// Copyright 2020 The Pigweed Authors // // Licensed under the Apache License, Version 2.0 (the "License"); you may not // use this file except in compliance with the License. You may obtain a copy of // the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, WITHOUT // WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the // License for the specific language governing permissions and limitations under // the License. #include #include "gtest/gtest.h" #include "pw_polyfill/language_feature_macros.h" #include "pw_polyfill/standard.h" #include "pw_polyfill/standard_library/bit.h" #include "pw_polyfill/standard_library/cstddef.h" #include "pw_polyfill/standard_library/iterator.h" #include "pw_polyfill/standard_library/type_traits.h" #include "pw_polyfill/standard_library/utility.h" namespace pw { namespace polyfill { namespace { PW_INLINE_VARIABLE constexpr int foo = 42; static_assert(foo == 42, "Error!"); static_assert(PW_CXX_STANDARD_IS_SUPPORTED(98), "C++98 must be supported"); static_assert(PW_CXX_STANDARD_IS_SUPPORTED(11), "C++11 must be supported"); #if __cplusplus >= 201402L static_assert(PW_CXX_STANDARD_IS_SUPPORTED(14), "C++14 must be not supported"); #else static_assert(!PW_CXX_STANDARD_IS_SUPPORTED(14), "C++14 must be supported"); #endif // __cplusplus >= 201402L #if __cplusplus >= 201703L static_assert(PW_CXX_STANDARD_IS_SUPPORTED(17), "C++17 must be not supported"); #else static_assert(!PW_CXX_STANDARD_IS_SUPPORTED(17), "C++17 must be supported"); #endif // __cplusplus >= 201703L TEST(Array, ToArray_StringLiteral) { std::array array = std::to_array("literally!"); EXPECT_TRUE(std::strcmp(array.data(), "literally!") == 0); } TEST(Array, ToArray_Inline) { constexpr std::array kArray = std::to_array({1, 2, 3}); static_assert(kArray.size() == 3); EXPECT_TRUE(kArray[0] == 1); } TEST(Array, ToArray_Array) { char c_array[] = "array!"; std::array array = std::to_array(c_array); EXPECT_TRUE(std::strcmp(array.data(), "array!") == 0); } struct MoveOnly { MoveOnly(char ch) : value(ch) {} MoveOnly(const MoveOnly&) = delete; MoveOnly& operator=(const MoveOnly&) = delete; MoveOnly(MoveOnly&&) = default; MoveOnly& operator=(MoveOnly&&) = default; char value; }; TEST(Array, ToArray_MoveOnly) { MoveOnly c_array[]{MoveOnly('a'), MoveOnly('b')}; std::array array = std::to_array(std::move(c_array)); EXPECT_TRUE(array[0].value == 'a'); EXPECT_TRUE(array[1].value == 'b'); } TEST(Bit, Endian) { if (__BYTE_ORDER__ == __ORDER_BIG_ENDIAN__) { EXPECT_TRUE(std::endian::native == std::endian::big); } else if (__BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__) { EXPECT_TRUE(std::endian::native == std::endian::little); } else { FAIL(); } } TEST(Cstddef, Byte_Operators) { std::byte value = std::byte(0); EXPECT_TRUE((value | std::byte(0x12)) == std::byte(0x12)); EXPECT_TRUE((value & std::byte(0x12)) == std::byte(0)); EXPECT_TRUE((value ^ std::byte(0x12)) == std::byte(0x12)); EXPECT_TRUE(~std::byte(0) == std::byte(-1)); EXPECT_TRUE((std::byte(1) << 3) == std::byte(0x8)); EXPECT_TRUE((std::byte(0x8) >> 3) == std::byte(1)); } TEST(Cstddef, Byte_AssignmentOperators) { std::byte value = std::byte(0); EXPECT_TRUE((value |= std::byte(0x12)) == std::byte(0x12)); EXPECT_TRUE((value &= std::byte(0x0F)) == std::byte(0x02)); EXPECT_TRUE((value ^= std::byte(0xFF)) == std::byte(0xFD)); EXPECT_TRUE((value <<= 4) == std::byte(0xD0)); EXPECT_TRUE((value >>= 5) == std::byte(0x6)); } // Check that consteval is at least equivalent to constexpr. consteval int ConstevalFunction() { return 123; } static_assert(ConstevalFunction() == 123); int c_array[5423] = {}; std::array array; TEST(Iterator, Size) { EXPECT_TRUE(std::size(c_array) == sizeof(c_array) / sizeof(*c_array)); EXPECT_TRUE(std::size(array) == array.size()); } TEST(Iterator, Data) { EXPECT_TRUE(std::data(c_array) == c_array); EXPECT_TRUE(std::data(array) == array.data()); } constinit bool mutable_value = true; TEST(Constinit, ValueIsMutable) { ASSERT_TRUE(mutable_value); mutable_value = false; ASSERT_FALSE(mutable_value); mutable_value = true; } TEST(TypeTraits, Aliases) { static_assert( std::is_same, typename std::aligned_storage<40, 40>::type>::value, "Alias must be defined"); static_assert(std::is_same, typename std::common_type::type>::value, "Alias must be defined"); static_assert( std::is_same, typename std::conditional::type>::value, "Alias must be defined"); static_assert( std::is_same, typename std::decay::type>::value, "Alias must be defined"); static_assert(std::is_same, typename std::enable_if::type>::value, "Alias must be defined"); static_assert(std::is_same, typename std::make_signed::type>::value, "Alias must be defined"); static_assert(std::is_same, typename std::make_unsigned::type>::value, "Alias must be defined"); static_assert(std::is_same, typename std::remove_cv::type>::value, "Alias must be defined"); static_assert(std::is_same, typename std::remove_pointer::type>::value, "Alias must be defined"); static_assert(std::is_same, typename std::remove_reference::type>::value, "Alias must be defined"); } TEST(Utility, IntegerSequence) { static_assert(std::integer_sequence::size() == 0); static_assert(std::integer_sequence::size() == 3); static_assert(std::make_index_sequence<1>::size() == 1); static_assert(std::make_index_sequence<123>::size() == 123); } TEST(Utility, LogicalTraits) { static_assert(std::conjunction::value); static_assert(!std::conjunction::value); static_assert(!std::conjunction::value); static_assert(std::disjunction::value); static_assert(std::disjunction::value); static_assert(!std::disjunction::value); static_assert(!std::negation::value); static_assert(std::negation::value); } } // namespace } // namespace polyfill } // namespace pw