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hh `@ ЈЄ @@PP!@@%œП€И&'H„€+  -РР5P0 Cˆ`(D`ǘШЏGЁ€!Data/Shaders/S_Scattering_vs__Scattering_fs__33715.cgfx#A97C141D901B7F4D53C3B787BECC10D2#materialData/Shaders/S_Scattering_vs__Scattering_fs__33715.fx#A97C141D901B7F4D53C3B787BECC10D2 #line 1 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" #define D_PLATFORM_D3D11x64 #define UV_OFFSET #define FOG #define SOFT #define CLOUDTUBE // 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 58 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" float4 eyePositionWS : eyePositionWS; float4 cameraNear : cameraNearFar; #ifdef SKINNING_ENABLED float4x4 viewprojection : viewprojection; #else float4x4 model : model ; float4x4 modelIT : modelit ; float4x4 modelViewProj : modelviewproj ; #endif #if defined(D_PLATFORM_GXM) #undef SOFT #endif #ifndef D_PREPASS_ENABLED float4 mltColor; #ifdef SPECULAR HALF4 l_d; HALF4 fresnelColor; HALF fresnelFalloff; #endif #ifdef FOG float4 f_se; // fogStart/fogEnd float4 f_cc, f_fc; // fogCloseColor, fogFarColor #endif #endif//D_PREPASS_ENABLED #ifdef SKINNING_ENABLED struct a2v { #if defined(__ORBIS__) float4 SkinnableVertex : POSITION; #else float3 SkinnableVertex : POSITION; #endif float3 SkinnableNormal : NORMAL; float4 color : COLOR0; float2 uv : TEXCOORD0; float4 SkinWeights : BLENDWEIGHTS; #if defined(D_PLATFORM_GXM) int4 SkinIndices : BLENDINDICES; #else uint4 SkinIndices : BLENDINDICES; #endif }; #else struct a2v { #if defined(__ORBIS__) float4 position : POSITION; float4 normal : NORMAL; #else float3 position : POSITION; float3 normal : NORMAL; #endif float4 color : COLOR0; float2 uv : TEXCOORD0; }; #endif #if defined(SKINNING_ENABLED) && !defined(D_PREPASS_ENABLED) struct a2v_noSkin { float4 position : POSITION; float3 normal : NORMAL; float4 color : COLOR0; float2 uv : TEXCOORD0; }; a2v_noSkin ProcessSkInput(a2v skIn) { float4x4 transformMatrix = GenerateBoneMatrix(skIn.SkinIndices,skIn.SkinWeights); a2v_noSkin ret; ret.position = MatrixMul(transformMatrix,float4(skIn.SkinnableVertex.xyz,1)); ret.normal = MatrixMul((float3x3)transformMatrix,skIn.SkinnableNormal); ret.color = skIn.color; ret.uv = skIn.uv; return ret; } #endif//SKINNING_ENABLED struct v2f { float4 position : POSITION_OUT; float4 color : TEXCOORD0; float4 uv : TEXCOORD1; float3 normal : TEXCOORD2; float3 eye : TEXCOORD3; #ifdef FOG float4 fog : TEXCOORD4; #endif #ifdef SOFT float4 pos : TEXCOORD5; #endif float4 zDepth : TEXCOORD6; }; #ifdef ADDITIVE_ZHACK float gAdditiveZHack; #endif //-------------------------------------------- // Simple vertex shader // Passes color and texture information on to // the frag shader. //-------------------------------------------- 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); #endif float4 inPos = float4( IN.position.xyz, 1 ); #ifdef ADDITIVE_ZHACK inPos.xyz += IN.normal.xyz*gAdditiveZHack; #endif #ifdef SKINNING_ENABLED OUT.position = MatrixMul( viewprojection, inPos ); OUT.normal = normalize(IN.normal); float3 worldPos = IN.position.xyz; #else OUT.position = MatrixMul( modelViewProj, inPos ); OUT.normal = normalize(MatrixMul( (float3x3)modelIT, IN.normal.xyz )); float3 worldPos = ( MatrixMul( model, float4(IN.position.xyz,1.0f) ) ).xyz; #endif OUT.eye = eyePositionWS.xyz - worldPos; IN.color.rgb = IN.color.rgb * mltColor.xyz; OUT.color = IN.color; OUT.uv.xy = IN.uv; OUT.uv.zw = OUT.position.zw; #ifdef SPECULAR // Calculate the fresnel term of specular. half3 Ln = normalize( l_d.xyz ); half3 Vn = normalize( OUT.eye ); half3 Hn = normalize( Vn + Ln ); half3 fresnel = lerp( fresnelColor.rgb, half3(1.0,1.0,1.0f), pow( saturate( 1.0 - dot( Vn, Hn ) ), (5.0 * (1.0 + fresnelFalloff)) ) ); OUT.color.rgb *= fresnel; #endif #ifdef FOG float3 pos = worldPos; float3 eye = float3( eyePositionWS.xyz - pos.xyz ); float rayS = min( eyePositionWS.y, pos.y ); float rayE = max( eyePositionWS.y, pos.y ) + 0.5; // Prevent div by 0. float rayH = rayE - rayS; float fogS = f_se.z; float fogE = f_se.w; float fogH = fogE - fogS; float midS = min( rayS, fogE ); float midE = min( rayE, fogE ); float midA = 0.5 * (midS + midE); float midH = midE - midS; float fogY = ((fogE - midA) * midH) / (fogH * rayH); float fogRatio = saturate( (fogY * length( eye ) - f_se.x) / (f_se.y - f_se.x) ); fogRatio = fogRatio*fogRatio; float3 fogColor = lerp( f_cc.rgb, f_fc.rgb, fogRatio ); float fogAlpha = lerp( f_cc.a, f_fc.a, fogRatio ); OUT.fog = float4( fogColor, fogRatio*fogAlpha ); //OUT.fog.a = 0; #endif #ifdef SOFT OUT.pos = mul( SCALE_BIAS, OUT.position ); OUT.pos.w = OUT.position.w; #endif //#ifdef CLOUDTUBE OUT.zDepth.x = OUT.position.w - cameraNear.x; //#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 // ------------------------------------------------------------------------------------------------------------------------------------------ #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 274 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" // Authour: John Edwards // Date C: 6-21-2007 #if defined(D_PLATFORM_GXM) #undef SOFT #endif #ifndef D_PREPASS_ENABLED // Both alpha and color modulation should come from this map. D_DECLARE_TEXTURE2D_4(tex); float alpha; float alphaFade; float scatter; HALF opacity; HALF alphaPremult; // Support scrolling uvs. #ifdef UV_OFFSET float4 uvOffset; #endif #ifdef SOFT #ifdef LOW_RES D_DECLARE_TEXTURE2D_4(depthTexLo); #else D_DECLARE_TEXTURE2D_4(depthTex); #endif float depthBias; float depthScale; float depthExtra; float softFadeoutRate; #endif #ifdef CLOUDTUBE float nearCutoff; float nearFadeDist; float farCutoff; float farFadeDist; #endif #ifdef SOFT float manualTexDepth2Dproj( D_DECLARE_TEXTURE2D_4(_depthTex), float4 uv ) { #if defined(D_PLATFORM_GCM) float3 depthColor = D_POINT_SAMPLE_TEXTURE_PROJ( _depthTex, uv ).rgb; float3 depthFactor = float3( 65536.0/16777215.0, 256.0/16777215.0, 1.0/16777215.0 ); return dot( round( depthColor * 255.0 ), depthFactor ); #else return D_POINT_SAMPLE_TEXTURE_PROJ( _depthTex, uv ).r; #endif } #endif #endif//D_PREPASS_ENABLED // Stream structs: struct v2f { float4 position : POSITION_OUT; float4 color : TEXCOORD0; float4 uv : TEXCOORD1; float3 normal : TEXCOORD2; float3 eye : TEXCOORD3; #ifdef FOG float4 fog : TEXCOORD4; #endif #ifdef SOFT float4 pos : TEXCOORD5; #endif float4 zDepth : TEXCOORD6; }; struct f2f { float4 color : FINAL_COLOR; }; //---------------------------------------------- // Program entry //---------------------------------------------- void main( in v2f IN, out f2f OUT ) { float3 N = normalize(IN.normal); float3 E = normalize(IN.eye); float colorInt = 1-dot(N,E); #ifdef UV_OFFSET IN.uv.xy += uvOffset.xy; #endif float4 texColor = D_H4_SAMPLE_WRAP_TEXTURE( tex, IN.uv.xy ); float4 baseColor = IN.color * texColor; #ifdef FOG // The correct behavior of the fog version of this shader is to fade out into the // fog. Problem is, the other implementations didn't do that and it would be // dangerous to change it now, globally. #ifdef SPECULAR baseColor.a *= (1.0 - IN.fog.a); #else baseColor.rgb = lerp( baseColor.rgb, IN.fog.rgb, IN.fog.a ); #endif #endif float a = saturate( IN.uv.z * 5.0 ) * saturate(1-colorInt*scatter); #ifdef SOFT #if defined( LOW_RES ) float depth = manualTexDepth2Dproj( depthTexLo, IN.pos ); #else float depth = manualTexDepth2Dproj( depthTex, IN.pos ); #endif #if defined(D_PLATFORM_GCM) float pdepth = depthScale / (depth - depthBias); #else float pdepth = ConvertDepth(depth); #endif float _distance = pdepth + depthExtra - IN.pos.w; a *= clamp( softFadeoutRate * _distance, 0, 1 ); #endif // Fade out the mesh as the camera gets closer to it #ifdef CLOUDTUBE float distFade = saturate( ( IN.zDepth.x - nearCutoff ) / nearFadeDist ) * ( 1.0 - saturate( ( IN.zDepth.x - farCutoff ) / farFadeDist ) ); a *= distFade; #else #ifndef NODEPTH a *= saturate( ( IN.zDepth.x ) / 10 ); #endif #endif // The scattering shader has traditionally squared the alpha intensity. // Not about to break with tradition, now. float alphaMult = a * alpha * (1 - alphaFade) * opacity; OUT.color = float4( baseColor.rgb, baseColor.a * alphaMult * alphaMult ); // Certain render modes want premultiplied alpha. OUT.color.rgb *= alphaPremult * OUT.color.a + (1.0f - alphaPremult); } // ------------------------------------------------------------------------------------------------------------------------------------------ #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_Scattering_vs__Scattering_fs__33715.fxАр1CLOUDTUBEFOGSOFTUV_OFFSETАGGGGGGGG€?€?€?€?€?€A€A€?€И05spDXBC]ЏъX…Сs˜‰ШюГ-p+ЬИ8D,`xRDEF<џџAкRD11< ($ мю џџџџ џџџџ PointClampSamplerLinearWrapSamplertexdepthTex$GlobalsЋЋ 0@\џџџџџџџџ€\џџџџџџџџ“ЈџџџџџџџџЬ Јџџџџџџџџк0Јџџџџџџџџх@@єџџџџџџџџ€@єџџџџџџџџ Р@єџџџџџџџџ.Јџџџџџџџџ7Јџџџџџџџџ< ЈџџџџџџџџA0ЈџџџџџџџџF@\џџџџџџџџLD\џџџџџџџџVH\џџџџџџџџ^L\џџџџџџџџfP\џџџџџџџџs`Јџџџџџџџџ|p\џџџџџџџџ†t\џџџџџџџџ‘x\џџџџџџџџœ|\џџџџџџџџЌ€\џџџџџџџџЗ„\џџџџџџџџФˆ\џџџџџџџџЮŒ\џџџџџџџџcameraNearTimesFarfloatЋЋЋScameraFarMinusNearcameraNearFarfloat4ЁeyePositionWScameraNearmodelfloat4x4ыmodelITmodelViewProjmltColorf_sef_ccf_fcalphaalphaFadescatteropacityalphaPremultuvOffsetdepthBiasdepthScaledepthExtrasoftFadeoutRatenearCutoffnearFadeDistfarCutofffarFadeDistMicrosoft (R) HLSL Shader Compiler 10.1ЋЋISGNрШдддддд дSV_POSITIONTEXCOORDЋЋЋOSGN, SV_TARGETЋЋSHEX PDjˆYFŽ Z`Z` XpUUXpUUbђbrbrbrbђbВbeђ hFFD 8rF‚FFD‚:8rіF+‚@FF6 €A :b E‹Т€CUђ–F~` 8ђFF6т €AтV8тVітV 8*@ @4 @3 @€?+"@8 *€ 6 €A 4 @3 @€?8  ::6rF2FІ E‹Т€CUFF~`6 6 :6 8 € 6"€ €A  € 6 €A6 6  *€ 6":€A 8 :€ +"@+B@4 3* 8  6 € €A   € 4 @3 @€?6"*€ €A" ":€ 4"@3"@€?6"€A"@€?8 8  8  € +@6"€ €A 8  8 :€ 8 :8  6тV8  € 6" € €A"@€? 8r –6‚  >STAT”R?SPDBІMicrosoft C/C++ MSF 7.00 DSShOРџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ8џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ <џџџџ”.1\Œ^цA]нЃ@tMВ‚лš]U6ЊмQ3 ; 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 ; AntialiasedLineEnableЦZLшmФЉыАЮНщdP…h&VUœі’цд*х­ЩШQеџbЃ™НA$мРЮ7жš#line 1 "D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Scattering_vs__Scattering_fs__33715.fx" #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" #line 8 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 57 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" float4 eyePositionWS : eyePositionWS ; float4 cameraNear : cameraNearFar ; #line 63 float4x4 model : model ; float4x4 modelIT : modelit ; float4x4 modelViewProj : modelviewproj ; #line 70 float4 mltColor ; #line 81 float4 f_se ; float4 f_cc , f_fc ; #line 111 struct Opaque_vs_a2v { #line 118 float3 position : POSITION ; float3 normal : NORMAL ; float4 color : COLOR0 ; float2 uv : TEXCOORD0 ; } ; #line 153 struct Opaque_vs_v2f { float4 position : SV_POSITION ; float4 color : TEXCOORD0 ; float4 uv : TEXCOORD1 ; float3 normal : TEXCOORD2 ; float3 eye : TEXCOORD3 ; float4 fog : TEXCOORD4 ; float4 pos : TEXCOORD5 ; float4 zDepth : TEXCOORD6 ; } ; #line 175 #line 182 void Opaque_vs_main ( #line 185 in Opaque_vs_a2v Opaque_vs_IN , out Opaque_vs_v2f Opaque_vs_OUT ) { #line 193 float4 inPos = float4 ( Opaque_vs_IN . position . xyz , 1 ) ; #line 199 #line 205 Opaque_vs_OUT . position = mul ( inPos , modelViewProj ) ; Opaque_vs_OUT . normal = normalize ( mul ( Opaque_vs_IN . normal . xyz , ( float3x3 ) modelIT ) ) ; float3 worldPos = ( mul ( float4 ( Opaque_vs_IN . position . xyz , 1.0f ) , model ) ) . xyz ; #line 213 Opaque_vs_OUT . eye = eyePositionWS . xyz - worldPos ; Opaque_vs_IN . color . rgb = Opaque_vs_IN . color . rgb * mltColor . xyz ; Opaque_vs_OUT . color = Opaque_vs_IN . color ; Opaque_vs_OUT . uv . xy = Opaque_vs_IN . uv ; Opaque_vs_OUT . uv . zw = Opaque_vs_OUT . position . zw ; #line 226 float3 pos = worldPos ; float3 eye = float3 ( eyePositionWS . xyz - pos . xyz ) ; float rayS = min ( eyePositionWS . y , pos . y ) ; float rayE = max ( eyePositionWS . y , pos . y ) + 0.5 ; float rayH = rayE - rayS ; float fogS = f_se . z ; float fogE = f_se . w ; float fogH = fogE - fogS ; float midS = min ( rayS , fogE ) ; float midE = min ( rayE , fogE ) ; float midA = 0.5 * ( midS + midE ) ; float midH = midE - midS ; float fogY = ( ( fogE - midA ) * midH ) / ( fogH * rayH ) ; float fogRatio = saturate ( ( fogY * length ( eye ) - f_se . x ) / ( f_se . y - f_se . x ) ) ; fogRatio = fogRatio * fogRatio ; float3 fogColor = lerp ( f_cc . rgb , f_fc . rgb , fogRatio ) ; float fogAlpha = lerp ( f_cc . a , f_fc . a , fogRatio ) ; Opaque_vs_OUT . fog = float4 ( fogColor , fogRatio * fogAlpha ) ; Opaque_vs_OUT . pos = mul ( SCALE_BIAS , Opaque_vs_OUT . position ) ; Opaque_vs_OUT . pos . w = Opaque_vs_OUT . position . w ; #line 256 Opaque_vs_OUT . zDepth . x = Opaque_vs_OUT . position . w - cameraNear . x ; } #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 642 #line 273 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" #line 279 #line 284 Texture2D < float4 > tex ; float alpha ; float alphaFade ; float scatter ; float opacity ; float alphaPremult ; float4 uvOffset ; #line 298 Texture2D < float4 > depthTex ; float depthBias ; float depthScale ; float depthExtra ; float softFadeoutRate ; float nearCutoff ; float nearFadeDist ; float farCutoff ; float farFadeDist ; float manualTexDepth2Dproj ( Texture2D < float4 > _depthTex , float4 uv ) { #line 321 return _depthTex . Sample ( PointClampSampler , ( float2 ) ( uv . xy / uv . w ) ) . r ; } #line 335 struct Opaque_fs_v2f { float4 position : SV_POSITION ; float4 color : TEXCOORD0 ; float4 uv : TEXCOORD1 ; float3 normal : TEXCOORD2 ; float3 eye : TEXCOORD3 ; float4 fog : TEXCOORD4 ; float4 pos : TEXCOORD5 ; float4 zDepth : TEXCOORD6 ; } ; struct Opaque_fs_f2f { float4 color : SV_TARGET0 ; } ; #line 359 void Opaque_fs_main ( in Opaque_fs_v2f Opaque_fs_IN , out Opaque_fs_f2f Opaque_fs_OUT ) { float3 N = normalize ( Opaque_fs_IN . normal ) ; float3 E = normalize ( Opaque_fs_IN . eye ) ; float colorInt = 1 - dot ( N , E ) ; Opaque_fs_IN . uv . xy += uvOffset . xy ; float4 texColor = tex . Sample ( LinearWrapSampler , Opaque_fs_IN . uv . xy ) ; float4 baseColor = Opaque_fs_IN . color * texColor ; #line 378 baseColor . rgb = lerp ( baseColor . rgb , Opaque_fs_IN . fog . rgb , Opaque_fs_IN . fog . a ) ; float a = saturate ( Opaque_fs_IN . uv . z * 5.0 ) * saturate ( 1 - colorInt * scatter ) ; #line 388 float depth = manualTexDepth2Dproj ( depthTex , Opaque_fs_IN . pos ) ; #line 393 float pdepth = ConvertDepth ( depth ) ; float _distance = pdepth + depthExtra - Opaque_fs_IN . pos . w ; a *= clamp ( softFadeoutRate * _distance , 0 , 1 ) ; #line 401 float distFade = saturate ( ( Opaque_fs_IN . zDepth . x - nearCutoff ) / nearFadeDist ) * ( 1.0 - saturate ( ( Opaque_fs_IN . zDepth . x - farCutoff ) / farFadeDist ) ) ; a *= distFade ; #line 408 #line 412 float alphaMult = a * alpha * ( 1 - alphaFade ) * opacity ; Opaque_fs_OUT . color = float4 ( baseColor . rgb , baseColor . a * alphaMult * alphaMult ) ; #line 416 Opaque_fs_OUT . color . rgb *= alphaPremult * Opaque_fs_OUT . color . a + ( 1.0f - alphaPremult ) ; } 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 448 ўяўяЉ-D:\Dev\TGC\Journey\head\Journey\shaderd:\dev\tgc\journey\head\journey\shader#line 1 "D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Scattering_vs__Scattering_fs__33715.fx" #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" #line 8 BlendState ourBlendState { BlendEnable [ 0 ] = FALSE ; BlendEnable [ 1 ] = FALSE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADDт0€JпY‹ОЪе)(т0Фѕж k,()B< КG КGMicrosoft (R) HLSL Shader Compiler 10.1Š=hlslFlags0x4005hlslTargetps_5_0hlslEntryOpaque_fs_mainhlslDefines /DCLOUDTUBE=1 /DUV_OFFSET=1 /DPHYRE_D3DFX=1 /DSOFT=1 /DFOG=16д TTМ Opaque_fs_main2> Opaque_fs_INPМTPМTPМTP МT PМTPМTPМTPМTP МT P$МT$P(МT(P,МT,P0МT0P4МT4P8МT8P<МT@P@МTDPDМTHPHМTPPLМTTPPМTXPTМT\PXМT`P\МTdP`МThPdМTlPhМTpPlМTtPpМTxPtМT|P и`P$и`6> Opaque_fs_OUTPМTPМTPМTP МT P TИPhPhPh *>NP|PаPа*>EPTАPTАPTА.>@colorIntPИ\.>texColorPPPP 2>baseColorP lP lP lP  №PŒ„PŒ„PŒ„ *>@aPœј.>@depthP(Ј.>@pdepthPј 2>@_distancePL .>@distFadePXP2>@alphaMultP82Mд”   [ \‚ќ B QƒИ U  [ ,J> €P*> uvPИPИP ИpNFMда   f ƒ„  € 3 L„@ P `  b8  d   B> €Pф.>@depthP@2>@viewSpaceZPа(Nє0nіѕЂЌE7кxyОRЁЛ,-o-ђШ ЄММi€Мiиi€иiьi€ьij€j$j€$j8j€8jTk€Tkhk€hk„k€„kœk€œkИn€Иnиq€иqr€r {€ {8{€8{T{€T{p{€p{Œ€ŒЈ€ЈФ€Фр€рє€є€,€,H€Hd€d€€€œ…€œ… …€ …Є…€Є…И…€И…д…€д……€……€…(Š€(Š,Š€,Š@Š€@Š`Š€`Š|Š€|Š˜Š€˜ŠИŠ€ИŠаŠ€аŠфŠ€фŠјŒ€јŒŒ€Œ0Œ€0ŒL€Ll€l€€€”€”А€АЬ€Ьш’€ш’’€’ ’€ ’@’€@’\’€\’x’€x’”’€”’А’€А’а’€а’ь’€ь’’€’ ’€ ’<’€<’X“€X“tœ€tœ”œ€”œЈœ€ЈœФœ€Фœрœ€рœќœ€ќœ€8€8T€Th €h ˆ €ˆ Є €Є Р €Р м €м јЁ€јЁ Ё€ Ё4242421/1/1/(&(&(&(&-+SQ86dbdbdbdb^4^6^6^EZ^IZ^EZ^EZ^:\^:\^\JHJHJHJHJHJHJ H+)+)+)+)+)+)+)+)+ )D)DBDB8,8 68 68 68 686Ў#HЎ#HЎ!YЎ[Ў[Ўt˜Ўt˜ЎrЈЎgЊЎgЊЎaЊЎaЊЎЌ??%1?%1?%1?3?=`8P`8\`^g$KgQcgQcg$egeі$ <(P Hp˜Рфќ8Tp”Ддє8\|        Ъ18 џџџџ\\d@float4ѓђё@ float3ѓђёŽ positionё color  uvѓђё 0normalѓђё <eyeђё Hfogђё Xposђё hzDepthѓђё"xOpaque_fs_v2f color"Opaque_fs_f2f Јђё  @   @   ђё  ƒЕп$ = 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 57 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" float4 eyePositionWS : eyePositionWS ; float4 cameraNear : cameraNearFar ; #line 63 float4x4 model : model ; float4x4 modelIT : modelit ; float4x4 modelViewProj : modelviewproj ; #line 70 float4 mltColor ; #line 81 float4 f_se ; float4 f_cc , f_fc ; #line 111 struct Opaque_vs_a2v { #line 118 float3 position : POSITION ; float3 normal : NORMAL ; float4 color : COLOR0 ; float2 uv : TEXCOORD0 ; } ; #line 153 struct Opaque_vs_v2f { float4 position : SV_POSITION ; float4 color : TEXCOORD0 ; float4 uv : TEXCOORD1 ; float3 normal : TEXCOORD2 ; float3 eye : TEXCOORD3 ; float4 fog : TEXCOORD4 ; float4 pos : TEXCOORD5 ; float4 zDepth : TEXCOORD6 ; } ; #line 175 #line 182 void Opaque_vs_main ( #line 185 in Opaque_vs_a2v Opaque_vs_IN , out Opaque_vs_v2f Opaque_vs_OUT ) { #line 193 float4 inPos = float4 ( Opaque_vs_IN . position . xyz , 1 ) ; #line 199 #line 205 Opaque_vs_OUT . position = mul ( inPos , modelViewProj ) ; Opaque_vs_OUT . normal = normalize ( mul ( Opaque_vs_IN . normal . xyz , ( float3x3 ) modelIT ) ) ; float3 worldPos = ( mul ( float4 ( Opaque_vs_IN . position . xyz , 1.0f ) , model ) ) . xyz ; #line 213 Opaque_vs_OUT . eye = eyePositionWS . xyz - worldPos ; Opaque_vs_IN . color . rgb = Opaque_vs_IN . color . rgb * mltColor . xyz ; Opaque_vs_OUT . color = Opaque_vs_IN . color ; Opaque_vs_OUT . uv . xy = Opaque_vs_IN . uv ; Opaque_vs_OUT . uv . zw = Opaque_vs_OUT . position . zw ; #line 226 float3 pos = worldPos ; float3 eye = float3 ( eyePositionWS . xyz - pos . xyz ) ; float rayS = min ( eyePositionWS . y , pos . y ) ; float rayE = max ( eyePositionWS . y , pos . y ) + 0.5 ; float rayH = rayE - rayS ; float fogS = f_se . z ; float fogE = f_se . w ; float fogH = fogE - fogS ; float midS = min ( rayS , fogE ) ; float midE = min ( rayE , fogE ) ; float midA = 0.5 * ( midS + midE ) ; float midH = midE - midS ; float fogY = ( ( fogE - midA ) * midH ) / ( fogH * rayH ) ; float fogRatio = saturate ( ( fogY * length ( eye ) - f_se . x ) / ( f_se . y - f_se . x ) ) ; fogRatio = fogRatio * fogRatio ; float3 fogColor = lerp ( f_cc . rgb , f_fc . rgb , fogRatio ) ; float fogAlpha = lerp ( f_cc . a , f_fc . a , fogRatio ) ; Opaque_vs_OUT . fog = float4 ( fogColor , fogRatio * fogAlpha ) ; Opaque_vs_OUT . pos = mul ( SCALE_BIAS , Opaque_vs_OUT . position ) ; Opaque_vs_OUT . pos . w = Opaque_vs_OUT . position . w ; #line 256 Opaque_vs_OUT . zDepth . x = Opaque_vs_OUT . position . w - cameraNear . x ; } #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 642 #line 273 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" #line 279 #line 284 Texture2D < float4 > tex ; float alpha ; float alphaFade ; float scatter ; float opacity ; float alphaPremult ; float4 uvOffset ; #line 298 Texture2D < float4 > depthTex ; float depthBias ; float depthScale ; float depthExtra ; float softFadeoutRate ; float nearCutoff ; float nearFadeDist ; float farCutoff ; float farFadeDist ; float manualTexDepth2Dproj ( Texture2D < float4 > _depthTex , float4 uv ) { #line 321 return _depthTex . Sample ( PointClampSampler , ( float2 ) ( uv . xy / uv . w ) ) . r ; } #line 335 struct Opaque_fs_v2f { float4 position : SV_POSITION ; float4 color : TEXCOORD0 ; float4 uv : TEXCOORD1 ; float3 normal : TEXCOORD2 ; float3 eye : TEXCOORD3 ; float4 fog : TEXCOORD4 ; float4 pos : TEXCOORD5 ; float4 zDepth : TEXCOORD6 ; } ; struct Opaque_fs_f2f { float4 color : SV_TARGET0 ; } ; #line 359 void Opaque_fs_main ( in Opaque_fs_v2f Opaque_fs_IN , out Opaque_fs_f2f Opaque_fs_OUT ) { float3 N = normalize ( Opaque_fs_IN . normal ) ; float3 E = normalize ( Opaque_fs_IN . eye ) ; float colorInt = 1 - dot ( N , E ) ; Opaque_fs_IN . uv . xy += uvOffset . xy ; float4 texColor = tex . Sample ( LinearWrapSampler , Opaque_fs_IN . uv . xy ) ; float4 baseColor = Opaque_fs_IN . color * texColor ; #line 378 baseColor . rgb = lerp ( baseColor . rgb , Opaque_fs_IN . fog . rgb , Opaque_fs_IN . fog . a ) ; float a = saturate ( Opaque_fs_IN . uv . z * 5.0 ) * saturate ( 1 - colorInt * scatter ) ; #line 388 float depth = manualTexDepth2Dproj ( depthTex , Opaque_fs_IN . pos ) ; #line 393 float pdepth = ConvertDepth ( depth ) ; float _distance = pdepth + depthExtra - Opaque_fs_IN . pos . w ; a *= clamp ( softFadeoutRate * _distance , 0 , 1 ) ; #line 401 float distFade = saturate ( ( Opaque_fs_IN . zDepth . x - nearCutoff ) / nearFadeDist ) * ( 1.0 - saturate ( ( Opaque_fs_IN . zDepth . x - farCutoff ) / farFadeDist ) ) ; a *= distFade ; #line 408 #line 412 float alphaMult = a * alpha * ( 1 - alphaFade ) * opacity ; Opaque_fs_OUT . color = float4 ( baseColor . rgb , baseColor . a * alphaMult * alphaMult ) ; #line 416 Opaque_fs_OUT . color . rgb *= alphaPremult * Opaque_fs_OUT . color . a + ( 1.0f - alphaPremult ) ; } 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 448 D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Scattering_vs__Scattering_fs__33715.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh (PЛ,o-)- Ъ18@ џџџџ" manualTexDepth2DprojѓђёConvertDepthѓђёD3DSHDR `" manualTexDepth2DprojѓђёConvertDepthѓђёџџџџ /ё T!9х•ѕ}е™]§UЕIq9qС€@@€@ $0<HT`lx„œЈДРЬиф%дOpaque_fs_main&QџџџџџџџџPointClampSampler&Qџџџџџџ џџLinearWrapSampler&QџџџџџџcameraNearTimesFar&QџџџџџџcameraFarMinusNear"QџџџџџџcameraNearFarQџџџџџџџџtexQ@џџџџџџalphaQDџџџџџџalphaFadeQHџџџџџџscatterQLџџџџџџopacity"QPџџџџџџalphaPremultQ`џџџџџџuvOffsetQџџџџџџџџdepthTexQxџџџџџџdepthExtra"Qhбџџџџ /ё|џџџџџџsoftFadeoutRateQ€џџџџџџnearCutoff"Q„џџџџџџnearFadeDistQˆџџџџџџfarCutoffQŒџџџџџџfarFadeDistMigratory.shўяўяџџџџџџџџџџ џџџџџџџџџџ ` и 4Opaque_fs_mainnoneџџџџw 1 Ž?\T ,0 ` и 4Opaque_fs_mainnone-К.ё `Лџџџџ џџџџџџџџ'…лD:\Dev\TGC\Journey\head\Journey\shaderD:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Scattering_vs__Scattering_fs__33715.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/”.1\Œ^цA]нЃ@tMВ‚лš]U6ЊT/LinkInfo/names/src/headerblock/src/files/d:\dev\tgc\journey\head\journey\shader" мQ3 А<?xщ-€k,`d(,œM-,LKD/0123456789:;<=>?@ABC  !"#$%&'()*+.EFGIHJNh 8P  рє№`0pŒtˆx„P@0  0 @œD˜H”LP`Œpˆt„x€||€ @@1`Р@1 €@1  рє№`0pŒtˆx„P@0  0 @œD˜H”LP`Œpˆt„x€||€ @@1`Р@1 €@18џџџџ4 џџџџ4Pџџџџ4јџџџџ4рџџџџ4Шџџџџ4Аџџџџ4˜џџџџ4€џџџџ4hџџџџ484 4Pџџџџ4ј4рџџџџ4Шџџџџ4А 4˜џџџџ4€џџџџ4hџџџџ4@`0@P@@@0 @ 0@ @@œD@˜H@”L@P@`@Œp@ˆt@„x@€|@|€@x„@tˆ@pŒG4јџџџџG4рџџџџG4ШџџџџG4АџџџџG4˜џџџџG4€џџџџG4hџџџџG4PџџџџB48џџџџB4 џџџџ‚1 @@„1`@Рˆ1 @€AnisoClampSamplerLinearClampSamplerLinearWrapAnisoSamplerLinearWrapSamplerLinearWrapTSamplerPointClampSamplerPointWrapAnisoSamplerPointWrapSampleralphaalphaFadealphaPremultcameraNeardepthBiasdepthExtradepthScaledepthTexf_ccf_fcf_sefarCutofffarFadeDistmltColormodelmodelITmodelViewProjnearCutoffnearFadeDistopacityscattersoftFadeoutRatetexuvOffsetнСџџЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅ ЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅЅ05sv05spOpaque_fs_mainOpaque_vs_mainhjЪ њ8йP}RCOLORNORMALPOSITIONTEXCOORDШЏ05svDXBCдNVZSFsVЖгЪ"Ц™РШЏ8”$ $РRDEFTh<ўџA*RD11< ($ \$GlobalsЋЋЋ\€ЌџџџџџџџџаЌџџџџџџџџујџџџџџџџџ јџџџџџџџџ*0јџџџџџџџџ5@@Dџџџџџџџџh€@DџџџџџџџџpР@Dџџџџџџџџ~јџџџџџџџџ‡јџџџџџџџџŒ јџџџџџџџџ‘0јџџџџџџџџ–@ЌџџџџџџџџœDЌџџџџџџџџІHЌџџџџџџџџЎLЌџџџџџџџџЖPЌџџџџџџџџУ`јџџџџџџџџЬpЌџџџџџџџџжtЌџџџџџџџџсxЌџџџџџџџџь|Ќџџџџџџџџќ€Ќџџџџџџџџ„ЌџџџџџџџџˆЌџџџџџџџџŒЌџџџџџџџџcameraNearTimesFarfloatЋЋЋЃcameraFarMinusNearcameraNearFarfloat4ёeyePositionWScameraNearmodelfloat4x4;modelITmodelViewProjmltColorf_sef_ccf_fcalphaalphaFadescatteropacityalphaPremultuvOffsetdepthBiasdepthScaledepthExtrasoftFadeoutRatenearCutoffnearFadeDistfarCutofffarFadeDistMicrosoft (R) HLSL Shader Compiler 10.1ЋЋISGNˆhqx~POSITIONNORMALCOLORTEXCOORDЋOSGNрШдддддддSV_POSITIONTEXCOORDЋЋЋSHEX PDjˆYFŽ _r_r_ђ_2gђ eђ eђ er er eђ eђ e h6ђ@??6ђ@П?6ђ@??+‚@6rFFFŽ "FFŽ BFFŽ ‚FFŽ FF‚ "FF‚ BFF‚ ‚FFD‚:8r іF6rF6‚@€?FFŽ "FFŽ BFFŽ 6rF€Ar FF‚ 8rFF‚ 6r F6‚ :62 F6Т І6rF6rF€ArFF‚ 3‚€ 4€  @?6":€A" 6B*€ 6‚:€ 6B*€AB*:3‚::3: : 8 @?6‚:€A‚: 6 €A :8‚: 8*‚: FFK 8 :6" € €A 6" € €A"€  4 @3 @€?8  6т‰ €AтV‰ 8тVтV‰ 6:€ €A :€ 8   :€ 8‚   6r – FF" FFB FF6‚ :6 € €A  :6ђ F>STAT”O =SPDBžMicrosoft C/C++ MSF 7.00 DSO`MРџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ8Рџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ <џџџџ”.1\Œ^Ю5:јPђ!LЗoФћа мQ3 ; 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 ; AntialiasedLineEnableLшЦZuƒ2 ў'њЇџ P…к+gŸIщ№AЙ™Н#line 1 "D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Scattering_vs__Scattering_fs__33715.fx" #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" #line 8 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 57 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" float4 eyePositionWS : eyePositionWS ; float4 cameraNear : cameraNearFar ; #line 63 float4x4 model : model ; float4x4 modelIT : modelit ; float4x4 modelViewProj : modelviewproj ; #line 70 float4 mltColor ; #line 81 float4 f_se ; float4 f_cc , f_fc ; #line 111 struct Opaque_vs_a2v { #line 118 float3 position : POSITION ; float3 normal : NORMAL ; float4 color : COLOR0 ; float2 uv : TEXCOORD0 ; } ; #line 153 struct Opaque_vs_v2f { float4 position : SV_POSITION ; float4 color : TEXCOORD0 ; float4 uv : TEXCOORD1 ; float3 normal : TEXCOORD2 ; float3 eye : TEXCOORD3 ; float4 fog : TEXCOORD4 ; float4 pos : TEXCOORD5 ; float4 zDepth : TEXCOORD6 ; } ; #line 175 #line 182 void Opaque_vs_main ( #line 185 in Opaque_vs_a2v Opaque_vs_IN , out Opaque_vs_v2f Opaque_vs_OUT ) { #line 193 float4 inPos = float4 ( Opaque_vs_IN . position . xyz , 1 ) ; #line 199 #line 205 Opaque_vs_OUT . position = mul ( inPos , modelViewProj ) ; Opaque_vs_OUT . normal = normalize ( mul ( Opaque_vs_IN . normal . xyz , ( float3x3 ) modelIT ) ) ; float3 worldPos = ( mul ( float4 ( Opaque_vs_IN . position . xyz , 1.0f ) , model ) ) . xyz ; #line 213 Opaque_vs_OUT . eye = eyePositionWS . xyz - worldPos ; Opaque_vs_IN . color . rgb = Opaque_vs_IN . color . rgb * mltColor . xyz ; Opaque_vs_OUT . color = Opaque_vs_IN . color ; Opaque_vs_OUT . uv . xy = Opaque_vs_IN . uv ; Opaque_vs_OUT . uv . zw = Opaque_vs_OUT . position . zw ; #line 226 float3 pos = worldPos ; float3 eye = float3 ( eyePositionWS . xyz - pos . xyz ) ; float rayS = min ( eyePositionWS . y , pos . y ) ; float rayE = max ( eyePositionWS . y , pos . y ) + 0.5 ; float rayH = rayE - rayS ; float fogS = f_se . z ; float fogE = f_se . w ; float fogH = fogE - fogS ; float midS = min ( rayS , fogE ) ; float midE = min ( rayE , fogE ) ; float midA = 0.5 * ( midS + midE ) ; float midH = midE - midS ; float fogY = ( ( fogE - midA ) * midH ) / ( fogH * rayH ) ; float fogRatio = saturate ( ( fogY * length ( eye ) - f_se . x ) / ( f_se . y - f_se . x ) ) ; fogRatio = fogRatio * fogRatio ; float3 fogColor = lerp ( f_cc . rgb , f_fc . rgb , fogRatio ) ; float fogAlpha = lerp ( f_cc . a , f_fc . a , fogRatio ) ; Opaque_vs_OUT . fog = float4 ( fogColor , fogRatio * fogAlpha ) ; Opaque_vs_OUT . pos = mul ( SCALE_BIAS , Opaque_vs_OUT . position ) ; Opaque_vs_OUT . pos . w = Opaque_vs_OUT . position . w ; #line 256 Opaque_vs_OUT . zDepth . x = Opaque_vs_OUT . position . w - cameraNear . x ; } #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 642 #line 273 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" #line 279 #line 284 Texture2D < float4 > tex ; float alpha ; float alphaFade ; float scatter ; float opacity ; float alphaPremult ; float4 uvOffset ; #line 298 Texture2D < float4 > depthTex ; float depthBias ; float depthScale ; float depthExtra ; float softFadeoutRate ; float nearCutoff ; float nearFadeDist ; float farCutoff ; float farFadeDist ; float manualTexDepth2Dproj ( Texture2D < float4 > _depthTex , float4 uv ) { #line 321 return _depthTex . Sample ( PointClampSampler , ( float2 ) ( uv . xy / uv . w ) ) . r ; } #line 335 struct Opaque_fs_v2f { float4 position : SV_POSITION ; float4 color : TEXCOORD0 ; float4 uv : TEXCOORD1 ; float3 normal : TEXCOORD2 ; float3 eye : TEXCOORD3 ; float4 fog : TEXCOORD4 ; float4 pos : TEXCOORD5 ; float4 zDepth : TEXCOORD6 ; } ; struct Opaque_fs_f2f { float4 color : SV_TARGET0 ; } ; #line 359 void Opaque_fs_main ( in Opaque_fs_v2f Opaque_fs_IN , out Opaque_fs_f2f Opaque_fs_OUT ) { float3 N = normalize ( Opaque_fs_IN . normal ) ; float3 E = normalize ( Opaque_fs_IN . eye ) ; float colorInt = 1 - dot ( N , E ) ; Opaque_fs_IN . uv . xy += uvOffset . xy ; float4 texColor = tex . Sample ( LinearWrapSampler , Opaque_fs_IN . uv . xy ) ; float4 baseColor = Opaque_fs_IN . color * texColor ; #line 378 baseColor . rgb = lerp ( baseColor . rgb , Opaque_fs_IN . fog . rgb , Opaque_fs_IN . fog . a ) ; float a = saturate ( Opaque_fs_IN . uv . z * 5.0 ) * saturate ( 1 - colorInt * scatter ) ; #line 388 float depth = manualTexDepth2Dproj ( depthTex , Opaque_fs_IN . pos ) ; #line 393 float pdepth = ConvertDepth ( depth ) ; float _distance = pdepth + depthExtra - Opaque_fs_IN . pos . w ; a *= clamp ( softFadeoutRate * _distance , 0 , 1 ) ; #line 401 float distFade = saturate ( ( Opaque_fs_IN . zDepth . x - nearCutoff ) / nearFadeDist ) * ( 1.0 - saturate ( ( Opaque_fs_IN . zDepth . x - farCutoff ) / farFadeDist ) ) ; a *= distFade ; #line 408 #line 412 float alphaMult = a * alpha * ( 1 - alphaFade ) * opacity ; Opaque_fs_OUT . color = float4 ( baseColor . rgb , baseColor . a * alphaMult * alphaMult ) ; #line 416 Opaque_fs_OUT . color . rgb *= alphaPremult * Opaque_fs_OUT . color . a + ( 1.0f - alphaPremult ) ; } 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 448 ўяўяЉ-D:\Dev\TGC\Journey\head\Journey\shaderd:\dev\tgc\journey\head\journey\shader#line 1 "D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Scattering_vs__Scattering_fs__33715.fx" #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" #line 8 BlendState ourBlendState { BlendEnable [ 0 ] = FALSE ; BlendEnable [ 1 ] = FALSE ; SrcBlend [ 0 ] = Src_Alpha ; DestBlend [ 0 ] = Inv_Src_Alpha ; BlendOp [ 0 ] = ADDт0€xуW‹ОЪе)(т0Фѕж k,()B< КG КGMicrosoft (R) HLSL Shader Compiler 10.1Š=hlslFlags0x4005hlslTargetvs_5_0hlslEntryOpaque_vs_mainhlslDefines /DCLOUDTUBE=1 /DUV_OFFSET=1 /DPHYRE_D3DFX=1 /DSOFT=1 /DFOG=16H XX И Opaque_vs_main2> Opaque_vs_INPИXPИXPИXP ИXPИXPИXPИX PИX$P ИX(P$ИX,P(ИX0P,ИX4PL|0PL|4P L|86> Opaque_vs_OUTPlИXtPpИXxPtИX|PhИXpPXИX`P\ИXdP`ИXhPdИXlPHИXPPLИXTPPИXXPTИX\P<ИX@P@ИXDPDИXHP0ИX0P4ИX4P8ИX8P ИX P$ИX$P(ИX(P,ИX,PИXPИXPИXPИXPИXPИXPИXP ИX P`Ќ@P€ŒDP lHP РLL.>inPosP ,<P@ 0P@Р4P@р8.>worldPosPДtPPдˆTPєœX*>posPАxPPАЌTPАрX*>eyePш<0Pшˆ4Pшl8*>@raySP№<*>@rayEPDаP*>@rayHPx˜T*>@fogSP0X*>@fogEPЈh\*>@fogHPм4X*>@midSPјl<*>@midEP„P*>@midAPLФ`*>@midHP€P<*>@fogYPL<.>@fogRatioPє0.>fogColorPА`4PА`8PА`<.>@fogAlphaP(шP2> SCALE_BIASPиPи8P и8P0и8 PјPјP$јP4јPј Pј$P(ј(P8ј,R џџџџџџSCALE_BIASє0nіѕЂЌE7кxyОRЁЛ,-o-ђŒ (TИPŠИP иPŠиP јPŠјP  ˜,У€У,У€,У@Ю€@Ю`Ю€`Ю€Ю€€Ю Ю€ ЮРЯ€РЯрЯ€рЯЯ€Я Я€ Я<Я€<ЯPЯ€PЯlа€lа€а€€а”а€”аДа€Дада€даєе€єе е€ е,ж€,жLз€Lз`з€`зtи€tиˆй€ˆйœх€œхАц€АцШц€Шцшч€шчш€ш(ш€(шDщ€Dщ\щ€\щxъ€xъы€ыЈь€ЈьРь€Рьмэ€мэјю€јюя€я0я€0яL№€L№d№€d№€ё€€ё˜ё€˜ёДё€Дёаё€аёьё€ьёђ€ђ$ђ€$ђ8ђ€8ђTђ€Tђpђ€pђŒђ€ŒђЈђ€ЈђШђ€Шђфђ€фђђ€ђѓ€ѓ8є€8єTє€Tєtє€tєє€єАѕ€АѕЬѕ€Ьѕьѕ€ьѕѕ€ѕ(і€(іDі€DіXћ€Xћtћ€tћћ€ћЌќ€ЌќР€Рм€мј€ј € A?A ?> <> <> <> <g*cg*cg*cgegegeaWaWaWaWaW:8:8N"L20201/=; =9=964<4<:  &$&$($(&? ? ?)?1;?=b*7b*7b#7b#Bb#BbJ\bJ\b!^b`b`$"CACACACA><><><><E/AECIGIGIG<:P"NP"Nі, @d„ Мр8     Ъ18ш џџџџ<<D@ float3ѓђё@float4ѓђё@float2ѓђёJ positionё  normalѓђё color (uvѓђё"0Opaque_vs_a2vŽ positionё color  uvѓђё 0normalѓђё <eyeђё Hfogђё Xposђё hzDepthѓђё"xOpaque_vs_v2f @@float4x4    Ъ18 џџџџ = 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 57 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" float4 eyePositionWS : eyePositionWS ; float4 cameraNear : cameraNearFar ; #line 63 float4x4 model : model ; float4x4 modelIT : modelit ; float4x4 modelViewProj : modelviewproj ; #line 70 float4 mltColor ; #line 81 float4 f_se ; float4 f_cc , f_fc ; #line 111 struct Opaque_vs_a2v { #line 118 float3 position : POSITION ; float3 normal : NORMAL ; float4 color : COLOR0 ; float2 uv : TEXCOORD0 ; } ; #line 153 struct Opaque_vs_v2f { float4 position : SV_POSITION ; float4 color : TEXCOORD0 ; float4 uv : TEXCOORD1 ; float3 normal : TEXCOORD2 ; float3 eye : TEXCOORD3 ; float4 fog : TEXCOORD4 ; float4 pos : TEXCOORD5 ; float4 zDepth : TEXCOORD6 ; } ; #line 175 #line 182 void Opaque_vs_main ( #line 185 in Opaque_vs_a2v Opaque_vs_IN , out Opaque_vs_v2f Opaque_vs_OUT ) { #line 193 float4 inPos = float4 ( Opaque_vs_IN . position . xyz , 1 ) ; #line 199 #line 205 Opaque_vs_OUT . position = mul ( inPos , modelViewProj ) ; Opaque_vs_OUT . normal = normalize ( mul ( Opaque_vs_IN . normal . xyz , ( float3x3 ) modelIT ) ) ; float3 worldPos = ( mul ( float4 ( Opaque_vs_IN . position . xyz , 1.0f ) , model ) ) . xyz ; #line 213 Opaque_vs_OUT . eye = eyePositionWS . xyz - worldPos ; Opaque_vs_IN . color . rgb = Opaque_vs_IN . color . rgb * mltColor . xyz ; Opaque_vs_OUT . color = Opaque_vs_IN . color ; Opaque_vs_OUT . uv . xy = Opaque_vs_IN . uv ; Opaque_vs_OUT . uv . zw = Opaque_vs_OUT . position . zw ; #line 226 float3 pos = worldPos ; float3 eye = float3 ( eyePositionWS . xyz - pos . xyz ) ; float rayS = min ( eyePositionWS . y , pos . y ) ; float rayE = max ( eyePositionWS . y , pos . y ) + 0.5 ; float rayH = rayE - rayS ; float fogS = f_se . z ; float fogE = f_se . w ; float fogH = fogE - fogS ; float midS = min ( rayS , fogE ) ; float midE = min ( rayE , fogE ) ; float midA = 0.5 * ( midS + midE ) ; float midH = midE - midS ; float fogY = ( ( fogE - midA ) * midH ) / ( fogH * rayH ) ; float fogRatio = saturate ( ( fogY * length ( eye ) - f_se . x ) / ( f_se . y - f_se . x ) ) ; fogRatio = fogRatio * fogRatio ; float3 fogColor = lerp ( f_cc . rgb , f_fc . rgb , fogRatio ) ; float fogAlpha = lerp ( f_cc . a , f_fc . a , fogRatio ) ; Opaque_vs_OUT . fog = float4 ( fogColor , fogRatio * fogAlpha ) ; Opaque_vs_OUT . pos = mul ( SCALE_BIAS , Opaque_vs_OUT . position ) ; Opaque_vs_OUT . pos . w = Opaque_vs_OUT . position . w ; #line 256 Opaque_vs_OUT . zDepth . x = Opaque_vs_OUT . position . w - cameraNear . x ; } #line 0 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh" #line 642 #line 273 "D:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fx" #line 279 #line 284 Texture2D < float4 > tex ; float alpha ; float alphaFade ; float scatter ; float opacity ; float alphaPremult ; float4 uvOffset ; #line 298 Texture2D < float4 > depthTex ; float depthBias ; float depthScale ; float depthExtra ; float softFadeoutRate ; float nearCutoff ; float nearFadeDist ; float farCutoff ; float farFadeDist ; float manualTexDepth2Dproj ( Texture2D < float4 > _depthTex , float4 uv ) { #line 321 return _depthTex . Sample ( PointClampSampler , ( float2 ) ( uv . xy / uv . w ) ) . r ; } #line 335 struct Opaque_fs_v2f { float4 position : SV_POSITION ; float4 color : TEXCOORD0 ; float4 uv : TEXCOORD1 ; float3 normal : TEXCOORD2 ; float3 eye : TEXCOORD3 ; float4 fog : TEXCOORD4 ; float4 pos : TEXCOORD5 ; float4 zDepth : TEXCOORD6 ; } ; struct Opaque_fs_f2f { float4 color : SV_TARGET0 ; } ; #line 359 void Opaque_fs_main ( in Opaque_fs_v2f Opaque_fs_IN , out Opaque_fs_f2f Opaque_fs_OUT ) { float3 N = normalize ( Opaque_fs_IN . normal ) ; float3 E = normalize ( Opaque_fs_IN . eye ) ; float colorInt = 1 - dot ( N , E ) ; Opaque_fs_IN . uv . xy += uvOffset . xy ; float4 texColor = tex . Sample ( LinearWrapSampler , Opaque_fs_IN . uv . xy ) ; float4 baseColor = Opaque_fs_IN . color * texColor ; #line 378 baseColor . rgb = lerp ( baseColor . rgb , Opaque_fs_IN . fog . rgb , Opaque_fs_IN . fog . a ) ; float a = saturate ( Opaque_fs_IN . uv . z * 5.0 ) * saturate ( 1 - colorInt * scatter ) ; #line 388 float depth = manualTexDepth2Dproj ( depthTex , Opaque_fs_IN . pos ) ; #line 393 float pdepth = ConvertDepth ( depth ) ; float _distance = pdepth + depthExtra - Opaque_fs_IN . pos . w ; a *= clamp ( softFadeoutRate * _distance , 0 , 1 ) ; #line 401 float distFade = saturate ( ( Opaque_fs_IN . zDepth . x - nearCutoff ) / nearFadeDist ) * ( 1.0 - saturate ( ( Opaque_fs_IN . zDepth . x - farCutoff ) / farFadeDist ) ) ; a *= distFade ; #line 408 #line 412 float alphaMult = a * alpha * ( 1 - alphaFade ) * opacity ; Opaque_fs_OUT . color = float4 ( baseColor . rgb , baseColor . a * alphaMult * alphaMult ) ; #line 416 Opaque_fs_OUT . color . rgb *= alphaPremult * Opaque_fs_OUT . color . a + ( 1.0f - alphaPremult ) ; } 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 448 D:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Scattering_vs__Scattering_fs__33715.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/Migratory.sh (PЛ,o-)-D3DSHDR `џџџџ /ёX09eс…НA!Ё@@  $0<HT`lx%дOpaque_vs_mainR џџџџџџSCALE_BIAS"Q  џџџџџџeyePositionWSQ 0џџџџџџcameraNearQ@џџџџџџmodelQ€џџџџџџmodelIT"QРџџџџџџmodelViewProjQ џџџџџџmltColorQ џџџџџџf_seQ  џџџџџџf_ccQ 0џџџџџџf_fcџџџџ /ёMigratory.shўяўяџџџџџџџџџџ џџџџџџџџџџ ` l иOpaque_vs_mainnoneџџџџw 1 Ž?\T ,0 ` l иOpaque_vs_mainnone-К.ёў `џџџџ џџџџџџџџ'…лD:\Dev\TGC\Journey\head\Journey\shaderD:\\Dev\\TGC\\Journey\\head\\Journey\\Data\\Shaders\\S_Scattering_vs__Scattering_fs__33715.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/S_Scattering_vs__Scattering_fs__33715.fxD:/Dev/TGC/Journey/head/Journey/Data/Shaders/”.1\Œ^Ю5:јPђ!LЗoФћа T/LinkInfo/names/src/headerblock/src/files/d:\dev\tgc\journey\head\journey\shader" мQ3 А ?8щ-€k,tD(˜,TK-,JI./0123456789:;<=>?@ABC  !"#$%&'()*+DEFHGLCOLORNORMALPOSITIONTEXCOORDPEffectVariantPMaterialOpaqueVertexNormalColorST   ' . 4`P@0  œ˜”Œˆ„€|xtp5ј5р5Ш5А5˜5€5h5P686 1XhX1PБXZP!PAP‘ PБ XŽXXœP1 XБXсX‘XСXёXЁXбXHИP! PAP!PaXЂXЄ PQ PБ Pё PБ 4 Pё > hІPhЖabŽТС  Aœ№Мœ€єњžЄфмЎ€ШовьТЮ†dP>Œ&vќъІДЌAШп