// Range v3 library // // Copyright Eric Niebler 2014-present // // Use, modification and distribution is subject to the // Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) // // Project home: https://github.com/ericniebler/range-v3 //===----------------------------------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include #include #include #include "../simple_test.hpp" #include "../test_iterators.hpp" RANGES_DIAGNOSTIC_IGNORE_DEPRECATED_DECLARATIONS void test() { using namespace ranges; int ia[] = {0, 1, 2, 3, 4, 5}; constexpr auto s = size(ia); int ib[s] = {0, 1, 2, 5, 4, 5}; CHECK(equal(InputIterator(ia), Sentinel(ia+s), InputIterator(ia))); CHECK(equal(InputIterator(ia), Sentinel(ia+s), InputIterator(ia), Sentinel(ia+s))); CHECK(equal(RandomAccessIterator(ia), RandomAccessIterator(ia+s), RandomAccessIterator(ia), RandomAccessIterator(ia + s))); CHECK(equal(RandomAccessIterator(ia), Sentinel(ia+s), RandomAccessIterator(ia), Sentinel(ia + s))); CHECK(!equal(InputIterator(ia), Sentinel(ia+s), InputIterator(ib))); CHECK(!equal(InputIterator(ia), Sentinel(ia+s), InputIterator(ib), Sentinel(ib + s))); CHECK(!equal(RandomAccessIterator(ia), RandomAccessIterator(ia+s), RandomAccessIterator(ib), RandomAccessIterator(ib+s))); CHECK(!equal(RandomAccessIterator(ia), Sentinel(ia+s), RandomAccessIterator(ib), Sentinel(ib + s))); CHECK(!equal(InputIterator(ia), Sentinel(ia+s), InputIterator(ia), Sentinel(ia + s - 1))); CHECK(!equal(RandomAccessIterator(ia), RandomAccessIterator(ia+s), RandomAccessIterator(ia), RandomAccessIterator(ia+s-1))); CHECK(!equal(RandomAccessIterator(ia), Sentinel(ia+s), RandomAccessIterator(ia), Sentinel(ia + s - 1))); } void test_rng() { using namespace ranges; int ia[] = {0, 1, 2, 3, 4, 5}; constexpr auto s = size(ia); int ib[s] = {0, 1, 2, 5, 4, 5}; CHECK(equal(make_subrange(InputIterator(ia), Sentinel(ia+s)), InputIterator(ia))); CHECK(equal(make_subrange(InputIterator(ia), Sentinel(ia+s)), make_subrange(InputIterator(ia), Sentinel(ia+s)))); CHECK(equal(make_subrange(RandomAccessIterator(ia), RandomAccessIterator(ia+s)), make_subrange(RandomAccessIterator(ia), RandomAccessIterator(ia + s)))); CHECK(equal(make_subrange(RandomAccessIterator(ia), Sentinel(ia+s)), make_subrange(RandomAccessIterator(ia), Sentinel(ia + s)))); CHECK(!equal(make_subrange(InputIterator(ia), Sentinel(ia+s)), InputIterator(ib))); CHECK(!equal(make_subrange(InputIterator(ia), Sentinel(ia+s)), make_subrange(InputIterator(ib), Sentinel(ib + s)))); CHECK(!equal(make_subrange(RandomAccessIterator(ia), RandomAccessIterator(ia+s)), make_subrange(RandomAccessIterator(ib), RandomAccessIterator(ib+s)))); CHECK(!equal(make_subrange(RandomAccessIterator(ia), Sentinel(ia+s)), make_subrange(RandomAccessIterator(ib), Sentinel(ib + s)))); CHECK(!equal(make_subrange(InputIterator(ia), Sentinel(ia+s)), make_subrange(InputIterator(ia), Sentinel(ia + s - 1)))); CHECK(!equal(make_subrange(RandomAccessIterator(ia), RandomAccessIterator(ia+s)), make_subrange(RandomAccessIterator(ia), RandomAccessIterator(ia+s-1)))); CHECK(!equal(make_subrange(RandomAccessIterator(ia), Sentinel(ia+s)), make_subrange(RandomAccessIterator(ia), Sentinel(ia + s - 1)))); } int comparison_count = 0; template bool counting_equals(const T &a, const T &b) { ++comparison_count; return a == b; } void test_pred() { using namespace ranges; int ia[] = {0, 1, 2, 3, 4, 5}; constexpr auto s = size(ia); int ib[s] = {0, 1, 2, 5, 4, 5}; CHECK(equal(InputIterator(ia), Sentinel(ia+s), InputIterator(ia), std::equal_to())); CHECK(equal(InputIterator(ia), Sentinel(ia+s), InputIterator(ia), Sentinel(ia + s), std::equal_to())); CHECK(equal(RandomAccessIterator(ia), RandomAccessIterator(ia+s), RandomAccessIterator(ia), RandomAccessIterator(ia+s), std::equal_to())); CHECK(equal(RandomAccessIterator(ia), Sentinel(ia+s), RandomAccessIterator(ia), Sentinel(ia + s), std::equal_to())); comparison_count = 0; CHECK(!equal(InputIterator(ia), Sentinel(ia+s), InputIterator(ia), Sentinel(ia + s - 1), counting_equals)); CHECK(comparison_count > 0); comparison_count = 0; CHECK(!equal(RandomAccessIterator(ia), RandomAccessIterator(ia+s), RandomAccessIterator(ia), RandomAccessIterator(ia+s-1), counting_equals)); CHECK(comparison_count == 0); comparison_count = 0; CHECK(!equal(RandomAccessIterator(ia), Sentinel(ia+s), RandomAccessIterator(ia), Sentinel(ia + s - 1), counting_equals)); CHECK(comparison_count > 0); CHECK(!equal(InputIterator(ia), Sentinel(ia+s), InputIterator(ib), std::equal_to())); CHECK(!equal(InputIterator(ia), Sentinel(ia+s), InputIterator(ib), Sentinel(ib + s), std::equal_to())); CHECK(!equal(RandomAccessIterator(ia), RandomAccessIterator(ia+s), RandomAccessIterator(ib), RandomAccessIterator(ib+s), std::equal_to())); CHECK(!equal(RandomAccessIterator(ia), Sentinel(ia+s), RandomAccessIterator(ib), Sentinel(ib + s), std::equal_to())); } void test_rng_pred() { using namespace ranges; int ia[] = {0, 1, 2, 3, 4, 5}; constexpr auto s = size(ia); int ib[s] = {0, 1, 2, 5, 4, 5}; CHECK(equal(make_subrange(InputIterator(ia), Sentinel(ia+s)), InputIterator(ia), std::equal_to())); CHECK(equal(make_subrange(InputIterator(ia), Sentinel(ia+s)), make_subrange(InputIterator(ia), Sentinel(ia + s)), std::equal_to())); CHECK(equal(make_subrange(RandomAccessIterator(ia), RandomAccessIterator(ia+s)), make_subrange(RandomAccessIterator(ia), RandomAccessIterator(ia+s)), std::equal_to())); CHECK(equal(make_subrange(RandomAccessIterator(ia), Sentinel(ia+s)), make_subrange(RandomAccessIterator(ia), Sentinel(ia + s)), std::equal_to())); comparison_count = 0; CHECK(!equal(make_subrange(InputIterator(ia), Sentinel(ia+s)), make_subrange(InputIterator(ia), Sentinel(ia + s - 1)), counting_equals)); CHECK(comparison_count > 0); comparison_count = 0; CHECK(!equal(make_subrange(RandomAccessIterator(ia), RandomAccessIterator(ia+s)), make_subrange(RandomAccessIterator(ia), RandomAccessIterator(ia+s-1)), counting_equals)); CHECK(comparison_count == 0); comparison_count = 0; CHECK(!equal(make_subrange(RandomAccessIterator(ia), Sentinel(ia+s)), make_subrange(RandomAccessIterator(ia), Sentinel(ia + s - 1)), counting_equals)); CHECK(comparison_count > 0); CHECK(!equal(make_subrange(InputIterator(ia), Sentinel(ia+s)), InputIterator(ib), std::equal_to())); CHECK(!equal(make_subrange(InputIterator(ia), Sentinel(ia+s)), make_subrange(InputIterator(ib), Sentinel(ib + s)), std::equal_to())); CHECK(!equal(make_subrange(RandomAccessIterator(ia), RandomAccessIterator(ia+s)), make_subrange(RandomAccessIterator(ib), RandomAccessIterator(ib+s)), std::equal_to())); CHECK(!equal(make_subrange(RandomAccessIterator(ia), Sentinel(ia+s)), make_subrange(RandomAccessIterator(ib), Sentinel(ib + s)), std::equal_to())); } int main() { ::test(); ::test_rng(); ::test_pred(); ::test_rng_pred(); using IL = std::initializer_list; int *p = nullptr; static_assert(std::is_same::value, ""); static_assert(std::is_same::value, ""); static_assert(std::is_same::value, ""); #if RANGES_CXX_CONSTEXPR >= RANGES_CXX_CONSTEXPR_14 && RANGES_CONSTEXPR_INVOKE static_assert(ranges::equal(IL{1, 2, 3, 4}, IL{1, 2, 3, 4}), ""); static_assert(!ranges::equal(IL{1, 2, 3, 4}, IL{1, 2, 3}), ""); static_assert(!ranges::equal(IL{1, 2, 3, 4}, IL{1, 2, 4, 3}), ""); static_assert(ranges::equal(IL{}, IL{}), ""); #endif return ::test_result(); }