对条件子句中带IN的SQL语句使用绑定变量

使用绑定变量带来的好处不用多说，但是遇到SQL条件中条件值不固定的这类SQL在普通方式下就不能使用绑定变量，看到Tom网站上提供了一种可行的办法。

网上有不少的地方也提到了这种方法，那就是，先定义一个表类型，将个数不定的参数转换成这种表类型，再将查询结果传给IN子句，这样就可以实现了SQL语句中的绑定变量方式。

例如：

Select * From 病人费用记录 Where NO IN(Select * From Table(Cast(zlTools.f_Str2List ('A01,A02,A03') as zlTools. t_StrList)));

Select * From 病人费用记录 Where NO IN(Select * From The(Select Cast(zlTools.f_Str2List ('A01,A02,A03') as zlTools. t_StrList) From Dual));

Select A.* From 病人费用记录 A,Table(Cast(zlTools.f_Str2List ('A01,A02,A03') as zlTools. t_StrList)) B Where A.NO=B.Column_Value;

Oracle提供了一个包dbms_utility.comma_to_table可以将参数列表转换为一个类型表，但是由于结果是通过参数传出的,无法用于应用程序的SQL语句中。

于是,我们仍然选择通过创建SQL表类型和相关函数来实现,Type：t_StrList, t_NumList，函数：f_Str2List, f_Num2List，如下:

Create Or Replace type zltools.t_StrList as table of varchar2(4000)

Create Or Replace Function zltools.f_Str2List(Str_In In Varchar2) Return zltools.t_StrList As

v_Str Long Default Str_In || ',';

v_Index Number;

v_List zltools.t_StrList := zltools.t_StrList();

--功能：将由逗号分隔的不带引号的字符序列转换为数据表

--参数：Str_In如:G0000123,G0000124,G0000125...

Begin

Loop

v_Index := Instr(v_Str, ',');

Exit When(Nvl(v_Index, 0) = 0);

v_List.Extend;

v_List(v_List.Count) := Trim(Substr(v_Str, 1, v_Index - 1));

v_Str := Substr(v_Str, v_Index + 1);

End Loop;

Return v_List;

End;

Create Or Replace type zltools.t_NumList as table of number

Create Or Replace Function zltools.f_Num2List(Str_In In Varchar2) Return zltools.t_NumList As

v_Str Long Default Str_In || ',';

v_Index Number;

v_List zltools.t_NumList := zltools.t_NumList();

--功能：将由逗号分隔的数字序列转换为数据表

--参数：Str_In如:73265,73266,73267....

Begin

Loop

v_Index := Instr(v_Str, ',');

Exit When(Nvl(v_Index, 0) = 0);

v_List.Extend;

v_List(v_List.Count) := To_Number(Trim(Substr(v_Str, 1, v_Index - 1)));

v_Str := Substr(v_Str, v_Index + 1);

End Loop;

Return v_List;

End;

但是这种方法有一个问题：

如果用户使用CBO,使用这种方式的SQL语句，不加处理的话一般(要根据具体SQL分析)会错误的使用Hash连接来产生执行计划，不能正确使用索引从而引发性能问题，

因为Type Table不具备统计信息，在计算成本时，Oracle始终认为它有8168行，在基于成本的优化器模式下，多表连接时一般就会选择Hash连接，一般比使用索引的嵌套连接效率差。

目前，已知的解决办法有两种：

http://www.cnoug.org/viewthread.php?tid=1533&highlight=DROP%2B%2BCONSTRAINT%2Bindex

1. 对构造表的返回记录集加RowNum条件，通过子查询的实体化视图来改变执行计划，例如：

select * from table(Cast(zlTools.f_Str2List (v_str) as zlTools.t_StrList)) where rownum<5

2. 在SQL中加入优化器提示，例如：/*+ rule*/，或者/*+ ordered use_nl(t)*/，或者/*+ index(t ind_object_id)*/

第1种方式，需要对rownum的条件赋值，如果条件值采用动态的值，那么就达不到使用绑定变量的效果，如果采用固定值，有两种方案：

一种是使用一个固定的极限值，例如：99999，另一种是使用绑定变量。

试验结果见文末，这两种方式产生的执行计划采用了Hash连接，执行计划比不使用RowNum实体化视图更差。

第2种方式，如果使用指定嵌套连接提示或指定索引提示则需要对每个SQL针对性处理，需要分析具体的SQL。所以，一般情况建议在SQL中使用/*+ rule*/提示来固定执行计划。

--0.准备

--先创建表类型及转换函数: t_StrList,f_Str2List和t_NumList,f_Num2List

SQL> alter session set optimizer_mode=all_rows;

Session altered

SQL> var v_str varchar2(4000);

SQL> exec :v_str :='H0000005,H0000006,H0000007';

PL/SQL 过程已成功完成。

--1.当类型表不使用Rownum实体化视图时，错误地采用了Hash连接的执行计划，产生了6575块逻辑读+6909块物理读

SQL> Select a.No, a.结算方式, Nvl(b.性质, 1) As 性质, a.金额, a.摘要, a.结算号码

2 From (Select b.No, Decode(a.记录性质, 3, a.结算方式, Null) As 结算方式, a.摘要, a.结算号码, Sum

(1 * a.冲预交) As 金额

3 From 病人预交记录 a,

4 (Select Distinct No, 结帐id

5 From 病人费用记录

6 Where 记录性质 = 1 And No In (

7 Select * From Table(Cast(f_Str2List(:v_str) as t_StrList))

8 ) And 记录状态 In (1, 3)) b

9 Where a.结帐id = b.结帐id And a.记录性质 In (1, 11, 3) And Nvl(a.冲预交, 0) <> 0

10 Group By b.No, Decode(a.记录性质, 3, a.结算方式, Null), a.摘要, a.结算号码) a, 结算方式 b

11 Where a.结算方式 = b.名称(+);

执行计划

----------------------------------------------------------

0 SELECT STATEMENT Optimizer=ALL_ROWS (Cost=23 Card=1 Bytes=100)

1 0 NESTED LOOPS (OUTER) (Cost=23 Card=1 Bytes=100)

2 1 VIEW (Cost=22 Card=1 Bytes=75)

3 2 SORT (GROUP BY) (Cost=22 Card=1 Bytes=94)

4 3 VIEW (Cost=21 Card=1 Bytes=94)

5 4 SORT (UNIQUE) (Cost=21 Card=1 Bytes=149)

6 5 TABLE ACCESS (BY INDEX ROWID) OF '病人预交记录' (Cost=1 Card=1 Bytes=102)

7 6 NESTED LOOPS (Cost=19 Card=1 Bytes=149)

8 7 HASH JOIN (SEMI) (Cost=17 Card=4 Bytes=188)

9 8 INDEX (FAST FULL SCAN) OF '病人费用记录_UQ_NO' (UNIQUE) (Cost=4 Card=399 Bytes=17955)

10 8 COLLECTION ITERATOR (PICKLER FETCH) OF 'f_Str2List'

11 7 INDEX (RANGE SCAN) OF '病人预交记录_IX_结帐ID' (NON-UNIQUE)

12 1 TABLE ACCESS (BY INDEX ROWID) OF '结算方式' (Cost=1 Card=1 Bytes=25)

13 12 INDEX (UNIQUE SCAN) OF '结算方式_UQ_名称' (UNIQUE)

统计信息

----------------------------------------------------------

0 recursive calls

0 db block gets

6575 consistent gets

6909 physical reads

0 redo size

720 bytes sent via SQL*Net to client

372 bytes received via SQL*Net from client

2 SQL*Net roundtrips to/from client

2 sorts (memory)

0 sorts (disk)

3 rows processed

--2.当类型表的查询条件中Rownum使用固定值时,正确地采用了嵌套连接的执行计划，仅仅产生了29块逻辑读

SQL> Select a.No, a.结算方式, Nvl(b.性质, 1) As 性质, a.金额, a.摘要, a.结算号码

2 From (Select b.No, Decode(a.记录性质, 3, a.结算方式, Null) As 结算方式, a.摘要, a.结算号码, Sum

(1 * a.冲预交) As 金额

3 From 病人预交记录 a,

4 (Select Distinct No, 结帐id

5 From 病人费用记录

6 Where 记录性质 = 1 And No In (

7 Select * From Table(Cast(f_Str2List(:v_str) as t_StrList)) Where Rownum<4

8 ) And 记录状态 In (1, 3)) b

9 Where a.结帐id = b.结帐id And a.记录性质 In (1, 11, 3) And Nvl(a.冲预交, 0) <> 0

10 Group By b.No, Decode(a.记录性质, 3, a.结算方式, Null), a.摘要, a.结算号码) a, 结算方式 b

11 Where a.结算方式 = b.名称(+);

执行计划

----------------------------------------------------------

0 SELECT STATEMENT Optimizer=ALL_ROWS (Cost=23 Card=4 Bytes=400)

1 0 NESTED LOOPS (OUTER) (Cost=23 Card=4 Bytes=400)

2 1 VIEW (Cost=21 Card=4 Bytes=300)

3 2 SORT (GROUP BY) (Cost=21 Card=4 Bytes=376)

4 3 VIEW (Cost=20 Card=4 Bytes=376)

5 4 SORT (UNIQUE) (Cost=20 Card=4 Bytes=8596)

6 5 TABLE ACCESS (BY INDEX ROWID) OF '病人预交记录' (Cost=1 Card=1 Bytes=102)

7 6 NESTED LOOPS (Cost=17 Card=4 Bytes=8596)

8 7 NESTED LOOPS (Cost=13 Card=12 Bytes=24564)

9 8 VIEW OF 'VW_NSO_1' (Cost=11 Card=3 Bytes=6006)

10 9 COUNT (STOPKEY)

11 10 COLLECTION ITERATOR (PICKLER FETCH) OF 'f_Str2List'

12 8 INLIST ITERATOR

13 12 INDEX (RANGE SCAN) OF '病人费用记录_UQ_NO' (UNIQUE) (Cost=1 Card=4 Bytes=180)

14 7 INDEX (RANGE SCAN) OF '病人预交记录_IX_结帐ID' (NON-UNIQUE)

15 1 TABLE ACCESS (BY INDEX ROWID) OF '结算方式' (Cost=1 Card=1 Bytes=25)

16 15 INDEX (UNIQUE SCAN) OF '结算方式_UQ_名称' (UNIQUE)

统计信息

----------------------------------------------------------

0 recursive calls

0 db block gets

29 consistent gets

0 physical reads

0 redo size

720 bytes sent via SQL*Net to client

372 bytes received via SQL*Net from client

2 SQL*Net roundtrips to/from client

2 sorts (memory)

0 sorts (disk)

3 rows processed

--3.当类型表的查询条件中Rownum使用变量时，执行计划虽然有变化，但是仍然认为类型表返回的记录集数为8168,

-- 错误地采用了Hash连接的执行计划，产生了374369块逻辑读和11192块物理读

SQL> var v_count number;

SQL> exec :v_count:=4;

PL/SQL 过程已成功完成。

SQL> Select a.No, a.结算方式, Nvl(b.性质, 1) As 性质, a.金额, a.摘要, a.结算号码

2 From (Select b.No, Decode(a.记录性质, 3, a.结算方式, Null) As 结算方式, a.摘要, a.结算号码, Sum

(1 * a.冲预交) As 金额

3 From 病人预交记录 a,

4 (Select Distinct No, 结帐id

5 From 病人费用记录

6 Where 记录性质 = 1 And No In (

7 Select * From Table(Cast(f_Str2List(:v_str) as t_StrList)) Where Rownum<:v_count

8 ) And 记录状态 In (1, 3)) b

9 Where a.结帐id = b.结帐id And a.记录性质 In (1, 11, 3) And Nvl(a.冲预交, 0) <> 0

10 Group By b.No, Decode(a.记录性质, 3, a.结算方式, Null), a.摘要, a.结算号码) a, 结算方式 b

11 Where a.结算方式 = b.名称(+);

执行计划

----------------------------------------------------------

0 SELECT STATEMENT Optimizer=ALL_ROWS (Cost=16306 Card=10945 Bytes=1094500)

1 0 HASH JOIN (OUTER) (Cost=16306 Card=10945 Bytes=1094500)

2 1 VIEW (Cost=16264 Card=10945 Bytes=820875)

3 2 SORT (GROUP BY) (Cost=16264 Card=10945 Bytes=1028830)

4 3 VIEW (Cost=16148 Card=10945 Bytes=1028830)

5 4 SORT (UNIQUE) (Cost=16148 Card=10945 Bytes=23520805)

6 5 HASH JOIN (Cost=238 Card=10945 Bytes=23520805)

7 6 TABLE ACCESS (BY INDEX ROWID) OF '病人预交记录' (Cost=1 Card=1 Bytes=102)

8 7 NESTED LOOPS (Cost=164 Card=134 Bytes=19698)

9 8 INDEX (FAST FULL SCAN) OF '病人费用记录_UQ_NO' (UNIQUE) (Cost=4 Card=399 Bytes=17955)

10 8 INDEX (RANGE SCAN) OF '病人预交记录_IX_结帐ID' (NON-UNIQUE)

11 6 VIEW OF 'VW_NSO_1' (Cost=11 Card=8168 Bytes=16352336)

12 11 COUNT (STOPKEY)

13 12 COLLECTION ITERATOR (PICKLER FETCH) OF 'f_Str2List'

14 1 TABLE ACCESS (FULL) OF '结算方式' (Cost=2 Card=82 Bytes=2050)

统计信息

----------------------------------------------------------

28 recursive calls

0 db block gets

374369 consistent gets

11192 physical reads

0 redo size

720 bytes sent via SQL*Net to client

372 bytes received via SQL*Net from client

2 SQL*Net roundtrips to/from client

2 sorts (memory)

0 sorts (disk)

3 rows processed

--4.当类型表的查询条件中Rownum使用一个固定的极限值时(例如：99999)，情况与使用变量一样遭，错误地采用了Hash连接的执行计划，产生了374354块逻辑读和10756块物理读

SQL> Select a.No, a.结算方式, Nvl(b.性质, 1) As 性质, a.金额, a.摘要, a.结算号码

2 From (Select b.No, Decode(a.记录性质, 3, a.结算方式, Null) As 结算方式, a.摘要, a.结算号码, Sum

(1 * a.冲预交) As 金额

3 From 病人预交记录 a,

4 (Select Distinct No, 结帐id

5 From 病人费用记录

6 Where 记录性质 = 1 And No In (

7 Select * From Table(Cast(f_Str2List(:v_str) as t_StrList)) Where Rownum<99999

8 ) And 记录状态 In (1, 3)) b

9 Where a.结帐id = b.结帐id And a.记录性质 In (1, 11, 3) And Nvl(a.冲预交, 0) <> 0

10 Group By b.No, Decode(a.记录性质, 3, a.结算方式, Null), a.摘要, a.结算号码) a, 结算方式 b

11 Where a.结算方式 = b.名称(+);

执行计划

----------------------------------------------------------

0 SELECT STATEMENT Optimizer=ALL_ROWS (Cost=16306 Card=10945 Bytes=1094500)

1 0 HASH JOIN (OUTER) (Cost=16306 Card=10945 Bytes=1094500)

2 1 VIEW (Cost=16264 Card=10945 Bytes=820875)

3 2 SORT (GROUP BY) (Cost=16264 Card=10945 Bytes=1028830)

4 3 VIEW (Cost=16148 Card=10945 Bytes=1028830)

5 4 SORT (UNIQUE) (Cost=16148 Card=10945 Bytes=23520805)

6 5 HASH JOIN (Cost=238 Card=10945 Bytes=23520805)

7 6 TABLE ACCESS (BY INDEX ROWID) OF '病人预交记录' (Cost=1 Card=1 Bytes=102)

8 7 NESTED LOOPS (Cost=164 Card=134 Bytes=19698)

9 8 INDEX (FAST FULL SCAN) OF '病人费用记录_UQ_NO' (UNIQUE) (Cost=4 Card=399 Bytes=17955)

10 8 INDEX (RANGE SCAN) OF '病人预交记录_IX_结帐ID' (NON-UNIQUE)

11 6 VIEW OF 'VW_NSO_1' (Cost=11 Card=8168 Bytes=16352336)

12 11 COUNT (STOPKEY)

13 12 COLLECTION ITERATOR (PICKLER FETCH) OF 'f_Str2List'

14 1 TABLE ACCESS (FULL) OF '结算方式' (Cost=2 Card=82 Bytes=2050)

统计信息

----------------------------------------------------------

0 recursive calls

0 db block gets

374354 consistent gets

10756 physical reads

0 redo size

720 bytes sent via SQL*Net to client

372 bytes received via SQL*Net from client

2 SQL*Net roundtrips to/from client

2 sorts (memory)

0 sorts (disk)

3 rows processed

--5.强制使用基于规则的优化器模式

SQL> Select /*+ rule*/ a.No, a.结算方式, Nvl(b.性质, 1) As 性质, a.金额, a.摘要, a.结算号码

2 From (Select b.No, Decode(a.记录性质, 3, a.结算方式, Null) As 结算方式, a.摘要, a.结算号码, Sum

(1 * a.冲预交) As 金额

3 From 病人预交记录 a,

4 (Select Distinct No, 结帐id

5 From 病人费用记录

6 Where 记录性质 = 1 And No In (

7 Select * From Table(Cast(f_Str2List(:v_str) as t_StrList))

8 ) And 记录状态 In (1, 3)) b

9 Where a.结帐id = b.结帐id And a.记录性质 In (1, 11, 3) And Nvl(a.冲预交, 0) <> 0

10 Group By b.No, Decode(a.记录性质, 3, a.结算方式, Null), a.摘要, a.结算号码) a, 结算方式 b

11 Where a.结算方式 = b.名称(+);

执行计划

----------------------------------------------------------

0 SELECT STATEMENT Optimizer=HINT: RULE

1 0 NESTED LOOPS (OUTER)

2 1 VIEW

3 2 SORT (GROUP BY)

4 3 VIEW

5 4 SORT (UNIQUE)

6 5 TABLE ACCESS (BY INDEX ROWID) OF '病人预交记录'

7 6 NESTED LOOPS

8 7 NESTED LOOPS

9 8 COLLECTION ITERATOR (PICKLER FETCH) OF 'f_Str2List'

10 8 INDEX (RANGE SCAN) OF '病人费用记录_UQ_NO' (UNIQUE)

11 7 INDEX (RANGE SCAN) OF '病人预交记录_IX_结帐ID' (NON-UNIQUE)

12 1 TABLE ACCESS (BY INDEX ROWID) OF '结算方式'

13 12 INDEX (UNIQUE SCAN) OF '结算方式_UQ_名称' (UNIQUE)

统计信息

----------------------------------------------------------

0 recursive calls

0 db block gets

25 consistent gets

0 physical reads

0 redo size

720 bytes sent via SQL*Net to client

372 bytes received via SQL*Net from client

2 SQL*Net roundtrips to/from client

2 sorts (memory)

0 sorts (disk)

3 rows processed