I have duplicate rows in my table and I want to delete duplicates in the most efficient way since the table is big. After some research, I have come up with this query:

SELECT name, ROW_NUMBER() OVER(PARTITION by name, address, zipcode ORDER BY name) AS duplicateRecCount
FROM mytable
-- Now Delete Duplicate Records
WHERE duplicateRecCount > 1;

But it only works in SQL, not in Netezza. It would seem that it does not like the DELETE after the WITH clause?

  • If it's a one time job - why wouldn't you run it in postgresql console? – zerkms Nov 6 '14 at 0:02
  • not it is not one time job but it is weekly and we always get some duplicate values. thanks – moe Nov 6 '14 at 0:06
  • 3
    why do you get duplicate values? What if you just don't put it there at first place? – zerkms Nov 6 '14 at 3:02
  • Are duplicates defined by the columns (name, address, zipcode)? Are there other columns? Are those irrelevant? Different? Is any combination of columns unique? If some columns differ between duplicates, which row out of each set do you want to keep? – Erwin Brandstetter Nov 6 '14 at 6:13
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    WORKS FOR POSTGRESQL (ALSO WORKS IN AWS REDSHIFT) View the answer to this question on another page – Golokesh Patra Aug 10 '17 at 9:02

I like @erwin-brandstetter 's solution, but wanted to show a solution with the USING keyword:

DELETE   FROM table_with_dups T1
  USING       table_with_dups T2
WHERE  T1.ctid    < T2.ctid       -- delete the "older" ones
  AND  T1.name    = T2.name       -- list columns that define duplicates
  AND  T1.address = T2.address
  AND  T1.zipcode = T2.zipcode;

If you want to review the records before deleting them, then simply replace DELETE with SELECT * and USING with a comma ,, i.e.

SELECT * FROM table_with_dups T1
  ,           table_with_dups T2
WHERE  T1.ctid    < T2.ctid       -- select the "older" ones
  AND  T1.name    = T2.name       -- list columns that define duplicates
  AND  T1.address = T2.address
  AND  T1.zipcode = T2.zipcode;

Update: I tested some of the different solutions here for speed. If you don't expect many duplicates, then this solution performs much better than the ones that have a NOT IN (...) clause as those generate a lot of rows in the subquery.

If you rewrite the query to use IN (...) then it performs similarly to the solution presented here, but the SQL code becomes much less concise.

Update 2: If you have NULL values in one of the key columns (which you really shouldn't IMO), then you can use COALESCE() in the condition for that column, e.g.

  AND COALESCE(T1.col_with_nulls, '[NULL]') = COALESCE(T2.col_with_nulls, '[NULL]')
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    Erwin's answer is better because it handles NULL values correctly and does not require typing in the column names twice. – Gordon Linoff Oct 19 '17 at 18:52
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    As I've written in the beginning of my answer: I like @erwin-brandstetter 's solution, but wanted to show a solution .... Upon finding the performance benefits though, I like the USING solution better, especially for large tables. I added an example that shows how to deal with NULL values. – isapir Oct 19 '17 at 19:05
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    Very nice, especially the possibility to have a look first. To check for NULL values in the data columns, I generated a T1.col = T2.col OR (T1.col IS NULL AND T2.col IS NULL) criterion for each column, based on the \dS output of my table. Now I can add my primary key constraint. – Tobias Mar 13 '18 at 14:30
  • You can test the NULL values with coalesce(), as desired in Update 2 of my answer. – isapir Mar 13 '18 at 14:34
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    Thanks, this proved much faster than other solutions. I gave up after 1 hour for some of the versions out there, this was done almost instantly – user1978816 Oct 18 '18 at 14:13

If you have no other unique identifier, you can use ctid:

delete from mytable
    where exists (select 1
                  from mytable t2
                  where t2.name = mytable.name and
                        t2.address = mytable.address and
                        t2.zip = mytable.zip and
                        t2.ctid > mytable.ctid

It is a good idea to have a unique, auto-incrementing id in every table. Doing a delete like this is one important reason why.

  • i don't have any field called ctid in my table can you explain where you got this? thanks – moe Nov 6 '14 at 0:34
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    ctid is a hidden field. It does not show up when you retrieve the table definition. It is a kind of internal row number. – wildplasser Nov 6 '14 at 1:14
  • @moe . . . The documentation is here: postgresql.org/docs/9.2/static/ddl-system-columns.html. – Gordon Linoff Nov 6 '14 at 2:03
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    where not exists will delete the rows without duplicates. Should be where exists (select 1 ` – Juan Carlos Oropeza Mar 4 '16 at 15:39
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    @GordonLinoff - Thanks for clarifying. I know that it's off-topic; that's what OT: stands for in the prefix of my question ;) – isapir Oct 20 '17 at 16:11

In a perfect world, every table has a unique identifier of some sort.
In the absence of any unique column (or combination thereof), use the ctid column:

WHERE  ctid NOT IN (
   SELECT min(ctid)                    -- ctid is NOT NULL by definition
   FROM   tbl
   GROUP  BY name, address, zipcode);  -- list columns defining duplicates

The above query is short, conveniently listing column names only once. NOT IN (SELECT ...) is a tricky query style when NULL values can be involved, but the system column ctid is never NULL. See:

Using EXISTS as demonstrated by @Gordon is typically faster. So is a self-join with the USING clause like @isapir added later. Both should result in the same query plan.

But note an important difference: These other queries treat NULL values as not equal, while GROUP BY (or DISTINCT or DISTINCT ON ()) treats NULL values as equal. Does not matter if key columns are defined NOT NULL. Else, depending on your definition of "duplicate", you'll need one or the other approach. Or use IS NOT DISTINCT FROM in comparison of values (which may not be able to use some indexes).


ctid is an internal implementation detail of Postgres, it's not in the SQL standard and can be changed between major versions without warning (even if that's very unlikely). Its values can change between commands due to background processes or concurrent write operations (but not within the same command).



The target of a DELETE statement cannot be the CTE, only the underlying table. That's a spillover from SQL Server - as is your whole approach.

  • I like this solution because it's very concise. Any thoughts about the performance of the solution that I posted below? stackoverflow.com/a/46775289/968244 – isapir Oct 16 '17 at 17:04
  • I was actually able to test it. I have a table with about 350k rows and it had 39 duplicates over 7 columns with no indices. I tried the GROUP BY solution first and it was taking over 30 seconds so I killed it. I then tried the USING solution and it completed in about 16 seconds. – isapir Oct 16 '17 at 17:15
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    @isapir: Like I mentioned back in 2014: NOT IN is conveniently short syntax, but EXISTS is faster. (Same as your completely valid query with the USING clause.) But there is a subtle difference. I added a note above. – Erwin Brandstetter Oct 17 '17 at 4:01
  • Cool. Thanks for clarifying. – isapir Oct 17 '17 at 4:41

Here is what I came up with, using a group by

WHERE id NOT in (
  FROM mytable
  GROUP BY name, address, zipcode

It deletes the duplicates, preserving the oldest record that has duplicates.

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    i don't have id in my table, this is netezza database they don't have auto-increment numbers like sql server – moe Nov 6 '14 at 0:35
  • does it have another column that uniquely identifies rows? – Bruno Calza Nov 6 '14 at 0:37
  • The HAVING clause is noise for this query. The count for every existing id is >= 1 in any case. You can remove it. – Erwin Brandstetter Nov 6 '14 at 6:33

We can use a window function for very effective removal of duplicate rows:

                  FROM (SELECT row_number() OVER (PARTITION BY column_with_duplicate_values), id 
                           FROM tab) x 
                 WHERE x.row_number > 1);

Some PostgreSQL's optimized version (with ctid):

                  FROM (SELECT row_number() OVER (PARTITION BY column_with_duplicate_values), ctid 
                           FROM tab) x 
                 WHERE x.row_number > 1));

If you want to keep one row out of duplicate rows in the table.

create table some_name_for_new_table as 
(select * from (select *,row_number() over (partition by pk_id) row_n from 
your_table_name_where_duplicates_are_present) a where row_n = 1);

This will create a table which you can copy.

Before copying table please delete the column 'row_n'


The valid syntax is specified at http://www.postgresql.org/docs/current/static/sql-delete.html

I would ALTER your table to add a unique auto-incrementing primary key id so that you can run a query like the following which will keep the first of each set of duplicates (ie the one with the lowest id). Note that adding the key is a bit more complicated in Postgres than some other DBs.

  SELECT min(id), name, address, zip 
  FROM mytable 
  GROUP BY name, address, zip HAVING COUNT() > 1
) AS k 
WHERE d.id <> k.id 
AND d.name=k.name 
AND d.address=k.address 
AND d.zip=k.zip;

From the documentation delete duplicate rows

A frequent question in IRC is how to delete rows that are duplicates over a set of columns, keeping only the one with the lowest ID. This query does that for all rows of tablename having the same column1, column2, and column3.

DELETE FROM tablename
          FROM (SELECT id,
                         ROW_NUMBER() OVER (partition BY column1, column2, column3 ORDER BY id) AS rnum
                 FROM tablename) t
          WHERE t.rnum > 1);

Sometimes a timestamp field is used instead of an ID field.


If you want a unique identifier for every row, you could just add one (a serial, or a guid), and treat it like a surrogate key.

        ( name text not null
        , address text not null
        , zipcode text not null
INSERT INTO thenames(name,address,zipcode) VALUES
('James', 'main street', '123' )
,('James', 'main street', '123' )
,('James', 'void street', '456')
,('Alice', 'union square' , '123')

SELECT*FROM thenames;

        -- add a surrogate key
ALTER TABLE thenames
SELECT*FROM thenames;

DELETE FROM thenames del
        SELECT*FROM thenames x
        WHERE x.name=del.name
        AND x.address=del.address
        AND x.zipcode=del.zipcode
        AND x.seq < del.seq

        -- add the unique constrain,so that new dupplicates cannot be created in the future
ALTER TABLE thenames
        ADD UNIQUE (name,address,zipcode)

SELECT*FROM thenames;
  • Netezza doesn't support primary or unique key constraint – NzGuy Oct 21 '17 at 16:55
  • No it dosent have . – NzGuy Oct 22 '17 at 2:39

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