diff --git a/tests/system-test/2-query/stablity.py b/tests/system-test/2-query/stablity.py new file mode 100755 index 0000000000000000000000000000000000000000..552eec643b8879c97c44e8f598565fe58738e613 --- /dev/null +++ b/tests/system-test/2-query/stablity.py @@ -0,0 +1,4933 @@ +################################################################### +# Copyright (c) 2016 by TAOS Technologies, Inc. +# All rights reserved. +# +# This file is proprietary and confidential to TAOS Technologies. +# No part of this file may be reproduced, stored, transmitted, +# disclosed or used in any form or by any means other than as +# expressly provided by the written permission from Jianhui Tao +# +################################################################### + +# -*- coding: utf-8 -*- + +import random +import os +import time +import taos +import subprocess +from faker import Faker +from util.log import tdLog +from util.cases import tdCases +from util.sql import tdSql +from util.dnodes import tdDnodes +from util.dnodes import * + +class TDTestCase: + updatecfgDict = {'maxSQLLength':1048576,'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, logSql): + tdLog.debug("start to execute %s" % __file__) + tdSql.init(conn.cursor(), logSql) + + self.testcasePath = os.path.split(__file__)[0] + self.testcaseFilename = os.path.split(__file__)[-1] + os.system("rm -rf %s/%s.sql" % (self.testcasePath,self.testcaseFilename)) + + self.num = 10 + self.fornum = 5 + + self.db_nest = "nest" + self.dropandcreateDB_random("%s" %self.db_nest, 1) + + # regular column select + self.q_select= ['q_int', 'q_bigint' , 'q_bigint' , 'q_smallint' , 'q_tinyint' , 'q_bool' , 'q_binary' , 'q_nchar' ,'q_float' , 'q_double' ,'q_ts ', 'q_int_null ', 'q_bigint_null ' , 'q_bigint_null ' , 'q_smallint_null ' , 'q_tinyint_null ' , 'q_bool_null ' , 'q_binary_null ' , 'q_nchar_null ' ,'q_float_null ' , 'q_double_null ' ,'q_ts_null '] + + # tag column select + self.t_select= ['loc','t_int', 't_bigint' , 't_bigint' , 't_smallint' , 't_tinyint' , 't_bool' , 't_binary' , 't_nchar' ,'t_float' , 't_double' ,'t_ts '] + + # regular and tag column select + self.qt_select= self.q_select + self.t_select + + # distinct regular column select + self.dq_select= ['distinct q_int', 'distinct q_bigint' , 'distinct q_smallint' , 'distinct q_tinyint' , + 'distinct q_bool' , 'distinct q_binary' , 'distinct q_nchar' ,'distinct q_float' , 'distinct q_double' ,'distinct q_ts '] + + # distinct tag column select + self.dt_select= ['distinct loc', 'distinct t_int', 'distinct t_bigint' , 'distinct t_smallint' , 'distinct t_tinyint' , + 'distinct t_bool' , 'distinct t_binary' , 'distinct t_nchar' ,'distinct t_float' , 'distinct t_double' ,'distinct t_ts '] + + # distinct regular and tag column select + self.dqt_select= self.dq_select + self.dt_select + + # special column select + self.s_r_select= ['_c0', '_rowts' , '_C0' ] + self.s_s_select= ['tbname' , '_rowts' , '_c0', '_C0' ] + self.unionall_or_union= [ ' union ' , ' union all ' ] + + # regular column where + self.q_where = ['ts < now +1s','q_bigint >= -9223372036854775807 and q_bigint <= 9223372036854775807', 'q_int <= 2147483647 and q_int >= -2147483647', + 'q_smallint >= -32767 and q_smallint <= 32767','q_tinyint >= -127 and q_tinyint <= 127','q_float >= -1.7E308 and q_float <= 1.7E308', + 'q_double >= -1.7E308 and q_double <= 1.7E308', 'q_binary like \'binary%\' or q_binary = \'0\' ' , 'q_nchar like \'nchar%\' or q_nchar = \'0\' ' , + 'q_bool = true or q_bool = false' , 'q_bool in (0 , 1)' , 'q_bool in ( true , false)' , 'q_bool = 0 or q_bool = 1', + 'q_bigint between -9223372036854775807 and 9223372036854775807',' q_int between -2147483647 and 2147483647','q_smallint between -32767 and 32767', + 'q_bigint not between 9223372036854775807 and -9223372036854775807','q_int not between 2147483647 and -2147483647','q_smallint not between 32767 and -32767', + 'q_tinyint between -127 and 127 ','q_float >= -3.4E38 ','q_float <= 3.4E38 ','q_double >= -1.7E308 ', + 'q_double <= 1.7E308 ','q_float between -3.4E38 and 3.4E38 ','q_double between -1.7E308 and 1.7E308 ' ,'q_float not between 3.4E38 and -3.4E38 ','q_double not between 1.7E308 and -1.7E308 ', + 'q_float is not null ' ,'q_double is not null ' ,'q_binary match \'binary\' ','q_binary nmatch \'binarynchar\' ','q_nchar match \'nchar\' ','q_nchar nmatch \'binarynchar\' ', + 'q_binary like \'binary%\' ','(q_binary like \'binary%\' or q_nchar = \'0\' or q_binary = \'binary_\' ) ','q_nchar like \'nchar%\' ','(q_nchar like \'nchar%\' or q_binary = \'0\' or q_nchar = \'nchar_\' ) ', + 'q_binary match \'[binary]\'','q_binary nmatch \'[binarynchar]\' ',] + #TD-6201 ,'q_bool between 0 and 1' + + # regular column where for test union,join + self.q_u_where = ['t1.ts < now +1s' , 't2.ts < now +1s','t1.q_bigint >= -9223372036854775807 and t1.q_bigint <= 9223372036854775807 and t2.q_bigint >= -9223372036854775807 and t2.q_bigint <= 9223372036854775807', + 't1.q_int <= 2147483647 and t1.q_int >= -2147483647 and t2.q_int <= 2147483647 and t2.q_int >= -2147483647', + 't1.q_smallint >= -32767 and t1.q_smallint <= 32767 and t2.q_smallint >= -32767 and t2.q_smallint <= 32767', + 't1.q_tinyint >= -127 and t1.q_tinyint <= 127 and t2.q_tinyint >= -127 and t2.q_tinyint <= 127', + 't1.q_float >= - 1.7E308 and t1.q_float <= 1.7E308 and t2.q_float >= - 1.7E308 and t2.q_float <= 1.7E308', + 't1.q_double >= - 1.7E308 and t1.q_double <= 1.7E308 and t2.q_double >= - 1.7E308 and t2.q_double <= 1.7E308', + 't1.q_binary like \'binary%\' and t2.q_binary like \'binary%\' ' , + 't1.q_nchar like \'nchar%\' and t2.q_nchar like \'nchar%\' ' , + 't1.q_bool in (0 , 1) and t2.q_bool in (0 , 1)' , 't1.q_bool in ( true , false) and t2.q_bool in ( true , false)' , + 't1.q_bigint between -9223372036854775807 and 9223372036854775807 and t2.q_bigint between -9223372036854775807 and 9223372036854775807', + 't1.q_int between -2147483647 and 2147483647 and t2.q_int between -2147483647 and 2147483647', + 't1.q_smallint between -32767 and 32767 and t2.q_smallint between -32767 and 32767', + 't1.q_tinyint between -127 and 127 and t2.q_tinyint between -127 and 127 ','t1.q_float between -1.7E308 and 1.7E308 and t2.q_float between -1.7E308 and 1.7E308', + 't1.q_double between -1.7E308 and 1.7E308 and t2.q_double between -1.7E308 and 1.7E308', + 't1.q_bigint not between 9223372036854775807 and -9223372036854775807 and t2.q_bigint not between 9223372036854775807 and -9223372036854775807', + 't1.q_int not between 2147483647 and -2147483647 and t2.q_int not between 2147483647 and -2147483647', + 't1.q_smallint not between 32767 and -32767 and t2.q_smallint not between 32767 and -32767', + 't1.q_tinyint not between 127 and -127 and t2.q_tinyint not between 127 and -127 ','t1.q_float not between -1.7E308 and -1.7E308 and t2.q_float not between 1.7E308 and -1.7E308', + 't1.q_double not between 1.7E308 and -1.7E308 and t2.q_double not between 1.7E308 and -1.7E308'] + #TD-6201 ,'t1.q_bool between 0 and 1 or t2.q_bool between 0 and 1'] + #'t1.q_bool = true and t1.q_bool = false and t2.q_bool = true and t2.q_bool = false' , 't1.q_bool = 0 and t1.q_bool = 1 and t2.q_bool = 0 and t2.q_bool = 1' , + + self.q_u_or_where = ['(t1.q_binary like \'binary%\' or t1.q_binary = \'0\' or t2.q_binary like \'binary%\' or t2.q_binary = \'0\' )' , + '(t1.q_nchar like \'nchar%\' or t1.q_nchar = \'0\' or t2.q_nchar like \'nchar%\' or t2.q_nchar = \'0\' )' , '(t1.q_bool = true or t1.q_bool = false or t2.q_bool = true or t2.q_bool = false)' , + '(t1.q_bool in (0 , 1) or t2.q_bool in (0 , 1))' , '(t1.q_bool in ( true , false) or t2.q_bool in ( true , false))' , '(t1.q_bool = 0 or t1.q_bool = 1 or t2.q_bool = 0 or t2.q_bool = 1)' , + '(t1.q_bigint between -9223372036854775807 and 9223372036854775807 or t2.q_bigint between -9223372036854775807 and 9223372036854775807)', + '(t1.q_int between -2147483647 and 2147483647 or t2.q_int between -2147483647 and 2147483647)', + '(t1.q_smallint between -32767 and 32767 or t2.q_smallint between -32767 and 32767)', + '(t1.q_tinyint between -127 and 127 or t2.q_tinyint between -127 and 127 )','(t1.q_float between -1.7E308 and 1.7E308 or t2.q_float between -1.7E308 and 1.7E308)', + '(t1.q_double between -1.7E308 and 1.7E308 or t2.q_double between -1.7E308 and 1.7E308)'] + + # tag column where + self.t_where = ['ts < now +1s','t_bigint >= -9223372036854775807 and t_bigint <= 9223372036854775807','t_int <= 2147483647 and t_int >= -2147483647', + 't_smallint >= -32767 and t_smallint <= 32767','q_tinyint >= -127 and t_tinyint <= 127','t_float >= -1.7E308 and t_float <= 1.7E308', + 't_double >= -1.7E308 and t_double <= 1.7E308', 't_binary like \'binary%\' or t_binary = \'0\' ' , 't_nchar like \'nchar%\' or t_nchar = \'0\'' , + 't_bool = true or t_bool = false' , 't_bool in (0 , 1)' , 't_bool in ( true , false)' , 't_bool = 0 or t_bool = 1', + 't_bigint between -9223372036854775807 and 9223372036854775807',' t_int between -2147483647 and 2147483647','t_smallint between -32767 and 32767', + 't_tinyint between -127 and 127 ','t_float between -1.7E308 and 1.7E308','t_double between -1.7E308 and 1.7E308', + 't_binary match \'binary\' ','t_binary nmatch \'binarynchar\' ','t_nchar match \'nchar\' ','t_nchar nmatch \'binarynchar\' ', + 't_binary like \'binary%\' ','t_nchar like \'nchar%\' ','(t_binary like \'binary%\' or t_nchar = \'0\' ) ','(t_nchar like \'nchar%\' or t_binary = \'0\' ) ', + 'tbname match \'[stable]\' ','tbname nmatch \'[qwwerrwee]\' ','loc match \'[stable]\' ','loc nmatch \'[qwwerrwee]\' ', + 'tbname match \'[^stable]\' ','tbname nmatch \'[^qwwerrwee]\' ','loc match \'[^stable]\' ','loc nmatch \'[^qwwerrwee]\' ',] + + # tag column where for test union,join | this is not support + self.t_u_where = ['t1.ts < now +1s' , 't2.ts < now +1s','t1.t_bigint >= -9223372036854775807 and t1.t_bigint <= 9223372036854775807 and t2.t_bigint >= -9223372036854775807 and t2.t_bigint <= 9223372036854775807', + 't1.t_int <= 2147483647 and t1.t_int >= -2147483647 and t2.t_int <= 2147483647 and t2.t_int >= -2147483647', + 't1.t_smallint >= -32767 and t1.t_smallint <= 32767 and t2.t_smallint >= -32767 and t2.t_smallint <= 32767', + 't1.t_tinyint >= -127 and t1.t_tinyint <= 127 and t2.t_tinyint >= -127 and t2.t_tinyint <= 127', + 't1.t_float >= -1.7E308 and t1.t_float <= 1.7E308 and t2.t_float >= -1.7E308 and t2.t_float <= 1.7E308', + 't1.t_double >= -1.7E308 and t1.t_double <= 1.7E308 and t2.t_double >= -1.7E308 and t2.t_double <= 1.7E308', + '(t1.t_binary like \'binary%\' or t1.t_binary = \'0\' or t2.t_binary like \'binary%\' or t2.t_binary = \'0\') ' , + '(t1.t_nchar like \'nchar%\' or t1.t_nchar = \'0\' or t2.t_nchar like \'nchar%\' or t2.t_nchar = \'0\' )' , '(t1.t_bool = true or t1.t_bool = false or t2.t_bool = true or t2.t_bool = false)' , + 't1.t_bool in (0 , 1) and t2.t_bool in (0 , 1)' , 't1.t_bool in ( true , false) and t2.t_bool in ( true , false)' , '(t1.t_bool = 0 or t1.t_bool = 1 or t2.t_bool = 0 or t2.t_bool = 1)', + 't1.t_bigint between -9223372036854775807 and 9223372036854775807 and t2.t_bigint between -9223372036854775807 and 9223372036854775807', + 't1.t_int between -2147483647 and 2147483647 and t2.t_int between -2147483647 and 2147483647', + 't1.t_smallint between -32767 and 32767 and t2.t_smallint between -32767 and 32767', + '(t1.t_tinyint between -127 and 127 and t2.t_tinyint between -127 and 127) ','t1.t_float between -1.7E308 and 1.7E308 and t2.t_float between -1.7E308 and 1.7E308', + '(t1.t_double between -1.7E308 and 1.7E308 and t2.t_double between -1.7E308 and 1.7E308)', + '(t1.loc match \'[stable]\' and t2.loc match \'[stable]\')','(t1.loc nmatch \'[qqeqweq]\' and t2.loc nmatch \'[eqeqweq]\')', + '(t1.loc match \'[^stable]\' and t2.loc match \'[^stable]\')','(t1.loc nmatch \'[^qqeqweq]\' and t2.loc nmatch \'[^eqeqweq]\')', + '(t1.t_binary match \'[stable]\' and t2.t_binary match \'[stable]\')','(t1.t_binary nmatch \'[qqeqweq]\' and t2.t_binary nmatch \'[eqeqweq]\')', + '(t1.t_binary match \'[^stable]\' and t2.t_binary match \'[^stable]\')','(t1.t_binary nmatch \'[^qqeqweq]\' and t2.t_binary nmatch \'[^eqeqweq]\')', + '(t1.t_nchar match \'[stable]\' and t2.t_nchar match \'[stable]\')','(t1.t_nchar nmatch \'[qqeqweq]\' and t2.t_nchar nmatch \'[eqeqweq]\')', + '(t1.t_nchar match \'[^stable]\' and t2.t_nchar match \'[^stable]\')','(t1.t_nchar nmatch \'[^qqeqweq]\' and t2.t_nchar nmatch \'[^eqeqweq]\')'] + + self.t_u_or_where = ['(t1.t_binary like \'binary%\' or t1.t_binary = \'0\' or t2.t_binary like \'binary%\' or t2.t_binary = \'0\' )' , + '(t1.t_nchar like \'nchar%\' or t1.t_nchar = \'0\' or t2.t_nchar like \'nchar%\' or t2.t_nchar = \'0\' )' , '(t1.t_bool = true or t1.t_bool = false or t2.t_bool = true or t2.t_bool = false)' , + '(t1.t_bool in (0 , 1) or t2.t_bool in (0 , 1))' , '(t1.t_bool in ( true , false) or t2.t_bool in ( true , false))' , '(t1.t_bool = 0 or t1.t_bool = 1 or t2.t_bool = 0 or t2.t_bool = 1)', + '(t1.t_bigint between -9223372036854775807 and 9223372036854775807 or t2.t_bigint between -9223372036854775807 and 9223372036854775807)', + '(t1.t_int between -2147483647 and 2147483647 or t2.t_int between -2147483647 and 2147483647)', + '(t1.t_smallint between -32767 and 32767 or t2.t_smallint between -32767 and 32767)', + '(t1.t_tinyint between -127 and 127 or t2.t_tinyint between -127 and 127 )','(t1.t_float between -1.7E308 and 1.7E308 or t2.t_float between -1.7E308 and 1.7E308)', + '(t1.t_double between -1.7E308 and 1.7E308 or t2.t_double between -1.7E308 and 1.7E308)', + '(t1.loc match \'[stable]\' or t2.loc match \'[stable]\')','(t1.loc nmatch \'[qqeqweq]\' or t2.loc nmatch \'[eqeqweq]\')', + '(t1.loc match \'[^stable]\' or t2.loc match \'[^stable]\')','(t1.loc nmatch \'[^qqeqweq]\' or t2.loc nmatch \'[^eqeqweq]\')' , + '(t1.t_binary match \'[stable]\' or t2.t_binary match \'[stable]\')','(t1.t_binary nmatch \'[qqeqweq]\' or t2.t_binary nmatch \'[eqeqweq]\')', + '(t1.t_binary match \'[^stable]\' or t2.t_binary match \'[^stable]\')','(t1.t_binary nmatch \'[^qqeqweq]\' or t2.t_binary nmatch \'[^eqeqweq]\')', + '(t1.t_nchar match \'[stable]\' or t2.t_nchar match \'[stable]\')','(t1.t_nchar nmatch \'[qqeqweq]\' or t2.t_nchar nmatch \'[eqeqweq]\')', + '(t1.t_nchar match \'[^stable]\' or t2.t_nchar match \'[^stable]\')','(t1.t_nchar nmatch \'[^qqeqweq]\' or t2.t_nchar nmatch \'[^eqeqweq]\')'] + + # regular and tag column where + self.qt_where = self.q_where + self.t_where + self.qt_u_where = self.q_u_where + self.t_u_where + self.qt_u_or_where = self.q_u_or_where + self.t_u_or_where + + # tag column where for test super join | this is support , 't1.t_bool = t2.t_bool ' ??? + self.t_join_where = ['t1.t_bigint = t2.t_bigint ', 't1.t_int = t2.t_int ', 't1.t_smallint = t2.t_smallint ', 't1.t_tinyint = t2.t_tinyint ', + 't1.t_float = t2.t_float ', 't1.t_double = t2.t_double ', 't1.t_binary = t2.t_binary ' , 't1.t_nchar = t2.t_nchar ' ] + + # session && fill + self.session_where = ['session(ts,10a)' , 'session(ts,10s)', 'session(ts,10m)' , 'session(ts,10h)','session(ts,10d)' , 'session(ts,10w)'] + self.session_u_where = ['session(t1.ts,10a)' , 'session(t1.ts,10s)', 'session(t1.ts,10m)' , 'session(t1.ts,10h)','session(t1.ts,10d)' , 'session(t1.ts,10w)', + 'session(t2.ts,10a)' , 'session(t2.ts,10s)', 'session(t2.ts,10m)' , 'session(t2.ts,10h)','session(t2.ts,10d)' , 'session(t2.ts,10w)'] + + self.fill_where = ['FILL(NONE)','FILL(PREV)','FILL(NULL)','FILL(LINEAR)','FILL(NEXT)','FILL(VALUE, 1.23)'] + + self.state_window = ['STATE_WINDOW(q_tinyint)','STATE_WINDOW(q_bigint)','STATE_WINDOW(q_int)','STATE_WINDOW(q_bool)','STATE_WINDOW(q_smallint)'] + self.state_u_window = ['STATE_WINDOW(t1.q_tinyint)','STATE_WINDOW(t1.q_bigint)','STATE_WINDOW(t1.q_int)','STATE_WINDOW(t1.q_bool)','STATE_WINDOW(t1.q_smallint)', + 'STATE_WINDOW(t2.q_tinyint)','STATE_WINDOW(t2.q_bigint)','STATE_WINDOW(t2.q_int)','STATE_WINDOW(t2.q_bool)','STATE_WINDOW(t2.q_smallint)'] + + # order by where + self.order_where = ['order by ts' , 'order by ts asc'] + self.order_u_where = ['order by t1.ts' , 'order by t1.ts asc' , 'order by t2.ts' , 'order by t2.ts asc'] + self.order_desc_where = ['order by ts' , 'order by ts asc' , 'order by ts desc' ] + self.orders_desc_where = ['order by ts' , 'order by ts asc' , 'order by ts desc' , 'order by ts,loc' , 'order by ts,loc asc' , 'order by ts,loc desc'] + + self.group_where = ['group by tbname , loc' , 'group by tbname', 'group by tbname, t_bigint', 'group by tbname,t_int', 'group by tbname, t_smallint', 'group by tbname,t_tinyint', + 'group by tbname,t_float', 'group by tbname,t_double' , 'group by tbname,t_binary', 'group by tbname,t_nchar', 'group by tbname,t_bool' ,'group by tbname ,loc ,t_bigint', + 'group by tbname,t_binary ,t_nchar ,t_bool' , 'group by tbname,t_int ,t_smallint ,t_tinyint' , 'group by tbname,t_float ,t_double ' , + 'PARTITION BY tbname , loc' , 'PARTITION BY tbname', 'PARTITION BY tbname, t_bigint', 'PARTITION BY tbname,t_int', 'PARTITION BY tbname, t_smallint', 'PARTITION BY tbname,t_tinyint', + 'PARTITION BY tbname,t_float', 'PARTITION BY tbname,t_double' , 'PARTITION BY tbname,t_binary', 'PARTITION BY tbname,t_nchar', 'PARTITION BY tbname,t_bool' ,'PARTITION BY tbname ,loc ,t_bigint', + 'PARTITION BY tbname,t_binary ,t_nchar ,t_bool' , 'PARTITION BY tbname,t_int ,t_smallint ,t_tinyint' , 'PARTITION BY tbname,t_float ,t_double '] + self.group_where_j = ['group by t1.loc' , 'group by t1.t_bigint', 'group by t1.t_int', 'group by t1.t_smallint', 'group by t1.t_tinyint', + 'group by t1.t_float', 'group by t1.t_double' , 'group by t1.t_binary', 'group by t1.t_nchar', 'group by t1.t_bool' ,'group by t1.loc ,t1.t_bigint', + 'group by t1.t_binary ,t1.t_nchar ,t1.t_bool' , 'group by t1.t_int ,t1.t_smallint ,t1.t_tinyint' , 'group by t1.t_float ,t1.t_double ' , + 'PARTITION BY t1.loc' , 'PARTITION by t1.t_bigint', 'PARTITION by t1.t_int', 'PARTITION by t1.t_smallint', 'PARTITION by t1.t_tinyint', + 'PARTITION by t1.t_float', 'PARTITION by t1.t_double' , 'PARTITION by t1.t_binary', 'PARTITION by t1.t_nchar', 'PARTITION by t1.t_bool' ,'PARTITION BY t1.loc ,t1.t_bigint', + 'PARTITION by t1.t_binary ,t1.t_nchar ,t1.t_bool' , 'PARTITION by t1.t_int ,t1.t_smallint ,t1.t_tinyint' , 'PARTITION by t1.t_float ,t1.t_double ', + 'group by t2.loc' , 'group by t2.t_bigint', 'group by t2.t_int', 'group by t2.t_smallint', 'group by t2.t_tinyint', + 'group by t2.t_float', 'group by t2.t_double' , 'group by t2.t_binary', 'group by t2.t_nchar', 'group by t2.t_bool' ,'group by t2.loc ,t2.t_bigint', + 'group by t2.t_binary ,t2.t_nchar ,t2.t_bool' , 'group by t2.t_int ,t2.t_smallint ,t2.t_tinyint' , 'group by t2.t_float ,t2.t_double ' , + 'PARTITION BY t2.loc' , 'PARTITION by t2.t_bigint', 'PARTITION by t2.t_int', 'PARTITION by t2.t_smallint', 'PARTITION by t2.t_tinyint', + 'PARTITION by t2.t_float', 'PARTITION by t2.t_double' , 'PARTITION by t2.t_binary', 'PARTITION by t2.t_nchar', 'PARTITION by t2.t_bool' ,'PARTITION BY t2.loc ,t2.t_bigint', + 'PARTITION by t2.t_binary ,t2.t_nchar ,t2.t_bool' , 'PARTITION by t2.t_int ,t2.t_smallint ,t2.t_tinyint' , 'PARTITION by t2.t_float ,t2.t_double '] + + self.group_only_where = ['group by tbname , loc' , 'group by tbname', 'group by tbname, t_bigint', 'group by tbname,t_int', 'group by tbname, t_smallint', 'group by tbname,t_tinyint', + 'group by tbname,t_float', 'group by tbname,t_double' , 'group by tbname,t_binary', 'group by tbname,t_nchar', 'group by tbname,t_bool' ,'group by tbname ,loc ,t_bigint', + 'group by tbname,t_binary ,t_nchar ,t_bool' , 'group by tbname,t_int ,t_smallint ,t_tinyint' , 'group by tbname,t_float ,t_double ' ] + self.group_only_where_j = ['group by t1.loc' , 'group by t1.t_bigint', 'group by t1.t_int', 'group by t1.t_smallint', 'group by t1.t_tinyint', + 'group by t1.t_float', 'group by t1.t_double' , 'group by t1.t_binary', 'group by t1.t_nchar', 'group by t1.t_bool' ,'group by t1.loc ,t1.t_bigint', + 'group by t1.t_binary ,t1.t_nchar ,t1.t_bool' , 'group by t1.t_int ,t1.t_smallint ,t1.t_tinyint' , 'group by t1.t_float ,t1.t_double ' , + 'group by t2.loc' , 'group by t2.t_bigint', 'group by t2.t_int', 'group by t2.t_smallint', 'group by t2.t_tinyint', + 'group by t2.t_float', 'group by t2.t_double' , 'group by t2.t_binary', 'group by t2.t_nchar', 'group by t2.t_bool' ,'group by t2.loc ,t2.t_bigint', + 'group by t2.t_binary ,t2.t_nchar ,t2.t_bool' , 'group by t2.t_int ,t2.t_smallint ,t2.t_tinyint' , 'group by t2.t_float ,t2.t_double ' ] + + self.partiton_where = ['PARTITION BY tbname , loc' , 'PARTITION BY tbname', 'PARTITION BY tbname, t_bigint', 'PARTITION BY tbname,t_int', 'PARTITION BY tbname, t_smallint', 'PARTITION BY tbname,t_tinyint', + 'PARTITION BY tbname,t_float', 'PARTITION BY tbname,t_double' , 'PARTITION BY tbname,t_binary', 'PARTITION BY tbname,t_nchar', 'PARTITION BY tbname,t_bool' ,'PARTITION BY tbname ,loc ,t_bigint', + 'PARTITION BY tbname,t_binary ,t_nchar ,t_bool' , 'PARTITION BY tbname,t_int ,t_smallint ,t_tinyint' , 'PARTITION BY tbname,t_float ,t_double '] + self.partiton_where_j = ['PARTITION BY t1.loc' , 'PARTITION by t1.t_bigint', 'PARTITION by t1.t_int', 'PARTITION by t1.t_smallint', 'PARTITION by t1.t_tinyint', + 'PARTITION by t1.t_float', 'PARTITION by t1.t_double' , 'PARTITION by t1.t_binary', 'PARTITION by t1.t_nchar', 'PARTITION by t1.t_bool' ,'PARTITION BY t1.loc ,t1.t_bigint', + 'PARTITION by t1.t_binary ,t1.t_nchar ,t1.t_bool' , 'PARTITION by t1.t_int ,t1.t_smallint ,t1.t_tinyint' , 'PARTITION by t1.t_float ,t1.t_double ', + 'PARTITION BY t2.loc' , 'PARTITION by t2.t_bigint', 'PARTITION by t2.t_int', 'PARTITION by t2.t_smallint', 'PARTITION by t2.t_tinyint', + 'PARTITION by t2.t_float', 'PARTITION by t2.t_double' , 'PARTITION by t2.t_binary', 'PARTITION by t2.t_nchar', 'PARTITION by t2.t_bool' ,'PARTITION BY t2.loc ,t2.t_bigint', + 'PARTITION by t2.t_binary ,t2.t_nchar ,t2.t_bool' , 'PARTITION by t2.t_int ,t2.t_smallint ,t2.t_tinyint' , 'PARTITION by t2.t_float ,t2.t_double '] + + self.group_where_regular = ['group by tbname ' , 'group by tbname', 'group by tbname, q_bigint', 'group by tbname,q_int', 'group by tbname, q_smallint', 'group by tbname,q_tinyint', + 'group by tbname,q_float', 'group by tbname,q_double' , 'group by tbname,q_binary', 'group by tbname,q_nchar', 'group by tbname,q_bool' ,'group by tbname ,q_bigint', + 'group by tbname,q_binary ,q_nchar ,q_bool' , 'group by tbname,q_int ,q_smallint ,q_tinyint' , 'group by tbname,q_float ,q_double ' , + 'PARTITION BY tbname ' , 'PARTITION BY tbname', 'PARTITION BY tbname, q_bigint', 'PARTITION BY tbname,q_int', 'PARTITION BY tbname, q_smallint', 'PARTITION BY tbname,q_tinyint', + 'PARTITION BY tbname,q_float', 'PARTITION BY tbname,q_double' , 'PARTITION BY tbname,q_binary', 'PARTITION BY tbname,q_nchar', 'PARTITION BY tbname,q_bool' ,'PARTITION BY tbname ,q_bigint', + 'PARTITION BY tbname,q_binary ,q_nchar ,q_bool' , 'PARTITION BY tbname,q_int ,q_smallint ,q_tinyint' , 'PARTITION BY tbname,q_float ,q_double '] + self.group_where_regular_j = ['group by t1.q_bigint', 'group by t1.q_int', 'group by t1.q_smallint', 'group by t1.q_tinyint', + 'group by t1.q_float', 'group by t1.q_double' , 'group by t1.q_binary', 'group by t1.q_nchar', 'group by t1.q_bool' ,'group by t1.q_bigint', + 'group by t1.q_binary ,t1.q_nchar ,t1.q_bool' , 'group by t1.q_int ,t1.q_smallint ,t1.q_tinyint' , 'group by t1.q_float ,t1.q_double ' , + 'PARTITION by t1.q_bigint', 'PARTITION by t1.q_int', 'PARTITION by t1.q_smallint', 'PARTITION by t1.q_tinyint', + 'PARTITION by t1.q_float', 'PARTITION by t1.q_double' , 'PARTITION by t1.q_binary', 'PARTITION by t1.q_nchar', 'PARTITION by t1.q_bool' ,'PARTITION BY t1.q_bigint', + 'PARTITION by t1.q_binary ,t1.q_nchar ,t1.q_bool' , 'PARTITION by t1.q_int ,t1.q_smallint ,t1.q_tinyint' , 'PARTITION by t1.q_float ,t1.q_double ', + 'group by t2.q_bigint', 'group by t2.q_int', 'group by t2.q_smallint', 'group by t2.q_tinyint', + 'group by t2.q_float', 'group by t2.q_double' , 'group by t2.q_binary', 'group by t2.q_nchar', 'group by t2.q_bool' ,'group by t2.q_bigint', + 'group by t2.q_binary ,t2.q_nchar ,t2.q_bool' , 'group by t2.q_int ,t2.q_smallint ,t2.q_tinyint' , 'group by t2.q_float ,t2.q_double ' , + 'PARTITION by t2.q_bigint', 'PARTITION by t2.q_int', 'PARTITION by t2.q_smallint', 'PARTITION by t2.q_tinyint', + 'PARTITION by t2.q_float', 'PARTITION by t2.q_double' , 'PARTITION by t2.q_binary', 'PARTITION by t2.q_nchar', 'PARTITION by t2.q_bool' ,'PARTITION BY t2.q_bigint', + 'PARTITION by t2.q_binary ,t2.q_nchar ,t2.q_bool' , 'PARTITION by t2.q_int ,t2.q_smallint ,t2.q_tinyint' , 'PARTITION by t2.q_float ,t2.q_double '] + + self.partiton_where_regular = ['PARTITION BY tbname ' , 'PARTITION BY tbname', 'PARTITION BY tbname, q_bigint', 'PARTITION BY tbname,q_int', 'PARTITION BY tbname, q_smallint', 'PARTITION BY tbname,q_tinyint', + 'PARTITION BY tbname,q_float', 'PARTITION BY tbname,q_double' , 'PARTITION BY tbname,q_binary', 'PARTITION BY tbname,q_nchar', 'PARTITION BY tbname,q_bool' ,'PARTITION BY tbname ,q_bigint', + 'PARTITION BY tbname,q_binary ,q_nchar ,q_bool' , 'PARTITION BY tbname,q_int ,q_smallint ,q_tinyint' , 'PARTITION BY tbname,q_float ,q_double '] + self.partiton_where_regular_j = ['PARTITION by t1.q_bigint', 'PARTITION by t1.q_int', 'PARTITION by t1.q_smallint', 'PARTITION by t1.q_tinyint', + 'PARTITION by t1.q_float', 'PARTITION by t1.q_double' , 'PARTITION by t1.q_binary', 'PARTITION by t1.q_nchar', 'PARTITION by t1.q_bool' ,'PARTITION BY t1.q_bigint', + 'PARTITION by t1.q_binary ,t1.q_nchar ,t1.q_bool' , 'PARTITION by t1.q_int ,t1.q_smallint ,t1.q_tinyint' , 'PARTITION by t1.q_float ,t1.q_double ', + 'PARTITION by t2.q_bigint', 'PARTITION by t2.q_int', 'PARTITION by t2.q_smallint', 'PARTITION by t2.q_tinyint', + 'PARTITION by t2.q_float', 'PARTITION by t2.q_double' , 'PARTITION by t2.q_binary', 'PARTITION by t2.q_nchar', 'PARTITION by t2.q_bool' ,'PARTITION BY t2.q_bigint', + 'PARTITION by t2.q_binary ,t2.q_nchar ,t2.q_bool' , 'PARTITION by t2.q_int ,t2.q_smallint ,t2.q_tinyint' , 'PARTITION by t2.q_float ,t2.q_double '] + + self.having_support = ['having count(q_int) > 0','having count(q_bigint) > 0','having count(q_smallint) > 0','having count(q_tinyint) > 0','having count(q_float) > 0','having count(q_double) > 0','having count(q_bool) > 0', + 'having avg(q_int) > 0','having avg(q_bigint) > 0','having avg(q_smallint) > 0','having avg(q_tinyint) > 0','having avg(q_float) > 0','having avg(q_double) > 0', + 'having sum(q_int) > 0','having sum(q_bigint) > 0','having sum(q_smallint) > 0','having sum(q_tinyint) > 0','having sum(q_float) > 0','having sum(q_double) > 0', + 'having STDDEV(q_int) > 0','having STDDEV(q_bigint) > 0','having STDDEV(q_smallint) > 0','having STDDEV(q_tinyint) > 0','having STDDEV(q_float) > 0','having STDDEV(q_double) > 0', + 'having TWA(q_int) > 0','having TWA(q_bigint) > 0','having TWA(q_smallint) > 0','having TWA(q_tinyint) > 0','having TWA(q_float) > 0','having TWA(q_double) > 0', + 'having IRATE(q_int) > 0','having IRATE(q_bigint) > 0','having IRATE(q_smallint) > 0','having IRATE(q_tinyint) > 0','having IRATE(q_float) > 0','having IRATE(q_double) > 0', + 'having MIN(q_int) > 0','having MIN(q_bigint) > 0','having MIN(q_smallint) > 0','having MIN(q_tinyint) > 0','having MIN(q_float) > 0','having MIN(q_double) > 0', + 'having MAX(q_int) > 0','having MAX(q_bigint) > 0','having MAX(q_smallint) > 0','having MAX(q_tinyint) > 0','having MAX(q_float) > 0','having MAX(q_double) > 0', + 'having FIRST(q_int) > 0','having FIRST(q_bigint) > 0','having FIRST(q_smallint) > 0','having FIRST(q_tinyint) > 0','having FIRST(q_float) > 0','having FIRST(q_double) > 0', + 'having LAST(q_int) > 0','having LAST(q_bigint) > 0','having LAST(q_smallint) > 0','having LAST(q_tinyint) > 0','having LAST(q_float) > 0','having LAST(q_double) > 0', + 'having APERCENTILE(q_int,10) > 0','having APERCENTILE(q_bigint,10) > 0','having APERCENTILE(q_smallint,10) > 0','having APERCENTILE(q_tinyint,10) > 0','having APERCENTILE(q_float,10) > 0','having APERCENTILE(q_double,10) > 0', + 'having count(q_int_null) > 0','having count(q_bigint_null) > 0','having count(q_smallint_null) > 0','having count(q_tinyint_null) > 0','having count(q_float_null) > 0','having count(q_double_null) > 0','having count(q_bool_null) > 0', + 'having avg(q_int_null) > 0','having avg(q_bigint_null) > 0','having avg(q_smallint_null) > 0','having avg(q_tinyint_null) > 0','having avg(q_float_null) > 0','having avg(q_double_null) > 0', + 'having sum(q_int_null) > 0','having sum(q_bigint_null) > 0','having sum(q_smallint_null) > 0','having sum(q_tinyint_null) > 0','having sum(q_float_null) > 0','having sum(q_double_null) > 0', + 'having STDDEV(q_int_null) > 0','having STDDEV(q_bigint_null) > 0','having STDDEV(q_smallint_null) > 0','having STDDEV(q_tinyint_null) > 0','having STDDEV(q_float_null) > 0','having STDDEV(q_double_null) > 0', + 'having TWA(q_int_null) > 0','having TWA(q_bigint_null) > 0','having TWA(q_smallint_null) > 0','having TWA(q_tinyint_null) > 0','having TWA(q_float_null) > 0','having TWA(q_double_null) > 0', + 'having IRATE(q_int_null) > 0','having IRATE(q_bigint_null) > 0','having IRATE(q_smallint_null) > 0','having IRATE(q_tinyint_null) > 0','having IRATE(q_float_null) > 0','having IRATE(q_double_null) > 0', + 'having MIN(q_int_null) > 0','having MIN(q_bigint_null) > 0','having MIN(q_smallint_null) > 0','having MIN(q_tinyint_null) > 0','having MIN(q_float_null) > 0','having MIN(q_double_null) > 0', + 'having MAX(q_int_null) > 0','having MAX(q_bigint_null) > 0','having MAX(q_smallint_null) > 0','having MAX(q_tinyint_null) > 0','having MAX(q_float_null) > 0','having MAX(q_double_null) > 0', + 'having FIRST(q_int_null) > 0','having FIRST(q_bigint_null) > 0','having FIRST(q_smallint_null) > 0','having FIRST(q_tinyint_null) > 0','having FIRST(q_float_null) > 0','having FIRST(q_double_null) > 0', + 'having LAST(q_int_null) > 0','having LAST(q_bigint_null) > 0','having LAST(q_smallint_null) > 0','having LAST(q_tinyint_null) > 0','having LAST(q_float_null) > 0','having LAST(q_double_null) > 0', + 'having APERCENTILE(q_int_null,10) > 0','having APERCENTILE(q_bigint_null,10) > 0','having APERCENTILE(q_smallint_null,10) > 0','having APERCENTILE(q_tinyint_null,10) > 0','having APERCENTILE(q_float_null,10) > 0','having APERCENTILE(q_double_null,10) > 0'] + self.having_not_support = ['having TOP(q_int,10) > 0','having TOP(q_bigint,10) > 0','having TOP(q_smallint,10) > 0','having TOP(q_tinyint,10) > 0','having TOP(q_float,10) > 0','having TOP(q_double,10) > 0','having TOP(q_bool,10) > 0', + 'having BOTTOM(q_int,10) > 0','having BOTTOM(q_bigint,10) > 0','having BOTTOM(q_smallint,10) > 0','having BOTTOM(q_tinyint,10) > 0','having BOTTOM(q_float,10) > 0','having BOTTOM(q_double,10) > 0','having BOTTOM(q_bool,10) > 0', + 'having LEASTSQUARES(q_int) > 0','having LEASTSQUARES(q_bigint) > 0','having LEASTSQUARES(q_smallint) > 0','having LEASTSQUARES(q_tinyint) > 0','having LEASTSQUARES(q_float) > 0','having LEASTSQUARES(q_double) > 0','having LEASTSQUARES(q_bool) > 0', + 'having FIRST(q_bool) > 0','having IRATE(q_bool) > 0','having PERCENTILE(q_bool,10) > 0','having avg(q_bool) > 0','having LAST_ROW(q_bool) > 0','having sum(q_bool) > 0','having STDDEV(q_bool) > 0','having APERCENTILE(q_bool,10) > 0','having TWA(q_bool) > 0','having LAST(q_bool) > 0', + 'having PERCENTILE(q_int,10) > 0','having PERCENTILE(q_bigint,10) > 0','having PERCENTILE(q_smallint,10) > 0','having PERCENTILE(q_tinyint,10) > 0','having PERCENTILE(q_float,10) > 0','having PERCENTILE(q_double,10) > 0', + 'having TOP(q_int_null,10) > 0','having TOP(q_bigint_null,10) > 0','having TOP(q_smallint_null,10) > 0','having TOP(q_tinyint_null,10) > 0','having TOP(q_float_null,10) > 0','having TOP(q_double_null,10) > 0','having TOP(q_bool_null,10) > 0', + 'having BOTTOM(q_int_null,10) > 0','having BOTTOM(q_bigint_null,10) > 0','having BOTTOM(q_smallint_null,10) > 0','having BOTTOM(q_tinyint_null,10) > 0','having BOTTOM(q_float_null,10) > 0','having BOTTOM(q_double_null,10) > 0','having BOTTOM(q_bool_null,10) > 0', + 'having LEASTSQUARES(q_int_null) > 0','having LEASTSQUARES(q_bigint_null) > 0','having LEASTSQUARES(q_smallint_null) > 0','having LEASTSQUARES(q_tinyint_null) > 0','having LEASTSQUARES(q_float_null) > 0','having LEASTSQUARES(q_double_null) > 0','having LEASTSQUARES(q_bool_null) > 0', + 'having FIRST(q_bool_null) > 0','having IRATE(q_bool_null) > 0','having PERCENTILE(q_bool_null,10) > 0','having avg(q_bool_null) > 0','having LAST_ROW(q_bool_null) > 0','having sum(q_bool_null) > 0','having STDDEV(q_bool_null) > 0','having APERCENTILE(q_bool_null,10) > 0','having TWA(q_bool_null) > 0','having LAST(q_bool_null) > 0', + 'having PERCENTILE(q_int_null,10) > 0','having PERCENTILE(q_bigint_null,10) > 0','having PERCENTILE(q_smallint_null,10) > 0','having PERCENTILE(q_tinyint_null,10) > 0','having PERCENTILE(q_float_null,10) > 0','having PERCENTILE(q_double_null,10) > 0'] + self.having_tagnot_support = ['having LAST_ROW(q_int) > 0','having LAST_ROW(q_bigint) > 0','having LAST_ROW(q_smallint) > 0','having LAST_ROW(q_tinyint) > 0','having LAST_ROW(q_float) > 0','having LAST_ROW(q_double) > 0', + 'having LAST_ROW(q_int_null) > 0','having LAST_ROW(q_bigint_null) > 0','having LAST_ROW(q_smallint_null) > 0','having LAST_ROW(q_tinyint_null) > 0','having LAST_ROW(q_float_null) > 0','having LAST_ROW(q_double_null) > 0'] + + self.having_support_j = ['having count(t1.q_int) > 0','having count(t1.q_bigint) > 0','having count(t1.q_smallint) > 0','having count(t1.q_tinyint) > 0','having count(t1.q_float) > 0','having count(t1.q_double) > 0','having count(t1.q_bool) > 0', + 'having avg(t1.q_int) > 0','having avg(t1.q_bigint) > 0','having avg(t1.q_smallint) > 0','having avg(t1.q_tinyint) > 0','having avg(t1.q_float) > 0','having avg(t1.q_double) > 0', + 'having sum(t1.q_int) > 0','having sum(t1.q_bigint) > 0','having sum(t1.q_smallint) > 0','having sum(t1.q_tinyint) > 0','having sum(t1.q_float) > 0','having sum(t1.q_double) > 0', + 'having STDDEV(t1.q_int) > 0','having STDDEV(t1.q_bigint) > 0','having STDDEV(t1.q_smallint) > 0','having STDDEV(t1.q_tinyint) > 0','having STDDEV(t1.q_float) > 0','having STDDEV(t1.q_double) > 0', + 'having TWA(t1.q_int) > 0','having TWA(t1.q_bigint) > 0','having TWA(t1.q_smallint) > 0','having TWA(t1.q_tinyint) > 0','having TWA(t1.q_float) > 0','having TWA(t1.q_double) > 0', + 'having IRATE(t1.q_int) > 0','having IRATE(t1.q_bigint) > 0','having IRATE(t1.q_smallint) > 0','having IRATE(t1.q_tinyint) > 0','having IRATE(t1.q_float) > 0','having IRATE(t1.q_double) > 0', + 'having MIN(t1.q_int) > 0','having MIN(t1.q_bigint) > 0','having MIN(t1.q_smallint) > 0','having MIN(t1.q_tinyint) > 0','having MIN(t1.q_float) > 0','having MIN(t1.q_double) > 0', + 'having MAX(t1.q_int) > 0','having MAX(t1.q_bigint) > 0','having MAX(t1.q_smallint) > 0','having MAX(t1.q_tinyint) > 0','having MAX(t1.q_float) > 0','having MAX(t1.q_double) > 0', + 'having FIRST(t1.q_int) > 0','having FIRST(t1.q_bigint) > 0','having FIRST(t1.q_smallint) > 0','having FIRST(t1.q_tinyint) > 0','having FIRST(t1.q_float) > 0','having FIRST(t1.q_double) > 0', + 'having LAST(t1.q_int) > 0','having LAST(t1.q_bigint) > 0','having LAST(t1.q_smallint) > 0','having LAST(t1.q_tinyint) > 0','having LAST(t1.q_float) > 0','having LAST(t1.q_double) > 0', + 'having APERCENTILE(t1.q_int,10) > 0','having APERCENTILE(t1.q_bigint,10) > 0','having APERCENTILE(t1.q_smallint,10) > 0','having APERCENTILE(t1.q_tinyint,10) > 0','having APERCENTILE(t1.q_float,10) > 0','having APERCENTILE(t1.q_double,10) > 0'] + + # limit offset where + self.limit_where = ['limit 1 offset 1' , 'limit 1' , 'limit 2 offset 1' , 'limit 2', 'limit 12 offset 1' , 'limit 20', 'limit 20 offset 10' , 'limit 200'] + self.limit1_where = ['limit 1 offset 1' , 'limit 1' ] + self.limit_u_where = ['limit 100 offset 10' , 'limit 50' , 'limit 100' , 'limit 10' ] + + # slimit soffset where + self.slimit_where = ['slimit 1 soffset 1' , 'slimit 1' , 'slimit 2 soffset 1' , 'slimit 2'] + self.slimit1_where = ['slimit 2 soffset 1' , 'slimit 1' ] + + self.calc_select_all = ['bottom(q_int,20)' , 'bottom(q_bigint,20)' , 'bottom(q_smallint,20)' , 'bottom(q_tinyint,20)' ,'bottom(q_float,20)' , 'bottom(q_double,20)' , + 'top(q_int,20)' , 'top(q_bigint,20)' , 'top(q_smallint,20)' ,'top(q_tinyint,20)' ,'top(q_float,20)' ,'top(q_double,20)' , + 'first(q_int)' , 'first(q_bigint)' , 'first(q_smallint)' , 'first(q_tinyint)' , 'first(q_float)' ,'first(q_double)' ,'first(q_binary)' ,'first(q_nchar)' ,'first(q_bool)' ,'first(q_ts)' , + 'last(q_int)' , 'last(q_bigint)' , 'last(q_smallint)' , 'last(q_tinyint)' , 'last(q_float)' ,'last(q_double)' , 'last(q_binary)' ,'last(q_nchar)' ,'last(q_bool)' ,'last(q_ts)' , + 'min(q_int)' , 'min(q_bigint)' , 'min(q_smallint)' , 'min(q_tinyint)' , 'min(q_float)' ,'min(q_double)' , + 'max(q_int)' , 'max(q_bigint)' , 'max(q_smallint)' , 'max(q_tinyint)' ,'max(q_float)' ,'max(q_double)' , + 'apercentile(q_int,20)' , 'apercentile(q_bigint,20)' ,'apercentile(q_smallint,20)' ,'apercentile(q_tinyint,20)' ,'apercentile(q_float,20)' ,'apercentile(q_double,20)' , + 'last_row(q_int)' , 'last_row(q_bigint)' , 'last_row(q_smallint)' , 'last_row(q_tinyint)' , 'last_row(q_float)' , + 'last_row(q_double)' , 'last_row(q_bool)' ,'last_row(q_binary)' ,'last_row(q_nchar)' ,'last_row(q_ts)', + 'bottom(q_int_null,20)' , 'bottom(q_bigint_null,20)' , 'bottom(q_smallint_null,20)' , 'bottom(q_tinyint_null,20)' ,'bottom(q_float_null,20)' , 'bottom(q_double_null,20)' , + 'top(q_int_null,20)' , 'top(q_bigint_null,20)' , 'top(q_smallint_null,20)' ,'top(q_tinyint_null,20)' ,'top(q_float_null,20)' ,'top(q_double_null,20)' , + 'first(q_int_null)' , 'first(q_bigint_null)' , 'first(q_smallint_null)' , 'first(q_tinyint_null)' , 'first(q_float_null)' ,'first(q_double_null)' ,'first(q_binary_null)' ,'first(q_nchar_null)' ,'first(q_bool_null)' ,'first(q_ts_null)' , + 'last(q_int_null)' , 'last(q_bigint_null)' , 'last(q_smallint_null)' , 'last(q_tinyint_null)' , 'last(q_float_null)' ,'last(q_double_null)' , 'last(q_binary_null)' ,'last(q_nchar_null)' ,'last(q_bool_null)' ,'last(q_ts_null)' , + 'min(q_int_null)' , 'min(q_bigint_null)' , 'min(q_smallint_null)' , 'min(q_tinyint_null)' , 'min(q_float_null)' ,'min(q_double_null)' , + 'max(q_int_null)' , 'max(q_bigint_null)' , 'max(q_smallint_null)' , 'max(q_tinyint_null)' ,'max(q_float_null)' ,'max(q_double_null)' , + 'last_row(q_int_null)' , 'last_row(q_bigint_null)' , 'last_row(q_smallint_null)' , 'last_row(q_tinyint_null)' , 'last_row(q_float_null)' , + 'last_row(q_double_null)' , 'last_row(q_bool_null)' ,'last_row(q_binary_null)' ,'last_row(q_nchar_null)' ,'last_row(q_ts_null)', + 'apercentile(q_int_null,20)' , 'apercentile(q_bigint_null,20)' ,'apercentile(q_smallint_null,20)' ,'apercentile(q_tinyint_null,20)' ,'apercentile(q_float_null,20)' ,'apercentile(q_double_null,20)' ,] + + self.calc_select_in_ts = ['bottom(q_int,20)' , 'bottom(q_bigint,20)' , 'bottom(q_smallint,20)' , 'bottom(q_tinyint,20)' ,'bottom(q_float,20)' , 'bottom(q_double,20)' , + 'top(q_int,20)' , 'top(q_bigint,20)' , 'top(q_smallint,20)' ,'top(q_tinyint,20)' ,'top(q_float,20)' ,'top(q_double,20)' , + 'bottom(q_int_null,20)' , 'bottom(q_bigint_null,20)' , 'bottom(q_smallint_null,20)' , 'bottom(q_tinyint_null,20)' ,'bottom(q_float_null,20)' , 'bottom(q_double_null,20)' , + 'top(q_int_null,20)' , 'top(q_bigint_null,20)' , 'top(q_smallint_null,20)' ,'top(q_tinyint_null,20)' ,'top(q_float_null,20)' ,'top(q_double_null,20)' , + 'first(q_int)' , 'first(q_bigint)' , 'first(q_smallint)' , 'first(q_tinyint)' , 'first(q_float)' ,'first(q_double)' ,'first(q_binary)' ,'first(q_nchar)' ,'first(q_bool)' ,'first(q_ts)' , + 'last(q_int)' , 'last(q_bigint)' , 'last(q_smallint)' , 'last(q_tinyint)' , 'last(q_float)' ,'last(q_double)' , 'last(q_binary)' ,'last(q_nchar)' ,'last(q_bool)' ,'last(q_ts)' , + 'first(q_int_null)' , 'first(q_bigint_null)' , 'first(q_smallint_null)' , 'first(q_tinyint_null)' , 'first(q_float_null)' ,'first(q_double_null)' ,'first(q_binary_null)' ,'first(q_nchar_null)' ,'first(q_bool_null)' ,'first(q_ts_null)' , + 'last(q_int_null)' , 'last(q_bigint_null)' , 'last(q_smallint_null)' , 'last(q_tinyint_null)' , 'last(q_float_null)' ,'last(q_double_null)' , 'last(q_binary_null)' ,'last(q_nchar_null)' ,'last(q_bool_null)' ,'last(q_ts_null)' ] + + self.calc_select_in = ['min(q_int)' , 'min(q_bigint)' , 'min(q_smallint)' , 'min(q_tinyint)' , 'min(q_float)' ,'min(q_double)' , + 'max(q_int)' , 'max(q_bigint)' , 'max(q_smallint)' , 'max(q_tinyint)' ,'max(q_float)' ,'max(q_double)' , + 'apercentile(q_int,20)' , 'apercentile(q_bigint,20)' ,'apercentile(q_smallint,20)' ,'apercentile(q_tinyint,20)' ,'apercentile(q_float,20)' ,'apercentile(q_double,20)' , + 'last_row(q_int)' , 'last_row(q_bigint)' , 'last_row(q_smallint)' , 'last_row(q_tinyint)' , 'last_row(q_float)' , + 'last_row(q_double)' , 'last_row(q_bool)' ,'last_row(q_binary)' ,'last_row(q_nchar)' ,'last_row(q_ts)', + 'min(q_int_null)' , 'min(q_bigint_null)' , 'min(q_smallint_null)' , 'min(q_tinyint_null)' , 'min(q_float_null)' ,'min(q_double_null)' , + 'max(q_int_null)' , 'max(q_bigint_null)' , 'max(q_smallint_null)' , 'max(q_tinyint_null)' ,'max(q_float_null)' ,'max(q_double_null)' , + 'apercentile(q_int_null,20)' , 'apercentile(q_bigint_null,20)' ,'apercentile(q_smallint_null,20)' ,'apercentile(q_tinyint_null,20)' ,'apercentile(q_float_null,20)' ,'apercentile(q_double_null,20)' , + 'last_row(q_int_null)' , 'last_row(q_bigint_null)' , 'last_row(q_smallint_null)' , 'last_row(q_tinyint_null)' , 'last_row(q_float_null)' , + 'last_row(q_double_null)' , 'last_row(q_bool_null)' ,'last_row(q_binary_null)' ,'last_row(q_nchar_null)' ,'last_row(q_ts_null)'] + + self.calc_select_not_support_ts = ['first(q_int)' , 'first(q_bigint)' , 'first(q_smallint)' , 'first(q_tinyint)' , 'first(q_float)' ,'first(q_double)' ,'first(q_binary)' ,'first(q_nchar)' ,'first(q_bool)' ,'first(q_ts)' , + 'last(q_int)' , 'last(q_bigint)' , 'last(q_smallint)' , 'last(q_tinyint)' , 'last(q_float)' ,'last(q_double)' , 'last(q_binary)' ,'last(q_nchar)' ,'last(q_bool)' ,'last(q_ts)' , + 'last_row(q_int)' , 'last_row(q_bigint)' , 'last_row(q_smallint)' , 'last_row(q_tinyint)' , 'last_row(q_float)' , + 'last_row(q_double)' , 'last_row(q_bool)' ,'last_row(q_binary)' ,'last_row(q_nchar)' ,'last_row(q_ts)', + 'apercentile(q_int,20)' , 'apercentile(q_bigint,20)' ,'apercentile(q_smallint,20)' ,'apercentile(q_tinyint,20)' ,'apercentile(q_float,20)' ,'apercentile(q_double,20)', + 'first(q_int_null)' , 'first(q_bigint_null)' , 'first(q_smallint_null)' , 'first(q_tinyint_null)' , 'first(q_float_null)' ,'first(q_double_null)' ,'first(q_binary_null)' ,'first(q_nchar_null)' ,'first(q_bool_null)' ,'first(q_ts_null)' , + 'last(q_int_null)' , 'last(q_bigint_null)' , 'last(q_smallint_null)' , 'last(q_tinyint_null)' , 'last(q_float_null)' ,'last(q_double_null)' , 'last(q_binary_null)' ,'last(q_nchar_null)' ,'last(q_bool_null)' ,'last(q_ts_null)' , + 'last_row(q_int_null)' , 'last_row(q_bigint_null)' , 'last_row(q_smallint_null)' , 'last_row(q_tinyint_null)' , 'last_row(q_float_null)' , + 'last_row(q_double_null)' , 'last_row(q_bool_null)' ,'last_row(q_binary_null)' ,'last_row(q_nchar_null)' ,'last_row(q_ts_null)', + 'apercentile(q_int_null,20)' , 'apercentile(q_bigint_null,20)' ,'apercentile(q_smallint_null,20)' ,'apercentile(q_tinyint_null,20)' ,'apercentile(q_float_null,20)' ,'apercentile(q_double_null,20)'] + + self.calc_select_support_ts = ['bottom(q_int,20)' , 'bottom(q_bigint,20)' , 'bottom(q_smallint,20)' , 'bottom(q_tinyint,20)' ,'bottom(q_float,20)' , 'bottom(q_double,20)' , + 'top(q_int,20)' , 'top(q_bigint,20)' , 'top(q_smallint,20)' ,'top(q_tinyint,20)' ,'top(q_float,20)' ,'top(q_double,20)' , + 'bottom(q_int_null,20)' , 'bottom(q_bigint_null,20)' , 'bottom(q_smallint_null,20)' , 'bottom(q_tinyint_null,20)' ,'bottom(q_float_null,20)' , 'bottom(q_double_null,20)' , + 'top(q_int_null,20)' , 'top(q_bigint_null,20)' , 'top(q_smallint_null,20)' ,'top(q_tinyint_null,20)' ,'top(q_float_null,20)' ,'top(q_double_null,20)' , + 'min(q_int)' , 'min(q_bigint)' , 'min(q_smallint)' , 'min(q_tinyint)' , 'min(q_float)' ,'min(q_double)' , + 'max(q_int)' , 'max(q_bigint)' , 'max(q_smallint)' , 'max(q_tinyint)' ,'max(q_float)' ,'max(q_double)' , + 'min(q_int_null)' , 'min(q_bigint_null)' , 'min(q_smallint_null)' , 'min(q_tinyint_null)' , 'min(q_float_null)' ,'min(q_double_null)' , + 'max(q_int_null)' , 'max(q_bigint_null)' , 'max(q_smallint_null)' , 'max(q_tinyint_null)' ,'max(q_float_null)' ,'max(q_double_null)'] + + self.calc_select_regular = [ 'PERCENTILE(q_int,10)' ,'PERCENTILE(q_bigint,20)' , 'PERCENTILE(q_smallint,30)' ,'PERCENTILE(q_tinyint,40)' ,'PERCENTILE(q_float,50)' ,'PERCENTILE(q_double,60)', + 'PERCENTILE(q_int_null,10)' ,'PERCENTILE(q_bigint_null,20)' , 'PERCENTILE(q_smallint_null,30)' ,'PERCENTILE(q_tinyint_null,40)' ,'PERCENTILE(q_float_null,50)' ,'PERCENTILE(q_double_null,60)'] + + + self.calc_select_fill = ['INTERP(q_int)' ,'INTERP(q_bigint)' ,'INTERP(q_smallint)' ,'INTERP(q_tinyint)', 'INTERP(q_float)' ,'INTERP(q_double)'] + self.interp_where = ['ts = now' , 'ts = \'2020-09-13 20:26:40.000\'' , 'ts = \'2020-09-13 20:26:40.009\'' ,'tbname in (\'table_1\') and ts = now' ,'tbname in (\'table_0\' ,\'table_1\',\'table_2\',\'table_3\',\'table_4\',\'table_5\') and ts = \'2020-09-13 20:26:40.000\'','tbname like \'table%\' and ts = \'2020-09-13 20:26:40.002\''] + + #two table join + self.calc_select_in_ts_j = ['bottom(t1.q_int,20)' , 'bottom(t1.q_bigint,20)' , 'bottom(t1.q_smallint,20)' , 'bottom(t1.q_tinyint,20)' ,'bottom(t1.q_float,20)' , 'bottom(t1.q_double,20)' , + 'top(t1.q_int,20)' , 'top(t1.q_bigint,20)' , 'top(t1.q_smallint,20)' ,'top(t1.q_tinyint,20)' ,'top(t1.q_float,20)' ,'top(t1.q_double,20)' , + 'first(t1.q_int)' , 'first(t1.q_bigint)' , 'first(t1.q_smallint)' , 'first(t1.q_tinyint)' , 'first(t1.q_float)' ,'first(t1.q_double)' ,'first(t1.q_binary)' ,'first(t1.q_nchar)' ,'first(t1.q_bool)' ,'first(t1.q_ts)' , + 'last(t1.q_int)' , 'last(t1.q_bigint)' , 'last(t1.q_smallint)' , 'last(t1.q_tinyint)' , 'last(t1.q_float)' ,'last(t1.q_double)' , 'last(t1.q_binary)' ,'last(t1.q_nchar)' ,'last(t1.q_bool)' ,'last(t1.q_ts)' , + 'bottom(t2.q_int,20)' , 'bottom(t2.q_bigint,20)' , 'bottom(t2.q_smallint,20)' , 'bottom(t2.q_tinyint,20)' ,'bottom(t2.q_float,20)' , 'bottom(t2.q_double,20)' , + 'top(t2.q_int,20)' , 'top(t2.q_bigint,20)' , 'top(t2.q_smallint,20)' ,'top(t2.q_tinyint,20)' ,'top(t2.q_float,20)' ,'top(t2.q_double,20)' , + 'first(t2.q_int)' , 'first(t2.q_bigint)' , 'first(t2.q_smallint)' , 'first(t2.q_tinyint)' , 'first(t2.q_float)' ,'first(t2.q_double)' ,'first(t2.q_binary)' ,'first(t2.q_nchar)' ,'first(t2.q_bool)' ,'first(t2.q_ts)' , + 'last(t2.q_int)' , 'last(t2.q_bigint)' , 'last(t2.q_smallint)' , 'last(t2.q_tinyint)' , 'last(t2.q_float)' ,'last(t2.q_double)' , 'last(t2.q_binary)' ,'last(t2.q_nchar)' ,'last(t2.q_bool)' ,'last(t2.q_ts)', + 'bottom(t1.q_int_null,20)' , 'bottom(t1.q_bigint_null,20)' , 'bottom(t1.q_smallint_null,20)' , 'bottom(t1.q_tinyint_null,20)' ,'bottom(t1.q_float_null,20)' , 'bottom(t1.q_double_null,20)' , + 'top(t1.q_int_null,20)' , 'top(t1.q_bigint_null,20)' , 'top(t1.q_smallint_null,20)' ,'top(t1.q_tinyint_null,20)' ,'top(t1.q_float_null,20)' ,'top(t1.q_double_null,20)' , + 'first(t1.q_int_null)' , 'first(t1.q_bigint_null)' , 'first(t1.q_smallint_null)' , 'first(t1.q_tinyint_null)' , 'first(t1.q_float_null)' ,'first(t1.q_double_null)' ,'first(t1.q_binary_null)' ,'first(t1.q_nchar_null))' ,'first(t1.q_bool_null)' ,'first(t1.q_ts_null)' , + 'last(t1.q_int_null)' , 'last(t1.q_bigint_null)' , 'last(t1.q_smallint_null)' , 'last(t1.q_tinyint_null)' , 'last(t1.q_float_null)' ,'last(t1.q_double_null)' , 'last(t1.q_binary_null)' ,'last(t1.q_nchar_null))' ,'last(t1.q_bool_null)' ,'last(t1.q_ts_null)' , + 'bottom(t2.q_int_null,20)' , 'bottom(t2.q_bigint_null,20)' , 'bottom(t2.q_smallint_null,20)' , 'bottom(t2.q_tinyint_null,20)' ,'bottom(t2.q_float_null,20)' , 'bottom(t2.q_double_null,20)' , + 'top(t2.q_int_null,20)' , 'top(t2.q_bigint_null,20)' , 'top(t2.q_smallint_null,20)' ,'top(t2.q_tinyint_null,20)' ,'top(t2.q_float_null,20)' ,'top(t2.q_double_null,20)' , + 'first(t2.q_int_null)' , 'first(t2.q_bigint_null)' , 'first(t2.q_smallint_null)' , 'first(t2.q_tinyint_null)' , 'first(t2.q_float_null)' ,'first(t2.q_double_null)' ,'first(t2.q_binary_null)' ,'first(t2.q_nchar_null))' ,'first(t2.q_bool_null)' ,'first(t2.q_ts_null)' , + 'last(t2.q_int_null)' , 'last(t2.q_bigint_null)' , 'last(t2.q_smallint_null)' , 'last(t2.q_tinyint_null)' , 'last(t2.q_float_null)' ,'last(t2.q_double_null)' , 'last(t2.q_binary_null)' ,'last(t2.q_nchar_null))' ,'last(t2.q_bool_null)' ,'last(t2.q_ts_null)'] + + self.calc_select_in_support_ts_j = ['bottom(t1.q_int,20)' , 'bottom(t1.q_bigint,20)' , 'bottom(t1.q_smallint,20)' , 'bottom(t1.q_tinyint,20)' ,'bottom(t1.q_float,20)' , 'bottom(t1.q_double,20)' , + 'top(t1.q_int,20)' , 'top(t1.q_bigint,20)' , 'top(t1.q_smallint,20)' ,'top(t1.q_tinyint,20)' ,'top(t1.q_float,20)' ,'top(t1.q_double,20)' , + 'min(t1.q_int)' , 'min(t1.q_bigint)' , 'min(t1.q_smallint)' , 'min(t1.q_tinyint)' , 'min(t1.q_float)' ,'min(t1.q_double)' , + 'max(t1.q_int)' , 'max(t1.q_bigint)' , 'max(t1.q_smallint)' , 'max(t1.q_tinyint)' ,'max(t1.q_float)' ,'max(t1.q_double)' , + 'bottom(t2.q_int,20)' , 'bottom(t2.q_bigint,20)' , 'bottom(t2.q_smallint,20)' , 'bottom(t2.q_tinyint,20)' ,'bottom(t2.q_float,20)' , 'bottom(t2.q_double,20)' , + 'top(t2.q_int,20)' , 'top(t2.q_bigint,20)' , 'top(t2.q_smallint,20)' ,'top(t2.q_tinyint,20)' ,'top(t2.q_float,20)' ,'top(t2.q_double,20)' , + 'min(t2.q_int)' , 'min(t2.q_bigint)' , 'min(t2.q_smallint)' , 'min(t2.q_tinyint)' , 'min(t2.q_float)' ,'min(t2.q_double)' , + 'max(t2.q_int)' , 'max(t2.q_bigint)' , 'max(t2.q_smallint)' , 'max(t2.q_tinyint)' ,'max(t2.q_float)' ,'max(t2.q_double)' , + 'bottom(t1.q_int_null,20)' , 'bottom(t1.q_bigint_null,20)' , 'bottom(t1.q_smallint_null,20)' , 'bottom(t1.q_tinyint_null,20)' ,'bottom(t1.q_float_null,20)' , 'bottom(t1.q_double_null,20)' , + 'top(t1.q_int_null,20)' , 'top(t1.q_bigint_null,20)' , 'top(t1.q_smallint_null,20)' ,'top(t1.q_tinyint_null,20)' ,'top(t1.q_float_null,20)' ,'top(t1.q_double_null,20)' , + 'bottom(t2.q_int_null,20)' , 'bottom(t2.q_bigint_null,20)' , 'bottom(t2.q_smallint_null,20)' , 'bottom(t2.q_tinyint_null,20)' ,'bottom(t2.q_float_null,20)' , 'bottom(t2.q_double_null,20)' , + 'top(t2.q_int_null,20)' , 'top(t2.q_bigint_null,20)' , 'top(t2.q_smallint_null,20)' ,'top(t2.q_tinyint_null,20)' ,'top(t2.q_float_null,20)' ,'top(t2.q_double_null,20)' , + 'min(t1.q_int_null)' , 'min(t1.q_bigint_null)' , 'min(t1.q_smallint_null)' , 'min(t1.q_tinyint_null)' , 'min(t1.q_float_null)' ,'min(t1.q_double_null)' , + 'max(t1.q_int_null)' , 'max(t1.q_bigint_null)' , 'max(t1.q_smallint_null)' , 'max(t1.q_tinyint_null)' ,'max(t1.q_float_null)' ,'max(t1.q_double_null)' , + 'min(t2.q_int_null)' , 'min(t2.q_bigint_null)' , 'min(t2.q_smallint_null)' , 'min(t2.q_tinyint_null)' , 'min(t2.q_float_null)' ,'min(t2.q_double_null)' , + 'max(t2.q_int_null)' , 'max(t2.q_bigint_null)' , 'max(t2.q_smallint_null)' , 'max(t2.q_tinyint_null)' ,'max(t2.q_float_null)' ,'max(t2.q_double_null)' ] + + self.calc_select_in_not_support_ts_j = ['apercentile(t1.q_int,20)' , 'apercentile(t1.q_bigint,20)' ,'apercentile(t1.q_smallint,20)' ,'apercentile(t1.q_tinyint,20)' ,'apercentile(t1.q_float,20)' ,'apercentile(t1.q_double,20)' , + 'apercentile(t1.q_int_null,20)' , 'apercentile(t1.q_bigint_null,20)' ,'apercentile(t1.q_smallint_null,20)' ,'apercentile(t1.q_tinyint_null,20)' ,'apercentile(t1.q_float_null,20)' ,'apercentile(t1.q_double_null,20)' , + 'last_row(t1.q_int)' , 'last_row(t1.q_bigint)' , 'last_row(t1.q_smallint)' , 'last_row(t1.q_tinyint)' , 'last_row(t1.q_float)' , + 'last_row(t1.q_double)' , 'last_row(t1.q_bool)' ,'last_row(t1.q_binary)' ,'last_row(t1.q_nchar)' ,'last_row(t1.q_ts)' , + 'last_row(t1.q_int_null)' , 'last_row(t1.q_bigint_null)' , 'last_row(t1.q_smallint_null)' , 'last_row(t1.q_tinyint_null)' , 'last_row(t1.q_float_null)' , + 'last_row(t1.q_double_null)' , 'last_row(t1.q_bool_null)' ,'last_row(t1.q_binary_null)' ,'last_row(t1.q_nchar_null)' ,'last_row(t1.q_ts_null)' , + 'apercentile(t2.q_int,20)' , 'apercentile(t2.q_bigint,20)' ,'apercentile(t2.q_smallint,20)' ,'apercentile(t2.q_tinyint,20)' ,'apercentile(t2.q_float,20)' ,'apercentile(t2.q_double,20)' , + 'apercentile(t2.q_int_null,20)' , 'apercentile(t2.q_bigint_null,20)' ,'apercentile(t2.q_smallint_null,20)' ,'apercentile(t2.q_tinyint_null,20)' ,'apercentile(t2.q_float_null,20)' ,'apercentile(t2.q_double_null,20)' , + 'last_row(t2.q_int)' , 'last_row(t2.q_bigint)' , 'last_row(t2.q_smallint)' , 'last_row(t2.q_tinyint)' , 'last_row(t2.q_float)' , + 'last_row(t2.q_double)' , 'last_row(t2.q_bool)' ,'last_row(t2.q_binary)' ,'last_row(t2.q_nchar)' ,'last_row(t2.q_ts)', + 'last_row(t2.q_int_null)' , 'last_row(t2.q_bigint_null)' , 'last_row(t2.q_smallint_null)' , 'last_row(t2.q_tinyint_null)' , 'last_row(t2.q_float_null)' , + 'last_row(t2.q_double_null)' , 'last_row(t2.q_bool_null)' ,'last_row(t2.q_binary_null)' ,'last_row(t2.q_nchar_null)' ,'last_row(t2.q_ts_null)'] + + self.calc_select_in_j = ['min(t1.q_int)' , 'min(t1.q_bigint)' , 'min(t1.q_smallint)' , 'min(t1.q_tinyint)' , 'min(t1.q_float)' ,'min(t1.q_double)' , + 'max(t1.q_int)' , 'max(t1.q_bigint)' , 'max(t1.q_smallint)' , 'max(t1.q_tinyint)' ,'max(t1.q_float)' ,'max(t1.q_double)' , + 'apercentile(t1.q_int,20)' , 'apercentile(t1.q_bigint,20)' ,'apercentile(t1.q_smallint,20)' ,'apercentile(t1.q_tinyint,20)' ,'apercentile(t1.q_float,20)' ,'apercentile(t1.q_double,20)' , + 'min(t1.q_int_null)' , 'min(t1.q_bigint_null)' , 'min(t1.q_smallint_null)' , 'min(t1.q_tinyint_null)' , 'min(t1.q_float_null)' ,'min(t1.q_double_null)' , + 'max(t1.q_int_null)' , 'max(t1.q_bigint_null)' , 'max(t1.q_smallint_null)' , 'max(t1.q_tinyint_null)' ,'max(t1.q_float_null)' ,'max(t1.q_double_null)' , + 'apercentile(t1.q_int_null,20)' , 'apercentile(t1.q_bigint_null,20)' ,'apercentile(t1.q_smallint_null,20)' ,'apercentile(t1.q_tinyint_null,20)' ,'apercentile(t1.q_float_null,20)' ,'apercentile(t1.q_double_null,20)' , + 'last_row(t1.q_int)' , 'last_row(t1.q_bigint)' , 'last_row(t1.q_smallint)' , 'last_row(t1.q_tinyint)' , 'last_row(t1.q_float)' , + 'last_row(t1.q_double)' , 'last_row(t1.q_bool)' ,'last_row(t1.q_binary)' ,'last_row(t1.q_nchar)' ,'last_row(t1.q_ts)' , + 'min(t2.q_int)' , 'min(t2.q_bigint)' , 'min(t2.q_smallint)' , 'min(t2.q_tinyint)' , 'min(t2.q_float)' ,'min(t2.q_double)' , + 'max(t2.q_int)' , 'max(t2.q_bigint)' , 'max(t2.q_smallint)' , 'max(t2.q_tinyint)' ,'max(t2.q_float)' ,'max(t2.q_double)' , + 'last_row(t1.q_int_null)' , 'last_row(t1.q_bigint_null)' , 'last_row(t1.q_smallint_null)' , 'last_row(t1.q_tinyint_null)' , 'last_row(t1.q_float_null)' , + 'last_row(t1.q_double_null)' , 'last_row(t1.q_bool_null)' ,'last_row(t1.q_binary_null)' ,'last_row(t1.q_nchar_null)' ,'last_row(t1.q_ts_null)' , + 'min(t2.q_int_null)' , 'min(t2.q_bigint_null)' , 'min(t2.q_smallint_null)' , 'min(t2.q_tinyint_null)' , 'min(t2.q_float_null)' ,'min(t2.q_double_null)' , + 'max(t2.q_int_null)' , 'max(t2.q_bigint_null)' , 'max(t2.q_smallint_null)' , 'max(t2.q_tinyint_null)' ,'max(t2.q_float_null)' ,'max(t2.q_double_null)' , + 'apercentile(t2.q_int,20)' , 'apercentile(t2.q_bigint,20)' ,'apercentile(t2.q_smallint,20)' ,'apercentile(t2.q_tinyint,20)' ,'apercentile(t2.q_float,20)' ,'apercentile(t2.q_double,20)' , + 'apercentile(t2.q_int_null,20)' , 'apercentile(t2.q_bigint_null,20)' ,'apercentile(t2.q_smallint_null,20)' ,'apercentile(t2.q_tinyint_null,20)' ,'apercentile(t2.q_float_null,20)' ,'apercentile(t2.q_double_null,20)' , + 'last_row(t2.q_int)' , 'last_row(t2.q_bigint)' , 'last_row(t2.q_smallint)' , 'last_row(t2.q_tinyint)' , 'last_row(t2.q_float)' , + 'last_row(t2.q_double)' , 'last_row(t2.q_bool)' ,'last_row(t2.q_binary)' ,'last_row(t2.q_nchar)' ,'last_row(t2.q_ts)', + 'last_row(t2.q_int_null)' , 'last_row(t2.q_bigint_null)' , 'last_row(t2.q_smallint_null)' , 'last_row(t2.q_tinyint_null)' , 'last_row(t2.q_float_null)' , + 'last_row(t2.q_double_null)' , 'last_row(t2.q_bool_null)' ,'last_row(t2.q_binary_null)' ,'last_row(t2.q_nchar_null)' ,'last_row(t2.q_ts_null)'] + self.calc_select_all_j = self.calc_select_in_ts_j + self.calc_select_in_j + + self.calc_select_regular_j = [ 'PERCENTILE(t1.q_int,10)' ,'PERCENTILE(t1.q_bigint,20)' , 'PERCENTILE(t1.q_smallint,30)' ,'PERCENTILE(t1.q_tinyint,40)' ,'PERCENTILE(t1.q_float,50)' ,'PERCENTILE(t1.q_double,60)' , + 'PERCENTILE(t2.q_int,10)' ,'PERCENTILE(t2.q_bigint,20)' , 'PERCENTILE(t2.q_smallint,30)' ,'PERCENTILE(t2.q_tinyint,40)' ,'PERCENTILE(t2.q_float,50)' ,'PERCENTILE(t2.q_double,60)', + 'PERCENTILE(t1.q_int_null,10)' ,'PERCENTILE(t1.q_bigint_null,20)' , 'PERCENTILE(t1.q_smallint_null,30)' ,'PERCENTILE(t1.q_tinyint_null,40)' ,'PERCENTILE(t1.q_float_null,50)' ,'PERCENTILE(t1.q_double_null,60)' , + 'PERCENTILE(t2.q_int_null,10)' ,'PERCENTILE(t2.q_bigint_null,20)' , 'PERCENTILE(t2.q_smallint_null,30)' ,'PERCENTILE(t2.q_tinyint_null,40)' ,'PERCENTILE(t2.q_float_null,50)' ,'PERCENTILE(t2.q_double_null,60)'] + + + self.calc_select_fill_j = ['INTERP(t1.q_int)' ,'INTERP(t1.q_bigint)' ,'INTERP(t1.q_smallint)' ,'INTERP(t1.q_tinyint)', 'INTERP(t1.q_float)' ,'INTERP(t1.q_double)' , + 'INTERP(t2.q_int)' ,'INTERP(t2.q_bigint)' ,'INTERP(t2.q_smallint)' ,'INTERP(t2.q_tinyint)', 'INTERP(t2.q_float)' ,'INTERP(t2.q_double)'] + self.interp_where_j = ['t1.ts = now' , 't1.ts = \'2020-09-13 20:26:40.000\'' , 't1.ts = \'2020-09-13 20:26:40.009\'' ,'t2.ts = now' , 't2.ts = \'2020-09-13 20:26:40.000\'' , 't2.ts = \'2020-09-13 20:26:40.009\'' , + 't1.tbname in (\'table_1\') and t1.ts = now' ,'t1.tbname in (\'table_0\' ,\'table_1\',\'table_2\',\'table_3\',\'table_4\',\'table_5\') and t1.ts = \'2020-09-13 20:26:40.000\'','t1.tbname like \'table%\' and t1.ts = \'2020-09-13 20:26:40.002\'', + 't2.tbname in (\'table_1\') and t2.ts = now' ,'t2.tbname in (\'table_0\' ,\'table_1\',\'table_2\',\'table_3\',\'table_4\',\'table_5\') and t2.ts = \'2020-09-13 20:26:40.000\'','t2.tbname like \'table%\' and t2.ts = \'2020-09-13 20:26:40.002\''] + + self.calc_aggregate_all = ['count(*)' , 'count(q_int)' ,'count(q_bigint)' , 'count(q_smallint)' ,'count(q_tinyint)' ,'count(q_float)' , + 'count(q_double)' ,'count(q_binary)' ,'count(q_nchar)' ,'count(q_bool)' ,'count(q_ts)' , + 'avg(q_int)' ,'avg(q_bigint)' , 'avg(q_smallint)' ,'avg(q_tinyint)' ,'avg(q_float)' ,'avg(q_double)' , + 'sum(q_int)' ,'sum(q_bigint)' , 'sum(q_smallint)' ,'sum(q_tinyint)' ,'sum(q_float)' ,'sum(q_double)' , + 'STDDEV(q_int)' ,'STDDEV(q_bigint)' , 'STDDEV(q_smallint)' ,'STDDEV(q_tinyint)' ,'STDDEV(q_float)' ,'STDDEV(q_double)', + 'APERCENTILE(q_int,10)' ,'APERCENTILE(q_bigint,20)' , 'APERCENTILE(q_smallint,30)' ,'APERCENTILE(q_tinyint,40)' ,'APERCENTILE(q_float,50)' ,'APERCENTILE(q_double,60)', + 'count(q_int_null)' ,'count(q_bigint_null)' , 'count(q_smallint_null)' ,'count(q_tinyint_null)' ,'count(q_float_null)' , + 'count(q_double_null)' ,'count(q_binary_null)' ,'count(q_nchar_null)' ,'count(q_bool_null)' ,'count(q_ts_null)' , + 'avg(q_int_null)' ,'avg(q_bigint_null)' , 'avg(q_smallint_null)' ,'avg(q_tinyint_null)' ,'avg(q_float_null)' ,'avg(q_double_null)' , + 'sum(q_int_null)' ,'sum(q_bigint_null)' , 'sum(q_smallint_null)' ,'sum(q_tinyint_null)' ,'sum(q_float_null)' ,'sum(q_double_null)' , + 'STDDEV(q_int_null)' ,'STDDEV(q_bigint_null)' , 'STDDEV(q_smallint_null)' ,'STDDEV(q_tinyint_null)' ,'STDDEV(q_float_null)' ,'STDDEV(q_double_null)', + 'APERCENTILE(q_int_null,10)' ,'APERCENTILE(q_bigint_null,20)' , 'APERCENTILE(q_smallint_null,30)' ,'APERCENTILE(q_tinyint_null,40)' ,'APERCENTILE(q_float_null,50)' ,'APERCENTILE(q_double_null,60)'] + + self.calc_aggregate_regular = ['twa(q_int)' ,'twa(q_bigint)' , 'twa(q_smallint)' ,'twa(q_tinyint)' ,'twa (q_float)' ,'twa(q_double)' , + 'IRATE(q_int)' ,'IRATE(q_bigint)' , 'IRATE(q_smallint)' ,'IRATE(q_tinyint)' ,'IRATE (q_float)' ,'IRATE(q_double)' , + 'twa(q_int_null)' ,'twa(q_bigint_null)' , 'twa(q_smallint_null)' ,'twa(q_tinyint_null)' ,'twa (q_float_null)' ,'twa(q_double_null)' , + 'IRATE(q_int_null)' ,'IRATE(q_bigint_null)' , 'IRATE(q_smallint_null)' ,'IRATE(q_tinyint_null)' ,'IRATE (q_float_null)' ,'IRATE(q_double_null)' , + 'LEASTSQUARES(q_int,15,3)' , 'LEASTSQUARES(q_bigint,10,1)' , 'LEASTSQUARES(q_smallint,20,3)' ,'LEASTSQUARES(q_tinyint,10,4)' ,'LEASTSQUARES(q_float,6,4)' ,'LEASTSQUARES(q_double,3,1)' , + 'PERCENTILE(q_int,10)' ,'PERCENTILE(q_bigint,20)' , 'PERCENTILE(q_smallint,30)' ,'PERCENTILE(q_tinyint,40)' ,'PERCENTILE(q_float,50)' ,'PERCENTILE(q_double,60)', + 'LEASTSQUARES(q_int_null,15,3)' , 'LEASTSQUARES(q_bigint_null,10,1)' , 'LEASTSQUARES(q_smallint_null,20,3)' ,'LEASTSQUARES(q_tinyint_null,10,4)' ,'LEASTSQUARES(q_float_null,6,4)' ,'LEASTSQUARES(q_double_null,3,1)' , + 'PERCENTILE(q_int_null,10)' ,'PERCENTILE(q_bigint_null,20)' , 'PERCENTILE(q_smallint_null,30)' ,'PERCENTILE(q_tinyint_null,40)' ,'PERCENTILE(q_float_null,50)' ,'PERCENTILE(q_double_null,60)'] + + self.calc_aggregate_groupbytbname = ['twa(q_int)' ,'twa(q_bigint)' , 'twa(q_smallint)' ,'twa(q_tinyint)' ,'twa (q_float)' ,'twa(q_double)' , + 'IRATE(q_int)' ,'IRATE(q_bigint)' , 'IRATE(q_smallint)' ,'IRATE(q_tinyint)' ,'IRATE (q_float)' ,'IRATE(q_double)', + 'twa(q_int_null)' ,'twa(q_bigint_null)' , 'twa(q_smallint_null)' ,'twa(q_tinyint_null)' ,'twa (q_float_null)' ,'twa(q_double_null)' , + 'IRATE(q_int_null)' ,'IRATE(q_bigint_null)' , 'IRATE(q_smallint_null)' ,'IRATE(q_tinyint_null)' ,'IRATE (q_float_null)' ,'IRATE(q_double_null)'] + + #two table join + self.calc_aggregate_all_j = ['count(t1.*)' , 'count(t1.q_int)' ,'count(t1.q_bigint)' , 'count(t1.q_smallint)' ,'count(t1.q_tinyint)' ,'count(t1.q_float)' , + 'count(t1.q_double)' ,'count(t1.q_binary)' ,'count(t1.q_nchar)' ,'count(t1.q_bool)' ,'count(t1.q_ts)' , + 'avg(t1.q_int)' ,'avg(t1.q_bigint)' , 'avg(t1.q_smallint)' ,'avg(t1.q_tinyint)' ,'avg(t1.q_float)' ,'avg(t1.q_double)' , + 'sum(t1.q_int)' ,'sum(t1.q_bigint)' , 'sum(t1.q_smallint)' ,'sum(t1.q_tinyint)' ,'sum(t1.q_float)' ,'sum(t1.q_double)' , + 'STDDEV(t1.q_int)' ,'STDDEV(t1.q_bigint)' , 'STDDEV(t1.q_smallint)' ,'STDDEV(t1.q_tinyint)' ,'STDDEV(t1.q_float)' ,'STDDEV(t1.q_double)', + 'APERCENTILE(t1.q_int,10)' ,'APERCENTILE(t1.q_bigint,20)' , 'APERCENTILE(t1.q_smallint,30)' ,'APERCENTILE(t1.q_tinyint,40)' ,'APERCENTILE(t1.q_float,50)' ,'APERCENTILE(t1.q_double,60)' , + 'count(t1.q_int_null)' ,'count(t1.q_bigint_null)' , 'count(t1.q_smallint_null)' ,'count(t1.q_tinyint_null)' ,'count(t1.q_float_null)' , + 'count(t1.q_double_null)' ,'count(t1.q_binary_null)' ,'count(t1.q_nchar_null)' ,'count(t1.q_bool_null)' ,'count(t1.q_ts_null)' , + 'avg(t1.q_int_null)' ,'avg(t1.q_bigint_null)' , 'avg(t1.q_smallint_null)' ,'avg(t1.q_tinyint_null)' ,'avg(t1.q_float_null)' ,'avg(t1.q_double_null)' , + 'sum(t1.q_int_null)' ,'sum(t1.q_bigint_null)' , 'sum(t1.q_smallint_null)' ,'sum(t1.q_tinyint_null)' ,'sum(t1.q_float_null)' ,'sum(t1.q_double_null)' , + 'STDDEV(t1.q_int_null)' ,'STDDEV(t1.q_bigint_null)' , 'STDDEV(t1.q_smallint_null)' ,'STDDEV(t1.q_tinyint_null)' ,'STDDEV(t1.q_float_null)' ,'STDDEV(t1.q_double_null)', + 'APERCENTILE(t1.q_int_null,10)' ,'APERCENTILE(t1.q_bigint_null,20)' , 'APERCENTILE(t1.q_smallint_null,30)' ,'APERCENTILE(t1.q_tinyint_null,40)' ,'APERCENTILE(t1.q_float_null,50)' ,'APERCENTILE(t1.q_double,60)' , + 'count(t2.*)' , 'count(t2.q_int)' ,'count(t2.q_bigint)' , 'count(t2.q_smallint)' ,'count(t2.q_tinyint)' ,'count(t2.q_float)' , + 'count(t2.q_double)' ,'count(t2.q_binary)' ,'count(t2.q_nchar)' ,'count(t2.q_bool)' ,'count(t2.q_ts)' , + 'avg(t2.q_int)' ,'avg(t2.q_bigint)' , 'avg(t2.q_smallint)' ,'avg(t2.q_tinyint)' ,'avg(t2.q_float)' ,'avg(t2.q_double)' , + 'sum(t2.q_int)' ,'sum(t2.q_bigint)' , 'sum(t2.q_smallint)' ,'sum(t2.q_tinyint)' ,'sum(t2.q_float)' ,'sum(t2.q_double)' , + 'STDDEV(t2.q_int)' ,'STDDEV(t2.q_bigint)' , 'STDDEV(t2.q_smallint)' ,'STDDEV(t2.q_tinyint)' ,'STDDEV(t2.q_float)' ,'STDDEV(t2.q_double)', + 'APERCENTILE(t2.q_int,10)' ,'APERCENTILE(t2.q_bigint,20)' , 'APERCENTILE(t2.q_smallint,30)' ,'APERCENTILE(t2.q_tinyint,40)' ,'APERCENTILE(t2.q_float,50)' ,'APERCENTILE(t2.q_double,60)', + 'count(t2.q_int_null)' ,'count(t2.q_bigint_null)' , 'count(t2.q_smallint_null)' ,'count(t2.q_tinyint_null)' ,'count(t2.q_float_null)' , + 'count(t2.q_double_null)' ,'count(t2.q_binary_null)' ,'count(t2.q_nchar_null)' ,'count(t2.q_bool_null)' ,'count(t2.q_ts_null)' , + 'avg(t2.q_int_null)' ,'avg(t2.q_bigint_null)' , 'avg(t2.q_smallint_null)' ,'avg(t2.q_tinyint_null)' ,'avg(t2.q_float_null)' ,'avg(t2.q_double_null)' , + 'sum(t2.q_int_null)' ,'sum(t2.q_bigint_null)' , 'sum(t2.q_smallint_null)' ,'sum(t2.q_tinyint_null)' ,'sum(t2.q_float_null)' ,'sum(t2.q_double_null)' , + 'STDDEV(t2.q_int_null)' ,'STDDEV(t2.q_bigint_null)' , 'STDDEV(t2.q_smallint_null)' ,'STDDEV(t2.q_tinyint_null)' ,'STDDEV(t2.q_float_null)' ,'STDDEV(t2.q_double_null)', + 'APERCENTILE(t2.q_int_null,10)' ,'APERCENTILE(t2.q_bigint_null,20)' , 'APERCENTILE(t2.q_smallint_null,30)' ,'APERCENTILE(t2.q_tinyint_null,40)' ,'APERCENTILE(t2.q_float_null,50)' ,'APERCENTILE(t2.q_double,60)'] + + self.calc_aggregate_regular_j = ['twa(t1.q_int)' ,'twa(t1.q_bigint)' , 'twa(t1.q_smallint)' ,'twa(t1.q_tinyint)' ,'twa (t1.q_float)' ,'twa(t1.q_double)' , + 'IRATE(t1.q_int)' ,'IRATE(t1.q_bigint)' , 'IRATE(t1.q_smallint)' ,'IRATE(t1.q_tinyint)' ,'IRATE (t1.q_float)' ,'IRATE(t1.q_double)' , + 'LEASTSQUARES(t1.q_int,15,3)' , 'LEASTSQUARES(t1.q_bigint,10,1)' , 'LEASTSQUARES(t1.q_smallint,20,3)' ,'LEASTSQUARES(t1.q_tinyint,10,4)' ,'LEASTSQUARES(t1.q_float,6,4)' ,'LEASTSQUARES(t1.q_double,3,1)' , + 'twa(t2.q_int)' ,'twa(t2.q_bigint)' , 'twa(t2.q_smallint)' ,'twa(t2.q_tinyint)' ,'twa (t2.q_float)' ,'twa(t2.q_double)' , + 'IRATE(t2.q_int)' ,'IRATE(t2.q_bigint)' , 'IRATE(t2.q_smallint)' ,'IRATE(t2.q_tinyint)' ,'IRATE (t2.q_float)' ,'IRATE(t2.q_double)', + 'LEASTSQUARES(t2.q_int,15,3)' , 'LEASTSQUARES(t2.q_bigint,10,1)' , 'LEASTSQUARES(t2.q_smallint,20,3)' ,'LEASTSQUARES(t2.q_tinyint,10,4)' ,'LEASTSQUARES(t2.q_float,6,4)' ,'LEASTSQUARES(t2.q_double,3,1)' , + 'twa(t1.q_int_null)' ,'twa(t1.q_bigint_null)' , 'twa(t1.q_smallint_null)' ,'twa(t1.q_tinyint_null)' ,'twa (t1.q_float_null)' ,'twa(t1.q_double_null)' , + 'IRATE(t1.q_int_null)' ,'IRATE(t1.q_bigint_null)' , 'IRATE(t1.q_smallint_null)' ,'IRATE(t1.q_tinyint_null)' ,'IRATE (t1.q_float_null)' ,'IRATE(t1.q_double_null)' , + 'LEASTSQUARES(t1.q_int_null,15,3)' , 'LEASTSQUARES(t1.q_bigint_null,10,1)' , 'LEASTSQUARES(t1.q_smallint_null,20,3)' ,'LEASTSQUARES(t1.q_tinyint_null,10,4)' ,'LEASTSQUARES(t1.q_float_null,6,4)' ,'LEASTSQUARES(t1.q_double_null,3,1)' , + 'twa(t2.q_int_null)' ,'twa(t2.q_bigint_null)' , 'twa(t2.q_smallint_null)' ,'twa(t2.q_tinyint_null)' ,'twa (t2.q_float_null)' ,'twa(t2.q_double_null)' , + 'IRATE(t2.q_int_null)' ,'IRATE(t2.q_bigint_null)' , 'IRATE(t2.q_smallint_null)' ,'IRATE(t2.q_tinyint_null)' ,'IRATE (t2.q_float_null)' ,'IRATE(t2.q_double_null)', + 'LEASTSQUARES(t2.q_int_null,15,3)' , 'LEASTSQUARES(t2.q_bigint_null,10,1)' , 'LEASTSQUARES(t2.q_smallint_null,20,3)' ,'LEASTSQUARES(t2.q_tinyint_null,10,4)' ,'LEASTSQUARES(t2.q_float_null,6,4)' ,'LEASTSQUARES(t2.q_double_null,3,1)' ] + + self.calc_aggregate_groupbytbname_j = ['twa(t1.q_int)' ,'twa(t1.q_bigint)' , 'twa(t1.q_smallint)' ,'twa(t1.q_tinyint)' ,'twa (t1.q_float)' ,'twa(t1.q_double)' , + 'IRATE(t1.q_int)' ,'IRATE(t1.q_bigint)' , 'IRATE(t1.q_smallint)' ,'IRATE(t1.q_tinyint)' ,'IRATE (t1.q_float)' ,'IRATE(t1.q_double)' , + 'twa(t2.q_int)' ,'twa(t2.q_bigint)' , 'twa(t2.q_smallint)' ,'twa(t2.q_tinyint)' ,'twa (t2.q_float)' ,'twa(t2.q_double)' , + 'IRATE(t2.q_int)' ,'IRATE(t2.q_bigint)' , 'IRATE(t2.q_smallint)' ,'IRATE(t2.q_tinyint)' ,'IRATE (t2.q_float)' ,'IRATE(t2.q_double)' , + 'twa(t1.q_int_null)' ,'twa(t1.q_bigint_null)' , 'twa(t1.q_smallint_null)' ,'twa(t1.q_tinyint_null)' ,'twa (t1.q_float_null)' ,'twa(t1.q_double_null)' , + 'IRATE(t1.q_int_null)' ,'IRATE(t1.q_bigint_null)' , 'IRATE(t1.q_smallint_null)' ,'IRATE(t1.q_tinyint_null)' ,'IRATE (t1.q_float_null)' ,'IRATE(t1.q_double_null)' , + 'twa(t2.q_int_null)' ,'twa(t2.q_bigint_null)' , 'twa(t2.q_smallint_null)' ,'twa(t2.q_tinyint_null)' ,'twa (t2.q_float_null)' ,'twa(t2.q_double_null)' , + 'IRATE(t2.q_int_null)' ,'IRATE(t2.q_bigint_null)' , 'IRATE(t2.q_smallint_null)' ,'IRATE(t2.q_tinyint_null)' ,'IRATE (t2.q_float_null)' ,'IRATE(t2.q_double_null)' ] + + self.calc_calculate_all = ['SPREAD(ts)' , 'SPREAD(q_ts)' , 'SPREAD(q_int)' ,'SPREAD(q_bigint)' , 'SPREAD(q_smallint)' ,'SPREAD(q_tinyint)' ,'SPREAD(q_float)' ,'SPREAD(q_double)' , + '(SPREAD(q_int) + SPREAD(q_bigint))' , '(SPREAD(q_smallint) - SPREAD(q_float))', '(SPREAD(q_double) * SPREAD(q_tinyint))' , '(SPREAD(q_double) / SPREAD(q_float))', + 'SPREAD(q_ts_null)' , 'SPREAD(q_int_null)' ,'SPREAD(q_bigint_null)' , 'SPREAD(q_smallint_null)' ,'SPREAD(q_tinyint_null)' ,'SPREAD(q_float_null)' ,'SPREAD(q_double_null)' , + '(SPREAD(q_int_null) + SPREAD(q_bigint_null))' , '(SPREAD(q_smallint_null) - SPREAD(q_float_null))', '(SPREAD(q_double_null) * SPREAD(q_tinyint_null))' , '(SPREAD(q_double_null) / SPREAD(q_float_null))'] + self.calc_calculate_regular = ['DIFF(q_int)' ,'DIFF(q_bigint)' , 'DIFF(q_smallint)' ,'DIFF(q_tinyint)' ,'DIFF(q_float)' ,'DIFF(q_double)' , + 'DIFF(q_int,0)' ,'DIFF(q_bigint,0)' , 'DIFF(q_smallint,0)' ,'DIFF(q_tinyint,0)' ,'DIFF(q_float,0)' ,'DIFF(q_double,0)' , + 'DIFF(q_int,1)' ,'DIFF(q_bigint,1)' , 'DIFF(q_smallint,1)' ,'DIFF(q_tinyint,1)' ,'DIFF(q_float,1)' ,'DIFF(q_double,1)' , + 'DERIVATIVE(q_int,15s,0)' , 'DERIVATIVE(q_bigint,10s,1)' , 'DERIVATIVE(q_smallint,20s,0)' ,'DERIVATIVE(q_tinyint,10s,1)' ,'DERIVATIVE(q_float,6s,0)' ,'DERIVATIVE(q_double,3s,1)', + 'DIFF(q_int_null)' ,'DIFF(q_bigint_null)' , 'DIFF(q_smallint_null)' ,'DIFF(q_tinyint_null)' ,'DIFF(q_float_null)' ,'DIFF(q_double_null)' , + 'DIFF(q_int_null,0)' ,'DIFF(q_bigint_null,0)' , 'DIFF(q_smallint_null,0)' ,'DIFF(q_tinyint_null,0)' ,'DIFF(q_float_null,0)' ,'DIFF(q_double_null,0)' , + 'DIFF(q_int_null,1)' ,'DIFF(q_bigint_null,1)' , 'DIFF(q_smallint_null,1)' ,'DIFF(q_tinyint_null,1)' ,'DIFF(q_float_null,1)' ,'DIFF(q_double_null,1)' , + 'DERIVATIVE(q_int_null,15s,0)' , 'DERIVATIVE(q_bigint_null,10s,1)' , 'DERIVATIVE(q_smallint_null,20s,0)' ,'DERIVATIVE(q_tinyint_null,10s,1)' ,'DERIVATIVE(q_float_null,6s,0)' ,'DERIVATIVE(q_double_null,3s,1)'] + self.calc_calculate_groupbytbname = self.calc_calculate_regular + + #two table join + self.calc_calculate_all_j = ['SPREAD(t1.ts)' , 'SPREAD(t1.q_ts)' , 'SPREAD(t1.q_int)' ,'SPREAD(t1.q_bigint)' , 'SPREAD(t1.q_smallint)' ,'SPREAD(t1.q_tinyint)' ,'SPREAD(t1.q_float)' ,'SPREAD(t1.q_double)' , + 'SPREAD(t2.ts)' , 'SPREAD(t2.q_ts)' , 'SPREAD(t2.q_int)' ,'SPREAD(t2.q_bigint)' , 'SPREAD(t2.q_smallint)' ,'SPREAD(t2.q_tinyint)' ,'SPREAD(t2.q_float)' ,'SPREAD(t2.q_double)' , + '(SPREAD(t1.q_int) + SPREAD(t1.q_bigint))' , '(SPREAD(t1.q_tinyint) - SPREAD(t1.q_float))', '(SPREAD(t1.q_double) * SPREAD(t1.q_tinyint))' , '(SPREAD(t1.q_double) / SPREAD(t1.q_tinyint))', + '(SPREAD(t2.q_int) + SPREAD(t2.q_bigint))' , '(SPREAD(t2.q_smallint) - SPREAD(t2.q_float))', '(SPREAD(t2.q_double) * SPREAD(t2.q_tinyint))' , '(SPREAD(t2.q_double) / SPREAD(t2.q_tinyint))', + '(SPREAD(t1.q_int) + SPREAD(t1.q_smallint))' , '(SPREAD(t2.q_smallint) - SPREAD(t2.q_float))', '(SPREAD(t1.q_double) * SPREAD(t1.q_tinyint))' , '(SPREAD(t1.q_double) / SPREAD(t1.q_float))', + 'SPREAD(t1.q_ts_null)' , 'SPREAD(t1.q_int_null)' ,'SPREAD(t1.q_bigint_null)' , 'SPREAD(t1.q_smallint_null)' ,'SPREAD(t1.q_tinyint_null)' ,'SPREAD(t1.q_float_null)' ,'SPREAD(t1.q_double_null)' , + 'SPREAD(t2.q_ts_null)' , 'SPREAD(t2.q_int_null)' ,'SPREAD(t2.q_bigint_null)' , 'SPREAD(t2.q_smallint_null)' ,'SPREAD(t2.q_tinyint_null)' ,'SPREAD(t2.q_float_null)' ,'SPREAD(t2.q_double_null)' , + '(SPREAD(t1.q_int_null) + SPREAD(t1.q_bigint_null))' , '(SPREAD(t1.q_tinyint_null) - SPREAD(t1.q_float_null))', '(SPREAD(t1.q_double_null) * SPREAD(t1.q_tinyint_null))' , '(SPREAD(t1.q_double_null) / SPREAD(t1.q_tinyint_null))', + '(SPREAD(t2.q_int_null) + SPREAD(t2.q_bigint_null))' , '(SPREAD(t2.q_smallint_null) - SPREAD(t2.q_float_null))', '(SPREAD(t2.q_double_null) * SPREAD(t2.q_tinyint_null))' , '(SPREAD(t2.q_double_null) / SPREAD(t2.q_tinyint_null))', + '(SPREAD(t1.q_int_null) + SPREAD(t1.q_smallint_null))' , '(SPREAD(t2.q_smallint_null) - SPREAD(t2.q_float_null))', '(SPREAD(t1.q_double_null) * SPREAD(t1.q_tinyint_null))' , '(SPREAD(t1.q_double_null) / SPREAD(t1.q_float_null))'] + self.calc_calculate_regular_j = ['DIFF(t1.q_int)' ,'DIFF(t1.q_bigint)' , 'DIFF(t1.q_smallint)' ,'DIFF(t1.q_tinyint)' ,'DIFF(t1.q_float)' ,'DIFF(t1.q_double)' , + 'DIFF(t1.q_int,0)' ,'DIFF(t1.q_bigint,0)' , 'DIFF(t1.q_smallint,0)' ,'DIFF(t1.q_tinyint,0)' ,'DIFF(t1.q_float,0)' ,'DIFF(t1.q_double,0)' , + 'DIFF(t1.q_int,1)' ,'DIFF(t1.q_bigint,1)' , 'DIFF(t1.q_smallint,1)' ,'DIFF(t1.q_tinyint,1)' ,'DIFF(t1.q_float,1)' ,'DIFF(t1.q_double,1)' , + 'DERIVATIVE(t1.q_int,15s,0)' , 'DERIVATIVE(t1.q_bigint,10s,1)' , 'DERIVATIVE(t1.q_smallint,20s,0)' ,'DERIVATIVE(t1.q_tinyint,10s,1)' ,'DERIVATIVE(t1.q_float,6s,0)' ,'DERIVATIVE(t1.q_double,3s,1)' , + 'DIFF(t2.q_int)' ,'DIFF(t2.q_bigint)' , 'DIFF(t2.q_smallint)' ,'DIFF(t2.q_tinyint)' ,'DIFF(t2.q_float)' ,'DIFF(t2.q_double)' , + 'DIFF(t2.q_int,0)' ,'DIFF(t2.q_bigint,0)' , 'DIFF(t2.q_smallint,0)' ,'DIFF(t2.q_tinyint,0)' ,'DIFF(t2.q_float,0)' ,'DIFF(t2.q_double,0)' , + 'DIFF(t2.q_int,1)' ,'DIFF(t2.q_bigint,1)' , 'DIFF(t2.q_smallint,1)' ,'DIFF(t2.q_tinyint,1)' ,'DIFF(t2.q_float,1)' ,'DIFF(t2.q_double,1)' , + 'DERIVATIVE(t2.q_int,15s,0)' , 'DERIVATIVE(t2.q_bigint,10s,1)' , 'DERIVATIVE(t2.q_smallint,20s,0)' ,'DERIVATIVE(t2.q_tinyint,10s,1)' ,'DERIVATIVE(t2.q_float,6s,0)' ,'DERIVATIVE(t2.q_double,3s,1)' , + 'DIFF(t1.q_int_null)' ,'DIFF(t1.q_bigint_null)' , 'DIFF(t1.q_smallint_null)' ,'DIFF(t1.q_tinyint_null)' ,'DIFF(t1.q_float_null)' ,'DIFF(t1.q_double_null)' , + 'DIFF(t1.q_int_null,0)' ,'DIFF(t1.q_bigint_null,0)' , 'DIFF(t1.q_smallint_null,0)' ,'DIFF(t1.q_tinyint_null,0)' ,'DIFF(t1.q_float_null,0)' ,'DIFF(t1.q_double_null,0)' , + 'DIFF(t1.q_int_null,1)' ,'DIFF(t1.q_bigint_null,1)' , 'DIFF(t1.q_smallint_null,1)' ,'DIFF(t1.q_tinyint_null,1)' ,'DIFF(t1.q_float_null,1)' ,'DIFF(t1.q_double_null,1)' , + 'DERIVATIVE(t1.q_int_null,15s,0)' , 'DERIVATIVE(t1.q_bigint_null,10s,1)' , 'DERIVATIVE(t1.q_smallint_null,20s,0)' ,'DERIVATIVE(t1.q_tinyint_null,10s,1)' ,'DERIVATIVE(t1.q_float_null,6s,0)' ,'DERIVATIVE(t1.q_double_null,3s,1)' , + 'DIFF(t2.q_int_null)' ,'DIFF(t2.q_bigint_null)' , 'DIFF(t2.q_smallint_null)' ,'DIFF(t2.q_tinyint_null)' ,'DIFF(t2.q_float_null)' ,'DIFF(t2.q_double_null)' , + 'DIFF(t2.q_int_null,0)' ,'DIFF(t2.q_bigint_null,0)' , 'DIFF(t2.q_smallint_null,0)' ,'DIFF(t2.q_tinyint_null,0)' ,'DIFF(t2.q_float_null,0)' ,'DIFF(t2.q_double_null,0)' , + 'DIFF(t2.q_int_null,1)' ,'DIFF(t2.q_bigint_null,1)' , 'DIFF(t2.q_smallint_null,1)' ,'DIFF(t2.q_tinyint_null,1)' ,'DIFF(t2.q_float_null,1)' ,'DIFF(t2.q_double_null,1)' , + 'DERIVATIVE(t2.q_int_null,15s,0)' , 'DERIVATIVE(t2.q_bigint_null,10s,1)' , 'DERIVATIVE(t2.q_smallint_null,20s,0)' ,'DERIVATIVE(t2.q_tinyint_null,10s,1)' ,'DERIVATIVE(t2.q_float_null,6s,0)' ,'DERIVATIVE(t2.q_double_null,3s,1)'] + self.calc_calculate_groupbytbname_j = self.calc_calculate_regular_j + + self.interval_sliding = ['interval(4w) sliding(1w) ','interval(1w) sliding(1d) ','interval(1d) sliding(1h) ' , + 'interval(1h) sliding(1m) ','interval(1m) sliding(1s) ','interval(1s) sliding(10a) ', + 'interval(1y) ','interval(1n) ','interval(1w) ','interval(1d) ','interval(1h) ','interval(1m) ','interval(1s) ' ,'interval(10a)', + 'interval(1y,1n) ','interval(1n,1w) ','interval(1w,1d) ','interval(1d,1h) ','interval(1h,1m) ','interval(1m,1s) ','interval(1s,10a) ' ,'interval(100a,30a)'] + + self.conn1 = taos.connect(host="127.0.0.1", user="root", password="taosdata", config="/etc/taos/") + self.cur1 = self.conn1.cursor() + self.cur1.execute("use %s ;" %self.db_nest) + sql = 'select * from stable_1 limit 5;' + self.cur1.execute(sql) + + + def dropandcreateDB_random(self,database,n): + ts = 1630000000000 + num_random = 100 + fake = Faker('zh_CN') + tdSql.execute('''drop database if exists %s ;''' %database) + tdSql.execute('''create database %s keep 36500;'''%database) + tdSql.execute('''use %s;'''%database) + + tdSql.execute('''create stable stable_1 (ts timestamp , q_int int , q_bigint bigint , q_smallint smallint , q_tinyint tinyint , q_float float , q_double double , q_bool bool , q_binary binary(100) , q_nchar nchar(100) , q_ts timestamp , \ + q_binary1 binary(100) , q_nchar1 nchar(100) ,q_binary2 binary(100) , q_nchar2 nchar(100) ,q_binary3 binary(100) , q_nchar3 nchar(100) ,q_binary4 binary(100) , q_nchar4 nchar(100) ,\ + q_binary5 binary(100) , q_nchar5 nchar(100) ,q_binary6 binary(100) , q_nchar6 nchar(100) ,q_binary7 binary(100) , q_nchar7 nchar(100) ,q_binary8 binary(100) , q_nchar8 nchar(100) ,\ + q_int_null int , q_bigint_null bigint , q_smallint_null smallint , q_tinyint_null tinyint, q_float_null float , q_double_null double , q_bool_null bool , q_binary_null binary(20) , q_nchar_null nchar(20) , q_ts_null timestamp) \ + tags(loc nchar(100) , t_int int , t_bigint bigint , t_smallint smallint , t_tinyint tinyint, t_bool bool , t_binary binary(100) , t_nchar nchar(100) ,t_float float , t_double double , t_ts timestamp);''') + tdSql.execute('''create stable stable_2 (ts timestamp , q_int int , q_bigint bigint , q_smallint smallint , q_tinyint tinyint , q_float float , q_double double , q_bool bool , q_binary binary(100) , q_nchar nchar(100) , q_ts timestamp , \ + q_binary1 binary(100) , q_nchar1 nchar(100) ,q_binary2 binary(100) , q_nchar2 nchar(100) ,q_binary3 binary(100) , q_nchar3 nchar(100) ,q_binary4 binary(100) , q_nchar4 nchar(100) ,\ + q_binary5 binary(100) , q_nchar5 nchar(100) ,q_binary6 binary(100) , q_nchar6 nchar(100) ,q_binary7 binary(100) , q_nchar7 nchar(100) ,q_binary8 binary(100) , q_nchar8 nchar(100) ,\ + q_int_null int , q_bigint_null bigint , q_smallint_null smallint , q_tinyint_null tinyint, q_float_null float , q_double_null double , q_bool_null bool , q_binary_null binary(20) , q_nchar_null nchar(20) , q_ts_null timestamp) \ + tags(loc nchar(100) , t_int int , t_bigint bigint , t_smallint smallint , t_tinyint tinyint, t_bool bool , t_binary binary(100) , t_nchar nchar(100) ,t_float float , t_double double , t_ts timestamp);''') + + tdSql.execute('''create stable stable_null_data (ts timestamp , q_int int , q_bigint bigint , q_smallint smallint , q_tinyint tinyint , q_float float , q_double double , q_bool bool , q_binary binary(100) , q_nchar nchar(100) , q_ts timestamp , \ + q_binary1 binary(100) , q_nchar1 nchar(100) ,q_binary2 binary(100) , q_nchar2 nchar(100) ,q_binary3 binary(100) , q_nchar3 nchar(100) ,q_binary4 binary(100) , q_nchar4 nchar(100) ,\ + q_binary5 binary(100) , q_nchar5 nchar(100) ,q_binary6 binary(100) , q_nchar6 nchar(100) ,q_binary7 binary(100) , q_nchar7 nchar(100) ,q_binary8 binary(100) , q_nchar8 nchar(100) ,\ + q_int_null int , q_bigint_null bigint , q_smallint_null smallint , q_tinyint_null tinyint, q_float_null float , q_double_null double , q_bool_null bool , q_binary_null binary(20) , q_nchar_null nchar(20) , q_ts_null timestamp) \ + tags(loc nchar(100) , t_int int , t_bigint bigint , t_smallint smallint , t_tinyint tinyint, t_bool bool , t_binary binary(100) , t_nchar nchar(100) ,t_float float , t_double double , t_ts timestamp);''') + + tdSql.execute('''create stable stable_null_childtable (ts timestamp , q_int int , q_bigint bigint , q_smallint smallint , q_tinyint tinyint , q_float float , q_double double , q_bool bool , q_binary binary(100) , q_nchar nchar(100) , q_ts timestamp , \ + q_binary1 binary(100) , q_nchar1 nchar(100) ,q_binary2 binary(100) , q_nchar2 nchar(100) ,q_binary3 binary(100) , q_nchar3 nchar(100) ,q_binary4 binary(100) , q_nchar4 nchar(100) ,\ + q_binary5 binary(100) , q_nchar5 nchar(100) ,q_binary6 binary(100) , q_nchar6 nchar(100) ,q_binary7 binary(100) , q_nchar7 nchar(100) ,q_binary8 binary(100) , q_nchar8 nchar(100) ,\ + q_int_null int , q_bigint_null bigint , q_smallint_null smallint , q_tinyint_null tinyint, q_float_null float , q_double_null double , q_bool_null bool , q_binary_null binary(20) , q_nchar_null nchar(20) , q_ts_null timestamp) \ + tags(loc nchar(100) , t_int int , t_bigint bigint , t_smallint smallint , t_tinyint tinyint, t_bool bool , t_binary binary(100) , t_nchar nchar(100) ,t_float float , t_double double , t_ts timestamp);''') + + tdSql.execute('''create table stable_1_1 using stable_1 tags('stable_1_1', '%d' , '%d', '%d' , '%d' , 0 , 'binary1.%s' , 'nchar1.%s' , '%f', '%f' ,'%d') ;''' + %(fake.random_int(min=-2147483647, max=2147483647, step=1), fake.random_int(min=-9223372036854775807, max=9223372036854775807, step=1), + fake.random_int(min=-32767, max=32767, step=1) , fake.random_int(min=-127, max=127, step=1) , + fake.pystr() ,fake.pystr() ,fake.pyfloat(),fake.pyfloat(),fake.random_int(min=-2147483647, max=2147483647, step=1))) + tdSql.execute('''create table stable_1_2 using stable_1 tags('stable_1_2', '2147483647' , '9223372036854775807' , '32767' , '127' , 1 , 'binary2' , 'nchar2' , '2' , '22' , \'1999-09-09 09:09:09.090\') ;''') + tdSql.execute('''create table stable_1_3 using stable_1 tags('stable_1_3', '-2147483647' , '-9223372036854775807' , '-32767' , '-127' , false , 'binary3' , 'nchar3nchar3' , '-3.3' , '-33.33' , \'2099-09-09 09:09:09.090\') ;''') + tdSql.execute('''create table stable_1_4 using stable_1 tags('stable_1_4', '%d' , '%d', '%d' , '%d' , 1 , 'binary1.%s' , 'nchar1.%s' , '%f', '%f' ,'%d') ;''' + %(fake.random_int(min=-2147483647, max=2147483647, step=1), fake.random_int(min=-9223372036854775807, max=9223372036854775807, step=1), + fake.random_int(min=-32767, max=32767, step=1) , fake.random_int(min=-127, max=127, step=1) , + fake.pystr() ,fake.pystr() ,fake.pyfloat(),fake.pyfloat(),fake.random_int(min=-2147483647, max=2147483647, step=1))) + + tdSql.execute('''create table stable_2_1 using stable_2 tags('stable_2_1' , '0' , '0' , '0' , '0' , 0 , 'binary21' , 'nchar21' , '0' , '0' ,\'2099-09-09 09:09:09.090\') ;''') + tdSql.execute('''create table stable_2_2 using stable_2 tags('stable_2_2' , '%d' , '%d', '%d' , '%d' , 0 , 'binary2.%s' , 'nchar2.%s' , '%f', '%f' ,'%d') ;''' + %(fake.random_int(min=-2147483647, max=2147483647, step=1), fake.random_int(min=-9223372036854775807, max=9223372036854775807, step=1), + fake.random_int(min=-32767, max=32767, step=1) , fake.random_int(min=-127, max=127, step=1) , + fake.pystr() ,fake.pystr() ,fake.pyfloat(),fake.pyfloat(),fake.random_int(min=-2147483647, max=2147483647, step=1))) + + tdSql.execute('''create table stable_null_data_1 using stable_null_data tags('stable_null_data_1', '%d' , '%d', '%d' , '%d' , 1 , 'binary1.%s' , 'nchar1.%s' , '%f', '%f' ,'%d') ;''' + %(fake.random_int(min=-2147483647, max=2147483647, step=1), fake.random_int(min=-9223372036854775807, max=9223372036854775807, step=1), + fake.random_int(min=-32767, max=32767, step=1) , fake.random_int(min=-127, max=127, step=1) , + fake.pystr() ,fake.pystr() ,fake.pyfloat(),fake.pyfloat(),fake.random_int(min=-2147483647, max=2147483647, step=1))) + + #regular table + tdSql.execute('''create table regular_table_1 \ + (ts timestamp , q_int int , q_bigint bigint , q_smallint smallint , q_tinyint tinyint , q_float float , q_double double , q_bool bool , q_binary binary(100) , q_nchar nchar(100) , q_ts timestamp , \ + q_binary1 binary(100) , q_nchar1 nchar(100) ,q_binary2 binary(100) , q_nchar2 nchar(100) ,q_binary3 binary(100) , q_nchar3 nchar(100) ,q_binary4 binary(100) , q_nchar4 nchar(100) ,\ + q_binary5 binary(100) , q_nchar5 nchar(100) ,q_binary6 binary(100) , q_nchar6 nchar(100) ,q_binary7 binary(100) , q_nchar7 nchar(100) ,q_binary8 binary(100) , q_nchar8 nchar(100) ,\ + q_int_null int , q_bigint_null bigint , q_smallint_null smallint , q_tinyint_null tinyint, q_float_null float , q_double_null double , q_bool_null bool , q_binary_null binary(20) , q_nchar_null nchar(20) , q_ts_null timestamp) ;''') + tdSql.execute('''create table regular_table_2 \ + (ts timestamp , q_int int , q_bigint bigint , q_smallint smallint , q_tinyint tinyint , q_float float , q_double double , q_bool bool , q_binary binary(100) , q_nchar nchar(100) , q_ts timestamp , \ + q_binary1 binary(100) , q_nchar1 nchar(100) ,q_binary2 binary(100) , q_nchar2 nchar(100) ,q_binary3 binary(100) , q_nchar3 nchar(100) ,q_binary4 binary(100) , q_nchar4 nchar(100) ,\ + q_binary5 binary(100) , q_nchar5 nchar(100) ,q_binary6 binary(100) , q_nchar6 nchar(100) ,q_binary7 binary(100) , q_nchar7 nchar(100) ,q_binary8 binary(100) , q_nchar8 nchar(100) ,\ + q_int_null int , q_bigint_null bigint , q_smallint_null smallint , q_tinyint_null tinyint, q_float_null float , q_double_null double , q_bool_null bool , q_binary_null binary(20) , q_nchar_null nchar(20) , q_ts_null timestamp) ;''') + tdSql.execute('''create table regular_table_3 \ + (ts timestamp , q_int int , q_bigint bigint , q_smallint smallint , q_tinyint tinyint , q_float float , q_double double , q_bool bool , q_binary binary(100) , q_nchar nchar(100) , q_ts timestamp , \ + q_binary1 binary(100) , q_nchar1 nchar(100) ,q_binary2 binary(100) , q_nchar2 nchar(100) ,q_binary3 binary(100) , q_nchar3 nchar(100) ,q_binary4 binary(100) , q_nchar4 nchar(100) ,\ + q_binary5 binary(100) , q_nchar5 nchar(100) ,q_binary6 binary(100) , q_nchar6 nchar(100) ,q_binary7 binary(100) , q_nchar7 nchar(100) ,q_binary8 binary(100) , q_nchar8 nchar(100) ,\ + q_int_null int , q_bigint_null bigint , q_smallint_null smallint , q_tinyint_null tinyint, q_float_null float , q_double_null double , q_bool_null bool , q_binary_null binary(20) , q_nchar_null nchar(20) , q_ts_null timestamp) ;''') + + tdSql.execute('''create table regular_table_null \ + (ts timestamp , q_int int , q_bigint bigint , q_smallint smallint , q_tinyint tinyint , q_float float , q_double double , q_bool bool , q_binary binary(100) , q_nchar nchar(100) , q_ts timestamp , \ + q_binary1 binary(100) , q_nchar1 nchar(100) ,q_binary2 binary(100) , q_nchar2 nchar(100) ,q_binary3 binary(100) , q_nchar3 nchar(100) ,q_binary4 binary(100) , q_nchar4 nchar(100) ,\ + q_binary5 binary(100) , q_nchar5 nchar(100) ,q_binary6 binary(100) , q_nchar6 nchar(100) ,q_binary7 binary(100) , q_nchar7 nchar(100) ,q_binary8 binary(100) , q_nchar8 nchar(100) ,\ + q_int_null int , q_bigint_null bigint , q_smallint_null smallint , q_tinyint_null tinyint, q_float_null float , q_double_null double , q_bool_null bool , q_binary_null binary(20) , q_nchar_null nchar(20) , q_ts_null timestamp) ;''') + + + for i in range(num_random*n): + tdSql.execute('''insert into stable_1_1 (ts , q_int , q_bigint , q_smallint , q_tinyint , q_float , q_double , q_bool , q_binary , q_nchar, q_ts,\ + q_binary1 , q_nchar1 , q_binary2 , q_nchar2 , q_binary3 , q_nchar3 , q_binary4 , q_nchar4 , q_binary5 , q_nchar5 , q_binary6 , q_nchar6 , q_binary7 , q_nchar7, q_binary8 , q_nchar8) \ + values(%d, %d, %d, %d, %d, %f, %f, 0, 'binary.%s', 'nchar.%s', %d, 'binary1.%s', 'nchar1.%s', 'binary2.%s', 'nchar2.%s', 'binary3.%s', 'nchar3.%s', \ + 'binary4.%s', 'nchar4.%s', 'binary5.%s', 'nchar5.%s', 'binary6.%s', 'nchar6.%s', 'binary7.%s', 'nchar7.%s', 'binary8.%s', 'nchar8.%s') ;''' + % (ts + i*1000, fake.random_int(min=-2147483647, max=2147483647, step=1), + fake.random_int(min=-9223372036854775807, max=9223372036854775807, step=1), + fake.random_int(min=-32767, max=32767, step=1) , fake.random_int(min=-127, max=127, step=1) , + fake.pyfloat() , fake.pyfloat() , fake.pystr() , fake.pystr() , ts + i , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , + fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr())) + tdSql.execute('''insert into regular_table_1 (ts , q_int , q_bigint , q_smallint , q_tinyint , q_float , q_double, q_bool , q_binary , q_nchar, q_ts,\ + q_binary1 , q_nchar1 , q_binary2 , q_nchar2 , q_binary3 , q_nchar3 , q_binary4 , q_nchar4 , q_binary5 , q_nchar5 , q_binary6 , q_nchar6 , q_binary7 , q_nchar7, q_binary8 , q_nchar8) \ + values(%d, %d, %d, %d, %d, %f, %f, 0, 'binary.%s', 'nchar.%s', %d, 'binary1.%s', 'nchar1.%s', 'binary2.%s', 'nchar2.%s', 'binary3.%s', 'nchar3.%s', \ + 'binary4.%s', 'nchar4.%s', 'binary5.%s', 'nchar5.%s', 'binary6.%s', 'nchar6.%s', 'binary7.%s', 'nchar7.%s', 'binary8.%s', 'nchar8.%s') ;''' + % (ts + i*1000, fake.random_int(min=-2147483647, max=2147483647, step=1) , + fake.random_int(min=-9223372036854775807, max=9223372036854775807, step=1) , + fake.random_int(min=-32767, max=32767, step=1) , fake.random_int(min=-127, max=127, step=1) , + fake.pyfloat() , fake.pyfloat() , fake.pystr() , fake.pystr() , ts + i, fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , + fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr())) + + tdSql.execute('''insert into stable_1_2 (ts , q_int , q_bigint , q_smallint , q_tinyint , q_float , q_double, q_bool , q_binary , q_nchar, q_ts,\ + q_binary1 , q_nchar1 , q_binary2 , q_nchar2 , q_binary3 , q_nchar3 , q_binary4 , q_nchar4 , q_binary5 , q_nchar5 , q_binary6 , q_nchar6 , q_binary7 , q_nchar7, q_binary8 , q_nchar8)\ + values(%d, %d, %d, %d, %d, %f, %f, 1, 'binary.%s', 'nchar.%s', %d, 'binary1.%s', 'nchar1.%s', 'binary2.%s', 'nchar2.%s', 'binary3.%s', 'nchar3.%s', \ + 'binary4.%s', 'nchar4.%s', 'binary5.%s', 'nchar5.%s', 'binary6.%s', 'nchar6.%s', 'binary7.%s', 'nchar7.%s', 'binary8.%s', 'nchar8.%s') ;''' + % (ts + i*1000, fake.random_int(min=0, max=2147483647, step=1), + fake.random_int(min=0, max=9223372036854775807, step=1), + fake.random_int(min=0, max=32767, step=1) , fake.random_int(min=0, max=127, step=1) , + fake.pyfloat() , fake.pyfloat() , fake.pystr() , fake.pystr() , ts + i, fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , + fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr())) + tdSql.execute('''insert into regular_table_2 (ts , q_int , q_bigint , q_smallint , q_tinyint , q_float , q_double, q_bool , q_binary , q_nchar, q_ts,\ + q_binary1 , q_nchar1 , q_binary2 , q_nchar2 , q_binary3 , q_nchar3 , q_binary4 , q_nchar4 , q_binary5 , q_nchar5 , q_binary6 , q_nchar6 , q_binary7 , q_nchar7, q_binary8 , q_nchar8) \ + values(%d, %d, %d, %d, %d, %f, %f, 1, 'binary.%s', 'nchar.%s', %d, 'binary1.%s', 'nchar1.%s', 'binary2.%s', 'nchar2.%s', 'binary3.%s', 'nchar3.%s', \ + 'binary4.%s', 'nchar4.%s', 'binary5.%s', 'nchar5.%s', 'binary6.%s', 'nchar6.%s', 'binary7.%s', 'nchar7.%s', 'binary8.%s', 'nchar8.%s') ;''' + % (ts + i*1000, fake.random_int(min=0, max=2147483647, step=1), + fake.random_int(min=0, max=9223372036854775807, step=1), + fake.random_int(min=0, max=32767, step=1) , fake.random_int(min=0, max=127, step=1) , + fake.pyfloat() , fake.pyfloat() , fake.pystr() , fake.pystr() , ts + i, fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , + fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr())) + + tdSql.execute('''insert into stable_1_2 (ts , q_int , q_bigint , q_smallint , q_tinyint , q_float , q_double, q_bool , q_binary , q_nchar, q_ts,\ + q_binary1 , q_nchar1 , q_binary2 , q_nchar2 , q_binary3 , q_nchar3 , q_binary4 , q_nchar4 , q_binary5 , q_nchar5 , q_binary6 , q_nchar6 , q_binary7 , q_nchar7, q_binary8 , q_nchar8) \ + values(%d, %d, %d, %d, %d, %f, %f, 1, 'binary.%s', 'nchar.%s', %d, 'binary1.%s', 'nchar1.%s', 'binary2.%s', 'nchar2.%s', 'binary3.%s', 'nchar3.%s', \ + 'binary4.%s', 'nchar4.%s', 'binary5.%s', 'nchar5.%s', 'binary6.%s', 'nchar6.%s', 'binary7.%s', 'nchar7.%s', 'binary8.%s', 'nchar8.%s') ;''' + % (ts + i*1000 +1, fake.random_int(min=-2147483647, max=0, step=1), + fake.random_int(min=-9223372036854775807, max=0, step=1), + fake.random_int(min=-32767, max=0, step=1) , fake.random_int(min=-127, max=0, step=1) , + fake.pyfloat() , fake.pyfloat() , fake.pystr() , fake.pystr() , ts + i +1, fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , + fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr())) + tdSql.execute('''insert into regular_table_2 (ts , q_int , q_bigint , q_smallint , q_tinyint , q_float , q_double, q_bool , q_binary , q_nchar, q_ts,\ + q_binary1 , q_nchar1 , q_binary2 , q_nchar2 , q_binary3 , q_nchar3 , q_binary4 , q_nchar4 , q_binary5 , q_nchar5 , q_binary6 , q_nchar6 , q_binary7 , q_nchar7, q_binary8 , q_nchar8) \ + values(%d, %d, %d, %d, %d, %f, %f, 1, 'binary.%s', 'nchar.%s', %d, 'binary1.%s', 'nchar1.%s', 'binary2.%s', 'nchar2.%s', 'binary3.%s', 'nchar3.%s', \ + 'binary4.%s', 'nchar4.%s', 'binary5.%s', 'nchar5.%s', 'binary6.%s', 'nchar6.%s', 'binary7.%s', 'nchar7.%s', 'binary8.%s', 'nchar8.%s') ;''' + % (ts + i*1000 +1, fake.random_int(min=-2147483647, max=0, step=1), + fake.random_int(min=-9223372036854775807, max=0, step=1), + fake.random_int(min=-32767, max=0, step=1) , fake.random_int(min=-127, max=0, step=1) , + fake.pyfloat() , fake.pyfloat() , fake.pystr() , fake.pystr() , ts + i +1, fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , + fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr())) + + tdSql.execute('''insert into stable_2_1 (ts , q_int , q_bigint , q_smallint , q_tinyint , q_float , q_double, q_bool , q_binary , q_nchar, q_ts,\ + q_binary1 , q_nchar1 , q_binary2 , q_nchar2 , q_binary3 , q_nchar3 , q_binary4 , q_nchar4 , q_binary5 , q_nchar5 , q_binary6 , q_nchar6 , q_binary7 , q_nchar7, q_binary8 , q_nchar8) \ + values(%d, %d, %d, %d, %d, %f, %f, 0, 'binary.%s', 'nchar.%s', %d, 'binary1.%s', 'nchar1.%s', 'binary2.%s', 'nchar2.%s', 'binary3.%s', 'nchar3.%s', \ + 'binary4.%s', 'nchar4.%s', 'binary5.%s', 'nchar5.%s', 'binary6.%s', 'nchar6.%s', 'binary7.%s', 'nchar7.%s', 'binary8.%s', 'nchar8.%s') ;''' + % (ts + i*1000, fake.random_int(min=-0, max=2147483647, step=1), + fake.random_int(min=-0, max=9223372036854775807, step=1), + fake.random_int(min=-0, max=32767, step=1) , fake.random_int(min=-0, max=127, step=1) , + fake.pyfloat() , fake.pyfloat() , fake.pystr() , fake.pystr() , ts + i, fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , + fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr())) + + tdSql.execute('''insert into stable_2_1 (ts , q_int , q_bigint , q_smallint , q_tinyint , q_float , q_double, q_bool , q_binary , q_nchar, q_ts,\ + q_binary1 , q_nchar1 , q_binary2 , q_nchar2 , q_binary3 , q_nchar3 , q_binary4 , q_nchar4 , q_binary5 , q_nchar5 , q_binary6 , q_nchar6 , q_binary7 , q_nchar7, q_binary8 , q_nchar8) \ + values(%d, %d, %d, %d, %d, %f, %f, 0, 'binary.%s', 'nchar.%s', %d, 'binary1.%s', 'nchar1.%s', 'binary2.%s', 'nchar2.%s', 'binary3.%s', 'nchar3.%s', \ + 'binary4.%s', 'nchar4.%s', 'binary5.%s', 'nchar5.%s', 'binary6.%s', 'nchar6.%s', 'binary7.%s', 'nchar7.%s', 'binary8.%s', 'nchar8.%s') ;''' + % (ts + i*1000 +1, fake.random_int(min=-0, max=2147483647, step=1), + fake.random_int(min=-0, max=9223372036854775807, step=1), + fake.random_int(min=-0, max=32767, step=1) , fake.random_int(min=-0, max=127, step=1) , + fake.pyfloat() , fake.pyfloat() , fake.pystr() , fake.pystr() , ts + i, fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , + fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr())) + + tdSql.execute('''insert into stable_2_1 (ts , q_int , q_bigint , q_smallint , q_tinyint , q_float , q_double, q_bool , q_binary , q_nchar, q_ts,\ + q_binary1 , q_nchar1 , q_binary2 , q_nchar2 , q_binary3 , q_nchar3 , q_binary4 , q_nchar4 , q_binary5 , q_nchar5 , q_binary6 , q_nchar6 , q_binary7 , q_nchar7, q_binary8 , q_nchar8) \ + values(%d, %d, %d, %d, %d, %f, %f, 0, 'binary.%s', 'nchar.%s', %d, 'binary1.%s', 'nchar1.%s', 'binary2.%s', 'nchar2.%s', 'binary3.%s', 'nchar3.%s', \ + 'binary4.%s', 'nchar4.%s', 'binary5.%s', 'nchar5.%s', 'binary6.%s', 'nchar6.%s', 'binary7.%s', 'nchar7.%s', 'binary8.%s', 'nchar8.%s') ;''' + % (ts + i*1000 +10, fake.random_int(min=-0, max=2147483647, step=1), + fake.random_int(min=-0, max=9223372036854775807, step=1), + fake.random_int(min=-0, max=32767, step=1) , fake.random_int(min=-0, max=127, step=1) , + fake.pyfloat() , fake.pyfloat() , fake.pystr() , fake.pystr() , ts + i, fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , + fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr() , fake.pystr())) + + tdSql.query("select count(*) from stable_1;") + tdSql.checkData(0,0,3*num_random*n) + tdSql.query("select count(*) from regular_table_1;") + tdSql.checkData(0,0,num_random*n) + + def explain_sql(self,sql): + # #执行sql解析 + sql = "explain " + sql + tdLog.info(sql) + tdSql.query(sql) + + def data_check(self,sql,mark='mark') : + tdLog.info("========mark==%s==="% mark); + try: + tdSql.query(sql,queryTimes=1) + except: + tdLog.info("sql is not support :=====%s; " %sql) + tdSql.error(sql) + + + def math_nest(self,mathlist): + + print("==========%s===start=============" %mathlist) + os.system("rm -rf %s/%s.sql" % (self.testcasePath,self.testcaseFilename)) + + self.dropandcreateDB_random("%s" %self.db_nest, 1) + + if (mathlist == ['ABS','SQRT']) or (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['FLOOR','CEIL','ROUND']) \ + or (mathlist == ['CSUM']) : + math_functions = mathlist + fun_fix_column = ['(q_bigint)','(q_smallint)','(q_tinyint)','(q_int)','(q_float)','(q_double)','(q_bigint_null)','(q_smallint_null)','(q_tinyint_null)','(q_int_null)','(q_float_null)','(q_double_null)'] + fun_column_1 = random.sample(math_functions,1)+random.sample(fun_fix_column,1) + math_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","") + fun_column_2 = random.sample(math_functions,1)+random.sample(fun_fix_column,1) + math_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + fun_fix_column_j = ['(t1.q_bigint)','(t1.q_smallint)','(t1.q_tinyint)','(t1.q_int)','(t1.q_float)','(t1.q_double)','(t1.q_bigint_null)','(t1.q_smallint_null)','(t1.q_tinyint_null)','(t1.q_int_null)','(t1.q_float_null)','(t1.q_double_null)', + '(t2.q_bigint)','(t2.q_smallint)','(t2.q_tinyint)','(t2.q_int)','(t2.q_float)','(t2.q_double)','(t2.q_bigint_null)','(t2.q_smallint_null)','(t2.q_tinyint_null)','(t2.q_int_null)','(t2.q_float_null)','(t2.q_double_null)'] + fun_column_join_1 = random.sample(math_functions,1)+random.sample(fun_fix_column_j,1) + math_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","") + fun_column_join_2 = random.sample(math_functions,1)+random.sample(fun_fix_column_j,1) + math_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + elif (mathlist == ['UNIQUE']) or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['MODE']) : + math_functions = mathlist + fun_fix_column = ['(q_bigint)','(q_smallint)','(q_tinyint)','(q_int)','(q_float)','(q_double)','(q_binary)','(q_nchar)','(q_bool)','(q_ts)', + '(q_bigint_null)','(q_smallint_null)','(q_tinyint_null)','(q_int_null)','(q_float_null)','(q_double_null)','(q_binary_null)','(q_nchar_null)','(q_bool_null)','(q_ts_null)'] + fun_column_1 = random.sample(math_functions,1)+random.sample(fun_fix_column,1) + math_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","") + fun_column_2 = random.sample(math_functions,1)+random.sample(fun_fix_column,1) + math_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + fun_fix_column_j = ['(t1.q_bigint)','(t1.q_smallint)','(t1.q_tinyint)','(t1.q_int)','(t1.q_float)','(t1.q_double)','(t1.q_bigint_null)','(t1.q_smallint_null)','(t1.q_tinyint_null)','(t1.q_int_null)','(t1.q_float_null)','(t1.q_double_null)','(t1.q_ts)','(t1.q_ts_null)', + '(t2.q_bigint)','(t2.q_smallint)','(t2.q_tinyint)','(t2.q_int)','(t2.q_float)','(t2.q_double)','(t2.q_bigint_null)','(t2.q_smallint_null)','(t2.q_tinyint_null)','(t2.q_int_null)','(t2.q_float_null)','(t2.q_double_null)','(t2.q_ts)','(t2.q_ts_null)'] + fun_column_join_1 = random.sample(math_functions,1)+random.sample(fun_fix_column_j,1) + math_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","") + fun_column_join_2 = random.sample(math_functions,1)+random.sample(fun_fix_column_j,1) + math_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + elif (mathlist == ['TAIL']): + math_functions = mathlist + num = random.randint(1, 100) + offset_rows = random.randint(0, 100) + fun_fix_column = ['(q_bigint,num)','(q_smallint,num)','(q_tinyint,num)','(q_int,num)','(q_float,num)','(q_double,num)','(q_binary,num)','(q_nchar,num)','(q_bool,num)','(q_ts,num)', + '(q_bigint_null,num)','(q_smallint_null,num)','(q_tinyint_null,num)','(q_int_null,num)','(q_float_null,num)','(q_double_null,num)','(q_binary_null,num)','(q_nchar_null,num)','(q_bool_null,num)','(q_ts_null,num)', + '(q_bigint,num,offset_rows)','(q_smallint,num,offset_rows)','(q_tinyint,num,offset_rows)','(q_int,num,offset_rows)','(q_float,num,offset_rows)','(q_double,num,offset_rows)','(q_binary,num,offset_rows)','(q_nchar,num,offset_rows)','(q_bool,num,offset_rows)','(q_ts,num,offset_rows)', + '(q_bigint_null,num,offset_rows)','(q_smallint_null,num,offset_rows)','(q_tinyint_null,num,offset_rows)','(q_int_null,num,offset_rows)','(q_float_null,num,offset_rows)','(q_double_null,num,offset_rows)','(q_binary_null,num,offset_rows)','(q_nchar_null,num,offset_rows)','(q_bool_null,num,offset_rows)','(q_ts_null,num,offset_rows)'] + fun_column_1 = random.sample(math_functions,1)+random.sample(fun_fix_column,1) + math_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("num",str(num)).replace("offset_rows",str(offset_rows)) + fun_column_2 = random.sample(math_functions,1)+random.sample(fun_fix_column,1) + math_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("num",str(num)).replace("offset_rows",str(offset_rows)) + + fun_fix_column_j = ['(t1.q_bigint,num)','(t1.q_smallint,num)','(t1.q_tinyint,num)','(t1.q_int,num)','(t1.q_float,num)','(t1.q_double,num)','(t1.q_binary,num)','(t1.q_nchar,num)','(t1.q_bool,num)','(t1.q_ts,num)', + '(t1.q_bigint_null,num)','(t1.q_smallint_null,num)','(t1.q_tinyint_null,num)','(t1.q_int_null,num)','(t1.q_float_null,num)','(t1.q_double_null,num)','(t1.q_binary_null,num)','(t1.q_nchar_null,num)','(t1.q_bool_null,num)','(t1.q_ts_null,num)', + '(t2.q_bigint,num)','(t2.q_smallint,num)','(t2.q_tinyint,num)','(t2.q_int,num)','(t2.q_float,num)','(t2.q_double,num)','(t2.q_binary,num)','(t2.q_nchar,num)','(t2.q_bool,num)','(t2.q_ts,num)', + '(t2.q_bigint_null,num)','(t2.q_smallint_null,num)','(t2.q_tinyint_null,num)','(t2.q_int_null,num)','(t2.q_float_null,num)','(t2.q_double_null,num)','(t2.q_binary_null,num)','(t2.q_nchar_null,num)','(t2.q_bool_null,num)','(t2.q_ts_null,num)', + '(t1.q_bigint,num,offset_rows)','(t1.q_smallint,num,offset_rows)','(t1.q_tinyint,num,offset_rows)','(t1.q_int,num,offset_rows)','(t1.q_float,num,offset_rows)','(t1.q_double,num,offset_rows)','(t1.q_binary,num,offset_rows)','(t1.q_nchar,num,offset_rows)','(t1.q_bool,num,offset_rows)','(t1.q_ts,num,offset_rows)', + '(t1.q_bigint_null,num,offset_rows)','(t1.q_smallint_null,num,offset_rows)','(t1.q_tinyint_null,num,offset_rows)','(t1.q_int_null,num,offset_rows)','(t1.q_float_null,num,offset_rows)','(t1.q_double_null,num,offset_rows)','(t1.q_binary_null,num,offset_rows)','(t1.q_nchar_null,num,offset_rows)','(t1.q_bool_null,num,offset_rows)','(t1.q_ts_null,num,offset_rows)', + '(t2.q_bigint,num,offset_rows)','(t2.q_smallint,num,offset_rows)','(t2.q_tinyint,num,offset_rows)','(t2.q_int,num,offset_rows)','(t2.q_float,num,offset_rows)','(t2.q_double,num,offset_rows)','(t2.q_binary,num,offset_rows)','(t2.q_nchar,num,offset_rows)','(t2.q_bool,num,offset_rows)','(t2.q_ts,num,offset_rows)', + '(t2.q_bigint_null,num,offset_rows)','(t2.q_smallint_null,num,offset_rows)','(t2.q_tinyint_null,num,offset_rows)','(t2.q_int_null,num,offset_rows)','(t2.q_float_null,num,offset_rows)','(t2.q_double_null,num,offset_rows)','(t2.q_binary_null,num,offset_rows)','(t2.q_nchar_null,num,offset_rows)','(t2.q_bool_null,num,offset_rows)','(t2.q_ts_null,num,offset_rows)'] + fun_column_join_1 = random.sample(math_functions,1)+random.sample(fun_fix_column_j,1) + math_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("num",str(num)).replace("offset_rows",str(offset_rows)) + fun_column_join_2 = random.sample(math_functions,1)+random.sample(fun_fix_column_j,1) + math_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("num",str(num)).replace("offset_rows",str(offset_rows)) + + elif (mathlist == ['POW','LOG']) or (mathlist == ['MAVG']) or (mathlist == ['SAMPLE']) : + math_functions = mathlist + num = random.randint(0, 1000) + fun_fix_column = ['(q_bigint,num)','(q_smallint,num)','(q_tinyint,num)','(q_int,num)','(q_float,num)','(q_double,num)', + '(q_bigint_null,num)','(q_smallint_null,num)','(q_tinyint_null,num)','(q_int_null,num)','(q_float_null,num)','(q_double_null,num)'] + fun_column_1 = random.sample(math_functions,1)+random.sample(fun_fix_column,1) + math_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("num",str(num)) + fun_column_2 = random.sample(math_functions,1)+random.sample(fun_fix_column,1) + math_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("num",str(num)) + + fun_fix_column_j = ['(t1.q_bigint,num)','(t1.q_smallint,num)','(t1.q_tinyint,num)','(t1.q_int,num)','(t1.q_float,num)','(t1.q_double,num)', + '(t1.q_bigint_null,num)','(t1.q_smallint_null,num)','(t1.q_tinyint_null,num)','(t1.q_int_null,num)','(t1.q_float_null,num)','(t1.q_double_null,num)', + '(t2.q_bigint,num)','(t2.q_smallint,num)','(t2.q_tinyint,num)','(t2.q_int,num)','(t2.q_float,num)','(t2.q_double,num)', + '(t2.q_bigint_null,num)','(t2.q_smallint_null,num)','(t2.q_tinyint_null,num)','(t2.q_int_null,num)','(t2.q_float_null,num)','(t2.q_double_null,num)'] + fun_column_join_1 = random.sample(math_functions,1)+random.sample(fun_fix_column_j,1) + math_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("num",str(num)) + fun_column_join_2 = random.sample(math_functions,1)+random.sample(fun_fix_column_j,1) + math_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("num",str(num)) + + elif (mathlist == ['statecount','stateduration']): + math_functions = mathlist + num = random.randint(-1000, 1000) + + operator = ['LT' , 'GT' ,'GE','NE','EQ'] + oper = str(random.sample(operator,1)).replace("[","").replace("]","")#.replace("'","") + + fun_fix_column = ['(q_bigint,oper,num,time)','(q_smallint,oper,num,time)','(q_tinyint,oper,num,time)','(q_int,oper,num,time)','(q_float,oper,num,time)','(q_double,oper,num,time)', + '(q_bigint_null,oper,num,time)','(q_smallint_null,oper,num,time)','(q_tinyint_null,oper,num,time)','(q_int_null,oper,num,time)','(q_float_null,oper,num,time)','(q_double_null,oper,num,time)'] + + hanshu_select1 = random.sample(math_functions,1) + fun_column_1 = random.sample(hanshu_select1,1)+random.sample(fun_fix_column,1) + math_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","") + + if str(hanshu_select1).replace("[","").replace("]","").replace("'","") == 'statecount': + math_fun_1 = math_fun_1.replace("oper","%s" %oper).replace(",time","").replace("num",str(num)) + elif str(hanshu_select1).replace("[","").replace("]","").replace("'","") == 'stateduration': + timeunit = ['1s' , '1m' ,'1h'] + time = str(random.sample(timeunit,1)).replace("[","").replace("]","").replace("'","") + math_fun_1 = math_fun_1.replace("oper","%s" %oper).replace("time","%s" %time).replace("num",str(num)) + + hanshu_select2 = random.sample(math_functions,1) + fun_column_2 = random.sample(hanshu_select2,1)+random.sample(fun_fix_column,1) + math_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + if str(hanshu_select2).replace("[","").replace("]","").replace("'","") == 'statecount': + math_fun_2 = math_fun_2.replace("oper","%s" %oper).replace(",time","").replace("num",str(num)) + elif str(hanshu_select2).replace("[","").replace("]","").replace("'","") == 'stateduration': + timeunit = ['1s' , '1m' ,'1h'] + time = str(random.sample(timeunit,1)).replace("[","").replace("]","").replace("'","") + math_fun_2 = math_fun_2.replace("oper","%s" %oper).replace("time","%s" %time).replace("num",str(num)) + + fun_fix_column_j = ['(t1.q_bigint,oper,num,time)','(t1.q_smallint,oper,num,time)','(t1.q_tinyint,oper,num,time)','(t1.q_int,oper,num,time)','(t1.q_float,oper,num,time)','(t1.q_double,oper,num,time)', + '(t1.q_bigint_null,oper,num,time)','(t1.q_smallint_null,oper,num,time)','(t1.q_tinyint_null,oper,num,time)','(t1.q_int_null,oper,num,time)','(t1.q_float_null,oper,num,time)','(t1.q_double_null,oper,num,time)', + '(t2.q_bigint,oper,num,time)','(t2.q_smallint,oper,num,time)','(t2.q_tinyint,oper,num,time)','(t2.q_int,oper,num,time)','(t2.q_float,oper,num,time)','(t2.q_double,oper,num,time)', + '(t2.q_bigint_null,oper,num,time)','(t2.q_smallint_null,oper,num,time)','(t2.q_tinyint_null,oper,num,time)','(t2.q_int_null,oper,num,time)','(t2.q_float_null,oper,num,time)','(t2.q_double_null,oper,num,time)'] + + hanshu_select_join_1 = random.sample(math_functions,1) + fun_column_join_1 = random.sample(hanshu_select_join_1,1)+random.sample(fun_fix_column_j,1) + math_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","") + + if str(hanshu_select_join_1).replace("[","").replace("]","").replace("'","") == 'statecount': + math_fun_join_1 = math_fun_join_1.replace("oper","%s" %oper).replace(",time","").replace("num",str(num)) + elif str(hanshu_select_join_1).replace("[","").replace("]","").replace("'","") == 'stateduration': + timeunit = ['1s' , '1m' ,'1h'] + time = str(random.sample(timeunit,1)).replace("[","").replace("]","").replace("'","") + math_fun_join_1 = math_fun_join_1.replace("oper","%s" %oper).replace("time","%s" %time).replace("num",str(num)) + + hanshu_select_join_2 = random.sample(math_functions,1) + fun_column_join_2 = random.sample(hanshu_select_join_2,1)+random.sample(fun_fix_column_j,1) + math_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + if str(hanshu_select_join_2).replace("[","").replace("]","").replace("'","") == 'statecount': + math_fun_join_2 = math_fun_join_2.replace("oper","%s" %oper).replace(",time","").replace("num",str(num)) + elif str(hanshu_select_join_2).replace("[","").replace("]","").replace("'","") == 'stateduration': + timeunit = ['1s' , '1m' ,'1h'] + time = str(random.sample(timeunit,1)).replace("[","").replace("]","").replace("'","") + math_fun_join_2 = math_fun_join_2.replace("oper","%s" %oper).replace("time","%s" %time).replace("num",str(num)) + + elif(mathlist == ['HISTOGRAM']) : + math_functions = mathlist + fun_fix_column = ['(q_bigint','(q_smallint','(q_tinyint','(q_int','(q_float','(q_double','(q_bigint_null','(q_smallint_null','(q_tinyint_null','(q_int_null','(q_float_null','(q_double_null'] + + fun_fix_column_j = ['(t1.q_bigint','(t1.q_smallint','(t1.q_tinyint','(t1.q_int','(t1.q_float','(t1.q_double','(t1.q_bigint_null','(t1.q_smallint_null','(t1.q_tinyint_null','(t1.q_int_null','(t1.q_float_null','(t1.q_double_null', + '(t2.q_bigint','(t2.q_smallint','(t2.q_tinyint','(t2.q_int','(t2.q_float','(t2.q_double','(t2.q_bigint_null','(t2.q_smallint_null','(t2.q_tinyint_null','(t2.q_int_null','(t2.q_float_null','(t2.q_double_null'] + + normalized = random.randint(0, 1) + + i = random.randint(1,3) + if i == 1: + bin_type = 'user_input' + bin_description = {-11111119395555977777} #9一会转译成, + fun_column_1 = [math_functions , random.sample(fun_fix_column,1), ',',"'%s'" %bin_type, ',',"'%s'" % bin_description, ',', "%d" %normalized,')'] + math_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("{","[").replace("}","]").replace("9",",") + + fun_column_2 = [math_functions , random.sample(fun_fix_column,1), ',',"'%s'" %bin_type, ',',"'%s'" % bin_description, ',', "%d" %normalized,')'] + math_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("{","[").replace("}","]").replace("9",",") + + fun_column_join_1 = [math_functions , random.sample(fun_fix_column_j,1), ',',"'%s'" %bin_type, ',',"'%s'" % bin_description, ',', "%d" %normalized,')'] + math_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("{","[").replace("}","]").replace("9",",") + + fun_column_join_2 = [math_functions , random.sample(fun_fix_column_j,1), ',',"'%s'" %bin_type, ',',"'%s'" % bin_description, ',', "%d" %normalized,')'] + math_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("{","[").replace("}","]").replace("9",",") + + elif i == 2: + bin_type = 'linear_bin' + true_false = random.randint(10, 11) + bin_description = {"ZstartZ": -333339, "ZwidthZ":559, "ZcountZ":59, "ZinfinityZ":'%d' %true_false} #Z一会转译成" ,9一会转译成 , + fun_column_1 = [math_functions , random.sample(fun_fix_column,1), ',',"'%s'" %bin_type, ',','%s' % bin_description, ',', "%d" %normalized,')'] + math_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("9",",").replace("Z","\"").replace("10","false").replace("11","true").replace("\"{","'{").replace("}\"","}'") + + fun_column_2 = [math_functions , random.sample(fun_fix_column,1), ',',"'%s'" %bin_type, ',','%s' % bin_description, ',', "%d" %normalized,')'] + math_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("9",",").replace("Z","\"").replace("10","false").replace("11","true").replace("\"{","'{").replace("}\"","}'") + + fun_column_join_1 = [math_functions , random.sample(fun_fix_column_j,1), ',',"'%s'" %bin_type, ',','%s' % bin_description, ',', "%d" %normalized,')'] + math_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("9",",").replace("Z","\"").replace("10","false").replace("11","true").replace("\"{","'{").replace("}\"","}'") + + fun_column_join_2 = [math_functions , random.sample(fun_fix_column_j,1), ',',"'%s'" %bin_type, ',','%s' % bin_description, ',', "%d" %normalized,')'] + math_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("9",",").replace("Z","\"").replace("10","false").replace("11","true").replace("\"{","'{").replace("}\"","}'") + + elif i == 3: + bin_type = 'log_bin' + true_false = random.randint(10, 11) + bin_description = {"ZstartZ": -333339, "ZfactorZ":559, "ZcountZ":59, "ZinfinityZ":'%d' %true_false} #Z一会转译成" ,9一会转译成 , + fun_column_1 = [math_functions , random.sample(fun_fix_column,1), ',',"'%s'" %bin_type, ',','%s' % bin_description, ',', "%d" %normalized,')'] + math_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("9",",").replace("Z","\"").replace("10","false").replace("11","true").replace("\"{","'{").replace("}\"","}'") + + fun_column_2 = [math_functions , random.sample(fun_fix_column,1), ',',"'%s'" %bin_type, ',','%s' % bin_description, ',', "%d" %normalized,')'] + math_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("9",",").replace("Z","\"").replace("10","false").replace("11","true").replace("\"{","'{").replace("}\"","}'") + + fun_column_join_1 = [math_functions , random.sample(fun_fix_column_j,1), ',',"'%s'" %bin_type, ',','%s' % bin_description, ',', "%d" %normalized,')'] + math_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("9",",").replace("Z","\"").replace("10","false").replace("11","true").replace("\"{","'{").replace("}\"","}'") + + fun_column_join_2 = [math_functions , random.sample(fun_fix_column_j,1), ',',"'%s'" %bin_type, ',','%s' % bin_description, ',', "%d" %normalized,')'] + math_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("9",",").replace("Z","\"").replace("10","false").replace("11","true").replace("\"{","'{").replace("}\"","}'") + + tdSql.query("select 1-1 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']): + sql = "select %s as asct1, " % math_fun_1 + sql += "%s as asct2, " % math_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as ts1 from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE']) or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select %s as asct1 " % math_fun_1 + sql += " from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-2 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "(select %s as asct1, " % math_fun_1 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s )" % random.choice(self.order_where) + sql += "%s " % random.choice(self.unionall_or_union) + sql += "(select %s as asct2, " % math_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE']) or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']): + sql = "(select %s as asct1 " % math_fun_1 + sql += "from regular_table_1 where " + sql += "%s )" % random.choice(self.q_where) + sql += "%s " % random.choice(self.unionall_or_union) + sql += "(select %s as asct2 " % math_fun_2 + sql += " from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-3 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "(select %s as asct1, ts ," % math_fun_1 + sql += "%s as asct2, " % math_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s " % random.choice(self.q_select) + sql += " from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += ") %s (select " % random.choice(self.unionall_or_union) + sql += "%s as asct2, ts ," % math_fun_2 + sql += "%s as asct1, " % math_fun_1 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s " % random.choice(self.q_select) + sql += " from regular_table_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MODE']) : + sql = "(select %s as asct1," % math_fun_1 + sql += "%s as asct2 " % math_fun_2 + sql += " from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += ") %s (select " % random.choice(self.unionall_or_union) + sql += "%s as asct2 ," % math_fun_2 + sql += "%s as asct1 " % math_fun_1 + sql += " from regular_table_2 where " + sql += "%s " % random.choice(self.q_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['statecount','stateduration']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['TAIL']) or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['SAMPLE']): + sql = "(select %s as asct1 " % math_fun_1 + sql += " from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += ") %s (select " % random.choice(self.unionall_or_union) + sql += "%s as asct1 " % math_fun_2 + sql += " from regular_table_2 where " + sql += "%s " % random.choice(self.q_where) + sql += " order by asct1 asc " + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-4 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "select ts1,ts2 ,timediff(ts1,ts2), asct1 from ( select t1.ts as ts1," + sql += "%s as asct0, " % math_fun_join_1 + sql += "%s as asct1, " % math_fun_join_2 + sql += "%s as asct2, " % math_fun_join_1 + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct22, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE'])or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select count(asct1) from ( select " + sql += "%s as asct1 " % math_fun_join_2 + sql += "from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s " % random.choice(self.q_u_or_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-5 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "select ts ," + sql += "%s, " % math_fun_1 + sql += "%s as asct1, " % random.choice(self.q_select) + sql += "%s as asct2, " % random.choice(self.q_select) + sql += "%s " % math_fun_2 + sql += " from regular_table_1" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE'])or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select " + sql += "%s " % math_fun_2 + sql += " from regular_table_1" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-6 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "select ts1 ,timediff(ts1,ts2), max(asct1) from ( select t1.ts,t1.ts as ts1," + sql += "%s as asct0, " % math_fun_join_1 + sql += "%s as asct1, " % math_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t2.%s as asct12, " % random.choice(self.q_select) + sql += "%s as asct13, " % math_fun_join_1 + sql += "t2.ts as ts2 from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s )" % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE'])or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select count(asct1) from ( select " + sql += "%s as asct1 " % math_fun_join_2 + sql += "from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s )" % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-7 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "select ts1,ts2 , abs(asct1) from ( select " + sql += "%s as asct1, ts as ts1," % math_fun_1 + sql += "%s as asct2, " % math_fun_2 + sql += "%s, " % random.choice(self.q_select) + sql += "%s, " % random.choice(self.t_select) + sql += "ts as ts2 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE']) or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select count(asct1) from ( select " + sql += "%s as asct1 " % math_fun_1 + sql += "from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-8 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "select %s, " % random.choice(self.s_s_select) + sql += "%s as asct1, ts as ts1," % math_fun_1 + sql += "%s as asct2, " % math_fun_2 + sql += "%s, " % random.choice(self.q_select) + sql += "%s, " % random.choice(self.t_select) + sql += "ts as ts2 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE'])or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select %s as asct1 " % math_fun_1 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-9 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "select %s, " % math_fun_join_1 + sql += "%s as asct1, " % math_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct21, " % random.choice(self.q_select) + sql += "t2.%s as asct22, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "and %s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE'])or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select %s as asct1 " % math_fun_join_2 + sql += "from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "and %s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-10 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "(select %s as asct1 ," % math_fun_1 + sql += "%s as asct2, " % math_fun_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ") %s " % random.choice(self.unionall_or_union) + sql += "(select " + sql += "%s as asct1 ," % math_fun_1 + sql += "%s as asct2, " % math_fun_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE'])or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "(select %s as asct1 " % math_fun_1 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += ") %s " % random.choice(self.unionall_or_union) + sql += "(select " + sql += "%s as asct2 " % math_fun_2 + sql += "from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #3 inter union not support + tdSql.query("select 1-11 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "(select %s as asct1, ts ," % math_fun_1 + sql += "%s as asct2, " % math_fun_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as t2ts from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += " ) %s (" % random.choice(self.unionall_or_union) + sql += " select " + sql += "%s as asct1, ts as t1ts," % math_fun_1 + sql += "%s as asct2, " % math_fun_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as t2ts from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE'])or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select %s as asct1 " % math_fun_1 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += " %s " % random.choice(self.unionall_or_union) + sql += " select " + sql += "%s as asct2 " % math_fun_2 + sql += " from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-12 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "select ts1,ts2 ,timediff(ts1,ts2), max(asct1) from ( select t1.ts as ts1," + sql += "%s, " % math_fun_join_1 + sql += "%s as asct1, " % math_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct21, " % random.choice(self.q_select) + sql += "t2.%s as asct111, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE'])or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select count(asct1) from ( select " + sql += "%s as asct1 " % math_fun_join_2 + sql += " from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-13 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "select ts ," + sql += "%s as asct11, " % math_fun_1 + sql += "%s as asct12, " % random.choice(self.q_select) + sql += "%s as asct13, " % random.choice(self.q_select) + sql += "%s as asct14, " % math_fun_2 + sql += "%s as asct15 " % random.choice(self.t_select) + sql += " from stable_1 " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE'])or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select " + sql += "%s " % math_fun_2 + sql += "%s " % random.choice(self.t_select) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-14 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "select avg(asct1),count(asct2) from ( select " + sql += "%s as asct1, " % math_fun_1 + sql += "%s as asct2" % math_fun_2 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.partiton_where) + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += " ) ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE'])or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select count(asct1) from ( select " + sql += "%s as asct1 " % math_fun_1 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.partiton_where) + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += " ) ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-15 as math_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (mathlist == ['SIN','COS','TAN','ASIN','ACOS','ATAN']) or (mathlist == ['ABS','SQRT']) \ + or (mathlist == ['POW','LOG']) or (mathlist == ['FLOOR','CEIL','ROUND']) : + sql = "select ts1,ts ,timediff(ts1,ts), max(asct1) from ( select t1.ts as ts1," + sql += "%s, " % math_fun_join_1 + sql += "%s as asct1, " % math_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct13, " % random.choice(self.q_select) + sql += "t2.%s as asct14, " % random.choice(self.q_select) + sql += "t2.ts from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += " and %s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.partiton_where_j) + sql += "%s " % random.choice(self.slimit1_where) + sql += ") " + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s ;" % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (mathlist == ['MAVG']) or (mathlist == ['SAMPLE']) or (mathlist == ['TAIL']) or (mathlist == ['CSUM']) or (mathlist == ['HISTOGRAM']) \ + or (mathlist == ['HYPERLOGLOG']) or (mathlist == ['UNIQUE']) or (mathlist == ['MODE']) or (mathlist == ['statecount','stateduration']) : + sql = "select count(asct1) from ( select " + sql += "%s as asct1 " % math_fun_join_2 + sql += "from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += " and %s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.partiton_where_j) + sql += "%s " % random.choice(self.slimit1_where) + sql += ") " + sql += "%s ;" % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #taos -f sql + # startTime_taosf = time.time() + print("taos -f %s sql start!" %mathlist) + # taos_cmd1 = "taos -f %s/%s.sql" % (self.testcasePath,self.testcaseFilename) + # _ = subprocess.check_output(taos_cmd1, shell=True) + print("taos -f %s sql over!" %mathlist) + + print("=========%s====over=============" %mathlist) + + + def str_nest(self,strlist): + + print("==========%s===start=============" %strlist) + os.system("rm -rf %s/%s.sql" % (self.testcasePath,self.testcaseFilename)) + + self.dropandcreateDB_random("%s" %self.db_nest, 1) + + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['LENGTH','CHAR_LENGTH']) \ + or (strlist == ['']): + str_functions = strlist + fun_fix_column = ['(q_nchar)','(q_binary)','(q_nchar_null)','(q_binary_null)'] + fun_column_1 = random.sample(str_functions,1)+random.sample(fun_fix_column,1) + str_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","") + fun_column_2 = random.sample(str_functions,1)+random.sample(fun_fix_column,1) + str_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + fun_fix_column_j = ['(t1.q_nchar)','(t1.q_binary)','(t1.q_nchar_null)','(t1.q_binary_null)', + '(t2.q_nchar)','(t2.q_binary)','(t2.q_nchar_null)','(t2.q_binary_null)'] + fun_column_join_1 = random.sample(str_functions,1)+random.sample(fun_fix_column_j,1) + str_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","") + fun_column_join_2 = random.sample(str_functions,1)+random.sample(fun_fix_column_j,1) + str_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + fun_fix_column_s = ['(q_nchar)','(q_binary)','(q_nchar_null)','(q_binary_null)','(loc)','(tbname)'] + fun_column_s_1 = random.sample(str_functions,1)+random.sample(fun_fix_column_s,1) + str_fun_s_1 = str(fun_column_s_1).replace("[","").replace("]","").replace("'","").replace(", ","") + fun_column_s_2 = random.sample(str_functions,1)+random.sample(fun_fix_column_s,1) + str_fun_s_2 = str(fun_column_s_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + fun_fix_column_s_j = ['(t1.q_nchar)','(t1.q_binary)','(t1.q_nchar_null)','(t1.q_binary_null)','(t1.loc)','(t1.tbname)', + '(t2.q_nchar)','(t2.q_binary)','(t2.q_nchar_null)','(t2.q_binary_null)','(t2.loc)','(t2.tbname)'] + fun_column_join_s_1 = random.sample(str_functions,1)+random.sample(fun_fix_column_j,1) + str_fun_join_s_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","") + fun_column_join_s_2 = random.sample(str_functions,1)+random.sample(fun_fix_column_j,1) + str_fun_join_s_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + elif (strlist == ['SUBSTR']) : + str_functions = strlist + pos = random.randint(1, 20) + sub_len = random.randint(1, 10) + fun_fix_column = ['(q_nchar,pos)','(q_binary,pos)','(q_nchar_null,pos)','(q_binary_null,pos)', + '(q_nchar,pos,sub_len)','(q_binary,pos,sub_len)','(q_nchar_null,pos,sub_len)','(q_binary_null,pos,sub_len)',] + fun_column_1 = random.sample(str_functions,1)+random.sample(fun_fix_column,1) + str_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("pos",str(pos)).replace("sub_len",str(sub_len)) + fun_column_2 = random.sample(str_functions,1)+random.sample(fun_fix_column,1) + str_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("pos",str(pos)).replace("sub_len",str(sub_len)) + + fun_fix_column_j = ['(t1.q_nchar,pos)','(t1.q_binary,pos)','(t1.q_nchar_null,pos)','(t1.q_binary_null,pos)', + '(t1.q_nchar,pos,sub_len)','(t1.q_binary,pos,sub_len)','(t1.q_nchar_null,pos,sub_len)','(t1.q_binary_null,pos,sub_len)', + '(t2.q_nchar,pos)','(t2.q_binary,pos)','(t2.q_nchar_null,pos)','(t2.q_binary_null,pos)', + '(t2.q_nchar,pos,sub_len)','(t2.q_binary,pos,sub_len)','(t2.q_nchar_null,pos,sub_len)','(t2.q_binary_null,pos,sub_len)'] + fun_column_join_1 = random.sample(str_functions,1)+random.sample(fun_fix_column_j,1) + str_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("pos",str(pos)).replace("sub_len",str(sub_len)) + fun_column_join_2 = random.sample(str_functions,1)+random.sample(fun_fix_column_j,1) + str_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("pos",str(pos)).replace("sub_len",str(sub_len)) + + fun_fix_column_s = ['(q_nchar,pos)','(q_binary,pos)','(q_nchar_null,pos)','(q_binary_null,pos)','(loc,pos)', + '(q_nchar,pos,sub_len)','(q_binary,pos,sub_len)','(q_nchar_null,pos,sub_len)','(q_binary_null,pos,sub_len)','(loc,pos,sub_len)',] + fun_column_s_1 = random.sample(str_functions,1)+random.sample(fun_fix_column_s,1) + str_fun_s_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("pos",str(pos)).replace("sub_len",str(sub_len)) + fun_column_s_2 = random.sample(str_functions,1)+random.sample(fun_fix_column_s,1) + str_fun_s_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("pos",str(pos)).replace("sub_len",str(sub_len)) + + fun_fix_column_s_j = ['(t1.q_nchar,pos)','(t1.q_binary,pos)','(t1.q_nchar_null,pos)','(t1.q_binary_null,pos)','(t1.loc,pos)', + '(t1.q_nchar,pos,sub_len)','(t1.q_binary,pos,sub_len)','(t1.q_nchar_null,pos,sub_len)','(t1.q_binary_null,pos,sub_len)','(t1.loc,pos,sub_len)', + '(t2.q_nchar,pos)','(t2.q_binary,pos)','(t2.q_nchar_null,pos)','(t2.q_binary_null,pos)','(t2.loc,pos)', + '(t2.q_nchar,pos,sub_len)','(t2.q_binary,pos,sub_len)','(t2.q_nchar_null,pos,sub_len)','(t2.q_binary_null,pos,sub_len)','(t2.loc,pos,sub_len)'] + fun_column_join_s_1 = random.sample(str_functions,1)+random.sample(fun_fix_column_s_j,1) + str_fun_join_s_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("pos",str(pos)).replace("sub_len",str(sub_len)) + fun_column_join_s_2 = random.sample(str_functions,1)+random.sample(fun_fix_column_s_j,1) + str_fun_join_s_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("pos",str(pos)).replace("sub_len",str(sub_len)) + + elif (strlist == ['CONCAT']) : + str_functions = strlist + i = random.randint(2,4) + fun_fix_column = ['q_nchar','q_nchar1','q_nchar2','q_nchar3','q_nchar4','q_nchar5','q_nchar6','q_nchar7','q_nchar8','q_nchar_null', + 'q_binary','q_binary1','q_binary2','q_binary3','q_binary4','q_binary5','q_binary6','q_binary7','q_binary8','q_binary_null'] + + column1 = str(random.sample(fun_fix_column,i)).replace("[","").replace("]","").replace("'","") + fun_column_1 = str(random.sample(str_functions,1))+'('+column1+')' + str_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","") + + column2 = str(random.sample(fun_fix_column,i)).replace("[","").replace("]","").replace("'","") + fun_column_2 = str(random.sample(str_functions,1))+'('+column2+')' + str_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","") + + fun_fix_column_j = ['(t1.q_nchar)','(t1.q_nchar1)','(t1.q_nchar2)','(t1.q_nchar3)','(t1.q_nchar4)','(t1.q_nchar5)','(t1.q_nchar6)','(t1.q_nchar7)','(t1.q_nchar8)','(t1.q_nchar_null)', + '(t2.q_nchar)','(t2.q_nchar1)','(t2.q_nchar2)','(t2.q_nchar3)','(t2.q_nchar4)','(t2.q_nchar5)','(t2.q_nchar6)','(t2.q_nchar7)','(t2.q_nchar8)','(t2.q_nchar_null)', + '(t1.q_binary)','(t1.q_binary1)','(t1.q_binary2)','(t1.q_binary3)','(t1.q_binary4)','(t1.q_binary5)','(t1.q_binary6)','(t1.q_binary7)','(t1.q_binary8)','(t1.q_binary_null)', + '(t2.q_binary)','(t2.q_binary1)','(t2.q_binary2)','(t2.q_binary3)','(t2.q_binary4)','(t2.q_binary5)','(t2.q_binary6)','(t2.q_binary7)','(t2.q_binary8)','(t2.q_binary_null)'] + + column_j1 = str(random.sample(fun_fix_column_j,i)).replace("[","").replace("]","").replace("'","") + fun_column_join_1 = str(random.sample(str_functions,1))+'('+column_j1+')' + str_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","") + + column_j2 = str(random.sample(fun_fix_column_j,i)).replace("[","").replace("]","").replace("'","") + fun_column_join_2 = str(random.sample(str_functions,1))+'('+column_j2+')' + str_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","") + + fun_fix_column_s = ['q_nchar','q_nchar1','q_nchar2','q_nchar3','q_nchar4','q_nchar5','q_nchar6','q_nchar7','q_nchar8','loc','q_nchar_null', + 'q_binary','q_binary1','q_binary2','q_binary3','q_binary4','q_binary5','q_binary6','q_binary7','q_binary8','q_binary_null'] + + column_s1 = str(random.sample(fun_fix_column,i)).replace("[","").replace("]","").replace("'","") + fun_column_s_1 = str(random.sample(str_functions,1))+'('+column_s1+')' + str_fun_s_1 = str(fun_column_s_1).replace("[","").replace("]","").replace("'","") + + column_s2 = str(random.sample(fun_fix_column,i)).replace("[","").replace("]","").replace("'","") + fun_column_s_2 = str(random.sample(str_functions,1))+'('+column_s2+')' + str_fun_s_2 = str(fun_column_s_2).replace("[","").replace("]","").replace("'","") + + fun_fix_column_s_j = ['(t1.q_nchar)','(t1.q_nchar1)','(t1.q_nchar2)','(t1.q_nchar3)','(t1.q_nchar4)','(t1.q_nchar5)','(t1.q_nchar6)','(t1.q_nchar7)','(t1.q_nchar8)','(t1.q_nchar_null)','(t1.loc)', + '(t2.q_nchar)','(t2.q_nchar1)','(t2.q_nchar2)','(t2.q_nchar3)','(t2.q_nchar4)','(t2.q_nchar5)','(t2.q_nchar6)','(t2.q_nchar7)','(t2.q_nchar8)','(t2.q_nchar_null)','(t2.loc)', + '(t1.q_binary)','(t1.q_binary1)','(t1.q_binary2)','(t1.q_binary3)','(t1.q_binary4)','(t1.q_binary5)','(t1.q_binary6)','(t1.q_binary7)','(t1.q_binary8)','(t1.q_binary_null)', + '(t2.q_binary)','(t2.q_binary1)','(t2.q_binary2)','(t2.q_binary3)','(t2.q_binary4)','(t2.q_binary5)','(t2.q_binary6)','(t2.q_binary7)','(t2.q_binary8)','(t2.q_binary_null)'] + + column_j_s1 = str(random.sample(fun_fix_column_s_j,i)).replace("[","").replace("]","").replace("'","") + fun_column_join_s_1 = str(random.sample(str_functions,1))+'('+column_j_s1+')' + str_fun_join_s_1 = str(fun_column_join_s_1).replace("[","").replace("]","").replace("'","") + + column_j_s2 = str(random.sample(fun_fix_column_s_j,i)).replace("[","").replace("]","").replace("'","") + fun_column_join_s_2 = str(random.sample(str_functions,1))+'('+column_j_s2+')' + str_fun_join_s_2 = str(fun_column_join_s_2).replace("[","").replace("]","").replace("'","") + + elif (strlist == ['CONCAT_WS']): + str_functions = strlist + i = random.randint(2,4) + fun_fix_column = ['q_nchar','q_nchar1','q_nchar2','q_nchar3','q_nchar4','q_nchar5','q_nchar6','q_nchar7','q_nchar8','q_nchar_null', + 'q_binary','q_binary1','q_binary2','q_binary3','q_binary4','q_binary5','q_binary6','q_binary7','q_binary8','q_binary_null'] + + separators = ['',' ','abc','123','!','@','#','$','%','^','&','*','(',')','-','_','+','=','{', + '[','}',']','|',';',':',',','.','<','>','?','/','~','`','taos','涛思'] + separator = str(random.sample(separators,i)).replace("[","").replace("]","") + + column1 = str(random.sample(fun_fix_column,i)).replace("[","").replace("]","").replace("'","") + fun_column_1 = str(random.sample(str_functions,1))+'('+'\"'+separator+'\",'+column1+')' + str_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","") + + column2 = str(random.sample(fun_fix_column,i)).replace("[","").replace("]","").replace("'","") + fun_column_2 = str(random.sample(str_functions,1))+'('+'\"'+separator+'\",'+column2+')' + str_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","") + + fun_fix_column_j = ['(t1.q_nchar)','(t1.q_nchar1)','(t1.q_nchar2)','(t1.q_nchar3)','(t1.q_nchar4)','(t1.q_nchar5)','(t1.q_nchar6)','(t1.q_nchar7)','(t1.q_nchar8)','(t1.q_nchar_null)', + '(t2.q_nchar)','(t2.q_nchar1)','(t2.q_nchar2)','(t2.q_nchar3)','(t2.q_nchar4)','(t2.q_nchar5)','(t2.q_nchar6)','(t2.q_nchar7)','(t2.q_nchar8)','(t2.q_nchar_null)', + '(t1.q_binary)','(t1.q_binary1)','(t1.q_binary2)','(t1.q_binary3)','(t1.q_binary4)','(t1.q_binary5)','(t1.q_binary6)','(t1.q_binary7)','(t1.q_binary8)','(t1.q_binary_null)', + '(t2.q_binary)','(t2.q_binary1)','(t2.q_binary2)','(t2.q_binary3)','(t2.q_binary4)','(t2.q_binary5)','(t2.q_binary6)','(t2.q_binary7)','(t2.q_binary8)','(t2.q_binary_null)'] + + column_j1 = str(random.sample(fun_fix_column_j,i)).replace("[","").replace("]","").replace("'","") + fun_column_join_1 = str(random.sample(str_functions,1))+'('+'\"'+separator+'\",'+column_j1+')' + str_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","") + + column_j2 = str(random.sample(fun_fix_column_j,i)).replace("[","").replace("]","").replace("'","") + fun_column_join_2 = str(random.sample(str_functions,1))+'('+'\"'+separator+'\",'+column_j2+')' + str_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","") + + fun_fix_column_s = ['q_nchar','q_nchar1','q_nchar2','q_nchar3','q_nchar4','q_nchar5','q_nchar6','q_nchar7','q_nchar8','loc','q_nchar_null', + 'q_binary','q_binary1','q_binary2','q_binary3','q_binary4','q_binary5','q_binary6','q_binary7','q_binary8','q_binary_null'] + + column_s1 = str(random.sample(fun_fix_column,i)).replace("[","").replace("]","").replace("'","") + fun_column_s_1 = str(random.sample(str_functions,1))+'('+'\"'+separator+'\",'+column_s1+')' + str_fun_s_1 = str(fun_column_s_1).replace("[","").replace("]","").replace("'","") + + column_s2 = str(random.sample(fun_fix_column,i)).replace("[","").replace("]","").replace("'","") + fun_column_s_2 = str(random.sample(str_functions,1))+'('+'\"'+separator+'\",'+column_s2+')' + str_fun_s_2 = str(fun_column_s_2).replace("[","").replace("]","").replace("'","") + + fun_fix_column_s_j = ['(t1.q_nchar)','(t1.q_nchar1)','(t1.q_nchar2)','(t1.q_nchar3)','(t1.q_nchar4)','(t1.q_nchar5)','(t1.q_nchar6)','(t1.q_nchar7)','(t1.q_nchar8)','(t1.q_nchar_null)','(t1.loc)', + '(t2.q_nchar)','(t2.q_nchar1)','(t2.q_nchar2)','(t2.q_nchar3)','(t2.q_nchar4)','(t2.q_nchar5)','(t2.q_nchar6)','(t2.q_nchar7)','(t2.q_nchar8)','(t2.q_nchar_null)','(t2.loc)', + '(t1.q_binary)','(t1.q_binary1)','(t1.q_binary2)','(t1.q_binary3)','(t1.q_binary4)','(t1.q_binary5)','(t1.q_binary6)','(t1.q_binary7)','(t1.q_binary8)','(t1.q_binary_null)', + '(t2.q_binary)','(t2.q_binary1)','(t2.q_binary2)','(t2.q_binary3)','(t2.q_binary4)','(t2.q_binary5)','(t2.q_binary6)','(t2.q_binary7)','(t2.q_binary8)','(t2.q_binary_null)'] + + column_j_s1 = str(random.sample(fun_fix_column_s_j,i)).replace("[","").replace("]","").replace("'","") + fun_column_join_s_1 = str(random.sample(str_functions,1))+'('+'\"'+separator+'\",'+column_j_s1+')' + str_fun_join_s_1 = str(fun_column_join_s_1).replace("[","").replace("]","").replace("'","") + + column_j_s2 = str(random.sample(fun_fix_column_s_j,i)).replace("[","").replace("]","").replace("'","") + fun_column_join_s_2 = str(random.sample(str_functions,1))+'('+'\"'+separator+'\",'+column_j_s2+')' + str_fun_join_s_2 = str(fun_column_join_s_2).replace("[","").replace("]","").replace("'","") + + + tdSql.query("select 1-1 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']) : + sql = "select t1s , LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select " + sql += "%s as asct1, " % str_fun_1 + sql += "%s as asct2, " % str_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as t1s from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select " + sql += "%s as asct1, " % str_fun_1 + sql += "%s as asct2, " % str_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-2 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']) : + sql = "select ts , asct1 from ( select " + sql += "%s as asct1, " % str_fun_1 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s )" % random.choice(self.order_where) + sql += "%s " % random.choice(self.unionall_or_union) + sql += "select ts , asct2 from ( select " + sql += "%s as asct2, " % str_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1) from ( select " + sql += "%s as asct1, " % str_fun_1 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s )" % random.choice(self.order_where) + sql += "%s " % random.choice(self.unionall_or_union) + sql += "select sum(asct2), min(asct2) from ( select " + sql += "%s as asct2, " % str_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-3 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select ts , LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select " + sql += "%s as asct1 ," % str_fun_1 + sql += "%s as asct2, " % str_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s select " % random.choice(self.unionall_or_union) + sql += "%s as asct2 ," % str_fun_2 + sql += "%s as asct1, " % str_fun_1 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from regular_table_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select " + sql += "%s as asct1 ," % str_fun_1 + sql += "%s as asct2, " % str_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s select " % random.choice(self.unionall_or_union) + sql += "%s as asct2 ," % str_fun_2 + sql += "%s as asct1, " % str_fun_1 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from regular_table_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-4 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select ts1,ts2 ,timediff(ts1,ts2), LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select t1.ts as ts1," + sql += "%s as asct2, " % str_fun_join_1 + sql += "%s as asct1, " % str_fun_join_2 + sql += "%s, " % str_fun_join_1 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t2.%s as asct12, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select t1.ts as ts1," + sql += "%s as asct2, " % str_fun_join_1 + sql += "%s as asct1, " % str_fun_join_2 + sql += "%s, " % str_fun_join_1 + sql += "t1.%s as asct21, " % random.choice(self.q_select) + sql += "t2.%s as asct22, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-5 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select ts ," + sql += "%s, " % str_fun_1 + sql += "%s as asct21, " % random.choice(self.q_select) + sql += "%s as asct22, " % random.choice(self.q_select) + sql += "%s " % str_fun_2 + sql += " from ( select * from regular_table_1 ) where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += " ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select ts ," + sql += "%s, " % str_fun_1 + sql += "%s as asct22, " % random.choice(self.q_select) + sql += "%s as asct21, " % random.choice(self.q_select) + sql += "%s " % str_fun_2 + sql += " from ( select * from regular_table_1 ) where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += " ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-6 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select ts1,ts ,timediff(ts1,ts), LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select t1.ts as ts1," + sql += "%s as asct2, " % str_fun_join_1 + sql += "%s as asct1, " % str_fun_join_2 + sql += "t1.%s as asct22, " % random.choice(self.q_select) + sql += "t2.%s as asct21, " % random.choice(self.q_select) + sql += "%s, " % str_fun_join_1 + sql += "t2.ts from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s )" % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select t1.ts as ts1," + sql += "%s as asct2, " % str_fun_join_1 + sql += "%s as asct1, " % str_fun_join_2 + sql += "t1.%s as asct22, " % random.choice(self.q_select) + sql += "t2.%s as asct21, " % random.choice(self.q_select) + sql += "%s, " % str_fun_join_1 + sql += "t2.ts as ts2 from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s )" % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-7 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select t1s ,ts1, LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select " + sql += "%s as asct1, ts as t1s," % str_fun_s_1 + sql += "%s as asct2, " % str_fun_s_2 + sql += "%s, " % random.choice(self.q_select) + sql += "%s, " % random.choice(self.t_select) + sql += "ts as ts1 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select " + sql += "%s as asct1, ts as ts1," % str_fun_s_1 + sql += "%s as asct2, " % str_fun_s_2 + sql += "%s, " % random.choice(self.q_select) + sql += "%s, " % random.choice(self.t_select) + sql += "ts as t1s from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-8 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select ts1,st1, LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) " + sql += "from ( select " + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s as asct1, ts as st1," % str_fun_s_1 + sql += "%s as asct2, " % str_fun_s_2 + sql += "%s, " % random.choice(self.q_select) + sql += "%s, " % random.choice(self.t_select) + sql += "ts as ts1 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) " + sql += "from ( select " + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s as asct1, ts as ts1," % str_fun_s_1 + sql += "%s as asct2, " % str_fun_s_2 + sql += "%s, " % random.choice(self.q_select) + sql += "%s, " % random.choice(self.t_select) + sql += "ts as st1 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-9 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select ts1,ts2 ,timediff(ts1,ts2), LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select t1.ts as ts1," + sql += "%s as asct2, " % str_fun_join_s_1 + sql += "%s as asct1, " % str_fun_join_s_2 + sql += "t1.%s as asct21, " % random.choice(self.q_select) + sql += "t1.%s as asct22, " % random.choice(self.q_select) + sql += "t2.%s as asct23, " % random.choice(self.q_select) + sql += "t2.%s as asct24, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "and %s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select t1.ts as ts1," + sql += "%s as asct2, " % str_fun_join_s_1 + sql += "%s as asct1, " % str_fun_join_s_2 + sql += "t1.%s as asct21, " % random.choice(self.q_select) + sql += "t1.%s as asct22, " % random.choice(self.q_select) + sql += "t2.%s as asct23, " % random.choice(self.q_select) + sql += "t2.%s as asct24, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "and %s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + + tdSql.query("select 1-10 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select ts , LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select " + sql += "%s as asct1 ," % str_fun_s_1 + sql += "%s as asct2, " % str_fun_s_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ") %s " % random.choice(self.unionall_or_union) + sql += "select ts , LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select " + sql += "%s as asct1 ," % str_fun_1 + sql += "%s as asct2, " % str_fun_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select " + sql += "%s as asct1 ," % str_fun_s_1 + sql += "%s as asct2, " % str_fun_s_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ") %s " % random.choice(self.unionall_or_union) + sql += "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select " + sql += "%s as asct1 ," % str_fun_1 + sql += "%s as asct2, " % str_fun_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #3 inter union not support + tdSql.query("select 1-11 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select ts , LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select " + sql += "%s as asct1, ts ," % str_fun_s_1 + sql += "%s as asct2, " % str_fun_s_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s " % random.choice(self.q_select) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += " %s " % random.choice(self.unionall_or_union) + sql += " select " + sql += "%s as asct1, ts ," % str_fun_1 + sql += "%s as asct2, " % str_fun_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s " % random.choice(self.q_select) + sql += " from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select " + sql += "%s as asct1 ," % str_fun_s_1 + sql += "%s as asct2, " % str_fun_s_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += " %s " % random.choice(self.unionall_or_union) + sql += " select " + sql += "%s as asct1 ," % str_fun_1 + sql += "%s as asct2, " % str_fun_2 + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-12 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select ts1,ts2 ,timediff(ts1,ts2), LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select t1.ts as ts1," + sql += "%s as asct2, " % str_fun_join_s_1 + sql += "%s as asct1, " % str_fun_join_s_2 + sql += "t1.%s as asct21, " % random.choice(self.q_select) + sql += "t1.%s as asct22, " % random.choice(self.q_select) + sql += "t2.%s as asct23, " % random.choice(self.q_select) + sql += "t2.%s as asct24, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select t1.ts as ts1," + sql += "%s as asct2, " % str_fun_join_s_1 + sql += "%s as asct1, " % str_fun_join_s_2 + sql += "t1.%s as asct21, " % random.choice(self.q_select) + sql += "t1.%s as asct22, " % random.choice(self.q_select) + sql += "t2.%s as asct23, " % random.choice(self.q_select) + sql += "t2.%s as asct24, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-13 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select ts ," + sql += "%s as asct10, " % str_fun_1 + sql += "%s as asct1, " % random.choice(self.q_select) + sql += "%s as asct12, " % random.choice(self.q_select) + sql += "%s as asct13, " % str_fun_2 + sql += "%s as asct14 " % random.choice(self.t_select) + sql += " from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select ts ," + sql += "%s as asct1, " % str_fun_1 + sql += "%s as asct11, " % random.choice(self.q_select) + sql += "%s as asct12, " % random.choice(self.q_select) + sql += "%s as asct13, " % str_fun_2 + sql += "%s as asct14 " % random.choice(self.t_select) + sql += " from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-14 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select " + sql += "%s as asct1, " % str_fun_s_1 + sql += "%s as asct2" % str_fun_s_2 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.partiton_where) + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += " ) ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select " + sql += "%s as asct1, " % str_fun_s_1 + sql += "%s as asct2" % str_fun_s_2 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.partiton_where) + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += " ) ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-15 as str_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (strlist == ['LTRIM','RTRIM','LOWER','UPPER']) or (strlist == ['SUBSTR']) or (strlist == ['CONCAT']) or (strlist == ['CONCAT_WS']): + sql = "select ts,ts2 ,timediff(ts,ts2), LTRIM(asct1), LOWER(asct1), RTRIM(asct2), UPPER(asct2) from ( select t1.ts ," + sql += "%s as asct2, " % str_fun_join_s_1 + sql += "%s as asct1, " % str_fun_join_s_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct13, " % random.choice(self.q_select) + sql += "t2.%s as asct14, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += " and %s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.partiton_where_j) + sql += "%s " % random.choice(self.slimit1_where) + sql += ") " + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s ;" % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (strlist == ['LENGTH','CHAR_LENGTH']): + sql = "select sum(asct1), min(asct1), max(asct2), avg(asct2) from ( select t1.ts as ts1," + sql += "%s as asct2, " % str_fun_join_s_1 + sql += "%s as asct1, " % str_fun_join_s_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct13, " % random.choice(self.q_select) + sql += "t2.%s as asct14 " % random.choice(self.q_select) + sql += "from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += " and %s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.partiton_where_j) + sql += "%s " % random.choice(self.slimit1_where) + sql += ") " + sql += "%s ;" % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #taos -f sql + startTime_taos_f = time.time() + print("taos -f %s sql start!" %strlist) + # taos_cmd1 = "taos -f %s/%s.sql" % (self.testcasePath,self.testcaseFilename) + # _ = subprocess.check_output(taos_cmd1, shell=True) + print("taos -f %s sql over!" %strlist) + endTime_taos_f = time.time() + print("taos_f total time %ds" % (endTime_taos_f - startTime_taos_f)) + + print("=========%s====over=============" %strlist) + + def time_nest(self,timelist): + + print("==========%s===start=============" %timelist) + os.system("rm -rf %s/%s.sql" % (self.testcasePath,self.testcaseFilename)) + + self.dropandcreateDB_random("%s" %self.db_nest, 1) + + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMEZONE']): + time_functions = timelist + fun_fix_column = ['()'] + fun_column_1 = random.sample(time_functions,1)+random.sample(fun_fix_column,1) + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","") + fun_column_2 = random.sample(time_functions,1)+random.sample(fun_fix_column,1) + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + fun_fix_column_j = ['()'] + fun_column_join_1 = random.sample(time_functions,1)+random.sample(fun_fix_column_j,1) + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","") + fun_column_join_2 = random.sample(time_functions,1)+random.sample(fun_fix_column_j,1) + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + elif (timelist == ['TIMETRUNCATE']): + time_functions = timelist + + t = time.time() + t_to_s = time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(t)) + fun_fix_column = ['q_ts','ts','_c0','_C0','_rowts','1600000000000','1600000000000000','1600000000000000000', + '%d' %t, '%d000' %t, '%d000000' %t,'t_to_s'] + + timeunits = ['1a' ,'1s', '1m' ,'1h', '1d'] + timeunit = str(random.sample(timeunits,1)).replace("[","").replace("]","").replace("'","") + + column_1 = ['(%s,timeutil)'%(random.sample(fun_fix_column,1))] + fun_column_1 = random.sample(time_functions,1)+random.sample(column_1,1) + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_1 = str(time_fun_1).replace("timeutil","%s" %timeunit).replace("t_to_s","%s" %t_to_s) + + column_2 = ['(%s,timeutil)'%(random.sample(fun_fix_column,1))] + fun_column_2 = random.sample(time_functions,1)+random.sample(column_2,1) + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_2 = str(time_fun_2).replace("timeutil","%s" %timeunit).replace("t_to_s","%s" %t_to_s) + + + fun_fix_column_j = ['(t1.q_ts)','(t1.ts)', '(t2.q_ts)','(t2.ts)','(1600000000000)','(1600000000000000)','(1600000000000000000)', + '(%d)' %t, '(%d000)' %t, '(%d000000)' %t,'t_to_s'] + + column_j1 = ['(%s,timeutil)'%(random.sample(fun_fix_column_j,1))] + fun_column_join_1 = random.sample(time_functions,1)+random.sample(column_j1,1) + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_join_1 = str(time_fun_join_1).replace("timeutil","%s" %timeunit).replace("t_to_s","%s" %t_to_s) + + column_j2 = ['(%s,timeutil)'%(random.sample(fun_fix_column_j,1))] + fun_column_join_2 = random.sample(time_functions,1)+random.sample(column_j2,1) + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_join_2 = str(time_fun_join_2).replace("timeutil","%s" %timeunit).replace("t_to_s","%s" %t_to_s) + + elif (timelist == ['TO_ISO8601']): + time_functions = timelist + + t = time.time() + fun_fix_column = ['(now())','(ts)','(q_ts)','(_rowts)','(_c0)','(_C0)', + '(1600000000000)','(1600000000000000)','(1600000000000000000)', + '(%d)' %t, '(%d000)' %t, '(%d000000)' %t] + + fun_column_1 = random.sample(time_functions,1)+random.sample(fun_fix_column,1) + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","") + + fun_column_2 = random.sample(time_functions,1)+random.sample(fun_fix_column,1) + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + fun_fix_column_j = ['(t1.q_ts)','(t1.ts)', '(t2.q_ts)','(t2.ts)','(1600000000000)','(1600000000000000)','(1600000000000000000)','(now())', + '(%d)' %t, '(%d000)' %t, '(%d000000)' %t] + + fun_column_join_1 = random.sample(time_functions,1)+random.sample(fun_fix_column_j,1) + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","") + + fun_column_join_2 = random.sample(time_functions,1)+random.sample(fun_fix_column_j,1) + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","") + + elif (timelist == ['TO_UNIXTIMESTAMP']): + time_functions = timelist + + t = time.time() + t_to_s = time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(t)) + fun_fix_column = ['(q_nchar)','(q_nchar1)','(q_nchar2)','(q_nchar3)','(q_nchar4)','(q_nchar_null)','(q_binary)','(q_binary5)','(q_binary6)','(q_binary7)','(q_binary8)','(q_binary_null)','(t_to_s)'] + + fun_column_1 = random.sample(time_functions,1)+random.sample(fun_fix_column,1) + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("t_to_s","'t_to_s'") + time_fun_1 = str(time_fun_1).replace("t_to_s","%s" %t_to_s) + + fun_column_2 = random.sample(time_functions,1)+random.sample(fun_fix_column,1) + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("t_to_s","'t_to_s'") + time_fun_2 = str(time_fun_2).replace("t_to_s","%s" %t_to_s) + + fun_fix_column_j = ['(t1.q_nchar)','(t1.q_binary)', '(t2.q_nchar)','(t2.q_binary)','(t_to_s)'] + + fun_column_join_1 = random.sample(time_functions,1)+random.sample(fun_fix_column_j,1) + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("t_to_s","'t_to_s'") + time_fun_join_1 = str(time_fun_join_1).replace("t_to_s","%s" %t_to_s) + + fun_column_join_2 = random.sample(time_functions,1)+random.sample(fun_fix_column_j,1) + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("t_to_s","'t_to_s'") + time_fun_join_2 = str(time_fun_join_2).replace("t_to_s","%s" %t_to_s) + + elif (timelist == ['TIMEDIFF_1']): + time_functions = timelist + + t = time.time() + t_to_s = time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(t)) + timeunits = [ '1a' ,'1s', '1m' ,'1h', '1d'] + timeunit = str(random.sample(timeunits,1)).replace("[","").replace("]","").replace("'","") + + fun_fix_column = ['q_ts','ts','_c0','_C0','_rowts','1600000000000','1600000000000000','1600000000000000000', + '%d' %t, '%d000' %t, '%d000000' %t,'t_to_s'] + + column_1,column_2 = random.sample(fun_fix_column,1),random.sample(fun_fix_column,1) + column_12 = ['(%s,%s,timeutil)'%(column_1,column_2)] + fun_column_1 = random.sample(time_functions,1)+random.sample(column_12,1) + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_1 = str(time_fun_1).replace("timeutil","%s" %timeunit).replace("t_to_s","%s" %t_to_s).replace("_1","") + + column_3,column_4 = random.sample(fun_fix_column,1),random.sample(fun_fix_column,1) + column_34 = ['(%s,%s,timeutil)'%(column_3,column_4)] + fun_column_2 = random.sample(time_functions,1)+random.sample(column_34,1) + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_2 = str(time_fun_2).replace("timeutil","%s" %timeunit).replace("t_to_s","%s" %t_to_s).replace("_1","") + + fun_fix_column_j = ['(t1.q_ts)','(t1.ts)', '(t2.q_ts)','(t2.ts)','1600000000000','1600000000000000','1600000000000000000', + '%d' %t, '%d000' %t, '%d000000' %t,'t_to_s'] + + column_j1,column_j2 = random.sample(fun_fix_column_j,1),random.sample(fun_fix_column_j,1) + column_j12 = ['(%s,%s,timeutil)'%(column_j1,column_j2)] + fun_column_join_1 = random.sample(time_functions,1)+random.sample(column_j12,1) + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_join_1 = str(time_fun_join_1).replace("timeutil","%s" %timeunit).replace("t_to_s","%s" %t_to_s).replace("_1","") + + column_j3,column_j4 = random.sample(fun_fix_column_j,1),random.sample(fun_fix_column_j,1) + column_j34 = ['(%s,%s,timeutil)'%(column_j3,column_j4)] + fun_column_join_2 = random.sample(time_functions,1)+random.sample(column_j34,1) + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_join_2 = str(time_fun_join_2).replace("timeutil","%s" %timeunit).replace("t_to_s","%s" %t_to_s).replace("_1","") + + elif (timelist == ['TIMEDIFF_2']): + time_functions = timelist + + t = time.time() + t_to_s = time.strftime('%Y-%m-%d %H:%M:%S', time.localtime(t)) + + fun_fix_column = ['q_ts','ts','_c0','_C0','_rowts','1600000000000','1600000000000000','1600000000000000000', + '%d' %t, '%d000' %t, '%d000000' %t,'t_to_s'] + + column_1,column_2 = random.sample(fun_fix_column,1),random.sample(fun_fix_column,1) + column_12 = ['(%s,%s)'%(column_1,column_2)] + fun_column_1 = random.sample(time_functions,1)+random.sample(column_12,1) + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_1 = str(time_fun_1).replace("t_to_s","%s" %t_to_s).replace("_2","") + + column_3,column_4 = random.sample(fun_fix_column,1),random.sample(fun_fix_column,1) + column_34 = ['(%s,%s)'%(column_3,column_4)] + fun_column_2 = random.sample(time_functions,1)+random.sample(column_34,1) + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_2 = str(time_fun_2).replace("t_to_s","%s" %t_to_s).replace("_2","") + + fun_fix_column_j = ['(t1.q_ts)','(t1.ts)', '(t2.q_ts)','(t2.ts)','1600000000000','1600000000000000','1600000000000000000', + '%d' %t, '%d000' %t, '%d000000' %t,'t_to_s'] + + column_j1,column_j2 = random.sample(fun_fix_column_j,1),random.sample(fun_fix_column_j,1) + column_j12 = ['(%s,%s)'%(column_j1,column_j2)] + fun_column_join_1 = random.sample(time_functions,1)+random.sample(column_j12,1) + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_join_1 = str(time_fun_join_1).replace("t_to_s","%s" %t_to_s).replace("_2","") + + column_j3,column_j4 = random.sample(fun_fix_column_j,1),random.sample(fun_fix_column_j,1) + column_j34 = ['(%s,%s)'%(column_j3,column_j4)] + fun_column_join_2 = random.sample(time_functions,1)+random.sample(column_j34,1) + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("\"","").replace("t_to_s","'t_to_s'") + time_fun_join_2 = str(time_fun_join_2).replace("t_to_s","%s" %t_to_s).replace("_2","") + + elif (timelist == ['ELAPSED']): + time_functions = timelist + + fun_fix_column = ['(ts)','(_c0)','(_C0)','(_rowts)','(ts,time_unit)','(_c0,time_unit)','(_C0,time_unit)','(_rowts,time_unit)'] + + time_units = ['1s','1m','1h','1d','1a'] + time_unit1 = str(random.sample(time_units,1)).replace("[","").replace("]","").replace("'","") + time_unit2 = str(random.sample(time_units,1)).replace("[","").replace("]","").replace("'","") + + fun_column_1 = random.sample(time_functions,1)+random.sample(fun_fix_column,1) + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("time_unit","%s" %time_unit1) + + fun_column_2 = random.sample(time_functions,1)+random.sample(fun_fix_column,1) + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("time_unit","%s" %time_unit2) + + + fun_fix_column_j = ['(t1.ts)', '(t2.ts)','(t1.ts,time_unit)','(t1.ts,time_unit)','(t2.ts,time_unit)','(t2.ts,time_unit)'] + + fun_column_join_1 = random.sample(time_functions,1)+random.sample(fun_fix_column_j,1) + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace(", ","").replace("time_unit","%s" %time_unit1) + + fun_column_join_2 = random.sample(time_functions,1)+random.sample(fun_fix_column_j,1) + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace(", ","").replace("time_unit","%s" %time_unit2) + + + elif (timelist == ['CAST']) : + str_functions = timelist + #下面的4个是全的,这个只是1个 + i = random.randint(1,4) + if i ==1: + print('===========cast_1===========') + fun_fix_column = ['q_bool','q_bool_null','q_bigint','q_bigint_null','q_smallint','q_smallint_null', + 'q_tinyint','q_tinyint_null','q_int','q_int_null','q_float','q_float_null','q_double','q_double_null'] + type_names = ['BIGINT','BINARY(100)','TIMESTAMP','NCHAR(100)','BIGINT UNSIGNED'] + + type_name1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name1+')' + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","") + + type_name2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name2+')' + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","") + + fun_fix_column_j = ['t1.q_bool','t1.q_bool_null','t1.q_bigint','t1.q_bigint_null','t1.q_smallint','t1.q_smallint_null', + 't1.q_tinyint','t1.q_tinyint_null','t1.q_int','t1.q_int_null','t1.q_float','t1.q_float_null','t1.q_double','t1.q_double_null', + 't2.q_bool','t2.q_bool_null','t2.q_bigint','t2.q_bigint_null','t2.q_smallint','t2.q_smallint_null', + 't2.q_tinyint','t2.q_tinyint_null','t2.q_int','t2.q_int_null','t2.q_float','t2.q_float_null','t2.q_double','t2.q_double_null'] + + type_name_j1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j1+')' + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","") + + type_name_j2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j2+')' + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","") + + elif i==2: + print('===========cast_2===========') + fun_fix_column = ['q_binary','q_binary_null','q_binary1','q_binary2','q_binary3','q_binary4'] + type_names = ['BIGINT','BINARY(100)','NCHAR(100)','BIGINT UNSIGNED'] + + type_name1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name1+')' + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","") + + type_name2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name2+')' + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","") + + fun_fix_column_j = ['t1.q_binary','t1.q_binary_null','t1.q_binary1','t1.q_binary2','t1.q_binary3','t1.q_binary4', + 't2.q_binary','t2.q_binary_null','t2.q_binary1','t2.q_binary2','t2.q_binary3','t2.q_binary4'] + + type_name_j1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j1+')' + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","") + + type_name_j2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j2+')' + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","") + + elif i==3: + print('===========cast_3===========') + fun_fix_column = ['q_nchar','q_nchar_null','q_nchar5','q_nchar6','q_nchar7','q_nchar8'] + type_names = ['BIGINT','NCHAR(100)','BIGINT UNSIGNED'] + + type_name1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name1+')' + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","") + + type_name2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name2+')' + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","") + + fun_fix_column_j = ['t1.q_nchar','t1.q_nchar_null','t1.q_nchar5','t1.q_nchar6','t1.q_nchar7','t1.q_nchar8', + 't2.q_nchar','t2.q_nchar_null','t2.q_nchar5','t2.q_nchar6','t2.q_nchar7','t2.q_nchar8'] + + type_name_j1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j1+')' + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","") + + type_name_j2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j2+')' + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","") + + elif i==4: + print('===========cast_4===========') + fun_fix_column = ['q_ts','q_ts_null','_C0','_c0','ts','_rowts'] + type_names = ['BIGINT','TIMESTAMP','BIGINT UNSIGNED'] + + type_name1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name1+')' + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","") + + type_name2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name2+')' + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","") + + fun_fix_column_j = ['t1.q_ts','t1.q_ts_null','t1.ts','t2.q_ts','t2.q_ts_null','t2.ts'] + + type_name_j1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j1+')' + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","") + + type_name_j2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j2+')' + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","") + + elif (timelist == ['CAST_1']) : + str_functions = timelist + + print('===========cast_1===========') + fun_fix_column = ['q_bool','q_bool_null','q_bigint','q_bigint_null','q_smallint','q_smallint_null', + 'q_tinyint','q_tinyint_null','q_int','q_int_null','q_float','q_float_null','q_double','q_double_null'] + type_names = ['BIGINT','BINARY(100)','TIMESTAMP','NCHAR(100)','BIGINT UNSIGNED'] + + type_name1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name1+')' + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace("_1","") + + type_name2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name2+')' + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace("_1","") + + fun_fix_column_j = ['t1.q_bool','t1.q_bool_null','t1.q_bigint','t1.q_bigint_null','t1.q_smallint','t1.q_smallint_null', + 't1.q_tinyint','t1.q_tinyint_null','t1.q_int','t1.q_int_null','t1.q_float','t1.q_float_null','t1.q_double','t1.q_double_null', + 't2.q_bool','t2.q_bool_null','t2.q_bigint','t2.q_bigint_null','t2.q_smallint','t2.q_smallint_null', + 't2.q_tinyint','t2.q_tinyint_null','t2.q_int','t2.q_int_null','t2.q_float','t2.q_float_null','t2.q_double','t2.q_double_null'] + + type_name_j1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j1+')' + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace("_1","") + + type_name_j2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j2+')' + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace("_1","") + + elif (timelist == ['CAST_2']) : + str_functions = timelist + print('===========cast_2===========') + fun_fix_column = ['q_binary','q_binary_null','q_binary1','q_binary2','q_binary3','q_binary4'] + type_names = ['BIGINT','BINARY(100)','NCHAR(100)','BIGINT UNSIGNED'] + + type_name1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name1+')' + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace("_2","") + + type_name2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name2+')' + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace("_2","") + + fun_fix_column_j = ['t1.q_binary','t1.q_binary_null','t1.q_binary1','t1.q_binary2','t1.q_binary3','t1.q_binary4', + 't2.q_binary','t2.q_binary_null','t2.q_binary1','t2.q_binary2','t2.q_binary3','t2.q_binary4'] + + type_name_j1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j1+')' + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace("_2","") + + type_name_j2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j2+')' + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace("_2","") + + elif (timelist == ['CAST_3']) : + str_functions = timelist + print('===========cast_3===========') + fun_fix_column = ['q_nchar','q_nchar_null','q_nchar5','q_nchar6','q_nchar7','q_nchar8'] + type_names = ['BIGINT','NCHAR(100)','BIGINT UNSIGNED'] + + type_name1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name1+')' + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace("_3","") + + type_name2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name2+')' + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace("_3","") + + fun_fix_column_j = ['t1.q_nchar','t1.q_nchar_null','t1.q_nchar5','t1.q_nchar6','t1.q_nchar7','t1.q_nchar8', + 't2.q_nchar','t2.q_nchar_null','t2.q_nchar5','t2.q_nchar6','t2.q_nchar7','t2.q_nchar8'] + + type_name_j1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j1+')' + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace("_3","") + + type_name_j2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j2+')' + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace("_3","") + + elif (timelist == ['CAST_4']) : + str_functions = timelist + print('===========cast_4===========') + fun_fix_column = ['q_ts','q_ts_null','_C0','_c0','ts','_rowts'] + type_names = ['BIGINT','TIMESTAMP','BIGINT UNSIGNED'] + + type_name1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name1+')' + time_fun_1 = str(fun_column_1).replace("[","").replace("]","").replace("'","").replace("_4","") + + type_name2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column,1))+' AS '+type_name2+')' + time_fun_2 = str(fun_column_2).replace("[","").replace("]","").replace("'","").replace("_4","") + + fun_fix_column_j = ['t1.q_ts','t1.q_ts_null','t1.ts','t2.q_ts','t2.q_ts_null','t2.ts'] + + type_name_j1 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_1 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j1+')' + time_fun_join_1 = str(fun_column_join_1).replace("[","").replace("]","").replace("'","").replace("_4","") + + type_name_j2 = str(random.sample(type_names,1)).replace("[","").replace("]","").replace("'","") + fun_column_join_2 = str(random.sample(str_functions,1))+'('+str(random.sample(fun_fix_column_j,1))+' AS '+type_name_j2+')' + time_fun_join_2 = str(fun_column_join_2).replace("[","").replace("]","").replace("'","").replace("_4","") + + tdSql.query("select 1-1 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts1 , timediff(asct1,now) from ( select " + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as ts1 from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) \ + or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts2 , asct1,now(),today(),timezone() from ( select " + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as ts2 from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select max(asct1),now(),today(),timezone() from ( select " + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct2 " % time_fun_2 + sql += "from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-2 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts , timediff(asct1,now),now(),today(),timezone() from ( select " + sql += "%s as asct1, " % time_fun_1 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s )" % random.choice(self.order_where) + sql += "%s " % random.choice(self.unionall_or_union) + sql += "select ts , timediff(asct2,now),now(),today(),timezone() from ( select " + sql += "%s as asct2, " % time_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts , (asct1),now(),today(),timezone() from ( select " + sql += "%s as asct1, " % time_fun_1 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s )" % random.choice(self.order_where) + sql += "%s " % random.choice(self.unionall_or_union) + sql += "select ts , asct2,now(),today(),timezone() from ( select " + sql += "%s as asct2, " % time_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select min(asct1),now(),today(),timezone() from ( select " + sql += "%s as asct1 " % time_fun_1 + sql += " from regular_table_1 where " + sql += "%s )" % random.choice(self.q_where) + sql += "%s " % random.choice(self.unionall_or_union) + sql += "select avg(asct2),now(),today(),timezone() from ( select " + sql += "%s as asct2 " % time_fun_2 + sql += " from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-3 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts , timediff(asct1,now) from ( select " + sql += "%s as asct1, ts ," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s " % random.choice(self.q_select) + sql += "from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s select " % random.choice(self.unionall_or_union) + sql += "%s as asct2, ts ," % time_fun_2 + sql += "%s as asct1, " % time_fun_1 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s " % random.choice(self.q_select) + sql += "from regular_table_2 where " + sql += "%s " % random.choice(self.q_where) + sql += " order by asct1 desc " + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts , (asct1),now(),today(),timezone() from ( select " + sql += "%s as asct1, ts ," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s " % random.choice(self.q_select) + sql += " from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s select " % random.choice(self.unionall_or_union) + sql += "%s as asct2, ts ," % time_fun_2 + sql += "%s as asct1, " % time_fun_1 + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s " % random.choice(self.q_select) + sql += "from regular_table_2 where " + sql += "%s " % random.choice(self.q_where) + sql += " order by asct1 desc " + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select abs(asct1),now(),today(),timezone() from ( select " + sql += "%s as asct1," % time_fun_1 + sql += "%s as asct2 " % time_fun_2 + sql += "from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s select " % random.choice(self.unionall_or_union) + sql += "%s as asct2," % time_fun_2 + sql += "%s as asct1 " % time_fun_1 + sql += "from regular_table_2 where " + sql += "%s " % random.choice(self.q_where) + sql += " order by asct1 asc " + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-4 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts1,ts2 ,timediff(ts1,ts2), timediff(asct1,now) from ( select t1.ts as ts1," + sql += "%s as asct11, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "%s as asct12, " % time_fun_join_1 + sql += "t1.%s as asct111, " % random.choice(self.q_select) + sql += "t2.%s as asct121, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts1,ts2 ,timediff(ts1,ts2), (asct1) from ( select t1.ts as ts1," + sql += "%s as asct10, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "%s as asct11, " % time_fun_join_1 + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct13, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select floor(asct1) from ( select " + sql += "%s as asct10, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "%s as asct11" % time_fun_join_1 + sql += " from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s " % random.choice(self.q_u_or_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-5 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['ELAPSED']) : + sql = "select now(),today(),timezone(), " + sql += "%s, " % time_fun_1 + sql += "%s " % time_fun_2 + sql += " from ( select * from regular_table_1 ) where " + sql += "%s " % random.choice(self.q_where) + sql += " ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + else: + sql = "select ts ,now(),today(),timezone(), " + sql += "%s as asct11, " % time_fun_1 + sql += "%s as asct12, " % random.choice(self.q_select) + sql += "%s as asct13, " % random.choice(self.q_select) + sql += "%s as asct14 " % time_fun_2 + sql += " from ( select * from regular_table_1 ) where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += " ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-6 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts1,ts ,timediff(ts1,ts), timediff(asct1,now) from ( select t1.ts as ts1," + sql += "%s as asct121, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t2.%s as asct12, " % random.choice(self.q_select) + sql += "%s as asct13, " % time_fun_join_1 + sql += "t2.ts from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s )" % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts1,ts ,timediff(ts1,ts), (asct1) from ( select t1.ts as ts1," + sql += "%s as asct121, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t2.%s as asct12, " % random.choice(self.q_select) + sql += "%s as asct13, " % time_fun_join_1 + sql += "t2.ts from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s )" % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select (asct1)*111 from ( select " + sql += "%s as asct121, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "%s as asct122 " % time_fun_join_1 + sql += " from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s )" % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-7 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts1,m1 , timediff(asct1,now) from ( select " + sql += "%s as asct1, ts as m1," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct11, " % random.choice(self.q_select) + sql += "%s as asct12, " % random.choice(self.t_select) + sql += "ts as ts1 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select tm1,tm2 , (asct1),now(),today(),timezone() from ( select " + sql += "%s as asct1, ts as tm1," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct11, " % random.choice(self.q_select) + sql += "%s as asct12, " % random.choice(self.t_select) + sql += "ts as tm2 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select (asct1)/asct2 ,now(),today(),timezone() from ( select " + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct2 " % time_fun_2 + sql += "from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-8 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select tm1,tm2 , timediff(asct1,now) " + sql += "from ( select " + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s as asct1, ts as tm1," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct11, " % random.choice(self.q_select) + sql += "%s as asct12, " % random.choice(self.t_select) + sql += "ts as tm2 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts1,ts2 , (asct1),now(),today(),timezone() " + sql += "from ( select " + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s as asct1, ts as ts1," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct11, " % random.choice(self.q_select) + sql += "%s as asct12, " % random.choice(self.t_select) + sql += "ts as ts2 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select floor(abs(asct1)),now(),today(),timezone() " + sql += "from ( select " + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct2 " % time_fun_2 + sql += "from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-9 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts1,ts2 ,timediff(ts1,ts2), timediff(asct1,now) from ( select t1.ts as ts1," + sql += "%s as asct121, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct13, " % random.choice(self.q_select) + sql += "t2.%s as asct14, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "and %s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts1,ts2 ,timediff(ts1,ts2), asct1 from ( select t1.ts as ts1," + sql += "%s as asct121, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct13, " % random.choice(self.q_select) + sql += "t2.%s as asct14, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "and %s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select min(asct1*110) from ( select " + sql += "%s as asct121, " % time_fun_join_1 + sql += "%s as asct1 " % time_fun_join_2 + sql += "from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "and %s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + + tdSql.query("select 1-10 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts , timediff(asct1,now) from ( select " + sql += "%s as asct1 ," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct121, " % random.choice(self.s_r_select) + sql += "%s as asct122, " % random.choice(self.q_select) + sql += "ts from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ") %s " % random.choice(self.unionall_or_union) + sql += "select ts , timediff(asct1,now) from ( select " + sql += "%s as asct1 ," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct121, " % random.choice(self.s_r_select) + sql += "%s as asct122, " % random.choice(self.q_select) + sql += "ts from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts , (asct1),now(),today(),timezone() from ( select " + sql += "%s as asct1 ," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct121, " % random.choice(self.s_r_select) + sql += "%s as asct122, " % random.choice(self.q_select) + sql += "ts from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ") %s " % random.choice(self.unionall_or_union) + sql += "select ts , (asct2),now(),today(),timezone() from ( select " + sql += "%s as asct1 ," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct121, " % random.choice(self.s_r_select) + sql += "%s as asct122, " % random.choice(self.q_select) + sql += "ts from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select abs(asct1),now(),today(),timezone() from ( select " + sql += "%s as asct1 ," % time_fun_1 + sql += "%s as asct2 " % time_fun_2 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += ") %s " % random.choice(self.unionall_or_union) + sql += "select max(asct2),now(),today(),timezone() from ( select " + sql += "%s as asct1 ," % time_fun_1 + sql += "%s as asct2 " % time_fun_2 + sql += "from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #3 inter union not support + tdSql.query("select 1-11 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts , timediff(asct1,now), timediff(now,asct2) from ( select " + sql += "%s as asct1 ," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct121, " % random.choice(self.s_r_select) + sql += "%s as asct122, " % random.choice(self.q_select) + sql += "ts from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += " %s " % random.choice(self.unionall_or_union) + sql += " select " + sql += "%s as asct1 ," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct121, " % random.choice(self.s_r_select) + sql += "%s as asct122, " % random.choice(self.q_select) + sql += "ts from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts , asct1,now(),now(),asct2 from ( select " + sql += "%s as asct1 ," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct121, " % random.choice(self.s_r_select) + sql += "%s as asct122, " % random.choice(self.q_select) + sql += "ts from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += " %s " % random.choice(self.unionall_or_union) + sql += " select " + sql += "%s as asct1 ," % time_fun_1 + sql += "%s as asct2, " % time_fun_2 + sql += "%s as asct121, " % random.choice(self.s_r_select) + sql += "%s as asct122, " % random.choice(self.q_select) + sql += "ts from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select asct1+asct2,now(),today(),timezone() from ( select " + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct2 " % time_fun_2 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += " %s " % random.choice(self.unionall_or_union) + sql += " select " + sql += "%s as asct1 ," % time_fun_1 + sql += "%s as asct2 " % time_fun_2 + sql += " from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "order by asct1 " + sql += "%s " % random.choice(self.limit1_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-12 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts1,ts2 ,timediff(ts1,ts2), timediff(asct1,now) from ( select t1.ts as ts1," + sql += "%s, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct13, " % random.choice(self.q_select) + sql += "t2.%s as asct14, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts1,ts2 ,timediff(ts1,ts2), asct1,now() from ( select t1.ts as ts1," + sql += "%s, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct13, " % random.choice(self.q_select) + sql += "t2.%s as asct14, " % random.choice(self.q_select) + sql += "t2.ts as ts2 from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select min(floor(asct1)),now() from ( select " + sql += "%s as asct121, " % time_fun_join_1 + sql += "%s as asct1 " % time_fun_join_2 + sql += " from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_u_where) + sql += "and %s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-13 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts , timediff(%s,now)," % time_fun_2 + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct11, " % random.choice(self.q_select) + sql += "%s as asct12, " % random.choice(self.q_select) + sql += "%s as asct13, " % time_fun_2 + sql += "%s as asct122 " % random.choice(self.t_select) + sql += " from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts ,now(),today(),timezone(), " + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct11, " % random.choice(self.q_select) + sql += "%s as asct12, " % random.choice(self.q_select) + sql += "%s as asct13, " % time_fun_2 + sql += "%s as asct122 " % random.choice(self.t_select) + sql += " from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select now(),today(),timezone(), " + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct12 " % time_fun_2 + sql += " from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-14 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts , timediff(asct1,now),timediff(now,asct2) from ( select ts ts ," + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct2" % time_fun_2 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.partiton_where) + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += " ) ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts , (asct1),now(),(now()),asct2 from ( select ts ts ," + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct2" % time_fun_2 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.partiton_where) + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += " ) ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select (asct1)*asct2,now(),(now()) from ( select " + sql += "%s as asct1, " % time_fun_1 + sql += "%s as asct2" % time_fun_2 + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.partiton_where) + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += " ) ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-15 as time_nest from stable_1 limit 1;") + for i in range(self.fornum): + if (timelist == ['NOW','TODAY']) or (timelist == ['TIMETRUNCATE']) or (timelist == ['TO_ISO8601'])\ + or (timelist == ['TO_UNIXTIMESTAMP']) or (timelist == ['TIMEDIFF_1']) or (timelist == ['TIMEDIFF_2']): + sql = "select ts1,ts ,timediff(ts1,ts), timediff(asct1,now),timediff(now,asct2) from ( select t1.ts as ts1," + sql += "%s as asct2, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct13, " % random.choice(self.q_select) + sql += "t2.%s as asct14, " % random.choice(self.q_select) + sql += "t2.ts from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += " and %s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.partiton_where_j) + sql += "%s " % random.choice(self.slimit1_where) + sql += ") " + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s ;" % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['TIMEZONE']) or (timelist == ['CAST']) or (timelist == ['CAST_1']) or (timelist == ['CAST_2']) or (timelist == ['CAST_3']) or (timelist == ['CAST_4']): + sql = "select ts1,ts ,timediff(ts1,ts), asct1,(now()),(now()),asct2 ,now(),today(),timezone() from ( select t1.ts as ts1," + sql += "%s as asct2, " % time_fun_join_1 + sql += "%s as asct1, " % time_fun_join_2 + sql += "t1.%s as asct11, " % random.choice(self.q_select) + sql += "t1.%s as asct12, " % random.choice(self.q_select) + sql += "t2.%s as asct13, " % random.choice(self.q_select) + sql += "t2.%s as asct14, " % random.choice(self.q_select) + sql += "t2.ts from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += " and %s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.partiton_where_j) + sql += "%s " % random.choice(self.slimit1_where) + sql += ") " + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s ;" % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + elif (timelist == ['ELAPSED']) : + sql = "select asct1,(now()),(now()),asct2 ,now(),today(),timezone() from ( select " + sql += "%s as asct2, " % time_fun_join_1 + sql += "%s as asct1 " % time_fun_join_2 + sql += "from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += " and %s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.partiton_where_j) + sql += "%s " % random.choice(self.slimit1_where) + sql += ") " + sql += "%s ;" % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #taos -f sql + startTime_taos_f = time.time() + print("taos -f %s sql start!" %timelist) + # taos_cmd1 = "taos -f %s/%s.sql" % (self.testcasePath,self.testcaseFilename) + # _ = subprocess.check_output(taos_cmd1, shell=True) + print("taos -f %s sql over!" %timelist) + endTime_taos_f = time.time() + print("taos_f total time %ds" % (endTime_taos_f - startTime_taos_f)) + + print("=========%s====over=============" %timelist) + + def function_before_26(self): + + print('=====================2.6 old function start ===========') + os.system("rm -rf %s/%s.sql" % (self.testcasePath,self.testcaseFilename)) + + self.dropandcreateDB_random("%s" %self.db_nest, 1) + + #1 select * from (select column form regular_table where <\>\in\and\or order by) + tdSql.query("select 1-1 from stable_1;") + for i in range(self.fornum): + sql = "select tas from ( select " + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as tas from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql,queryTimes=1) + self.explain_sql(sql) + + #1 outer union not support + tdSql.query("select 1-2 from stable_1;") + for i in range(self.fornum): + sql = "select t1s from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as t1s from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ") union " + sql += "select t2s from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as t2s from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #self.dropandcreateDB_random("%s" %db, 1) + tdSql.query("select 1-2 from stable_1;") + for i in range(self.fornum): + sql = "select ts from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ") union all " + sql += "select ts from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #1 inter union not support + tdSql.query("select 1-3 from stable_1;") + for i in range(self.fornum): + #sql = "select ts , * from ( select " + sql = "select ts from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "" + sql += " union all select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from regular_table_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 1-3 from stable_1;") + for i in range(self.fornum): + sql = "select ts from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += " union all select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from regular_table_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #join:select * from (select column form regular_table1,regular_table2 where t1.ts=t2.ts and <\>\in\and\or order by) + tdSql.query("select 1-4 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select t1.ts as t1ts," + sql += "t1.%s as t11, " % random.choice(self.q_select) + sql += "t1.%s as t12, " % random.choice(self.q_select) + sql += "t2.%s as t21, " % random.choice(self.q_select) + sql += "t2.%s as t22, " % random.choice(self.q_select) + sql += "t2.ts as t2ts from regular_table_1 t1 , regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "and %s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #2 select column from (select * form regular_table ) where <\>\in\and\or order by + tdSql.query("select 2-1 from stable_1;") + for i in range(self.fornum): + sql = "select ts ," + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s " % random.choice(self.q_select) + sql += " from ( select * from regular_table_1 ) where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += " ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #3 select * from (select column\tag form stable where <\>\in\and\or order by ) + #self.dropandcreateDB_random("%s" %db, 1) + tdSql.query("select 3-1 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "%s, " % random.choice(self.t_select) + sql += "ts from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdLog.info(len(sql)) + tdSql.query(sql) + self.explain_sql(sql) + tdSql.query("select 3-1 from stable_1;") + for i in range(self.fornum): + sql = "select ts, " + sql += "%s " % random.choice(self.s_r_select) + sql += "from ( select " + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.q_select) + sql += "%s, " % random.choice(self.t_select) + sql += "ts from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdLog.info(len(sql)) + tdSql.query(sql) + self.explain_sql(sql) + + # select ts,* from (select column\tag form stable1,stable2 where t1.ts = t2.ts and <\>\in\and\or order by ) + #self.dropandcreateDB_random("%s" %db, 1) + tdSql.query("select 3-2 from stable_1;") + for i in range(self.fornum): + #sql = "select ts , * from ( select t1.ts as t1ts , " + sql = "select t1ts , t2ts from ( select t1.ts as t1ts , " + sql += "t1.%s as t11, " % random.choice(self.t_select) + sql += "t1.%s as t12, " % random.choice(self.q_select) + sql += "t2.%s as t13, " % random.choice(self.t_select) + sql += "t2.%s as t14, " % random.choice(self.q_select) + sql += "t2.ts as t2ts from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "%s " % random.choice(self.order_u_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #3 outer union not support + + tdSql.query("select 3-3 from stable_1;") + for i in range(self.fornum): + #sql = "select ts , * from ( select " + sql = "select ts1 from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as ts1 from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ") union " + sql += "select ts2 from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as ts2 from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + for i in range(self.fornum): + sql = "select ts1 from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as ts1 from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ") union all " + sql += "select ts2 from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as ts2 from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #3 inter union not support + tdSql.query("select 3-4 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += " %s " % random.choice(self.unionall_or_union) + sql += " select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts from stable_2 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += ")" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #join:select * from (select column form stable1,stable2 where t1.ts=t2.ts and <\>\in\and\or order by) + tdSql.query("select 3-5 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select t1.ts as t1ts," + sql += "t1.%s as t11, " % random.choice(self.q_select) + sql += "t1.%s as t12, " % random.choice(self.q_select) + sql += "t2.%s as t21, " % random.choice(self.q_select) + sql += "t2.%s as t22, " % random.choice(self.q_select) + sql += "t2.ts as t2ts from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_u_where) + sql += "%s " % random.choice(self.order_u_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 3-6 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select t1.ts as t1ts ," + sql += "t1.%s as t11, " % random.choice(self.q_select) + sql += "t1.%s as t12, " % random.choice(self.q_select) + sql += "t2.%s as t21, " % random.choice(self.q_select) + sql += "t2.%s as t22, " % random.choice(self.q_select) + sql += "t2.ts as t2ts from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += ");" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #4 select column from (select * form stable where <\>\in\and\or order by ) + tdSql.query("select 4-1 from stable_1;") + for i in range(self.fornum): + sql = "select ts , " + sql += "%s as t11, " % random.choice(self.q_select) + sql += "%s as t12, " % random.choice(self.q_select) + sql += "%s " % random.choice(self.t_select) + sql += " from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #5 select distinct column\tag from (select * form stable where <\>\in\and\or order by limit offset ) + tdSql.query("select 5-1 from stable_1;") + for i in range(self.fornum): + sql = "select " + sql += "%s " % random.choice(self.dqt_select) + sql += " from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #5-1 select distinct column\tag from (select calc form stable where <\>\in\and\or order by limit offset ) + tdSql.query("select 5-2 from stable_1;") + for i in range(self.fornum): + sql = "select distinct c5_1 " + sql += " from ( select " + sql += "%s " % random.choice(self.calc_select_in_ts) + sql += " as c5_1 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #6 select * from (select distinct(tag) form stable where <\>\in\and\or order by limit ) + tdSql.query("select 6-1 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s " % random.choice(self.dt_select) + sql += " from stable_1 where " + sql += "%s ) ;" % random.choice(self.qt_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #7 select * from (select distinct(tag) form stable where <\>\in\and\or order by limit ) + tdSql.query("select 7-1 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s " % random.choice(self.dq_select) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice([self.limit_where[0] , self.limit_where[1]] ) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #calc_select,TWA/Diff/Derivative/Irate are not allowed to apply to super table directly + #8 select * from (select ts,calc form ragular_table where <\>\in\and\or order by ) + tdSql.query("select 8-1 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select ts ," + sql += "%s " % random.choice(self.calc_select_support_ts) + sql += "from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + tdSql.query("select 8-1 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s " % random.choice(self.calc_select_not_support_ts) + sql += "from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s " % random.choice(self.calc_select_in_ts) + sql += "from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 8-2 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select t1.ts, " + sql += "%s " % random.choice(self.calc_select_in_support_ts_j) + sql += "from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s " % random.choice(self.calc_select_in_not_support_ts_j) + sql += "from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #9 select * from (select ts,calc form stable where <\>\in\and\or order by ) + # self.dropandcreateDB_random("%s" %db, 1) + tdSql.query("select 9-1 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s " % random.choice(self.calc_select_not_support_ts) + sql += "from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + tdSql.query("select 9-2 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select ts ," + sql += "%s " % random.choice(self.calc_select_support_ts) + sql += "from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 9-3 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s " % random.choice(self.calc_select_in_not_support_ts_j) + sql += "from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += " and %s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + tdSql.query("select 9-4 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select t1.ts," + sql += "%s " % random.choice(self.calc_select_in_support_ts_j) + sql += "from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += " and %s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #10 select calc from (select * form regualr_table where <\>\in\and\or order by ) + tdSql.query("select 10-1 from stable_1;") + for i in range(self.fornum): + sql = "select " + sql += "%s " % random.choice(self.calc_select_in_ts) + sql += "as calc10_1 from ( select * from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #10-1 select calc from (select * form regualr_table where <\>\in\and\or order by ) + tdSql.query("select 10-2 from stable_1;") + for i in range(self.fornum): + sql = "select " + sql += "%s " % random.choice(self.calc_select_all) + sql += "as calc10_2 from ( select * from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #10-2 select calc from (select * form regualr_tables where <\>\in\and\or order by ) + tdSql.query("select 10-3 from stable_1;") + for i in range(self.fornum): + sql = "select " + sql += "count(*) as calc10_3 " + sql += " from ( select t1.ts as t11, t2.ts as t22 from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += " and %s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.order_u_where) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + sql += "%s ;" % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #11 select calc from (select * form stable where <\>\in\and\or order by limit ) + tdSql.query("select 11-1 from stable_1;") + for i in range(self.fornum): + sql = "select " + sql += "%s " % random.choice(self.calc_select_in_ts) + sql += "as calc11_1 from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #11-1 select calc from (select * form stable where <\>\in\and\or order by limit ) + tdSql.query("select 11-2 from stable_1;") + for i in range(self.fornum): + sql = "select " + sql += "%s " % random.choice(self.calc_select_all) + sql += "as calc11_1 from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #12 select calc-diff from (select * form regualr_table where <\>\in\and\or order by limit ) + tdSql.query("select 12-1 from stable_1;") + for i in range(self.fornum): + sql = "select " + sql += "%s " % random.choice(self.calc_calculate_regular) + sql += " from ( select * from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.order_desc_where) + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #12-1 select calc-diff from (select * form stable where <\>\in\and\or order by limit ) + tdSql.query("select 12-3 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s " % random.choice(self.calc_calculate_regular) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.partiton_where) + sql += ") " + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += " ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 12-4 from stable_1;") + #join query does not support group by + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s " % random.choice(self.calc_calculate_regular_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "%s " % random.choice(self.partiton_where_j) + sql += ") " + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += " ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 12-5 from stable_1;") + #join query does not support group by + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s " % random.choice(self.calc_calculate_regular_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.qt_u_or_where) + sql += ") " + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += " ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #13 select calc-diff as diffns from (select * form stable where <\>\in\and\or order by limit ) + tdSql.query("select 13-1 from stable_1;") + for i in range(self.fornum): + sql = "select " + sql += "%s " % random.choice(self.calc_calculate_regular) + sql += " as calc13_1 from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.orders_desc_where) + sql += "%s " % random.choice([self.limit_where[2] , self.limit_where[3]] ) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #14 select * from (select calc_aggregate_alls as agg from stable where <\>\in\and\or group by order by slimit soffset ) + tdSql.query("select 14-1 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc14_1, " % random.choice(self.calc_aggregate_all) + sql += "%s as calc14_2, " % random.choice(self.calc_aggregate_all) + sql += "%s " % random.choice(self.calc_aggregate_all) + sql += " as calc14_3 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.group_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + # error group by in out query + tdSql.query("select 14-2 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc14_1, " % random.choice(self.calc_aggregate_all) + sql += "%s as calc14_2, " % random.choice(self.calc_aggregate_all) + sql += "%s " % random.choice(self.calc_aggregate_all) + sql += " as calc14_3 from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.partiton_where_regular) + sql += "%s " % random.choice(self.slimit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #14-2 select * from (select calc_aggregate_all_js as agg from stables where <\>\in\and\or group by order by slimit soffset ) + tdSql.query("select 14-3 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc14_1, " % random.choice(self.calc_aggregate_all_j) + sql += "%s as calc14_2, " % random.choice(self.calc_aggregate_all_j) + sql += "%s " % random.choice(self.calc_aggregate_all_j) + sql += " as calc14_3 from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "%s " % random.choice(self.partiton_where_j) + sql += "%s " % random.choice(self.slimit1_where) + sql += ") " + sql += "%s ;" % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 14-4 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc14_1, " % random.choice(self.calc_aggregate_all_j) + sql += "%s as calc14_2, " % random.choice(self.calc_aggregate_all_j) + sql += "%s " % random.choice(self.calc_aggregate_all_j) + sql += " as calc14_3 from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.partiton_where_j) + sql += "%s " % random.choice(self.slimit1_where) + sql += ") " + sql += "%s ;" % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #15 select * from (select calc_aggregate_regulars as agg from regular_table where <\>\in\and\or order by slimit soffset ) + tdSql.query("select 15-1 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc15_1, " % random.choice(self.calc_aggregate_regular) + sql += "%s as calc15_2, " % random.choice(self.calc_aggregate_regular) + sql += "%s " % random.choice(self.calc_aggregate_regular) + sql += " as calc15_3 from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.group_where_regular) + sql += ") ;" + tdLog.info(sql) + self.data_check(sql,mark='15-1') + + tdSql.query("select 15-2 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc15_2 " % random.choice(self.calc_aggregate_regular_j) + sql += "from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "%s " % random.choice(self.group_where_regular_j) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + sql += "%s ;" % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 15-2.2 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc15_1, " % random.choice(self.calc_aggregate_regular_j) + sql += "%s as calc15_2, " % random.choice(self.calc_aggregate_regular_j) + sql += "%s " % random.choice(self.calc_aggregate_regular_j) + sql += " as calc15_3 from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.group_where_regular_j) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + sql += "%s ;" % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 15-3 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc15_1, " % random.choice(self.calc_aggregate_groupbytbname) + sql += "%s as calc15_2, " % random.choice(self.calc_aggregate_groupbytbname) + sql += "%s " % random.choice(self.calc_aggregate_groupbytbname) + sql += " as calc15_3 from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.group_only_where) + sql += "%s " % random.choice(self.having_support) + sql += ") " + sql += "order by calc15_1 " + sql += "%s " % random.choice(self.limit_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 15-4 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc15_1, " % random.choice(self.calc_aggregate_groupbytbname_j) + sql += "%s as calc15_2, " % random.choice(self.calc_aggregate_groupbytbname_j) + sql += "%s " % random.choice(self.calc_aggregate_groupbytbname_j) + sql += " as calc15_3 from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "%s " % random.choice(self.group_only_where_j) + sql += "%s " % random.choice(self.having_support_j) + sql += ") " + sql += "order by calc15_1 " + sql += "%s " % random.choice(self.limit_u_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 15-5 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc15_1, " % random.choice(self.calc_aggregate_groupbytbname) + sql += "%s as calc15_2, " % random.choice(self.calc_aggregate_groupbytbname) + sql += "%s " % random.choice(self.calc_aggregate_groupbytbname) + sql += " as calc15_3 from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.group_where) + sql += ") " + sql += "order by calc15_1 " + sql += "%s " % random.choice(self.limit_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #16 select * from (select calc_aggregate_regulars as agg from regular_table where <\>\in\and\or order by limit offset ) + tdSql.query("select 16-1 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc16_0 , " % random.choice(self.calc_calculate_all) + sql += "%s as calc16_1 , " % random.choice(self.calc_aggregate_all) + sql += "%s as calc16_2 " % random.choice(self.calc_select_in) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.group_where) + sql += ") " + sql += "order by calc16_0 " + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 16-2 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc16_0 " % random.choice(self.calc_calculate_all_j) + sql += ", %s as calc16_1 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += ") " + sql += "order by calc16_0 " + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 16-2.2 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc16_0 " % random.choice(self.calc_calculate_all_j) + sql += ", %s as calc16_1 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.qt_u_or_where) + sql += ") " + sql += "order by calc16_0 " + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 16-3 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc16_1 " % random.choice(self.calc_calculate_regular) + sql += " from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "limit 2 ) " + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 16-4 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc16_1 " % random.choice(self.calc_calculate_regular_j) + sql += " from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "limit 2 ) " + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 16-4.2 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc16_1 " % random.choice(self.calc_calculate_regular_j) + sql += " from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_or_where) + sql += "limit 2 ) " + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 16-5 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc16_1 , " % random.choice(self.calc_calculate_all) + sql += "%s as calc16_2 , " % random.choice(self.calc_calculate_all) + sql += "%s as calc16_3 " % random.choice(self.calc_calculate_all) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.group_where) + sql += ") " + sql += "order by calc16_1 " + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 16-6 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc16_1 " % random.choice(self.calc_calculate_groupbytbname) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.partiton_where) + sql += "limit 2 ) " + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 16-7 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc16_1 " % random.choice(self.calc_calculate_groupbytbname_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "limit 2 ) " + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 16-8 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s as calc16_1 " % random.choice(self.calc_calculate_groupbytbname_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.qt_u_or_where) + sql += "limit 2 ) " + sql += "%s " % random.choice(self.limit1_where) + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #17 select apercentile from (select calc_aggregate_alls form regualr_table or stable where <\>\in\and\or interval_sliding group by having order by limit offset )interval_sliding + tdSql.query("select 17-1 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_0, %d)/10 ,apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_0 , " % random.choice(self.calc_calculate_all) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.partiton_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-2 from stable_1;") + for i in range(self.fornum): + #this is having_support , but tag-select cannot mix with last_row,other select can + sql = "select apercentile(cal17_0, %d)/10 ,apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_0 , " % random.choice(self.calc_calculate_all_j) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-2.2 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_0, %d)/10 ,apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_0 , " % random.choice(self.calc_calculate_all_j) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-3 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.partiton_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-4 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-4.2 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-5 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.partiton_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-6 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-7 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1_1 t1, stable_1_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-7.2 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1_1 t1, stable_1_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-8 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all) + sql += " from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-9 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 17-10 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal17_1, %d)/1000 ,apercentile(cal17_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal17_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal17_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.interval_sliding) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 18-1 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal18_1, %d)/1000 ,apercentile(cal18_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal18_1 ," % random.choice(self.calc_aggregate_all) + sql += "%s as cal18_2 " % random.choice(self.calc_aggregate_all) + sql += " from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.session_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 18-2 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal18_1, %d)/1000 ,apercentile(cal18_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal18_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal18_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "%s " % random.choice(self.session_u_where) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 18-2.2 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal18_1, %d)/1000 ,apercentile(cal18_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal18_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal18_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.session_u_where) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 18-3 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal18_1, %d)/1000 ,apercentile(cal18_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal18_1 ," % random.choice(self.calc_aggregate_all) + sql += "%s as cal18_2 " % random.choice(self.calc_aggregate_all) + sql += " from stable_1_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.session_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 18-4 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal18_1, %d)/1000 ,apercentile(cal18_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal18_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal18_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "%s " % random.choice(self.session_u_where) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 18-4.2 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal18_1, %d)/1000 ,apercentile(cal18_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal18_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal18_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.session_u_where) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 18-5 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal18_1, %d)/1000 ,apercentile(cal18_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal18_1 ," % random.choice(self.calc_aggregate_all) + sql += "%s as cal18_2 " % random.choice(self.calc_aggregate_all) + sql += " from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.session_where) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 18-6 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal18_1, %d)/1000 ,apercentile(cal18_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal18_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal18_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.t_join_where) + sql += "%s " % random.choice(self.session_u_where) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 18-7 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal18_1, %d)/1000 ,apercentile(cal18_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal18_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal18_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1 t1, stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.session_u_where) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #19 select apercentile from (select calc_aggregate_alls form regualr_table or stable where <\>\in\and\or session order by limit )interval_sliding + tdSql.query("select 19-1 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal19_1, %d)/1000 ,apercentile(cal19_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal19_1 ," % random.choice(self.calc_aggregate_all) + sql += "%s as cal19_2 " % random.choice(self.calc_aggregate_all) + sql += " from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.state_window) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 19-2 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal19_1, %d)/1000 ,apercentile(cal19_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal19_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal19_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "%s " % random.choice(self.state_u_window) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 19-2.2 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal19_1, %d)/1000 ,apercentile(cal19_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal19_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal19_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from regular_table_1 t1, regular_table_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.state_u_window) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 19-3 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal19_1, %d)/1000 ,apercentile(cal19_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal19_1 ," % random.choice(self.calc_aggregate_all) + sql += "%s as cal19_2 " % random.choice(self.calc_aggregate_all) + sql += " from stable_1_1 where " + sql += "%s " % random.choice(self.q_where) + sql += "%s " % random.choice(self.state_window) + sql += "%s " % random.choice(self.limit1_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 19-4 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal19_1, %d)/1000 ,apercentile(cal19_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal19_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal19_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1_1 t1, stable_1_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 19-4.2 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal19_1, %d)/1000 ,apercentile(cal19_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal19_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal19_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1_1 t1, stable_1_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_or_where) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 19-6 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal19_1, %d)/1000 ,apercentile(cal19_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal19_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal19_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.q_u_where) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + tdSql.query("select 19-7 from stable_1;") + for i in range(self.fornum): + sql = "select apercentile(cal19_1, %d)/1000 ,apercentile(cal19_2, %d)*10+%d from ( select " %(random.randint(0,100) , random.randint(0,100) ,random.randint(-1000,1000)) + sql += "%s as cal19_1 ," % random.choice(self.calc_aggregate_all_j) + sql += "%s as cal19_2 " % random.choice(self.calc_aggregate_all_j) + sql += " from stable_1 t1 , stable_2 t2 where t1.ts = t2.ts and " + sql += "%s " % random.choice(self.qt_u_or_where) + sql += "%s " % random.choice(self.limit_u_where) + sql += ") " + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #1 select * from (select * from (select * form regular_table where <\>\in\and\or order by limit )) + tdSql.query("select 1-1 from stable_1;") + for i in range(self.fornum): + for_num = random.randint(1, 15); + sql = "select * from (" * for_num + sql += "select * from ( select * from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as ttt from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += ")) " + sql += ")" * for_num + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + sql2 = "select * from ( select * from ( select " + sql2 += "%s, " % random.choice(self.s_r_select) + sql2 += "%s, " % random.choice(self.q_select) + sql2 += "ts as tin from regular_table_1 where " + sql2 += "%s " % random.choice(self.q_where) + sql2 += ")) " + tdLog.info(sql2) + tdSql.query(sql2) + self.cur1.execute(sql2) + self.explain_sql(sql2) + + tdLog.info("=====1-1==over=========") + + for i in range(self.fornum): + for_num = random.randint(1, 15); + sql = "select ts2 from (" * for_num + sql += "select * from ( select * from ( select " + sql += "%s, " % random.choice(self.s_r_select) + sql += "%s, " % random.choice(self.q_select) + sql += "ts as ts2 from regular_table_1 where " + sql += "%s " % random.choice(self.q_where) + sql += ")) " + sql += ")" * for_num + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + sql2 = "select * from ( select * from ( select " + sql2 += "%s, " % random.choice(self.s_r_select) + sql2 += "%s, " % random.choice(self.q_select) + sql2 += "ts as tt from regular_table_1 where " + sql2 += "%s " % random.choice(self.q_where) + sql2 += ")) " + tdLog.info(sql2) + tdSql.query(sql2) + self.explain_sql(sql2) + tdLog.info("=====1-2==over=========") + + #2 select * from (select * from (select * form stable where <\>\in\and\or order by limit )) + tdSql.query("select 2-1 from stable_1;") + for i in range(self.fornum): + for_num = random.randint(1, 15); + sql = "select * from (" * for_num + sql += "select * from ( select * from ( select " + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.qt_select) + sql += "ts as tss from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += ")) " + sql += ")" * for_num + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + sql2 = "select * from ( select * from ( select " + sql2 += "%s, " % random.choice(self.s_s_select) + sql2 += "%s, " % random.choice(self.qt_select) + sql2 += "ts as tst from stable_1 where " + sql2 += "%s " % random.choice(self.q_where) + sql2 += ")) " + tdLog.info(sql2) + tdSql.query(sql2) + self.explain_sql(sql2) + + tdLog.info("=====2-1==over=========") + + for i in range(self.fornum): + for_num = random.randint(1, 15); + sql = "select tsn from (" * for_num + sql += "select * from ( select * from ( select " + sql += "%s, " % random.choice(self.s_s_select) + sql += "%s, " % random.choice(self.qt_select) + sql += "ts as tsn from stable_1 where " + sql += "%s " % random.choice(self.q_where) + sql += ")) " + sql += ")" * for_num + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + sql2 = "select ts1 from ( select * from ( select " + sql2 += "%s, " % random.choice(self.s_s_select) + sql2 += "%s, " % random.choice(self.qt_select) + sql2 += "ts as ts1 from stable_1 where " + sql2 += "%s " % random.choice(self.q_where) + sql2 += ")) " + tdLog.info(sql2) + tdSql.query(sql2) + self.cur1.execute(sql2) + self.explain_sql(sql2) + tdLog.info("=====2-2==over=========") + + #3 select ts ,calc from (select * form stable where <\>\in\and\or order by limit ) + tdSql.query("select 3-1 from stable_1;") + for i in range(self.fornum): + sql = "select " + sql += "%s " % random.choice(self.calc_calculate_regular) + sql += " from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.orders_desc_where) + sql += "%s " % random.choice(self.limit_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #4 select * from (select calc form stable where <\>\in\and\or order by limit ) + tdSql.query("select 4-1 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select " + sql += "%s " % random.choice(self.calc_select_in_ts) + sql += "from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.limit_where) + sql += ") ;" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #5 select ts ,tbname from (select * form stable where <\>\in\and\or order by limit ) + tdSql.query("select 5-1 from stable_1;") + for i in range(self.fornum): + sql = "select ts , tbname , " + sql += "%s ," % random.choice(self.calc_calculate_regular) + sql += "%s ," % random.choice(self.dqt_select) + sql += "%s " % random.choice(self.qt_select) + sql += " from ( select * from stable_1 where " + sql += "%s " % random.choice(self.qt_where) + sql += "%s " % random.choice(self.orders_desc_where) + sql += "%s " % random.choice(self.limit_where) + sql += ") ;" + tdLog.info(sql) + tdSql.error(sql) + + #special sql + tdSql.query("select 6-1 from stable_1;") + for i in range(self.fornum): + sql = "select * from ( select _block_dist() from stable_1);" + tdSql.error(sql) + sql = "select _block_dist() from (select * from stable_1);" + tdSql.error(sql) + sql = "select * from (select database());" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + sql = "select * from (select client_version());" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + sql = "select * from (select client_version() as version);" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + sql = "select * from (select server_version());" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + sql = "select * from (select server_version() as version);" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + sql = "select * from (select server_status());" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + sql = "select * from (select server_status() as status);" + tdLog.info(sql) + tdSql.query(sql) + self.explain_sql(sql) + + #taos -f sql + startTime_taos_f = time.time() + print("taos -f sql start!") + taos_cmd1 = "taos -f %s/%s.sql" % (self.testcasePath,self.testcaseFilename) + _ = subprocess.check_output(taos_cmd1, shell=True) + print("taos -f sql over!") + endTime_taos_f = time.time() + print("taos_f total time %ds" % (endTime_taos_f - startTime_taos_f)) + + print('=====================2.6 old function end ===========') + + + def run(self): + tdSql.prepare() + + startTime = time.time() + + self.function_before_26() + + self.math_nest(['UNIQUE']) + self.math_nest(['MODE']) + self.math_nest(['SAMPLE']) + + self.math_nest(['ABS','SQRT']) + self.math_nest(['SIN','COS','TAN','ASIN','ACOS','ATAN']) + self.math_nest(['POW','LOG']) + self.math_nest(['FLOOR','CEIL','ROUND']) + self.math_nest(['MAVG']) + self.math_nest(['HYPERLOGLOG']) + self.math_nest(['TAIL']) + self.math_nest(['CSUM']) + self.math_nest(['statecount','stateduration']) + self.math_nest(['HISTOGRAM']) + + self.str_nest(['LTRIM','RTRIM','LOWER','UPPER']) + self.str_nest(['LENGTH','CHAR_LENGTH']) + self.str_nest(['SUBSTR']) + self.str_nest(['CONCAT']) + self.str_nest(['CONCAT_WS']) + self.time_nest(['CAST']) + self.time_nest(['CAST_1']) + self.time_nest(['CAST_2']) + self.time_nest(['CAST_3']) + self.time_nest(['CAST_4']) + + self.time_nest(['NOW','TODAY']) + self.time_nest(['TIMEZONE']) + self.time_nest(['TIMETRUNCATE']) + self.time_nest(['TO_ISO8601']) + self.time_nest(['TO_UNIXTIMESTAMP']) + self.time_nest(['ELAPSED']) + self.time_nest(['TIMEDIFF_1']) + self.time_nest(['TIMEDIFF_2']) + + endTime = time.time() + print("total time %ds" % (endTime - startTime)) + + + + + def stop(self): + tdSql.close() + tdLog.success("%s successfully executed" % __file__) + + +tdCases.addWindows(__file__, TDTestCase()) +tdCases.addLinux(__file__, TDTestCase())