一、查询索引的高度
select index_name,
blevel,
leaf_blocks,
num_rows,
distinct_keys,
clustering_factor
from user_ind_statistics
where table_name in( 'T1','T2','T3');
2. 索引存储列值(可优化聚合)
2.1索引特性之存列值优化count
drop table t purge;
create table t as select * from dba_objects;
update t set object_id=rownum;
commit;
create index idx1_object_id on t(object_id);
set autotrace on
select count(*) from t;
--count无法用到
修改代码让count用到索引
select count(*) from t where object_id is not null;
修改代码让count用到索引
修改代码让count用到索引
alter table t modify OBJECT_ID not null;
select count(*) from t;
2.2主键让count用到索引
drop table t purge;
create table t as select * from dba_objects;
update t set object_id=rownum;
alter table t add constraint pk1_object_id primary key (OBJECT_ID);
set autotrace on
select count(*) from t;
2.3索引特性之存列值优化sum avg
drop table t purge;
create table t as select * from dba_objects;
create index idx1_object_id on t(object_id);
set autotrace on
set linesize 1000
set timing on
select sum(object_id) from t;
2.4sum avg不走索引的代价
select /*+full(t)*/ sum(object_id) from t;
3 索引本身有序(可优化排序)
3.1索引特性之有序优化order by
set autotrace traceonly
set linesize 1000
drop table t purge;
create table t as select * from dba_objects;
select * from t where object_id>2 order by object_id;
--无索引的order by 语句必然会排序
索引让order by 语句排序消失
create index idx_t_object_id on t(object_id);
set autotrace traceonly
select * from t where object_id>2 order by object_id;
3.2 索引特性之有序优化Max/Min
--MAX/MIN 的索引优化
drop table t purge;
create table t as select * from dba_objects;
update t set object_id=rownum;
alter table t add constraint pk_object_id primary key (OBJECT_ID);
set autotrace on
set linesize 1000
select max(object_id) from t;
MAX/MIN 语句用不到索引性能低下
select /*+full(t)*/ max(object_id) from t;
3.3 MAX/MIN 用索引与数据量增加的影响
set autotrace off
drop table t_max purge;
create table t_max as select * from dba_objects;
insert into t_max select * from t_max;
insert into t_max select * from t_max;
insert into t_max select * from t_max;
insert into t_max select * from t_max;
insert into t_max select * from t_max;
select count(*) from t_max;
create index idx_t_max_obj on t_max(object_id);
set autotrace on
select max(object_id) from t_max;
4 组合索引选用
4.1 仅等值无范围查询时,组合的顺序不影响性能
drop table t purge;
create table t as select * from dba_objects;
insert into t select * from t;
insert into t select * from t;
insert into t select * from t;
update t set object_id=rownum ;
commit;
create index idx_id_type on t(object_id,object_type);
create index idx_type_id on t(object_type,object_id);
set autotrace off
alter session set statistics_level=all ;
set linesize 366
type_id,id顺序组合索引
select /*+index(t,idx_id_type)*/ * from t where object_id=20 and object_type='TABLE';
select * from table(dbms_xplan.display_cursor(null,null,'allstats last'));
--id、type_id顺序组合索引
select /*+index(t,idx_type_id)*/ * from t where object_id=20 and object_type='TABLE';
select * from table(dbms_xplan.display_cursor(null,null,'allstats last'));
4.2 组合索引最佳顺序一般是将等值查询的列置前
将等值查询的列置前
select /*+index(t,idx_id_type)*/ * from t where object_id>=20 and object_id<2000 and object_type='TABLE';
select * from table(dbms_xplan.display_cursor(null,null,'allstats last'));
将等值查询的列置后
select /*+index(t,idx_type_id)*/ * from t where object_id>=20 and object_id<2000 and object_type='TABLE';