作者: pcbird98
Oracle9i新增了WITH语法功能,可以将查询中的子查询命名,放到SELECT语句的最前面。
下面看一个简单的例子:
代码: SQL> WITH 2 SEG AS (SELECT SEGMENT_NAME, SUM(BYTES)/1024 K FROM USER_SEGMENTS GROUP BY SEGMENT_NAME), 3 OBJ AS (SELECT OBJECT_NAME, OBJECT_TYPE FROM USER_OBJECTS) 4 SELECT O.OBJECT_NAME, OBJECT_TYPE, NVL(S.K, 0) SIZE_K 5 FROM OBJ O, SEG S 6 WHERE O.OBJECT_NAME = S.SEGMENT_NAME (+) 7 ; OBJECT_NAME OBJECT_TYPE SIZE_K DAIJC_TEST TABLE 128 P_TEST PROCEDURE 0 IND_DAIJC_TEST_C1 INDEX 128
通过WITH语句定义了两个子查询SEG和OBJ,在随后的SELECT语句中可以直接对预定义的子查询进行查询。从上面的例子也可以看出,使用WITH语句,将一个包含聚集、外连接等操作SQL清晰的展现出来。
WITH定义的子查询不仅可以使查询语句更加简单、清晰,而且WITH定义的子查询还具有在SELECT语句的任意层均可见的特点。
即使是在WITH的定义层中,后定义的子查询都可以使用前面已经定义好的子查询:
代码: SQL> WITH 2 Q1 AS (SELECT 3 + 5 S FROM DUAL), 3 Q2 AS (SELECT 3 * 5 M FROM DUAL), 4 Q3 AS (SELECT S, M, S + M, S * M FROM Q1, Q2) 5 SELECT * FROM Q3; S M S+M S*M 8 15 23 120
利用WITH定义查询中出现多次的子查询还能带来性能提示。Oracle会对WITH进行性能优化,当需要多次访问WITH定义的子查询时,Oracle会将子查询的结果放到一个临时表中,避免同样的子查询多次执行,从而有效的减少了查询的IO数量。
看一个简单的例子,首先构造一张大表,现在要取出大表中ID最小、ID最大以及ID等于平均值的记录,看看普通写法和WITH语句的区别:
代码: SQL> CREATE TABLE T_WITH AS SELECT ROWNUM ID, A.* FROM DBA_SOURCE A WHERE ROWNUM < 100001; 表已创建。 SQL> SET TIMING ON SQL> SET AUTOT ON SQL> SELECT ID, NAME FROM T_WITH 2 WHERE ID IN 3 ( 4 SELECT MAX(ID) FROM T_WITH 5 UNION ALL 6 SELECT MIN(ID) FROM T_WITH 7 UNION ALL 8 SELECT TRUNC(AVG(ID)) FROM T_WITH 9 ); ID NAME 1 STANDARD 50000 DBMS_BACKUP_RESTORE 100000 INITJVMAUX 已用时间: 00: 00: 00.09 执行计划 Plan hash value: 647530712 ----------------------------------------------------------- | Id | Operation | Name | Rows | Bytes | ----------------------------------------------------------- | 0 | SELECT STATEMENT | | 3 | 129 | |* 1 | HASH JOIN | | 3 | 129 | | 2 | VIEW | VW_NSO_1 | 3 | 39 | | 3 | HASH UNIQUE | | 3 | 39 | | 4 | UNION-ALL | | | | | 5 | SORT AGGREGATE | | 1 | 13 | | 6 | TABLE ACCESS FULL| T_WITH | 112K| 1429K| | 7 | SORT AGGREGATE | | 1 | 13 | | 8 | TABLE ACCESS FULL| T_WITH | 112K| 1429K| | 9 | SORT AGGREGATE | | 1 | 13 | | 10 | TABLE ACCESS FULL| T_WITH | 112K| 1429K| | 11 | TABLE ACCESS FULL | T_WITH | 112K| 3299K| ----------------------------------------------------------- Predicate Information (identified by operation id): --------------------------------------------------- 1 - access("ID"="$nso_col_1") Note ----- - dynamic sampling used for this statement 统计信息 ---------------------------------------------------------- 0 recursive calls 0 db block gets 5529 consistent gets 0 physical reads 0 redo size 543 bytes sent via SQL*Net to client 385 bytes received via SQL*Net from client 2 SQL*Net roundtrips to/from client 0 sorts (memory) 0 sorts (disk) 3 rows processed 为了避免第一次执行时物理读的影响,查询结果选取了SQL的第三次运行,物理读为0时的统计信息。
观察执行计划可以看到,先后对T_WITH表进行了4次全表扫描,并产生了5529个逻辑读。下面看看WITH语句的表现:
代码: SQL> WITH 2 AGG AS (SELECT MAX(ID) MAX, MIN(ID) MIN, TRUNC(AVG(ID)) AVG FROM T_WITH) 3 SELECT ID, NAME FROM T_WITH 4 WHERE ID IN 5 ( 6 SELECT MAX FROM AGG 7 UNION ALL 8 SELECT MIN FROM AGG 9 UNION ALL 10 SELECT AVG FROM AGG 11 ); ID NAME ---------- ------------------------------ 1 STANDARD 50000 DBMS_BACKUP_RESTORE 100000 INITJVMAUX 已用时间: 00: 00: 00.07 执行计划 ---------------------------------------------------------- Plan hash value: 1033356310 ---------------------------------------------------------------------------------- | Id | Operation | Name | Rows | Bytes | ---------------------------------------------------------------------------------- | 0 | SELECT STATEMENT | | 3 | 129 | | 1 | TEMP TABLE TRANSFORMATION | | | | | 2 | LOAD AS SELECT | T_WITH | | | | 3 | SORT AGGREGATE | | 1 | 13 | | 4 | TABLE ACCESS FULL | T_WITH | 112K| 1429K| |* 5 | HASH JOIN | | 3 | 129 | | 6 | VIEW | VW_NSO_1 | 3 | 39 | | 7 | HASH UNIQUE | | 3 | 39 | | 8 | UNION-ALL | | | | | 9 | VIEW | | 1 | 13 | | 10 | TABLE ACCESS FULL | SYS_TEMP_0FD9D662E_BF2EDF12 | 1 | 13 | | 11 | VIEW | | 1 | 13 | | 12 | TABLE ACCESS FULL | SYS_TEMP_0FD9D662E_BF2EDF12 | 1 | 13 | | 13 | VIEW | | 1 | 13 | | 14 | TABLE ACCESS FULL | SYS_TEMP_0FD9D662E_BF2EDF12 | 1 | 13 | | 15 | TABLE ACCESS FULL | T_WITH | 112K| 3299K| ---------------------------------------------------------------------------------- Predicate Information (identified by operation id): --------------------------------------------------- 5 - access("ID"="$nso_col_1") Note ----- - dynamic sampling used for this statement 统计信息 ---------------------------------------------------------- 2 recursive calls 8 db block gets 2776 consistent gets 1 physical reads 648 redo size 543 bytes sent via SQL*Net to client 385 bytes received via SQL*Net from client 2 SQL*Net roundtrips to/from client 0 sorts (memory) 0 sorts (disk) 3 rows processed
观察这次的执行计划,发现只对T_WITH表进行了两次全表扫描,而从逻辑读上也可以观察到,这次只产生了2776的逻辑读,正好是上面不使用WITH语句的一半。
通过分析执行计划,Oracle执行了WITH子查询一次,并将结果放到了临时表中,在随后对子查询的多次访问中,都从临时表中直接读取了数据,这应该也是那1个物理读的由来。
通过上面的例子可以看到,将子查询放到WITH语句中不仅可以简化查询语句的结构,对于子查询需要多次执行的情况,还有可能提示查询的性能。
可惜的是,WITH语句只能用在SELECT语句中,UPDATE和DELETE语句不支持WITH语法:
代码: SQL> SET AUTOT OFF SQL> SET TIMING OFF SQL> WITH SUBQ AS (SELECT 1 FROM DUAL) 2 SELECT ID, NAME FROM T_WITH WHERE ID IN (SELECT * FROM SUBQ); ID NAME ---------- ------------------------------ 1 STANDARD SQL> WITH SUBQ AS (SELECT 1 FROM DUAL) 2 UPDATE T_WITH SET ID = 1 WHERE ID IN (SELECT * FROM SUBQ); UPDATE T_WITH SET ID = 1 WHERE ID IN (SELECT * FROM SUBQ) *第 2 行出现错误: ORA-00928: 缺失 SELECT 关键字 SQL> WITH SUBQ AS (SELECT 1 FROM DUAL) 2 DELETE T_WITH WHERE ID IN (SELECT * FROM SUBQ); DELETE T_WITH WHERE ID IN (SELECT * FROM SUBQ) *第 2 行出现错误: ORA-00928: 缺失 SELECT 关键字
原文:http://clsoftprog.blog.ccidnet.com/blog-htm-itemid-103486-do-showone-type-blog-uid-39904.html
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