352 lines
8.8 KiB
Text
352 lines
8.8 KiB
Text
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// Copyright Epic Games, Inc. All Rights Reserved.
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// handle differences between ES and full GL shaders
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#if PLATFORM_USES_GLES
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precision highp float;
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#else
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// #version 120 at the beginning is added in FSlateOpenGLShader::CompileShader()
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#extension GL_EXT_gpu_shader4 : enable
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#endif
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#ifndef USE_709
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#define USE_709 0
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#endif // USE_709
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// Shader types
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#define ST_Default 0
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#define ST_Border 1
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#define ST_GrayscaleFont 2
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#define ST_ColorFont 3
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#define ST_Line 4
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#define ST_RoundedBox 7
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#define USE_LEGACY_DISABLED_EFFECT 0
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/** Display gamma x:gamma curve adjustment, y:inverse gamma (1/GEngine->DisplayGamma) */
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uniform vec2 GammaValues = vec2(1, 1/2.2);
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// Draw effects
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uniform bool EffectsDisabled;
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uniform bool IgnoreTextureAlpha;
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uniform vec4 ShaderParams;
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uniform vec4 ShaderParams2;
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uniform int ShaderType;
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uniform sampler2D ElementTexture;
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#if PLATFORM_MAC
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// GL_TEXTURE_RECTANGLE_ARB support, used by the web surface on macOS
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uniform bool UseTextureRectangle;
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uniform sampler2DRect ElementRectTexture;
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uniform vec2 Size;
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#endif
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varying vec4 Position;
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varying vec4 TexCoords;
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varying vec4 Color;
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varying vec4 SecondaryColor;
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vec3 maxWithScalar(float test, vec3 values)
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{
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return vec3(max(test, values.x), max(test, values.y), max(test, values.z));
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}
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vec3 powScalar(vec3 values, float power)
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{
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return vec3(pow(values.x, power), pow(values.y, power), pow(values.z, power));
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}
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vec3 LinearTo709Branchless(vec3 lin)
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{
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lin = maxWithScalar(6.10352e-5, lin); // minimum positive non-denormal (fixes black problem on DX11 AMD and NV)
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return min(lin * 4.5, powScalar(maxWithScalar(0.018, lin), 0.45) * 1.099 - 0.099);
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}
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vec3 LinearToSrgbBranchless(vec3 lin)
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{
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lin = maxWithScalar(6.10352e-5, lin); // minimum positive non-denormal (fixes black problem on DX11 AMD and NV)
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return min(lin * 12.92, powScalar(maxWithScalar(0.00313067, lin), 1.0/2.4) * 1.055 - 0.055);
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// Possible that mobile GPUs might have native pow() function?
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//return min(lin * 12.92, exp2(log2(max(lin, 0.00313067)) * (1.0/2.4) + log2(1.055)) - 0.055);
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}
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float LinearToSrgbBranchingChannel(float lin)
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{
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if(lin < 0.00313067) return lin * 12.92;
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return pow(lin, (1.0/2.4)) * 1.055 - 0.055;
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}
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vec3 LinearToSrgbBranching(vec3 lin)
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{
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return vec3(
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LinearToSrgbBranchingChannel(lin.r),
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LinearToSrgbBranchingChannel(lin.g),
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LinearToSrgbBranchingChannel(lin.b));
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}
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float sRGBToLinearChannel( float ColorChannel )
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{
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return ColorChannel > 0.04045 ? pow( ColorChannel * (1.0 / 1.055) + 0.0521327, 2.4 ) : ColorChannel * (1.0 / 12.92);
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}
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vec3 sRGBToLinear( vec3 Color )
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{
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return vec3(sRGBToLinearChannel(Color.r),
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sRGBToLinearChannel(Color.g),
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sRGBToLinearChannel(Color.b));
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}
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/**
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* @param GammaCurveRatio The curve ratio compared to a 2.2 standard gamma, e.g. 2.2 / DisplayGamma. So normally the value is 1.
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*/
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vec3 ApplyGammaCorrection(vec3 LinearColor, float GammaCurveRatio)
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{
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// Apply "gamma" curve adjustment.
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vec3 CorrectedColor = powScalar(LinearColor, GammaCurveRatio);
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#if PLATFORM_MAC
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// Note, MacOSX native output is raw gamma 2.2 not sRGB!
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//CorrectedColor = pow(CorrectedColor, 1.0/2.2);
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CorrectedColor = LinearToSrgbBranching(CorrectedColor);
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#else
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#if USE_709
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// Didn't profile yet if the branching version would be faster (different linear segment).
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CorrectedColor = LinearTo709Branchless(CorrectedColor);
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#else
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CorrectedColor = LinearToSrgbBranching(CorrectedColor);
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#endif
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#endif
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return CorrectedColor;
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}
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vec3 GammaCorrect(vec3 InColor)
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{
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vec3 CorrectedColor = InColor;
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// gamma correct
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//#if PLATFORM_USES_GLES
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// OutColor.rgb = sqrt( OutColor.rgb );
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//#else
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// OutColor.rgb = pow(OutColor.rgb, vec3(1.0/2.2));
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//#endif
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#if !PLATFORM_USES_GLES
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if( GammaValues.y != 1.0f )
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{
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CorrectedColor = ApplyGammaCorrection(CorrectedColor, GammaValues.x);
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}
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#endif
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return CorrectedColor;
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}
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vec4 GetGrayscaleFontElementColor()
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{
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vec4 OutColor = Color;
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#if PLATFORM_LINUX
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OutColor.a *= texture2D(ElementTexture, TexCoords.xy).r; // OpenGL 3.2+ uses Red for single channel textures
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#else
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OutColor.a *= texture2D(ElementTexture, TexCoords.xy).a;
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#endif
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return OutColor;
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}
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vec4 GetColorFontElementColor()
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{
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vec4 OutColor = Color;
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OutColor *= texture2D(ElementTexture, TexCoords.xy);
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return OutColor;
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}
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vec4 GetDefaultElementColor()
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{
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vec4 OutColor = Color;
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vec4 TextureColor;
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#if PLATFORM_MAC
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if ( UseTextureRectangle )
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{
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TextureColor = texture2DRect(ElementRectTexture, TexCoords.xy*TexCoords.zw*Size).bgra;
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}
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else
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#endif
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{
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TextureColor = texture2D(ElementTexture, TexCoords.xy*TexCoords.zw);
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}
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if( IgnoreTextureAlpha )
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{
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TextureColor.a = 1.0;
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}
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OutColor *= TextureColor;
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return OutColor;
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}
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vec4 GetBorderElementColor()
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{
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vec4 OutColor = Color;
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vec4 InTexCoords = TexCoords;
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vec2 NewUV;
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if( InTexCoords.z == 0.0 && InTexCoords.w == 0.0 )
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{
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NewUV = InTexCoords.xy;
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}
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else
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{
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vec2 MinUV;
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vec2 MaxUV;
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if( InTexCoords.z > 0.0 )
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{
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MinUV = vec2(ShaderParams.x,0.0);
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MaxUV = vec2(ShaderParams.y,1.0);
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InTexCoords.w = 1.0;
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}
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else
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{
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MinUV = vec2(0.0,ShaderParams.z);
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MaxUV = vec2(1.0,ShaderParams.w);
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InTexCoords.z = 1.0;
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}
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NewUV = InTexCoords.xy*InTexCoords.zw;
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NewUV = fract(NewUV);
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NewUV = mix(MinUV,MaxUV,NewUV);
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}
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vec4 TextureColor = texture2D(ElementTexture, NewUV);
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if( IgnoreTextureAlpha )
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{
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TextureColor.a = 1.0;
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}
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OutColor *= TextureColor;
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return OutColor;
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}
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float GetRoundedBoxDistance(vec2 pos, vec2 center, float radius, float inset)
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{
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// distance from center
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pos = abs(pos - center);
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// distance from the inner corner
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pos = pos - (center - vec2(radius + inset, radius + inset));
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// use distance to nearest edge when not in quadrant with radius
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// this handles an edge case when radius is very close to thickness
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// otherwise we're in the quadrant with the radius,
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// just use the analytic signed distance function
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return mix( length(pos) - radius,
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max(pos.x - radius, pos.y - radius),
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float(pos.x <= 0 || pos.y <=0) );
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}
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vec4 GetRoundedBoxElementColor()
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{
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vec2 size = ShaderParams.zw;
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vec2 pos = size * TexCoords.xy;
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vec2 center = size / 2.0;
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//X = Top Left, Y = Top Right, Z = Bottom Right, W = Bottom Left */
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vec4 cornerRadii = ShaderParams2;
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// figure out which radius to use based on which quadrant we're in
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vec2 quadrant = step(TexCoords.xy, vec2(.5,.5));
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float left = mix(cornerRadii.y, cornerRadii.x, quadrant.x);
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float right = mix(cornerRadii.z, cornerRadii.w, quadrant.x);
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float radius = mix(right, left, quadrant.y);
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float thickness = ShaderParams.y;
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// Compute the distances internal and external to the border outline
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float dext = GetRoundedBoxDistance(pos, center, radius, 0.0);
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float din = GetRoundedBoxDistance(pos, center, max(radius - thickness, 0), thickness);
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// Compute the border intensity and fill intensity with a smooth transition
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float spread = 0.5;
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float bi = smoothstep(spread, -spread, dext);
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float fi = smoothstep(spread, -spread, din);
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// alpha blend the external color
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vec4 fill = GetDefaultElementColor();
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vec4 border = SecondaryColor;
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vec4 OutColor = mix(border, fill, float(thickness > radius));
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OutColor.a = 0.0;
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// blend in the border and fill colors
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OutColor = mix(OutColor, border, bi);
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OutColor = mix(OutColor, fill, fi);
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return OutColor;
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}
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vec4 GetLineSegmentElementColor()
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{
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vec2 Gradient = TexCoords.xy;
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vec2 OutsideFilterUV = vec2(1.0, 1.0);
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vec2 InsideFilterUV = vec2(ShaderParams.x, 0.0);
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vec2 LineCoverage = smoothstep(OutsideFilterUV, InsideFilterUV, abs(Gradient));
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vec4 OutColor = Color;
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OutColor.a *= LineCoverage.x * LineCoverage.y;
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return OutColor;
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}
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void main()
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{
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vec4 OutColor;
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if( ShaderType == ST_Default )
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{
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OutColor = GetDefaultElementColor();
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}
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else if( ShaderType == ST_RoundedBox )
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{
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OutColor = GetRoundedBoxElementColor();
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}
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else if( ShaderType == ST_Border )
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{
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OutColor = GetBorderElementColor();
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}
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else if( ShaderType == ST_GrayscaleFont )
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{
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OutColor = GetGrayscaleFontElementColor();
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}
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else if( ShaderType == ST_ColorFont )
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{
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OutColor = GetColorFontElementColor();
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}
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else
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{
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OutColor = GetLineSegmentElementColor();
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}
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// gamma correct
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OutColor.rgb = GammaCorrect(OutColor.rgb);
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if( EffectsDisabled )
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{
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#if USE_LEGACY_DISABLED_EFFECT
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//desaturate
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vec3 LumCoeffs = vec3( 0.3, 0.59, .11 );
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float Lum = dot( LumCoeffs, OutColor.rgb );
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OutColor.rgb = mix( OutColor.rgb, vec3(Lum,Lum,Lum), .8 );
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vec3 Grayish = vec3(0.4, 0.4, 0.4);
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OutColor.rgb = mix( OutColor.rgb, Grayish, clamp( distance( OutColor.rgb, Grayish ), 0.0, 0.8) );
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#else
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OutColor.a *= .45f;
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#endif
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}
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gl_FragColor = OutColor.bgra;
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}
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