diagnostic(off, derivative_uniformity); diagnostic(off, chromium.unreachable_code); struct FSOut { @location(0) sk_FragColor: vec4, }; struct testStorageBuffer { testArr: array, }; @group(0) @binding(0) var _storage0 : testStorageBuffer; struct testStorageBufferStruct { testArrStruct: array, }; @group(0) @binding(1) var _storage1 : testStorageBufferStruct; struct S { y: f32, }; fn unsizedInParameterA_ff(x: ptr, read>) -> f32 { { return (*x)[0]; } } fn unsizedInParameterB_fS(x: ptr, read>) -> f32 { { return (*x)[0].y; } } fn unsizedInParameterC_ff(x: ptr, read>) -> f32 { { return (*x)[0]; } } fn unsizedInParameterD_fS(x: ptr, read>) -> f32 { { return (*x)[0].y; } } fn unsizedInParameterE_ff(_skParam0: ptr, read>) -> f32 { { return 0.0; } } fn unsizedInParameterF_fS(_skParam0: ptr, read>) -> f32 { { return 0.0; } } fn getColor_h4f(arr: ptr, read>) -> vec4 { { return vec4(f32((*arr)[0]), f32((*arr)[1]), f32((*arr)[2]), f32((*arr)[3])); } } fn getColor_helper_h4f(arr: ptr, read>) -> vec4 { { let _skTemp2 = getColor_h4f(arr); return _skTemp2; } } fn _skslMain(_stageOut: ptr) { { let _skTemp3 = getColor_helper_h4f(&(_storage0.testArr)); (*_stageOut).sk_FragColor = _skTemp3; let _skTemp4 = unsizedInParameterA_ff(&(_storage0.testArr)); let _skTemp5 = unsizedInParameterB_fS(&(_storage1.testArrStruct)); let _skTemp6 = unsizedInParameterC_ff(&(_storage0.testArr)); let _skTemp7 = unsizedInParameterD_fS(&(_storage1.testArrStruct)); let _skTemp8 = unsizedInParameterE_ff(&(_storage0.testArr)); let _skTemp9 = unsizedInParameterF_fS(&(_storage1.testArrStruct)); } } @fragment fn main() -> FSOut { var _stageOut: FSOut; _skslMain(&_stageOut); return _stageOut; }