test/std/experimental/simd/simd.access/default.pass.cpp - third_party/libcxx - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 // UNSUPPORTED: c++98, c++03, c++11, c++14

 // <experimental/simd>
 //
 // scalar access [simd.subscr]
 // reference operator[](size_t);
 // value_type operator[](size_t) const;

 #include <experimental/simd>
 #include <cassert>
 #include <cstdint>

 #include "test_macros.h"

 namespace ex = std::experimental::parallelism_v2;

 template <typename SimdType>
 void test_access() {
   {
     SimdType a(42), b(4);
     static_assert(std::is_convertible<decltype(a[0]), int8_t>::value, "");

     assert(a[0] == 42);
     assert(!a[0] == !42);
     assert(~a[0] == ~42);
     assert(+a[0] == +42);
     assert(-a[0] == -42);
     assert(a[0] + b[0] == 42 + 4);
     assert(a[0] - b[0] == 42 - 4);
     assert(a[0] * b[0] == 42 * 4);
     assert(a[0] / b[0] == 42 / 4);
     assert(a[0] % b[0] == 42 % 4);
     assert(a[0] << b[0] == (42 << 4));
     assert(a[0] >> b[0] == (42 >> 4));
     assert(a[0] < b[0] == false);
     assert(a[0] <= b[0] == false);
     assert(a[0] > b[0] == true);
     assert(a[0] >= b[0] == true);
     assert(a[0] == b[0] == false);
     assert(a[0] != b[0] == true);
     assert((a[0] & b[0]) == (42 & 4));
     assert((a[0] | b[0]) == (42 | 4));
     assert((a[0] ^ b[0]) == (42 ^ 4));
     assert((a[0] && b[0]) == true);
     assert((a[0] || b[0]) == true);

     {
       auto c = a;
       ++c[0];
       assert(c[0] == 42 + 1);
       assert(c[1] == 42);
     }
     {
       auto c = a;
       auto ret = c[0]++;
       assert(ret == 42);
       assert(c[0] == 42 + 1);
       assert(c[1] == 42);
     }
     {
       auto c = a;
       --c[0];
       assert(c[0] == 42 - 1);
       assert(c[1] == 42);
     }
     {
       auto c = a;
       auto ret = c[0]--;
       assert(ret == 42);
       assert(c[0] == 42 - 1);
       assert(c[1] == 42);
     }

     {
       auto c = a;
       c[0] += b[0];
       assert(c[0] == 42 + 4);
       assert(c[1] == 42);
     }
     {
       auto c = a;
       c[0] -= b[0];
       assert(c[0] == 42 - 4);
       assert(c[1] == 42);
     }
     {
       auto c = a;
       c[0] *= b[0];
       assert(c[0] == 42 * 4);
       assert(c[1] == 42);
     }
     {
       auto c = a;
       c[0] /= b[0];
       assert(c[0] == 42 / 4);
       assert(c[1] == 42);
     }
     {
       auto c = a;
       c[0] %= b[0];
       assert(c[0] == 42 % 4);
       assert(c[1] == 42);
     }
     {
       auto c = a;
       c[0] >>= b[0];
       assert(c[0] == (42 >> 4));
       assert(c[1] == 42);
     }
     {
       auto c = a;
       c[0] <<= b[0];
       assert(c[0] == (42 << 4));
       assert(c[1] == 42);
     }
     {
       auto c = a;
       c[0] &= b[0];
       assert(c[0] == (42 & 4));
       assert(c[1] == 42);
     }
     {
       auto c = a;
       c[0] |= b[0];
       assert(c[0] == (42 | 4));
       assert(c[1] == 42);
     }
     {
       auto c = a;
       c[0] ^= b[0];
       assert(c[0] == (42 ^ 4));
       assert(c[1] == 42);
     }

     {
       auto c = a;
       (void)(a[0] + (c[0] += a[0]));
     }
     {
       auto c = a;
       (void)(a[0] + (c[0] -= a[0]));
     }
     {
       auto c = a;
       (void)(a[0] + (c[0] *= a[0]));
     }
     {
       auto c = a;
       (void)(a[0] + (c[0] /= a[0]));
     }
     {
       auto c = a;
       (void)(a[0] + (c[0] %= a[0]));
     }
     {
       auto c = a;
       (void)(a[0] + (c[0] >>= b[0]));
     }
     {
       auto c = a;
       (void)(a[0] + (c[0] <<= b[0]));
     }
     {
       auto c = a;
       (void)(a[0] + (c[0] &= a[0]));
     }
     {
       auto c = a;
       (void)(a[0] + (c[0] |= a[0]));
     }
     {
       auto c = a;
       (void)(a[0] + (c[0] ^= a[0]));
     }
   }
   {
     const SimdType a(42);
     const SimdType b(4);
     static_assert(std::is_same<decltype(a[0]), int>::value, "");

     assert(a[0] == 42);
     assert(!a[0] == !42);
     assert(~a[0] == ~42);
     assert(+a[0] == +42);
     assert(-a[0] == -42);
     assert(a[0] + b[0] == 42 + 4);
     assert(a[0] - b[0] == 42 - 4);
     assert(a[0] * b[0] == 42 * 4);
     assert(a[0] / b[0] == 42 / 4);
     assert(a[0] % b[0] == 42 % 4);
     assert(a[0] << b[0] == (42 << 4));
     assert(a[0] >> b[0] == (42 >> 4));
     assert(a[0] < b[0] == false);
     assert(a[0] <= b[0] == false);
     assert(a[0] > b[0] == true);
     assert(a[0] >= b[0] == true);
     assert(a[0] == b[0] == false);
     assert(a[0] != b[0] == true);
     assert((a[0] & b[0]) == (42 & 4));
     assert((a[0] | b[0]) == (42 | 4));
     assert((a[0] ^ b[0]) == (42 ^ 4));
     assert((a[0] && b[0]) == true);
     assert((a[0] || b[0]) == true);
   }
 }

 int main(int, char**) {
   test_access<ex::native_simd<int>>();
   test_access<ex::fixed_size_simd<int, 4>>();

   return 0;
 }
	//===----------------------------------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	// UNSUPPORTED: c++98, c++03, c++11, c++14

	// <experimental/simd>
	//
	// scalar access [simd.subscr]
	// reference operator[](size_t);
	// value_type operator[](size_t) const;

	#include <experimental/simd>
	#include <cassert>
	#include <cstdint>

	#include "test_macros.h"

	namespace ex = std::experimental::parallelism_v2;

	template <typename SimdType>
	void test_access() {
	{
	SimdType a(42), b(4);
	static_assert(std::is_convertible<decltype(a[0]), int8_t>::value, "");

	assert(a[0] == 42);
	assert(!a[0] == !42);
	assert(~a[0] == ~42);
	assert(+a[0] == +42);
	assert(-a[0] == -42);
	assert(a[0] + b[0] == 42 + 4);
	assert(a[0] - b[0] == 42 - 4);
	assert(a[0] * b[0] == 42 * 4);
	assert(a[0] / b[0] == 42 / 4);
	assert(a[0] % b[0] == 42 % 4);
	assert(a[0] << b[0] == (42 << 4));
	assert(a[0] >> b[0] == (42 >> 4));
	assert(a[0] < b[0] == false);
	assert(a[0] <= b[0] == false);
	assert(a[0] > b[0] == true);
	assert(a[0] >= b[0] == true);
	assert(a[0] == b[0] == false);
	assert(a[0] != b[0] == true);
	assert((a[0] & b[0]) == (42 & 4));
	assert((a[0] \| b[0]) == (42 \| 4));
	assert((a[0] ^ b[0]) == (42 ^ 4));
	assert((a[0] && b[0]) == true);
	assert((a[0] \|\| b[0]) == true);

	{
	auto c = a;
	++c[0];
	assert(c[0] == 42 + 1);
	assert(c[1] == 42);
	}
	{
	auto c = a;
	auto ret = c[0]++;
	assert(ret == 42);
	assert(c[0] == 42 + 1);
	assert(c[1] == 42);
	}
	{
	auto c = a;
	--c[0];
	assert(c[0] == 42 - 1);
	assert(c[1] == 42);
	}
	{
	auto c = a;
	auto ret = c[0]--;
	assert(ret == 42);
	assert(c[0] == 42 - 1);
	assert(c[1] == 42);
	}

	{
	auto c = a;
	c[0] += b[0];
	assert(c[0] == 42 + 4);
	assert(c[1] == 42);
	}
	{
	auto c = a;
	c[0] -= b[0];
	assert(c[0] == 42 - 4);
	assert(c[1] == 42);
	}
	{
	auto c = a;
	c[0] *= b[0];
	assert(c[0] == 42 * 4);
	assert(c[1] == 42);
	}
	{
	auto c = a;
	c[0] /= b[0];
	assert(c[0] == 42 / 4);
	assert(c[1] == 42);
	}
	{
	auto c = a;
	c[0] %= b[0];
	assert(c[0] == 42 % 4);
	assert(c[1] == 42);
	}
	{
	auto c = a;
	c[0] >>= b[0];
	assert(c[0] == (42 >> 4));
	assert(c[1] == 42);
	}
	{
	auto c = a;
	c[0] <<= b[0];
	assert(c[0] == (42 << 4));
	assert(c[1] == 42);
	}
	{
	auto c = a;
	c[0] &= b[0];
	assert(c[0] == (42 & 4));
	assert(c[1] == 42);
	}
	{
	auto c = a;
	c[0] \|= b[0];
	assert(c[0] == (42 \| 4));
	assert(c[1] == 42);
	}
	{
	auto c = a;
	c[0] ^= b[0];
	assert(c[0] == (42 ^ 4));
	assert(c[1] == 42);
	}

	{
	auto c = a;
	(void)(a[0] + (c[0] += a[0]));
	}
	{
	auto c = a;
	(void)(a[0] + (c[0] -= a[0]));
	}
	{
	auto c = a;
	(void)(a[0] + (c[0] *= a[0]));
	}
	{
	auto c = a;
	(void)(a[0] + (c[0] /= a[0]));
	}
	{
	auto c = a;
	(void)(a[0] + (c[0] %= a[0]));
	}
	{
	auto c = a;
	(void)(a[0] + (c[0] >>= b[0]));
	}
	{
	auto c = a;
	(void)(a[0] + (c[0] <<= b[0]));
	}
	{
	auto c = a;
	(void)(a[0] + (c[0] &= a[0]));
	}
	{
	auto c = a;
	(void)(a[0] + (c[0] \|= a[0]));
	}
	{
	auto c = a;
	(void)(a[0] + (c[0] ^= a[0]));
	}
	}
	{
	const SimdType a(42);
	const SimdType b(4);
	static_assert(std::is_same<decltype(a[0]), int>::value, "");

	assert(a[0] == 42);
	assert(!a[0] == !42);
	assert(~a[0] == ~42);
	assert(+a[0] == +42);
	assert(-a[0] == -42);
	assert(a[0] + b[0] == 42 + 4);
	assert(a[0] - b[0] == 42 - 4);
	assert(a[0] * b[0] == 42 * 4);
	assert(a[0] / b[0] == 42 / 4);
	assert(a[0] % b[0] == 42 % 4);
	assert(a[0] << b[0] == (42 << 4));
	assert(a[0] >> b[0] == (42 >> 4));
	assert(a[0] < b[0] == false);
	assert(a[0] <= b[0] == false);
	assert(a[0] > b[0] == true);
	assert(a[0] >= b[0] == true);
	assert(a[0] == b[0] == false);
	assert(a[0] != b[0] == true);
	assert((a[0] & b[0]) == (42 & 4));
	assert((a[0] \| b[0]) == (42 \| 4));
	assert((a[0] ^ b[0]) == (42 ^ 4));
	assert((a[0] && b[0]) == true);
	assert((a[0] \|\| b[0]) == true);
	}
	}

	int main(int, char**) {
	test_access<ex::native_simd<int>>();
	test_access<ex::fixed_size_simd<int, 4>>();

	return 0;
	}