/** * Copyright (c) 2021 OceanBase * OceanBase CE is licensed under Mulan PubL v2. * You can use this software according to the terms and conditions of the Mulan PubL v2. * You may obtain a copy of Mulan PubL v2 at: * http://license.coscl.org.cn/MulanPubL-2.0 * THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, * EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, * MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. * See the Mulan PubL v2 for more details. */ #include #define private public #define protected public #include "sql/ob_sql_init.h" #include "sql/engine/aggregate/ob_hash_groupby.h" #include "sql/engine/aggregate/ob_aggregate_test_utils.h" #include "lib/stat/ob_session_stat.h" #include "storage/memtable/ob_row_compactor.h" #include "sql/engine/test_engine_util.h" #include "storage/blocksstable/ob_data_file_prepare.h" #include "share/ob_simple_mem_limit_getter.h" using namespace oceanbase::common; using namespace oceanbase::sql; using namespace oceanbase::blocksstable; static ObSimpleMemLimitGetter getter; class ObHashGroupbyTest: public TestDataFilePrepare { public: ObHashGroupbyTest(); virtual ~ObHashGroupbyTest(); virtual void SetUp(); virtual void TearDown(); private: // disallow copy ObHashGroupbyTest(const ObHashGroupbyTest &other); ObHashGroupbyTest& operator=(const ObHashGroupbyTest &other); private: // data members }; ObHashGroupbyTest::ObHashGroupbyTest() : TestDataFilePrepare(&getter, "TestDisk_groupby", 2<<20, 5000) { } ObHashGroupbyTest::~ObHashGroupbyTest() { } void ObHashGroupbyTest::SetUp() { TestDataFilePrepare::SetUp(); int ret = ObTmpFileManager::get_instance().init(); ASSERT_EQ(OB_SUCCESS, ret); } void ObHashGroupbyTest::TearDown() { ObTmpFileManager::get_instance().destroy(); TestDataFilePrepare::TearDown(); } class TestHashGroupBy : public ObHashGroupBy { public: TestHashGroupBy() : ObHashGroupBy(alloc_) { } virtual ~TestHashGroupBy() {} }; TEST_F(ObHashGroupbyTest, test_utf8mb4_bin_agg) { int ret = OB_SUCCESS; ObExecContext ctx; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx)); ObFakeTable &fake_table = TestAggregateFactory::get_fake_table(); ObFakeTable &result_table = TestAggregateFactory::get_result_table(); TestHashGroupBy hash_groupby; int64_t col_count = 3; bool is_distinct = false; bool is_number = false; ObCollationType agg_cs_type = CS_TYPE_UTF8MB4_BIN; ObCollationType group_cs_type = CS_TYPE_INVALID; TestAggregateFactory::init(ctx, hash_groupby, col_count, is_distinct, is_number, agg_cs_type, group_cs_type); //fake table: index_col(primary key), aggr_col, groupby_col ADD_ROW(fake_table, COL(1), COL("r"), COL(1)); ADD_ROW(fake_table, COL(2), COL("s"), COL(1)); ADD_ROW(fake_table, COL(3), COL("t"), COL(1)); ADD_ROW(fake_table, COL(4), COL("ß"), COL(1)); ADD_ROW(result_table, COL(0), COL(0), COL(0), COL(4), COL("ß"), COL("r")); TestAggregateFactory::open_operator(ctx, hash_groupby); EXCEPT_RESULT_WITH_IDX(ctx, result_table, hash_groupby, col_count, hash_groupby.get_column_count(), agg_cs_type); TestAggregateFactory::close_operator(ctx, hash_groupby); } TEST_F(ObHashGroupbyTest, test_utf8mb4_genaral_ci_agg) { int ret = OB_SUCCESS; ObExecContext ctx; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx)); ObFakeTable &fake_table = TestAggregateFactory::get_fake_table(); ObFakeTable &result_table = TestAggregateFactory::get_result_table(); TestHashGroupBy hash_groupby; int64_t col_count = 3; bool is_distinct = false; bool is_number = false; ObCollationType agg_cs_type = CS_TYPE_UTF8MB4_GENERAL_CI; ObCollationType group_cs_type = CS_TYPE_INVALID; TestAggregateFactory::init(ctx, hash_groupby, col_count, is_distinct, is_number, agg_cs_type, group_cs_type); //fake table: index_col(primary key), aggr_col, groupby_col ADD_ROW(fake_table, COL(1), COL("r"), COL(1)); ADD_ROW(fake_table, COL(2), COL("s"), COL(1)); ADD_ROW(fake_table, COL(3), COL("t"), COL(1)); ADD_ROW(fake_table, COL(4), COL("ß"), COL(1)); ADD_ROW(result_table, COL(0), COL(0), COL(0), COL(4), COL("t"), COL("r")); TestAggregateFactory::open_operator(ctx, hash_groupby); EXCEPT_RESULT_WITH_IDX(ctx, result_table, hash_groupby, col_count, hash_groupby.get_column_count(), agg_cs_type); TestAggregateFactory::close_operator(ctx, hash_groupby); } TEST_F(ObHashGroupbyTest, test_utf8mb4_general_ci_group) { int ret = OB_SUCCESS; ObExecContext ctx; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx)); ObFakeTable &fake_table = TestAggregateFactory::get_fake_table(); ObFakeTable &result_table = TestAggregateFactory::get_result_table(); TestHashGroupBy hash_groupby; int64_t col_count = 3; bool is_distinct = false; bool is_number = true; ObCollationType agg_cs_type = CS_TYPE_INVALID; ObCollationType group_cs_type = CS_TYPE_UTF8MB4_GENERAL_CI; TestAggregateFactory::init(ctx, hash_groupby, col_count, is_distinct, is_number, agg_cs_type, group_cs_type); //fake table: index_col(primary key), aggr_col, groupby_col ADD_ROW(fake_table, COL(1), COL(2), COL("ß")); ADD_ROW(fake_table, COL(2), COL(4), COL("s")); ADD_ROW(fake_table, COL(3), COL(6), COL("ß")); ADD_ROW(fake_table, COL(4), COL(8), COL("s")); ADD_ROW(result_table, COL(0), COL(0), COL(0), COL(4), COL(8), COL(2), COL(20.0), COL(5.0)); TestAggregateFactory::open_operator(ctx, hash_groupby); EXCEPT_RESULT_WITH_IDX(ctx, result_table, hash_groupby, col_count, hash_groupby.get_column_count(), agg_cs_type); TestAggregateFactory::close_operator(ctx, hash_groupby); } TEST_F(ObHashGroupbyTest, test_utf8mb4_bin_agg_distinct) { int ret = OB_SUCCESS; ObExecContext ctx; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx)); ObFakeTable &fake_table = TestAggregateFactory::get_fake_table(); ObFakeTable &result_table = TestAggregateFactory::get_result_table(); TestHashGroupBy hash_groupby; int64_t col_count = 3; bool is_distinct = true; bool is_number = false; ObCollationType agg_cs_type = CS_TYPE_UTF8MB4_BIN; ObCollationType group_cs_type = CS_TYPE_INVALID; TestAggregateFactory::init(ctx, hash_groupby, col_count, is_distinct, is_number, agg_cs_type, group_cs_type); //fake table: index_col(primary key), aggr_col, groupby_col ADD_ROW(fake_table, COL(1), COL("r"), COL(1)); ADD_ROW(fake_table, COL(2), COL("s"), COL(1)); ADD_ROW(fake_table, COL(3), COL("t"), COL(1)); ADD_ROW(fake_table, COL(4), COL("ß"), COL(1)); ADD_ROW(result_table, COL(0), COL(0), COL(0), COL(4), COL("ß"), COL("r"), COL(4)); TestAggregateFactory::open_operator(ctx, hash_groupby); EXCEPT_RESULT_WITH_IDX(ctx, result_table, hash_groupby, col_count, hash_groupby.get_column_count(), agg_cs_type); TestAggregateFactory::close_operator(ctx, hash_groupby); } TEST_F(ObHashGroupbyTest, test_utf8mb4_general_ci_agg_distinct) { int ret = OB_SUCCESS; ObExecContext ctx; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx)); ObFakeTable &fake_table = TestAggregateFactory::get_fake_table(); ObFakeTable &result_table = TestAggregateFactory::get_result_table(); TestHashGroupBy hash_groupby; int64_t col_count = 3; bool is_distinct = true; bool is_number = false; ObCollationType agg_cs_type = CS_TYPE_UTF8MB4_GENERAL_CI; ObCollationType group_cs_type = CS_TYPE_INVALID; TestAggregateFactory::init(ctx, hash_groupby, col_count, is_distinct, is_number, agg_cs_type, group_cs_type); //fake table: index_col(primary key), aggr_col, groupby_col ADD_ROW(fake_table, COL(1), COL("r"), COL(1)); ADD_ROW(fake_table, COL(2), COL("s"), COL(1)); ADD_ROW(fake_table, COL(3), COL("t"), COL(1)); ADD_ROW(fake_table, COL(4), COL("ß"), COL(1)); ADD_ROW(result_table, COL(0), COL(0), COL(0), COL(3), COL("t"), COL("r"), COL(3)); TestAggregateFactory::open_operator(ctx, hash_groupby); EXCEPT_RESULT_WITH_IDX(ctx, result_table, hash_groupby, col_count, hash_groupby.get_column_count(), agg_cs_type); TestAggregateFactory::close_operator(ctx, hash_groupby); } TEST_F(ObHashGroupbyTest, test_groupby_without_distinct) { int ret = OB_SUCCESS; ObExecContext ctx; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx)); ObFakeTable &fake_table = TestAggregateFactory::get_fake_table(); ObFakeTable &result_table = TestAggregateFactory::get_result_table(); TestHashGroupBy hash_groupby; ObCollationType agg_cs_type = CS_TYPE_UTF8MB4_BIN; TestAggregateFactory::init(ctx, hash_groupby, 3, false); //fake table: index_col(primary key), aggr_col, groupby_col ADD_ROW(fake_table, COL(1), COL(1), COL(1)); ADD_ROW(fake_table, COL(2), COL(2), COL(2)); ADD_ROW(fake_table, COL(5), COL(2), COL(3)); ADD_ROW(fake_table, COL(4), COL(3), COL(4)); ADD_ROW(fake_table, COL(3), COL(1), COL(3)); ADD_ROW(fake_table, COL(6), COL(2), COL(1)); ADD_ROW(fake_table, COL(7), COL(3), COL(2)); ADD_ROW(fake_table, COL(8), COL(4), COL(4)); ADD_ROW(result_table, COL(4), COL(3), COL(4), COL(2), COL(4), COL(3), COL(7.0), COL(3.5)); ADD_ROW(result_table, COL(2), COL(2), COL(2), COL(2), COL(3), COL(2), COL(5.0), COL(2.5)); ADD_ROW(result_table, COL(5), COL(2), COL(3), COL(2), COL(2), COL(1), COL(3.0), COL(1.5)); ADD_ROW(result_table, COL(1), COL(1), COL(1), COL(2), COL(2), COL(1), COL(3.0), COL(1.5)); TestAggregateFactory::open_operator(ctx, hash_groupby); EXCEPT_RESULT(ctx, result_table, hash_groupby, agg_cs_type); TestAggregateFactory::close_operator(ctx, hash_groupby); } TEST_F(ObHashGroupbyTest, test_groupby_varchar) { int ret = OB_SUCCESS; ObExecContext ctx; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx)); ObFakeTable &fake_table = TestAggregateFactory::get_fake_table(); ObFakeTable &result_table = TestAggregateFactory::get_result_table(); TestHashGroupBy hash_groupby; TestAggregateFactory::init(ctx, hash_groupby, 3, false); //fake table: index_col(primary key), aggr_col, groupby_col ADD_ROW(fake_table, COL(1), COL("1"), COL(1)); ADD_ROW(fake_table, COL(2), COL("2"), COL(2)); ADD_ROW(fake_table, COL(5), COL("2"), COL(3)); ADD_ROW(fake_table, COL(4), COL("3"), COL(4)); ADD_ROW(fake_table, COL(3), COL("1"), COL(3)); ADD_ROW(fake_table, COL(6), COL("2"), COL(1)); ADD_ROW(fake_table, COL(7), COL("3"), COL(2)); ADD_ROW(fake_table, COL(8), COL("4"), COL(4)); ADD_ROW(result_table, COL(4), COL("3"), COL(4), COL(2), COL("4"), COL("3"), COL_T(double, 7.0), COL_T(double, 3.5)); ADD_ROW(result_table, COL(2), COL("2"), COL(2), COL(2), COL("3"), COL("2"), COL_T(double, 5.0), COL_T(double, 2.5)); ADD_ROW(result_table, COL(5), COL("2"), COL(3), COL(2), COL("2"), COL("1"), COL_T(double, 3.0), COL_T(double, 1.5)); ADD_ROW(result_table, COL(1), COL("1"), COL(1), COL(2), COL("2"), COL("1"), COL_T(double, 3.0), COL_T(double, 1.5)); TestAggregateFactory::open_operator(ctx, hash_groupby); EXCEPT_RESULT(ctx, result_table, hash_groupby, CS_TYPE_UTF8MB4_BIN); TestAggregateFactory::close_operator(ctx, hash_groupby); } TEST_F(ObHashGroupbyTest, test_groupby_with_distinct) { int ret = OB_SUCCESS; ObExecContext ctx; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx)); ObFakeTable &fake_table = TestAggregateFactory::get_fake_table(); ObFakeTable &result_table = TestAggregateFactory::get_result_table(); TestHashGroupBy hash_groupby; TestAggregateFactory::init(ctx, hash_groupby, 3, true); //fake table: index_col(primary key), aggr_col, groupby_col ADD_ROW(fake_table, COL(1), COL(1), COL(1)); ADD_ROW(fake_table, COL(2), COL(1), COL(1)); ADD_ROW(fake_table, COL(3), COL(2), COL(1)); ADD_ROW(fake_table, COL(4), COL(2), COL(1)); ADD_ROW(fake_table, COL(5), COL(1), COL(2)); ADD_ROW(fake_table, COL(6), COL(1), COL(2)); ADD_ROW(fake_table, COL(7), COL(3), COL(2)); ADD_ROW(fake_table, COL(8), COL(5), COL(2)); ADD_ROW(result_table, COL(5), COL(1), COL(2), COL(3), COL(5), COL(1), COL(3), COL(9.0), COL(3.0)); ADD_ROW(result_table, COL(1), COL(1), COL(1), COL(2), COL(2), COL(1), COL(2), COL(3.0), COL(1.5)); TestAggregateFactory::open_operator(ctx, hash_groupby); EXCEPT_RESULT(ctx, result_table, hash_groupby, CS_TYPE_UTF8MB4_BIN); TestAggregateFactory::close_operator(ctx, hash_groupby); } TEST_F(ObHashGroupbyTest, test_invalid_argument) { ObExecContext ctx; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx)); ObExecContext ctx1; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx1)); ObArenaAllocator alloc; ObFakeTable fake_table(alloc); TestHashGroupBy hash_groupby; const ObNewRow *row = NULL; ASSERT_EQ(OB_NOT_INIT, hash_groupby.open(ctx)); hash_groupby.reset(); ASSERT_EQ(OB_ERR_UNEXPECTED, hash_groupby.get_next_row(ctx, row)); hash_groupby.reset(); hash_groupby.set_id(0); hash_groupby.set_column_count(3); ASSERT_EQ(OB_SUCCESS, ctx.init_phy_op(3)); ASSERT_EQ(OB_NOT_INIT, hash_groupby.open(ctx)); hash_groupby.reset(); hash_groupby.set_id(0); hash_groupby.set_column_count(3); fake_table.set_id(1); fake_table.set_column_count(3); ASSERT_EQ(OB_SUCCESS, hash_groupby.set_child(0, fake_table)); ASSERT_EQ(OB_SUCCESS, ctx1.init_phy_op(3)); ASSERT_EQ(OB_ERR_UNEXPECTED, hash_groupby.open(ctx1)); } TEST_F(ObHashGroupbyTest, test_invalid_argument1) { int ret = OB_SUCCESS; ObExecContext ctx; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx)); ObFakeTable &fake_table = TestAggregateFactory::get_fake_table(); TestHashGroupBy hash_groupby; ObArenaAllocator alloc; ObAggregateExpression col_expr(alloc); TestAggregateFactory::init(ctx, hash_groupby, 3, false); //prepare rows, equal in the first row ADD_ROW(fake_table, COL(1), COL(2), COL(1)); ADD_ROW(fake_table, COL(2), COL(2), COL(1)); } TEST_F(ObHashGroupbyTest, test_serialize_and_deserialize) { ObExecContext ctx; ASSERT_EQ(OB_SUCCESS, create_test_session(ctx)); ObPhysicalPlan physical_plan; TestHashGroupBy hash_groupby; TestHashGroupBy deserialize_op; char bin_buf[1024] = {'\0'}; int64_t buf_len = 1024; int64_t data_len = 0; int64_t pos = 0; TestAggregateFactory::init(ctx, hash_groupby, 3, false); ASSERT_EQ(OB_SUCCESS, hash_groupby.serialize(bin_buf, buf_len, pos)); ASSERT_EQ(pos, hash_groupby.get_serialize_size()); deserialize_op.set_phy_plan(&physical_plan); data_len = pos; pos = 0; ASSERT_EQ(OB_SUCCESS, deserialize_op.deserialize(bin_buf, data_len, pos)); ASSERT_EQ(0, strcmp(to_cstring(hash_groupby), to_cstring(deserialize_op))); } void __attribute__((constructor(101))) init_SessionDIBuffer() { oceanbase::common::ObDITls::get_instance(); } int main(int argc, char **argv) { init_global_memory_pool(); init_sql_factories(); oceanbase::common::ObLogger::get_logger().set_log_level("INFO"); ::testing::InitGoogleTest(&argc,argv); return RUN_ALL_TESTS(); }