2013-02-22 09:07:31 +04:00
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/*
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2014-02-11 10:07:04 +04:00
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* Copyright 2011-2014 Branimir Karadzic. All rights reserved.
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2013-02-22 09:07:31 +04:00
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* License: http://www.opensource.org/licenses/BSD-2-Clause
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*/
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#ifndef __SHADERLIB_SH__
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#define __SHADERLIB_SH__
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vec4 encodeRE8(float _r)
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{
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float exponent = ceil(log2(_r) );
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return vec4(_r / exp2(exponent)
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, 0.0
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, 0.0
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, (exponent + 128.0) / 255.0
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);
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}
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float decodeRE8(vec4 _re8)
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{
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float exponent = _re8.w * 255.0 - 128.0;
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return _re8.x * exp2(exponent);
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}
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vec4 encodeRGBE8(vec3 _rgb)
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{
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vec4 rgbe8;
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float maxComponent = max(max(_rgb.x, _rgb.y), _rgb.z);
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float exponent = ceil(log2(maxComponent) );
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rgbe8.xyz = _rgb / exp2(exponent);
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rgbe8.w = (exponent + 128.0) / 255.0;
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return rgbe8;
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}
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vec3 decodeRGBE8(vec4 _rgbe8)
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{
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float exponent = _rgbe8.w * 255.0 - 128.0;
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vec3 rgb = _rgbe8.xyz * exp2(exponent);
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return rgb;
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}
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2014-05-22 07:33:12 +04:00
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vec3 encodeNormalUint(vec3 _normal)
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{
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return _normal * 0.5 + 0.5;
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}
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vec3 decodeNormalUint(vec3 _encodedNormal)
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{
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return _encodedNormal * 2.0 - 1.0;
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}
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2014-05-24 08:24:55 +04:00
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vec2 encodeNormalSphereMap(vec3 _normal)
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{
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return normalize(_normal.xy) * sqrt(_normal.z * 0.5 + 0.5);
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}
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vec3 decodeNormalSphereMap(vec2 _encodedNormal)
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{
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float zz = dot(_encodedNormal, _encodedNormal) * 2.0 - 1.0;
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return vec3(normalize(_encodedNormal.xy) * sqrt(1.0 - zz*zz), zz);
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}
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// Reference:
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// Octahedron normal vector encoding
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// http://kriscg.blogspot.com/2014/04/octahedron-normal-vector-encoding.html
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vec2 octahedronWrap(vec2 _val)
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{
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return (1.0 - abs(_val.yx) )
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* mix(vec2_splat(-1.0), vec2_splat(1.0), vec2(greaterThanEqual(_val.xy, vec2_splat(0.0) ) ) );
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}
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vec2 encodeNormalOctahedron(vec3 _normal)
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{
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_normal /= abs(_normal.x) + abs(_normal.y) + abs(_normal.z);
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_normal.xy = _normal.z >= 0.0 ? _normal.xy : octahedronWrap(_normal.xy);
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_normal.xy = _normal.xy * 0.5 + 0.5;
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return _normal.xy;
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}
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vec3 decodeNormalOctahedron(vec2 _encodedNormal)
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{
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_encodedNormal = _encodedNormal * 2.0 - 1.0;
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vec3 normal;
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normal.z = 1.0 - abs(_encodedNormal.x) - abs(_encodedNormal.y);
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normal.xy = normal.z >= 0.0 ? _encodedNormal.xy : octahedronWrap(_encodedNormal.xy);
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return normalize(normal);
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}
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2013-02-22 09:07:31 +04:00
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// Reference:
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// RGB/XYZ Matrices
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// http://www.brucelindbloom.com/index.html?Eqn_RGB_XYZ_Matrix.html
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vec3 convertRGB2XYZ(vec3 _rgb)
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{
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vec3 xyz;
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xyz.x = dot(vec3(0.4124564, 0.3575761, 0.1804375), _rgb);
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xyz.y = dot(vec3(0.2126729, 0.7151522, 0.0721750), _rgb);
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xyz.z = dot(vec3(0.0193339, 0.1191920, 0.9503041), _rgb);
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return xyz;
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}
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vec3 convertXYZ2RGB(vec3 _xyz)
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{
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vec3 rgb;
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rgb.x = dot(vec3( 3.2404542, -1.5371385, -0.4985314), _xyz);
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rgb.y = dot(vec3(-0.9692660, 1.8760108, 0.0415560), _xyz);
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rgb.z = dot(vec3( 0.0556434, -0.2040259, 1.0572252), _xyz);
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return rgb;
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}
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vec3 convertXYZ2Yxy(vec3 _xyz)
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{
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// Reference:
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// http://www.brucelindbloom.com/index.html?Eqn_XYZ_to_xyY.html
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float inv = 1.0/dot(_xyz, vec3(1.0, 1.0, 1.0) );
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return vec3(_xyz.y, _xyz.x*inv, _xyz.y*inv);
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}
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vec3 convertYxy2XYZ(vec3 _Yxy)
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{
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// Reference:
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// http://www.brucelindbloom.com/index.html?Eqn_xyY_to_XYZ.html
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vec3 xyz;
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xyz.x = _Yxy.x*_Yxy.y/_Yxy.z;
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xyz.y = _Yxy.x;
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xyz.z = _Yxy.x*(1.0 - _Yxy.y - _Yxy.z)/_Yxy.z;
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return xyz;
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}
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vec3 convertRGB2Yxy(vec3 _rgb)
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{
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return convertXYZ2Yxy(convertRGB2XYZ(_rgb) );
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}
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vec3 convertYxy2RGB(vec3 _Yxy)
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{
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return convertXYZ2RGB(convertYxy2XYZ(_Yxy) );
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}
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vec3 convertRGB2Yuv(vec3 _rgb)
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{
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vec3 yuv;
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yuv.x = dot(_rgb, vec3(0.299, 0.587, 0.114) );
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yuv.y = (_rgb.x - yuv.x)*0.713 + 0.5;
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yuv.z = (_rgb.z - yuv.x)*0.564 + 0.5;
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return yuv;
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}
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vec3 convertYuv2RGB(vec3 _yuv)
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{
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vec3 rgb;
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rgb.x = _yuv.x + 1.403*(_yuv.y-0.5);
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rgb.y = _yuv.x - 0.344*(_yuv.y-0.5) - 0.714*(_yuv.z-0.5);
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rgb.z = _yuv.x + 1.773*(_yuv.z-0.5);
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return rgb;
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}
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vec3 convertRGB2YIQ(vec3 _rgb)
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{
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vec3 yiq;
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yiq.x = dot(vec3(0.299, 0.587, 0.114 ), _rgb);
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yiq.y = dot(vec3(0.595716, -0.274453, -0.321263), _rgb);
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yiq.z = dot(vec3(0.211456, -0.522591, 0.311135), _rgb);
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return yiq;
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}
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vec3 convertYIQ2RGB(vec3 _yiq)
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{
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vec3 rgb;
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rgb.x = dot(vec3(1.0, 0.9563, 0.6210), _yiq);
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rgb.y = dot(vec3(1.0, -0.2721, -0.6474), _yiq);
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rgb.z = dot(vec3(1.0, -1.1070, 1.7046), _yiq);
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return rgb;
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}
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vec3 toLinear(vec3 _rgb)
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{
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2014-07-29 07:15:01 +04:00
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return pow(abs(_rgb), vec3_splat(2.2) );
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2013-02-22 09:07:31 +04:00
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}
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vec4 toLinear(vec4 _rgba)
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{
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return vec4(toLinear(_rgba.xyz), _rgba.w);
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}
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2014-08-12 07:36:42 +04:00
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float toGamma(float _r)
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{
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return pow(abs(_r), 1.0/2.2);
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}
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2013-02-22 09:07:31 +04:00
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vec3 toGamma(vec3 _rgb)
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{
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2014-08-12 07:36:42 +04:00
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return pow(abs(_rgb), vec3_splat(1.0/2.2) );
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2013-02-22 09:07:31 +04:00
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}
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vec4 toGamma(vec4 _rgba)
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{
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return vec4(toGamma(_rgba.xyz), _rgba.w);
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}
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vec3 toReinhard(vec3 _rgb)
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{
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return toGamma(_rgb/(_rgb+vec3_splat(1.0) ) );
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}
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vec4 toReinhard(vec4 _rgba)
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{
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return vec4(toReinhard(_rgba.xyz), _rgba.w);
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}
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vec3 toFilmic(vec3 _rgb)
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{
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_rgb = max(vec3_splat(0.0), _rgb - 0.004);
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_rgb = (_rgb*(6.2*_rgb + 0.5) ) / (_rgb*(6.2*_rgb + 1.7) + 0.06);
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return _rgb;
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}
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vec4 toFilmic(vec4 _rgba)
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{
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return vec4(toFilmic(_rgba.xyz), _rgba.w);
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}
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vec3 luma(vec3 _rgb)
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{
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float yy = dot(vec3(0.2126729, 0.7151522, 0.0721750), _rgb);
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return vec3_splat(yy);
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}
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vec4 luma(vec4 _rgba)
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{
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return vec4(luma(_rgba.xyz), _rgba.w);
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}
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vec3 conSatBri(vec3 _rgb, vec3 _csb)
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{
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vec3 rgb = _rgb * _csb.z;
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2013-04-06 07:40:50 +04:00
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rgb = mix(luma(rgb), rgb, _csb.y);
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rgb = mix(vec3_splat(0.5), rgb, _csb.x);
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2013-02-22 09:07:31 +04:00
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return rgb;
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}
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vec4 conSatBri(vec4 _rgba, vec3 _csb)
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{
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return vec4(conSatBri(_rgba.xyz, _csb), _rgba.w);
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}
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vec3 posterize(vec3 _rgb, float _numColors)
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{
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return floor(_rgb*_numColors) / _numColors;
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}
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vec4 posterize(vec4 _rgba, float _numColors)
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{
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return vec4(posterize(_rgba.xyz, _numColors), _rgba.w);
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}
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vec3 sepia(vec3 _rgb)
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{
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vec3 color;
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color.x = dot(_rgb, vec3(0.393, 0.769, 0.189) );
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color.y = dot(_rgb, vec3(0.349, 0.686, 0.168) );
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color.z = dot(_rgb, vec3(0.272, 0.534, 0.131) );
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return color;
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}
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vec4 sepia(vec4 _rgba)
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{
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return vec4(sepia(_rgba.xyz), _rgba.w);
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}
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vec3 blendOverlay(vec3 _base, vec3 _blend)
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{
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vec3 lt = 2.0 * _base * _blend;
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vec3 gte = 1.0 - 2.0 * (1.0 - _base) * (1.0 - _blend);
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2013-04-06 07:40:50 +04:00
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return mix(lt, gte, step(vec3_splat(0.5), _base) );
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2013-02-22 09:07:31 +04:00
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}
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vec4 blendOverlay(vec4 _base, vec4 _blend)
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{
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return vec4(blendOverlay(_base.xyz, _blend.xyz), _base.w);
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}
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vec3 adjustHue(vec3 _rgb, float _hue)
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{
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vec3 yiq = convertRGB2YIQ(_rgb);
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float angle = _hue + atan2(yiq.z, yiq.y);
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float len = length(yiq.yz);
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return convertYIQ2RGB(vec3(yiq.x, len*cos(angle), len*sin(angle) ) );
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}
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vec4 packFloatToRgba(float _value)
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{
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const vec4 shift = vec4(256 * 256 * 256, 256 * 256, 256, 1.0);
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const vec4 mask = vec4(0, 1.0 / 256.0, 1.0 / 256.0, 1.0 / 256.0);
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2013-04-06 07:40:50 +04:00
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vec4 comp = fract(_value * shift);
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2013-02-22 09:07:31 +04:00
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comp -= comp.xxyz * mask;
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return comp;
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}
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float unpackRgbaToFloat(vec4 _rgba)
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{
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const vec4 shift = vec4(1.0 / (256.0 * 256.0 * 256.0), 1.0 / (256.0 * 256.0), 1.0 / 256.0, 1.0);
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return dot(_rgba, shift);
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}
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2013-12-11 07:32:13 +04:00
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vec2 packHalfFloat(float _value)
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{
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const vec2 shift = vec2(256, 1.0);
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const vec2 mask = vec2(0, 1.0 / 256.0);
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vec2 comp = fract(_value * shift);
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comp -= comp.xx * mask;
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return comp;
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}
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float unpackHalfFloat(vec2 _rg)
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{
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const vec2 shift = vec2(1.0 / 256.0, 1.0);
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return dot(_rg, shift);
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}
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2013-02-22 09:07:31 +04:00
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float random(vec2 _uv)
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{
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2013-04-06 07:40:50 +04:00
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return fract(sin(dot(_uv.xy, vec2(12.9898, 78.233) ) ) * 43758.5453);
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2013-02-22 09:07:31 +04:00
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}
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#endif // __SHADERLIB_SH__
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