//===----------------------------------------------------------------------===// // // 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, c++17 // template // requires convertible_to && convertible_to && // assignable_from && assignable_from // common_iterator& operator=(const common_iterator& x); #include #include #include #include "test_macros.h" #include "types.h" void test() { int buffer[8] = {1, 2, 3, 4, 5, 6, 7, 8}; { auto iter1 = cpp17_input_iterator(buffer); auto commonIter1 = std::common_iterator>(iter1); auto commonIter2 = std::common_iterator>(cpp17_input_iterator(buffer + 1)); assert(*commonIter1 == 1); assert(*commonIter2 == 2); assert(commonIter1 != commonIter2); commonIter1 = commonIter2; assert(*commonIter1 == 2); assert(*commonIter2 == 2); assert(commonIter1 == commonIter2); } { auto iter1 = forward_iterator(buffer); auto commonIter1 = std::common_iterator>(iter1); auto commonIter2 = std::common_iterator>(forward_iterator(buffer + 1)); assert(*commonIter1 == 1); assert(*commonIter2 == 2); assert(commonIter1 != commonIter2); commonIter1 = commonIter2; assert(*commonIter1 == 2); assert(*commonIter2 == 2); assert(commonIter1 == commonIter2); } { auto iter1 = random_access_iterator(buffer); auto commonIter1 = std::common_iterator>(iter1); auto commonSent1 = std::common_iterator>(sentinel_type{buffer + 8}); auto commonIter2 = std::common_iterator>(iter1 + 1); auto commonSent2 = std::common_iterator>(sentinel_type{buffer + 7}); assert(*commonIter1 == 1); assert(*commonIter2 == 2); assert(commonIter1 != commonIter2); commonIter1 = commonIter2; assert(*commonIter1 == 2); assert(*commonIter2 == 2); assert(commonIter1 == commonIter2); assert(std::next(commonIter1, 6) != commonSent1); assert(std::next(commonIter1, 6) == commonSent2); commonSent1 = commonSent2; assert(std::next(commonIter1, 6) == commonSent1); assert(std::next(commonIter1, 6) == commonSent2); } { auto iter1 = assignable_iterator(buffer); auto iter2 = forward_iterator(buffer + 1); auto commonIter1 = std::common_iterator>(iter1); auto commonSent1 = std::common_iterator>(sentinel_type{buffer + 8}); auto commonIter2 = std::common_iterator>(iter2); auto commonSent2 = std::common_iterator>(sentinel_type{buffer + 7}); assert(*commonIter1 == 1); assert(*commonIter2 == 2); commonIter1 = commonIter2; assert(*commonIter1 == 2); assert(*commonIter2 == 2); assert(commonIter1 == commonIter2); assert(std::next(commonIter1, 6) != commonSent1); assert(std::next(commonIter1, 6) == commonSent2); commonSent1 = commonSent2; assert(std::next(commonIter1, 6) == commonSent1); assert(std::next(commonIter1, 6) == commonSent2); commonIter1 = commonSent1; assert(commonIter1 == commonSent2); commonIter1 = commonSent2; assert(commonIter1 == commonSent2); } #ifndef TEST_HAS_NO_EXCEPTIONS { auto iter1 = maybe_valueless_iterator(buffer); auto iter2 = forward_iterator(buffer); auto commonIter1 = std::common_iterator>(iter1); auto commonSent2 = std::common_iterator>(sentinel_throws_on_convert{buffer + 8}); auto commonIter2 = std::common_iterator>(iter2); try { commonIter1 = commonSent2; assert(false); } catch (int x) { assert(x == 42); commonIter1 = commonIter2; } assert(*commonIter1 == 1); } #endif // TEST_HAS_NO_EXCEPTIONS } int main(int, char**) { test(); return 0; }