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//TEST(compute):COMPARE_COMPUTE(filecheck-buffer=CHECK):-vk -render-feature cooperative-vector -emit-spirv-directly
//TEST(compute):COMPARE_COMPUTE(filecheck-buffer=CHECK):-dx12 -render-feature cooperative-vector -dx12-experimental -output-using-type -profile cs_6_9 -Xslang... -Xdxc -Vd -X.
//TEST(compute):COMPARE_COMPUTE(filecheck-buffer=CHECK):-cpu
// CHECK: 0
// CHECK-NEXT: 0
// CHECK-NEXT: 1
// CHECK-NEXT: 2
// CHECK-NEXT: 0
// CHECK-NEXT: 0
// CHECK-NEXT: 1
// CHECK-NEXT: 2
// CHECK-NEXT: 0
// CHECK-NEXT: 0
// CHECK-NEXT: 1
// CHECK-NEXT: 2
//TEST_INPUT:ubuffer(data=[0 0 0 0 0 0 0 0 0 0 0 0], stride=4):out,name=outputBuffer
RWByteAddressBuffer outputBuffer;
//TEST_INPUT:ubuffer(data=[4 3 5 7], stride=4),name=input1
ByteAddressBuffer input1;
//TEST_INPUT:ubuffer(data=[2 3 4 5], stride=4),name=input2
ByteAddressBuffer input2;
[numthreads(1, 1, 1)]
void computeMain()
{
let vec1 = coopVecLoad<4, int32_t>(input1);
let vec2 = coopVecLoad<4, int32_t>(input2);
let vec3 = CoopVec<float, 4>(vec1);
let vec4 = CoopVec<float, 4>(vec2);
let vec5 = CoopVec<uint, 4>(vec1);
let vec6 = CoopVec<uint, 4>(vec2);
let result = vec1 % vec2;
let result2 = CoopVec<int, 4>(vec3 % vec4);
let result3 = CoopVec<int, 4>(vec5 % vec6);
result.store(outputBuffer);
result2.store(outputBuffer, 16);
result3.store(outputBuffer, 32);
}
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