////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2025-2026. Distributed under 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) // // See http://www.boost.org/libs/container for documentation. // ////////////////////////////////////////////////////////////////////////////// #include #include #include "segmented_test_helper.hpp" #include using namespace boost::container; struct less_than_5 { bool operator()(int x) const { return x < 5; } }; struct less_than_threshold { int t; less_than_threshold(int v) : t(v) {} bool operator()(int x) const { return x < t; } }; void test_partition_point_segmented() { test_detail::seg_vector sv; int a1[] = {1, 2, 3}; int a2[] = {4, 5, 6}; int a3[] = {7, 8}; sv.add_segment_range(a1, a1 + 3); sv.add_segment_range(a2, a2 + 3); sv.add_segment_range(a3, a3 + 2); typedef test_detail::seg_vector::iterator iter_t; iter_t pp = segmented_partition_point(sv.begin(), sv.end(), less_than_5()); BOOST_TEST_EQ(*pp, 5); } void test_partition_point_all_true() { test_detail::seg_vector sv; int a[] = {1, 2, 3, 4}; sv.add_segment_range(a, a + 4); typedef test_detail::seg_vector::iterator iter_t; iter_t pp = segmented_partition_point(sv.begin(), sv.end(), less_than_5()); BOOST_TEST(pp == sv.end()); } void test_partition_point_all_false() { test_detail::seg_vector sv; int a[] = {5, 6, 7}; sv.add_segment_range(a, a + 3); typedef test_detail::seg_vector::iterator iter_t; iter_t pp = segmented_partition_point(sv.begin(), sv.end(), less_than_5()); BOOST_TEST(pp == sv.begin()); } void test_partition_point_empty() { test_detail::seg_vector sv; typedef test_detail::seg_vector::iterator iter_t; iter_t pp = segmented_partition_point(sv.begin(), sv.end(), less_than_5()); BOOST_TEST(pp == sv.end()); } void test_partition_point_non_segmented() { boost::container::vector v; v.push_back(1); v.push_back(3); v.push_back(4); v.push_back(7); v.push_back(8); v.push_back(9); boost::container::vector::iterator pp = segmented_partition_point(v.begin(), v.end(), less_than_5()); BOOST_TEST_EQ(*pp, 7); } void test_partition_point_sentinel_segmented() { test_detail::seg_vector sv; int a1[] = {1, 2, 3}; int a2[] = {4, 5, 6}; int a3[] = {7, 8}; sv.add_segment_range(a1, a1 + 3); sv.add_segment_range(a2, a2 + 3); sv.add_segment_range(a3, a3 + 2); typedef test_detail::seg_vector::iterator iter_t; iter_t pp = segmented_partition_point(sv.begin(), test_detail::make_sentinel(sv.end()), less_than_5()); BOOST_TEST_EQ(*pp, 5); } void test_partition_point_sentinel_non_segmented() { boost::container::vector v; v.push_back(1); v.push_back(3); v.push_back(4); v.push_back(7); v.push_back(8); v.push_back(9); boost::container::vector::iterator pp = segmented_partition_point(v.begin(), test_detail::make_sentinel(v.end()), less_than_5()); BOOST_TEST_EQ(*pp, 7); } void test_partition_point_seg2() { test_detail::seg2_vector sv2; int a1[] = {1, 2, 3}; int a2[] = {4, 5, 6}; int a3[] = {7, 8}; sv2.add_flat_segment_range(a1, a1 + 3); sv2.add_flat_segment_range(a2, a2 + 3); sv2.add_flat_segment_range(a3, a3 + 2); typedef test_detail::seg2_vector::iterator iter_t; iter_t pp = segmented_partition_point(sv2.begin(), sv2.end(), less_than_5()); BOOST_TEST_EQ(*pp, 5); } void test_partition_point_every_position() { const int N = 9; for(int p = 0; p <= N; ++p) { int data[9]; for(int j = 0; j < N; ++j) data[j] = (j < p) ? j : j + 100; test_detail::seg_vector sv; sv.add_segment_range(data, data + 3); sv.add_segment_range(data + 3, data + 5); sv.add_segment_range(data + 5, data + 9); typedef test_detail::seg_vector::iterator iter_t; iter_t result = segmented_partition_point(sv.begin(), sv.end(), less_than_threshold(100)); iter_t expected = sv.begin(); for(int j = 0; j < p; ++j) ++expected; BOOST_TEST(result == expected); } } void test_partition_point_every_position_seg2() { const int N = 9; for(int p = 0; p <= N; ++p) { int data[9]; for(int j = 0; j < N; ++j) data[j] = (j < p) ? j : j + 100; test_detail::seg2_vector sv2; sv2.add_flat_segment_range(data, data + 3); sv2.add_flat_segment_range(data + 3, data + 5); sv2.add_flat_segment_range(data + 5, data + 9); typedef test_detail::seg2_vector::iterator iter_t; iter_t result = segmented_partition_point(sv2.begin(), sv2.end(), less_than_threshold(100)); iter_t expected = sv2.begin(); for(int j = 0; j < p; ++j) ++expected; BOOST_TEST(result == expected); } } int main() { test_partition_point_segmented(); test_partition_point_all_true(); test_partition_point_all_false(); test_partition_point_empty(); test_partition_point_non_segmented(); test_partition_point_sentinel_segmented(); test_partition_point_sentinel_non_segmented(); test_partition_point_seg2(); test_partition_point_every_position(); test_partition_point_every_position_seg2(); return boost::report_errors(); }