import datetime from util.log import * from util.sql import * from util.cases import * from util.dnodes import * PRIMARY_COL = "ts" INT_COL = "c1" BINT_COL = "c2" SINT_COL = "c3" TINT_COL = "c4" FLOAT_COL = "c5" DOUBLE_COL = "c6" BOOL_COL = "c7" BINARY_COL = "c8" NCHAR_COL = "c9" TS_COL = "c10" NUM_COL = [ INT_COL, BINT_COL, SINT_COL, TINT_COL, FLOAT_COL, DOUBLE_COL, ] CHAR_COL = [ BINARY_COL, NCHAR_COL, ] BOOLEAN_COL = [ BOOL_COL, ] TS_TYPE_COL = [ TS_COL, ] ALL_COL = [ INT_COL, BINT_COL, SINT_COL, TINT_COL, FLOAT_COL, DOUBLE_COL, BOOL_COL, BINARY_COL, NCHAR_COL, TS_COL ] class TDTestCase: def init(self, conn, logSql): tdLog.debug(f"start to excute {__file__}") tdSql.init(conn.cursor()) def __query_condition(self,tbname): query_condition = [f"cast({col} as bigint)" for col in ALL_COL] for num_col in NUM_COL: query_condition.extend( ( f"{tbname}.{num_col}", f"abs( {tbname}.{num_col} )", f"acos( {tbname}.{num_col} )", f"asin( {tbname}.{num_col} )", f"atan( {tbname}.{num_col} )", f"avg( {tbname}.{num_col} )", f"ceil( {tbname}.{num_col} )", f"cos( {tbname}.{num_col} )", f"count( {tbname}.{num_col} )", f"floor( {tbname}.{num_col} )", f"log( {tbname}.{num_col}, {tbname}.{num_col})", f"max( {tbname}.{num_col} )", f"min( {tbname}.{num_col} )", f"pow( {tbname}.{num_col}, 2)", f"round( {tbname}.{num_col} )", f"sum( {tbname}.{num_col} )", f"sin( {tbname}.{num_col} )", f"sqrt( {tbname}.{num_col} )", f"tan( {tbname}.{num_col} )", f"cast( {tbname}.{num_col} as timestamp)", ( f"{num_col} + {any_col}" for any_col in ALL_COL ) ) ) for char_col in CHAR_COL: query_condition.extend( ( f"count({tbname}.{char_col})", f"sum(cast({tbname}.{char_col}) as bigint)", f"max(cast({tbname}.{char_col}) as bigint)", f"min(cast({tbname}.{char_col}) as bigint)", f"avg(cast({tbname}.{char_col}) as bigint)", ) ) query_condition.extend( ( 1010, ) ) return query_condition def __join_condition(self, tb_list, filter=PRIMARY_COL, INNER=False): table_reference = tb_list[0] join_condition = table_reference join = "inner join" if INNER else "join" for i in range(len(tb_list[1:])): join_condition += f" {join} {tb_list[i+1]} on {table_reference}.{filter}={tb_list[i+1]}.{filter}" return join_condition def __where_condition(self, col=None, tbname=None, query_conditon=None): if query_conditon and isinstance(query_conditon, str): if query_conditon.startswith("count"): query_conditon = query_conditon[6:-1] elif query_conditon.startswith("max"): query_conditon = query_conditon[4:-1] elif query_conditon.startswith("sum"): query_conditon = query_conditon[4:-1] elif query_conditon.startswith("min"): query_conditon = query_conditon[4:-1] if query_conditon: return f" where {query_conditon} is not null" if col in NUM_COL: return f" where abs( {tbname}.{col} ) >= 0" if col in CHAR_COL: return f" where lower( {tbname}.{col} ) like 'bina%' or lower( {tbname}.{col} ) like '_cha%' " if col in BOOLEAN_COL: return f" where {tbname}.{col} in (false, true) " if col in TS_TYPE_COL or col in PRIMARY_COL: return f" where cast( {tbname}.{col} as binary(16) ) is not null " return "" def __group_condition(self, col, having = None): if isinstance(col, str): if col.startswith("count"): col = col[6:-1] elif col.startswith("max"): col = col[4:-1] elif col.startswith("sum"): col = col[4:-1] elif col.startswith("min"): col = col[4:-1] return f" group by {col} having {having}" if having else f" group by {col} " def __single_sql(self, select_clause, from_clause, where_condition="", group_condition=""): if isinstance(select_clause, str) and "on" not in from_clause and select_clause.split(".")[0] != from_clause.split(".")[0]: return return f"select spread({select_clause}) from {from_clause} {where_condition} {group_condition}" @property def __tb_liast(self): return [ "ct1", "ct4", "t1", ] def sql_list(self): sqls = [] __no_join_tblist = self.__tb_liast for tb in __no_join_tblist: select_claus_list = self.__query_condition(tb) for select_claus in select_claus_list: group_claus = self.__group_condition(col=select_claus) where_claus = self.__where_condition(query_conditon=select_claus) having_claus = self.__group_condition(col=select_claus, having=f"{select_claus} is not null") sqls.extend( ( self.__single_sql(select_claus, tb, where_claus, having_claus), ) ) # return filter(None, sqls) return list(filter(None, sqls)) def __get_type(self, col): if tdSql.cursor.istype(col, "BOOL"): return "BOOL" if tdSql.cursor.istype(col, "INT"): return "INT" if tdSql.cursor.istype(col, "BIGINT"): return "BIGINT" if tdSql.cursor.istype(col, "TINYINT"): return "TINYINT" if tdSql.cursor.istype(col, "SMALLINT"): return "SMALLINT" if tdSql.cursor.istype(col, "FLOAT"): return "FLOAT" if tdSql.cursor.istype(col, "DOUBLE"): return "DOUBLE" if tdSql.cursor.istype(col, "BINARY"): return "BINARY" if tdSql.cursor.istype(col, "NCHAR"): return "NCHAR" if tdSql.cursor.istype(col, "TIMESTAMP"): return "TIMESTAMP" if tdSql.cursor.istype(col, "JSON"): return "JSON" if tdSql.cursor.istype(col, "TINYINT UNSIGNED"): return "TINYINT UNSIGNED" if tdSql.cursor.istype(col, "SMALLINT UNSIGNED"): return "SMALLINT UNSIGNED" if tdSql.cursor.istype(col, "INT UNSIGNED"): return "INT UNSIGNED" if tdSql.cursor.istype(col, "BIGINT UNSIGNED"): return "BIGINT UNSIGNED" def spread_check(self): sqls = self.sql_list() tdLog.printNoPrefix("===step 1: curent case, must return query OK") for i in range(len(sqls)): tdLog.info(f"sql: {sqls[i]}") tdSql.query(sqls[i]) def __test_current(self): tdSql.query("select spread(ts) from ct1") tdSql.checkRows(1) tdSql.query("select spread(c1) from ct2") tdSql.checkRows(1) tdSql.query("select spread(c1) from ct4 group by c1") tdSql.checkRows(self.rows + 3) tdSql.query("select spread(c1) from ct4 group by c7") tdSql.checkRows(3) self.spread_check() def __test_error(self): tdLog.printNoPrefix("===step 0: err case, must return err") tdSql.error( "select spread() from ct1" ) tdSql.error( "select spread(1, 2) from ct2" ) tdSql.error( f"select spread({NUM_COL[0]}, {NUM_COL[1]}) from ct4" ) tdSql.error( f"select spread({BOOLEAN_COL[0]}) from t1" ) tdSql.error( f"select spread({CHAR_COL[0]}) from stb1" ) # tdSql.error( ''' select spread(['c1 + c1', 'c1 + c2', 'c1 + c3', 'c1 + c4', 'c1 + c5', 'c1 + c6', 'c1 + c7', 'c1 + c8', 'c1 + c9', 'c1 + c10']) # from ct1 # where ['c1 + c1', 'c1 + c2', 'c1 + c3', 'c1 + c4', 'c1 + c5', 'c1 + c6', 'c1 + c7', 'c1 + c8', 'c1 + c9', 'c1 + c10'] is not null # group by ['c1 + c1', 'c1 + c2', 'c1 + c3', 'c1 + c4', 'c1 + c5', 'c1 + c6', 'c1 + c7', 'c1 + c8', 'c1 + c9', 'c1 + c10'] # having ['c1 + c1', 'c1 + c2', 'c1 + c3', 'c1 + c4', 'c1 + c5', 'c1 + c6', 'c1 + c7', 'c1 + c8', 'c1 + c9', 'c1 + c10'] is not null ''' ) # tdSql.error( "select c1 from ct1 union select c1 from ct2 union select c1 from ct4 ") def all_test(self): self.__test_error() self.__test_current() def __create_tb(self): tdLog.printNoPrefix("==========step1:create table") create_stb_sql = f'''create table stb1( ts timestamp, {INT_COL} int, {BINT_COL} bigint, {SINT_COL} smallint, {TINT_COL} tinyint, {FLOAT_COL} float, {DOUBLE_COL} double, {BOOL_COL} bool, {BINARY_COL} binary(16), {NCHAR_COL} nchar(32), {TS_COL} timestamp ) tags (t1 int) ''' create_ntb_sql = f'''create table t1( ts timestamp, {INT_COL} int, {BINT_COL} bigint, {SINT_COL} smallint, {TINT_COL} tinyint, {FLOAT_COL} float, {DOUBLE_COL} double, {BOOL_COL} bool, {BINARY_COL} binary(16), {NCHAR_COL} nchar(32), {TS_COL} timestamp ) ''' tdSql.execute(create_stb_sql) tdSql.execute(create_ntb_sql) for i in range(4): tdSql.execute(f'create table ct{i+1} using stb1 tags ( {i+1} )') { i % 32767 }, { i % 127}, { i * 1.11111 }, { i * 1000.1111 }, { i % 2} def __insert_data(self, rows): now_time = int(datetime.datetime.timestamp(datetime.datetime.now()) * 1000) for i in range(rows): tdSql.execute( f"insert into ct1 values ( { now_time - i * 1000 }, {i}, {11111 * i}, {111 * i % 32767 }, {11 * i % 127}, {1.11*i}, {1100.0011*i}, {i%2}, 'binary{i}', 'nchar_测试_{i}', { now_time + 1 * i } )" ) tdSql.execute( f"insert into ct4 values ( { now_time - i * 7776000000 }, {i}, {11111 * i}, {111 * i % 32767 }, {11 * i % 127}, {1.11*i}, {1100.0011*i}, {i%2}, 'binary{i}', 'nchar_测试_{i}', { now_time + 1 * i } )" ) tdSql.execute( f"insert into ct2 values ( { now_time - i * 7776000000 }, {-i}, {-11111 * i}, {-111 * i % 32767 }, {-11 * i % 127}, {-1.11*i}, {-1100.0011*i}, {i%2}, 'binary{i}', 'nchar_测试_{i}', { now_time + 1 * i } )" ) tdSql.execute( f'''insert into ct1 values ( { now_time - rows * 5 }, 0, 0, 0, 0, 0, 0, 0, 'binary0', 'nchar_测试_0', { now_time + 8 } ) ( { now_time + 10000 }, { rows }, -99999, -999, -99, -9.99, -99.99, 1, 'binary9', 'nchar_测试_9', { now_time + 9 } ) ''' ) tdSql.execute( f'''insert into ct4 values ( { now_time - rows * 7776000000 }, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ( { now_time - rows * 3888000000 + 10800000 }, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ( { now_time + 7776000000 }, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ( { now_time + 5184000000}, {pow(2,31)-pow(2,15)}, {pow(2,63)-pow(2,30)}, 32767, 127, { 3.3 * pow(10,38) }, { 1.3 * pow(10,308) }, { rows % 2 }, "binary_limit-1", "nchar_测试_limit-1", { now_time - 86400000} ) ( { now_time + 2592000000 }, {pow(2,31)-pow(2,16)}, {pow(2,63)-pow(2,31)}, 32766, 126, { 3.2 * pow(10,38) }, { 1.2 * pow(10,308) }, { (rows-1) % 2 }, "binary_limit-2", "nchar_测试_limit-2", { now_time - 172800000} ) ''' ) tdSql.execute( f'''insert into ct2 values ( { now_time - rows * 7776000000 }, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ( { now_time - rows * 3888000000 + 10800000 }, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ( { now_time + 7776000000 }, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ( { now_time + 5184000000 }, { -1 * pow(2,31) + pow(2,15) }, { -1 * pow(2,63) + pow(2,30) }, -32766, -126, { -1 * 3.2 * pow(10,38) }, { -1.2 * pow(10,308) }, { rows % 2 }, "binary_limit-1", "nchar_测试_limit-1", { now_time - 86400000 } ) ( { now_time + 2592000000 }, { -1 * pow(2,31) + pow(2,16) }, { -1 * pow(2,63) + pow(2,31) }, -32767, -127, { - 3.3 * pow(10,38) }, { -1.3 * pow(10,308) }, { (rows-1) % 2 }, "binary_limit-2", "nchar_测试_limit-2", { now_time - 172800000 } ) ''' ) for i in range(rows): insert_data = f'''insert into t1 values ( { now_time - i * 3600000 }, {i}, {i * 11111}, { i % 32767 }, { i % 127}, { i * 1.11111 }, { i * 1000.1111 }, { i % 2}, "binary_{i}", "nchar_测试_{i}", { now_time - 1000 * i } ) ''' tdSql.execute(insert_data) tdSql.execute( f'''insert into t1 values ( { now_time + 10800000 }, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ( { now_time - (( rows // 2 ) * 60 + 30) * 60000 }, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ( { now_time - rows * 3600000 }, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ( { now_time + 7200000 }, { pow(2,31) - pow(2,15) }, { pow(2,63) - pow(2,30) }, 32767, 127, { 3.3 * pow(10,38) }, { 1.3 * pow(10,308) }, { rows % 2 }, "binary_limit-1", "nchar_测试_limit-1", { now_time - 86400000 } ) ( { now_time + 3600000 } , { pow(2,31) - pow(2,16) }, { pow(2,63) - pow(2,31) }, 32766, 126, { 3.2 * pow(10,38) }, { 1.2 * pow(10,308) }, { (rows-1) % 2 }, "binary_limit-2", "nchar_测试_limit-2", { now_time - 172800000 } ) ''' ) def run(self): tdSql.prepare() tdLog.printNoPrefix("==========step1:create table") self.__create_tb() tdLog.printNoPrefix("==========step2:insert data") self.rows = 10 self.__insert_data(self.rows) tdLog.printNoPrefix("==========step3:all check") self.all_test() tdDnodes.stop(1) tdDnodes.start(1) tdSql.execute("use db") tdLog.printNoPrefix("==========step4:after wal, all check again ") self.all_test() def stop(self): tdSql.close() tdLog.success(f"{__file__} successfully executed") tdCases.addLinux(__file__, TDTestCase()) tdCases.addWindows(__file__, TDTestCase())