rocm-systems/projects/hip-tests/catch/unit/deviceLib/hipTestNativeHalf.cc

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#include <hip/hip_fp16.h>
#include <hip_test_common.hh>
#include <type_traits>

__global__ void __halfTest(bool* result, __half a) {
  // Construction
  result[0] &= std::is_default_constructible<__half>{};
  result[0] &= std::is_copy_constructible<__half>{};
  result[0] &= std::is_move_constructible<__half>{};
  result[0] &= std::is_constructible<__half, float>{};
  result[0] &= std::is_constructible<__half, double>{};
  result[0] &= std::is_constructible<__half, uint32_t>{};
  result[0] &= std::is_constructible<__half, int32_t>{};
  result[0] &= std::is_constructible<__half, uint32_t>{};
  result[0] &= std::is_constructible<__half, int>{};
  result[0] &= std::is_constructible<__half, uint64_t>{};
  result[0] &= std::is_constructible<__half, int64_t>{};
  result[0] &= std::is_constructible<__half, int64_t>{};
  result[0] &= std::is_constructible<__half, uint64_t>{};
  result[0] &= std::is_constructible<__half, __half_raw>{};

  // Assignment
  result[0] &= std::is_copy_assignable<__half>{};
  result[0] &= std::is_move_assignable<__half>{};
  result[0] &= std::is_assignable<__half, float>{};
  result[0] &= std::is_assignable<__half, double>{};
  result[0] &= std::is_assignable<__half, uint32_t>{};
  result[0] &= std::is_assignable<__half, int32_t>{};
  result[0] &= std::is_assignable<__half, uint32_t>{};
  result[0] &= std::is_assignable<__half, int>{};
  result[0] &= std::is_assignable<__half, uint64_t>{};
  result[0] &= std::is_assignable<__half, int64_t>{};
  result[0] &= std::is_assignable<__half, int64_t>{};
  result[0] &= std::is_assignable<__half, uint64_t>{};
  result[0] &= std::is_assignable<__half, __half_raw>{};
  result[0] &= std::is_assignable<__half, volatile __half_raw&>{};
  result[0] &= std::is_assignable<__half, volatile __half_raw&&>{};

  // Conversion
  result[0] &= std::is_convertible<__half, float>{};
  result[0] &= std::is_convertible<__half, uint32_t>{};
  result[0] &= std::is_convertible<__half, int32_t>{};
  result[0] &= std::is_convertible<__half, uint32_t>{};
  result[0] &= std::is_convertible<__half, int>{};
  result[0] &= std::is_convertible<__half, uint64_t>{};
  result[0] &= std::is_convertible<__half, int64_t>{};
  result[0] &= std::is_convertible<__half, int64_t>{};
  result[0] &= std::is_convertible<__half, bool>{};
  result[0] &= std::is_convertible<__half, uint64_t>{};
  result[0] &= std::is_convertible<__half, __half_raw>{};
  result[0] &= std::is_convertible<__half, volatile __half_raw>{};

  // Nullary
  result[0] &= __heq(a, +a) && result[0];
  result[0] &= __heq(__hneg(a), -a) && result[0];

  // Unary arithmetic
  result[0] &= __heq(a += 0, a) && result[0];
  result[0] &= __heq(a -= 0, a) && result[0];
  result[0] &= __heq(a *= 1, a) && result[0];
  result[0] &= __heq(a /= 1, a) && result[0];

  // Binary arithmetic
  result[0] &= __heq((a + a), __hadd(a, a)) && result[0];
  result[0] &= __heq((a - a), __hsub(a, a)) && result[0];
  result[0] &= __heq((a * a), __hmul(a, a)) && result[0];
  result[0] &= __heq((a / a), __hdiv(a, a)) && result[0];

  // Relations
  result[0] &= (a == a) && result[0];
  result[0] &= !(a != a) && result[0];
  result[0] &= (a <= a) && result[0];
  result[0] &= (a >= a) && result[0];
  result[0] &= !(a < a) && result[0];
  result[0] &= !(a > a) && result[0];
}

__device__ static bool to_bool(const __half2& x) {
  auto r = static_cast<const __half2_raw&>(x);
  return r.data.x != 0 && r.data.y != 0;
}

__global__ void __half2Test(bool* result, __half2 a) {
  // Construction
  result[0] &= std::is_default_constructible<__half2>{};
  result[0] &= std::is_copy_constructible<__half2>{};
  result[0] &= std::is_move_constructible<__half2>{};
  result[0] &= std::is_constructible<__half2, __half, __half>{};
  result[0] &= std::is_constructible<__half2, __half2_raw>{};

  // Assignment
  result[0] &= std::is_copy_assignable<__half2>{};
  result[0] &= std::is_move_assignable<__half2>{};
  result[0] &= std::is_assignable<__half2, __half2_raw>{};

  // Conversion
  result[0] &= std::is_convertible<__half2, __half2_raw>{};

  // Nullary
  result[0] &= to_bool(__heq2(a, +a)) && result[0];
  result[0] &= to_bool(__heq2(__hneg2(a), -a)) && result[0];

  // Unary arithmetic
  result[0] &= to_bool(__heq2(a += 0, a)) && result[0];
  result[0] &= to_bool(__heq2(a -= 0, a)) && result[0];
  result[0] &= to_bool(__heq2(a *= 1, a)) && result[0];
  result[0] &= to_bool(__heq2(a /= 1, a)) && result[0];

  // Binary arithmetic
  result[0] &= to_bool(__heq2((a + a), __hadd2(a, a))) && result[0];
  result[0] &= to_bool(__heq2((a - a), __hsub2(a, a))) && result[0];
  result[0] &= to_bool(__heq2((a * a), __hmul2(a, a))) && result[0];
  result[0] &= to_bool(__heq2((a / a), __h2div(a, a))) && result[0];

  // Relations
  result[0] &= (a == a) && result[0];
  result[0] &= !(a != a) && result[0];
  result[0] &= (a <= a) && result[0];
  result[0] &= (a >= a) && result[0];
  result[0] &= !(a < a) && result[0];
  result[0] &= !(a > a) && result[0];

  // Dot Functions
  result[0] &= amd_mixed_dot(a, a, 1, 1) && result[0];
}

TEST_CASE("Unit_hipTestNativeHalf") {
  bool* result{nullptr};
  HIP_CHECK(hipHostMalloc(&result, 1));
  SECTION("Half Test") {
    result[0] = true;
    hipLaunchKernelGGL(__halfTest, dim3(1, 1, 1), dim3(1, 1, 1), 0, 0, result, __half{1});
    HIP_CHECK(hipDeviceSynchronize());
    REQUIRE(result[0] == true);
  }
  SECTION("Half2 Test") {
    result[0] = true;
    hipLaunchKernelGGL(__half2Test, dim3(1, 1, 1), dim3(1, 1, 1), 0, 0, result, __half2{1, 1});
    HIP_CHECK(hipDeviceSynchronize());
    REQUIRE(result[0] == true);
  }
  HIP_CHECK(hipHostFree(result));
}