How to add a new column in a table after the 2nd or 3rd column in the table using postgres?

My code looks as follows

ALTER TABLE n_domains ADD COLUMN contract_nr int after owner_id
  • 4
    The order of the columns is totally irrelevant in relational databases - it's only a matter of displaying them in a tool. The database table doesn't have any ordering of the columns.
    – marc_s
    Aug 7, 2009 at 9:22
  • 3
    @marc_s, incorrect. The physical order is relevant to performance. And current PostgreSQL uses the same physical and logical order. wiki.postgresql.org/wiki/Alter_column_position Sep 21, 2018 at 16:01

8 Answers 8


No, there's no direct way to do that. And there's a reason for it - every query should list all the fields it needs in whatever order (and format etc) it needs them, thus making the order of the columns in one table insignificant.

If you really need to do that I can think of one workaround:

  • dump and save the description of the table in question (using pg_dump --schema-only --table=<schema.table> ...)
  • add the column you want where you want it in the saved definition
  • rename the table in the saved definition so not to clash with the name of the old table when you attempt to create it
  • create the new table using this definition
  • populate the new table with the data from the old table using 'INSERT INTO <new_table> SELECT field1, field2, <default_for_new_field>, field3,... FROM <old_table>';
  • rename the old table
  • rename the new table to the original name
  • eventually drop the old, renamed table after you make sure everything's alright
  • 49
    "every query should list all the fields it needs in whatever order" → that's easy, as long as you never have to work with other human beings. May 24, 2015 at 4:36
  • 42
    While the order of columns might be irrelevant for an application using the database. It would look a lot nicer for a DBA if similar columns are listed in order when investigating a table structure or data. I personally find it annoying that I have several temporal columns that aren't visually grouped because they got added later. Re-creating a database just because Postgres doesn't support adding a column at a certain position feels odd to me, especially If the reason behind it is to force people to list columns explicitly in their queries. To be clear: I don't believe that to be the reason.
    – Dynom
    Mar 11, 2016 at 9:36
  • 13
    "No, there's no direct way to do that. And there's a reason for it". This incorrect, according to wiki.postgresql.org/wiki/Alter_column_position. "The idea of allowing re-ordering of column position is not one the postgresql developers are against, it is more a case where no one has stepped forward to do the work... There are two main reasons why being able to alter column position would be useful within postgres: physical layout can be optimized by putting fixed size columns at the start of the table... ordering columns can make working with a table easier..." Also, 67k views :) Aug 20, 2019 at 8:56
  • What if the old table have serval column referenced by other tables? Jun 27, 2021 at 16:29

The order of columns is not irrelevant, putting fixed width columns at the front of the table can optimize the storage layout of your data, it can also make working with your data easier outside of your application code.

PostgreSQL does not support altering the column ordering (see Alter column position on the PostgreSQL wiki); if the table is relatively isolated, your best bet is to recreate the table:

CREATE TABLE foobar_new ( ... );
INSERT INTO foobar_new SELECT ... FROM foobar;
ALTER TABLE foobar_new RENAME TO foobar;

If you have a lot of views or constraints defined against the table, you can re-add all the columns after the new column and drop the original columns (see the PostgreSQL wiki for an example).


The real problem here is that it's not done yet. Currently PostgreSQL's logical ordering is the same as the physical ordering. That's problematic because you can't get a different logical ordering, but it's even worse because the table isn't physically packed automatically, so by moving columns you can get different performance characteristics.

Arguing that it's that way by intent in design is pointless. It's somewhat likely to change at some point when an acceptable patch is submitted.

All of that said, is it a good idea to rely on the ordinal positioning of columns, logical or physical? Hell no. In production code you should never be using an implicit ordering or *. Why make the code more brittle than it needs to be? Correctness should always be a higher priority than saving a few keystrokes.

As a work around, you can in fact modify the column ordering by recreating the table, or through the "add and reorder" game

See also,

  • Column tetris reordering in order to make things more space-efficient

The column order is relevant to me, so I created this function. See if it helps. It works with indexes, primary key, and triggers. Missing Views and Foreign Key and other features are missing.


SELECT xaddcolumn('table', 'col3 int NOT NULL DEFAULT 0', 'col2');

Source code:

CREATE OR REPLACE FUNCTION xaddcolumn(ptable text, pcol text, pafter text)  RETURNS void AS $BODY$
    rcol RECORD;
    rkey RECORD;
    ridx RECORD;
    rtgr RECORD;
    vsql text;
    vkey text;
    vidx text;
    cidx text;
    vtgr text;
    ctgr text;
    etgr text;
    vseq text;
    vtype text;
    vcols text;
    EXECUTE 'CREATE TABLE zzz_' || ptable || ' AS SELECT * FROM ' || ptable;
    vseq = '';
    vcols = '';
    vsql = 'CREATE TABLE ' || ptable || '(';
    FOR rcol IN SELECT column_name as col, udt_name as coltype, column_default as coldef,
        is_nullable as is_null, character_maximum_length as len,
        numeric_precision as num_prec, numeric_scale as num_scale
        FROM information_schema.columns
        WHERE table_name = ptable
        ORDER BY ordinal_position
        vtype = rcol.coltype;
        IF (substr(rcol.coldef,1,7) = 'nextval') THEN
            vtype = 'serial';
            vseq = vseq || 'SELECT setval(''' || ptable || '_' || rcol.col || '_seq'''
                || ', max(' || rcol.col || ')) FROM ' || ptable || ';';
        ELSIF (vtype = 'bpchar') THEN
            vtype = 'char';
        END IF;
        vsql = vsql || E'\n' || rcol.col || ' ' || vtype;
        IF (vtype in ('varchar', 'char')) THEN
            vsql = vsql || '(' || rcol.len || ')';
        ELSIF (vtype = 'numeric') THEN
            vsql = vsql || '(' || rcol.num_prec || ',' || rcol.num_scale || ')';
        END IF;
        IF (rcol.is_null = 'NO') THEN
            vsql = vsql || ' NOT NULL';
        END IF;
        IF (rcol.coldef <> '' AND vtype <> 'serial') THEN
            vsql = vsql || ' DEFAULT ' || rcol.coldef;
        END IF;
        vsql = vsql || E',';
        vcols = vcols || rcol.col || ',';
        IF (rcol.col = pafter) THEN
            vsql = vsql || E'\n' || pcol || ',';
        END IF;
    vcols = substr(vcols,1,length(vcols)-1);
    vkey = '';
    FOR rkey IN SELECT constraint_name as name, column_name as col
        FROM information_schema.key_column_usage
        WHERE table_name = ptable
        IF (vkey = '') THEN
            vkey = E'\nCONSTRAINT ' || rkey.name || ' PRIMARY KEY (';
        END IF;
        vkey = vkey || rkey.col || ',';
    IF (vkey <> '') THEN
        vsql = vsql || substr(vkey,1,length(vkey)-1) || ') ';
    END IF;
    vsql = substr(vsql,1,length(vsql)-1) || ') WITHOUT OIDS';
    vidx = '';
    cidx = '';
    FOR ridx IN SELECT s.indexrelname as nome, a.attname as col
        FROM pg_index i LEFT JOIN pg_class c ON c.oid = i.indrelid
        LEFT JOIN pg_attribute a ON a.attrelid = c.oid AND a.attnum = ANY(i.indkey)
        LEFT JOIN pg_stat_user_indexes s USING (indexrelid)
        WHERE c.relname = ptable AND i.indisunique != 't' AND i.indisprimary != 't'
        ORDER BY s.indexrelname
        IF (ridx.nome <> cidx) THEN
            IF (vidx <> '') THEN
                vidx = substr(vidx,1,length(vidx)-1) || ');';
            END IF;
            cidx = ridx.nome;
            vidx = vidx || E'\nCREATE INDEX ' || cidx || ' ON ' || ptable || ' (';
        END IF;
        vidx = vidx || ridx.col || ',';
    IF (vidx <> '') THEN
        vidx = substr(vidx,1,length(vidx)-1) || ')';
    END IF;
    vtgr = '';
    ctgr = '';
    etgr = '';
    FOR rtgr IN SELECT trigger_name as nome, event_manipulation as eve,
        action_statement as act, condition_timing as cond
        FROM information_schema.triggers
        WHERE event_object_table = ptable
        IF (rtgr.nome <> ctgr) THEN
            IF (vtgr <> '') THEN
                vtgr = replace(vtgr, '_@eve_', substr(etgr,1,length(etgr)-3));
            END IF;
            etgr = '';
            ctgr = rtgr.nome;
            vtgr = vtgr || 'CREATE TRIGGER ' || ctgr || ' ' || rtgr.cond || ' _@eve_ '
                || 'ON ' || ptable || ' FOR EACH ROW ' || rtgr.act || ';';
        END IF;
        etgr = etgr || rtgr.eve || ' OR ';
    IF (vtgr <> '') THEN
        vtgr = replace(vtgr, '_@eve_', substr(etgr,1,length(etgr)-3));
    END IF;
    --exclui velha e cria nova
    EXECUTE 'DROP TABLE ' || ptable;
    IF (EXISTS (SELECT sequence_name FROM information_schema.sequences
        WHERE sequence_name = ptable||'_id_seq'))
        EXECUTE 'DROP SEQUENCE '||ptable||'_id_seq';
    END IF;
    EXECUTE vsql;
    --dados na nova
    EXECUTE 'INSERT INTO ' || ptable || '(' || vcols || ')' ||
        E'\nSELECT ' || vcols || ' FROM zzz_' || ptable;
    EXECUTE vseq;
    EXECUTE vidx;
    EXECUTE vtgr;
    EXECUTE 'DROP TABLE zzz_' || ptable;
  • I had to modify it a little but unfortunately it doesn't handle column names like "placeId"... I have removed , condition_timing as cond from rtgr and ` || ' ' || rtgr.cond` from vtgr Added ` || ' CASCADE'` to handle linked tables on EXECUTE 'DROP TABLE ' || ptable; btw, this nice function is useless since it seems to handle lowercase column names only...
    – Jiab77
    Aug 24, 2018 at 15:06
  • anyway @Samuel Cunha thanks for sharing but it would great if you could fix it regarding the column names issue. I'm not skilled enough in postgresql to do it myself.
    – Jiab77
    Aug 24, 2018 at 15:16

@Jeremy Gustie's solution above almost works, but will do the wrong thing if the ordinals are off (or fail altogether if the re-ordered ordinals make incompatible types match). Give it a try:

CREATE TABLE test1 (one varchar, two varchar, three varchar);
CREATE TABLE test2 (three varchar, two varchar, one varchar);
INSERT INTO test1 (one, two, three) VALUES ('one', 'two', 'three');
SELECT * FROM test2;

The results show the problem:

testdb=> select * from test2;
 three | two |  one
 one   | two | three
(1 row)

You can remedy this by specifying the column names in the insert:

INSERT INTO test2 (one, two, three) SELECT * FROM test1;

That gives you what you really want:

testdb=> select * from test2;
 three | two | one
 three | two | one
(1 row)

The problem comes when you have legacy that doesn't do this, as I indicated above in my comment on peufeu's reply.

Update: It occurred to me that you can do the same thing with the column names in the INSERT clause by specifying the column names in the SELECT clause. You just have to reorder them to match the ordinals in the target table:

INSERT INTO test2 SELECT three, two, one FROM test1;

And you can of course do both to be very explicit:

INSERT INTO test2 (one, two, three) SELECT one, two, three FROM test1;

That gives you the same results as above, with the column values properly matched.


The order of the columns is totally irrelevant in relational databases


For instance if you use Python, you would do :

cursor.execute( "SELECT id, name FROM users" )
for id, name in cursor:
    print id, name

Or you would do :

cursor.execute( "SELECT * FROM users" )
for row in cursor:
    print row['id'], row['name']

But no sane person would ever use positional results like this :

cursor.execute( "SELECT * FROM users" )
for id, name in cursor:
   print id, name
  • 14
    This is totally untrue. That works for selects the way you're showing, but it's not uncommon to see inserts without the column names specified, e.g. insert into table values(1, 2, 3, 4). If the table column ordinals change, then that style of insert query fails. It's also worth noting that not every developer is sane and if you happen to inherit code from one of those developers... Aug 27, 2013 at 22:39
  • 2
    @SpankyQuigman doing that is totally insane, which is what peufeu said. Apr 29, 2018 at 20:15

Well, it's a visual goody for DBA's and can be implemented to the engine with minor performance loss. Add a column order table to pg_catalog or where it's suited best. Keep it in memory and use it before certain queries. Why overthink such a small eye candy.


@ Milen A. Radev

The irrelevant need from having a set order of columns is not always defined by the query that pulls them. In the values from pg_fetch_row does not include the associated column name and therefore would require the columns to be defined by the SQL statement.

A simple select * from would require innate knowledge of the table structure, and would sometimes cause issues if the order of the columns were to change.

Using pg_fetch_assoc is a more reliable method as you can reference the column names, and therefore use a simple select * from.

  • 3
    This need isn't irrelevant. When I inspect the data manually, I want to use simply SELECT * and yet I want the more interesting columns to come first.
    – maaartinus
    Feb 19, 2014 at 6:38

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