postgresql找到表中重复数据的行并删除

创建测试表并插入数据

create table aaa(id bigserial,col1 varchar(255));
insert into aaa values(1,'b'),(2,'a'),(3,'b'),(4,'c');
select * from aaa;

找到重复行并删除

方法1:ctid表示数据行在它所处的表内的物理位置,ctid由两个数字组成,第一个数字表示物理块号,第二个数字表示在物理块中的行号。

select * from aaa where ctid not in(select max(ctid) from aaa group by col1);

删除重复行

delete from aaa where ctid not in(select max(ctid) from aaa group by col1);

方法2:利用exists

找到重复行

select * from aaa t1 where  exists (select 1 from aaa t2 where t1.col1=t2.col1 and t1.id<t2.id )----exists后的意思是同一列相等,但是自增id不相等且id小的那一个

删除重复行

delete from aaa t1 where  exists (select 1 from aaa t2 where t1.col1=t2.col1 and t1.id<t2.id )

postgresql常用的删除重复数据方法

最高效方法

测试环境验证,6600万行大表,删除2200万重复数据仅需3分钟

delete from deltest a where a.ctid = any(array (select ctid from (select row_number() over (partition by id), ctid from deltest) t where t.row_number > 1));

PG中三种删除重复数据方法

首先创建一张基础表,并插入一定量的重复数据。

create table deltest(id int, name varchar(255));
create table deltest_bk (like deltest);
insert into deltest select generate_series(1, 10000), 'ZhangSan';
insert into deltest select generate_series(1, 10000), 'ZhangSan';
insert into deltest_bk select * from deltest;

1. 常规删除方法

最容易想到的方法就是判断数据是否重复,对于重复的数据只保留ctid最小(或最大)的数据,删除其他的。

explain analyse delete from deltest a where a.ctid <> (select min(t.ctid) from deltest t where a.id=t.id);
-------------------------------------------------------------------------------------------
    Delete on deltest a  (cost=0.00..195616.30 rows=1518 width=6) (actual time=67758.866..67758.866 rows=0 loops=1)
       ->  Seq Scan on deltest a  (cost=0.00..195616.30 rows=1518 width=6) (actual time=32896.517..67663.228 rows=10000 loops=1)
         Filter: (ctid <> (SubPlan 1))
         Rows Removed by Filter: 10000
         SubPlan 1
           ->  Aggregate  (cost=128.10..128.10 rows=1 width=6) (actual time=3.374..3.374 rows=1 loops=20000)
                 ->  Seq Scan on deltest t  (cost=0.00..128.07 rows=8 width=6) (actual time=0.831..3.344 rows=2 loops=20000)
                       Filter: (a.id = id)
                       Rows Removed by Filter: 19998
Total runtime: 67758.931 ms
select count(*) from deltest;
count
-------
10000

可以看到,id相同的数据,保留ctid最小的,其他的删除。相当于把deltest表中的数据删掉一半,耗时达到67s多。相当慢。

2. group by删除方法

group by方法通过分组找到ctid最小的数据,然后删除其他数据。

explain analyse delete from deltest a where a.ctid not in (select min(ctid) from deltest group by id);
-------------------------------------------------------------------------------------------
    Delete on deltest a  (cost=131.89..2930.46 rows=763 width=6) (actual time=30942.496..30942.496 rows=0 loops=1)
       ->  Seq Scan on deltest a  (cost=131.89..2930.46 rows=763 width=6) (actual time=10186.296..30814.366 rows=10000 loops=1)
         Filter: (NOT (SubPlan 1))
         Rows Removed by Filter: 10000
         SubPlan 1
           ->  Materialize  (cost=131.89..134.89 rows=200 width=10) (actual time=0.001..0.471 rows=7500 loops=20000)
                 ->  HashAggregate  (cost=131.89..133.89 rows=200 width=10) (actual time=10.568..13.584 rows=10000 loops=1)
                       ->  Seq Scan on deltest  (cost=0.00..124.26 rows=1526 width=10) (actual time=0.006..3.829 rows=20000 loops=1)
     Total runtime: 30942.819 ms
select count(*) from deltest;
count
-------
10000

可以看到同样是删除一半的数据,使用group by的方式,时间节省了一半。但仍含需要30s,下面试一下第三种删除操作。

3. 高效删除方法

explain analyze delete from deltest a where a.ctid = any(array (select ctid from (select row_number() over (partition by id), ctid from deltest) t where t.row_number > 1));
-----------------------------------------------------------------------------------------
    Delete on deltest a  (cost=250.74..270.84 rows=10 width=6) (actual time=98.363..98.363 rows=0 loops=1)
    InitPlan 1 (returns 0)−>SubqueryScanont(cost=204.95..250.73rows=509width=6)(actualtime=29.446..47.867rows=10000loops=1)Filter:(t.rownumber>1)RowsRemovedbyFilter:10000−>WindowAgg(cost=204.95..231.66rows=1526width=10)(actualtime=29.436..44.790rows=20000loops=1)−>Sort(cost=204.95..208.77rows=1526width=10)(actualtime=12.466..13.754rows=20000loops=1)SortKey:deltest.idSortMethod:quicksortMemory:1294kB−>SeqScanondeltest(cost=0.00..124.26rows=1526width=10)(actualtime=0.021..5.110rows=20000loops=1)−>TidScanondeltesta(cost=0.01..20.11rows=10width=6)(actualtime=82.983..88.751rows=10000loops=1)TIDCond:(ctid=ANY(0)−>SubqueryScanont(cost=204.95..250.73rows=509width=6)(actualtime=29.446..47.867rows=10000loops=1)Filter:(t.rownumber>1)RowsRemovedbyFilter:10000−>WindowAgg(cost=204.95..231.66rows=1526width=10)(actualtime=29.436..44.790rows=20000loops=1)−>Sort(cost=204.95..208.77rows=1526width=10)(actualtime=12.466..13.754rows=20000loops=1)SortKey:deltest.idSortMethod:quicksortMemory:1294kB−>SeqScanondeltest(cost=0.00..124.26rows=1526width=10)(actualtime=0.021..5.110rows=20000loops=1)−>TidScanondeltesta(cost=0.01..20.11rows=10width=6)(actualtime=82.983..88.751rows=10000loops=1)TIDCond:(ctid=ANY(0))
    Total runtime: 98.912 ms
select count(*) from deltest;
count
-------
10000

可以看到,居然只要98ms

总结

以上为个人经验,希望能给大家一个参考,也希望大家多多支持萤火虫技术。

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