TEST(TestMemTable, set) { MemTable mt; PageArena<char> allocer; ObUpsMutator ups_mutator; ObMutator &mutator = ups_mutator.get_mutator(); ObMutator result; read_cell_infos("test_cases/test_mt_set.ci.ini", "MT_SET_CI", allocer, mutator, result); ObScanParam scan_param; read_scan_param("test_cases/test_mt_set.scan.ini", "MT_SET_SCAN", allocer, scan_param); MemTableTransDescriptor td; mt.start_transaction(WRITE_TRANSACTION, td); mt.start_mutation(td); EXPECT_NE(OB_SUCCESS, mt.set(td, ups_mutator, false)); mt.init(); mt.start_transaction(WRITE_TRANSACTION, td); mt.start_mutation(td); EXPECT_EQ(OB_SUCCESS, mt.set(td, ups_mutator, false)); mt.end_mutation(td, false); mt.end_transaction(td, false); MemTableIterator iter; mt.start_transaction(READ_TRANSACTION, td); mt.scan(td, *(scan_param.get_range()), false, iter); ObRowCompaction rc; rc.set_iterator(&iter); while (OB_SUCCESS == result.next_cell()) { ObMutatorCellInfo *ci_orig = NULL; ObCellInfo *ci_scan = NULL; EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); if (ObModifyTimeType == ci_scan->value_.get_type()) { EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); } if (ObCreateTimeType == ci_scan->value_.get_type()) { EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); } result.get_cell(&ci_orig); EXPECT_EQ(true, equal(ci_orig->cell_info, *ci_scan)); } mt.end_transaction(td, false); mt.destroy(); }
TEST(TestMemTable, min_max_key_2row) { MemTable mt; PageArena<char> allocer; ObUpsMutator ups_mutator; ObMutator &mutator = ups_mutator.get_mutator(); ObMutator result; read_cell_infos("test_cases/test_mt_sorted_2row_scan.ci.ini", "MT_SORTED_2ROW_SCAN_CI", allocer, mutator, result); ups_mutator.set_mutate_timestamp(tbsys::CTimeUtil::getTime()); mt.init(); MemTableTransDescriptor td; mt.start_transaction(WRITE_TRANSACTION, td); mt.start_mutation(td); EXPECT_EQ(OB_SUCCESS, mt.set(td, ups_mutator, false)); mt.end_mutation(td, false); mt.end_transaction(td, false); // (MIN_KEY, MAX_KEY) test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan1.ini", "MT_SORTED_2ROW_SCAN_SCAN1", "test_cases/test_mt_sorted_2row_scan.ret2.ini", "MT_SORTED_2ROW_SCAN_RET2"); // (MIN_KEY, MAX_KEY] test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan2.ini", "MT_SORTED_2ROW_SCAN_SCAN2", "test_cases/test_mt_sorted_2row_scan.ret2.ini", "MT_SORTED_2ROW_SCAN_RET2"); // [MIN_KEY, MAX_KEY) test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan3.ini", "MT_SORTED_2ROW_SCAN_SCAN3", "test_cases/test_mt_sorted_2row_scan.ret2.ini", "MT_SORTED_2ROW_SCAN_RET2"); // [MIN_KEY, MAX_KEY] test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan4.ini", "MT_SORTED_2ROW_SCAN_SCAN4", "test_cases/test_mt_sorted_2row_scan.ret2.ini", "MT_SORTED_2ROW_SCAN_RET2"); // (MIN_KEY, rowkey) test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan5.ini", "MT_SORTED_2ROW_SCAN_SCAN5", "test_cases/test_mt_sorted_2row_scan.ret1_1.ini", "MT_SORTED_2ROW_SCAN_RET1_1"); // (MIN_KEY, rowkey] test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan6.ini", "MT_SORTED_2ROW_SCAN_SCAN6", "test_cases/test_mt_sorted_2row_scan.ret2.ini", "MT_SORTED_2ROW_SCAN_RET2"); // [MIN_KEY, rowkey) test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan7.ini", "MT_SORTED_2ROW_SCAN_SCAN7", "test_cases/test_mt_sorted_2row_scan.ret1_1.ini", "MT_SORTED_2ROW_SCAN_RET1_1"); // [MIN_KEY, rowkwy] test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan8.ini", "MT_SORTED_2ROW_SCAN_SCAN8", "test_cases/test_mt_sorted_2row_scan.ret2.ini", "MT_SORTED_2ROW_SCAN_RET2"); // (rowkey, MAX_KEY) test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan9.ini", "MT_SORTED_2ROW_SCAN_SCAN9", "test_cases/test_mt_sorted_2row_scan.ret1_2.ini", "MT_SORTED_2ROW_SCAN_RET1_2"); // (rowkey, MAX_KEY] test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan10.ini", "MT_SORTED_2ROW_SCAN_SCAN10", "test_cases/test_mt_sorted_2row_scan.ret1_2.ini", "MT_SORTED_2ROW_SCAN_RET1_2"); // [rowkey, MAX_KEY) test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan11.ini", "MT_SORTED_2ROW_SCAN_SCAN11", "test_cases/test_mt_sorted_2row_scan.ret2.ini", "MT_SORTED_2ROW_SCAN_RET2"); // [rowkey, MAX_KEY] test_normal_scan(mt, "test_cases/test_mt_sorted_2row_scan.scan12.ini", "MT_SORTED_2ROW_SCAN_SCAN12", "test_cases/test_mt_sorted_2row_scan.ret2.ini", "MT_SORTED_2ROW_SCAN_RET2"); mt.destroy(); }
TEST(TestMemTable, scan) { MemTable mt; PageArena<char> allocer; ObUpsMutator ups_mutator; ObMutator &mutator = ups_mutator.get_mutator(); ObMutator result; read_cell_infos("test_cases/test_mt_scan.ci.ini", "MT_SCAN_CI", allocer, mutator, result); mt.init(); MemTableTransDescriptor td; mt.start_transaction(WRITE_TRANSACTION, td); mt.start_mutation(td); EXPECT_EQ(OB_SUCCESS, mt.set(td, ups_mutator, false)); mt.end_mutation(td, false); mt.end_transaction(td, false); // 有效数据范围前后闭区间 test_normal_scan(mt, "test_cases/test_mt_scan.scan1.ini", "MT_SCAN_SCAN1", "test_cases/test_mt_scan.ret1.ini", "MT_SCAN_RET1"); // 有效数据范围内闭区间 test_normal_scan(mt, "test_cases/test_mt_scan.scan1_1.ini", "MT_SCAN_SCAN1_1", "test_cases/test_mt_scan.ret1_1.ini", "MT_SCAN_RET1_1"); // 有效数据范围内开区间 test_normal_scan(mt, "test_cases/test_mt_scan.scan1_2.ini", "MT_SCAN_SCAN1_2", "test_cases/test_mt_scan.ret1_2.ini", "MT_SCAN_RET1_2"); // 单一key闭区间 test_normal_scan(mt, "test_cases/test_mt_scan.scan1_3.ini", "MT_SCAN_SCAN1_3", "test_cases/test_mt_scan.ret1_3.ini", "MT_SCAN_RET1_3"); // 查询end=数据start 查询start在有效数据范围外 test_normal_scan(mt, "test_cases/test_mt_scan.scan1_4.ini", "MT_SCAN_SCAN1_4", "test_cases/test_mt_scan.ret1_4.ini", "MT_SCAN_RET1_4"); // 查询start=数据end 查询end在有效数据范围外 test_normal_scan(mt, "test_cases/test_mt_scan.scan1_5.ini", "MT_SCAN_SCAN1_5", "test_cases/test_mt_scan.ret1_5.ini", "MT_SCAN_RET1_5"); // 有效数据范围前后开区间 test_normal_scan(mt, "test_cases/test_mt_scan.scan1_6.ini", "MT_SCAN_SCAN1_6", "test_cases/test_mt_scan.ret1.ini", "MT_SCAN_RET1"); // tableid不同 test_normal_scan(mt, "test_cases/test_mt_scan.scan2.ini", "MT_SCAN_SCAN2", "test_cases/test_mt_scan.ret2.ini", "MT_SCAN_RET2"); // key prefix不同 test_normal_scan(mt, "test_cases/test_mt_scan.scan3.ini", "MT_SCAN_SCAN3", "test_cases/test_mt_scan.ret3.ini", "MT_SCAN_RET3"); // 区间合法 但是开区间中没有数据 test_abnormal_scan_empty(mt, "test_cases/test_mt_scan.scan1_ab1.ini", "MT_SCAN_SCAN1_AB1"); // 没有这个区间 test_abnormal_scan_empty(mt, "test_cases/test_mt_scan.scan1_ab2.ini", "MT_SCAN_SCAN1_AB2"); // 查找区间在有效区间前面 test_abnormal_scan_empty(mt, "test_cases/test_mt_scan.scan1_ab6.ini", "MT_SCAN_SCAN1_AB6"); // 查找区间在有效区间后面 test_abnormal_scan_empty(mt, "test_cases/test_mt_scan.scan1_ab7.ini", "MT_SCAN_SCAN1_AB7"); mt.destroy(); }
int test_main(int argc, char **argv) { UNUSED(argc); UNUSED(argv); ObUpdateServerMain *main = ObUpdateServerMain::get_instance(); ObUpsTableMgr &tm = main->get_update_server().get_table_mgr(); CommonSchemaManagerWrapper schema_mgr; tbsys::CConfig config; schema_mgr.parse_from_file("test_schema.ini", config); tm.set_schemas(schema_mgr); MemTable memtable; MemTableRowIterator row_iter; ObUpsMutator mutator; ObMutatorCellInfo cellinfo; uint64_t trans_descriptor = 0; int ret = memtable.init(); assert(OB_SUCCESS == ret); cellinfo.op_type.set_ext(ObActionFlag::OP_INSERT); cellinfo.cell_info.table_id_ = 1001; cellinfo.cell_info.row_key_ = make_rowkey("rk0001_00000000000", &allocator_); cellinfo.cell_info.column_id_ = 5; cellinfo.cell_info.value_.set_int(1023); ret = mutator.get_mutator().add_cell(cellinfo); assert(OB_SUCCESS == ret); cellinfo.cell_info.value_.set_int(1, true); ret = mutator.get_mutator().add_cell(cellinfo); assert(OB_SUCCESS == ret); cellinfo.cell_info.table_id_ = 1002; cellinfo.cell_info.value_.set_int(1024); ret = mutator.get_mutator().add_cell(cellinfo); assert(OB_SUCCESS == ret); prepare_mutator(mutator.get_mutator()); ret = memtable.start_transaction(WRITE_TRANSACTION, trans_descriptor); assert(OB_SUCCESS == ret); ret = memtable.start_mutation(trans_descriptor); assert(OB_SUCCESS == ret); ret = memtable.set(trans_descriptor, mutator); assert(OB_SUCCESS == ret); ret = memtable.end_mutation(trans_descriptor, false); assert(OB_SUCCESS == ret); ret = memtable.end_transaction(trans_descriptor, false); assert(OB_SUCCESS == ret); ret = row_iter.init(&memtable); assert(OB_SUCCESS == ret); uint64_t check_id = 1001; sstable::ObSSTableRow sstable_row; ObRowkey rowkey(NULL, 1); while (OB_SUCCESS == row_iter.next_row()) { ret = row_iter.get_row(sstable_row); assert(OB_SUCCESS == ret); assert(check_id++ == sstable_row.get_table_id()); sstable_row.get_rowkey(rowkey); assert(cellinfo.cell_info.row_key_ == rowkey); for (int32_t i = 0; i < sstable_row.get_obj_count();) { int64_t intv = 0; sstable_row.get_obj(i++)->get_int(intv); fprintf(stderr, "table_id=%lu column_id=%lu ", sstable_row.get_table_id(), intv); fprintf(stderr, "value=[%s]\n", common::print_obj(*sstable_row.get_obj(i++))); } } row_iter.reset_iter(); check_id = 1001; while (OB_SUCCESS == row_iter.next_row()) { ret = row_iter.get_row(sstable_row); assert(OB_SUCCESS == ret); assert(check_id++ == sstable_row.get_table_id()); sstable_row.get_rowkey(rowkey); assert(cellinfo.cell_info.row_key_ == rowkey); for (int32_t i = 0; i < sstable_row.get_obj_count();) { int64_t intv = 0; sstable_row.get_obj(i++)->get_int(intv); fprintf(stderr, "table_id=%lu column_id=%lu ", sstable_row.get_table_id(), intv); fprintf(stderr, "value=[%s]\n", common::print_obj(*sstable_row.get_obj(i++))); } } return 0; }
TEST(TestMemTable, trans_set) { MemTable mt; mt.init(); PageArena<char> allocer; ObUpsMutator ups_mutator; //ObMutator &mutator = ups_mutator.get_mutator(); ObMutator result; ObScanParam scan_param; read_scan_param("test_cases/test_mt_set.scan.ini", "MT_SET_SCAN", allocer, scan_param); MemTableTransDescriptor td; EXPECT_EQ(OB_SUCCESS, mt.start_transaction(WRITE_TRANSACTION, td)); EXPECT_NE(OB_SUCCESS, mt.start_transaction(WRITE_TRANSACTION, td)); _US_ // case begin // 对于hash engine,测试在已经有rowkey A 的情况下,开一个事务按A B A的顺序写入,在结束事务的时候是否正常 // 避免出现结束事务时引用的rowkey是mutator临时申请的 ObUpsMutator ups_mutator; ObMutator &mutator = ups_mutator.get_mutator(); ObMutator result; read_cell_infos("test_cases/test_mt_set_unsorted.ci.ini", "MT_SET_UNSORTED_CI", allocer, mutator, result); EXPECT_EQ(OB_SUCCESS, mt.start_mutation(td)); EXPECT_EQ(OB_SUCCESS, mt.set(td, ups_mutator)); EXPECT_EQ(OB_SUCCESS, mt.end_mutation(td, false)); EXPECT_EQ(OB_SUCCESS, mt.end_transaction(td, false)); EXPECT_EQ(OB_SUCCESS, mt.start_transaction(WRITE_TRANSACTION, td)); EXPECT_EQ(OB_SUCCESS, mt.start_mutation(td)); EXPECT_EQ(OB_SUCCESS, mt.set(td, ups_mutator)); // 此处模拟mutator被析构或重置 while (OB_SUCCESS == mutator.next_cell()) { ObMutatorCellInfo *mutator_ci = NULL; if (OB_SUCCESS == mutator.get_cell(&mutator_ci)) { ObString rk = mutator_ci->cell_info.row_key_; memset(rk.ptr(), 0, rk.length()); } } mutator.reset_iter(); EXPECT_EQ(OB_SUCCESS, mt.end_mutation(td, false)); EXPECT_EQ(OB_SUCCESS, mt.end_transaction(td, false)); mutator.reset(); result.reset(); read_cell_infos("test_cases/test_mt_ret_unsorted.ci.ini", "MT_RET_UNSORTED_CI", allocer, mutator, result); MemTableIterator iter; EXPECT_EQ(OB_SUCCESS, mt.start_transaction(READ_TRANSACTION, td)); EXPECT_EQ(OB_SUCCESS, mt.scan(td, *(scan_param.get_range()), false, iter)); ObRowCompaction rc; rc.set_iterator(&iter); while (OB_SUCCESS == result.next_cell()) { ObMutatorCellInfo *ci_orig = NULL; ObCellInfo *ci_scan = NULL; EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); if (ObModifyTimeType == ci_scan->value_.get_type()) { EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); } if (ObCreateTimeType == ci_scan->value_.get_type()) { EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); } result.get_cell(&ci_orig); EXPECT_EQ(true, equal(ci_orig->cell_info, *ci_scan)); } EXPECT_EQ(OB_SUCCESS, mt.end_transaction(td, false)); mt.clear(); _UE_ // case end EXPECT_EQ(OB_SUCCESS, mt.start_transaction(WRITE_TRANSACTION, td)); EXPECT_EQ(OB_SUCCESS, mt.start_mutation(td)); EXPECT_EQ(OB_SUCCESS, mt.set(td, ups_mutator)); // 事务没有提交,scan结果应该为空 _US_ MemTableTransDescriptor td; MemTableIterator iter; EXPECT_EQ(OB_SUCCESS, mt.start_transaction(READ_TRANSACTION, td)); _US_ MemTableTransDescriptor td; EXPECT_EQ(OB_SUCCESS, mt.start_transaction(READ_TRANSACTION, td)); EXPECT_EQ(OB_SUCCESS, mt.end_transaction(td, false)); _UE_ EXPECT_EQ(OB_SUCCESS, mt.scan(td, *(scan_param.get_range()), false, iter)); EXPECT_EQ(OB_SUCCESS, mt.end_transaction(td, false)); EXPECT_EQ(OB_ITER_END, iter.next_cell()); _UE_ EXPECT_EQ(OB_SUCCESS, mt.end_mutation(td, false)); EXPECT_EQ(OB_SUCCESS, mt.end_transaction(td, false)); ObUpsMutator ups_mutator2; ObMutator &mutator2 = ups_mutator2.get_mutator(); ObMutator result2; read_cell_infos("test_cases/test_mt_trans_set.ci.ini", "MT_TRANS_SET_CI", allocer, mutator2, result2); ups_mutator2.set_mutate_timestamp(tbsys::CTimeUtil::getTime()); EXPECT_EQ(OB_ERROR, mt.set(td, ups_mutator2)); EXPECT_EQ(OB_SUCCESS, mt.start_transaction(WRITE_TRANSACTION, td)); EXPECT_EQ(OB_SUCCESS, mt.start_mutation(td)); EXPECT_EQ(OB_SUCCESS, mt.set(td, ups_mutator2)); // 只能scan到第一个事务的结果 _US_ MemTableTransDescriptor td; MemTableIterator iter; EXPECT_EQ(OB_SUCCESS, mt.start_transaction(READ_TRANSACTION, td)); EXPECT_EQ(OB_SUCCESS, mt.scan(td, *(scan_param.get_range()), false, iter)); ObRowCompaction rc; rc.set_iterator(&iter); result.reset_iter(); while (OB_SUCCESS == result.next_cell()) { ObMutatorCellInfo *ci_orig = NULL; ObCellInfo *ci_scan = NULL; EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); if (ObModifyTimeType == ci_scan->value_.get_type()) { EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); } if (ObCreateTimeType == ci_scan->value_.get_type()) { EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); } result.get_cell(&ci_orig); EXPECT_EQ(true, equal(ci_orig->cell_info, *ci_scan)); } EXPECT_EQ(OB_SUCCESS, mt.end_transaction(td)); _UE_ // 第二个事务提交后可以看到全部结果 EXPECT_EQ(OB_SUCCESS, mt.end_mutation(td, false)); EXPECT_EQ(OB_SUCCESS, mt.end_transaction(td, false)); _US_ MemTableTransDescriptor td; ObUpsMutator ups_mutator; ObMutator &mutator = ups_mutator.get_mutator(); ObMutator result; read_cell_infos("test_cases/test_mt_trans_set.ret.ini", "MT_TRANS_SET_RET", allocer, mutator, result); MemTableIterator iter; EXPECT_EQ(OB_SUCCESS, mt.start_transaction(READ_TRANSACTION, td)); EXPECT_EQ(OB_SUCCESS, mt.scan(td, *(scan_param.get_range()), false, iter)); ObRowCompaction rc; rc.set_iterator(&iter); while (OB_SUCCESS == result.next_cell()) { ObMutatorCellInfo *ci_orig = NULL; ObCellInfo *ci_scan = NULL; EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); if (ObModifyTimeType == ci_scan->value_.get_type()) { EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); } if (ObCreateTimeType == ci_scan->value_.get_type()) { EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); } result.get_cell(&ci_orig); EXPECT_EQ(true, equal(ci_orig->cell_info, *ci_scan)); } EXPECT_EQ(OB_SUCCESS, mt.end_transaction(td)); _UE_ // 第三个事务被会滚 看到的结果与第二个一样 ObUpsMutator ups_mutator3; ObUpsMutator ups_result3; ObMutator &mutator3 = ups_mutator3.get_mutator(); ObMutator &result3 = ups_result3.get_mutator(); read_cell_infos("test_cases/test_mt_trans_set.ci.ini", "MT_TRANS_SET_CI", allocer, mutator3, result3); EXPECT_EQ(OB_ERROR, mt.set(td, ups_mutator3)); EXPECT_EQ(OB_SUCCESS, mt.start_transaction(WRITE_TRANSACTION, td)); EXPECT_EQ(OB_SUCCESS, mt.start_mutation(td)); EXPECT_EQ(OB_SUCCESS, mt.set(td, ups_mutator3)); EXPECT_EQ(OB_SUCCESS, mt.end_mutation(td, true)); EXPECT_EQ(OB_SUCCESS, mt.end_transaction(td, true)); _US_ MemTableTransDescriptor td; ObUpsMutator ups_mutator; ObMutator &mutator = ups_mutator.get_mutator(); ObMutator result; read_cell_infos("test_cases/test_mt_trans_set.ret.ini", "MT_TRANS_SET_RET", allocer, mutator, result); MemTableIterator iter; EXPECT_EQ(OB_SUCCESS, mt.start_transaction(READ_TRANSACTION, td)); EXPECT_EQ(OB_SUCCESS, mt.scan(td, *(scan_param.get_range()), false, iter)); ObRowCompaction rc; rc.set_iterator(&iter); while (OB_SUCCESS == result.next_cell()) { ObMutatorCellInfo *ci_orig = NULL; ObCellInfo *ci_scan = NULL; EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); if (ObModifyTimeType == ci_scan->value_.get_type()) { EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); } if (ObCreateTimeType == ci_scan->value_.get_type()) { EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci_scan)); } result.get_cell(&ci_orig); EXPECT_EQ(true, equal(ci_orig->cell_info, *ci_scan)); } EXPECT_EQ(OB_SUCCESS, mt.end_transaction(td)); _UE_ mt.destroy(); }
TEST(TestMemTable, total_empty) { MemTable mt; PageArena<char> allocer; ObScanParam scan_param; ObUpsMutator ups_mutator; ObMutator &mutator = ups_mutator.get_mutator(); ObMutator result; MemTableTransDescriptor td; MemTableIterator iter; ObRowCompaction rc; ObCellInfo *ci = NULL; mt.init(); read_scan_param("test_cases/test_mt_empty_set.scan.ini", "MT_EMPTY_SET_SCAN", allocer, scan_param); mt.start_transaction(READ_TRANSACTION, td); EXPECT_EQ(OB_SUCCESS, mt.scan(td, *(scan_param.get_range()), false, iter)); rc.set_iterator(&iter); EXPECT_EQ(OB_ITER_END, rc.next_cell()); mt.end_transaction(td); iter.reset(); mt.start_transaction(READ_TRANSACTION, td); EXPECT_EQ(OB_SUCCESS, mt.get(td, 1000, ObString(17, 17, const_cast<char*>("pre_1001|suf_0000")), iter)); rc.set_iterator(&iter); EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci)); EXPECT_EQ(true, ObActionFlag::OP_ROW_DOES_NOT_EXIST == ci->value_.get_ext()); EXPECT_EQ(OB_ITER_END, rc.next_cell()); mt.end_transaction(td); //////////////////////////////////////////////////////////////////////////////////////////////////// mt.clear(); mutator.reset(); iter.reset(); read_cell_infos("test_cases/test_mt_empty1_set.ci.ini", "MT_EMPTY1_SET_CI", allocer, mutator, result); mt.start_transaction(WRITE_TRANSACTION, td); mt.start_mutation(td); EXPECT_EQ(OB_SUCCESS, mt.set(td, ups_mutator, false)); mt.end_mutation(td, false); mt.end_transaction(td, false); mt.start_transaction(READ_TRANSACTION, td); EXPECT_EQ(OB_SUCCESS, mt.scan(td, *(scan_param.get_range()), false, iter)); rc.set_iterator(&iter); EXPECT_EQ(OB_ITER_END, rc.next_cell()); mt.end_transaction(td); iter.reset(); mt.start_transaction(READ_TRANSACTION, td); EXPECT_EQ(OB_SUCCESS, mt.get(td, 1000, ObString(17, 17, const_cast<char*>("pre_1001|suf_0000")), iter)); rc.set_iterator(&iter); EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci)); EXPECT_EQ(true, ObActionFlag::OP_ROW_DOES_NOT_EXIST == ci->value_.get_ext()); EXPECT_EQ(OB_ITER_END, rc.next_cell()); mt.end_transaction(td); //////////////////////////////////////////////////////////////////////////////////////////////////// mt.clear(); mutator.reset(); iter.reset(); read_cell_infos("test_cases/test_mt_empty2_set.ci.ini", "MT_EMPTY2_SET_CI", allocer, mutator, result); mt.start_transaction(WRITE_TRANSACTION, td); mt.start_mutation(td); EXPECT_EQ(OB_SUCCESS, mt.set(td, ups_mutator, false)); mt.end_mutation(td, false); mt.end_transaction(td, false); mt.start_transaction(READ_TRANSACTION, td); EXPECT_EQ(OB_SUCCESS, mt.scan(td, *(scan_param.get_range()), false, iter)); rc.set_iterator(&iter); EXPECT_EQ(OB_ITER_END, rc.next_cell()); mt.end_transaction(td); iter.reset(); mt.start_transaction(READ_TRANSACTION, td); EXPECT_EQ(OB_SUCCESS, mt.get(td, 1000, ObString(17, 17, const_cast<char*>("pre_1001|suf_0000")), iter)); rc.set_iterator(&iter); EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci)); EXPECT_EQ(true, ObActionFlag::OP_ROW_DOES_NOT_EXIST == ci->value_.get_ext()); EXPECT_EQ(OB_ITER_END, rc.next_cell()); mt.end_transaction(td); //////////////////////////////////////////////////////////////////////////////////////////////////// mt.clear(); mutator.reset(); iter.reset(); read_cell_infos("test_cases/test_mt_empty3_set.ci.ini", "MT_EMPTY3_SET_CI", allocer, mutator, result); mt.start_transaction(WRITE_TRANSACTION, td); mt.start_mutation(td); EXPECT_EQ(OB_SUCCESS, mt.set(td, ups_mutator, false)); mt.end_mutation(td, false); mt.end_transaction(td, false); mt.start_transaction(READ_TRANSACTION, td); EXPECT_EQ(OB_SUCCESS, mt.scan(td, *(scan_param.get_range()), false, iter)); rc.set_iterator(&iter); EXPECT_EQ(OB_ITER_END, rc.next_cell()); mt.end_transaction(td); iter.reset(); mt.start_transaction(READ_TRANSACTION, td); EXPECT_EQ(OB_SUCCESS, mt.get(td, 1000, ObString(17, 17, const_cast<char*>("pre_1001|suf_0000")), iter)); rc.set_iterator(&iter); EXPECT_EQ(OB_SUCCESS, rc.next_cell()); EXPECT_EQ(OB_SUCCESS, rc.get_cell(&ci)); EXPECT_EQ(true, ObActionFlag::OP_ROW_DOES_NOT_EXIST == ci->value_.get_ext()); EXPECT_EQ(OB_ITER_END, rc.next_cell()); mt.end_transaction(td); mt.destroy(); }