tests/sksl/blend/BlendColorDodge.wgsl - skia - Git at Google

 diagnostic(off, derivative_uniformity);
 diagnostic(off, chromium.unreachable_code);
 struct FSOut {
   @location(0) sk_FragColor: vec4<f32>,
 };
 struct _GlobalUniforms {
   src: vec4<f32>,
   dst: vec4<f32>,
 };
 @binding(0) @group(0) var<uniform> _globalUniforms: _GlobalUniforms;
 const sk_PrivkGuardedDivideEpsilon: f32 = f32(select(0.0, 1e-08, false));
 const sk_PrivkMinNormalHalf: f32 = 6.10351562e-05;
 fn guarded_divide_Qhhh(n: f32, d: f32) -> f32 {
   {
     return n / (d + sk_PrivkGuardedDivideEpsilon);
   }
 }
 fn color_dodge_component_Qhh2h2(s: vec2<f32>, d: vec2<f32>) -> f32 {
   {
     let dxScale: f32 = f32(select(1, 0, d.x == 0.0));
     var _skTemp0: f32;
     let _skTemp1 = abs(s.y - s.x);
     if _skTemp1 >= sk_PrivkMinNormalHalf {
       let _skTemp2 = guarded_divide_Qhhh(d.x * s.y, s.y - s.x);
       _skTemp0 = _skTemp2;
     } else {
       _skTemp0 = d.y;
     }
     let _skTemp3 = min(d.y, _skTemp0);
     let delta: f32 = dxScale * _skTemp3;
     return (delta * s.y + s.x * (1.0 - d.y)) + d.x * (1.0 - s.y);
   }
 }
 fn _skslMain(_stageOut: ptr<function, FSOut>) {
   {
     let _skTemp4 = color_dodge_component_Qhh2h2(_globalUniforms.src.xw, _globalUniforms.dst.xw);
     let _skTemp5 = color_dodge_component_Qhh2h2(_globalUniforms.src.yw, _globalUniforms.dst.yw);
     let _skTemp6 = color_dodge_component_Qhh2h2(_globalUniforms.src.zw, _globalUniforms.dst.zw);
     (*_stageOut).sk_FragColor = vec4<f32>(_skTemp4, _skTemp5, _skTemp6, _globalUniforms.src.w + (1.0 - _globalUniforms.src.w) * _globalUniforms.dst.w);
   }
 }
 @fragment fn main() -> FSOut {
   var _stageOut: FSOut;
   _skslMain(&_stageOut);
   return _stageOut;
 }
	diagnostic(off, derivative_uniformity);
	diagnostic(off, chromium.unreachable_code);
	struct FSOut {
	@location(0) sk_FragColor: vec4<f32>,
	};
	struct _GlobalUniforms {
	src: vec4<f32>,
	dst: vec4<f32>,
	};
	@binding(0) @group(0) var<uniform> _globalUniforms: _GlobalUniforms;
	const sk_PrivkGuardedDivideEpsilon: f32 = f32(select(0.0, 1e-08, false));
	const sk_PrivkMinNormalHalf: f32 = 6.10351562e-05;
	fn guarded_divide_Qhhh(n: f32, d: f32) -> f32 {
	{
	return n / (d + sk_PrivkGuardedDivideEpsilon);
	}
	}
	fn color_dodge_component_Qhh2h2(s: vec2<f32>, d: vec2<f32>) -> f32 {
	{
	let dxScale: f32 = f32(select(1, 0, d.x == 0.0));
	var _skTemp0: f32;
	let _skTemp1 = abs(s.y - s.x);
	if _skTemp1 >= sk_PrivkMinNormalHalf {
	let _skTemp2 = guarded_divide_Qhhh(d.x * s.y, s.y - s.x);
	_skTemp0 = _skTemp2;
	} else {
	_skTemp0 = d.y;
	}
	let _skTemp3 = min(d.y, _skTemp0);
	let delta: f32 = dxScale * _skTemp3;
	return (delta * s.y + s.x * (1.0 - d.y)) + d.x * (1.0 - s.y);
	}
	}
	fn _skslMain(_stageOut: ptr<function, FSOut>) {
	{
	let _skTemp4 = color_dodge_component_Qhh2h2(_globalUniforms.src.xw, _globalUniforms.dst.xw);
	let _skTemp5 = color_dodge_component_Qhh2h2(_globalUniforms.src.yw, _globalUniforms.dst.yw);
	let _skTemp6 = color_dodge_component_Qhh2h2(_globalUniforms.src.zw, _globalUniforms.dst.zw);
	(_stageOut).sk_FragColor = vec4<f32>(_skTemp4, _skTemp5, _skTemp6, _globalUniforms.src.w + (1.0 - _globalUniforms.src.w) _globalUniforms.dst.w);
	}
	}
	@fragment fn main() -> FSOut {
	var _stageOut: FSOut;
	_skslMain(&_stageOut);
	return _stageOut;
	}