1diagnostic(off, derivative_uniformity); 2diagnostic(off, chromium.unreachable_code); 3struct FSOut { 4 @location(0) sk_FragColor: vec4<f32>, 5}; 6struct _GlobalUniforms { 7 colorGreen: vec4<f32>, 8 colorRed: vec4<f32>, 9}; 10@binding(0) @group(0) var<uniform> _globalUniforms: _GlobalUniforms; 11var<private> gAccessCount: i32 = 0; 12fn Z_i() -> i32 { 13 { 14 gAccessCount = gAccessCount + i32(1); 15 return 0; 16 } 17} 18fn _skslMain(_skParam0: vec2<f32>) -> vec4<f32> { 19 { 20 var R_array: array<vec4<f32>, 1>; 21 let _skTemp0 = Z_i(); 22 let _skTemp1 = _skTemp0; 23 R_array[_skTemp1] = vec4<f32>(_globalUniforms.colorGreen) * 0.5; 24 let _skTemp2 = Z_i(); 25 let _skTemp3 = _skTemp2; 26 R_array[_skTemp3].w = 2.0; 27 let _skTemp4 = Z_i(); 28 let _skTemp5 = _skTemp4; 29 R_array[_skTemp5].y = R_array[_skTemp5].y * 4.0; 30 let _skTemp6 = Z_i(); 31 let _skTemp7 = _skTemp6; 32 R_array[_skTemp7] = vec4<f32>(R_array[_skTemp7].x, (R_array[_skTemp7].yzw * mat3x3<f32>(0.5, 0.0, 0.0, 0.0, 0.5, 0.0, 0.0, 0.0, 0.5))); 33 let _skTemp8 = Z_i(); 34 let _skTemp9 = _skTemp8; 35 R_array[_skTemp9] = (R_array[_skTemp9].zywx + vec4<f32>(0.25, 0.0, 0.0, 0.75)).wyxz; 36 let _skTemp10 = Z_i(); 37 let _skTemp11 = _skTemp10; 38 var _skTemp12: f32; 39 let _skTemp13 = Z_i(); 40 let _skTemp14 = _skTemp13; 41 if R_array[_skTemp14].w <= 1.0 { 42 let _skTemp15 = Z_i(); 43 let _skTemp16 = _skTemp15; 44 _skTemp12 = R_array[_skTemp16].z; 45 } else { 46 let _skTemp17 = Z_i(); 47 _skTemp12 = f32(_skTemp17); 48 } 49 R_array[_skTemp11].x = R_array[_skTemp11].x + _skTemp12; 50 return select(_globalUniforms.colorRed, _globalUniforms.colorGreen, vec4<bool>((gAccessCount == 8) && all(R_array[0] == vec4<f32>(1.0, 1.0, 0.25, 1.0)))); 51 } 52} 53@fragment fn main() -> FSOut { 54 var _stageOut: FSOut; 55 _stageOut.sk_FragColor = _skslMain(/*fragcoord*/ vec2<f32>()); 56 return _stageOut; 57} 58