test/tint/vk-gl-cts/graphicsfuzz/cov-unpack-unorm-mix-always-one/0-opt.wgsl - dawn - Git at Google

 struct strided_arr {
   @size(16)
   el : u32,
 }

 type Arr = array<strided_arr, 1u>;

 struct buf0 {
   x_GLF_uniform_uint_values : Arr,
 }

 struct strided_arr_1 {
   @size(16)
   el : i32,
 }

 type Arr_1 = array<strided_arr_1, 2u>;

 struct buf1 {
   x_GLF_uniform_int_values : Arr_1,
 }

 struct strided_arr_2 {
   @size(16)
   el : f32,
 }

 type Arr_2 = array<strided_arr_2, 3u>;

 struct buf2 {
   x_GLF_uniform_float_values : Arr_2,
 }

 @group(0) @binding(0) var<uniform> x_6 : buf0;

 @group(0) @binding(1) var<uniform> x_8 : buf1;

 @group(0) @binding(2) var<uniform> x_10 : buf2;

 var<private> x_GLF_color : vec4<f32>;

 fn main_1() {
   var v : vec4<f32>;
   let x_39 : u32 = x_6.x_GLF_uniform_uint_values[0].el;
   let x_41 : u32 = x_6.x_GLF_uniform_uint_values[0].el;
   v = unpack4x8unorm((x_39 / select(x_41, 92382u, true)));
   let x_45 : vec4<f32> = v;
   let x_47 : i32 = x_8.x_GLF_uniform_int_values[0].el;
   let x_50 : i32 = x_8.x_GLF_uniform_int_values[0].el;
   let x_53 : i32 = x_8.x_GLF_uniform_int_values[0].el;
   let x_56 : f32 = x_10.x_GLF_uniform_float_values[1].el;
   let x_58 : f32 = x_10.x_GLF_uniform_float_values[2].el;
   let x_63 : f32 = x_10.x_GLF_uniform_float_values[0].el;
   if ((distance(x_45, vec4<f32>(f32(x_47), f32(x_50), f32(x_53), (x_56 / x_58))) < x_63)) {
     let x_69 : i32 = x_8.x_GLF_uniform_int_values[1].el;
     let x_72 : i32 = x_8.x_GLF_uniform_int_values[0].el;
     let x_75 : i32 = x_8.x_GLF_uniform_int_values[0].el;
     let x_78 : i32 = x_8.x_GLF_uniform_int_values[1].el;
     x_GLF_color = vec4<f32>(f32(x_69), f32(x_72), f32(x_75), f32(x_78));
   } else {
     let x_82 : i32 = x_8.x_GLF_uniform_int_values[0].el;
     let x_83 : f32 = f32(x_82);
     x_GLF_color = vec4<f32>(x_83, x_83, x_83, x_83);
   }
   return;
 }

 struct main_out {
   @location(0)
   x_GLF_color_1 : vec4<f32>,
 }

 @stage(fragment)
 fn main() -> main_out {
   main_1();
   return main_out(x_GLF_color);
 }
	struct strided_arr {
	@size(16)
	el : u32,
	}

	type Arr = array<strided_arr, 1u>;

	struct buf0 {
	x_GLF_uniform_uint_values : Arr,
	}

	struct strided_arr_1 {
	@size(16)
	el : i32,
	}

	type Arr_1 = array<strided_arr_1, 2u>;

	struct buf1 {
	x_GLF_uniform_int_values : Arr_1,
	}

	struct strided_arr_2 {
	@size(16)
	el : f32,
	}

	type Arr_2 = array<strided_arr_2, 3u>;

	struct buf2 {
	x_GLF_uniform_float_values : Arr_2,
	}

	@group(0) @binding(0) var<uniform> x_6 : buf0;

	@group(0) @binding(1) var<uniform> x_8 : buf1;

	@group(0) @binding(2) var<uniform> x_10 : buf2;

	var<private> x_GLF_color : vec4<f32>;

	fn main_1() {
	var v : vec4<f32>;
	let x_39 : u32 = x_6.x_GLF_uniform_uint_values[0].el;
	let x_41 : u32 = x_6.x_GLF_uniform_uint_values[0].el;
	v = unpack4x8unorm((x_39 / select(x_41, 92382u, true)));
	let x_45 : vec4<f32> = v;
	let x_47 : i32 = x_8.x_GLF_uniform_int_values[0].el;
	let x_50 : i32 = x_8.x_GLF_uniform_int_values[0].el;
	let x_53 : i32 = x_8.x_GLF_uniform_int_values[0].el;
	let x_56 : f32 = x_10.x_GLF_uniform_float_values[1].el;
	let x_58 : f32 = x_10.x_GLF_uniform_float_values[2].el;
	let x_63 : f32 = x_10.x_GLF_uniform_float_values[0].el;
	if ((distance(x_45, vec4<f32>(f32(x_47), f32(x_50), f32(x_53), (x_56 / x_58))) < x_63)) {
	let x_69 : i32 = x_8.x_GLF_uniform_int_values[1].el;
	let x_72 : i32 = x_8.x_GLF_uniform_int_values[0].el;
	let x_75 : i32 = x_8.x_GLF_uniform_int_values[0].el;
	let x_78 : i32 = x_8.x_GLF_uniform_int_values[1].el;
	x_GLF_color = vec4<f32>(f32(x_69), f32(x_72), f32(x_75), f32(x_78));
	} else {
	let x_82 : i32 = x_8.x_GLF_uniform_int_values[0].el;
	let x_83 : f32 = f32(x_82);
	x_GLF_color = vec4<f32>(x_83, x_83, x_83, x_83);
	}
	return;
	}

	struct main_out {
	@location(0)
	x_GLF_color_1 : vec4<f32>,
	}

	@stage(fragment)
	fn main() -> main_out {
	main_1();
	return main_out(x_GLF_color);
	}