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[require]
GLSL >= 1.40
[fragment shader]
#version 140
#extension GL_ARB_fragment_coord_conventions : require
layout(origin_upper_left) in vec4 gl_FragCoord;
out vec4 sk_FragColor;
uniform vec4 ustart_Stage1_c0_c0_c1_c0;
uniform vec4 uend_Stage1_c0_c0_c1_c0;
uniform vec2 uDstTextureUpperLeft_Stage2;
uniform vec2 uDstTextureCoordScale_Stage2;
uniform sampler2D uTextureSampler_0_Stage0;
uniform sampler2D uDstTextureSampler_Stage2;
noperspective in vec2 vTextureCoords_Stage0;
flat in int vTexIndex_Stage0;
noperspective in vec4 vinColor_Stage0;
noperspective in vec2 vTransformedCoords_0_Stage0;
vec4 LinearGradientLayout_Stage1_c0_c0_c0_c0(vec4 _input) {
vec4 _output;
float t = vTransformedCoords_0_Stage0.x + 9.9999997473787516e-06;
_output = vec4(t, 1.0, 0.0, 0.0);
return _output;
}
vec4 SingleIntervalGradientColorizer_Stage1_c0_c0_c1_c0(vec4 _input) {
vec4 _output;
float t = _input.x;
_output = (1.0 - t) * ustart_Stage1_c0_c0_c1_c0 + t * uend_Stage1_c0_c0_c1_c0;
return _output;
}
vec4 TiledGradientEffect_Stage1_c0_c0(vec4 _input) {
vec4 _output;
vec4 t = LinearGradientLayout_Stage1_c0_c0_c0_c0(vec4(1.0));
{
{
t.x = fract(t.x);
}
_output = SingleIntervalGradientColorizer_Stage1_c0_c0_c1_c0(t);
}
return _output;
}
float _blend_color_saturation(vec3 color) {
return max(max(color.x, color.y), color.z) - min(min(color.x, color.y), color.z);
}
vec3 _blend_set_color_saturation_helper(vec3 minMidMax, float sat) {
if (minMidMax.x < minMidMax.z) {
return vec3(0.0, (sat * (minMidMax.y - minMidMax.x)) / (minMidMax.z - minMidMax.x), sat);
}
return vec3(0.0);
}
vec3 _blend_set_color_saturation(vec3 hueLumColor, vec3 satColor) {
float sat = _blend_color_saturation(satColor);
if (hueLumColor.x <= hueLumColor.y) {
if (hueLumColor.y <= hueLumColor.z) {
hueLumColor.xyz = _blend_set_color_saturation_helper(hueLumColor, sat);
} else if (hueLumColor.x <= hueLumColor.z) {
hueLumColor.xzy = _blend_set_color_saturation_helper(hueLumColor.xzy, sat);
} else {
hueLumColor.zxy = _blend_set_color_saturation_helper(hueLumColor.zxy, sat);
}
} else if (hueLumColor.x <= hueLumColor.z) {
hueLumColor.yxz = _blend_set_color_saturation_helper(hueLumColor.yxz, sat);
} else if (hueLumColor.y <= hueLumColor.z) {
hueLumColor.yzx = _blend_set_color_saturation_helper(hueLumColor.yzx, sat);
} else {
hueLumColor.zyx = _blend_set_color_saturation_helper(hueLumColor.zyx, sat);
}
return hueLumColor;
}
float _blend_color_luminance(vec3 color) {
return dot(vec3(0.30000001192092896, 0.5899999737739563, 0.10999999940395355), color);
}
vec3 _blend_set_color_luminance(vec3 hueSatColor, float alpha, vec3 lumColor) {
float lum = _blend_color_luminance(lumColor);
vec3 result = (lum - _blend_color_luminance(hueSatColor)) + hueSatColor;
float minComp = min(min(result.x, result.y), result.z);
float maxComp = max(max(result.x, result.y), result.z);
if (minComp < 0.0 && lum != minComp) {
result = lum + ((result - lum) * lum) / (lum - minComp);
}
if (maxComp > alpha && maxComp != lum) {
return lum + ((result - lum) * (alpha - lum)) / (maxComp - lum);
}
return result;
}
vec4 blend_saturation(vec4 src, vec4 dst) {
float alpha = dst.w * src.w;
vec3 sda = src.xyz * dst.w;
vec3 dsa = dst.xyz * src.w;
return vec4((((_blend_set_color_luminance(_blend_set_color_saturation(dsa, sda), alpha, dsa) + dst.xyz) - dsa) + src.xyz) - sda, (src.w + dst.w) - alpha);
}
void main() {
vec4 outputCoverage_Stage0;
{
vec4 texColor;
{
texColor = texture(uTextureSampler_0_Stage0, vTextureCoords_Stage0);
}
outputCoverage_Stage0 = texColor;
}
vec4 output_Stage1;
{
output_Stage1 = TiledGradientEffect_Stage1_c0_c0(vec4(1.0, 1.0, 1.0, 1.0));
}
{
if (all(lessThanEqual(outputCoverage_Stage0.xyz, vec3(0.0)))) {
discard;
}
vec2 _dstTexCoord = (gl_FragCoord.xy - uDstTextureUpperLeft_Stage2) * uDstTextureCoordScale_Stage2;
_dstTexCoord.y = 1.0 - _dstTexCoord.y;
vec4 _dstColor = texture(uDstTextureSampler_Stage2, _dstTexCoord);
sk_FragColor = blend_saturation(output_Stage1, _dstColor);
float lerpRed = mix(_dstColor.w, sk_FragColor.w, outputCoverage_Stage0.x);
float lerpBlue = mix(_dstColor.w, sk_FragColor.w, outputCoverage_Stage0.y);
float lerpGreen = mix(_dstColor.w, sk_FragColor.w, outputCoverage_Stage0.z);
sk_FragColor = outputCoverage_Stage0 * sk_FragColor + (vec4(1.0) - outputCoverage_Stage0) * _dstColor;
sk_FragColor.w = max(max(lerpRed, lerpBlue), lerpGreen);
}
}
[vertex shader]
#version 140
uniform vec4 sk_RTAdjust;
uniform vec2 uAtlasSizeInv_Stage0;
uniform mat3 uCoordTransformMatrix_0_Stage0;
in vec2 inPosition;
in vec4 inColor;
in uvec2 inTextureCoords;
noperspective out vec2 vTextureCoords_Stage0;
flat out int vTexIndex_Stage0;
noperspective out vec4 vinColor_Stage0;
noperspective out vec2 vTransformedCoords_0_Stage0;
void main() {
ivec2 signedCoords = ivec2(int(inTextureCoords.x), int(inTextureCoords.y));
vec2 unormTexCoords = vec2(float(signedCoords.x / 2), float(signedCoords.y / 2));
vTextureCoords_Stage0 = unormTexCoords * uAtlasSizeInv_Stage0;
vTexIndex_Stage0 = 0;
vinColor_Stage0 = inColor;
vTransformedCoords_0_Stage0 = (uCoordTransformMatrix_0_Stage0 * vec3(inPosition, 1.0)).xy;
gl_Position = vec4(inPosition.x, inPosition.y, 0.0, 1.0);
gl_Position = vec4(gl_Position.xy * sk_RTAdjust.xz + gl_Position.ww * sk_RTAdjust.yw, 0.0, gl_Position.w);
}
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