLE_TEXTURE_PROJ(tex,uv) tex.Sample(PointClampSampler,(float2) (uv.xy / uv.w) ) #define D_SAMPLE_TEXTURE_3D(tex,uv) tex.Sample(LinearClampSampler,uv) #define D_SAMPLE_TEXTURE_WRAP_3D(tex,uv) tex.Sample(LinearWrapSampler,uv) #define D_H1_SAMPLE_TEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).x #define D_H2_SAMPLE_TEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).xy #define D_H3_SAMPLE_TEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).xyz #define D_H4_SAMPLE_TEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv) #define D_H1_POINTSAMPLELEVEL_TEXTURE(tex,uv,lod) tex.SampleLevel(PointClampSampler,uv,lod).x #define D_H1_SAMPLELEVEL_TEXTURE(tex,uv,lod) tex.SampleLevel(LinearClampSampler,uv,lod).x #define D_H4_SAMPLELEVEL_TEXTURE(tex,uv,lod) tex.SampleLevel(LinearClampSampler,uv,lod) #if defined(D_PLATFORM_D3D11) #define D_H1_SAMPLE_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearClampSampler,uv).x,2.2f) #define D_H2_SAMPLE_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearClampSampler,uv).xy,2.2f) #define D_H3_SAMPLE_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearClampSampler,uv).xyz,2.2f) #define D_H4_SAMPLE_SRGBTEXTURE(tex,uv) float4( pow(tex.Sample(LinearClampSampler,uv).xyz,2.2f), tex.Sample(LinearClampSampler,uv).a ) #define D_H1_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearWrapSampler,uv).x,2.2f) #define D_H2_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearWrapSampler,uv).xy,2.2f) #define D_H3_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearWrapSampler,uv).xyz,2.2f) #define D_H4_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) float4( pow(tex.Sample(LinearWrapSampler,uv).xyz,2.2f), tex.Sample(LinearWrapSampler,uv).a ) #define D_H4_SAMPLE_WRAPT_SRGBTEXTURE(tex,uv) float4( pow(tex.Sample(LinearWrapTSampler,uv).xyz,2.2f), tex.Sample(LinearWrapTSampler,uv).a) #define D_H3_SAMPLE_WRAP_ANISO_SRGBTEXTURE(tex,uv) pow( tex.Sample(LinearWrapAnisoSampler,uv).xyz, 2.2f) #else #define D_H1_SAMPLE_SRGBTEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).x #define D_H2_SAMPLE_SRGBTEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).xy #define D_H3_SAMPLE_SRGBTEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).xyz #define D_H4_SAMPLE_SRGBTEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv) #define D_H1_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).x #define D_H2_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).xy #define D_H3_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).xyz #define D_H4_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv) #define D_H4_SAMPLE_WRAPT_SRGBTEXTURE(tex,uv) tex.Sample(LinearWrapTSampler,uv) #endif #define D_H1_SAMPLE_WRAP_TEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).x #define D_H2_SAMPLE_WRAP_TEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).xy #define D_H3_SAMPLE_WRAP_TEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).xyz #define D_H4_SAMPLE_WRAP_TEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv) #define D_H1_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(LinearWrapAnisoSampler,uv).x #define D_H2_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(LinearWrapAnisoSampler,uv).xy #define D_H3_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(LinearWrapAnisoSampler,uv).xyz #define D_H4_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(LinearWrapAnisoSampler,uv) #define D_H1_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(PointWrapAnisoSampler,uv).x #define D_H2_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(PointWrapAnisoSampler,uv).xy #define D_H3_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(PointWrapAnisoSampler,uv).xyz #define D_H4_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(PointWrapAnisoSampler,uv) #define D_H2_SAMPLE_TEXTURE_3D(tex,uv) tex.Sample(LinearClampSampler,uv).xy #define D_H2_SAMPLE_WRAP_TEXTURE_3D(tex,uv) tex.Sample(LinearWrapSampler,uv).xy #if defined(D_PLATFORM_D3D11) #define D_H3_SAMPLE_TEXTURE_CUBE(tex,uv) pow(tex.Sample(LinearClampSampler,uv).xyz,2.2f) #define D_H4_SAMPLE_TEXTURE_CUBE(tex,uv) float4( pow(tex.Sample(LinearClampSampler,uv).xyz,2.2f), tex.Sample(LinearClampSampler,uv).a ) #define D_SAMPLE_TEXTURE_CUBE(tex,uv) float4( pow(tex.Sample(LinearClampSampler,uv).xyz,2.2f), tex.Sample(LinearClampSampler,uv).a ) #else #define D_H3_SAMPLE_TEXTURE_CUBE(tex,uv) tex.Sample(LinearClampSampler,uv).xyz #define D_H4_SAMPLE_TEXTURE_CUBE(tex,uv) tex.Sample(LinearClampSampler,uv) #define D_SAMPLE_TEXTURE_CUBE(tex,uv) tex.Sample(LinearClampSampler,uv) #endif #else #define D_DECLARE_TEXTURE2D_4(x) sampler2D x #define D_DECLARE_TEXTURE3D_4(x) sampler3D x #define D_DECLARE_TEXTURE_CUBE_4(x) samplerCUBE x #define D_SAMPLE_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_POINT_SAMPLE_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_SAMPLE_TEXTURE_PROJ(tex,uv) h4tex2Dproj(tex,uv.xyw) #define D_POINT_SAMPLE_TEXTURE_PROJ(tex,uv) h4tex2Dproj(tex,uv.xyw) #define D_SAMPLE_TEXTURE_CUBE(tex,uv) h4texCUBE(tex,uv) #define D_SAMPLE_TEXTURE_3D(tex,uv) h4tex3D(tex,uv) #define D_SAMPLE_TEXTURE_WRAP_3D(tex,uv) h4tex3D(tex,uv) #define D_H1_SAMPLE_TEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_TEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_TEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_POINTSAMPLELEVEL_TEXTURE(tex,uv,lod) h1tex2D(tex,uv).x #define D_H1_SAMPLELEVEL_TEXTURE(tex,uv,lod) h1tex2D(tex,uv).x #define D_H4_SAMPLELEVEL_TEXTURE(tex,uv,lod) h4tex2D(tex,uv) #define D_H1_SAMPLE_SRGBTEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_SRGBTEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_SRGBTEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_SRGBTEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_SAMPLE_WRAP_TEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_WRAP_TEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_WRAP_TEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_WRAP_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_SAMPLE_ANISO_TEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_ANISO_TEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_ANISO_TEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_ANISO_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H4_SAMPLE_WRAPT_SRGBTEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H2_SAMPLE_TEXTURE_3D(tex,uv) h2tex3D(tex,uv).xy #define D_H2_SAMPLE_WRAP_TEXTURE_3D(tex,uv) h2tex3D(tex,uv).xy #define D_H3_SAMPLE_TEXTURE_CUBE(tex,uv) h3texCUBE(tex,uv).xyz #define D_H4_SAMPLE_TEXTURE_CUBE(tex,uv) h4texCUBE(tex,uv) #endif #if !defined(GLOBAL_LEAN_AND_MEAN) //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // these constants are system constants; uploaded by Phyre itself. // we can't do this, but we don't want to upload them all the time, either. consequently, we make these global // i guess we can eventually stuff these into a separate uniform buffer //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// float4x4 view : view ; // uploaded once per camera float4x4 projection : projection ; // view inverse float4x4 viewprojection : viewprojection ; float4 eyeDirectionWS : eyeDirectionWS ; float4 eyePositionWS : eyePositionWS ; float4 eyePositionOS : eyePositionOS ; float4 cameraNear : cameraNearFar ; float4x4 modelIT : modelit ; // uploaded per primitive // model inverse transpose float4x4 model : model ; float4x4 modelViewProj : modelviewproj ; #endif //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // depth conversion code, stolen from the sample code //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// float cameraNearTimesFar; float cameraFarMinusNear; float4 cameraNearFar; // Convert a depth value from post projection space to view space. float ConvertDepth(float depth) { // float viewSpaceZ = -(scene.cameraNearTimesFar / (depth * scene.cameraFarMinusNear - scene.cameraNearFar.y)); #if defined(D_PLATFORM_GXM) float viewSpaceZ = -(cameraNearTimesFar / (depth * cameraFarMinusNear - cameraNearFar.y)); #else float viewSpaceZ = -(cameraNearTimesFar / (depth * cameraFarMinusNear - cameraNearFar.y)); #endif return viewSpaceZ; } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // skinning //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// #ifdef SKINNING_ENABLED // grabbed off [PhyreCoreShaderShared.h] // Description: // Encapsulates the skinning transformation matrices. #if defined(D_PLATFORM_GXM) #define PE_MAX_SKIN_CB_TRANSFORMS 32 float4x4 boneTransforms[PE_MAX_SKIN_CB_TRANSFORMS]; float4x4 GenerateBoneMatrix(int4 SkinIndices,float4 SkinWeights) { return boneTransforms[SkinIndices[0]]*SkinWeights[0] + boneTransforms[SkinIndices[1]]*SkinWeights[1] + boneTransforms[SkinIndices[2]]*SkinWeights[2] + boneTransforms[SkinIndices[3]]*SkinWeights[3]; } #else #define PE_MAX_SKIN_CB_TRANSFORMS 32 struct PSkinTransforms { float4x4 Mtxs[PE_MAX_SKIN_CB_TRANSFORMS]; // The skinning transformation matrices. }; cbuffer BoneTransformConstantBuffer { PSkinTransforms SkinTransforms; } float4x4 GenerateBoneMatrix(uint4 SkinIndices,float4 SkinWeights) { return SkinTransforms.Mtxs[SkinIndices[0]]*SkinWeights[0] + SkinTransforms.Mtxs[SkinIndices[1]]*SkinWeights[1] + SkinTransforms.Mtxs[SkinIndices[2]]*SkinWeights[2] + SkinTransforms.Mtxs[SkinIndices[3]]*SkinWeights[3]; } #endif #endif //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// static const float4x4 SCALE_BIAS = float4x4( float4( 0.5, 0.0, 0.0, 0.5 ), #if defined(D_PLATFORM_D3D11) float4( 0.0, -0.5, 0.0, 0.5 ), #else float4( 0.0, 0.5, 0.0, 0.5 ), #endif float4( 0.0, 0.0, 0.5, 0.5 ), float4( 0.0, 0.0, 0.0, 1.0 ) ); //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// #ifdef D_PLATFORM_GXM #define D_INT_MOD(val,mod) (frac((floor((float)val)/mod))*mod) #define D_UINT_MOD(val,mod) (frac((floor((float)val)/mod))*mod) #elif defined(D_PLATFORM_GNM) #define D_INT_MOD(val,mod) ((int)floor(val) % mod) #define D_UINT_MOD(val,mod) ((uint)floor(val) % mod) #else #define D_INT_MOD(val,mod) ((int)floor(val) % mod) #define D_UINT_MOD(val,mod) ((int)floor(val) % mod) #endif //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// #ifdef D_ENABLE_DEBUG_PARAMS float4 debugVars0; float4 debugVars1; float4 debugVars2; float4 debugVars3; float4 debugVars4; float4 debugVars5; float4 debugVars6; float4 debugVars7; #define GETDEBUGVAR(dv) (debugVars##dv!=0) ? (debugVars##dv) : #define GETDEBUGVAR2(dv,scl) (debugVars##dv!=0) ? (scl*debugVars##dv) : #endif #define powsafe(_x,_y) pow(max(_x,0.00000000000001),_y) //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// #endif//MIGRATORY_SH #line 60 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" float4 eyePositionWS : eyePositionWS ; #ifdef SKINNING_ENABLED float4x4 viewprojection : viewprojection ; #else float4x4 model : model ; float4x4 modelIT : modelit ; #endif float4x4 modelViewProj : modelviewproj ; float4x4 modelI : modeli ; #ifndef D_PREPASS_ENABLED // Notes: Base shader for decoration meshes. // // Author: John Edwards // Date C: 4-23-2010 // From Phyre: // Env params: HALF4 l_d; #if defined( SNOW_TOP ) || defined( SAND_TOP ) || defined( SAND_SIDE ) || defined( SNOW_FULL ) || defined( SAND_FULL ) HALF4 wind; #endif // Snow params #ifdef SNOW_TOP HALF snowBias; #endif #ifdef FOG HALF4 f_se; HALF4 f_cc, f_fc; #endif #ifdef UV_OFFSET float4 uvOffset; #endif #ifdef CHAMELEON #ifndef CHAM_NORM float4 chamDir; #endif #endif #endif//D_PREPASS_ENABLED #ifdef SKINNING_ENABLED struct a2v { #ifdef __ORBIS__ float4 SkinnableVertex : POSITION; #else float3 SkinnableVertex : POSITION; #endif float3 SkinnableNormal : NORMAL; float4 uv0 : TEXCOORD0; float4 uv1 : TEXCOORD1; float4 Color : COLOR; #if defined(D_PLATFORM_GXM) int4 SkinIndices : BLENDINDICES; #else uint4 SkinIndices : BLENDINDICES; #endif float4 SkinWeights : BLENDWEIGHTS; }; struct a2v_noSkin #else struct a2v #endif { #ifdef __ORBIS__ float4 Position : POSITION; #else float3 Position : POSITION; #endif HALF3 normal : NORMAL; HALF4 color : COLOR0; float4 uv0 : TEXCOORD0; float4 uv1 : TEXCOORD1; }; #ifdef SKINNING_ENABLED a2v_noSkin ProcessSkInput(a2v skIn) { float4x4 transformMatrix = GenerateBoneMatrix(skIn.SkinIndices,skIn.SkinWeights); a2v_noSkin ret; ret.Position.xyz = MatrixMul(transformMatrix,float4(skIn.SkinnableVertex.xyz,1)).xyz; #ifdef __ORBIS__ ret.Position.w = 1; #endif ret.normal = MatrixMul((float3x3)transformMatrix,skIn.SkinnableNormal); ret.color = skIn.Color; ret.uv0 = skIn.uv0; ret.uv1 = skIn.uv1; return ret; } #endif//SKINNING_ENABLED struct v2f { float4 position : POSITION_OUT; HALF4 color : COLOR0; HALF4 uv0 : TEXCOORD0; HALF4 uv1 : TEXCOORD1; float4 locCham : TEXCOORD2; // xyz == loc, w == chamBase HALF4 normalFr : TEXCOORD3; // xyz == normal, w == sand fresnel #if defined( SNOW_TOP ) || defined( SAND_TOP ) || defined( SAND_SIDE ) || defined( SNOW_FULL ) || defined( SAND_FULL ) HALF3 sandVars : TEXCOORD4; // x == windRatio, y == bleed, z == noiseFade #endif #ifdef FOG HALF4 fog : TEXCOORD5; // rgb == color, a == intensity #endif }; //-------------------------------------------- // Program entry //-------------------------------------------- void main( #ifdef SKINNING_ENABLED in a2v IN_VAL, #else in a2v IN, #endif out v2f OUT) { #ifdef SKINNING_ENABLED a2v_noSkin IN = ProcessSkInput(IN_VAL); float3 worldPos = IN.Position.xyz; OUT.position = MatrixMul( viewprojection, float4(IN.Position.xyz,1.0f) ); half3 worldNorm = normalize( IN.normal ); #else float3 worldPos = MatrixMul( model, float4(IN.Position.xyz,1.0f) ).xyz; OUT.position = MatrixMul( modelViewProj, float4(IN.Position.xyz,1.0f) ); half3 worldNorm = normalize( MatrixMul( (float3x3)modelIT, IN.normal ) ); #endif OUT.color.rgb = IN.color.rgb; OUT.color.a = IN.color.a; OUT.uv0 = IN.uv0; OUT.uv1 = IN.uv1; #ifdef UV_OFFSET OUT.uv0 += uvOffset.xyxy; OUT.uv1 += uvOffset.xyxy; #endif OUT.locCham.xyz = worldPos; #ifdef CHAMELEON #ifdef UV_CHAM #ifdef CHAM_NORM OUT.locCham.w = IN.uv1.w; #else OUT.locCham.w = dot( chamDir.xy, IN.uv1.zw ); #endif #else #ifdef SKINNING_ENABLED OUT.locCham.w = dot( chamDir.xyz, MatrixMul( modelI, float4(IN.Position.xyz,1.0f) ).xyz ); #else OUT.locCham.w = dot( chamDir.xyz, IN.Position.xyz ); #endif #endif #endif OUT.normalFr.xyz = worldNorm; OUT.normalFr.w = 0; #ifdef SAND_DETAIL // Calculate Fresnel. half3 Ln = normalize( l_d.xyz ); half3 Vn = normalize( eyePositionWS.xyz - worldPos ); half3 Hn = normalize( Vn + Ln ); float base = saturate( 1.0 - dot( Vn, Hn ) ); float exponential = pow( base, 5.0 ); float F0spec = 0.01; // Skin is 0.028; float fresnelSpec = exponential + F0spec * (1.0 - exponential); OUT.normalFr.w = fresnelSpec; #endif #if defined( SNOW_TOP ) || defined( SAND_TOP ) || defined( SAND_SIDE ) || defined( SNOW_FULL ) || defined( SAND_FULL ) half windForce = min( (length( wind.xyz ) - 10) / 70, 1.0 ); #ifdef SNOW_TOP half windRatio = saturate( worldNorm.y ) + snowBias; half bleed = 0.03; #else //half windRatio = saturate( dot( worldNorm, normalize( wind.xyz ) + half3( 0, 0.65, 0 ) ) ); half windRatio = saturate( worldNorm.y )*.65; half bleed = lerp( 0.5, 0.05, windForce ); #endif half depth = length( eyePositionWS.xyz - worldPos ); half noiseFade = saturate( 1.5 - depth * 0.02 ); OUT.sandVars = float3( windRatio, bleed, noiseFade ); #endif #ifdef FOG float3 pos = MatrixMul( model, float4(IN.Position.xyz,1.0f) ).xyz; float3 eye = eyePositionWS - pos; half rayS = min( eyePositionWS.y, pos.y ); half rayE = max( eyePositionWS.y, pos.y ) + 0.5; // Prevent div by 0. half rayH = rayE - rayS; half fogS = f_se.z; half fogE = f_se.w; half fogH = fogE - fogS; half midS = min( rayS, fogE ); half midE = min( rayE, fogE ); half midA = 0.5 * (midS + midE); half midH = midE - midS; half fogY = ((fogE - midA) * midH) / (fogH * rayH); half fogRatio = saturate( (fogY * length( eye ) - f_se.x) / (f_se.y - f_se.x) ); fogRatio *= fogRatio; half3 fogColor = lerp( f_cc.rgb, f_fc.rgb, fogRatio ); half fogAlpha = lerp( f_cc.a, f_fc.a, fogRatio ); OUT.fog = half4( fogColor, fogRatio*fogAlpha ); #endif } // ------------------------------------------------------------------------------------------------------------------------------------------ #undef main #undef IN #undef OUT #undef v2f #undef a2v // ===================================================================================================================[PIXEL SHADER BEGIN]=== #define main Opaque_fs_main #define IN Opaque_fs_IN #define OUT Opaque_fs_OUT #define v2f Opaque_fs_v2f #define f2f Opaque_fs_f2f // ------------------------------------------------------------------------------------------------------------------------------------------ #define GLOBAL_LEAN_AND_MEAN #line 1 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #ifndef MIGRATORY_SH #define MIGRATORY_SH //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// #ifdef D_PLATFORM_D3D11x64 #define D_PLATFORM_D3D11 #endif #ifdef D_PLATFORM_D3D11 //#pragma pack_matrix(column_major) #define D_D3D11_OTHER(x,y) x #define D_D3D11_ONLY(x) x #define POSITION_OUT SV_POSITION #define FINAL_COLOR D_D3D11_OTHER(SV_TARGET0,COLOR) #elif defined(D_PLATFORM_GNM) #ifdef __ORBIS__ #pragma warning (disable:5203) // parameter unreferenced #pragma warning (disable:5206) // local variable unreferenced #pragma warning (disable:6204) // does not support uniform default values #pragma warning (disable:6459) // __user_defined__ is not a valid semantic for uniform #pragma warning (disable:5581) // PSSL treats 'half' type as 'float' #pragma warning (disable:5609) // PSSL treats 'half' type as 'float' #pragma warning (disable:5583) // PSSL treats 'half' literals as 'float' #pragma warning (disable:5524) // unsupported compiler hint //! Some evil #defines to sort out matrix multiplies. #define float4x4 row_major float4x4 #define float3x4 row_major float3x4 #define float4x3 row_major float4x3 //! Semantics for VS/PS inputs and outputs. #define POSITION S_POSITION #define SV_POSITION S_POSITION #define SV_GroupID S_GROUP_ID #define SV_VertexID S_VERTEX_ID #define SV_DispatchThreadID S_DISPATCH_THREAD_ID #define SV_GroupThreadID S_GROUP_THREAD_ID #define SV_GroupIndex S_GROUP_INDEX #define SV_PRIMITIVEID S_PRIMITIVE_ID #define SV_IsFrontFace S_FRONT_FACE #define SV_Depth FRAG_OUTPUT_DEPTH #define FRAG_OUTPUT_COLOR S_TARGET_OUTPUT0 #define FRAG_OUTPUT_COLOR0 S_TARGET_OUTPUT0 #define FRAG_OUTPUT_COLOR1 S_TARGET_OUTPUT1 #define FRAG_OUTPUT_COLOR2 S_TARGET_OUTPUT2 #define FRAG_OUTPUT_COLOR3 S_TARGET_OUTPUT3 #define FRAG_OUTPUT_DEPTH S_DEPTH_OUTPUT //! Some defines to make textures compile with PSSL for now (sort out later) SamplerState globalSamplerState; SamplerComparisonState globalSamplerComparisonState { // Sampler state Filter = MIN_MAG_LINEAR_MIP_POINT; AddressU = CLAMP; AddressV = CLAMP; // Sampler comparison state ComparisonFunc = LESS; ComparisonFilter = COMPARISON_MIN_MAG_LINEAR_MIP_POINT; }; #define cbuffer ConstantBuffer #define sampler SamplerState #define sampler2D Texture2D #define sampler3D Texture3D #define samplerCUBE TextureCube #define tex2Dproj(a,b) a.Sample(globalSamplerState, (b).xy / (b).w) #define h1tex2Dproj(a,b) ((half)(a.Sample(globalSamplerState, (b).xy / (b).w).x)) #define h4tex2D(a,b) ((half4)a.Sample(globalSamplerState, (b).xy)) #define h4tex2Dlod(a,b) ((half4)a.SampleLOD(globalSamplerState, (b).xy, (b).w)) #define tex2D(a,b) a.Sample(globalSamplerState, (b).xy) #define SampleLevel SampleLOD #define SampleCmpLevelZero SampleCmpLOD0 #define StructuredBuffer RegularBuffer #define RWStructuredBuffer RW_RegularBuffer #define numthreads NUM_THREADS #define maxvertexcount MAX_VERTEX_COUNT #define groupshared thread_group_memory #define TriangleStream TriangleBuffer #define PointStream PointBuffer #define triangle Triangle #define IncrementCounter IncrementCount #define DecrementCounter DecrementCount #define GroupMemoryBarrierWithGroupSync ThreadGroupMemoryBarrierSync #define InterlockedMin AtomicMin #define InterlockedMax AtomicMax #define InterlockedAdd AtomicAdd #endif //! __ORBIS__ #if defined(PHYRE_D3DFX) && !defined(__ORBIS__) #define FRAG_OUTPUT_COLOR SV_TARGET #define FRAG_OUTPUT_COLOR0 SV_TARGET0 #define FRAG_OUTPUT_COLOR1 SV_TARGET1 #define FRAG_OUTPUT_COLOR2 SV_TARGET2 #define FRAG_OUTPUT_COLOR3 SV_TARGET3 #define FRAG_OUTPUT_DEPTH SV_DEPTH #define SYSTEM_PRIMITIVE_INDEX SV_PRIMITIVEID #endif //! defined(PHYRE_D3DFX) && !defined(__ORBIS__) #define D_D3D11_OTHER(x,y) x #define D_D3D11_ONLY(x) x #define POSITION_OUT POSITION #define FINAL_COLOR FRAG_OUTPUT_COLOR #else #define D_D3D11_OTHER(x,y) y #define D_D3D11_ONLY(x) #define HALF half #define HALF2 half2 #define HALF3 half3 #define HALF4 half4 #define HALF3x3 float3x3 #define HALF3x4 float3x4 #define HALF4x4 float4x4 #define POSITION_OUT POSITION #define FINAL_COLOR D_D3D11_OTHER(SV_TARGET0,COLOR) #endif #if defined(__psp2__) #define NATIVECOLOR __nativecolor #define REGFORMAT __regformat #else #define NATIVECOLOR #define REGFORMAT #endif #if !defined(__ORBIS__) && !defined(D_PLATFORM_GXM) BlendState NoBlend_BlendState { BlendEnable[0] = FALSE; }; BlendState Alpha_BlendState { BlendEnable[0] = TRUE; SrcBlend[0] = Src_Alpha; DestBlend[0] = Inv_Src_Alpha; BlendOp[0] = ADD; SrcBlendAlpha[0] = Src_Alpha; DestBlendAlpha[0] = Inv_Src_Alpha; BlendOpAlpha[0] = ADD; BlendEnable[1] = FALSE; }; BlendState Additive_BlendState { BlendEnable[0] = TRUE; SrcBlend[0] = Src_Alpha; DestBlend[0] = ONE; BlendOp[0] = ADD; SrcBlendAlpha[0] = Src_Alpha; DestBlendAlpha[0] = ONE; BlendOpAlpha[0] = ADD; BlendEnable[1] = FALSE; }; BlendState ParticleBlended_BlendState { BlendEnable[0] = TRUE; SrcBlend[0] = ONE; DestBlend[0] = Inv_Src_Alpha; BlendOp[0] = ADD; SrcBlendAlpha[0] = ONE; DestBlendAlpha[0] = Inv_Src_Alpha; BlendOpAlpha[0] = ADD; BlendEnable[1] = FALSE; }; DepthStencilState NoDepthTest_NoDepthWrite_DepthState { DepthEnable = FALSE; DepthWriteMask = Zero; DepthFunc = Less; StencilEnable = FALSE; }; DepthStencilState NoDepthTest_DepthWrite_DepthState { DepthEnable = FALSE; DepthWriteMask = All; DepthFunc = Less; StencilEnable = FALSE; }; DepthStencilState DepthTest_NoDepthWrite_DepthState { DepthEnable = TRUE; DepthWriteMask = Zero; DepthFunc = Less; StencilEnable = FALSE; }; DepthStencilState DepthTest_DepthWrite_DepthState { DepthEnable = TRUE; DepthWriteMask = All; DepthFunc = Less; StencilEnable = FALSE; }; RasterizerState NoCull_RasterizerState { CullMode=None; }; RasterizerState BackFaceCull_RasterizerState { CullMode=Back; FrontCounterClockwise = TRUE; }; RasterizerState FrontFaceCull_RasterizerState { CullMode=Front; FrontCounterClockwise = TRUE; }; #endif #if defined(D_PLATFORM_D3D11) || defined(D_PLATFORM_GNM) #define MatrixMul(a,b) mul(b,a) #define HALF float #define HALF2 float2 #define HALF3 float3 #define HALF4 float4 #define HALF3x3 float3x3 #define HALF3x4 float3x4 #define HALF4x4 float4x4 #define half float #define half2 float2 #define half3 float3 #define half4 float4 #else #define MatrixMul(a,b) mul(a,b) #endif // samplers #if defined(D_PLATFORM_D3D11) || defined(D_PLATFORM_GNM) sampler PointClampSampler : register(s8) { Filter = Min_Mag_Mip_Point; AddressU = Clamp; AddressV = Clamp; AddressW = Clamp; }; sampler LinearClampSampler : register(s9) { Filter = Min_Mag_Mip_Linear; AddressU = Clamp; AddressV = Clamp; AddressW = Clamp; }; sampler LinearWrapTSampler : register(s10) { Filter = Min_Mag_Mip_Linear; AddressU = Clamp; AddressV = Wrap; AddressW = Clamp; }; sampler LinearWrapSampler : register(s11) { Filter = Min_Mag_Mip_Linear; AddressU = Wrap; AddressV = Wrap; AddressW = Wrap; }; sampler PointWrapSampler : register(s12) { Filter = Min_Mag_Mip_Point; AddressU = Wrap; AddressV = Wrap; AddressW = Wrap; }; sampler AnisoClampSampler : register(s13) { Filter = ANISOTROPIC; AddressU = Clamp; AddressV = Clamp; AddressW = Clamp; MaxAnisotropy = 16; }; sampler LinearWrapAnisoSampler : register(s14) { Filter = ANISOTROPIC; AddressU = Wrap; AddressV = Wrap; AddressW = Wrap; MaxAnisotropy = 16; }; sampler PointWrapAnisoSampler : register(s15) { Filter = Min_Mag_Point_Mip_Linear; AddressU = Wrap; AddressV = Wrap; AddressW = Wrap; MaxAnisotropy = 16; }; #define SAMPLER_WRAP_ANISO LinearWrapAnisoSampler #define SAMPLER_WRAP_LINEAR LinearWrapSampler #define SAMPLER_WRAP_POINT PointWrapSampler #define SAMPLER_CLAMP_ANISO AnisoClampSampler #define SAMPLER_CLAMP_LINEAR LinearClampSampler #define SAMPLER_CLAMP_POINT PointClampSampler static const float kSRGB = 2.2f; #define SRGB_ON(x) pow(x,kSRGB) #define SRGB_OFF(x) x #define SAMPLETEX(tex,uv,filter,wrap,srgb) SRGB_##srgb(tex.Sample(SAMPLER_##wrap##_##filter, uv)) #ifdef __ORBIS__ #define D_DECLARE_TEXTURE2DMS_4(x) MS_Texture2D x #else #define D_DECLARE_TEXTURE2DMS_4(x) Texture2DMS x #endif #define D_DECLARE_TEXTURE2D_4(x) Texture2D x #define D_DECLARE_TEXTURE3D_4(x) Texture3D x #define D_DECLARE_TEXTURE_CUBE_4(x) TextureCube x #define D_SAMPLE_TEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv) #define D_POINT_SAMPLE_TEXTURE(tex,uv) tex.Sample(PointClampSampler,uv) #define D_SAMPLE_TEXTURE_PROJ(tex,uv) tex.Sample(LinearClampSampler,(float2) (uv.xy / uv.w) ) #define D_POINT_SAMPLE_TEXTURE_PROJ(tex,uv) tex.Sample(PointClampSampler,(float2) (uv.xy / uv.w) ) #define D_SAMPLE_TEXTURE_3D(tex,uv) tex.Sample(LinearClampSampler,uv) #define D_SAMPLE_TEXTURE_WRAP_3D(tex,uv) tex.Sample(LinearWrapSampler,uv) #define D_H1_SAMPLE_TEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).x #define D_H2_SAMPLE_TEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).xy #define D_H3_SAMPLE_TEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).xyz #define D_H4_SAMPLE_TEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv) #define D_H1_POINTSAMPLELEVEL_TEXTURE(tex,uv,lod) tex.SampleLevel(PointClampSampler,uv,lod).x #define D_H1_SAMPLELEVEL_TEXTURE(tex,uv,lod) tex.SampleLevel(LinearClampSampler,uv,lod).x #define D_H4_SAMPLELEVEL_TEXTURE(tex,uv,lod) tex.SampleLevel(LinearClampSampler,uv,lod) #if defined(D_PLATFORM_D3D11) #define D_H1_SAMPLE_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearClampSampler,uv).x,2.2f) #define D_H2_SAMPLE_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearClampSampler,uv).xy,2.2f) #define D_H3_SAMPLE_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearClampSampler,uv).xyz,2.2f) #define D_H4_SAMPLE_SRGBTEXTURE(tex,uv) float4( pow(tex.Sample(LinearClampSampler,uv).xyz,2.2f), tex.Sample(LinearClampSampler,uv).a ) #define D_H1_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearWrapSampler,uv).x,2.2f) #define D_H2_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearWrapSampler,uv).xy,2.2f) #define D_H3_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) pow(tex.Sample(LinearWrapSampler,uv).xyz,2.2f) #define D_H4_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) float4( pow(tex.Sample(LinearWrapSampler,uv).xyz,2.2f), tex.Sample(LinearWrapSampler,uv).a ) #define D_H4_SAMPLE_WRAPT_SRGBTEXTURE(tex,uv) float4( pow(tex.Sample(LinearWrapTSampler,uv).xyz,2.2f), tex.Sample(LinearWrapTSampler,uv).a) #define D_H3_SAMPLE_WRAP_ANISO_SRGBTEXTURE(tex,uv) pow( tex.Sample(LinearWrapAnisoSampler,uv).xyz, 2.2f) #else #define D_H1_SAMPLE_SRGBTEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).x #define D_H2_SAMPLE_SRGBTEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).xy #define D_H3_SAMPLE_SRGBTEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv).xyz #define D_H4_SAMPLE_SRGBTEXTURE(tex,uv) tex.Sample(LinearClampSampler,uv) #define D_H1_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).x #define D_H2_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).xy #define D_H3_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).xyz #define D_H4_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv) #define D_H4_SAMPLE_WRAPT_SRGBTEXTURE(tex,uv) tex.Sample(LinearWrapTSampler,uv) #endif #define D_H1_SAMPLE_WRAP_TEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).x #define D_H2_SAMPLE_WRAP_TEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).xy #define D_H3_SAMPLE_WRAP_TEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv).xyz #define D_H4_SAMPLE_WRAP_TEXTURE(tex,uv) tex.Sample(LinearWrapSampler,uv) #define D_H1_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(LinearWrapAnisoSampler,uv).x #define D_H2_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(LinearWrapAnisoSampler,uv).xy #define D_H3_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(LinearWrapAnisoSampler,uv).xyz #define D_H4_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(LinearWrapAnisoSampler,uv) #define D_H1_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(PointWrapAnisoSampler,uv).x #define D_H2_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(PointWrapAnisoSampler,uv).xy #define D_H3_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(PointWrapAnisoSampler,uv).xyz #define D_H4_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) tex.Sample(PointWrapAnisoSampler,uv) #define D_H2_SAMPLE_TEXTURE_3D(tex,uv) tex.Sample(LinearClampSampler,uv).xy #define D_H2_SAMPLE_WRAP_TEXTURE_3D(tex,uv) tex.Sample(LinearWrapSampler,uv).xy #if defined(D_PLATFORM_D3D11) #define D_H3_SAMPLE_TEXTURE_CUBE(tex,uv) pow(tex.Sample(LinearClampSampler,uv).xyz,2.2f) #define D_H4_SAMPLE_TEXTURE_CUBE(tex,uv) float4( pow(tex.Sample(LinearClampSampler,uv).xyz,2.2f), tex.Sample(LinearClampSampler,uv).a ) #define D_SAMPLE_TEXTURE_CUBE(tex,uv) float4( pow(tex.Sample(LinearClampSampler,uv).xyz,2.2f), tex.Sample(LinearClampSampler,uv).a ) #else #define D_H3_SAMPLE_TEXTURE_CUBE(tex,uv) tex.Sample(LinearClampSampler,uv).xyz #define D_H4_SAMPLE_TEXTURE_CUBE(tex,uv) tex.Sample(LinearClampSampler,uv) #define D_SAMPLE_TEXTURE_CUBE(tex,uv) tex.Sample(LinearClampSampler,uv) #endif #else #define D_DECLARE_TEXTURE2D_4(x) sampler2D x #define D_DECLARE_TEXTURE3D_4(x) sampler3D x #define D_DECLARE_TEXTURE_CUBE_4(x) samplerCUBE x #define D_SAMPLE_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_POINT_SAMPLE_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_SAMPLE_TEXTURE_PROJ(tex,uv) h4tex2Dproj(tex,uv.xyw) #define D_POINT_SAMPLE_TEXTURE_PROJ(tex,uv) h4tex2Dproj(tex,uv.xyw) #define D_SAMPLE_TEXTURE_CUBE(tex,uv) h4texCUBE(tex,uv) #define D_SAMPLE_TEXTURE_3D(tex,uv) h4tex3D(tex,uv) #define D_SAMPLE_TEXTURE_WRAP_3D(tex,uv) h4tex3D(tex,uv) #define D_H1_SAMPLE_TEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_TEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_TEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_POINTSAMPLELEVEL_TEXTURE(tex,uv,lod) h1tex2D(tex,uv).x #define D_H1_SAMPLELEVEL_TEXTURE(tex,uv,lod) h1tex2D(tex,uv).x #define D_H4_SAMPLELEVEL_TEXTURE(tex,uv,lod) h4tex2D(tex,uv) #define D_H1_SAMPLE_SRGBTEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_SRGBTEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_SRGBTEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_SRGBTEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_SAMPLE_WRAP_TEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_WRAP_TEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_WRAP_TEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_WRAP_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_WRAP_ANISO_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_SAMPLE_ANISO_TEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_ANISO_TEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_ANISO_TEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_ANISO_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_POINT_WRAP_ANISO_TEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H1_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) h1tex2D(tex,uv).x #define D_H2_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) h2tex2D(tex,uv).xy #define D_H3_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) h3tex2D(tex,uv).xyz #define D_H4_SAMPLE_WRAP_SRGBTEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H4_SAMPLE_WRAPT_SRGBTEXTURE(tex,uv) h4tex2D(tex,uv) #define D_H2_SAMPLE_TEXTURE_3D(tex,uv) h2tex3D(tex,uv).xy #define D_H2_SAMPLE_WRAP_TEXTURE_3D(tex,uv) h2tex3D(tex,uv).xy #define D_H3_SAMPLE_TEXTURE_CUBE(tex,uv) h3texCUBE(tex,uv).xyz #define D_H4_SAMPLE_TEXTURE_CUBE(tex,uv) h4texCUBE(tex,uv) #endif #if !defined(GLOBAL_LEAN_AND_MEAN) //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // these constants are system constants; uploaded by Phyre itself. // we can't do this, but we don't want to upload them all the time, either. consequently, we make these global // i guess we can eventually stuff these into a separate uniform buffer //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// float4x4 view : view ; // uploaded once per camera float4x4 projection : projection ; // view inverse float4x4 viewprojection : viewprojection ; float4 eyeDirectionWS : eyeDirectionWS ; float4 eyePositionWS : eyePositionWS ; float4 eyePositionOS : eyePositionOS ; float4 cameraNear : cameraNearFar ; float4x4 modelIT : modelit ; // uploaded per primitive // model inverse transpose float4x4 model : model ; float4x4 modelViewProj : modelviewproj ; #endif //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // depth conversion code, stolen from the sample code //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// float cameraNearTimesFar; float cameraFarMinusNear; float4 cameraNearFar; // Convert a depth value from post projection space to view space. float ConvertDepth(float depth) { // float viewSpaceZ = -(scene.cameraNearTimesFar / (depth * scene.cameraFarMinusNear - scene.cameraNearFar.y)); #if defined(D_PLATFORM_GXM) float viewSpaceZ = -(cameraNearTimesFar / (depth * cameraFarMinusNear - cameraNearFar.y)); #else float viewSpaceZ = -(cameraNearTimesFar / (depth * cameraFarMinusNear - cameraNearFar.y)); #endif return viewSpaceZ; } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // skinning //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// #ifdef SKINNING_ENABLED // grabbed off [PhyreCoreShaderShared.h] // Description: // Encapsulates the skinning transformation matrices. #if defined(D_PLATFORM_GXM) #define PE_MAX_SKIN_CB_TRANSFORMS 32 float4x4 boneTransforms[PE_MAX_SKIN_CB_TRANSFORMS]; float4x4 GenerateBoneMatrix(int4 SkinIndices,float4 SkinWeights) { return boneTransforms[SkinIndices[0]]*SkinWeights[0] + boneTransforms[SkinIndices[1]]*SkinWeights[1] + boneTransforms[SkinIndices[2]]*SkinWeights[2] + boneTransforms[SkinIndices[3]]*SkinWeights[3]; } #else #define PE_MAX_SKIN_CB_TRANSFORMS 32 struct PSkinTransforms { float4x4 Mtxs[PE_MAX_SKIN_CB_TRANSFORMS]; // The skinning transformation matrices. }; cbuffer BoneTransformConstantBuffer { PSkinTransforms SkinTransforms; } float4x4 GenerateBoneMatrix(uint4 SkinIndices,float4 SkinWeights) { return SkinTransforms.Mtxs[SkinIndices[0]]*SkinWeights[0] + SkinTransforms.Mtxs[SkinIndices[1]]*SkinWeights[1] + SkinTransforms.Mtxs[SkinIndices[2]]*SkinWeights[2] + SkinTransforms.Mtxs[SkinIndices[3]]*SkinWeights[3]; } #endif #endif //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// static const float4x4 SCALE_BIAS = float4x4( float4( 0.5, 0.0, 0.0, 0.5 ), #if defined(D_PLATFORM_D3D11) float4( 0.0, -0.5, 0.0, 0.5 ), #else float4( 0.0, 0.5, 0.0, 0.5 ), #endif float4( 0.0, 0.0, 0.5, 0.5 ), float4( 0.0, 0.0, 0.0, 1.0 ) ); //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// #ifdef D_PLATFORM_GXM #define D_INT_MOD(val,mod) (frac((floor((float)val)/mod))*mod) #define D_UINT_MOD(val,mod) (frac((floor((float)val)/mod))*mod) #elif defined(D_PLATFORM_GNM) #define D_INT_MOD(val,mod) ((int)floor(val) % mod) #define D_UINT_MOD(val,mod) ((uint)floor(val) % mod) #else #define D_INT_MOD(val,mod) ((int)floor(val) % mod) #define D_UINT_MOD(val,mod) ((int)floor(val) % mod) #endif //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// #ifdef D_ENABLE_DEBUG_PARAMS float4 debugVars0; float4 debugVars1; float4 debugVars2; float4 debugVars3; float4 debugVars4; float4 debugVars5; float4 debugVars6; float4 debugVars7; #define GETDEBUGVAR(dv) (debugVars##dv!=0) ? (debugVars##dv) : #define GETDEBUGVAR2(dv,scl) (debugVars##dv!=0) ? (scl*debugVars##dv) : #endif #define powsafe(_x,_y) pow(max(_x,0.00000000000001),_y) //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// #endif//MIGRATORY_SH #line 301 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" // Notes: Base shader for decoration meshes. // // Author: John Edwards // Date C: 4-23-2010 #ifndef D_PREPASS_ENABLED #if defined(D_PLATFORM_GCM) #pragma regcount 12 #endif // LOD params: #ifdef D_PLATFORM_GXM D_DECLARE_TEXTURE2D_4(noise3dSmallTex); #else D_DECLARE_TEXTURE3D_4(noise3dSmallTex); #endif #if defined( SNOW_FULL ) || defined( SAND_FULL ) D_DECLARE_TEXTURE2D_4(noiseSandTex); #if defined( SNOW_FULL ) HALF4 lumpGrainMult; #endif #endif // Env params HALF4 l_c, l_s; #ifndef PHYRE3X_ENABLED HALF4 l_d; #endif HALF opacity; HALF velvetInt, velvetRatio; // Level of detail slider HALF lod; // For color correcting incoming textures. HALF4x4 colorCorrect; // Albedo textures D_DECLARE_TEXTURE2D_4(texColor); D_DECLARE_TEXTURE2D_4(texDetail); D_DECLARE_TEXTURE2D_4(texRamp); // Ambient occlusion texture D_DECLARE_TEXTURE2D_4(texAo); // Sand and shadow edges are filtered through this texture D_DECLARE_TEXTURE2D_4(texEdgeMask); // Sand params D_DECLARE_TEXTURE2D_4(sandFastTexture); D_DECLARE_TEXTURE_CUBE_4(sandLoIrrCube); #ifdef SAND_FANCY D_DECLARE_TEXTURE_CUBE_4(sandHiIrrCube); #endif float4 sandBias; float4 sandScale; D_DECLARE_TEXTURE2D_4(heightTexture); float4 heightBiasUv; float4 heightScaleUv; float heightBiasY; D_DECLARE_TEXTURE2D_4(duneTexture); D_DECLARE_TEXTURE2D_4(duneColorTexture); #ifdef SAND_SIDE HALF duneHeightOff; #endif #if defined( SNOW_FULL ) || defined( SAND_FULL ) HALF sparkleHint; #endif // AO HALF4 aoStepBiasInt; // For dynamic AO float4 localDudePos; float4 remoteDudePos; #ifdef SPECULAR HALF4 specular; // x == intensity, y == gloss, z == F0 #endif HALF4 uvMlt; // x == color, y == ao, // Chameleon effect texture swapping effect #ifdef CHAMELEON D_DECLARE_TEXTURE2D_4(texCham); D_DECLARE_TEXTURE2D_4(texChamMask); HALF4 chamColor; HALF4 chamEdgeColor; HALF chamLevel; #ifdef CHAM_NORM HALF chamScale; HALF chamIsAlphaTest; #endif #endif // Hacked Shadow HALF inShadow; #endif//D_PREPASS_ENABLED // Streams: struct v2f { float4 position : POSITION_OUT; HALF4 color : COLOR0; HALF4 uv0 : TEXCOORD0; HALF4 uv1 : TEXCOORD1; float4 locCham : TEXCOORD2; // xyz == loc, w == chamBase HALF4 normalFr : TEXCOORD3; // xyz == normal, w == sand fresnel #if defined( SNOW_TOP ) || defined( SAND_TOP ) || defined( SAND_SIDE ) || defined( SNOW_FULL ) || defined( SAND_FULL ) HALF3 sandVars : TEXCOORD4; // x == windRatio, y == bleed, z == noiseFade #endif #ifdef FOG HALF4 fog : TEXCOORD5; // rgb == color, a == intensity #endif }; struct f2f { #if !defined( ALPHA ) NATIVECOLOR REGFORMAT #endif HALF4 color : FINAL_COLOR; }; //---------------------------------------------- // Program entry //---------------------------------------------- #if !defined( ALPHA ) NATIVECOLOR #endif void main( in v2f IN, out f2f OUT ) { OUT.color = IN.color; // Load a noise texture, which is useful for many things float3 noiseUv = 0.125 * IN.locCham.xyz; #ifdef D_PLATFORM_GXM half2 noiseTap = 0.0f; //D_H2_SAMPLE_WRAP_TEXTURE( noise3dSmallTex, noiseUv.xy ); #else half2 noiseTap = D_H2_SAMPLE_WRAP_TEXTURE_3D( noise3dSmallTex, noiseUv ); #endif // Load albedo textures // half3 colorTap = IN.color.rgb * D_H3_SAMPLE_WRAP_ANISO_SRGBTEXTURE( texColor, IN.uv0.xy * uvMlt.x ).rgb; half3 colorTap = IN.color.rgb * SAMPLETEX(texColor, IN.uv0.xy * uvMlt.x, ANISO, WRAP, ON).rgb; colorTap = MatrixMul( colorTap, (HALF3x3)colorCorrect ); // half alphaTap = IN.color.a * D_H4_SAMPLE_WRAP_TEXTURE( texColor, IN.uv0.xy * uvMlt.x ).a; half alphaTap = IN.color.a * SAMPLETEX(texColor, IN.uv0.xy * uvMlt.x, ANISO, WRAP, OFF).a;//D_H4_SAMPLE_WRAP_TEXTURE // AO textures are super low res, so we wonkify the UVs and posterize to add detail. float2 aoUv = IN.uv0.zw; half aoTap = D_H2_SAMPLE_WRAP_SRGBTEXTURE( texAo, aoUv ).g; aoTap = saturate( aoTap + aoStepBiasInt.y + aoStepBiasInt.z + 0.5 ); // half3 detailTap = D_H3_SAMPLE_WRAP_ANISO_SRGBTEXTURE( texDetail, IN.uv1.xy * uvMlt.z ); half3 detailTap = (half3)SAMPLETEX(texDetail, IN.uv1.xy * uvMlt.z, ANISO, WRAP, ON).rgb; // half3 rampTap = D_H3_SAMPLE_WRAP_ANISO_SRGBTEXTURE( texRamp, IN.uv1.zw * uvMlt.z ); half3 rampTap = (half3)SAMPLETEX(texRamp, IN.uv1.zw * uvMlt.z, ANISO, WRAP, ON).rgb; // Load the edge detail texture (used for transitioning between light/shadow, sand/clear, etc.) half edgeDetail = 0.25; #ifdef EDGE_DETAIL half edgeDetailTap = D_H1_SAMPLE_WRAP_TEXTURE( texEdgeMask, IN.uv0.zw * uvMlt.y * 7 ) * D_H1_SAMPLE_WRAP_TEXTURE( texEdgeMask, IN.uv0.zw * uvMlt.y * 3 ); #ifdef SNOW_TOP edgeDetailTap *= 0.5*(D_H1_SAMPLE_WRAP_TEXTURE( texEdgeMask, IN.uv0.zw * uvMlt.y * 0.3 )+1); //edgeDetailTap *= D_H1_SAMPLE_WRAP_TEXTURE( texEdgeMask, IN.uv0.zw * uvMlt.y * 19 ); #endif edgeDetail = edgeDetailTap; #endif // Swap out the color tap for the cham texture, if necessary. #ifdef CHAMELEON half3 chamTap = IN.color.rgb * D_H4_SAMPLE_WRAP_SRGBTEXTURE( texCham, IN.uv0.xy * uvMlt.x ).rgb; half chamAlphaTap = IN.color.a * D_H4_SAMPLE_WRAP_SRGBTEXTURE( texCham, IN.uv0.xy * uvMlt.x ).a; half chamMaskTap = D_H4_SAMPLE_WRAP_SRGBTEXTURE( texChamMask, IN.uv0.xy * uvMlt.z ).a; half myChamLevel=chamLevel; #ifdef CHAM_NORM myChamLevel = myChamLevel * (1.0 - (0.48 - 0.13 * chamScale) * chamIsAlphaTest) + (0.25 - 0.02 * chamScale) * chamIsAlphaTest; half chamBase = myChamLevel - IN.locCham.w; half chamScaledMaskTap = chamScale * (chamMaskTap - myChamLevel); half chamUnscaledAmount = chamBase + myChamLevel - chamScaledMaskTap; half chamAmount = saturate( (chamUnscaledAmount - 0.5) / chamScale + 0.5 ); #else half chamAmount = saturate( myChamLevel - IN.locCham.w - chamMaskTap ); #endif colorTap = lerp( colorTap, chamTap, chamAmount ); alphaTap = lerp( alphaTap, chamAlphaTap, chamAmount ); // Multiply in the chameleon colors. colorTap *= lerp( half3(1,1,1), chamColor.xyz, chamAmount ); colorTap = lerp( colorTap, chamEdgeColor.xyz, pow( 1 - 2 * abs( chamAmount - 0.5 ), 6 ) ); #endif // Calculate basic lighting half3 normal = normalize( IN.normalFr.xyz ); #if defined( SNOW_FULL ) || defined( SAND_FULL ) half sandFade = IN.sandVars.z; half3 sandNormal = 2.0 * (D_H3_SAMPLE_WRAP_TEXTURE( noiseSandTex, IN.uv0.zw * uvMlt.y * 5.0 ) - 0.5); #if defined( SNOW_FULL ) half3 lumpNormal = 2.0 * (noiseTap.xxy - 0.5); normal = normalize( 4.0 * (normal + sandFade * lumpGrainMult.x*lumpNormal) + sandFade * lumpGrainMult.y*sandNormal ); #else normal = normalize( 25.0 * normal + sandFade * sandNormal ); #endif #endif half3 eye = eyePositionWS.xyz - IN.locCham.xyz; half3 _view = normalize( eye ); half3 light = normalize( l_d.xyz ); half3 halfAngle = normalize( _view + light ); #ifdef SHADOW_MAP half3 albedo = colorTap * detailTap; #else half3 albedo = colorTap * detailTap * rampTap; #endif half3 ambientColor = D_SAMPLE_TEXTURE_CUBE( sandLoIrrCube, normal ).rgb; half3 diffuseColor = l_c.rgb; half3 specularColor = l_s.rgb; #ifdef SAND_FULL half lightIntensity = D_SAMPLE_TEXTURE_CUBE( sandLoIrrCube, normal ).a; #else half lightIntensity = dot( normal, light ); #endif #ifdef SHADOW_MAP lightIntensity = min( rampTap.r-0.25, lightIntensity ); #endif #if !defined( SNOW_FULL ) && !defined( SAND_FULL ) // Filter the light through the edge detail texture to give it a hard jagged border half lightMask = 1.5 * edgeDetail - 0.25; lightIntensity = saturate( (lightIntensity + lightMask) * 20 ); #endif half diffuseIntensity = saturate( lightIntensity - inShadow ); half specularIntensity = 0; #ifdef SPECULAR half specMult = specular.x; half specGlossMult = specular.y + 0.001; half F0 = specular.z; // usually 0.025 specularIntensity = saturate( lightIntensity - saturate( inShadow ) ); // Calculate Fresnel. half fresnelT = pow( saturate( 1.0 - dot( _view, halfAngle ) ), 5.0 ); half fresnel = F0 * (1.0 - fresnelT) + fresnelT; half gloss = specGlossMult; half specPow = pow( 256.0, gloss ) - 1.0; specularIntensity *= fresnel * specMult * (specPow + 8.0)/25.0 * pow( saturate( dot( normal, halfAngle ) ), specPow ); #endif // Generate a mask that represents a layer of sand that settled on the mesh half sandIntensity = 0.0; #if defined( SNOW_TOP ) || defined( SAND_TOP ) half windRatio = IN.sandVars.x; half bleed = IN.sandVars.y; sandIntensity = saturate( (windRatio - edgeDetail) / bleed ); #endif #if defined( SAND_FULL ) sandIntensity = 1.0; #endif // Generate another mask that represents the sand piling up on the side of the mesh. half sideIntensity = 0; #if defined( SAND_SIDE ) float2 heightUV = (float2( IN.locCham.x, IN.locCham.z ) + heightBiasUv.xy) * heightScaleUv.xy; half heightTap = D_H1_SAMPLE_TEXTURE( heightTexture, heightUV ); float duneHeight = heightBiasY + (float)duneHeightOff + (float)heightTap; half blendThreshold = 2.22 * (duneHeight - IN.locCham.y); sideIntensity = saturate( blendThreshold - edgeDetail * 2.666 ); sideIntensity *= sideIntensity; #endif #if defined( SNOW_TOP ) || defined( SAND_TOP ) || defined( SAND_SIDE ) // Calculate sand values. half3 Vn = _view; half3 Nn = normalize( IN.normalFr.xyz ); // Read the sand grain texture. half sandNoise = 0; #if defined( SAND_DETAIL ) float2 sandUV = IN.uv0.zw * uvMlt.y * 5 + sandBias.xy * sandScale.xy; sandNoise = 2.0 * (D_H1_SAMPLE_POINT_WRAP_ANISO_TEXTURE( sandFastTexture, sandUV ) - 0.5); //sandNoise = 2.0 * (sandFastTexture.SampleLevel(PointWrapAnisoSampler, sandUV, 0.0 ).x - 0.5); //sandNoise *= lod; #endif // Load the dune color. const float terrainScale = 0.5; float2 duneUv = float2( 1 - (terrainScale * IN.locCham.x + 0.5) / 256, (terrainScale * IN.locCham.z + 0.5) / 512 ); half3 duneTap = (half3)SAMPLETEX(duneTexture, duneUv, ANISO, CLAMP, ON).rgb;//D_H3_SAMPLE_SRGBTEXTURE( duneTexture, duneUv ); //duneTap = pow(duneTap,2.2f); // Load the pre-lit dune color and velvet. float2 litUV = (float2( IN.locCham.x, IN.locCham.z ) + heightBiasUv.xy) * heightScaleUv.xy; litUV -= float2(1.0f/ 256.0f, 0.0f); half4 litTap = D_H4_SAMPLE_TEXTURE( duneColorTexture, litUV ); half3 litColor = 4.0 * litTap.rgb * litTap.rgb; half velvDune = litTap.a; half velvMesh = saturate( 1.12 - abs( dot( Vn, 4.0 * Nn ) ) ); velvDune *= 0.333 * sandNoise; velvMesh *= 0.333 + 0.333 * sandNoise; #if defined( SNOW_TOP ) velvMesh = 0.0; #endif half3 duneColor = (1.0 + velvMesh) * duneTap; half3 duneLitColor = (1.0 + velvDune) * litColor; // There are certain cases where it's better to calculate the dune // shader, instead of loading from a texture. #ifdef SAND_FANCY { half3 colorShadowTapAlpha = SAMPLETEX(duneTexture, duneUv, ANISO, CLAMP, OFF).a; half3 _duneColor = SAMPLETEX(duneTexture, duneUv, ANISO, CLAMP, ON).rgb;//D_H4_SAMPLE_SRGBTEXTURE( duneTexture, duneUv ); half shadow = saturate( 10 * (colorShadowTapAlpha - 0.25) ); half nx = 0; half nz = 0; #if defined( SAND_DETAIL ) nx = 2.0 * (D_H1_SAMPLE_POINT_WRAP_ANISO_TEXTURE( sandFastTexture, sandUV + 0.000 ) - 0.5); nz = 2.0 * (D_H1_SAMPLE_POINT_WRAP_ANISO_TEXTURE( sandFastTexture, sandUV + 0.125 ) - 0.5); #endif half3 _Nn = half3( 0.0, 1.0, 0.0 ); half3 Nnt = 25.0 * _Nn + half3( nx, 0, nz ); half3 Nnv = 4.0 * _Nn + half3( nx, 0, nz ); half4 lightCubeTap = D_SAMPLE_TEXTURE_CUBE( sandHiIrrCube, Nnt ); half diffuseInt = lightCubeTap.a; half3 fillColor = lightCubeTap.rgb; half velv = saturate( 1 - (abs( dot( Vn, Nnv ) ) - 0.12) ); _duneColor *= 1 + 0.333 * velv; half diffuseMult = shadow * diffuseInt; duneLitColor = _duneColor * (l_c.rgb * diffuseMult + fillColor); } #endif #endif // Calculate snow/sand specular. #if defined( SNOW_FULL ) || defined( SAND_FULL ) half3 Nns = normalize( 2.0 * normal + sandFade * sandNormal ); half specLight = pow( saturate( dot( halfAngle, Nns ) ), l_s.w ); half spec = sandFade * IN.normalFr.w * specLight; half velv = velvetInt * pow( 1 - abs( dot( _view, normalize(Nns+0.25*_view) ) ), velvetRatio ); specularIntensity = sandIntensity * (1.0 + sparkleHint) * min( saturate( lightIntensity ), diffuseIntensity ) * (spec + velv); #endif // Perform lighting and sand blending. #if defined( SNOW_TOP ) || defined( SAND_TOP ) // The actual surface color is a combination of base material and sand. albedo = lerp( albedo, duneColor, sandIntensity ); #endif // We have a weird hack where we fold AO into albedo instead of just multiplying it by the ambient lighting albedo = lerp( albedo * aoTap, albedo, saturate( diffuseIntensity - 0.65 ) ); // Apply texturing and lighting OUT.color.rgb = albedo * (diffuseIntensity * diffuseColor + ambientColor); #ifdef SAND_SIDE // Sand accumulated on the side of the mesh completely covers up all other lighting. OUT.color.rgb = lerp( OUT.color.rgb, duneLitColor, sideIntensity ); #endif OUT.color.rgb += albedo * l_s.rgb * specularIntensity; #ifdef FOG OUT.color.rgb = lerp( OUT.color.rgb, IN.fog.rgb, IN.fog.a ); #endif OUT.color.a = alphaTap; #if defined( ALPHA ) OUT.color.a *= opacity; // Fading at extreme angles tends to look better for objects using this shader. OUT.color.a *= saturate( 16.0 * abs( dot( _view, normal ) ) ); #else #if 1 || defined( DITHER_OUT ) // If we end up not using the noise tex for anything else, we can switch to this slightly faster function. //half fade = dot( frac( IN.locCham.xyz ), float3( 1.0/3.0 ) ); OUT.color.a = (opacity >= noiseTap.r) ? OUT.color.a : 0; #endif //OUT.color.rgb = aoTap; #if defined( PREPASS ) OUT.color.rgb = 1; #else // If this pixel isn't alphaed out, encode the amount of direct light hitting it in the alpha channel. OUT.color.a = OUT.color.a > 0.5 ? 1.0 + aoTap : OUT.color.a; #endif #endif #ifdef ALPHATESTENABLE clip(OUT.color.a-0.5f); #endif #ifdef ALPHATESTENABLE1 clip(OUT.color.a-(1.0/255.0)); #endif } // ------------------------------------------------------------------------------------------------------------------------------------------ #undef main #undef IN #undef OUT #undef v2f #undef f2f // ===================================================================================================================[TECHNIQUE CODE END]=== #if !defined(D_PLATFORM_GXM) #ifndef __ORBIS__ technique11 Opaque { pass pass0 { SetVertexShader( CompileShader( vs_5_0, Opaque_vs_main() ) ); SetPixelShader( CompileShader( ps_5_0, Opaque_fs_main() ) ); SetBlendState(ourBlendState, float4( 0.0f, 0.0f, 0.0f, 0.0f ), 0xFFFFFFFF); SetDepthStencilState(ourDepthStencilState,0); SetRasterizerState(ourRasterState); } } #endif #else technique Opaque { pass pass0 { VertexProgram = compile arbvp1 Opaque_vs_main(); FragmentProgram = compile arbfp1 Opaque_fs_main(); } } #endif D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx-` 1ALPHATESTENABLECHAMELEONCHAM_NORMEDGE_DETAILUV_CHAMUV_OFFSET`-GGGGGGGG?????AA?05spDXBCWxt莣Y=.8 RDEF  <Aw RD11< ($    ( 1 ; C I U  c k wLinearClampSamplerLinearWrapSamplerLinearWrapAnisoSamplernoise3dSmallTextexColortexDetailtexRamptexAotexEdgeMasksandLoIrrCubetexChamtexChamMask$Globalsw $ 20@Dhp@Dp@D~@D0@P`ptx|@D   0, @2 P< `J pT t^ xn |cameraNearTimesFarfloatcameraFarMinusNearcameraNearFarfloat4eyePositionWSmodelfloat4x48modelITmodelViewProjmodelIl_duvOffsetl_cl_sopacityvelvetIntvelvetRatiolodcolorCorrectsandBiassandScaleheightBiasUvheightScaleUvheightBiasYaoStepBiasIntlocalDudePosremoteDudePosuvMltchamColorchamEdgeColorchamLevelchamScalechamIsAlphaTestinShadowMicrosoft (R) HLSL Shader Compiler 10.1ISGNSV_POSITIONCOLORTEXCOORDOSGN, SV_TARGETSHEX8PjYF (Z` Z` Z`X(pUUXpUUXpUUXpUUXpUUXpUUX0pUUXpUUXpUUbbbbbre h6@ @8 @>>>EBCU"~` 6"8 $ECUr F~`/rF8rFrF8rFF8rF 8VF F F8r F rFF8 $ECUB F{`8B*:ECUw` /:8:@ @:: !:* !:@?4:@3:@?82F $ECUrFF~`/rF8rFrF82 $ECUrFF~`/rF8rFrF82V $+@82 FECUFF~` 82V $+@82 FECUFs` 8 :6 82F $ECUrFF~` /rF8 rF@ @ @ @rF8rFF82F $ECUFF~` 8::82F $ECUFF~` 6:6 '8 '@>6:A:@>8:* '6:A:@?8::8 '@ ף<6:A:@>8:* '::6:A::6:A: 8: '::6:A::6@::: ':@?4:@3:@?6rFArFF8rFrFF6*A::8::B*:+r@6rFArFF %8rFrFF8rFF+@+@6@: 6:A4: 8::6:A::6@?8::8::8::8::6rFArFF &8rFrFFFFD:8rF F F D:8rF 8rFF8rFFECUrFF~` /rF8 rF@ @ @ @rF6rF FF8 @?6@ : :+@8 :4 @3 @?6: A' :4 @3 @?+@8rF6@ff& :4:@3:@?6rFArFF8rFrFF8rFrFF8rFF8rFF 8rFr FF6B* +"@7  *1"@? B:@?7 * 6"@" 1"@"@ 6  >STAT SPDBMicrosoft C/C++ MSF 7.00 DSca8 <.1W^OhF90]TQ3 [ 0 ] = ONE ; DestBlendAlpha [ 0 ] = ONE ; BlendOpAlpha [ 0 ] = ADD ; RenderTargetWriteMask [ 0 ] = 15 ; AlphaToCoverageEnable = false ; } ; DepthStencilState ourDepthStencilState { DepthEnable = true ; DepthFunc = less ; StencilEnable = false ; } ; RasterizerState ourRasterState { CullMode = None ; DepthBias = 0.0f ; ScissorEnable = false ; MultiSampleEnable = false ; DepthClipEnable = false ; AntialiasedLineEnable = false ; } ; Z`BP"LuQ!AA$5lN8ʳ9g֚VUju#line 1 "D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Mesh_vs__Mesh_fs__37202.fx" #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" #line 10 BlendState ourBlendState { BlendEnable [ 0 ] = FALSE ; BlendEnable [ 1 ] = FALSE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = ONE ; DestBlendAlpha [ 0 ] = ONE ; BlendOpAlpha [ 0 ] = ADD ; RenderTargetWriteMask [ 0 ] = 15 ; AlphaToCoverageEnable = false ; } ; DepthStencilState ourDepthStencilState { DepthEnable = true ; DepthFunc = less ; StencilEnable = false ; } ; RasterizerState ourRasterState { CullMode = None ; DepthBias = 0.0f ; ScissorEnable = false ; MultiSampleEnable = false ; DepthClipEnable = false ; AntialiasedLineEnable = false ; } ; #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 8 #line 16 #line 20 #line 135 #line 140 #line 147 BlendState NoBlend_BlendState { BlendEnable [ 0 ] = FALSE ; } ; BlendState Alpha_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = Src_Alpha ; DestBlendAlpha [ 0 ] = Inv_Src_Alpha ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; BlendState Additive_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = ONE ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = Src_Alpha ; DestBlendAlpha [ 0 ] = ONE ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; #line 180 BlendState ParticleBlended_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = ONE ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = ONE ; DestBlendAlpha [ 0 ] = Inv_Src_Alpha ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; DepthStencilState NoDepthTest_NoDepthWrite_DepthState { DepthEnable = FALSE ; DepthWriteMask = Zero ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState NoDepthTest_DepthWrite_DepthState { DepthEnable = FALSE ; DepthWriteMask = All ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState DepthTest_NoDepthWrite_DepthState { DepthEnable = TRUE ; DepthWriteMask = Zero ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState DepthTest_DepthWrite_DepthState { DepthEnable = TRUE ; DepthWriteMask = All ; DepthFunc = Less ; StencilEnable = FALSE ; } ; RasterizerState NoCull_RasterizerState { CullMode = None ; } ; RasterizerState BackFaceCull_RasterizerState { CullMode = Back ; FrontCounterClockwise = TRUE ; } ; RasterizerState FrontFaceCull_RasterizerState { CullMode = Front ; FrontCounterClockwise = TRUE ; } ; #line 243 #line 246 #line 264 #line 269 sampler PointClampSampler : register ( s8 ) { Filter = Min_Mag_Mip_Point ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; } ; sampler LinearClampSampler : register ( s9 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; } ; sampler LinearWrapTSampler : register ( s10 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Clamp ; AddressV = Wrap ; AddressW = Clamp ; } ; sampler LinearWrapSampler : register ( s11 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; } ; sampler PointWrapSampler : register ( s12 ) { Filter = Min_Mag_Mip_Point ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; } ; sampler AnisoClampSampler : register ( s13 ) { Filter = ANISOTROPIC ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; MaxAnisotropy = 16 ; } ; sampler LinearWrapAnisoSampler : register ( s14 ) { Filter = ANISOTROPIC ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; MaxAnisotropy = 16 ; } ; sampler PointWrapAnisoSampler : register ( s15 ) { Filter = Min_Mag_Point_Mip_Linear ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; MaxAnisotropy = 16 ; } ; static const float kSRGB = 2.2f ; #line 358 #line 373 #line 408 #line 427 #line 435 #line 498 #line 516 #line 521 float cameraNearTimesFar ; float cameraFarMinusNear ; float4 cameraNearFar ; #line 527 float ConvertDepth ( float depth ) { #line 532 float viewSpaceZ = - ( cameraNearTimesFar / ( depth * cameraFarMinusNear - cameraNearFar . y ) ) ; return viewSpaceZ ; } #line 587 #line 592 static const float4x4 SCALE_BIAS = float4x4 ( float4 ( 0.5 , 0.0 , 0.0 , 0.5 ) , float4 ( 0.0 , - 0.5 , 0.0 , 0.5 ) , #line 598 float4 ( 0.0 , 0.0 , 0.5 , 0.5 ) , float4 ( 0.0 , 0.0 , 0.0 , 1.0 ) ) ; #line 613 #line 635 #line 642 #line 59 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" float4 eyePositionWS : eyePositionWS ; #line 64 float4x4 model : model ; float4x4 modelIT : modelit ; float4x4 modelViewProj : modelviewproj ; float4x4 modelI : modeli ; #line 80 float4 l_d ; #line 83 #line 87 #line 91 float4 uvOffset ; #line 99 #line 129 struct Opaque_vs_a2v { #line 135 float3 Position : POSITION ; float3 normal : NORMAL ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; } ; #line 163 #line 167 struct Opaque_vs_v2f { float4 position : SV_POSITION ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; float4 locCham : TEXCOORD2 ; float4 normalFr : TEXCOORD3 ; #line 177 #line 180 } ; #line 186 void Opaque_vs_main ( #line 189 in Opaque_vs_a2v Opaque_vs_IN , out Opaque_vs_v2f Opaque_vs_OUT ) { #line 199 float3 worldPos = mul ( float4 ( Opaque_vs_IN . Position . xyz , 1.0f ) , model ) . xyz ; Opaque_vs_OUT . position = mul ( float4 ( Opaque_vs_IN . Position . xyz , 1.0f ) , modelViewProj ) ; float3 worldNorm = normalize ( mul ( Opaque_vs_IN . normal , ( float3x3 ) modelIT ) ) ; Opaque_vs_OUT . color . rgb = Opaque_vs_IN . color . rgb ; Opaque_vs_OUT . color . a = Opaque_vs_IN . color . a ; Opaque_vs_OUT . uv0 = Opaque_vs_IN . uv0 ; Opaque_vs_OUT . uv1 = Opaque_vs_IN . uv1 ; Opaque_vs_OUT . uv0 += uvOffset . xyxy ; Opaque_vs_OUT . uv1 += uvOffset . xyxy ; Opaque_vs_OUT . locCham . xyz = worldPos ; Opaque_vs_OUT . locCham . w = Opaque_vs_IN . uv1 . w ; #line 220 #line 229 Opaque_vs_OUT . normalFr . xyz = worldNorm ; Opaque_vs_OUT . normalFr . w = 0 ; #line 244 #line 260 #line 282 } #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 642 #line 300 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" #line 307 #line 311 #line 316 Texture3D < float4 > noise3dSmallTex ; #line 324 #line 327 float4 l_c , l_s ; #line 330 float opacity ; float velvetInt , velvetRatio ; #line 335 float lod ; #line 338 float4x4 colorCorrect ; #line 341 Texture2D < float4 > texColor ; Texture2D < float4 > texDetail ; Texture2D < float4 > texRamp ; #line 346 Texture2D < float4 > texAo ; #line 349 Texture2D < float4 > texEdgeMask ; #line 352 Texture2D < float4 > sandFastTexture ; TextureCube < float4 > sandLoIrrCube ; #line 356 float4 sandBias ; float4 sandScale ; Texture2D < float4 > heightTexture ; float4 heightBiasUv ; float4 heightScaleUv ; float heightBiasY ; Texture2D < float4 > duneTexture ; Texture2D < float4 > duneColorTexture ; #line 368 #line 372 #line 375 float4 aoStepBiasInt ; #line 378 float4 localDudePos ; float4 remoteDudePos ; #line 383 float4 uvMlt ; #line 388 Texture2D < float4 > texCham ; Texture2D < float4 > texChamMask ; float4 chamColor ; float4 chamEdgeColor ; float chamLevel ; float chamScale ; float chamIsAlphaTest ; #line 402 float inShadow ; #line 410 struct Opaque_fs_v2f { float4 position : SV_POSITION ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; float4 locCham : TEXCOORD2 ; float4 normalFr : TEXCOORD3 ; #line 420 #line 423 } ; struct Opaque_fs_f2f { float4 color : SV_TARGET0 ; } ; #line 437 void Opaque_fs_main ( in Opaque_fs_v2f Opaque_fs_IN , out Opaque_fs_f2f Opaque_fs_OUT ) { Opaque_fs_OUT . color = Opaque_fs_IN . color ; #line 445 float3 noiseUv = 0.125 * Opaque_fs_IN . locCham . xyz ; #line 448 float2 noiseTap = noise3dSmallTex . Sample ( LinearWrapSampler , noiseUv ) . xy ; #line 454 float3 colorTap = Opaque_fs_IN . color . rgb * pow ( texColor . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) , kSRGB ) . rgb ; colorTap = mul ( ( float3x3 ) colorCorrect , colorTap ) ; #line 459 float alphaTap = Opaque_fs_IN . color . a * texColor . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ; #line 462 float2 aoUv = Opaque_fs_IN . uv0 . zw ; float aoTap = pow ( texAo . Sample ( LinearWrapSampler , aoUv ) . xy , 2.2f ) . g ; aoTap = saturate ( aoTap + aoStepBiasInt . y + aoStepBiasInt . z + 0.5 ) ; #line 467 float3 detailTap = ( float3 ) pow ( texDetail . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv1 . xy * uvMlt . z ) , kSRGB ) . rgb ; #line 470 float3 rampTap = ( float3 ) pow ( texRamp . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv1 . zw * uvMlt . z ) , kSRGB ) . rgb ; #line 473 float edgeDetail = 0.25 ; float edgeDetailTap = texEdgeMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . zw * uvMlt . y * 7 ) . x * texEdgeMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . zw * uvMlt . y * 3 ) . x ; #line 479 edgeDetail = edgeDetailTap ; #line 484 float3 chamTap = Opaque_fs_IN . color . rgb * float4 ( pow ( texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . xyz , 2.2f ) , texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ) . rgb ; float chamAlphaTap = Opaque_fs_IN . color . a * float4 ( pow ( texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . xyz , 2.2f ) , texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ) . a ; float chamMaskTap = float4 ( pow ( texChamMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . z ) . xyz , 2.2f ) , texChamMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . z ) . a ) . a ; float myChamLevel = chamLevel ; myChamLevel = myChamLevel * ( 1.0 - ( 0.48 - 0.13 * chamScale ) * chamIsAlphaTest ) + ( 0.25 - 0.02 * chamScale ) * chamIsAlphaTest ; float chamBase = myChamLevel - Opaque_fs_IN . locCham . w ; float chamScaledMaskTap = chamScale * ( chamMaskTap - myChamLevel ) ; float chamUnscaledAmount = chamBase + myChamLevel - chamScaledMaskTap ; float chamAmount = saturate ( ( chamUnscaledAmount - 0.5 ) / chamScale + 0.5 ) ; #line 498 colorTap = lerp ( colorTap , chamTap , chamAmount ) ; alphaTap = lerp ( alphaTap , chamAlphaTap , chamAmount ) ; #line 504 colorTap *= lerp ( float3 ( 1 , 1 , 1 ) , chamColor . xyz , chamAmount ) ; colorTap = lerp ( colorTap , chamEdgeColor . xyz , pow ( 1 - 2 * abs ( chamAmount - 0.5 ) , 6 ) ) ; #line 509 float3 normal = normalize ( Opaque_fs_IN . normalFr . xyz ) ; #line 519 float3 eye = eyePositionWS . xyz - Opaque_fs_IN . locCham . xyz ; float3 _view = normalize ( eye ) ; float3 light = normalize ( l_d . xyz ) ; float3 halfAngle = normalize ( _view + light ) ; #line 526 float3 albedo = colorTap * detailTap * rampTap ; float3 ambientColor = float4 ( pow ( sandLoIrrCube . Sample ( LinearClampSampler , normal ) . xyz , 2.2f ) , sandLoIrrCube . Sample ( LinearClampSampler , normal ) . a ) . rgb ; float3 diffuseColor = l_c . rgb ; float3 specularColor = l_s . rgb ; #line 535 float lightIntensity = dot ( normal , light ) ; #line 540 float lightMask = 1.5 * edgeDetail - 0.25 ; lightIntensity = saturate ( ( lightIntensity + lightMask ) * 20 ) ; float diffuseIntensity = saturate ( lightIntensity - inShadow ) ; float specularIntensity = 0 ; #line 565 #line 568 float sandIntensity = 0.0 ; #line 573 #line 576 #line 579 float sideIntensity = 0 ; #line 587 #line 656 #line 665 #line 671 #line 674 albedo = lerp ( albedo * aoTap , albedo , saturate ( diffuseIntensity - 0.65 ) ) ; #line 677 Opaque_fs_OUT . color . rgb = albedo * ( diffuseIntensity * diffuseColor + ambientColor ) ; #line 682 Opaque_fs_OUT . color . rgb += albedo * l_s . rgb * specularIntensity ; #line 688 Opaque_fs_OUT . color . a = alphaTap ; #line 695 #line 699 Opaque_fs_OUT . color . a = ( opacity >= noiseTap . r ) ? Opaque_fs_OUT . color . a : 0 ; #line 704 Opaque_fs_OUT . color . a = Opaque_fs_OUT . color . a > 0.5 ? 1.0 + aoTap : Opaque_fs_OUT . color . a ; clip ( Opaque_fs_OUT . color . a - 0.5f ) ; #line 714 } technique11 Opaque { pass pass0 { SetVertexShader ( CompileShader ( vs_5_0 , Opaque_vs_main ( ) ) ) ; SetPixelShader ( CompileShader ( ps_5_0 , Opaque_fs_main ( ) ) ) ; SetBlendState ( ourBlendState , float4 ( 0.0f , 0.0f , 0.0f , 0.0f ) , 0xFFFFFFFF ) ; SetDepthStencilState ( ourDepthStencilState , 0 ) ; SetRasterizerState ( ourRasterState ) ; } } #line 746 9D:\Dev\TGC\Journey\head\Journey\shaderd:\dev\tgc\journey\head\journey\shader#line 1 "D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Mesh_vs__Mesh_fs__37202.fx" #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" #line 10 BlendState ourBlendState { BlendEnable [ 0 ] = FALSE ; BlendEnable [ 1 ] = FALSE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha0)(0(8()B< G GMicrosoft (R) HLSL Shader Compiler 10.1=hlslFlags0x4005hlslTargetps_5_0hlslEntryOpaque_fs_mainhlslDefines /DALPHATESTENABLE=1 /DCHAM_NORM=1 /DEDGE_DETAIL=1 /DCHAMELEON=1 /DUV_OFFSET=1 /DPHYRE_D3DFX=1 /DUV_CHAM=16 Opaque_fs_main2> Opaque_fs_INP P P P   P P P P P   P$ $P( (P, ,P0 0P4 4P8 8P< <P@ @PD DPH HPL LPP PPT TPX XP\ \6> Opaque_fs_OUTP P P P   PX PX$PX(P XP P.>noiseUvP\,P\`P\` .> noiseTapP.>colorTapPH @XPH @XPH .>@alphaTapPH@.>@aoTapP t 2>detailTapP P $P (.>rampTapPll 0Pll 4Pll 82>@edgeDetailPd 6>@edgeDetailTapPx .>chamTapPd@PdDPdH2>@chamAlphaTapP2>@chamMaskTapP,,2>@myChamLevelPD<.>@chamBaseP l L:>@chamScaledMaskTapP 4,:>@chamUnscaledAmountPp 0,2>@chamAmountP ,.>normalP@PDPH.>lightP PP TP X.>albedoPDh8PDh8PDh82>ambientColorP P$P(2>diffuseColorP|0P|4P|86>@lightIntensityP|P82>@lightMaskP@6>@diffuseIntensityP4:>@specularIntensityPH.> kSRGBP4R kSRGB0h% 9\99t8($ [ [ ZD44\\,,HHhh,,HHtt00LLll((<<XXll44PP||  44HHdd,,DDdd||  ( ( @ @ \ \ | |             < < T T p p             , , H H d d             $ $ D D ` ` | |             $ $ @ @ X X t t           00LLhh        ((DDpp$$@ @ \ \ p p     ########4%4%HHddxx88TTpp,,PPll  44;9UNU Sg:444=;=;=;=;=;^1WCWQWQWQN0NDNJN LN LWy){###Su'w!!!FhFlFlnv iB<<< # !52A5+A5+A5)U5#U5#U5W55 5 5353?=?=I-EI-EIGK 5K IK IT%<T%<T#JT#PTRTR97979797><><><><N+NLNLNLNLNLg>]gB]gL[gL[gF]gF]gB]g>]g>]g8cg8cg8cg8cg8cgegegegeA?A?A?,*,*,*4(42*_$n$n$n% #31/&/-/-G#<G!CG!CGEGEE)AE)AECEC! V"V:PV:PV/RV/RVTVTVTVT_.L_.[_#]K$5K$IKI*(]#9]![]![k!?kCMk!i/ +/ +/-/-/-l Hp $@d D`| D@float4x4       18H tt|@float4n position color  uv0 0uv1 @locCham PnormalFr"`Opaque_fs_v2f color"Opaque_fs_f2f @ float3@float2 @           @ 18  #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 8 #line 16 #line 20 #line 135 #line 140 #line 147 BlendState NoBlend_BlendState { BlendEnable [ 0 ] = FALSE ; } ; BlendState Alpha_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = Src_Alpha ; DestBlendAlpha [ 0 ] = Inv_Src_Alpha ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; BlendState Additive_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = ONE ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = Src_Alpha ; DestBlendAlpha [ 0 ] = ONE ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; #line 180 BlendState ParticleBlended_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = ONE ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = ONE ; DestBlendAlpha [ 0 ] = Inv_Src_Alpha ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; DepthStencilState NoDepthTest_NoDepthWrite_DepthState { DepthEnable = FALSE ; DepthWriteMask = Zero ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState NoDepthTest_DepthWrite_DepthState { DepthEnable = FALSE ; DepthWriteMask = All ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState DepthTest_NoDepthWrite_DepthState { DepthEnable = TRUE ; DepthWriteMask = Zero ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState DepthTest_DepthWrite_DepthState { DepthEnable = TRUE ; DepthWriteMask = All ; DepthFunc = Less ; StencilEnable = FALSE ; } ; RasterizerState NoCull_RasterizerState { CullMode = None ; } ; RasterizerState BackFaceCull_RasterizerState { CullMode = Back ; FrontCounterClockwise = TRUE ; } ; RasterizerState FrontFaceCull_RasterizerState { CullMode = Front ; FrontCounterClockwise = TRUE ; } ; #line 243 #line 246 #line 264 #line 269 sampler PointClampSampler : register ( s8 ) { Filter = Min_Mag_Mip_Point ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; } ; sampler LinearClampSampler : register ( s9 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; } ; sampler LinearWrapTSampler : register ( s10 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Clamp ; AddressV = Wrap ; AddressW = Clamp ; } ; sampler LinearWrapSampler : register ( s11 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; } ; sampler PointWrapSampler : register ( s12 ) { Filter = Min_Mag_Mip_Point ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; } ; sampler AnisoClampSampler : register ( s13 ) { Filter = ANISOTROPIC ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; MaxAnisotropy = 16 ; } ; sampler LinearWrapAnisoSampler : register ( s14 ) { Filter = ANISOTROPIC ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; MaxAnisotropy = 16 ; } ; sampler PointWrapAnisoSampler : register ( s15 ) { Filter = Min_Mag_Point_Mip_Linear ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; MaxAnisotropy = 16 ; } ; static const float kSRGB = 2.2f ; #line 358 #line 373 #line 408 #line 427 #line 435 #line 498 #line 516 #line 521 float cameraNearTimesFar ; float cameraFarMinusNear ; float4 cameraNearFar ; #line 527 float ConvertDepth ( float depth ) { #line 532 float viewSpaceZ = - ( cameraNearTimesFar / ( depth * cameraFarMinusNear - cameraNearFar . y ) ) ; return viewSpaceZ ; } #line 587 #line 592 static const float4x4 SCALE_BIAS = float4x4 ( float4 ( 0.5 , 0.0 , 0.0 , 0.5 ) , float4 ( 0.0 , - 0.5 , 0.0 , 0.5 ) , #line 598 float4 ( 0.0 , 0.0 , 0.5 , 0.5 ) , float4 ( 0.0 , 0.0 , 0.0 , 1.0 ) ) ; #line 613 #line 635 #line 642 #line 59 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" float4 eyePositionWS : eyePositionWS ; #line 64 float4x4 model : model ; float4x4 modelIT : modelit ; float4x4 modelViewProj : modelviewproj ; float4x4 modelI : modeli ; #line 80 float4 l_d ; #line 83 #line 87 #line 91 float4 uvOffset ; #line 99 #line 129 struct Opaque_vs_a2v { #line 135 float3 Position : POSITION ; float3 normal : NORMAL ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; } ; #line 163 #line 167 struct Opaque_vs_v2f { float4 position : SV_POSITION ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; float4 locCham : TEXCOORD2 ; float4 normalFr : TEXCOORD3 ; #line 177 #line 180 } ; #line 186 void Opaque_vs_main ( #line 189 in Opaque_vs_a2v Opaque_vs_IN , out Opaque_vs_v2f Opaque_vs_OUT ) { #line 199 float3 worldPos = mul ( float4 ( Opaque_vs_IN . Position . xyz , 1.0f ) , model ) . xyz ; Opaque_vs_OUT . position = mul ( float4 ( Opaque_vs_IN . Position . xyz , 1.0f ) , modelViewProj ) ; float3 worldNorm = normalize ( mul ( Opaque_vs_IN . normal , ( float3x3 ) modelIT ) ) ; Opaque_vs_OUT . color . rgb = Opaque_vs_IN . color . rgb ; Opaque_vs_OUT . color . a = Opaque_vs_IN . color . a ; Opaque_vs_OUT . uv0 = Opaque_vs_IN . uv0 ; Opaque_vs_OUT . uv1 = Opaque_vs_IN . uv1 ; Opaque_vs_OUT . uv0 += uvOffset . xyxy ; Opaque_vs_OUT . uv1 += uvOffset . xyxy ; Opaque_vs_OUT . locCham . xyz = worldPos ; Opaque_vs_OUT . locCham . w = Opaque_vs_IN . uv1 . w ; #line 220 #line 229 Opaque_vs_OUT . normalFr . xyz = worldNorm ; Opaque_vs_OUT . normalFr . w = 0 ; #line 244 #line 260 #line 282 } #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 642 #line 300 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" #line 307 #line 311 #line 316 Texture3D < float4 > noise3dSmallTex ; #line 324 #line 327 float4 l_c , l_s ; #line 330 float opacity ; float velvetInt , velvetRatio ; #line 335 float lod ; #line 338 float4x4 colorCorrect ; #line 341 Texture2D < float4 > texColor ; Texture2D < float4 > texDetail ; Texture2D < float4 > texRamp ; #line 346 Texture2D < float4 > texAo ; #line 349 Texture2D < float4 > texEdgeMask ; #line 352 Texture2D < float4 > sandFastTexture ; TextureCube < float4 > sandLoIrrCube ; #line 356 float4 sandBias ; float4 sandScale ; Texture2D < float4 > heightTexture ; float4 heightBiasUv ; float4 heightScaleUv ; float heightBiasY ; Texture2D < float4 > duneTexture ; Texture2D < float4 > duneColorTexture ; #line 368 #line 372 #line 375 float4 aoStepBiasInt ; #line 378 float4 localDudePos ; float4 remoteDudePos ; #line 383 float4 uvMlt ; #line 388 Texture2D < float4 > texCham ; Texture2D < float4 > texChamMask ; float4 chamColor ; float4 chamEdgeColor ; float chamLevel ; float chamScale ; float chamIsAlphaTest ; #line 402 float inShadow ; #line 410 struct Opaque_fs_v2f { float4 position : SV_POSITION ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; float4 locCham : TEXCOORD2 ; float4 normalFr : TEXCOORD3 ; #line 420 #line 423 } ; struct Opaque_fs_f2f { float4 color : SV_TARGET0 ; } ; #line 437 void Opaque_fs_main ( in Opaque_fs_v2f Opaque_fs_IN , out Opaque_fs_f2f Opaque_fs_OUT ) { Opaque_fs_OUT . color = Opaque_fs_IN . color ; #line 445 float3 noiseUv = 0.125 * Opaque_fs_IN . locCham . xyz ; #line 448 float2 noiseTap = noise3dSmallTex . Sample ( LinearWrapSampler , noiseUv ) . xy ; #line 454 float3 colorTap = Opaque_fs_IN . color . rgb * pow ( texColor . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) , kSRGB ) . rgb ; colorTap = mul ( ( float3x3 ) colorCorrect , colorTap ) ; #line 459 float alphaTap = Opaque_fs_IN . color . a * texColor . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ; #line 462 float2 aoUv = Opaque_fs_IN . uv0 . zw ; float aoTap = pow ( texAo . Sample ( LinearWrapSampler , aoUv ) . xy , 2.2f ) . g ; aoTap = saturate ( aoTap + aoStepBiasInt . y + aoStepBiasInt . z + 0.5 ) ; #line 467 float3 detailTap = ( float3 ) pow ( texDetail . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv1 . xy * uvMlt . z ) , kSRGB ) . rgb ; #line 470 float3 rampTap = ( float3 ) pow ( texRamp . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv1 . zw * uvMlt . z ) , kSRGB ) . rgb ; #line 473 float edgeDetail = 0.25 ; float edgeDetailTap = texEdgeMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . zw * uvMlt . y * 7 ) . x * texEdgeMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . zw * uvMlt . y * 3 ) . x ; #line 479 edgeDetail = edgeDetailTap ; #line 484 float3 chamTap = Opaque_fs_IN . color . rgb * float4 ( pow ( texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . xyz , 2.2f ) , texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ) . rgb ; float chamAlphaTap = Opaque_fs_IN . color . a * float4 ( pow ( texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . xyz , 2.2f ) , texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ) . a ; float chamMaskTap = float4 ( pow ( texChamMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . z ) . xyz , 2.2f ) , texChamMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . z ) . a ) . a ; float myChamLevel = chamLevel ; myChamLevel = myChamLevel * ( 1.0 - ( 0.48 - 0.13 * chamScale ) * chamIsAlphaTest ) + ( 0.25 - 0.02 * chamScale ) * chamIsAlphaTest ; float chamBase = myChamLevel - Opaque_fs_IN . locCham . w ; float chamScaledMaskTap = chamScale * ( chamMaskTap - myChamLevel ) ; float chamUnscaledAmount = chamBase + myChamLevel - chamScaledMaskTap ; float chamAmount = saturate ( ( chamUnscaledAmount - 0.5 ) / chamScale + 0.5 ) ; #line 498 colorTap = lerp ( colorTap , chamTap , chamAmount ) ; alphaTap = lerp ( alphaTap , chamAlphaTap , chamAmount ) ; #line 504 colorTap *= lerp ( float3 ( 1 , 1 , 1 ) , chamColor . xyz , chamAmount ) ; colorTap = lerp ( colorTap , chamEdgeColor . xyz , pow ( 1 - 2 * abs ( chamAmount - 0.5 ) , 6 ) ) ; #line 509 float3 normal = normalize ( Opaque_fs_IN . normalFr . xyz ) ; #line 519 float3 eye = eyePositionWS . xyz - Opaque_fs_IN . locCham . xyz ; float3 _view = normalize ( eye ) ; float3 light = normalize ( l_d . xyz ) ; float3 halfAngle = normalize ( _view + light ) ; #line 526 float3 albedo = colorTap * detailTap * rampTap ; float3 ambientColor = float4 ( pow ( sandLoIrrCube . Sample ( LinearClampSampler , normal ) . xyz , 2.2f ) , sandLoIrrCube . Sample ( LinearClampSampler , normal ) . a ) . rgb ; float3 diffuseColor = l_c . rgb ; float3 specularColor = l_s . rgb ; #line 535 float lightIntensity = dot ( normal , light ) ; #line 540 float lightMask = 1.5 * edgeDetail - 0.25 ; lightIntensity = saturate ( ( lightIntensity + lightMask ) * 20 ) ; float diffuseIntensity = saturate ( lightIntensity - inShadow ) ; float specularIntensity = 0 ; #line 565 #line 568 float sandIntensity = 0.0 ; #line 573 #line 576 #line 579 float sideIntensity = 0 ; #line 587 #line 656 #line 665 #line 671 #line 674 albedo = lerp ( albedo * aoTap , albedo , saturate ( diffuseIntensity - 0.65 ) ) ; #line 677 Opaque_fs_OUT . color . rgb = albedo * ( diffuseIntensity * diffuseColor + ambientColor ) ; #line 682 Opaque_fs_OUT . color . rgb += albedo * l_s . rgb * specularIntensity ; #line 688 Opaque_fs_OUT . color . a = alphaTap ; #line 695 #line 699 Opaque_fs_OUT . color . a = ( opacity >= noiseTap . r ) ? Opaque_fs_OUT . color . a : 0 ; #line 704 Opaque_fs_OUT . color . a = Opaque_fs_OUT . color . a > 0.5 ? 1.0 + aoTap : Opaque_fs_OUT . color . a ; clip ( Opaque_fs_OUT . color . a - 0.5f ) ; #line 714 } technique11 Opaque { pass pass0 { SetVertexShader ( CompileShader ( vs_5_0 , Opaque_vs_main ( ) ) ) ; SetPixelShader ( CompileShader ( ps_5_0 , Opaque_fs_main ( ) ) ) ; SetBlendState ( ourBlendState , float4 ( 0.0f , 0.0f , 0.0f , 0.0f ) , 0xFFFFFFFF ) ; SetDepthStencilState ( ourDepthStencilState , 0 ) ; SetRasterizerState ( ourRasterState ) ; } } #line 746 D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Mesh_vs__Mesh_fs__37202.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh ( 9P9\9)D3DSHDR8 ` /p!EEa!! %AIqe}@@ @@@ $0<HT`lx ,8%Opaque_fs_main&Q  LinearClampSampler&Q  LinearWrapSampler*Q LinearWrapAnisoSamplerR kSRGBQ0l_d"Qnoise3dSmallTexQPl_cQ`l_sQpopacity"QcolorCorrectQtexColorQtexDetailQtexRampQtexAoQtexEdgeMask"Qj: /sandLoIrrCube"QaoStepBiasIntQ@uvMltQtexChamQtexChamMaskQPchamColor"Q`chamEdgeColorQpchamLevelQtchamScale"QxchamIsAlphaTestQ|inShadow 8 ` Opaque_fs_mainnonew 1 ?\T ,8 ` Opaque_fs_mainnone-.8 `8'yD:\Dev\TGC\Journey\head\Journey\shaderD:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Mesh_vs__Mesh_fs__37202.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh.1W^OhF90]TT/LinkInfo/names/src/headerblock/src/files/d:\dev\tgc\journey\head\journey\shader" Q3 '8 :8 |(X,d_98^]:%;<=>?@ABCDEFGHIJKLMNOPQRSTUV&  !"#$'()*+,-./01234567WXY[Z\` 8Ph X|\x@tDp00 @P`XpTtPxL| @1H 0@pP``0@1@1`@1 p@1 X|\x@tDp00 @P`XpTtPxL| @1H 0@pP``0@1@1`@1 p@1`4x444444 484P4h4444444(444@4`4x444444 484P4h44444 44( 444@4@00@ @@P@`@Xp@Tt@Px@L|@1 @@@@@@H@@ @0@@@pP@``@Dp@@t@\x@X|G4@G4(G4G4G4G4G4G4C4B4hB4PB48B4 B4B4D4B4B4B4B4xB4`1@01@1`@1 @pAnisoClampSamplerLinearClampSamplerLinearWrapAnisoSamplerLinearWrapSamplerLinearWrapTSamplerPointClampSamplerPointWrapAnisoSamplerPointWrapSampleraoStepBiasIntchamColorchamEdgeColorchamIsAlphaTestchamLevelchamScalecolorCorrectduneColorTextureduneTextureheightBiasUvheightBiasYheightScaleUvheightTextureinShadowl_cl_dl_slocalDudePoslodmodelmodelImodelITmodelViewProjnoise3dSmallTexopacityremoteDudePossandBiassandFastTexturesandLoIrrCubesandScaletexAotexChamtexChamMasktexColortexDetailtexEdgeMasktexRampuvMltuvOffsetvelvetIntvelvetRatio  05sv05spOpaque_fs_mainOpaque_vs_mainj 8P}Rh}RCOLORNORMALPOSITIONTEXCOORD05svDXBC DR8p, x  RDEFh<A_RD11< ($ \$Globals\   0@,Pp@,X@,f@,m0q@zP~`ptx|@, 0@P$`2p<tFxV|cameraNearTimesFarfloatcameraFarMinusNearcameraNearFarfloat4eyePositionWSmodelfloat4x4 modelITmodelViewProjmodelIl_duvOffsetl_cl_sopacityvelvetIntvelvetRatiolodcolorCorrectsandBiassandScaleheightBiasUvheightScaleUvheightBiasYaoStepBiasIntlocalDudePosremoteDudePosuvMltchamColorchamEdgeColorchamLevelchamScalechamIsAlphaTestinShadowMicrosoft (R) HLSL Shader Compiler 10.1ISGNPOSITIONNORMALCOLORTEXCOORDOSGNSV_POSITIONCOLORTEXCOORDSHEXDPjYF _r_r___g e e e e e h6rF6@?FF "FF BFF  FF " FF B FF  FF FF "FF BFF FFD:8rF6r F6 :6F6F FF  FF 6r F6 :6r F+ @>STAT  SPDBMicrosoft C/C++ MSF 7.00 DSW|T8 <.1W^4ޙmAx +Q3 [ 0 ] = ONE ; DestBlendAlpha [ 0 ] = ONE ; BlendOpAlpha [ 0 ] = ADD ; RenderTargetWriteMask [ 0 ] = 15 ; AlphaToCoverageEnable = false ; } ; DepthStencilState ourDepthStencilState { DepthEnable = true ; DepthFunc = less ; StencilEnable = false ; } ; RasterizerState ourRasterState { CullMode = None ; DepthBias = 0.0f ; ScissorEnable = false ; MultiSampleEnable = false ; DepthClipEnable = false ; AntialiasedLineEnable = false ; } ; LZ; dPh&g79A#line 1 "D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Mesh_vs__Mesh_fs__37202.fx" #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" #line 10 BlendState ourBlendState { BlendEnable [ 0 ] = FALSE ; BlendEnable [ 1 ] = FALSE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = ONE ; DestBlendAlpha [ 0 ] = ONE ; BlendOpAlpha [ 0 ] = ADD ; RenderTargetWriteMask [ 0 ] = 15 ; AlphaToCoverageEnable = false ; } ; DepthStencilState ourDepthStencilState { DepthEnable = true ; DepthFunc = less ; StencilEnable = false ; } ; RasterizerState ourRasterState { CullMode = None ; DepthBias = 0.0f ; ScissorEnable = false ; MultiSampleEnable = false ; DepthClipEnable = false ; AntialiasedLineEnable = false ; } ; #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 8 #line 16 #line 20 #line 135 #line 140 #line 147 BlendState NoBlend_BlendState { BlendEnable [ 0 ] = FALSE ; } ; BlendState Alpha_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = Src_Alpha ; DestBlendAlpha [ 0 ] = Inv_Src_Alpha ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; BlendState Additive_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = ONE ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = Src_Alpha ; DestBlendAlpha [ 0 ] = ONE ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; #line 180 BlendState ParticleBlended_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = ONE ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = ONE ; DestBlendAlpha [ 0 ] = Inv_Src_Alpha ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; DepthStencilState NoDepthTest_NoDepthWrite_DepthState { DepthEnable = FALSE ; DepthWriteMask = Zero ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState NoDepthTest_DepthWrite_DepthState { DepthEnable = FALSE ; DepthWriteMask = All ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState DepthTest_NoDepthWrite_DepthState { DepthEnable = TRUE ; DepthWriteMask = Zero ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState DepthTest_DepthWrite_DepthState { DepthEnable = TRUE ; DepthWriteMask = All ; DepthFunc = Less ; StencilEnable = FALSE ; } ; RasterizerState NoCull_RasterizerState { CullMode = None ; } ; RasterizerState BackFaceCull_RasterizerState { CullMode = Back ; FrontCounterClockwise = TRUE ; } ; RasterizerState FrontFaceCull_RasterizerState { CullMode = Front ; FrontCounterClockwise = TRUE ; } ; #line 243 #line 246 #line 264 #line 269 sampler PointClampSampler : register ( s8 ) { Filter = Min_Mag_Mip_Point ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; } ; sampler LinearClampSampler : register ( s9 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; } ; sampler LinearWrapTSampler : register ( s10 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Clamp ; AddressV = Wrap ; AddressW = Clamp ; } ; sampler LinearWrapSampler : register ( s11 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; } ; sampler PointWrapSampler : register ( s12 ) { Filter = Min_Mag_Mip_Point ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; } ; sampler AnisoClampSampler : register ( s13 ) { Filter = ANISOTROPIC ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; MaxAnisotropy = 16 ; } ; sampler LinearWrapAnisoSampler : register ( s14 ) { Filter = ANISOTROPIC ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; MaxAnisotropy = 16 ; } ; sampler PointWrapAnisoSampler : register ( s15 ) { Filter = Min_Mag_Point_Mip_Linear ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; MaxAnisotropy = 16 ; } ; static const float kSRGB = 2.2f ; #line 358 #line 373 #line 408 #line 427 #line 435 #line 498 #line 516 #line 521 float cameraNearTimesFar ; float cameraFarMinusNear ; float4 cameraNearFar ; #line 527 float ConvertDepth ( float depth ) { #line 532 float viewSpaceZ = - ( cameraNearTimesFar / ( depth * cameraFarMinusNear - cameraNearFar . y ) ) ; return viewSpaceZ ; } #line 587 #line 592 static const float4x4 SCALE_BIAS = float4x4 ( float4 ( 0.5 , 0.0 , 0.0 , 0.5 ) , float4 ( 0.0 , - 0.5 , 0.0 , 0.5 ) , #line 598 float4 ( 0.0 , 0.0 , 0.5 , 0.5 ) , float4 ( 0.0 , 0.0 , 0.0 , 1.0 ) ) ; #line 613 #line 635 #line 642 #line 59 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" float4 eyePositionWS : eyePositionWS ; #line 64 float4x4 model : model ; float4x4 modelIT : modelit ; float4x4 modelViewProj : modelviewproj ; float4x4 modelI : modeli ; #line 80 float4 l_d ; #line 83 #line 87 #line 91 float4 uvOffset ; #line 99 #line 129 struct Opaque_vs_a2v { #line 135 float3 Position : POSITION ; float3 normal : NORMAL ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; } ; #line 163 #line 167 struct Opaque_vs_v2f { float4 position : SV_POSITION ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; float4 locCham : TEXCOORD2 ; float4 normalFr : TEXCOORD3 ; #line 177 #line 180 } ; #line 186 void Opaque_vs_main ( #line 189 in Opaque_vs_a2v Opaque_vs_IN , out Opaque_vs_v2f Opaque_vs_OUT ) { #line 199 float3 worldPos = mul ( float4 ( Opaque_vs_IN . Position . xyz , 1.0f ) , model ) . xyz ; Opaque_vs_OUT . position = mul ( float4 ( Opaque_vs_IN . Position . xyz , 1.0f ) , modelViewProj ) ; float3 worldNorm = normalize ( mul ( Opaque_vs_IN . normal , ( float3x3 ) modelIT ) ) ; Opaque_vs_OUT . color . rgb = Opaque_vs_IN . color . rgb ; Opaque_vs_OUT . color . a = Opaque_vs_IN . color . a ; Opaque_vs_OUT . uv0 = Opaque_vs_IN . uv0 ; Opaque_vs_OUT . uv1 = Opaque_vs_IN . uv1 ; Opaque_vs_OUT . uv0 += uvOffset . xyxy ; Opaque_vs_OUT . uv1 += uvOffset . xyxy ; Opaque_vs_OUT . locCham . xyz = worldPos ; Opaque_vs_OUT . locCham . w = Opaque_vs_IN . uv1 . w ; #line 220 #line 229 Opaque_vs_OUT . normalFr . xyz = worldNorm ; Opaque_vs_OUT . normalFr . w = 0 ; #line 244 #line 260 #line 282 } #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 642 #line 300 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" #line 307 #line 311 #line 316 Texture3D < float4 > noise3dSmallTex ; #line 324 #line 327 float4 l_c , l_s ; #line 330 float opacity ; float velvetInt , velvetRatio ; #line 335 float lod ; #line 338 float4x4 colorCorrect ; #line 341 Texture2D < float4 > texColor ; Texture2D < float4 > texDetail ; Texture2D < float4 > texRamp ; #line 346 Texture2D < float4 > texAo ; #line 349 Texture2D < float4 > texEdgeMask ; #line 352 Texture2D < float4 > sandFastTexture ; TextureCube < float4 > sandLoIrrCube ; #line 356 float4 sandBias ; float4 sandScale ; Texture2D < float4 > heightTexture ; float4 heightBiasUv ; float4 heightScaleUv ; float heightBiasY ; Texture2D < float4 > duneTexture ; Texture2D < float4 > duneColorTexture ; #line 368 #line 372 #line 375 float4 aoStepBiasInt ; #line 378 float4 localDudePos ; float4 remoteDudePos ; #line 383 float4 uvMlt ; #line 388 Texture2D < float4 > texCham ; Texture2D < float4 > texChamMask ; float4 chamColor ; float4 chamEdgeColor ; float chamLevel ; float chamScale ; float chamIsAlphaTest ; #line 402 float inShadow ; #line 410 struct Opaque_fs_v2f { float4 position : SV_POSITION ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; float4 locCham : TEXCOORD2 ; float4 normalFr : TEXCOORD3 ; #line 420 #line 423 } ; struct Opaque_fs_f2f { float4 color : SV_TARGET0 ; } ; #line 437 void Opaque_fs_main ( in Opaque_fs_v2f Opaque_fs_IN , out Opaque_fs_f2f Opaque_fs_OUT ) { Opaque_fs_OUT . color = Opaque_fs_IN . color ; #line 445 float3 noiseUv = 0.125 * Opaque_fs_IN . locCham . xyz ; #line 448 float2 noiseTap = noise3dSmallTex . Sample ( LinearWrapSampler , noiseUv ) . xy ; #line 454 float3 colorTap = Opaque_fs_IN . color . rgb * pow ( texColor . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) , kSRGB ) . rgb ; colorTap = mul ( ( float3x3 ) colorCorrect , colorTap ) ; #line 459 float alphaTap = Opaque_fs_IN . color . a * texColor . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ; #line 462 float2 aoUv = Opaque_fs_IN . uv0 . zw ; float aoTap = pow ( texAo . Sample ( LinearWrapSampler , aoUv ) . xy , 2.2f ) . g ; aoTap = saturate ( aoTap + aoStepBiasInt . y + aoStepBiasInt . z + 0.5 ) ; #line 467 float3 detailTap = ( float3 ) pow ( texDetail . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv1 . xy * uvMlt . z ) , kSRGB ) . rgb ; #line 470 float3 rampTap = ( float3 ) pow ( texRamp . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv1 . zw * uvMlt . z ) , kSRGB ) . rgb ; #line 473 float edgeDetail = 0.25 ; float edgeDetailTap = texEdgeMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . zw * uvMlt . y * 7 ) . x * texEdgeMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . zw * uvMlt . y * 3 ) . x ; #line 479 edgeDetail = edgeDetailTap ; #line 484 float3 chamTap = Opaque_fs_IN . color . rgb * float4 ( pow ( texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . xyz , 2.2f ) , texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ) . rgb ; float chamAlphaTap = Opaque_fs_IN . color . a * float4 ( pow ( texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . xyz , 2.2f ) , texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ) . a ; float chamMaskTap = float4 ( pow ( texChamMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . z ) . xyz , 2.2f ) , texChamMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . z ) . a ) . a ; float myChamLevel = chamLevel ; myChamLevel = myChamLevel * ( 1.0 - ( 0.48 - 0.13 * chamScale ) * chamIsAlphaTest ) + ( 0.25 - 0.02 * chamScale ) * chamIsAlphaTest ; float chamBase = myChamLevel - Opaque_fs_IN . locCham . w ; float chamScaledMaskTap = chamScale * ( chamMaskTap - myChamLevel ) ; float chamUnscaledAmount = chamBase + myChamLevel - chamScaledMaskTap ; float chamAmount = saturate ( ( chamUnscaledAmount - 0.5 ) / chamScale + 0.5 ) ; #line 498 colorTap = lerp ( colorTap , chamTap , chamAmount ) ; alphaTap = lerp ( alphaTap , chamAlphaTap , chamAmount ) ; #line 504 colorTap *= lerp ( float3 ( 1 , 1 , 1 ) , chamColor . xyz , chamAmount ) ; colorTap = lerp ( colorTap , chamEdgeColor . xyz , pow ( 1 - 2 * abs ( chamAmount - 0.5 ) , 6 ) ) ; #line 509 float3 normal = normalize ( Opaque_fs_IN . normalFr . xyz ) ; #line 519 float3 eye = eyePositionWS . xyz - Opaque_fs_IN . locCham . xyz ; float3 _view = normalize ( eye ) ; float3 light = normalize ( l_d . xyz ) ; float3 halfAngle = normalize ( _view + light ) ; #line 526 float3 albedo = colorTap * detailTap * rampTap ; float3 ambientColor = float4 ( pow ( sandLoIrrCube . Sample ( LinearClampSampler , normal ) . xyz , 2.2f ) , sandLoIrrCube . Sample ( LinearClampSampler , normal ) . a ) . rgb ; float3 diffuseColor = l_c . rgb ; float3 specularColor = l_s . rgb ; #line 535 float lightIntensity = dot ( normal , light ) ; #line 540 float lightMask = 1.5 * edgeDetail - 0.25 ; lightIntensity = saturate ( ( lightIntensity + lightMask ) * 20 ) ; float diffuseIntensity = saturate ( lightIntensity - inShadow ) ; float specularIntensity = 0 ; #line 565 #line 568 float sandIntensity = 0.0 ; #line 573 #line 576 #line 579 float sideIntensity = 0 ; #line 587 #line 656 #line 665 #line 671 #line 674 albedo = lerp ( albedo * aoTap , albedo , saturate ( diffuseIntensity - 0.65 ) ) ; #line 677 Opaque_fs_OUT . color . rgb = albedo * ( diffuseIntensity * diffuseColor + ambientColor ) ; #line 682 Opaque_fs_OUT . color . rgb += albedo * l_s . rgb * specularIntensity ; #line 688 Opaque_fs_OUT . color . a = alphaTap ; #line 695 #line 699 Opaque_fs_OUT . color . a = ( opacity >= noiseTap . r ) ? Opaque_fs_OUT . color . a : 0 ; #line 704 Opaque_fs_OUT . color . a = Opaque_fs_OUT . color . a > 0.5 ? 1.0 + aoTap : Opaque_fs_OUT . color . a ; clip ( Opaque_fs_OUT . color . a - 0.5f ) ; #line 714 } technique11 Opaque { pass pass0 { SetVertexShader ( CompileShader ( vs_5_0 , Opaque_vs_main ( ) ) ) ; SetPixelShader ( CompileShader ( ps_5_0 , Opaque_fs_main ( ) ) ) ; SetBlendState ( ourBlendState , float4 ( 0.0f , 0.0f , 0.0f , 0.0f ) , 0xFFFFFFFF ) ; SetDepthStencilState ( ourDepthStencilState , 0 ) ; SetRasterizerState ( ourRasterState ) ; } } #line 746 9D:\Dev\TGC\Journey\head\Journey\shaderd:\dev\tgc\journey\head\journey\shader#line 1 "D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Mesh_vs__Mesh_fs__37202.fx" #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" #line 10 BlendState ourBlendState { BlendEnable [ 0 ] = FALSE ; BlendEnable [ 1 ] = FALSE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha0)(0(8()B< G GMicrosoft (R) HLSL Shader Compiler 10.1=hlslFlags0x4005hlslTargetvs_5_0hlslEntryOpaque_vs_mainhlslDefines /DALPHATESTENABLE=1 /DCHAM_NORM=1 /DEDGE_DETAIL=1 /DCHAMELEON=1 /DUV_OFFSET=1 /DPHYRE_D3DFX=1 /DUV_CHAM=16LOpaque_vs_main2> Opaque_vs_INPPPP PPP P$P (P$,P(0P,4P08P4<P8@P<DP@HPDL6> Opaque_vs_OUTPPPPTTPXXP\\P@@PDDPHHPLLP00P44P88P<<P  P$$P((P,,PPPPPPPP  P 4 P$4$P(4(P,4,P0@0P4@4P8@8P<@<.>worldPosPPP0P42>worldNormP`P`P`0h% 9\99D 4|44TTtt00DD``tt,,@@]U]U]U]U]Uh fh fh fh f[$W[$W[$W[Y[Y[Y><:8.,.,,*,*.,:80.&$ <X| 18 88@@ float3@float4Z Position  normal color (uv0 8uv1"HOpaque_vs_a2vn position color  uv0 0uv1 @locCham PnormalFr"`Opaque_vs_v2f @@float4x4        18  #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 8 #line 16 #line 20 #line 135 #line 140 #line 147 BlendState NoBlend_BlendState { BlendEnable [ 0 ] = FALSE ; } ; BlendState Alpha_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = Src_Alpha ; DestBlendAlpha [ 0 ] = Inv_Src_Alpha ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; BlendState Additive_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = ONE ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = Src_Alpha ; DestBlendAlpha [ 0 ] = ONE ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; #line 180 BlendState ParticleBlended_BlendState { BlendEnable [ 0 ] = TRUE ; SrcBlend [ 0 ] = ONE ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADD ; SrcBlendAlpha [ 0 ] = ONE ; DestBlendAlpha [ 0 ] = Inv_Src_Alpha ; BlendOpAlpha [ 0 ] = ADD ; BlendEnable [ 1 ] = FALSE ; } ; DepthStencilState NoDepthTest_NoDepthWrite_DepthState { DepthEnable = FALSE ; DepthWriteMask = Zero ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState NoDepthTest_DepthWrite_DepthState { DepthEnable = FALSE ; DepthWriteMask = All ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState DepthTest_NoDepthWrite_DepthState { DepthEnable = TRUE ; DepthWriteMask = Zero ; DepthFunc = Less ; StencilEnable = FALSE ; } ; DepthStencilState DepthTest_DepthWrite_DepthState { DepthEnable = TRUE ; DepthWriteMask = All ; DepthFunc = Less ; StencilEnable = FALSE ; } ; RasterizerState NoCull_RasterizerState { CullMode = None ; } ; RasterizerState BackFaceCull_RasterizerState { CullMode = Back ; FrontCounterClockwise = TRUE ; } ; RasterizerState FrontFaceCull_RasterizerState { CullMode = Front ; FrontCounterClockwise = TRUE ; } ; #line 243 #line 246 #line 264 #line 269 sampler PointClampSampler : register ( s8 ) { Filter = Min_Mag_Mip_Point ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; } ; sampler LinearClampSampler : register ( s9 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; } ; sampler LinearWrapTSampler : register ( s10 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Clamp ; AddressV = Wrap ; AddressW = Clamp ; } ; sampler LinearWrapSampler : register ( s11 ) { Filter = Min_Mag_Mip_Linear ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; } ; sampler PointWrapSampler : register ( s12 ) { Filter = Min_Mag_Mip_Point ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; } ; sampler AnisoClampSampler : register ( s13 ) { Filter = ANISOTROPIC ; AddressU = Clamp ; AddressV = Clamp ; AddressW = Clamp ; MaxAnisotropy = 16 ; } ; sampler LinearWrapAnisoSampler : register ( s14 ) { Filter = ANISOTROPIC ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; MaxAnisotropy = 16 ; } ; sampler PointWrapAnisoSampler : register ( s15 ) { Filter = Min_Mag_Point_Mip_Linear ; AddressU = Wrap ; AddressV = Wrap ; AddressW = Wrap ; MaxAnisotropy = 16 ; } ; static const float kSRGB = 2.2f ; #line 358 #line 373 #line 408 #line 427 #line 435 #line 498 #line 516 #line 521 float cameraNearTimesFar ; float cameraFarMinusNear ; float4 cameraNearFar ; #line 527 float ConvertDepth ( float depth ) { #line 532 float viewSpaceZ = - ( cameraNearTimesFar / ( depth * cameraFarMinusNear - cameraNearFar . y ) ) ; return viewSpaceZ ; } #line 587 #line 592 static const float4x4 SCALE_BIAS = float4x4 ( float4 ( 0.5 , 0.0 , 0.0 , 0.5 ) , float4 ( 0.0 , - 0.5 , 0.0 , 0.5 ) , #line 598 float4 ( 0.0 , 0.0 , 0.5 , 0.5 ) , float4 ( 0.0 , 0.0 , 0.0 , 1.0 ) ) ; #line 613 #line 635 #line 642 #line 59 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" float4 eyePositionWS : eyePositionWS ; #line 64 float4x4 model : model ; float4x4 modelIT : modelit ; float4x4 modelViewProj : modelviewproj ; float4x4 modelI : modeli ; #line 80 float4 l_d ; #line 83 #line 87 #line 91 float4 uvOffset ; #line 99 #line 129 struct Opaque_vs_a2v { #line 135 float3 Position : POSITION ; float3 normal : NORMAL ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; } ; #line 163 #line 167 struct Opaque_vs_v2f { float4 position : SV_POSITION ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; float4 locCham : TEXCOORD2 ; float4 normalFr : TEXCOORD3 ; #line 177 #line 180 } ; #line 186 void Opaque_vs_main ( #line 189 in Opaque_vs_a2v Opaque_vs_IN , out Opaque_vs_v2f Opaque_vs_OUT ) { #line 199 float3 worldPos = mul ( float4 ( Opaque_vs_IN . Position . xyz , 1.0f ) , model ) . xyz ; Opaque_vs_OUT . position = mul ( float4 ( Opaque_vs_IN . Position . xyz , 1.0f ) , modelViewProj ) ; float3 worldNorm = normalize ( mul ( Opaque_vs_IN . normal , ( float3x3 ) modelIT ) ) ; Opaque_vs_OUT . color . rgb = Opaque_vs_IN . color . rgb ; Opaque_vs_OUT . color . a = Opaque_vs_IN . color . a ; Opaque_vs_OUT . uv0 = Opaque_vs_IN . uv0 ; Opaque_vs_OUT . uv1 = Opaque_vs_IN . uv1 ; Opaque_vs_OUT . uv0 += uvOffset . xyxy ; Opaque_vs_OUT . uv1 += uvOffset . xyxy ; Opaque_vs_OUT . locCham . xyz = worldPos ; Opaque_vs_OUT . locCham . w = Opaque_vs_IN . uv1 . w ; #line 220 #line 229 Opaque_vs_OUT . normalFr . xyz = worldNorm ; Opaque_vs_OUT . normalFr . w = 0 ; #line 244 #line 260 #line 282 } #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 642 #line 300 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fx" #line 307 #line 311 #line 316 Texture3D < float4 > noise3dSmallTex ; #line 324 #line 327 float4 l_c , l_s ; #line 330 float opacity ; float velvetInt , velvetRatio ; #line 335 float lod ; #line 338 float4x4 colorCorrect ; #line 341 Texture2D < float4 > texColor ; Texture2D < float4 > texDetail ; Texture2D < float4 > texRamp ; #line 346 Texture2D < float4 > texAo ; #line 349 Texture2D < float4 > texEdgeMask ; #line 352 Texture2D < float4 > sandFastTexture ; TextureCube < float4 > sandLoIrrCube ; #line 356 float4 sandBias ; float4 sandScale ; Texture2D < float4 > heightTexture ; float4 heightBiasUv ; float4 heightScaleUv ; float heightBiasY ; Texture2D < float4 > duneTexture ; Texture2D < float4 > duneColorTexture ; #line 368 #line 372 #line 375 float4 aoStepBiasInt ; #line 378 float4 localDudePos ; float4 remoteDudePos ; #line 383 float4 uvMlt ; #line 388 Texture2D < float4 > texCham ; Texture2D < float4 > texChamMask ; float4 chamColor ; float4 chamEdgeColor ; float chamLevel ; float chamScale ; float chamIsAlphaTest ; #line 402 float inShadow ; #line 410 struct Opaque_fs_v2f { float4 position : SV_POSITION ; float4 color : COLOR0 ; float4 uv0 : TEXCOORD0 ; float4 uv1 : TEXCOORD1 ; float4 locCham : TEXCOORD2 ; float4 normalFr : TEXCOORD3 ; #line 420 #line 423 } ; struct Opaque_fs_f2f { float4 color : SV_TARGET0 ; } ; #line 437 void Opaque_fs_main ( in Opaque_fs_v2f Opaque_fs_IN , out Opaque_fs_f2f Opaque_fs_OUT ) { Opaque_fs_OUT . color = Opaque_fs_IN . color ; #line 445 float3 noiseUv = 0.125 * Opaque_fs_IN . locCham . xyz ; #line 448 float2 noiseTap = noise3dSmallTex . Sample ( LinearWrapSampler , noiseUv ) . xy ; #line 454 float3 colorTap = Opaque_fs_IN . color . rgb * pow ( texColor . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) , kSRGB ) . rgb ; colorTap = mul ( ( float3x3 ) colorCorrect , colorTap ) ; #line 459 float alphaTap = Opaque_fs_IN . color . a * texColor . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ; #line 462 float2 aoUv = Opaque_fs_IN . uv0 . zw ; float aoTap = pow ( texAo . Sample ( LinearWrapSampler , aoUv ) . xy , 2.2f ) . g ; aoTap = saturate ( aoTap + aoStepBiasInt . y + aoStepBiasInt . z + 0.5 ) ; #line 467 float3 detailTap = ( float3 ) pow ( texDetail . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv1 . xy * uvMlt . z ) , kSRGB ) . rgb ; #line 470 float3 rampTap = ( float3 ) pow ( texRamp . Sample ( LinearWrapAnisoSampler , Opaque_fs_IN . uv1 . zw * uvMlt . z ) , kSRGB ) . rgb ; #line 473 float edgeDetail = 0.25 ; float edgeDetailTap = texEdgeMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . zw * uvMlt . y * 7 ) . x * texEdgeMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . zw * uvMlt . y * 3 ) . x ; #line 479 edgeDetail = edgeDetailTap ; #line 484 float3 chamTap = Opaque_fs_IN . color . rgb * float4 ( pow ( texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . xyz , 2.2f ) , texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ) . rgb ; float chamAlphaTap = Opaque_fs_IN . color . a * float4 ( pow ( texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . xyz , 2.2f ) , texCham . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . x ) . a ) . a ; float chamMaskTap = float4 ( pow ( texChamMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . z ) . xyz , 2.2f ) , texChamMask . Sample ( LinearWrapSampler , Opaque_fs_IN . uv0 . xy * uvMlt . z ) . a ) . a ; float myChamLevel = chamLevel ; myChamLevel = myChamLevel * ( 1.0 - ( 0.48 - 0.13 * chamScale ) * chamIsAlphaTest ) + ( 0.25 - 0.02 * chamScale ) * chamIsAlphaTest ; float chamBase = myChamLevel - Opaque_fs_IN . locCham . w ; float chamScaledMaskTap = chamScale * ( chamMaskTap - myChamLevel ) ; float chamUnscaledAmount = chamBase + myChamLevel - chamScaledMaskTap ; float chamAmount = saturate ( ( chamUnscaledAmount - 0.5 ) / chamScale + 0.5 ) ; #line 498 colorTap = lerp ( colorTap , chamTap , chamAmount ) ; alphaTap = lerp ( alphaTap , chamAlphaTap , chamAmount ) ; #line 504 colorTap *= lerp ( float3 ( 1 , 1 , 1 ) , chamColor . xyz , chamAmount ) ; colorTap = lerp ( colorTap , chamEdgeColor . xyz , pow ( 1 - 2 * abs ( chamAmount - 0.5 ) , 6 ) ) ; #line 509 float3 normal = normalize ( Opaque_fs_IN . normalFr . xyz ) ; #line 519 float3 eye = eyePositionWS . xyz - Opaque_fs_IN . locCham . xyz ; float3 _view = normalize ( eye ) ; float3 light = normalize ( l_d . xyz ) ; float3 halfAngle = normalize ( _view + light ) ; #line 526 float3 albedo = colorTap * detailTap * rampTap ; float3 ambientColor = float4 ( pow ( sandLoIrrCube . Sample ( LinearClampSampler , normal ) . xyz , 2.2f ) , sandLoIrrCube . Sample ( LinearClampSampler , normal ) . a ) . rgb ; float3 diffuseColor = l_c . rgb ; float3 specularColor = l_s . rgb ; #line 535 float lightIntensity = dot ( normal , light ) ; #line 540 float lightMask = 1.5 * edgeDetail - 0.25 ; lightIntensity = saturate ( ( lightIntensity + lightMask ) * 20 ) ; float diffuseIntensity = saturate ( lightIntensity - inShadow ) ; float specularIntensity = 0 ; #line 565 #line 568 float sandIntensity = 0.0 ; #line 573 #line 576 #line 579 float sideIntensity = 0 ; #line 587 #line 656 #line 665 #line 671 #line 674 albedo = lerp ( albedo * aoTap , albedo , saturate ( diffuseIntensity - 0.65 ) ) ; #line 677 Opaque_fs_OUT . color . rgb = albedo * ( diffuseIntensity * diffuseColor + ambientColor ) ; #line 682 Opaque_fs_OUT . color . rgb += albedo * l_s . rgb * specularIntensity ; #line 688 Opaque_fs_OUT . color . a = alphaTap ; #line 695 #line 699 Opaque_fs_OUT . color . a = ( opacity >= noiseTap . r ) ? Opaque_fs_OUT . color . a : 0 ; #line 704 Opaque_fs_OUT . color . a = Opaque_fs_OUT . color . a > 0.5 ? 1.0 + aoTap : Opaque_fs_OUT . color . a ; clip ( Opaque_fs_OUT . color . a - 0.5f ) ; #line 714 } technique11 Opaque { pass pass0 { SetVertexShader ( CompileShader ( vs_5_0 , Opaque_vs_main ( ) ) ) ; SetPixelShader ( CompileShader ( ps_5_0 , Opaque_fs_main ( ) ) ) ; SetBlendState ( ourBlendState , float4 ( 0.0f , 0.0f , 0.0f , 0.0f ) , 0xFFFFFFFF ) ; SetDepthStencilState ( ourDepthStencilState , 0 ) ; SetRasterizerState ( ourRasterState ) ; } } #line 746 D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Mesh_vs__Mesh_fs__37202.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh ( 9P9\9)D3DSHDRD ` /(}!Y= $0%Opaque_vs_mainQ 0modelQ pmodelIT"Q modelViewProjQ @uvOffset / D ` POpaque_vs_mainnonew 1 ?\T ,D ` POpaque_vs_mainnone-.D `D'yD:\Dev\TGC\Journey\head\Journey\shaderD:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Mesh_vs__Mesh_fs__37202.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Mesh_vs__Mesh_fs__37202.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh.1W^4ޙmAx +T/LinkInfo/names/src/headerblock/src/files/d:\dev\tgc\journey\head\journey\shader" Q3 '8 :8< @(P,R-QP.%/0123456789:;<=>?@ABCDEFGHIJ&  !"#$'()*+,KLMONSCOLORNORMALPOSITIONTEXCOORDPEffectVariantPMaterialOpaqueVertexNormalColorST   ' . 4-0 XTPL Hp`D@\X5@5(55555576h6P686 6696666x6`1XhX1PXZP!PAP -P- XXXP1 -XXXXXXXX HP! 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