//===----------------------------------------------------------------------===// // // 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++03, c++11, c++14 // // // scalar access [simd.subscr] // reference operator[](size_t); // value_type operator[](size_t) const; #include #include #include #include "test_macros.h" namespace ex = std::experimental::parallelism_v2; template void test_access() { { SimdType a(42), b(4); static_assert(std::is_convertible::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::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>(); test_access>(); return 0; }