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dawn-cmake/test/vk-gl-cts/graphicsfuzz/cov-loop-increment-matrix-element-break-after-first-iteration/0-opt.wgsl.expected.msl
James Price a5d73ce965 transform/shader_io: Generate a wrapper function 
This is a major reworking of this transform. The old transform code
was getting unwieldy, with part of the complication coming from the
handling of multiple return statements. By generating a wrapper
function instead, we can avoid a lot of this complexity.

The original entry point function is stripped of all shader IO
attributes (as well as `stage` and `workgroup_size`), but the body is
left unmodified. A new entry point wrapper function is introduced
which calls the original function, packing/unpacking the shader inputs
as necessary, and propagates the result to the corresponding shader
outputs.

The new code has been refactored to use a state object with the
different parts of the transform split into separate functions, which
makes it much more manageable.

Fixed: tint:1076
Bug: tint:920
Change-Id: I3490a0ea7a3509a4e198ce730e476516649d8d96
Reviewed-on: https://dawn-review.googlesource.com/c/tint/+/60521
Auto-Submit: James Price <jrprice@google.com>
Kokoro: Kokoro <noreply+kokoro@google.com>
Commit-Queue: James Price <jrprice@google.com>
Reviewed-by: Ben Clayton <bclayton@google.com>
2021-08-04 22:15:28 +00:00

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#include <metal_stdlib>
using namespace metal;
struct tint_padded_array_element {
/* 0x0000 */ float el;
/* 0x0004 */ int8_t tint_pad[12];
};
struct tint_array_wrapper {
/* 0x0000 */ tint_padded_array_element arr[2];
};
struct buf1 {
/* 0x0000 */ tint_array_wrapper x_GLF_uniform_float_values;
};
struct tint_padded_array_element_1 {
/* 0x0000 */ int el;
/* 0x0004 */ int8_t tint_pad_1[12];
};
struct tint_array_wrapper_1 {
/* 0x0000 */ tint_padded_array_element_1 arr[4];
};
struct buf0 {
/* 0x0000 */ tint_array_wrapper_1 x_GLF_uniform_int_values;
};
struct main_out {
float4 x_GLF_color_1;
};
struct tint_symbol_1 {
float4 x_GLF_color_1 [[color(0)]];
};
void main_1(constant buf1& x_7, constant buf0& x_10, thread float4* const tint_symbol_3, thread float4* const tint_symbol_4) {
float2x3 m23 = float2x3(0.0f);
int i = 0;
float const x_46 = x_7.x_GLF_uniform_float_values.arr[1].el;
m23 = float2x3(float3(x_46, 0.0f, 0.0f), float3(0.0f, x_46, 0.0f));
i = 1;
while (true) {
bool x_80 = false;
bool x_81_phi = false;
int const x_54 = i;
int const x_56 = x_10.x_GLF_uniform_int_values.arr[3].el;
if ((x_54 < x_56)) {
} else {
break;
}
int const x_60 = x_10.x_GLF_uniform_int_values.arr[0].el;
int const x_62 = x_10.x_GLF_uniform_int_values.arr[2].el;
float const x_64 = x_7.x_GLF_uniform_float_values.arr[0].el;
float const x_66 = m23[x_60][x_62];
m23[x_60][x_62] = (x_66 + x_64);
float const x_70 = (*(tint_symbol_3)).y;
float const x_72 = x_7.x_GLF_uniform_float_values.arr[0].el;
if ((x_70 < x_72)) {
}
x_81_phi = true;
if (true) {
float const x_79 = (*(tint_symbol_3)).x;
x_80 = (x_79 < 0.0f);
x_81_phi = x_80;
}
bool const x_81 = x_81_phi;
if (!(x_81)) {
break;
}
{
int const x_85 = i;
i = as_type<int>((as_type<uint>(x_85) + as_type<uint>(1)));
}
}
float2x3 const x_87 = m23;
int const x_89 = x_10.x_GLF_uniform_int_values.arr[1].el;
int const x_92 = x_10.x_GLF_uniform_int_values.arr[1].el;
int const x_95 = x_10.x_GLF_uniform_int_values.arr[1].el;
int const x_98 = x_10.x_GLF_uniform_int_values.arr[1].el;
int const x_101 = x_10.x_GLF_uniform_int_values.arr[1].el;
int const x_104 = x_10.x_GLF_uniform_int_values.arr[0].el;
float2x3 const x_108 = float2x3(float3(float(x_89), float(x_92), float(x_95)), float3(float(x_98), float(x_101), float(x_104)));
if ((all((x_87[0u] == x_108[0u])) && all((x_87[1u] == x_108[1u])))) {
int const x_122 = x_10.x_GLF_uniform_int_values.arr[0].el;
int const x_125 = x_10.x_GLF_uniform_int_values.arr[1].el;
int const x_128 = x_10.x_GLF_uniform_int_values.arr[1].el;
int const x_131 = x_10.x_GLF_uniform_int_values.arr[0].el;
*(tint_symbol_4) = float4(float(x_122), float(x_125), float(x_128), float(x_131));
} else {
int const x_135 = x_10.x_GLF_uniform_int_values.arr[1].el;
float const x_136 = float(x_135);
*(tint_symbol_4) = float4(x_136, x_136, x_136, x_136);
}
return;
}
main_out tint_symbol_inner(constant buf1& x_7, constant buf0& x_10, float4 gl_FragCoord_param, thread float4* const tint_symbol_5, thread float4* const tint_symbol_6) {
*(tint_symbol_5) = gl_FragCoord_param;
main_1(x_7, x_10, tint_symbol_5, tint_symbol_6);
main_out const tint_symbol_2 = {.x_GLF_color_1=*(tint_symbol_6)};
return tint_symbol_2;
}
fragment tint_symbol_1 tint_symbol(float4 gl_FragCoord_param [[position]], constant buf1& x_7 [[buffer(1)]], constant buf0& x_10 [[buffer(0)]]) {
thread float4 tint_symbol_7 = 0.0f;
thread float4 tint_symbol_8 = 0.0f;
main_out const inner_result = tint_symbol_inner(x_7, x_10, gl_FragCoord_param, &(tint_symbol_7), &(tint_symbol_8));
tint_symbol_1 wrapper_result = {};
wrapper_result.x_GLF_color_1 = inner_result.x_GLF_color_1;
return wrapper_result;
}
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