//===----------------------------------------------------------------------===// // // 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 // UNSUPPORTED: libcpp-has-no-incomplete-ranges // ranges::advance(it, sent) #include #include #include #include "../types.h" #include "test_iterators.h" #include "test_macros.h" template constexpr void check_assignable(int* first, int* last, int* expected) { { It it(first); auto sent = assignable_sentinel(It(last)); std::ranges::advance(it, sent); ASSERT_SAME_TYPE(decltype(std::ranges::advance(it, sent)), void); assert(base(it) == expected); } // Count operations if constexpr (Count) { auto it = stride_counting_iterator(It(first)); auto sent = assignable_sentinel(stride_counting_iterator(It(last))); std::ranges::advance(it, sent); assert(base(base(it)) == expected); assert(it.stride_count() == 0); // because we got here by assigning from last, not by incrementing } } template constexpr void check_sized_sentinel(int* first, int* last, int* expected) { auto size = (last - first); { It it(first); auto sent = distance_apriori_sentinel(size); std::ranges::advance(it, sent); ASSERT_SAME_TYPE(decltype(std::ranges::advance(it, sent)), void); assert(base(it) == expected); } // Count operations if constexpr (Count) { auto it = stride_counting_iterator(It(first)); auto sent = distance_apriori_sentinel(size); std::ranges::advance(it, sent); if constexpr (std::random_access_iterator) { assert(it.stride_count() == 1); } else { assert(it.stride_count() == size); } } } template constexpr void check_sentinel(int* first, int* last, int* expected) { auto size = (last - first); { It it(first); auto sent = sentinel_wrapper(It(last)); std::ranges::advance(it, sent); ASSERT_SAME_TYPE(decltype(std::ranges::advance(it, sent)), void); assert(base(it) == expected); } // Count operations if constexpr (Count) { auto it = stride_counting_iterator(It(first)); auto sent = sentinel_wrapper(stride_counting_iterator(It(last))); std::ranges::advance(it, sent); assert(it.stride_count() == size); } } constexpr bool test() { int range[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}; for (int n = 0; n != 10; ++n) { check_assignable>( range, range+n, range+n); check_assignable>( range, range+n, range+n); check_assignable>( range, range+n, range+n); check_assignable>(range, range+n, range+n); check_assignable>(range, range+n, range+n); check_assignable>( range, range+n, range+n); check_assignable( range, range+n, range+n); check_sized_sentinel>( range, range+n, range+n); check_sized_sentinel>( range, range+n, range+n); check_sized_sentinel>( range, range+n, range+n); check_sized_sentinel>(range, range+n, range+n); check_sized_sentinel>(range, range+n, range+n); check_sized_sentinel>( range, range+n, range+n); check_sized_sentinel( range, range+n, range+n); check_sentinel>( range, range+n, range+n); check_sentinel>( range, range+n, range+n); check_sentinel>( range, range+n, range+n); check_sentinel>(range, range+n, range+n); check_sentinel>(range, range+n, range+n); check_sentinel>( range, range+n, range+n); check_sentinel( range, range+n, range+n); } return true; } int main(int, char**) { assert(test()); static_assert(test()); return 0; }