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