执行计划绑定

发布时间：2020-08-13 19:41:27 来源：ITPUB博客阅读：121 作者：skyin_1603 栏目：关系型数据库

http://www.mamicode.com/info-detail-1943333.html

需要绑定SQL执行计划常见的几种情况：
SQL执行计划突变，导致数据库性能下降，从历史执行计划找一个合理的，进行绑定。
SQL无法使用更优的执行计划，且无历史执行计划，可通过hint手工构造的方式，进行绑定。
某些Bug引起优化器生成较差的执行计划。在bug修复前，进行绑定。

ORACLE固定执行计划的3种方式：
Oracle 9i使用outline （可跨版本10，11g均可使用）
Oracle 10g使用sql profile （11g也可使用）
Oracle 11g使用sql plan manage

接下来简述如何使用这3种方式进行执行计划的固定，并举例说明3种固定执行计划的优缺点，通过对比选择合适的固定执行计划来应对不同的业务场景。也就是什么场景下使用何种执行计划固定比较合适。

一、大纲（Stored Outline）
语法：(手动创建outline)

CREATE [ OR REPLACE ]
   [ PUBLIC | PRIVATE ] OUTLINE [ outline ]
   [ FROM [ PUBLIC | PRIVATE ] source_outline ]
   [ FOR CATEGORY category ]
   [ ON statement ] ;

1、当SQL执行计划因新版本变更，统计信息不准确，新建索引，参数改变等发生改变时，存储大纲可以使SQL语句的执行计划保持不变。在创建某条语句的大纲时，ORACLE会将SQL语句的文本，执行计划和语句使用的hints存储在一个系统默认用户OUTLN的3个表OL$，OL$HINTS，OL$NODES上。

2、使用大纲（outline）固定执行计划
--环境构建，建立测试表
SQL> create table zw as select * from dba_objects where object_id is not null;

Table created.

SQL> explain plan for select count(*) from zw;

Explained.

SQL> set lines 200
SQL> select * from table(dbms_xplan.display());

PLAN_TABLE_OUTPUT
---------------------------------------------------------------------------------------------------
Plan hash value: 249608387

-------------------------------------------------------------------
| Id | Operation          | Name | Rows | Cost (%CPU)| Time     |
-------------------------------------------------------------------
|   0 | SELECT STATEMENT   |      |     1 |   339   (1)| 00:00:05 |
|   1 | SORT AGGREGATE    |      |     1 |            |          |
|   2 |   TABLE ACCESS FULL| ZW   |   100K|   339   (1)| 00:00:05 |
-------------------------------------------------------------------

Note
-----
   - dynamic sampling used for this statement (level=2)

13 rows selected.

--查询数据字典dba_outlines：
SQL> select NAME,OWNER,CATEGORY,USED,SQL_TEXT,ENABLED,TIMESTAMP from dba_outlines;

no rows selected

--创建大纲(全表扫描)，默认是私有outline

SQL> create or replace outline zwoutline for category mycate on select count(*) from zw;

Outline created.

--再次查询dba_outlines;
col NAME for a10
col OWNER for a10
col CATEGORY for a10
col SQL_TEXT for a30
select NAME,OWNER,CATEGORY,USED,SQL_TEXT,ENABLED,TIMESTAMP from dba_outlines;

NAME       OWNER      CATEGORY   USED   SQL_TEXT                       ENABLED TIMESTAMP
---------- ---------- ---------- ------ ------------------------------ -------- -------------------
ZWOUTLINE SYS        MYCATE     UNUSED select count(*) from zw        ENABLED 2017-09-02 15:36:33

--创建object_id列索引，将该列属性设置为非空
--索引不存储null值
SQL> alter table zw modify object_id not null;

Table altered.

SQL> create index idx_zw_obj_id on zw(object_id);

Index created.

SQL> analyze table zw compute statistics;

Table analyzed.

SQL> explain plan for select count(*) from zw;

Explained.

SQL> select * from table(dbms_xplan.display());

PLAN_TABLE_OUTPUT
-----------------------------------------------------------------------------------------------------------------------------
Plan hash value: 1836624960

-------------------------------------------------------------------------------
| Id | Operation             | Name          | Rows | Cost (%CPU)| Time     |
-------------------------------------------------------------------------------
|   0 | SELECT STATEMENT      |               |     1 |    54   (0)| 00:00:01 |
|   1 | SORT AGGREGATE       |               |     1 |            |          |
|   2 |   INDEX FAST FULL SCAN| IDX_ZW_OBJ_ID |   100K|    54   (0)| 00:00:01 |
-------------------------------------------------------------------------------

--使用大纲固定执行计划：（alter system/session set use_stored_outlines=mycate;）系统级或会话级别；

SQL> alter system set use_stored_outlines=mycate;

System altered.

--查询dba_ouitlines(sql还未应用）

SQL> select NAME,OWNER,CATEGORY,USED,SQL_TEXT,ENABLED,TIMESTAMP from dba_outlines;

NAME       OWNER      CATEGORY   USED   SQL_TEXT                       ENABLED TIMESTAMP
---------- ---------- ---------- ------ ------------------------------ -------- -------------------
ZWOUTLINE SYS        MYCATE     UNUSED select count(*) from zw        ENABLED 2017-09-02 15:36:33

--固定执行计划之后，就会按照创大纲时的执行计划去执行。
实际执行验证：（实际执行后就会应用outline）
SQL> select count(*) from zw;

COUNT(*)
----------
     87036

SQL> select * from table(dbms_xplan.display_cursor(null, null, 'advanced'));

PLAN_TABLE_OUTPUT
---------------------------------------------------------------------------------
SQL_ID 1f5n0rapts695, child number 0
-------------------------------------
select count(*) from zw

Plan hash value: 1836624960

-------------------------------------------------------------------------------
| Id | Operation             | Name          | Rows | Cost (%CPU)| Time     |
-------------------------------------------------------------------------------
|   0 | SELECT STATEMENT      |               |       |    54 (100)|          |
|   1 | SORT AGGREGATE       |               |     1 |            |          |
|   2 |   INDEX FAST FULL SCAN| IDX_ZW_OBJ_ID | 87036 |    54   (0)| 00:00:01 |
-------------------------------------------------------------------------------

Query Block Name / Object Alias (identified by operation id):
-------------------------------------------------------------

   1 - SEL$1
   2 - SEL$1 / ZW@SEL$1

Outline Data
-------------

/*+
      BEGIN_OUTLINE_DATA
      IGNORE_OPTIM_EMBEDDED_HINTS
      OPTIMIZER_FEATURES_ENABLE('11.2.0.4')
      DB_VERSION('11.2.0.4')
      ALL_ROWS
      OUTLINE_LEAF(@"SEL$1")
      INDEX_FFS(@"SEL$1" "ZW"@"SEL$1" ("ZW"."OBJECT_ID"))
      END_OUTLINE_DATA
*/

Column Projection Information (identified by operation id):
-----------------------------------------------------------

   1 - (#keys=0) COUNT(*)[22]

39 rows selected.

--查询dba_outlines
select NAME,OWNER,CATEGORY,USED,SQL_TEXT,ENABLED,TIMESTAMP from dba_outlines;

NAME       OWNER      CATEGORY   USED   SQL_TEXT                       ENABLED TIMESTAMP
---------- ---------- ---------- ------ ------------------------------ -------- -------------------
ZWOUTLINE SYS        MYCATE     UNUSED select count(*) from zw        ENABLED 2017-09-02 15:54:31

上述的建立的大纲为公有大纲，为了不影响其它用户的使用，可以建立私有大纲如下：

create or replace private outline zwoutline2 for category mycate2 on select count(*) from zw;

思考：为什么我构建测试时，固定的是全表扫描，而不是比较优化的索引扫描？

其实这里我想说明的是outline的缺点是比较死板的，当创建新的索引，或者数据量大幅度变化时是无法做出相应改变的，也就是说它是固定死的。

关于outline具体参考如下链接：
http://blog.csdn.net/whiteoldbig/article/details/17210079

从10g起，可以通过引用共享池中已经存在的SQL语句来创建outline

exec DBMS_OUTLN.create_outline(hash_value=>1752921103,child_number => 0,category=>‘test‘);

注意

这种方法不能指定outline的具体名字，由系统自动生成，可以通过alter outline SYS_OUTLINE_14061114223605901 rename to dh_test2修改

不指定类别的话默认为default，而且此处创建时，不能指定为default类别（会报错）。

我们使用outline固定执行计划时，一般都是选用此种方法

参考：
http://www.bubuko.com/infodetail-216529.html

实验如下：
SQL> create table dh_stat as select rownum id ,object_name name ,object_type type from dba_objects;

Table created.

SQL> create index ind_1 on dh_stat(id) compute statistics;

Index created.

SQL> alter system flush shared_pool;

System altered.

SQL> exec DBMS_STATS.GATHER_TABLE_STATS(OWNNAME=>'sys',TABNAME=>'dh_stat',ESTIMATE_PERCENT=>30,METHOD_OPT=>'FOR ALL COLUMNS SIZE 1',NO_INVALIDATE=>FALSE,CASCADE=>TRUE,DEGREE => 1);

PL/SQL procedure successfully completed.

SQL> col name format a15
SQL> col name format a30
SQL> col sql_text for a55
SQL> select /* outlinetest1 */ * from dh_stat where id=771;

        ID NAME                           TYPE
---------- ------------------------------ -------------------
       771 SYS_IL0000000772C00002$$       INDEX

SQL> set lines 200
SQL> select sql_text,sql_id,hash_value,child_number from v$sql a where sql_text like '%outlinetest1%' and sql_text not like '%v$sql%';

SQL_TEXT                                                SQL_ID        HASH_VALUE CHILD_NUMBER
------------------------------------------------------- ------------- ---------- ------------
select /* outlinetest1 */ * from dh_stat where id=771 9a69w18a8uuhk 344812050            0

SQL> select * from table(dbms_xplan.display_cursor('9a69w18a8uuhk',null));

PLAN_TABLE_OUTPUT
-----------------------------------------------------------------------------
SQL_ID 9a69w18a8uuhk, child number 0
-------------------------------------
select /* outlinetest1 */ * from dh_stat where id=771

Plan hash value: 2780970545

---------------------------------------------------------------------------------------
| Id | Operation                   | Name    | Rows | Bytes | Cost (%CPU)| Time     |
---------------------------------------------------------------------------------------
|   0 | SELECT STATEMENT            |         |       |       |     2 (100)|          |
|   1 | TABLE ACCESS BY INDEX ROWID| DH_STAT |     1 |    39 |     2   (0)| 00:00:01 |

PLAN_TABLE_OUTPUT
----------------------------------------------------------------------------------------------------------
|* 2 |   INDEX RANGE SCAN          | IND_1   |     1 |       |     1   (0)| 00:00:01 |
---------------------------------------------------------------------------------------

Predicate Information (identified by operation id):
---------------------------------------------------

   2 - access("ID"=771)

19 rows selected.

---根据sql已经有的执行计划生成outline:

SQL> exec DBMS_OUTLN.create_outline(hash_value=>344812050,child_number => 0,category=>'TEST');

PL/SQL procedure successfully completed.

--查询outline情况：
SQL> select name,category,used,sql_text from dba_outlines;

NAME                           CATEGORY                       USED   SQL_TEXT
------------------------------ ------------------------------ ------ -------------------------------------------------------
SYS_OUTLINE_17090216454529101 TEST                           UNUSED select /* outlinetest1 */ * from dh_stat where id=771

此处outline的USED状态没有改变，因为我们没有激活TEST类别的outline，再次申明，outline必须通过use_stored_outlines参数激活后，优化器才会使用outline

---下面这一步激活TEST类别的OUTLINE，也可以在系统级激活OUTLINE
SQL> alter session set use_stored_outlines=TEST;

验证省略。。。。。。。。。。。

二、SQL_PROFILE

1、DBMS_SQLTUNE是10g引入的一个新特性，它可以通过自动优化性能较差SQL，并给出合理的优化建议，其中优化建议中的sql_profile文件它是一个存储在数据字典中的信息集合。sql_profile不包含单独的执行计划，提供数据库配置、绑定变量、优化统计信息、数据集等信息供优化器选择执行计划。这里不对SQL优化建议工具SQL Tuning Advisor STA）进行介绍，有兴趣的童鞋研究一下DBMS_SQLTUNE包。

语法：
SQL text format:

DBMS_SQLTUNE.CREATE_TUNING_TASK( sql_text IN CLOB, bind_list IN sql_binds := NULL, user_name IN VARCHAR2 := NULL, scope IN VARCHAR2 := SCOPE_COMPREHENSIVE, time_limit IN NUMBER := TIME_LIMIT_DEFAULT, task_name IN VARCHAR2 := NULL, description IN VARCHAR2 := NULL) RETURN VARCHAR2;

SQL ID format:

DBMS_SQLTUNE.CREATE_TUNING_TASK( sql_id IN VARCHAR2, plan_hash_value IN NUMBER := NULL, scope IN VARCHAR2 := SCOPE_COMPREHENSIVE, time_limit IN NUMBER := TIME_LIMIT_DEFAULT, task_name IN VARCHAR2 := NULL, description IN VARCHAR2 := NULL) RETURN VARCHAR2;

Workload Repository format:

DBMS_SQLTUNE.CREATE_TUNING_TASK( begin_snap IN NUMBER, end_snap IN NUMBER, sql_id IN VARCHAR2, plan_hash_value IN NUMBER := NULL, scope IN VARCHAR2 := SCOPE_COMPREHENSIVE, time_limit IN NUMBER := TIME_LIMIT_DEFAULT, task_name IN VARCHAR2 := NULL, description IN VARCHAR2 := NULL) RETURN VARCHAR2; 实验1：sql_id format 1. sys用户创建oracle优化任务(v_sqlid,task_name根据实际情况改变) set long 10000000 longchunksize 1000000 linesize 150 pagesize 0 serveroutput on size 1000000   verify off declare my_task_name varchar2(30); v_sqlid      varchar2(50); begin v_sqlid:='11wrxmug9y4a7'; my_task_name := dbms_sqltune.create_tuning_task                   (sql_id=> v_sqlid,                    scope => 'comprehensive',                    time_limit=>160,                    task_name=>'task_00000',                    description => 'tuning task'); dbms_sqltune.execute_tuning_task('task_00000');             end; / 注：dbms_sqltune.execute_tuning_task('task_00000')，是执行优化任务 2. 打印优化任务，里面有一些具体的改进措施 select dbms_sqltune.report_tuning_task('task_00000') from dual; 3.根据优化建议，绑定profile，理论上可提高语句执行效率 execute dbms_sqltune.accept_sql_profile(task_name => 'task_00000',task_owner => 'sys', replace => true); 实验2：sql_text format SQL> alter session set statistics_level=all; Session altered. SQL> set serveroutput off SQL> select * from scott.emp where ename='SCOTT' and DEPTNO=20;      EMPNO ENAME      JOB              MGR HIREDATE                   SAL       COMM     DEPTNO ---------- ---------- --------- ---------- ------------------- ---------- ---------- ----------       7788 SCOTT      ANALYST         7566 1987-04-19 00:00:00       3000                    20 SQL> SELECT * FROM table(dbms_xplan.display_cursor(NULL,NULL,'runstats_last')); PLAN_TABLE_OUTPUT -------------------------------------------------------------------------------- SQL_ID 4dsqbp572auuu, child number 0 ------------------------------------- select * from scott.emp where ename='SCOTT' and DEPTNO=20 Plan hash value: 3956160932 ------------------------------------------------------------------------------------ | Id | Operation         | Name | Starts | E-Rows | A-Rows |   A-Time   | Buffers | ------------------------------------------------------------------------------------ |   0 | SELECT STATEMENT |      |      1 |        |      1 |00:00:00.01 |       7 | |* 1 | TABLE ACCESS FULL| EMP |      1 |      1 |      1 |00:00:00.01 |       7 | PLAN_TABLE_OUTPUT --------------------------------------------------------- Predicate Information (identified by operation id): ---------------------------------------------------    1 - filter(("ENAME"='SCOTT' AND "DEPTNO"=20)) 18 rows selected. SQL> DECLARE my_task_name VARCHAR2(30); my_sqltext   CLOB; BEGIN my_sqltext := 'select * from scott.emp where ename= :name and DEPTNO= :deptno'; my_task_name := DBMS_SQLTUNE.CREATE_TUNING_TASK(          sql_text    => my_sqltext, bind_list   => sql_binds(anydata.convertvarchar2(10),anydata.convertnumber(2)),          user_name   => 'SYS',          scope       => 'COMPREHENSIVE',          time_limit => 60,          task_name   => 'test_sql_tuning',          description => 'Task to tune a query on emp'); END; / PL/SQL procedure successfully completed. 参数说明： bind_list：多个绑定变量以','逗号分隔。参数值一定要根据绑定变量对应的列的类型书写.如：emp.ename类型是VARCHAR2(10)，那么就要写成 bind_list =>sql_binds(anydata.convertvarchar2(10)), time_limit：执行的最长时间，默认是60。 scope：LIMITED，用大概1秒时间去优化SQL语句，但是并不进行SQL Profiling分析;COMPREHENSIVE，进行全面分析，包含SQL Profiling分析；比LIMITED用时更长。 --查看任务名 SQL> select task_name from dba_advisor_log where task_name='test_sql_tuning'; TASK_NAME ------------------------------ test_sql_tuning --执行sql tuning任务 SQL> exec DBMS_SQLTUNE.EXECUTE_TUNING_TASK( task_name => 'test_sql_tuning' ); PL/SQL procedure successfully completed. --查看sql tunning任务状态 SQL> select task_name,status from dba_advisor_log where task_name='test_sql_tuning'; TASK_NAME                      STATUS ------------------------------ ----------- test_sql_tuning                COMPLETED ----展示sql tunning结果 set long 10000 set longchunksize 1000 set linesize 100 select dbms_sqltune.report_tuning_task('test_sql_tuning') from dual; ...........省略 --根据建议accept_sql_profile execute dbms_sqltune.accept_sql_profile(.....) --完成后删除sql tunning任务 exec dbms_sqltune.drop_tuning_task('test_sql_tuning'); --查看SQL Tuning Advisor的进展（task执行很久） set lines 200 col opname for a20 col ADVISOR_NAME for a20 select sid,serial#,username,opname,advisor_name,target_desc,start_time sofar,totalwork from v$advisor_progress where username = 'SYS';

三、coe_xfr_sql_profile.sql固定执行计划（也是生成sql_profile）

--环境构建，建立测试表，与outline测试一样

create table zw as select * from dba_objects where object_id is not null;
alter table zw modify object_id not null;          --索引不存储null值
create index idx_zw_obj_id on zw(object_id);
analyze table zw compute statistics;

select count(*) from zw;

COUNT(*)
----------
    87038

SQL> select * from table(dbms_xplan.display_cursor(null,0));

PLAN_TABLE_OUTPUT
-----------------------------------------------------------------------------------
SQL_ID 1f5n0rapts695, child number 0
-------------------------------------
select count(*) from zw

Plan hash value: 1836624960

-------------------------------------------------------------------------------
| Id | Operation             | Name          | Rows | Cost (%CPU)| Time     |
-------------------------------------------------------------------------------
|   0 | SELECT STATEMENT      |               |       |    54 (100)|          |
|   1 | SORT AGGREGATE       |               |     1 |            |          |
|   2 |   INDEX FAST FULL SCAN| IDX_ZW_OBJ_ID | 87038 |    54   (0)| 00:00:01 |
-------------------------------------------------------------------------------

--使用hint提示，强制走全表，生成一个执行计划:

SQL> select /*+ full(zw) */ count(*)from zw;

COUNT(*)
----------
    87038

SQL> select * from table(dbms_xplan.display_cursor(null,0));

PLAN_TABLE_OUTPUT
---------------------------------------------------------------------
SQL_ID fp5ksbhww4594, child number 0
-------------------------------------
select /*+ full(zw) */ count(*)from zw

Plan hash value: 249608387

-------------------------------------------------------------------
| Id | Operation          | Name | Rows | Cost (%CPU)| Time     |
-------------------------------------------------------------------
|   0 | SELECT STATEMENT   |      |       |   339 (100)|          |
|   1 | SORT AGGREGATE    |      |     1 |            |          |
|   2 |   TABLE ACCESS FULL| ZW   | 87038 |   339   (1)| 00:00:05 |
-------------------------------------------------------------------

14 rows selected.

--运行coe_xfr_sql_profile脚本：(固定执行计划）

SQL> @coe_xfr_sql_profile.sql

Parameter 1:
SQL_ID (required)

Enter value for 1: 1f5n0rapts695                   --原sql的sql_id

PLAN_HASH_VALUE AVG_ET_SECS
--------------- -----------
    1836624960          .02

Parameter 2:
PLAN_HASH_VALUE (required)

Enter value for 2: 249608387                      --想要选择的执行计划的PLAN_HASH_VALUE值

Values passed to coe_xfr_sql_profile:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
SQL_ID         : "1f5n0rapts695"
PLAN_HASH_VALUE: "249608387"

SQL>BEGIN
2    IF :sql_text IS NULL THEN
3      RAISE_APPLICATION_ERROR(-20100, 'SQL_TEXT for SQL_ID &&sql_id. was not found in memory (gv$sqltext_with_newlines) or AWR (dba_hist_sqltext).');
4    END IF;
5 END;
6 /
SQL>SET TERM OFF;
SQL>BEGIN
2    IF :other_xml IS NULL THEN
3      RAISE_APPLICATION_ERROR(-20101, 'PLAN for SQL_ID &&sql_id. and PHV &&plan_hash_value. was not found in memory (gv$sql_plan) or AWR (dba_hist_sql_plan).');
4    END IF;
5 END;
6 /
SQL>SET TERM OFF;

Execute coe_xfr_sql_profile_1f5n0rapts695_249608387.sql
on TARGET system in order to create a custom SQL Profile
with plan 249608387 linked to adjusted sql_text.

COE_XFR_SQL_PROFILE completed.

SQL> @coe_xfr_sql_profile_1f5n0rapts695_249608387.sql

省略.................
coe_xfr_sql_profile_1f5n0rapts695_249608387 completed

SQL> explain plan for select count(*) from zw;

Explained.

SQL> select * from table(dbms_xplan.display());

PLAN_TABLE_OUTPUT
--------------------------------------------------------------------------------
Plan hash value: 249608387

-------------------------------------------------------------------
| Id | Operation       | Name | Rows | Cost (%CPU)| Time       |
-------------------------------------------------------------------
|   0| SELECT STATEMENT   |      |   1 | 312   (1)| 00:00:04 |
|   1| SORT AGGREGATE    |            |   1 |          |            |
|   2|   TABLE ACCESS FULL| ZW   | 87038 | 312   (1)| 00:00:04 |
-------------------------------------------------------------------

Note

PLAN_TABLE_OUTPUT
-------------------------------------------------------------------------------------
   -SQL profile "coe_1f5n0rapts695_249608387"used for this statement

--查询：
SQL> select name,category,status,sql_text from dba_sql_profiles;

NAME                                CATEGORY     STATUS SQL_TEXT
------------------------------      ------------      -------------------------------------------
coe_1f5n0rapts695_249608387    DEFAULE   ENABLED select count(*) from zw

当存在只有一个执行计划时，而又不想让应用不改sql代码的情况下改变执行计划，请参照自动/手动类型sql_profile(dbms_sqltune/coe_xfr_sql_profile.sql)

使用coe_xfr_sql_profile.sql固定计划是不是很好用呢？是的，这一切都归功于oracle mos上的功劳，需要的童鞋可以到matelink上查找和下载。还有其它两个有关的脚本：coe_load_sql_baseline.sql，coe_load_sql_profile.sql，有兴趣的童鞋可以一起下载研究。

思考：当在使用SQL_PROFILE绑定之前，使用了OUTLINE进行固定的话，谁的优先级高呢？
根据网上的一些资料说是OUTLINE的优先级最高，但都是简短的一句话，没有证明。可是经过我无数次的测试，发现都是SQL_PROFILE的优先级较高，具体相关测试结果我就不粘贴出来了。(或许是我测试语句的特殊性，需再进一步验证)

值得一提的是，sql_profile并不会以outline方式存储冻结执行计划，当表中数据增长或索引被删除或重建时，在sql_profile不变的情况下执行计划也可以发生变化，信息的存储和与数据的分布或者访问路径有关。

四、SQL PLAN MANAGE(baseline)

1、从11g开始，oracle引入了SQL执行计划管理（SQLPlan Management）这个新特性，与Oracle 9i 的outline和10g 的profile相比，Oracle 11g的SPM相对更加的灵活，允许你同时接受多个执行计划。

2、使用SQL PlanManagement固定执行计划

--一条带有绑定变量的SQL语句，但数据分布不均，严重倾斜时，最好的执行计划会根据绑定变量的值而不同。执行时，根据不同的变量值，SPM会花费很少的运算从中选择一条最合适的。
SQL> select id,count(*) from test group by id order by 2;

         ID   COUNT(*)
---------- ----------
         10      1100
         88      10100
         999     1000000

--接下来定义一个变量a,分别赋值999和10，看它的执行计划是如何的
SQL>alter system flush shared_pool;
SQL>var a1 number;
SQL>exec :a1:=999;
SQL>select t.* from test t wheret.id=:a1;

1000000 rows selected.

Elapsed: 00:00:25.30

SQL> select * from table(dbms_xplan.display_cursor(null,0));

PLAN_TABLE_OUTPUT
--------------------------------------------------------------------------------
SQL_ID   cpsdn05zdq02p,child number 0
-------------------------------------
select t.* from test t where t.id=:a1

Plan hash value: 1357081020

--------------------------------------------------------------------------
| Id | Operation      | Name | Rows | Bytes | Cost (%CPU)| Time   |
--------------------------------------------------------------------------
|   0| SELECT STATEMENT |       |     |      | 424 (100)|      |
|* 1| TABLE ACCESS FULL| TEST |   337K| 1316K|   424   (2)| 00:00:06 |

PLAN_TABLE_OUTPUT
--------------------------------------------------------------------------------

Predicate Information (identified byoperation id):
---------------------------------------------------

   1- filter("T"."ID"=:A1)

-##########################ID列上有个索引IDX_ID ################################
SQL>alter system flush shared_pool;
SQL>var a1 number;
SQL>exec :a1:=10;
SQL>select t.* from test t wheret.id=:a1;

1100 rows selected.

Elapsed: 00:00:00.04

SQL> select * fromtable(dbms_xplan.display_cursor(null,0));

PLAN_TABLE_OUTPUT
--------------------------------------------------------------------------------
SQL_ID     cpsdn05zdq02p,child number 0
-------------------------------------
select t.* from test t where t.id=:a1

Plan hash value: 1357081020

--------------------------------------------------------------------------
| Id | Operation      | Name | Rows | Bytes | Cost (%CPU)| Time   |
--------------------------------------------------------------------------
|   0| SELECT STATEMENT |       |     |      | 424 (100)|      |
|* 1| TABLE ACCESS FULL| TEST |   337K| 1316K|   424   (2)| 00:00:06 |

PLAN_TABLE_OUTPUT
--------------------------------------------------------------------------------

Predicate Information (identified byoperation id):
---------------------------------------------------

   1- filter("T"."ID"=:A1)

--这里可以看到，无论赋值是999还是10，其执行计划都是一样的，但根据理论来说，我们都知道，id=10时走索引效率是最好的。假设数据是均匀分布的，那么基数评估cardinality=density*num_rows。Density可通过user_tab_col_statistics查询。

select column_name,num_distinct,density from user_tab_col_statistics where table_name='TEST';

COLUMN_NAME                      NUM_DISTINCT    DENSITY
------------------------------    -------------   ---------
ID                                 3                .333333333

--我们看到的Rows列预估的337k就是cardinality=density*num_rows=0.3333*1011200约等于337k行，
--但是我们都知道ID=10只有1100行，而ID=999有1000000行，所以当ID=10的时候走索引全扫描，ID=999的时候走全表扫描是最合理的执行计划。

那么面对这种情况，我们该如何让这种情况下的执行计划达到最优呢？方法有如下几个：
--1、去除绑定变量，直接硬解析的方式（非理想的，如果涉及要该程序代码这是很不可取的）
--2、启用11g的新特性ACS（自适应游标，这个BUG不是一般的多，不建议启用）
--3、收集直方图信息（如果在生产高峰期，收集直方图信息所占资源无法评估）
--4、使用SPM把不同的执行计划加入到SQLPlan Baseline中。

--使用手工捕获的方式
alter system flush shared_pool;
var a1 number;
exec :a1:=999;
select t.* from test t where t.id=:a1;
select * fromtable(dbms_xplan.display_cursor(null,0));

var temp varchar2(1000);
exec :temp:=dbms_spm.load_plans_from_cursor_cache(sql_id => 'cpsdn05zdq02p');
exec :temp :=dbms_spm.alter_sql_plan_baseline(sql_handle=>'SQL_d230ce970caa0077',plan_name=>'SQL_PLAN_d4c6fkw6an03r97bbe3d0',attribute_name=>'ENABLED',attribute_value=>'NO');         --先修改全表扫描的sql planbaselines的enabled属性为NO，不然捕获不了索引的。

exec :a1:=10;
select t.* from test t where t.id=:a1;
select * fromtable(dbms_xplan.display_cursor(null,0));

exec :temp:=dbms_spm.load_plans_from_cursor_cache(sql_id => 'cpsdn05zdq02p');
dbms_spm.alter_sql_plan_baseline(sql_handle=>'SQL_d230ce970caa0077',plan_name=>'SQL_PLAN_d4c6fkw6an03r97bbe3d0',attribute_name=>'ENABLED',attribute_value=>'YES');

SQL> select sql_handle,plan_name,origin,enabled,accepted,fixed from dba_sql_plan_baselines;

SQL_HANDLE        PLAN_NAME                        ORIGIN       ENA ACC FIX
-------------------------------------------------- -------------- --- --- ---
SQL_d230ce970caa0077SQL_PLAN_d4c6fkw6an03r97bbe3d0 MANUAL-LOAD   YES YES NO
SQL_d230ce970caa0077SQL_PLAN_d4c6fkw6an03rf98b55bb MANUAL-LOAD   YES YES NO

--验证结果：
SQL> var a1 number;
SQL> exec :a1:=10;
SQL> select t.* from test t wheret.id=:a1;
SQL> select * fromtable(dbms_xplan.display_cursor(null,0));

PLAN_TABLE_OUTPUT
--------------------------------------------------------------------------------
SQL_ID     cpsdn05zdq02p,child number 0
-------------------------------------
select t.* from test t where t.id=:a1

Plan hash value: 578627003

---------------------------------------------------------------------------
| Id | Operation     | Name   | Rows | Bytes | Cost (%CPU)| Time         |
---------------------------------------------------------------------------
|   0| SELECT STATEMENT |            |     |     |   5(100)|     |
|* 1| INDEX RANGE SCAN| IDX_ID | 1280 | 5120 | 5   (0)| 00:00:01 |

PLAN_TABLE_OUTPUT
--------------------------------------------------------------------------------
Predicate Information (identified byoperation id):
---------------------------------------------------

   1- access("T"."ID"=:A1)

Note
-----
   -SQL plan baseline SQL_PLAN_d4c6fkw6an03rf98b55bbused for this statement

22 rows selected.

SQL> var a1 number;
SQL> exec :a1:=999;
SQL> select t.* from test t wheret.id=:a1;
SQL> select * fromtable(dbms_xplan.display_cursor(null,0));

PLAN_TABLE_OUTPUT
--------------------------------------------------------------------------------
SQL_ID     cpsdn05zdq02p,child number 0
-------------------------------------
select t.* from test t where t.id=:a1

Plan hash value: 1357081020

--------------------------------------------------------------------------
| Id | Operation      | Name | Rows | Bytes | Cost (%CPU)| Time   |
--------------------------------------------------------------------------
|   0| SELECT STATEMENT |       |     |      | 424 (100)|      |
|* 1| TABLE ACCESS FULL| TEST | 1001K| 3912K|   424   (2)| 00:00:06 |

PLAN_TABLE_OUTPUT
--------------------------------------------------------------------------------
Predicate Information (identified byoperation id):
---------------------------------------------------

   1- filter("T"."ID"=:A1)

Note
-----
   -SQL plan baseline SQL_PLAN_d4c6fkw6an03r97bbe3d0used for this statement

22 rows selected.

SPM的灵活之处在于，可以动态管理，不像存储大纲（stored outline）和SQL Profile需要DBA手工创建，当然SPM也可以，因为我在以上演示中也没让它自动捕获。

思考：1、何种情况下使用什么固定执行计划的方法更加有效？2、在各种固定执行计划都使用的情况下，那种优先级更高？

向AI问一下细节

执行计划绑定

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