//===----------------------------------------------------------------------===//
//
// 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<class I2, sentinel_for<I> S2>
// requires sentinel_for<S, I2>
// friend bool operator==(
// const common_iterator& x, const common_iterator<I2, S2>& y);
// template<class I2, sentinel_for<I> S2>
// requires sentinel_for<S, I2> && equality_comparable_with<I, I2>
// friend bool operator==(
// const common_iterator& x, const common_iterator<I2, S2>& y);
#include <iterator>
#include <cassert>
#include "test_macros.h"
#include "types.h"
void test() {
int buffer[8] = {1, 2, 3, 4, 5, 6, 7, 8};
{
auto iter1 = simple_iterator<int*>(buffer);
auto commonIter1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(iter1);
auto commonSent1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
const auto commonIter2 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(iter1);
const auto commonSent2 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
assert(commonIter1 != commonSent1);
assert(commonIter2 != commonSent2);
assert(commonSent1 != commonIter1);
assert(commonSent2 != commonIter2);
for (auto i = 1; commonIter1 != commonSent1; ++i) {
assert(*(commonIter1++) == i);
}
assert(commonIter1 == commonSent1);
assert(commonSent1 == commonIter1);
}
{
auto iter1 = value_iterator<int*>(buffer);
auto commonIter1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(iter1);
auto commonSent1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
const auto commonIter2 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(iter1);
const auto commonSent2 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
assert(commonIter1 != commonSent1);
assert(commonIter2 != commonSent2);
assert(commonSent1 != commonIter1);
assert(commonSent2 != commonIter2);
for (auto i = 1; commonIter1 != commonSent1; ++i) {
assert(*(commonIter1++) == i);
}
assert(commonIter1 == commonSent1);
assert(commonSent1 == commonIter1);
}
{
auto iter1 = simple_iterator<int*>(buffer);
auto iter2 = comparable_iterator<int*>(buffer);
auto commonIter1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(iter1);
auto commonSent1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
const auto commonIter2 = std::common_iterator<decltype(iter2), sentinel_type<int*>>(iter2);
const auto commonSent2 = std::common_iterator<decltype(iter2), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
assert(commonIter1 == commonIter2);
assert(commonSent1 != commonIter2);
assert(commonSent1 == commonSent2);
assert(commonSent2 == commonSent1);
assert(commonIter1 != commonSent1);
assert(commonIter2 != commonSent2);
assert(commonSent1 != commonIter1);
assert(commonSent2 != commonIter2);
assert(commonIter1 == commonIter2);
assert(commonIter2 == commonIter1);
for (auto i = 1; commonIter1 != commonSent1; ++i) {
assert(*(commonIter1++) == i);
}
assert(commonIter1 == commonSent1);
assert(commonSent1 == commonIter1);
// This check may *seem* incorrect (our iterators point to two completely different
// elements of buffer). However, this is actually what the Standard wants.
// See https://eel.is/c++draft/iterators.common#common.iter.cmp-2.
assert(commonIter1 == commonIter2);
}
{
auto iter1 = cpp17_input_iterator<int*>(buffer);
auto commonIter1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(iter1);
auto commonSent1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
const auto commonIter2 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(iter1);
const auto commonSent2 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
assert(commonIter1 != commonSent1);
assert(commonIter2 != commonSent2);
assert(commonSent1 != commonIter1);
assert(commonSent2 != commonIter2);
for (auto i = 1; commonIter1 != commonSent1; ++i) {
assert(*(commonIter1++) == i);
}
assert(commonIter1 == commonSent1);
assert(commonSent1 == commonIter1);
}
{
auto iter1 = forward_iterator<int*>(buffer);
auto commonIter1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(iter1);
auto commonSent1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
const auto commonIter2 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(iter1);
const auto commonSent2 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
assert(commonIter1 != commonSent1);
assert(commonIter2 != commonSent2);
assert(commonSent1 != commonIter1);
assert(commonSent2 != commonIter2);
for (auto i = 1; commonIter1 != commonSent1; ++i) {
assert(*(commonIter1++) == i);
}
assert(commonIter1 == commonSent1);
assert(commonSent1 == commonIter1);
}
{
auto iter1 = random_access_iterator<int*>(buffer);
auto commonIter1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(iter1);
auto commonSent1 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
const auto commonIter2 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(iter1);
const auto commonSent2 = std::common_iterator<decltype(iter1), sentinel_type<int*>>(sentinel_type<int*>{buffer + 8});
assert(commonIter1 != commonSent1);
assert(commonIter2 != commonSent2);
assert(commonSent1 != commonIter1);
assert(commonSent2 != commonIter2);
assert(commonSent1 == commonSent2);
assert(commonSent2 == commonSent1);
for (auto i = 1; commonIter1 != commonSent1; ++i) {
assert(*(commonIter1++) == i);
}
assert(commonIter1 == commonSent1);
assert(commonSent1 == commonIter1);
}
}
int main(int, char**) {
test();
return 0;
}