/* * Copyright (c) 2021, Jan de Visser * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include constexpr static int keys[] = { 39, 87, 77, 42, 98, 40, 53, 8, 37, 12, 90, 72, 73, 11, 88, 22, 10, 82, 25, 61, 97, 18, 60, 68, 21, 3, 58, 29, 13, 17, 89, 81, 16, 64, 5, 41, 36, 91, 38, 24, 32, 50, 34, 94, 49, 47, 1, 6, 44, 76, }; constexpr static u32 pointers[] = { 92, 4, 50, 47, 68, 73, 24, 28, 50, 93, 60, 36, 92, 72, 53, 26, 91, 84, 25, 43, 88, 12, 62, 35, 96, 27, 96, 27, 99, 30, 21, 89, 54, 60, 37, 68, 35, 55, 80, 2, 33, 26, 93, 70, 45, 44, 3, 66, 75, 4, }; NonnullRefPtr setup_btree(SQL::Serializer&); void insert_and_get_to_and_from_btree(int); void insert_into_and_scan_btree(int); NonnullRefPtr setup_btree(SQL::Serializer& serializer) { NonnullRefPtr tuple_descriptor = adopt_ref(*new SQL::TupleDescriptor); tuple_descriptor->append({ "schema", "table", "key_value", SQL::SQLType::Integer, SQL::Order::Ascending }); auto root_pointer = serializer.heap().user_value(0); if (!root_pointer) { root_pointer = serializer.heap().new_record_pointer(); serializer.heap().set_user_value(0, root_pointer); } auto btree = SQL::BTree::construct(serializer, tuple_descriptor, true, root_pointer); btree->on_new_root = [&]() { serializer.heap().set_user_value(0, btree->root()); }; return btree; } void insert_and_get_to_and_from_btree(int num_keys) { ScopeGuard guard([]() { unlink("/tmp/test.db"); }); { auto heap = SQL::Heap::construct("/tmp/test.db"); SQL::Serializer serializer(heap); auto btree = setup_btree(serializer); for (auto ix = 0; ix < num_keys; ix++) { SQL::Key k(btree->descriptor()); k[0] = keys[ix]; k.set_pointer(pointers[ix]); btree->insert(k); } #ifdef LIST_TREE btree->list_tree(); #endif } { auto heap = SQL::Heap::construct("/tmp/test.db"); SQL::Serializer serializer(heap); auto btree = setup_btree(serializer); for (auto ix = 0; ix < num_keys; ix++) { SQL::Key k(btree->descriptor()); k[0] = keys[ix]; auto pointer_opt = btree->get(k); VERIFY(pointer_opt.has_value()); EXPECT_EQ(pointer_opt.value(), pointers[ix]); } } } void insert_into_and_scan_btree(int num_keys) { ScopeGuard guard([]() { unlink("/tmp/test.db"); }); { auto heap = SQL::Heap::construct("/tmp/test.db"); SQL::Serializer serializer(heap); auto btree = setup_btree(serializer); for (auto ix = 0; ix < num_keys; ix++) { SQL::Key k(btree->descriptor()); k[0] = keys[ix]; k.set_pointer(pointers[ix]); btree->insert(k); } #ifdef LIST_TREE btree->list_tree(); #endif } { auto heap = SQL::Heap::construct("/tmp/test.db"); SQL::Serializer serializer(heap); auto btree = setup_btree(serializer); int count = 0; SQL::Tuple prev; for (auto iter = btree->begin(); !iter.is_end(); iter++, count++) { auto key = (*iter); if (prev.size()) { EXPECT(prev < key); } auto key_value = (int)key[0]; for (auto ix = 0; ix < num_keys; ix++) { if (keys[ix] == key_value) { EXPECT_EQ(key.pointer(), pointers[ix]); break; } } prev = key; } EXPECT_EQ(count, num_keys); } } TEST_CASE(btree_one_key) { insert_and_get_to_and_from_btree(1); } TEST_CASE(btree_four_keys) { insert_and_get_to_and_from_btree(4); } TEST_CASE(btree_five_keys) { insert_and_get_to_and_from_btree(5); } TEST_CASE(btree_10_keys) { insert_and_get_to_and_from_btree(10); } TEST_CASE(btree_13_keys) { insert_and_get_to_and_from_btree(13); } TEST_CASE(btree_20_keys) { insert_and_get_to_and_from_btree(20); } TEST_CASE(btree_25_keys) { insert_and_get_to_and_from_btree(25); } TEST_CASE(btree_30_keys) { insert_and_get_to_and_from_btree(30); } TEST_CASE(btree_35_keys) { insert_and_get_to_and_from_btree(35); } TEST_CASE(btree_40_keys) { insert_and_get_to_and_from_btree(40); } TEST_CASE(btree_45_keys) { insert_and_get_to_and_from_btree(45); } TEST_CASE(btree_50_keys) { insert_and_get_to_and_from_btree(50); } TEST_CASE(btree_scan_one_key) { insert_into_and_scan_btree(1); } TEST_CASE(btree_scan_four_keys) { insert_into_and_scan_btree(4); } TEST_CASE(btree_scan_five_keys) { insert_into_and_scan_btree(5); } TEST_CASE(btree_scan_10_keys) { insert_into_and_scan_btree(10); } TEST_CASE(btree_scan_15_keys) { insert_into_and_scan_btree(15); } TEST_CASE(btree_scan_30_keys) { insert_into_and_scan_btree(15); } TEST_CASE(btree_scan_50_keys) { insert_into_and_scan_btree(50); }