#include #include #include #include #include #include #include #include #include "../common/config.h" #include "../common/throwing_allocator.hpp" struct empty_type {}; struct boxed_int { int value; }; TEST(SparseSet, Functionalities) { entt::sparse_set set; ASSERT_NO_FATAL_FAILURE([[maybe_unused]] auto alloc = set.get_allocator()); ASSERT_EQ(set.type(), entt::type_id()); set.reserve(42); ASSERT_EQ(set.capacity(), 42u); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.size(), 0u); ASSERT_EQ(std::as_const(set).begin(), std::as_const(set).end()); ASSERT_EQ(set.begin(), set.end()); ASSERT_FALSE(set.contains(entt::entity{0})); ASSERT_FALSE(set.contains(entt::entity{42})); set.reserve(0); ASSERT_EQ(set.capacity(), 42u); ASSERT_TRUE(set.empty()); set.emplace(entt::entity{42}); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 1u); ASSERT_NE(std::as_const(set).begin(), std::as_const(set).end()); ASSERT_NE(set.begin(), set.end()); ASSERT_FALSE(set.contains(entt::entity{0})); ASSERT_TRUE(set.contains(entt::entity{42})); ASSERT_EQ(set.index(entt::entity{42}), 0u); ASSERT_EQ(set.at(0u), entt::entity{42}); ASSERT_EQ(set.at(1u), static_cast(entt::null)); ASSERT_EQ(set[0u], entt::entity{42}); ASSERT_EQ(set.get(entt::entity{42}), nullptr); set.erase(entt::entity{42}); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.size(), 0u); ASSERT_EQ(std::as_const(set).begin(), std::as_const(set).end()); ASSERT_EQ(set.begin(), set.end()); ASSERT_FALSE(set.contains(entt::entity{0})); ASSERT_FALSE(set.contains(entt::entity{42})); ASSERT_EQ(set.at(0u), static_cast(entt::null)); ASSERT_EQ(set.at(1u), static_cast(entt::null)); set.emplace(entt::entity{42}); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.index(entt::entity{42}), 0u); ASSERT_EQ(set.at(0u), entt::entity{42}); ASSERT_EQ(set.at(1u), static_cast(entt::null)); ASSERT_EQ(set[0u], entt::entity{42}); set.clear(); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.size(), 0u); ASSERT_EQ(std::as_const(set).begin(), std::as_const(set).end()); ASSERT_EQ(set.begin(), set.end()); ASSERT_FALSE(set.contains(entt::entity{0})); ASSERT_FALSE(set.contains(entt::entity{42})); ASSERT_NO_FATAL_FAILURE(set.bind(entt::any{})); } TEST(SparseSet, Contains) { using traits_type = entt::entt_traits; entt::sparse_set set{entt::deletion_policy::in_place}; set.emplace(entt::entity{0}); set.emplace(entt::entity{3}); set.emplace(entt::entity{42}); set.emplace(entt::entity{99}); set.emplace(traits_type::construct(1, 5)); ASSERT_FALSE(set.contains(entt::null)); ASSERT_FALSE(set.contains(entt::tombstone)); ASSERT_TRUE(set.contains(entt::entity{0})); ASSERT_TRUE(set.contains(entt::entity{3})); ASSERT_TRUE(set.contains(entt::entity{42})); ASSERT_TRUE(set.contains(entt::entity{99})); ASSERT_FALSE(set.contains(entt::entity{1})); ASSERT_TRUE(set.contains(traits_type::construct(1, 5))); ASSERT_TRUE(set.contains(traits_type::construct(3, 0))); ASSERT_FALSE(set.contains(traits_type::construct(42, 1))); ASSERT_FALSE(set.contains(traits_type::construct(99, traits_type::to_version(entt::tombstone)))); set.erase(entt::entity{0}); set.erase(entt::entity{3}); set.remove(entt::entity{42}); set.remove(entt::entity{99}); ASSERT_FALSE(set.contains(entt::null)); ASSERT_FALSE(set.contains(entt::tombstone)); ASSERT_FALSE(set.contains(entt::entity{0})); ASSERT_FALSE(set.contains(entt::entity{3})); ASSERT_FALSE(set.contains(entt::entity{42})); ASSERT_FALSE(set.contains(entt::entity{99})); ASSERT_FALSE(set.contains(entt::entity{1})); ASSERT_TRUE(set.contains(traits_type::construct(1, 5))); ASSERT_FALSE(set.contains(traits_type::construct(99, traits_type::to_version(entt::tombstone)))); } TEST(SparseSet, Current) { using traits_type = entt::entt_traits; entt::sparse_set set{entt::deletion_policy::in_place}; ASSERT_EQ(set.current(traits_type::construct(0, 0)), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(traits_type::construct(3, 3)), traits_type::to_version(entt::tombstone)); set.emplace(traits_type::construct(0, 0)); set.emplace(traits_type::construct(3, 3)); ASSERT_NE(set.current(traits_type::construct(0, 0)), traits_type::to_version(entt::tombstone)); ASSERT_NE(set.current(traits_type::construct(3, 3)), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(traits_type::construct(3, 0)), traits_type::to_version(traits_type::construct(3, 3))); ASSERT_EQ(set.current(traits_type::construct(42, 1)), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(traits_type::construct(traits_type::page_size, 1)), traits_type::to_version(entt::tombstone)); set.remove(entt::entity{0}); ASSERT_EQ(set.current(traits_type::construct(0, 0)), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(traits_type::construct(3, 0)), traits_type::to_version(traits_type::construct(3, 3))); } TEST(SparseSet, Index) { using traits_type = entt::entt_traits; entt::sparse_set set{}; set.emplace(traits_type::construct(0, 0)); set.emplace(traits_type::construct(3, 3)); ASSERT_EQ(set.index(traits_type::construct(0, 0)), 0u); ASSERT_EQ(set.index(traits_type::construct(3, 3)), 1u); set.erase(traits_type::construct(0, 0)); ASSERT_EQ(set.index(traits_type::construct(3, 3)), 0u); } ENTT_DEBUG_TEST(SparseSetDeathTest, Index) { using traits_type = entt::entt_traits; entt::sparse_set set{}; ASSERT_DEATH(static_cast(set.index(traits_type::construct(3, 0))), ""); ASSERT_DEATH(static_cast(set.index(entt::null)), ""); } TEST(SparseSet, Move) { entt::sparse_set set; set.emplace(entt::entity{42}); ASSERT_TRUE(std::is_move_constructible_v); ASSERT_TRUE(std::is_move_assignable_v); entt::sparse_set other{std::move(set)}; ASSERT_TRUE(set.empty()); ASSERT_FALSE(other.empty()); ASSERT_EQ(set.at(0u), static_cast(entt::null)); ASSERT_EQ(other.at(0u), entt::entity{42}); set = std::move(other); ASSERT_FALSE(set.empty()); ASSERT_TRUE(other.empty()); ASSERT_EQ(set.at(0u), entt::entity{42}); ASSERT_EQ(other.at(0u), static_cast(entt::null)); other = entt::sparse_set{}; other.emplace(entt::entity{3}); other = std::move(set); ASSERT_TRUE(set.empty()); ASSERT_FALSE(other.empty()); ASSERT_EQ(set.at(0u), static_cast(entt::null)); ASSERT_EQ(other.at(0u), entt::entity{42}); } TEST(SparseSet, Swap) { entt::sparse_set set; entt::sparse_set other{entt::deletion_policy::in_place}; set.emplace(entt::entity{42}); other.emplace(entt::entity{9}); other.emplace(entt::entity{3}); other.erase(entt::entity{9}); ASSERT_EQ(set.size(), 1u); ASSERT_EQ(other.size(), 2u); set.swap(other); ASSERT_EQ(set.size(), 2u); ASSERT_EQ(other.size(), 1u); ASSERT_EQ(set.at(1u), entt::entity{3}); ASSERT_EQ(other.at(0u), entt::entity{42}); } TEST(SparseSet, Pagination) { using traits_type = entt::entt_traits; entt::sparse_set set{}; ASSERT_EQ(set.extent(), 0u); set.emplace(entt::entity{traits_type::page_size - 1u}); ASSERT_EQ(set.extent(), traits_type::page_size); ASSERT_TRUE(set.contains(entt::entity{traits_type::page_size - 1u})); set.emplace(entt::entity{traits_type::page_size}); ASSERT_EQ(set.extent(), 2 * traits_type::page_size); ASSERT_TRUE(set.contains(entt::entity{traits_type::page_size - 1u})); ASSERT_TRUE(set.contains(entt::entity{traits_type::page_size})); ASSERT_FALSE(set.contains(entt::entity{traits_type::page_size + 1u})); set.erase(entt::entity{traits_type::page_size - 1u}); ASSERT_EQ(set.extent(), 2 * traits_type::page_size); ASSERT_FALSE(set.contains(entt::entity{traits_type::page_size - 1u})); ASSERT_TRUE(set.contains(entt::entity{traits_type::page_size})); set.shrink_to_fit(); set.erase(entt::entity{traits_type::page_size}); ASSERT_EQ(set.extent(), 2 * traits_type::page_size); ASSERT_FALSE(set.contains(entt::entity{traits_type::page_size - 1u})); ASSERT_FALSE(set.contains(entt::entity{traits_type::page_size})); set.shrink_to_fit(); ASSERT_EQ(set.extent(), 2 * traits_type::page_size); } TEST(SparseSet, Emplace) { entt::sparse_set set{entt::deletion_policy::in_place}; entt::entity entities[2u]{entt::entity{3}, entt::entity{42}}; ASSERT_TRUE(set.empty()); ASSERT_NE(set.emplace(entities[0u]), set.end()); set.erase(entities[0u]); ASSERT_NE(set.emplace(entities[1u]), set.end()); ASSERT_NE(set.emplace(entities[0u]), set.end()); ASSERT_EQ(set.at(0u), entities[1u]); ASSERT_EQ(set.at(1u), entities[0u]); ASSERT_EQ(set.index(entities[0u]), 1u); ASSERT_EQ(set.index(entities[1u]), 0u); set.erase(std::begin(entities), std::end(entities)); ASSERT_NE(set.emplace(entities[1u]), set.end()); ASSERT_NE(set.emplace(entities[0u]), set.end()); ASSERT_EQ(set.at(0u), entities[1u]); ASSERT_EQ(set.at(1u), entities[0u]); ASSERT_EQ(set.index(entities[0u]), 1u); ASSERT_EQ(set.index(entities[1u]), 0u); } ENTT_DEBUG_TEST(SparseSetDeathTest, Emplace) { entt::sparse_set set{entt::deletion_policy::in_place}; set.emplace(entt::entity{42}); ASSERT_DEATH(set.emplace(entt::entity{42}), ""); } TEST(SparseSet, EmplaceOutOfBounds) { using traits_type = entt::entt_traits; entt::sparse_set set{entt::deletion_policy::in_place}; entt::entity entities[2u]{entt::entity{0}, entt::entity{traits_type::page_size}}; ASSERT_NE(set.emplace(entities[0u]), set.end()); ASSERT_EQ(set.extent(), traits_type::page_size); ASSERT_EQ(set.index(entities[0u]), 0u); set.erase(entities[0u]); ASSERT_NE(set.emplace(entities[1u]), set.end()); ASSERT_EQ(set.extent(), 2u * traits_type::page_size); ASSERT_EQ(set.index(entities[1u]), 0u); } TEST(SparseSet, Bump) { using traits_type = entt::entt_traits; entt::sparse_set set; entt::entity entities[3u]{entt::entity{3}, entt::entity{42}, traits_type::construct(9, 3)}; set.insert(std::begin(entities), std::end(entities)); ASSERT_EQ(set.current(entities[0u]), 0u); ASSERT_EQ(set.current(entities[1u]), 0u); ASSERT_EQ(set.current(entities[2u]), 3u); set.bump(entities[0u]); set.bump(traits_type::construct(traits_type::to_entity(entities[1u]), 1)); set.bump(traits_type::construct(traits_type::to_entity(entities[2u]), 0)); ASSERT_EQ(set.current(entities[0u]), 0u); ASSERT_EQ(set.current(entities[1u]), 1u); ASSERT_EQ(set.current(entities[2u]), 0u); } ENTT_DEBUG_TEST(SparseSetDeathTest, Bump) { using traits_type = entt::entt_traits; entt::sparse_set set{entt::deletion_policy::in_place}; set.emplace(entt::entity{3}); ASSERT_DEATH(set.bump(entt::null), ""); ASSERT_DEATH(set.bump(entt::tombstone), ""); ASSERT_DEATH(set.bump(entt::entity{42}), ""); ASSERT_DEATH(set.bump(traits_type::construct(traits_type::to_entity(entt::entity{3}), traits_type::to_version(entt::tombstone))), ""); } TEST(SparseSet, Insert) { entt::sparse_set set{entt::deletion_policy::in_place}; entt::entity entities[2u]{entt::entity{3}, entt::entity{42}}; set.emplace(entt::entity{12}); ASSERT_EQ(set.insert(std::end(entities), std::end(entities)), set.end()); ASSERT_NE(set.insert(std::begin(entities), std::end(entities)), set.end()); set.emplace(entt::entity{24}); ASSERT_TRUE(set.contains(entities[0u])); ASSERT_TRUE(set.contains(entities[1u])); ASSERT_FALSE(set.contains(entt::entity{0})); ASSERT_FALSE(set.contains(entt::entity{9})); ASSERT_TRUE(set.contains(entt::entity{12})); ASSERT_TRUE(set.contains(entt::entity{24})); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 4u); ASSERT_EQ(set.index(entt::entity{12}), 0u); ASSERT_EQ(set.index(entities[0u]), 1u); ASSERT_EQ(set.index(entities[1u]), 2u); ASSERT_EQ(set.index(entt::entity{24}), 3u); ASSERT_EQ(set.data()[set.index(entt::entity{12})], entt::entity{12}); ASSERT_EQ(set.data()[set.index(entities[0u])], entities[0u]); ASSERT_EQ(set.data()[set.index(entities[1u])], entities[1u]); ASSERT_EQ(set.data()[set.index(entt::entity{24})], entt::entity{24}); set.erase(std::begin(entities), std::end(entities)); ASSERT_NE(set.insert(std::rbegin(entities), std::rend(entities)), set.end()); ASSERT_EQ(set.size(), 6u); ASSERT_EQ(set.at(4u), entities[1u]); ASSERT_EQ(set.at(5u), entities[0u]); ASSERT_EQ(set.index(entities[0u]), 5u); ASSERT_EQ(set.index(entities[1u]), 4u); } TEST(SparseSet, Erase) { using traits_type = entt::entt_traits; entt::sparse_set set; entt::entity entities[3u]{entt::entity{3}, entt::entity{42}, traits_type::construct(9, 3)}; ASSERT_EQ(set.policy(), entt::deletion_policy::swap_and_pop); ASSERT_TRUE(set.empty()); set.insert(std::begin(entities), std::end(entities)); set.erase(set.begin(), set.end()); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); set.insert(std::begin(entities), std::end(entities)); set.erase(entities, entities + 2u); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entities[2u])); ASSERT_EQ(*set.begin(), entities[2u]); set.erase(entities[2u]); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); set.insert(std::begin(entities), std::end(entities)); std::swap(entities[1u], entities[2u]); set.erase(entities, entities + 2u); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entities[2u])); ASSERT_EQ(*set.begin(), entities[2u]); } ENTT_DEBUG_TEST(SparseSetDeathTest, Erase) { using traits_type = entt::entt_traits; entt::sparse_set set; entt::entity entities[2u]{entt::entity{42}, traits_type::construct(9, 3)}; ASSERT_DEATH(set.erase(std::begin(entities), std::end(entities)), ""); ASSERT_DEATH(set.erase(entt::null), ""); } TEST(SparseSet, CrossErase) { entt::sparse_set set; entt::sparse_set other; entt::entity entities[2u]{entt::entity{3}, entt::entity{42}}; set.insert(std::begin(entities), std::end(entities)); other.emplace(entities[1u]); set.erase(other.begin(), other.end()); ASSERT_TRUE(set.contains(entities[0u])); ASSERT_FALSE(set.contains(entities[1u])); ASSERT_EQ(set.data()[0u], entities[0u]); } TEST(SparseSet, StableErase) { using traits_type = entt::entt_traits; entt::sparse_set set{entt::deletion_policy::in_place}; entt::entity entities[3u]{entt::entity{3}, entt::entity{42}, traits_type::construct(9, 3)}; ASSERT_EQ(set.policy(), entt::deletion_policy::in_place); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.size(), 0u); set.emplace(entities[0u]); set.emplace(entities[1u]); set.emplace(entities[2u]); set.erase(set.begin(), set.end()); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); ASSERT_TRUE(set.at(0u) == entt::tombstone); ASSERT_TRUE(set.at(1u) == entt::tombstone); ASSERT_TRUE(set.at(2u) == entt::tombstone); set.emplace(entities[0u]); set.emplace(entities[1u]); set.emplace(entities[2u]); set.erase(entities, entities + 2u); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entities[2u])); ASSERT_EQ(*set.begin(), entities[2u]); ASSERT_TRUE(set.at(0u) == entt::tombstone); ASSERT_TRUE(set.at(1u) == entt::tombstone); set.erase(entities[2u]); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); set.emplace(entities[0u]); set.emplace(entities[1u]); set.emplace(entities[2u]); std::swap(entities[1u], entities[2u]); set.erase(entities, entities + 2u); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entities[2u])); ASSERT_TRUE(set.at(0u) == entt::tombstone); ASSERT_EQ(set.at(1u), entities[2u]); ASSERT_TRUE(set.at(2u) == entt::tombstone); ASSERT_EQ(*++set.begin(), entities[2u]); set.compact(); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 1u); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entities[2u])); ASSERT_TRUE(set.at(0u) == entities[2u]); ASSERT_EQ(*set.begin(), entities[2u]); set.clear(); ASSERT_EQ(set.size(), 0u); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); set.emplace(entities[0u]); set.emplace(entities[1u]); set.emplace(entities[2u]); set.erase(entities[2u]); ASSERT_NE(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_NE(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); set.erase(entities[0u]); set.erase(entities[1u]); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); ASSERT_TRUE(*set.begin() == entt::tombstone); set.emplace(entities[0u]); ASSERT_EQ(*++set.begin(), entities[0u]); set.emplace(entities[1u]); set.emplace(entities[2u]); set.emplace(entt::entity{0}); ASSERT_EQ(set.size(), 4u); ASSERT_EQ(*set.begin(), entt::entity{0}); ASSERT_EQ(set.at(0u), entities[1u]); ASSERT_EQ(set.at(1u), entities[0u]); ASSERT_EQ(set.at(2u), entities[2u]); ASSERT_NE(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_NE(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_NE(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); } ENTT_DEBUG_TEST(SparseSetDeathTest, StableErase) { using traits_type = entt::entt_traits; entt::sparse_set set{entt::deletion_policy::in_place}; entt::entity entities[2u]{entt::entity{42}, traits_type::construct(9, 3)}; ASSERT_DEATH(set.erase(std::begin(entities), std::end(entities)), ""); ASSERT_DEATH(set.erase(entt::null), ""); } TEST(SparseSet, CrossStableErase) { entt::sparse_set set{entt::deletion_policy::in_place}; entt::sparse_set other{entt::deletion_policy::in_place}; entt::entity entities[2u]{entt::entity{3}, entt::entity{42}}; set.insert(std::begin(entities), std::end(entities)); other.emplace(entities[1u]); set.erase(other.begin(), other.end()); ASSERT_TRUE(set.contains(entities[0u])); ASSERT_FALSE(set.contains(entities[1u])); ASSERT_EQ(set.data()[0u], entities[0u]); } TEST(SparseSet, Remove) { using traits_type = entt::entt_traits; entt::sparse_set set; entt::entity entities[3u]{entt::entity{3}, entt::entity{42}, traits_type::construct(9, 3)}; ASSERT_EQ(set.policy(), entt::deletion_policy::swap_and_pop); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.remove(std::begin(entities), std::end(entities)), 0u); ASSERT_EQ(set.remove(entities[1u]), 0u); ASSERT_TRUE(set.empty()); set.insert(std::begin(entities), std::end(entities)); ASSERT_EQ(set.remove(set.begin(), set.end()), 3u); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); set.insert(std::begin(entities), std::end(entities)); ASSERT_EQ(set.remove(entities, entities + 2u), 2u); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entities[2u])); ASSERT_EQ(*set.begin(), entities[2u]); ASSERT_EQ(set.remove(entities[2u]), 1u); ASSERT_EQ(set.remove(entities[2u]), 0u); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); set.insert(entities, entities + 2u); ASSERT_EQ(set.remove(std::begin(entities), std::end(entities)), 2u); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); ASSERT_TRUE(set.empty()); set.insert(std::begin(entities), std::end(entities)); std::swap(entities[1u], entities[2u]); ASSERT_EQ(set.remove(entities, entities + 2u), 2u); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entities[2u])); ASSERT_FALSE(set.empty()); ASSERT_EQ(*set.begin(), entities[2u]); ASSERT_EQ(set.remove(traits_type::construct(9, 0)), 0u); ASSERT_EQ(set.remove(entt::tombstone), 0u); ASSERT_EQ(set.remove(entt::null), 0u); } TEST(SparseSet, CrossRemove) { entt::sparse_set set; entt::sparse_set other; entt::entity entities[2u]{entt::entity{3}, entt::entity{42}}; set.insert(std::begin(entities), std::end(entities)); other.emplace(entities[1u]); set.remove(other.begin(), other.end()); ASSERT_TRUE(set.contains(entities[0u])); ASSERT_FALSE(set.contains(entities[1u])); ASSERT_EQ(set.data()[0u], entities[0u]); } TEST(SparseSet, StableRemove) { using traits_type = entt::entt_traits; entt::sparse_set set{entt::deletion_policy::in_place}; entt::entity entities[3u]{entt::entity{3}, entt::entity{42}, traits_type::construct(9, 3)}; ASSERT_EQ(set.policy(), entt::deletion_policy::in_place); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.size(), 0u); ASSERT_EQ(set.remove(std::begin(entities), std::end(entities)), 0u); ASSERT_EQ(set.remove(entities[1u]), 0u); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.size(), 0u); set.emplace(entities[0u]); set.emplace(entities[1u]); set.emplace(entities[2u]); ASSERT_EQ(set.remove(set.begin(), set.end()), 3u); ASSERT_EQ(set.remove(set.begin(), set.end()), 0u); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); ASSERT_TRUE(set.at(0u) == entt::tombstone); ASSERT_TRUE(set.at(1u) == entt::tombstone); ASSERT_TRUE(set.at(2u) == entt::tombstone); set.emplace(entities[0u]); set.emplace(entities[1u]); set.emplace(entities[2u]); ASSERT_EQ(set.remove(entities, entities + 2u), 2u); ASSERT_EQ(set.remove(entities, entities + 2u), 0u); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entities[2u])); ASSERT_EQ(*set.begin(), entities[2u]); ASSERT_TRUE(set.at(0u) == entt::tombstone); ASSERT_TRUE(set.at(1u) == entt::tombstone); ASSERT_EQ(set.remove(entities[2u]), 1u); ASSERT_EQ(set.remove(entities[2u]), 0u); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); set.emplace(entities[0u]); set.emplace(entities[1u]); set.emplace(entities[2u]); std::swap(entities[1u], entities[2u]); ASSERT_EQ(set.remove(entities, entities + 2u), 2u); ASSERT_EQ(set.remove(entities, entities + 2u), 0u); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entities[2u])); ASSERT_TRUE(set.at(0u) == entt::tombstone); ASSERT_EQ(set.at(1u), entities[2u]); ASSERT_TRUE(set.at(2u) == entt::tombstone); ASSERT_EQ(*++set.begin(), entities[2u]); set.compact(); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 1u); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entities[2u])); ASSERT_TRUE(set.at(0u) == entities[2u]); ASSERT_EQ(*set.begin(), entities[2u]); set.clear(); ASSERT_EQ(set.size(), 0u); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); set.emplace(entities[0u]); set.emplace(entities[1u]); set.emplace(entities[2u]); ASSERT_EQ(set.remove(entities[2u]), 1u); ASSERT_EQ(set.remove(entities[2u]), 0u); ASSERT_NE(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_NE(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.remove(entities[0u]), 1u); ASSERT_EQ(set.remove(entities[1u]), 1u); ASSERT_EQ(set.remove(entities, entities + 2u), 0u); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); ASSERT_TRUE(*set.begin() == entt::tombstone); set.emplace(entities[0u]); ASSERT_EQ(*++set.begin(), entities[0u]); set.emplace(entities[1u]); set.emplace(entities[2u]); set.emplace(entt::entity{0}); ASSERT_EQ(set.size(), 4u); ASSERT_EQ(*set.begin(), entt::entity{0}); ASSERT_EQ(set.at(0u), entities[1u]); ASSERT_EQ(set.at(1u), entities[0u]); ASSERT_EQ(set.at(2u), entities[2u]); ASSERT_NE(set.current(entities[0u]), traits_type::to_version(entt::tombstone)); ASSERT_NE(set.current(entities[1u]), traits_type::to_version(entt::tombstone)); ASSERT_NE(set.current(entities[2u]), traits_type::to_version(entt::tombstone)); ASSERT_EQ(set.remove(traits_type::construct(9, 0)), 0u); ASSERT_EQ(set.remove(entt::null), 0u); } TEST(SparseSet, CrossStableRemove) { entt::sparse_set set{entt::deletion_policy::in_place}; entt::sparse_set other{entt::deletion_policy::in_place}; entt::entity entities[2u]{entt::entity{3}, entt::entity{42}}; set.insert(std::begin(entities), std::end(entities)); other.emplace(entities[1u]); set.remove(other.begin(), other.end()); ASSERT_TRUE(set.contains(entities[0u])); ASSERT_FALSE(set.contains(entities[1u])); ASSERT_EQ(set.data()[0u], entities[0u]); } TEST(SparseSet, Compact) { entt::sparse_set set{entt::deletion_policy::in_place}; ASSERT_TRUE(set.empty()); ASSERT_EQ(set.size(), 0u); set.compact(); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.size(), 0u); set.emplace(entt::entity{0}); set.compact(); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 1u); set.emplace(entt::entity{42}); set.erase(entt::entity{0}); ASSERT_EQ(set.size(), 2u); ASSERT_EQ(set.index(entt::entity{42}), 1u); set.compact(); ASSERT_EQ(set.size(), 1u); ASSERT_EQ(set.index(entt::entity{42}), 0u); set.emplace(entt::entity{0}); set.compact(); ASSERT_EQ(set.size(), 2u); ASSERT_EQ(set.index(entt::entity{42}), 0u); ASSERT_EQ(set.index(entt::entity{0}), 1u); set.erase(entt::entity{0}); set.erase(entt::entity{42}); set.compact(); ASSERT_TRUE(set.empty()); } TEST(SparseSet, SwapEntity) { using traits_type = entt::entt_traits; entt::sparse_set set; set.emplace(traits_type::construct(3, 5)); set.emplace(traits_type::construct(42, 99)); ASSERT_EQ(set.index(traits_type::construct(3, 5)), 0u); ASSERT_EQ(set.index(traits_type::construct(42, 99)), 1u); set.swap_elements(traits_type::construct(3, 5), traits_type::construct(42, 99)); ASSERT_EQ(set.index(traits_type::construct(3, 5)), 1u); ASSERT_EQ(set.index(traits_type::construct(42, 99)), 0u); set.swap_elements(traits_type::construct(3, 5), traits_type::construct(42, 99)); ASSERT_EQ(set.index(traits_type::construct(3, 5)), 0u); ASSERT_EQ(set.index(traits_type::construct(42, 99)), 1u); } ENTT_DEBUG_TEST(SparseSetDeathTest, SwapEntity) { entt::sparse_set set; ASSERT_TRUE(set.empty()); ASSERT_DEATH(set.swap_elements(entt::entity{0}, entt::entity{1}), ""); } TEST(SparseSet, Clear) { entt::sparse_set set{entt::deletion_policy::in_place}; set.emplace(entt::entity{3}); set.emplace(entt::entity{42}); set.emplace(entt::entity{9}); set.erase(entt::entity{42}); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(*set.begin(), entt::entity{9}); set.clear(); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.size(), 0u); ASSERT_EQ(set.find(entt::entity{3}), set.end()); ASSERT_EQ(set.find(entt::entity{9}), set.end()); set.emplace(entt::entity{3}); set.emplace(entt::entity{42}); set.emplace(entt::entity{9}); ASSERT_FALSE(set.empty()); ASSERT_EQ(set.size(), 3u); ASSERT_EQ(*set.begin(), entt::entity{9}); set.clear(); ASSERT_TRUE(set.empty()); ASSERT_EQ(set.size(), 0u); ASSERT_EQ(set.find(entt::entity{3}), set.end()); ASSERT_EQ(set.find(entt::entity{42}), set.end()); ASSERT_EQ(set.find(entt::entity{9}), set.end()); } TEST(SparseSet, Iterator) { using iterator = typename entt::sparse_set::iterator; static_assert(std::is_same_v); static_assert(std::is_same_v); static_assert(std::is_same_v); entt::sparse_set set; set.emplace(entt::entity{3}); iterator end{set.begin()}; iterator begin{}; begin = set.end(); std::swap(begin, end); ASSERT_EQ(begin, set.cbegin()); ASSERT_EQ(end, set.cend()); ASSERT_NE(begin, end); ASSERT_EQ(begin.index(), 0); ASSERT_EQ(end.index(), -1); ASSERT_EQ(begin++, set.begin()); ASSERT_EQ(begin--, set.end()); ASSERT_EQ(begin + 1, set.end()); ASSERT_EQ(end - 1, set.begin()); ASSERT_EQ(++begin, set.end()); ASSERT_EQ(--begin, set.begin()); ASSERT_EQ(begin += 1, set.end()); ASSERT_EQ(begin -= 1, set.begin()); ASSERT_EQ(begin + (end - begin), set.end()); ASSERT_EQ(begin - (begin - end), set.end()); ASSERT_EQ(end - (end - begin), set.begin()); ASSERT_EQ(end + (begin - end), set.begin()); ASSERT_EQ(begin[0u], *set.begin()); ASSERT_LT(begin, end); ASSERT_LE(begin, set.begin()); ASSERT_GT(end, begin); ASSERT_GE(end, set.end()); ASSERT_EQ(*begin, entt::entity{3}); ASSERT_EQ(*begin.operator->(), entt::entity{3}); ASSERT_EQ(begin.index(), 0); ASSERT_EQ(end.index(), -1); set.emplace(entt::entity{42}); begin = set.begin(); ASSERT_EQ(begin.index(), 1); ASSERT_EQ(end.index(), -1); ASSERT_EQ(begin[0u], entt::entity{42}); ASSERT_EQ(begin[1u], entt::entity{3}); } TEST(SparseSet, ReverseIterator) { using reverse_iterator = typename entt::sparse_set::reverse_iterator; static_assert(std::is_same_v); static_assert(std::is_same_v); static_assert(std::is_same_v); entt::sparse_set set; set.emplace(entt::entity{3}); reverse_iterator end{set.rbegin()}; reverse_iterator begin{}; begin = set.rend(); std::swap(begin, end); ASSERT_EQ(begin, set.crbegin()); ASSERT_EQ(end, set.crend()); ASSERT_NE(begin, end); ASSERT_EQ(begin.base().index(), -1); ASSERT_EQ(end.base().index(), 0); ASSERT_EQ(begin++, set.rbegin()); ASSERT_EQ(begin--, set.rend()); ASSERT_EQ(begin + 1, set.rend()); ASSERT_EQ(end - 1, set.rbegin()); ASSERT_EQ(++begin, set.rend()); ASSERT_EQ(--begin, set.rbegin()); ASSERT_EQ(begin += 1, set.rend()); ASSERT_EQ(begin -= 1, set.rbegin()); ASSERT_EQ(begin + (end - begin), set.rend()); ASSERT_EQ(begin - (begin - end), set.rend()); ASSERT_EQ(end - (end - begin), set.rbegin()); ASSERT_EQ(end + (begin - end), set.rbegin()); ASSERT_EQ(begin[0u], *set.rbegin()); ASSERT_LT(begin, end); ASSERT_LE(begin, set.rbegin()); ASSERT_GT(end, begin); ASSERT_GE(end, set.rend()); ASSERT_EQ(*begin, entt::entity{3}); ASSERT_EQ(*begin.operator->(), entt::entity{3}); ASSERT_EQ(begin.base().index(), -1); ASSERT_EQ(end.base().index(), 0); set.emplace(entt::entity{42}); end = set.rend(); ASSERT_EQ(begin.base().index(), -1); ASSERT_EQ(end.base().index(), 1); ASSERT_EQ(begin[0u], entt::entity{3}); ASSERT_EQ(begin[1u], entt::entity{42}); } TEST(SparseSet, Find) { using traits_type = entt::entt_traits; entt::sparse_set set; set.emplace(entt::entity{3}); set.emplace(entt::entity{42}); set.emplace(traits_type::construct(99, 1)); ASSERT_NE(set.find(entt::entity{3}), set.end()); ASSERT_NE(set.find(entt::entity{42}), set.end()); ASSERT_NE(set.find(traits_type::construct(99, 1)), set.end()); ASSERT_EQ(set.find(traits_type::construct(99, 5)), set.end()); ASSERT_EQ(set.find(entt::entity{0}), set.end()); ASSERT_EQ(set.find(entt::tombstone), set.end()); ASSERT_EQ(set.find(entt::null), set.end()); auto it = set.find(traits_type::construct(99, 1)); ASSERT_EQ(*it, traits_type::construct(99, 1)); ASSERT_EQ(*(++it), entt::entity{42}); ASSERT_EQ(*(++it), entt::entity{3}); ASSERT_EQ(++it, set.end()); ASSERT_EQ(++set.find(entt::entity{3}), set.end()); } TEST(SparseSet, Data) { entt::sparse_set set; set.emplace(entt::entity{3}); set.emplace(entt::entity{12}); set.emplace(entt::entity{42}); ASSERT_EQ(set.index(entt::entity{3}), 0u); ASSERT_EQ(set.index(entt::entity{12}), 1u); ASSERT_EQ(set.index(entt::entity{42}), 2u); ASSERT_EQ(set.data()[0u], entt::entity{3}); ASSERT_EQ(set.data()[1u], entt::entity{12}); ASSERT_EQ(set.data()[2u], entt::entity{42}); } TEST(SparseSet, SortOrdered) { entt::sparse_set set; entt::entity entities[5u]{entt::entity{42}, entt::entity{12}, entt::entity{9}, entt::entity{7}, entt::entity{3}}; set.insert(std::begin(entities), std::end(entities)); set.sort(std::less{}); ASSERT_TRUE(std::equal(std::rbegin(entities), std::rend(entities), set.begin(), set.end())); } TEST(SparseSet, SortReverse) { entt::sparse_set set; entt::entity entities[5u]{entt::entity{3}, entt::entity{7}, entt::entity{9}, entt::entity{12}, entt::entity{42}}; set.insert(std::begin(entities), std::end(entities)); set.sort(std::less{}); ASSERT_TRUE(std::equal(std::begin(entities), std::end(entities), set.begin(), set.end())); } TEST(SparseSet, SortUnordered) { entt::sparse_set set; entt::entity entities[5u]{entt::entity{9}, entt::entity{7}, entt::entity{3}, entt::entity{12}, entt::entity{42}}; set.insert(std::begin(entities), std::end(entities)); set.sort(std::less{}); auto begin = set.begin(); auto end = set.end(); ASSERT_EQ(*(begin++), entities[2u]); ASSERT_EQ(*(begin++), entities[1u]); ASSERT_EQ(*(begin++), entities[0u]); ASSERT_EQ(*(begin++), entities[3u]); ASSERT_EQ(*(begin++), entities[4u]); ASSERT_EQ(begin, end); } TEST(SparseSet, SortRange) { entt::sparse_set set{entt::deletion_policy::in_place}; entt::entity entities[5u]{entt::entity{7}, entt::entity{9}, entt::entity{3}, entt::entity{12}, entt::entity{42}}; set.insert(std::begin(entities), std::end(entities)); set.erase(entities[0u]); ASSERT_EQ(set.size(), 5u); set.sort(std::less{}); ASSERT_EQ(set.size(), 4u); ASSERT_EQ(set[0u], entities[4u]); ASSERT_EQ(set[1u], entities[3u]); ASSERT_EQ(set[2u], entities[1u]); ASSERT_EQ(set[3u], entities[2u]); set.clear(); set.compact(); set.insert(std::begin(entities), std::end(entities)); set.sort_n(0u, std::less{}); ASSERT_TRUE(std::equal(std::rbegin(entities), std::rend(entities), set.begin(), set.end())); set.sort_n(2u, std::less{}); ASSERT_EQ(set.data()[0u], entities[1u]); ASSERT_EQ(set.data()[1u], entities[0u]); ASSERT_EQ(set.data()[2u], entities[2u]); set.sort_n(5u, std::less{}); auto begin = set.begin(); auto end = set.end(); ASSERT_EQ(*(begin++), entities[2u]); ASSERT_EQ(*(begin++), entities[0u]); ASSERT_EQ(*(begin++), entities[1u]); ASSERT_EQ(*(begin++), entities[3u]); ASSERT_EQ(*(begin++), entities[4u]); ASSERT_EQ(begin, end); } ENTT_DEBUG_TEST(SparseSetDeathTest, SortRange) { entt::sparse_set set{entt::deletion_policy::in_place}; entt::entity entity{42}; set.emplace(entity); set.erase(entity); ASSERT_DEATH(set.sort_n(0u, std::less{});, ""); ASSERT_DEATH(set.sort_n(3u, std::less{});, ""); } TEST(SparseSet, RespectDisjoint) { entt::sparse_set lhs; entt::sparse_set rhs; entt::entity lhs_entities[3u]{entt::entity{3}, entt::entity{12}, entt::entity{42}}; lhs.insert(std::begin(lhs_entities), std::end(lhs_entities)); ASSERT_TRUE(std::equal(std::rbegin(lhs_entities), std::rend(lhs_entities), lhs.begin(), lhs.end())); lhs.respect(rhs); ASSERT_TRUE(std::equal(std::rbegin(lhs_entities), std::rend(lhs_entities), lhs.begin(), lhs.end())); } TEST(SparseSet, RespectOverlap) { entt::sparse_set lhs; entt::sparse_set rhs; entt::entity lhs_entities[3u]{entt::entity{3}, entt::entity{12}, entt::entity{42}}; lhs.insert(std::begin(lhs_entities), std::end(lhs_entities)); entt::entity rhs_entities[1u]{entt::entity{12}}; rhs.insert(std::begin(rhs_entities), std::end(rhs_entities)); ASSERT_TRUE(std::equal(std::rbegin(lhs_entities), std::rend(lhs_entities), lhs.begin(), lhs.end())); ASSERT_TRUE(std::equal(std::rbegin(rhs_entities), std::rend(rhs_entities), rhs.begin(), rhs.end())); lhs.respect(rhs); auto begin = lhs.begin(); auto end = lhs.end(); ASSERT_EQ(*(begin++), lhs_entities[1u]); ASSERT_EQ(*(begin++), lhs_entities[2u]); ASSERT_EQ(*(begin++), lhs_entities[0u]); ASSERT_EQ(begin, end); } TEST(SparseSet, RespectOrdered) { entt::sparse_set lhs; entt::sparse_set rhs; entt::entity lhs_entities[5u]{entt::entity{1}, entt::entity{2}, entt::entity{3}, entt::entity{4}, entt::entity{5}}; lhs.insert(std::begin(lhs_entities), std::end(lhs_entities)); entt::entity rhs_entities[6u]{entt::entity{6}, entt::entity{1}, entt::entity{2}, entt::entity{3}, entt::entity{4}, entt::entity{5}}; rhs.insert(std::begin(rhs_entities), std::end(rhs_entities)); ASSERT_TRUE(std::equal(std::rbegin(lhs_entities), std::rend(lhs_entities), lhs.begin(), lhs.end())); ASSERT_TRUE(std::equal(std::rbegin(rhs_entities), std::rend(rhs_entities), rhs.begin(), rhs.end())); rhs.respect(lhs); ASSERT_TRUE(std::equal(std::rbegin(rhs_entities), std::rend(rhs_entities), rhs.begin(), rhs.end())); } TEST(SparseSet, RespectReverse) { entt::sparse_set lhs; entt::sparse_set rhs; entt::entity lhs_entities[5u]{entt::entity{1}, entt::entity{2}, entt::entity{3}, entt::entity{4}, entt::entity{5}}; lhs.insert(std::begin(lhs_entities), std::end(lhs_entities)); entt::entity rhs_entities[6u]{entt::entity{5}, entt::entity{4}, entt::entity{3}, entt::entity{2}, entt::entity{1}, entt::entity{6}}; rhs.insert(std::begin(rhs_entities), std::end(rhs_entities)); ASSERT_TRUE(std::equal(std::rbegin(lhs_entities), std::rend(lhs_entities), lhs.begin(), lhs.end())); ASSERT_TRUE(std::equal(std::rbegin(rhs_entities), std::rend(rhs_entities), rhs.begin(), rhs.end())); rhs.respect(lhs); auto begin = rhs.begin(); auto end = rhs.end(); ASSERT_EQ(*(begin++), rhs_entities[0u]); ASSERT_EQ(*(begin++), rhs_entities[1u]); ASSERT_EQ(*(begin++), rhs_entities[2u]); ASSERT_EQ(*(begin++), rhs_entities[3u]); ASSERT_EQ(*(begin++), rhs_entities[4u]); ASSERT_EQ(*(begin++), rhs_entities[5u]); ASSERT_EQ(begin, end); } TEST(SparseSet, RespectUnordered) { entt::sparse_set lhs; entt::sparse_set rhs; entt::entity lhs_entities[5u]{entt::entity{1}, entt::entity{2}, entt::entity{3}, entt::entity{4}, entt::entity{5}}; lhs.insert(std::begin(lhs_entities), std::end(lhs_entities)); entt::entity rhs_entities[6u]{entt::entity{3}, entt::entity{2}, entt::entity{6}, entt::entity{1}, entt::entity{4}, entt::entity{5}}; rhs.insert(std::begin(rhs_entities), std::end(rhs_entities)); ASSERT_TRUE(std::equal(std::rbegin(lhs_entities), std::rend(lhs_entities), lhs.begin(), lhs.end())); ASSERT_TRUE(std::equal(std::rbegin(rhs_entities), std::rend(rhs_entities), rhs.begin(), rhs.end())); rhs.respect(lhs); auto begin = rhs.begin(); auto end = rhs.end(); ASSERT_EQ(*(begin++), rhs_entities[5u]); ASSERT_EQ(*(begin++), rhs_entities[4u]); ASSERT_EQ(*(begin++), rhs_entities[0u]); ASSERT_EQ(*(begin++), rhs_entities[1u]); ASSERT_EQ(*(begin++), rhs_entities[3u]); ASSERT_EQ(*(begin++), rhs_entities[2u]); ASSERT_EQ(begin, end); } TEST(SparseSet, RespectInvalid) { using traits_type = entt::entt_traits; entt::sparse_set lhs; entt::sparse_set rhs; entt::entity lhs_entities[3u]{entt::entity{1}, entt::entity{2}, traits_type::construct(3, 1)}; lhs.insert(std::begin(lhs_entities), std::end(lhs_entities)); entt::entity rhs_entities[3u]{entt::entity{2}, entt::entity{1}, traits_type::construct(3, 2)}; rhs.insert(std::begin(rhs_entities), std::end(rhs_entities)); ASSERT_TRUE(std::equal(std::rbegin(lhs_entities), std::rend(lhs_entities), lhs.begin(), lhs.end())); ASSERT_TRUE(std::equal(std::rbegin(rhs_entities), std::rend(rhs_entities), rhs.begin(), rhs.end())); rhs.respect(lhs); auto begin = rhs.begin(); auto end = rhs.end(); ASSERT_EQ(*(begin++), rhs_entities[0u]); ASSERT_EQ(*(begin++), rhs_entities[1u]); ASSERT_EQ(*(begin++), rhs_entities[2u]); ASSERT_EQ(rhs.current(rhs_entities[0u]), 0u); ASSERT_EQ(rhs.current(rhs_entities[1u]), 0u); ASSERT_EQ(rhs.current(rhs_entities[2u]), 2u); ASSERT_EQ(begin, end); } TEST(SparseSet, CanModifyDuringIteration) { entt::sparse_set set; set.emplace(entt::entity{0}); ASSERT_EQ(set.capacity(), 1u); const auto it = set.begin(); set.reserve(2u); ASSERT_EQ(set.capacity(), 2u); // this should crash with asan enabled if we break the constraint [[maybe_unused]] const auto entity = *it; } TEST(SparseSet, CustomAllocator) { test::throwing_allocator allocator{}; entt::basic_sparse_set> set{allocator}; ASSERT_EQ(set.get_allocator(), allocator); set.reserve(1u); ASSERT_EQ(set.capacity(), 1u); set.emplace(entt::entity{0}); set.emplace(entt::entity{1}); entt::basic_sparse_set> other{std::move(set), allocator}; ASSERT_TRUE(set.empty()); ASSERT_FALSE(other.empty()); ASSERT_EQ(set.capacity(), 0u); ASSERT_EQ(other.capacity(), 2u); ASSERT_EQ(other.size(), 2u); set = std::move(other); ASSERT_FALSE(set.empty()); ASSERT_TRUE(other.empty()); ASSERT_EQ(other.capacity(), 0u); ASSERT_EQ(set.capacity(), 2u); ASSERT_EQ(set.size(), 2u); set.swap(other); set = std::move(other); ASSERT_FALSE(set.empty()); ASSERT_TRUE(other.empty()); ASSERT_EQ(other.capacity(), 0u); ASSERT_EQ(set.capacity(), 2u); ASSERT_EQ(set.size(), 2u); set.clear(); ASSERT_EQ(set.capacity(), 2u); ASSERT_EQ(set.size(), 0u); set.shrink_to_fit(); ASSERT_EQ(set.capacity(), 0u); } TEST(SparseSet, ThrowingAllocator) { using traits_type = entt::entt_traits; entt::basic_sparse_set> set{}; test::throwing_allocator::trigger_on_allocate = true; ASSERT_THROW(set.reserve(1u), test::throwing_allocator::exception_type); ASSERT_EQ(set.capacity(), 0u); ASSERT_EQ(set.extent(), 0u); test::throwing_allocator::trigger_on_allocate = true; ASSERT_THROW(set.emplace(entt::entity{0}), test::throwing_allocator::exception_type); ASSERT_EQ(set.extent(), traits_type::page_size); ASSERT_EQ(set.capacity(), 0u); set.emplace(entt::entity{0}); test::throwing_allocator::trigger_on_allocate = true; ASSERT_THROW(set.reserve(2u), test::throwing_allocator::exception_type); ASSERT_EQ(set.extent(), traits_type::page_size); ASSERT_TRUE(set.contains(entt::entity{0})); ASSERT_EQ(set.capacity(), 1u); test::throwing_allocator::trigger_on_allocate = true; ASSERT_THROW(set.emplace(entt::entity{1}), test::throwing_allocator::exception_type); ASSERT_EQ(set.extent(), traits_type::page_size); ASSERT_TRUE(set.contains(entt::entity{0})); ASSERT_FALSE(set.contains(entt::entity{1})); ASSERT_EQ(set.capacity(), 1u); entt::entity entities[2u]{entt::entity{1}, entt::entity{traits_type::page_size}}; test::throwing_allocator::trigger_after_allocate = true; ASSERT_THROW(set.insert(std::begin(entities), std::end(entities)), test::throwing_allocator::exception_type); ASSERT_EQ(set.extent(), 2 * traits_type::page_size); ASSERT_TRUE(set.contains(entt::entity{0})); ASSERT_TRUE(set.contains(entt::entity{1})); ASSERT_FALSE(set.contains(entt::entity{traits_type::page_size})); ASSERT_EQ(set.capacity(), 2u); ASSERT_EQ(set.size(), 2u); set.emplace(entities[1u]); ASSERT_TRUE(set.contains(entt::entity{traits_type::page_size})); }