import taos import sys import datetime import inspect import math from util.log import * from util.sql import * from util.cases import * class TDTestCase: updatecfgDict = {'debugFlag': 143 ,"cDebugFlag":143,"uDebugFlag":143 ,"rpcDebugFlag":143 , "tmrDebugFlag":143 , "jniDebugFlag":143 ,"simDebugFlag":143,"dDebugFlag":143, "dDebugFlag":143,"vDebugFlag":143,"mDebugFlag":143,"qDebugFlag":143, "wDebugFlag":143,"sDebugFlag":143,"tsdbDebugFlag":143,"tqDebugFlag":143 ,"fsDebugFlag":143 ,"fnDebugFlag":143} def init(self, conn, powSql): tdLog.debug(f"start to excute {__file__}") tdSql.init(conn.cursor()) def prepare_datas(self): tdSql.execute( '''create table stb1 (ts timestamp, c1 int, c2 bigint, c3 smallint, c4 tinyint, c5 float, c6 double, c7 bool, c8 binary(16),c9 nchar(32), c10 timestamp) tags (t1 int) ''' ) tdSql.execute( ''' create table t1 (ts timestamp, c1 int, c2 bigint, c3 smallint, c4 tinyint, c5 float, c6 double, c7 bool, c8 binary(16),c9 nchar(32), c10 timestamp) ''' ) for i in range(4): tdSql.execute(f'create table ct{i+1} using stb1 tags ( {i+1} )') for i in range(9): tdSql.execute( f"insert into ct1 values ( now()-{i*10}s, {1*i}, {11111*i}, {111*i}, {11*i}, {1.11*i}, {11.11*i}, {i%2}, 'binary{i}', 'nchar{i}', now()+{1*i}a )" ) tdSql.execute( f"insert into ct4 values ( now()-{i*90}d, {1*i}, {11111*i}, {111*i}, {11*i}, {1.11*i}, {11.11*i}, {i%2}, 'binary{i}', 'nchar{i}', now()+{1*i}a )" ) tdSql.execute("insert into ct1 values (now()-45s, 0, 0, 0, 0, 0, 0, 0, 'binary0', 'nchar0', now()+8a )") tdSql.execute("insert into ct1 values (now()+10s, 9, -99999, -999, -99, -9.99, -99.99, 1, 'binary9', 'nchar9', now()+9a )") tdSql.execute("insert into ct1 values (now()+15s, 9, -99999, -999, -99, -9.99, NULL, 1, 'binary9', 'nchar9', now()+9a )") tdSql.execute("insert into ct1 values (now()+20s, 9, -99999, -999, NULL, -9.99, -99.99, 1, 'binary9', 'nchar9', now()+9a )") tdSql.execute("insert into ct4 values (now()-810d, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ") tdSql.execute("insert into ct4 values (now()-400d, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ") tdSql.execute("insert into ct4 values (now()+90d, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ") tdSql.execute( f'''insert into t1 values ( '2020-04-21 01:01:01.000', NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ( '2020-10-21 01:01:01.000', 1, 11111, 111, 11, 1.11, 11.11, 1, "binary1", "nchar1", now()+1a ) ( '2020-12-31 01:01:01.000', 2, 22222, 222, 22, 2.22, 22.22, 0, "binary2", "nchar2", now()+2a ) ( '2021-01-01 01:01:06.000', 3, 33333, 333, 33, 3.33, 33.33, 0, "binary3", "nchar3", now()+3a ) ( '2021-05-07 01:01:10.000', 4, 44444, 444, 44, 4.44, 44.44, 1, "binary4", "nchar4", now()+4a ) ( '2021-07-21 01:01:01.000', NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ( '2021-09-30 01:01:16.000', 5, 55555, 555, 55, 5.55, 55.55, 0, "binary5", "nchar5", now()+5a ) ( '2022-02-01 01:01:20.000', 6, 66666, 666, 66, 6.66, 66.66, 1, "binary6", "nchar6", now()+6a ) ( '2022-10-28 01:01:26.000', 7, 00000, 000, 00, 0.00, 00.00, 1, "binary7", "nchar7", "1970-01-01 08:00:00.000" ) ( '2022-12-01 01:01:30.000', 8, -88888, -888, -88, -8.88, -88.88, 0, "binary8", "nchar8", "1969-01-01 01:00:00.000" ) ( '2022-12-31 01:01:36.000', 9, -99999999999999999, -999, -99, -9.99, -999999999999999999999.99, 1, "binary9", "nchar9", "1900-01-01 00:00:00.000" ) ( '2023-02-21 01:01:01.000', NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL ) ''' ) def check_result_auto_sqrt(self ,origin_query , pow_query): pow_result = tdSql.getResult(pow_query) origin_result = tdSql.getResult(origin_query) auto_result =[] for row in origin_result: row_check = [] for elem in row: if elem == None: elem = None elif elem < 0: elem = None else: elem = math.sqrt(elem) row_check.append(elem) auto_result.append(row_check) check_status = True for row_index , row in enumerate(pow_result): for col_index , elem in enumerate(row): if auto_result[row_index][col_index] == None and not (auto_result[row_index][col_index] == None and elem == None): check_status = False elif auto_result[row_index][col_index] != None and (auto_result[row_index][col_index] - elem > 0.00000001): check_status = False else: pass if not check_status: tdLog.notice("sqrt function value has not as expected , sql is \"%s\" "%pow_query ) sys.exit(1) else: tdLog.info("sqrt value check pass , it work as expected ,sql is \"%s\" "%pow_query ) def test_errors(self): error_sql_lists = [ "select sqrt from t1", # "select sqrt(-+--+c1 ) from t1", # "select +-sqrt(c1) from t1", # "select ++-sqrt(c1) from t1", # "select ++--sqrt(c1) from t1", # "select - -sqrt(c1)*0 from t1", # "select sqrt(tbname+1) from t1 ", "select sqrt(123--123)==1 from t1", "select sqrt(c1) as 'd1' from t1", "select sqrt(c1 ,c2) from t1", "select sqrt(c1 ,NULL ) from t1", "select sqrt(,) from t1;", "select sqrt(sqrt(c1) ab from t1)", "select sqrt(c1 ) as int from t1", "select sqrt from stb1", # "select sqrt(-+--+c1) from stb1", # "select +-sqrt(c1) from stb1", # "select ++-sqrt(c1) from stb1", # "select ++--sqrt(c1) from stb1", # "select - -sqrt(c1)*0 from stb1", # "select sqrt(tbname+1) from stb1 ", "select sqrt(123--123)==1 from stb1", "select sqrt(c1) as 'd1' from stb1", "select sqrt(c1 ,c2 ) from stb1", "select sqrt(c1 ,NULL) from stb1", "select sqrt(,) from stb1;", "select sqrt(sqrt(c1) ab from stb1)", "select sqrt(c1) as int from stb1" ] for error_sql in error_sql_lists: tdSql.error(error_sql) def support_types(self): type_error_sql_lists = [ "select sqrt(ts) from t1" , "select sqrt(c7) from t1", "select sqrt(c8) from t1", "select sqrt(c9) from t1", "select sqrt(ts) from ct1" , "select sqrt(c7) from ct1", "select sqrt(c8) from ct1", "select sqrt(c9) from ct1", "select sqrt(ts) from ct3" , "select sqrt(c7) from ct3", "select sqrt(c8) from ct3", "select sqrt(c9) from ct3", "select sqrt(ts) from ct4" , "select sqrt(c7) from ct4", "select sqrt(c8) from ct4", "select sqrt(c9) from ct4", "select sqrt(ts) from stb1" , "select sqrt(c7) from stb1", "select sqrt(c8) from stb1", "select sqrt(c9) from stb1" , "select sqrt(ts) from stbbb1" , "select sqrt(c7) from stbbb1", "select sqrt(ts) from tbname", "select sqrt(c9) from tbname" ] for type_sql in type_error_sql_lists: tdSql.error(type_sql) type_sql_lists = [ "select sqrt(c1) from t1", "select sqrt(c2) from t1", "select sqrt(c3) from t1", "select sqrt(c4) from t1", "select sqrt(c5) from t1", "select sqrt(c6) from t1", "select sqrt(c1) from ct1", "select sqrt(c2) from ct1", "select sqrt(c3) from ct1", "select sqrt(c4) from ct1", "select sqrt(c5) from ct1", "select sqrt(c6) from ct1", "select sqrt(c1) from ct3", "select sqrt(c2) from ct3", "select sqrt(c3) from ct3", "select sqrt(c4) from ct3", "select sqrt(c5) from ct3", "select sqrt(c6) from ct3", "select sqrt(c1) from stb1", "select sqrt(c2) from stb1", "select sqrt(c3) from stb1", "select sqrt(c4) from stb1", "select sqrt(c5) from stb1", "select sqrt(c6) from stb1", "select sqrt(c6) as alisb from stb1", "select sqrt(c6) alisb from stb1", ] for type_sql in type_sql_lists: tdSql.query(type_sql) def basic_sqrt_function(self): # basic query tdSql.query("select c1 from ct3") tdSql.checkRows(0) tdSql.query("select c1 from t1") tdSql.checkRows(12) tdSql.query("select c1 from stb1") tdSql.checkRows(25) # used for empty table , ct3 is empty tdSql.query("select sqrt(c1) from ct3") tdSql.checkRows(0) tdSql.query("select sqrt(c2) from ct3") tdSql.checkRows(0) tdSql.query("select sqrt(c3) from ct3") tdSql.checkRows(0) tdSql.query("select sqrt(c4) from ct3") tdSql.checkRows(0) tdSql.query("select sqrt(c5) from ct3") tdSql.checkRows(0) tdSql.query("select sqrt(c6) from ct3") tdSql.checkRows(0) # # used for regular table tdSql.query("select sqrt(c1) from t1") tdSql.checkData(0, 0, None) tdSql.checkData(1 , 0, 1.000000000) tdSql.checkData(3 , 0, 1.732050808) tdSql.checkData(5 , 0, None) tdSql.query("select c1, c2, c3 , c4, c5 from t1") tdSql.checkData(1, 4, 1.11000) tdSql.checkData(3, 3, 33) tdSql.checkData(5, 4, None) tdSql.query("select ts,c1, c2, c3 , c4, c5 from t1") tdSql.checkData(1, 5, 1.11000) tdSql.checkData(3, 4, 33) tdSql.checkData(5, 5, None) self.check_result_auto_sqrt( "select abs(c1), abs(c2), abs(c3) , abs(c4), abs(c5) from t1", "select sqrt(abs(c1)), sqrt(abs(c2)) ,sqrt(abs(c3)), sqrt(abs(c4)), sqrt(abs(c5)) from t1") # used for sub table tdSql.query("select c2 ,sqrt(c2) from ct1") tdSql.checkData(0, 1, 298.140906284) tdSql.checkData(1 , 1, 278.885281074) tdSql.checkData(3 , 1, 235.701081881) tdSql.checkData(4 , 1, 0.000000000) tdSql.query("select c1, c5 ,sqrt(c5) from ct4") tdSql.checkData(0 , 2, None) tdSql.checkData(1 , 2, 2.979932904) tdSql.checkData(2 , 2, 2.787471970) tdSql.checkData(3 , 2, 2.580697551) tdSql.checkData(5 , 2, None) self.check_result_auto_sqrt( "select c1, c2, c3 , c4, c5 from ct1", "select sqrt(c1), sqrt(c2) ,sqrt(c3), sqrt(c4), sqrt(c5) from ct1") # nest query for sqrt functions tdSql.query("select c4 , sqrt(c4) ,sqrt(sqrt(c4)) , sqrt(sqrt(sqrt(c4))) from ct1;") tdSql.checkData(0 , 0 , 88) tdSql.checkData(0 , 1 , 9.380831520) tdSql.checkData(0 , 2 , 3.062814314) tdSql.checkData(0 , 3 , 1.750089802) tdSql.checkData(1 , 0 , 77) tdSql.checkData(1 , 1 , 8.774964387) tdSql.checkData(1 , 2 , 2.962256638) tdSql.checkData(1 , 3 , 1.721120750) tdSql.checkData(11 , 0 , -99) tdSql.checkData(11 , 1 , None) tdSql.checkData(11 , 2 , None) tdSql.checkData(11 , 3 , None) # used for stable table tdSql.query("select sqrt(c1) from stb1") tdSql.checkRows(25) # used for not exists table tdSql.error("select sqrt(c1) from stbbb1") tdSql.error("select sqrt(c1) from tbname") tdSql.error("select sqrt(c1) from ct5") # mix with common col tdSql.query("select c1, sqrt(c1) from ct1") tdSql.checkData(0 , 0 ,8) tdSql.checkData(0 , 1 ,2.828427125) tdSql.checkData(4 , 0 ,0) tdSql.checkData(4 , 1 ,0.000000000) tdSql.query("select c2, sqrt(c2) from ct4") tdSql.checkData(0 , 0 , None) tdSql.checkData(0 , 1 ,None) tdSql.checkData(4 , 0 ,55555) tdSql.checkData(4 , 1 ,235.701081881) tdSql.checkData(5 , 0 ,None) tdSql.checkData(5 , 1 ,None) # mix with common functions tdSql.query("select c1, sqrt(c1),sqrt(c1), sqrt(sqrt(c1)) from ct4 ") tdSql.checkData(0 , 0 ,None) tdSql.checkData(0 , 1 ,None) tdSql.checkData(0 , 2 ,None) tdSql.checkData(0 , 3 ,None) tdSql.checkData(3 , 0 , 6) tdSql.checkData(3 , 1 ,2.449489743) tdSql.checkData(3 , 2 ,2.449489743) tdSql.checkData(3 , 3 ,1.565084580) tdSql.query("select c1, sqrt(c1),c5, floor(c5) from stb1 ") # # mix with agg functions , not support tdSql.error("select c1, sqrt(c1),c5, count(c5) from stb1 ") tdSql.error("select c1, sqrt(c1),c5, count(c5) from ct1 ") tdSql.error("select sqrt(c1), count(c5) from stb1 ") tdSql.error("select sqrt(c1), count(c5) from ct1 ") tdSql.error("select c1, count(c5) from ct1 ") tdSql.error("select c1, count(c5) from stb1 ") # agg functions mix with agg functions tdSql.query("select max(c5), count(c5) from stb1") tdSql.query("select max(c5), count(c5) from ct1") # bug fix for count tdSql.query("select count(c1) from ct4 ") tdSql.checkData(0,0,9) tdSql.query("select count(*) from ct4 ") tdSql.checkData(0,0,12) tdSql.query("select count(c1) from stb1 ") tdSql.checkData(0,0,22) tdSql.query("select count(*) from stb1 ") tdSql.checkData(0,0,25) # # bug fix for compute tdSql.query("select c1, sqrt(c1) -0 ,sqrt(c1-4)-0 from ct4 ") tdSql.checkData(0, 0, None) tdSql.checkData(0, 1, None) tdSql.checkData(0, 2, None) tdSql.checkData(1, 0, 8) tdSql.checkData(1, 1, 2.828427125) tdSql.checkData(1, 2, 2.000000000) tdSql.query(" select c1, sqrt(c1) -0 ,sqrt(c1-0.1)-0.1 from ct4") tdSql.checkData(0, 0, None) tdSql.checkData(0, 1, None) tdSql.checkData(0, 2, None) tdSql.checkData(1, 0, 8) tdSql.checkData(1, 1, 2.828427125) tdSql.checkData(1, 2, 2.710693865) tdSql.query("select c1, sqrt(c1), c2, sqrt(c2), c3, sqrt(c3) from ct1") def test_big_number(self): tdSql.query("select c1, sqrt(100000000) from ct1") # bigint to double data overflow tdSql.checkData(4, 1, 10000.000000000) tdSql.query("select c1, sqrt(10000000000000) from ct1") # bigint to double data overflow tdSql.checkData(4, 1, 3162277.660168380) tdSql.query("select c1, sqrt(c1) + sqrt(10000000000000000000000000) from ct1") # bigint to double data overflow tdSql.query("select c1, sqrt(c1) + sqrt(10000000000000000000000000.0) from ct1") # 10000000000000000000000000.0 is a double value tdSql.checkData(1, 1, 3162277660171.025390625) tdSql.query("select c1, sqrt(10000000000000000000000000000000000) from ct1") # bigint to double data overflow tdSql.query("select c1, sqrt(10000000000000000000000000000000000.0) from ct1") # 10000000000000000000000000.0 is a double value tdSql.checkData(4, 1, 100000000000000000.000000000) tdSql.query("select c1, sqrt(10000000000000000000000000000000000000000) from ct1") # bigint to double data overflow tdSql.query("select c1, sqrt(10000000000000000000000000000000000000000.0) from ct1") # 10000000000000000000000000.0 is a double value tdSql.checkData(4, 1, 100000000000000000000.000000000) tdSql.query("select c1, sqrt(10000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000) from ct1") # bigint to double data overflow def pow_base_test(self): # base is an regular number ,int or double tdSql.query("select c1, sqrt(c1) from ct1") tdSql.checkData(0, 1,2.828427125) tdSql.checkRows(13) # # bug for compute in functions # tdSql.query("select c1, abs(1/0) from ct1") # tdSql.checkData(0, 0, 8) # tdSql.checkData(0, 1, 1) tdSql.query("select c1, sqrt(1) from ct1") tdSql.checkData(0, 1, 1.000000000) tdSql.checkRows(13) # two cols start sqrt(x,y) tdSql.query("select c1,c2, sqrt(c2) from ct1") tdSql.checkData(0, 2, 298.140906284) tdSql.checkData(1, 2, 278.885281074) tdSql.checkData(4, 2, 0.000000000) def abs_func_filter(self): tdSql.execute("use db") tdSql.query("select c1, abs(c1) -0 ,ceil(c1-0.1)-0 ,floor(c1+0.1)-0.1 ,ceil(sqrt(c1)-0.5) from ct4 where c1>5 ") tdSql.checkRows(3) tdSql.checkData(0,0,8) tdSql.checkData(0,1,8.000000000) tdSql.checkData(0,2,8.000000000) tdSql.checkData(0,3,7.900000000) tdSql.checkData(0,4,3.000000000) tdSql.query("select c1, abs(c1) -0 ,ceil(c1-0.1)-0 ,floor(c1+0.1)-0.1 ,ceil(sqrt(c1)-0.5) from ct4 where c1=5 ") tdSql.checkRows(1) tdSql.checkData(0,0,5) tdSql.checkData(0,1,5.000000000) tdSql.checkData(0,2,5.000000000) tdSql.checkData(0,3,4.900000000) tdSql.checkData(0,4,2.000000000) tdSql.query("select c1, abs(c1) -0 ,ceil(c1-0.1)-0 ,floor(c1+0.1)-0.1 ,ceil(sqrt(c1)-0.5) from ct4 where c1=5 ") tdSql.checkRows(1) tdSql.checkData(0,0,5) tdSql.checkData(0,1,5.000000000) tdSql.checkData(0,2,5.000000000) tdSql.checkData(0,3,4.900000000) tdSql.checkData(0,4,2.000000000) tdSql.query("select c1,c2 , abs(c1) -0 ,ceil(c1-0.1)-0 ,floor(c1+0.1)-0.1 ,ceil(sqrt(c1)-0.5) from ct4 where c1=sqrt(c1) limit 1 ") tdSql.checkRows(1) tdSql.checkData(0,0,1) tdSql.checkData(0,1,11111) tdSql.checkData(0,2,1.000000000) tdSql.checkData(0,3,1.000000000) tdSql.checkData(0,4,0.900000000) tdSql.checkData(0,5,1.000000000) def pow_Arithmetic(self): pass def check_boundary_values(self): tdSql.execute("drop database if exists bound_test") tdSql.execute("create database if not exists bound_test") time.sleep(3) tdSql.execute("use bound_test") tdSql.execute( "create table stb_bound (ts timestamp, c1 int, c2 bigint, c3 smallint, c4 tinyint, c5 float, c6 double, c7 bool, c8 binary(32),c9 nchar(32), c10 timestamp) tags (t1 int);" ) tdSql.execute(f'create table sub1_bound using stb_bound tags ( 1 )') tdSql.execute( f"insert into sub1_bound values ( now()-1s, 2147483647, 9223372036854775807, 32767, 127, 3.40E+38, 1.7e+308, True, 'binary_tb1', 'nchar_tb1', now() )" ) tdSql.execute( f"insert into sub1_bound values ( now()-1s, -2147483647, -9223372036854775807, -32767, -127, -3.40E+38, -1.7e+308, True, 'binary_tb1', 'nchar_tb1', now() )" ) tdSql.execute( f"insert into sub1_bound values ( now(), 2147483646, 9223372036854775806, 32766, 126, 3.40E+38, 1.7e+308, True, 'binary_tb1', 'nchar_tb1', now() )" ) tdSql.execute( f"insert into sub1_bound values ( now(), -2147483646, -9223372036854775806, -32766, -126, -3.40E+38, -1.7e+308, True, 'binary_tb1', 'nchar_tb1', now() )" ) tdSql.error( f"insert into sub1_bound values ( now()+1s, 2147483648, 9223372036854775808, 32768, 128, 3.40E+38, 1.7e+308, True, 'binary_tb1', 'nchar_tb1', now() )" ) self.check_result_auto_sqrt( "select abs(c1), abs(c2), abs(c3) , abs(c4), abs(c5) from sub1_bound ", "select sqrt(abs(c1)), sqrt(abs(c2)) ,sqrt(abs(c3)), sqrt(abs(c4)), sqrt(abs(c5)) from sub1_bound") self.check_result_auto_sqrt( "select c1, c2, c3 , c3, c2 ,c1 from sub1_bound ", "select sqrt(c1), sqrt(c2) ,sqrt(c3), sqrt(c3), sqrt(c2) ,sqrt(c1) from sub1_bound") self.check_result_auto_sqrt("select abs(abs(abs(abs(abs(abs(abs(abs(abs(c1))))))))) nest_col_func from sub1_bound" , "select sqrt(abs(c1)) from sub1_bound" ) # check basic elem for table per row tdSql.query("select sqrt(abs(c1)) ,sqrt(abs(c2)) , sqrt(abs(c3)) , sqrt(abs(c4)), sqrt(abs(c5)), sqrt(abs(c6)) from sub1_bound ") tdSql.checkData(0,0,math.sqrt(2147483647)) tdSql.checkData(0,1,math.sqrt(9223372036854775807)) tdSql.checkData(0,2,math.sqrt(32767)) tdSql.checkData(0,3,math.sqrt(127)) tdSql.checkData(0,4,math.sqrt(339999995214436424907732413799364296704.00000)) tdSql.checkData(1,0,math.sqrt(2147483647)) tdSql.checkData(1,1,math.sqrt(9223372036854775807)) tdSql.checkData(1,2,math.sqrt(32767)) tdSql.checkData(1,3,math.sqrt(127)) tdSql.checkData(1,4,math.sqrt(339999995214436424907732413799364296704.00000)) tdSql.checkData(3,0,math.sqrt(2147483646)) tdSql.checkData(3,1,math.sqrt(9223372036854775806)) tdSql.checkData(3,2,math.sqrt(32766)) tdSql.checkData(3,3,math.sqrt(126)) tdSql.checkData(3,4,math.sqrt(339999995214436424907732413799364296704.00000)) # check + - * / in functions tdSql.query("select sqrt(abs(c1+1)) ,sqrt(abs(c2)) , sqrt(abs(c3*1)) , sqrt(abs(c4/2)), sqrt(abs(c5))/2, sqrt(abs(c6)) from sub1_bound ") tdSql.checkData(0,0,math.sqrt(2147483648.000000000)) tdSql.checkData(0,1,math.sqrt(9223372036854775807)) tdSql.checkData(0,2,math.sqrt(32767.000000000)) tdSql.checkData(0,3,math.sqrt(63.500000000)) def support_super_table_test(self): tdSql.execute(" use db ") self.check_result_auto_sqrt( " select c5 from stb1 order by ts " , "select sqrt(c5) from stb1 order by ts" ) self.check_result_auto_sqrt( " select c5 from stb1 order by tbname " , "select sqrt(c5) from stb1 order by tbname" ) self.check_result_auto_sqrt( " select c5 from stb1 where c1 > 0 order by tbname " , "select sqrt(c5) from stb1 where c1 > 0 order by tbname" ) self.check_result_auto_sqrt( " select c5 from stb1 where c1 > 0 order by tbname " , "select sqrt(c5) from stb1 where c1 > 0 order by tbname" ) self.check_result_auto_sqrt( " select t1,c5 from stb1 order by ts " , "select sqrt(t1), sqrt(c5) from stb1 order by ts" ) self.check_result_auto_sqrt( " select t1,c5 from stb1 order by tbname " , "select sqrt(t1) ,sqrt(c5) from stb1 order by tbname" ) self.check_result_auto_sqrt( " select t1,c5 from stb1 where c1 > 0 order by tbname " , "select sqrt(t1) ,sqrt(c5) from stb1 where c1 > 0 order by tbname" ) self.check_result_auto_sqrt( " select t1,c5 from stb1 where c1 > 0 order by tbname " , "select sqrt(t1) , sqrt(c5) from stb1 where c1 > 0 order by tbname" ) pass def run(self): # sourcery skip: extract-duplicate-method, remove-redundant-fstring tdSql.prepare() tdLog.printNoPrefix("==========step1:create table ==============") self.prepare_datas() tdLog.printNoPrefix("==========step2:test errors ==============") self.test_errors() tdLog.printNoPrefix("==========step3:support types ============") self.support_types() tdLog.printNoPrefix("==========step4: sqrt basic query ============") self.basic_sqrt_function() tdLog.printNoPrefix("==========step5: big number sqrt query ============") self.test_big_number() tdLog.printNoPrefix("==========step6: base number for sqrt query ============") self.pow_base_test() tdLog.printNoPrefix("==========step7: sqrt boundary query ============") self.check_boundary_values() tdLog.printNoPrefix("==========step8: sqrt filter query ============") self.abs_func_filter() tdLog.printNoPrefix("==========step9: check sqrt result of stable query ============") self.support_super_table_test() def stop(self): tdSql.close() tdLog.success(f"{__file__} successfully executed") tdCases.addLinux(__file__, TDTestCase()) tdCases.addWindows(__file__, TDTestCase())