mirror of https://github.com/axmolengine/axmol.git
352 lines
14 KiB
C++
352 lines
14 KiB
C++
static const char metal_ad_model_lit_ps[] = R"(mtlcode
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#pragma clang diagnostic ignored "-Wmissing-prototypes"
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#include <metal_stdlib>
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#include <simd/simd.h>
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using namespace metal;
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struct PS_Input
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{
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float4 PosVS;
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float4 Color;
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float4 UV_Others;
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float3 WorldN;
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float3 WorldB;
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float3 WorldT;
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float4 Alpha_Dist_UV;
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float4 Blend_Alpha_Dist_UV;
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float4 Blend_FBNextIndex_UV;
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float4 PosP;
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};
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struct AdvancedParameter
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{
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float2 AlphaUV;
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float2 UVDistortionUV;
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float2 BlendUV;
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float2 BlendAlphaUV;
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float2 BlendUVDistortionUV;
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float2 FlipbookNextIndexUV;
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float FlipbookRate;
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float AlphaThreshold;
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};
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struct PS_ConstanBuffer
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{
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float4 fLightDirection;
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float4 fLightColor;
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float4 fLightAmbient;
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float4 fFlipbookParameter;
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float4 fUVDistortionParameter;
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float4 fBlendTextureParameter;
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float4 fCameraFrontDirection;
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float4 fFalloffParameter;
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float4 fFalloffBeginColor;
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float4 fFalloffEndColor;
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float4 fEmissiveScaling;
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float4 fEdgeColor;
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float4 fEdgeParameter;
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float4 softParticleParam;
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float4 reconstructionParam1;
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float4 reconstructionParam2;
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float4 mUVInversedBack;
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float4 miscFlags;
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};
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struct main0_out
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{
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float4 _entryPointOutput [[color(0)]];
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};
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struct main0_in
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{
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float4 Input_Color [[user(locn0), centroid_perspective]];
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float4 Input_UV_Others [[user(locn1), centroid_perspective]];
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float3 Input_WorldN [[user(locn2)]];
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float3 Input_WorldB [[user(locn3)]];
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float3 Input_WorldT [[user(locn4)]];
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float4 Input_Alpha_Dist_UV [[user(locn5)]];
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float4 Input_Blend_Alpha_Dist_UV [[user(locn6)]];
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float4 Input_Blend_FBNextIndex_UV [[user(locn7)]];
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float4 Input_PosP [[user(locn8)]];
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};
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static inline __attribute__((always_inline))
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AdvancedParameter DisolveAdvancedParameter(thread const PS_Input& psinput)
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{
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AdvancedParameter ret;
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ret.AlphaUV = psinput.Alpha_Dist_UV.xy;
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ret.UVDistortionUV = psinput.Alpha_Dist_UV.zw;
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ret.BlendUV = psinput.Blend_FBNextIndex_UV.xy;
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ret.BlendAlphaUV = psinput.Blend_Alpha_Dist_UV.xy;
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ret.BlendUVDistortionUV = psinput.Blend_Alpha_Dist_UV.zw;
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ret.FlipbookNextIndexUV = psinput.Blend_FBNextIndex_UV.zw;
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ret.FlipbookRate = psinput.UV_Others.z;
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ret.AlphaThreshold = psinput.UV_Others.w;
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return ret;
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}
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static inline __attribute__((always_inline))
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float3 PositivePow(thread const float3& base, thread const float3& power)
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{
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return pow(fast::max(abs(base), float3(1.1920928955078125e-07)), power);
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}
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static inline __attribute__((always_inline))
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float3 LinearToSRGB(thread const float3& c)
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{
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float3 param = c;
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float3 param_1 = float3(0.4166666567325592041015625);
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return fast::max((PositivePow(param, param_1) * 1.05499994754791259765625) - float3(0.054999999701976776123046875), float3(0.0));
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}
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static inline __attribute__((always_inline))
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float4 LinearToSRGB(thread const float4& c)
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{
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float3 param = c.xyz;
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return float4(LinearToSRGB(param), c.w);
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}
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static inline __attribute__((always_inline))
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float4 ConvertFromSRGBTexture(thread const float4& c, thread const bool& isValid)
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{
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if (!isValid)
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{
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return c;
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}
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float4 param = c;
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return LinearToSRGB(param);
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}
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static inline __attribute__((always_inline))
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float2 UVDistortionOffset(texture2d<float> t, sampler s, thread const float2& uv, thread const float2& uvInversed, thread const bool& convertFromSRGB)
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{
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float4 sampledColor = t.sample(s, uv);
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if (convertFromSRGB)
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{
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float4 param = sampledColor;
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bool param_1 = convertFromSRGB;
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sampledColor = ConvertFromSRGBTexture(param, param_1);
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}
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float2 UVOffset = (sampledColor.xy * 2.0) - float2(1.0);
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UVOffset.y *= (-1.0);
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UVOffset.y = uvInversed.x + (uvInversed.y * UVOffset.y);
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return UVOffset;
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}
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static inline __attribute__((always_inline))
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void ApplyFlipbook(thread float4& dst, texture2d<float> t, sampler s, float4 flipbookParameter, float4 vcolor, float2 nextUV, thread const float& flipbookRate, thread const bool& convertFromSRGB)
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{
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if (flipbookParameter.x > 0.0)
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{
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float4 sampledColor = t.sample(s, nextUV);
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if (convertFromSRGB)
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{
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float4 param = sampledColor;
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bool param_1 = convertFromSRGB;
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sampledColor = ConvertFromSRGBTexture(param, param_1);
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}
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float4 NextPixelColor = sampledColor * vcolor;
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if (flipbookParameter.y == 1.0)
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{
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dst = mix(dst, NextPixelColor, float4(flipbookRate));
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}
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}
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}
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static inline __attribute__((always_inline))
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void ApplyTextureBlending(thread float4& dstColor, float4 blendColor, float blendType)
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{
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if (blendType == 0.0)
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{
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float3 _222 = (blendColor.xyz * blendColor.w) + (dstColor.xyz * (1.0 - blendColor.w));
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dstColor = float4(_222.x, _222.y, _222.z, dstColor.w);
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}
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else
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{
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if (blendType == 1.0)
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{
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float3 _234 = dstColor.xyz + (blendColor.xyz * blendColor.w);
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dstColor = float4(_234.x, _234.y, _234.z, dstColor.w);
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}
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else
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{
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if (blendType == 2.0)
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{
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float3 _247 = dstColor.xyz - (blendColor.xyz * blendColor.w);
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dstColor = float4(_247.x, _247.y, _247.z, dstColor.w);
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}
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else
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{
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if (blendType == 3.0)
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{
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float3 _260 = dstColor.xyz * (blendColor.xyz * blendColor.w);
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dstColor = float4(_260.x, _260.y, _260.z, dstColor.w);
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}
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}
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}
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}
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}
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static inline __attribute__((always_inline))
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float SoftParticle(thread const float& backgroundZ, thread const float& meshZ, thread const float4& softparticleParam, thread const float4& reconstruct1, thread const float4& reconstruct2)
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{
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float distanceFar = softparticleParam.x;
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float distanceNear = softparticleParam.y;
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float distanceNearOffset = softparticleParam.z;
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float2 rescale = reconstruct1.xy;
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float4 params = reconstruct2;
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float2 zs = float2((backgroundZ * rescale.x) + rescale.y, meshZ);
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float2 depth = ((zs * params.w) - float2(params.y)) / (float2(params.x) - (zs * params.z));
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float dir = sign(depth.x);
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depth *= dir;
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float alphaFar = (depth.x - depth.y) / distanceFar;
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float alphaNear = (depth.y - distanceNearOffset) / distanceNear;
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return fast::min(fast::max(fast::min(alphaFar, alphaNear), 0.0), 1.0);
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}
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static inline __attribute__((always_inline))
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float3 SRGBToLinear(thread const float3& c)
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{
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return fast::min(c, c * ((c * ((c * 0.305306017398834228515625) + float3(0.6821711063385009765625))) + float3(0.01252287812530994415283203125)));
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}
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static inline __attribute__((always_inline))
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float4 SRGBToLinear(thread const float4& c)
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{
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float3 param = c.xyz;
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return float4(SRGBToLinear(param), c.w);
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}
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static inline __attribute__((always_inline))
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float4 ConvertToScreen(thread const float4& c, thread const bool& isValid)
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{
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if (!isValid)
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{
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return c;
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}
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float4 param = c;
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return SRGBToLinear(param);
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}
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static inline __attribute__((always_inline))
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float4 _main(PS_Input Input, constant PS_ConstanBuffer& v_418, thread texture2d<float> _uvDistortionTex, thread sampler sampler_uvDistortionTex, thread texture2d<float> _colorTex, thread sampler sampler_colorTex, thread texture2d<float> _normalTex, thread sampler sampler_normalTex, thread texture2d<float> _alphaTex, thread sampler sampler_alphaTex, thread texture2d<float> _blendUVDistortionTex, thread sampler sampler_blendUVDistortionTex, thread texture2d<float> _blendTex, thread sampler sampler_blendTex, thread texture2d<float> _blendAlphaTex, thread sampler sampler_blendAlphaTex, thread texture2d<float> _depthTex, thread sampler sampler_depthTex)
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{
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bool convertColorSpace = (isunordered(v_418.miscFlags.x, 0.0) || v_418.miscFlags.x != 0.0);
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PS_Input param = Input;
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AdvancedParameter advancedParam = DisolveAdvancedParameter(param);
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float2 param_1 = advancedParam.UVDistortionUV;
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float2 param_2 = v_418.fUVDistortionParameter.zw;
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bool param_3 = convertColorSpace;
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float2 UVOffset = UVDistortionOffset(_uvDistortionTex, sampler_uvDistortionTex, param_1, param_2, param_3);
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UVOffset *= v_418.fUVDistortionParameter.x;
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float4 param_4 = _colorTex.sample(sampler_colorTex, (Input.UV_Others.xy + UVOffset));
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bool param_5 = convertColorSpace;
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float4 Output = ConvertFromSRGBTexture(param_4, param_5) * Input.Color;
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float3 texNormal = (_normalTex.sample(sampler_normalTex, (Input.UV_Others.xy + UVOffset)).xyz - float3(0.5)) * 2.0;
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float3 localNormal = normalize(float3x3(float3(Input.WorldT), float3(Input.WorldB), float3(Input.WorldN)) * texNormal);
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float4 param_6 = Output;
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float param_7 = advancedParam.FlipbookRate;
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bool param_8 = convertColorSpace;
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ApplyFlipbook(param_6, _colorTex, sampler_colorTex, v_418.fFlipbookParameter, Input.Color, advancedParam.FlipbookNextIndexUV + UVOffset, param_7, param_8);
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Output = param_6;
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float4 param_9 = _alphaTex.sample(sampler_alphaTex, (advancedParam.AlphaUV + UVOffset));
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bool param_10 = convertColorSpace;
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float4 AlphaTexColor = ConvertFromSRGBTexture(param_9, param_10);
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Output.w *= (AlphaTexColor.x * AlphaTexColor.w);
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float2 param_11 = advancedParam.BlendUVDistortionUV;
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float2 param_12 = v_418.fUVDistortionParameter.zw;
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bool param_13 = convertColorSpace;
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float2 BlendUVOffset = UVDistortionOffset(_blendUVDistortionTex, sampler_blendUVDistortionTex, param_11, param_12, param_13);
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BlendUVOffset *= v_418.fUVDistortionParameter.y;
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float4 param_14 = _blendTex.sample(sampler_blendTex, (advancedParam.BlendUV + BlendUVOffset));
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bool param_15 = convertColorSpace;
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float4 BlendTextureColor = ConvertFromSRGBTexture(param_14, param_15);
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float4 param_16 = _blendAlphaTex.sample(sampler_blendAlphaTex, (advancedParam.BlendAlphaUV + BlendUVOffset));
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bool param_17 = convertColorSpace;
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float4 BlendAlphaTextureColor = ConvertFromSRGBTexture(param_16, param_17);
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BlendTextureColor.w *= (BlendAlphaTextureColor.x * BlendAlphaTextureColor.w);
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float4 param_18 = Output;
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ApplyTextureBlending(param_18, BlendTextureColor, v_418.fBlendTextureParameter.x);
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Output = param_18;
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float diffuse = fast::max(dot(v_418.fLightDirection.xyz, localNormal), 0.0);
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float3 _628 = Output.xyz * ((v_418.fLightColor.xyz * diffuse) + v_418.fLightAmbient.xyz);
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Output = float4(_628.x, _628.y, _628.z, Output.w);
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if (v_418.fFalloffParameter.x == 1.0)
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{
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float3 cameraVec = normalize(-v_418.fCameraFrontDirection.xyz);
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float CdotN = fast::clamp(dot(cameraVec, float3(localNormal.x, localNormal.y, localNormal.z)), 0.0, 1.0);
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float4 FalloffBlendColor = mix(v_418.fFalloffEndColor, v_418.fFalloffBeginColor, float4(pow(CdotN, v_418.fFalloffParameter.z)));
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if (v_418.fFalloffParameter.y == 0.0)
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{
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float3 _674 = Output.xyz + FalloffBlendColor.xyz;
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Output = float4(_674.x, _674.y, _674.z, Output.w);
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}
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else
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{
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if (v_418.fFalloffParameter.y == 1.0)
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{
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float3 _687 = Output.xyz - FalloffBlendColor.xyz;
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Output = float4(_687.x, _687.y, _687.z, Output.w);
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}
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else
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{
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if (v_418.fFalloffParameter.y == 2.0)
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{
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float3 _700 = Output.xyz * FalloffBlendColor.xyz;
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Output = float4(_700.x, _700.y, _700.z, Output.w);
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}
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}
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}
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Output.w *= FalloffBlendColor.w;
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}
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float3 _714 = Output.xyz * v_418.fEmissiveScaling.x;
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Output = float4(_714.x, _714.y, _714.z, Output.w);
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float4 screenPos = Input.PosP / float4(Input.PosP.w);
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float2 screenUV = (screenPos.xy + float2(1.0)) / float2(2.0);
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screenUV.y = 1.0 - screenUV.y;
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screenUV.y = v_418.mUVInversedBack.x + (v_418.mUVInversedBack.y * screenUV.y);
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if ((isunordered(v_418.softParticleParam.w, 0.0) || v_418.softParticleParam.w != 0.0))
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{
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float backgroundZ = _depthTex.sample(sampler_depthTex, screenUV).x;
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float param_19 = backgroundZ;
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float param_20 = screenPos.z;
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float4 param_21 = v_418.softParticleParam;
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float4 param_22 = v_418.reconstructionParam1;
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float4 param_23 = v_418.reconstructionParam2;
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Output.w *= SoftParticle(param_19, param_20, param_21, param_22, param_23);
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}
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if (Output.w <= fast::max(0.0, advancedParam.AlphaThreshold))
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{
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discard_fragment();
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}
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float3 _808 = mix(v_418.fEdgeColor.xyz * v_418.fEdgeParameter.y, Output.xyz, float3(ceil((Output.w - advancedParam.AlphaThreshold) - v_418.fEdgeParameter.x)));
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Output = float4(_808.x, _808.y, _808.z, Output.w);
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float4 param_24 = Output;
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bool param_25 = convertColorSpace;
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return ConvertToScreen(param_24, param_25);
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}
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fragment main0_out main0(main0_in in [[stage_in]], constant PS_ConstanBuffer& v_418 [[buffer(0)]], texture2d<float> _colorTex [[texture(0)]], texture2d<float> _normalTex [[texture(1)]], texture2d<float> _alphaTex [[texture(2)]], texture2d<float> _uvDistortionTex [[texture(3)]], texture2d<float> _blendTex [[texture(4)]], texture2d<float> _blendAlphaTex [[texture(5)]], texture2d<float> _blendUVDistortionTex [[texture(6)]], texture2d<float> _depthTex [[texture(7)]], sampler sampler_colorTex [[sampler(0)]], sampler sampler_normalTex [[sampler(1)]], sampler sampler_alphaTex [[sampler(2)]], sampler sampler_uvDistortionTex [[sampler(3)]], sampler sampler_blendTex [[sampler(4)]], sampler sampler_blendAlphaTex [[sampler(5)]], sampler sampler_blendUVDistortionTex [[sampler(6)]], sampler sampler_depthTex [[sampler(7)]], float4 gl_FragCoord [[position]])
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{
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main0_out out = {};
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PS_Input Input;
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Input.PosVS = gl_FragCoord;
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Input.Color = in.Input_Color;
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Input.UV_Others = in.Input_UV_Others;
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Input.WorldN = in.Input_WorldN;
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Input.WorldB = in.Input_WorldB;
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Input.WorldT = in.Input_WorldT;
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Input.Alpha_Dist_UV = in.Input_Alpha_Dist_UV;
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Input.Blend_Alpha_Dist_UV = in.Input_Blend_Alpha_Dist_UV;
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Input.Blend_FBNextIndex_UV = in.Input_Blend_FBNextIndex_UV;
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Input.PosP = in.Input_PosP;
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float4 _854 = _main(Input, v_418, _uvDistortionTex, sampler_uvDistortionTex, _colorTex, sampler_colorTex, _normalTex, sampler_normalTex, _alphaTex, sampler_alphaTex, _blendUVDistortionTex, sampler_blendUVDistortionTex, _blendTex, sampler_blendTex, _blendAlphaTex, sampler_blendAlphaTex, _depthTex, sampler_depthTex);
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out._entryPointOutput = _854;
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return out;
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}
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)";
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