Several months ago I learned from an answer on Stack Overflow how to perform multiple updates at once in MySQL using the following syntax:

INSERT INTO table (id, field, field2) VALUES (1, A, X), (2, B, Y), (3, C, Z)

I've now switched over to PostgreSQL and apparently this is not correct. It's referring to all the correct tables so I assume it's a matter of different keywords being used but I'm not sure where in the PostgreSQL documentation this is covered.

To clarify, I want to insert several things and if they already exist to update them.

16 Answers 16

up vote 383 down vote accepted

PostgreSQL since version 9.5 has UPSERT syntax, with ON CONFLICT clause. with the following syntax (similar to MySQL)

INSERT INTO the_table (id, column_1, column_2) 
VALUES (1, 'A', 'X'), (2, 'B', 'Y'), (3, 'C', 'Z')
  SET column_1 = excluded.column_1, 
      column_2 = excluded.column_2;

Searching postgresql's email group archives for "upsert" leads to finding an example of doing what you possibly want to do, in the manual:

Example 38-2. Exceptions with UPDATE/INSERT

This example uses exception handling to perform either UPDATE or INSERT, as appropriate:


        -- first try to update the key
        -- note that "a" must be unique
        UPDATE db SET b = data WHERE a = key;
        IF found THEN
        END IF;
        -- not there, so try to insert the key
        -- if someone else inserts the same key concurrently,
        -- we could get a unique-key failure
            INSERT INTO db(a,b) VALUES (key, data);
        EXCEPTION WHEN unique_violation THEN
            -- do nothing, and loop to try the UPDATE again
LANGUAGE plpgsql;

SELECT merge_db(1, 'david');
SELECT merge_db(1, 'dennis');

There's possibly an example of how to do this in bulk, using CTEs in 9.1 and above, in the hackers mailing list:

WITH foos AS (SELECT (UNNEST(%foo[])).*)
updated as (UPDATE foo SET foo.a = foos.a ... RETURNING
INSERT INTO foo SELECT foos.* FROM foos LEFT JOIN updated USING(id)

See a_horse_with_no_name's answer for a clearer example.

  • 5
    The only thing I don't like about this is that it would be much slower, because each upsert would be its' own individual call into the database. – baash05 Mar 1 '12 at 0:27
  • @baash05 there might be a way to do it in bulk, see my updated answer. – Stephen Denne Mar 2 '12 at 0:02
  • 3
    this inspired a ruby library: – Seamus Abshere Jul 7 '12 at 1:03
  • 2
    The only thing I'd do differently is to use FOR 1..2 LOOP instead of just LOOP so that if some other unique constraint is violated it won't spin indefinitely. – olamork Dec 5 '13 at 22:32
  • 1
    This feature is coming in 9.5 - – Yurik Oct 13 '15 at 14:11

Warning: this is not safe if executed from multiple sessions at the same time (see caveats below).

Another clever way to do an "UPSERT" in postgresql is to do two sequential UPDATE/INSERT statements that are each designed to succeed or have no effect.

UPDATE table SET field='C', field2='Z' WHERE id=3;
INSERT INTO table (id, field, field2)
       SELECT 3, 'C', 'Z'

The UPDATE will succeed if a row with "id=3" already exists, otherwise it has no effect.

The INSERT will succeed only if row with "id=3" does not already exist.

You can combine these two into a single string and run them both with a single SQL statement execute from your application. Running them together in a single transaction is highly recommended.

This works very well when run in isolation or on a locked table, but is subject to race conditions that mean it might still fail with duplicate key error if a row is inserted concurrently, or might terminate with no row inserted when a row is deleted concurrently. A SERIALIZABLE transaction on PostgreSQL 9.1 or higher will handle it reliably at the cost of a very high serialization failure rate, meaning you'll have to retry a lot. See why is upsert so complicated, which discusses this case in more detail.

This approach is also subject to lost updates in read committed isolation unless the application checks the affected row counts and verifies that either the insert or the update affected a row.

  • 5
    Short answer: if the record exists the INSERT does nothing. Long answer: the SELECT in the INSERT will return as many results as there are matches of the where clause. That is at most one (if the number one is not in the result of the sub-select), otherwise zero. The INSERT will thus add either one or zero rows. – Peter Becker Oct 15 '11 at 10:34
  • 3
    the 'where' part can be simplified by using exists: ... where not exists (select 1 from table where id = 3); – Endy Tjahjono Oct 21 '11 at 6:46
  • 1
    this should be the right answer.. with some minor tweaks, it could be used to do a mass update.. Humm.. I wonder if a temp table could be used.. – baash05 Mar 1 '12 at 0:03
  • 1
    @keaplogik, that 9.1 limitation is with writable CTE (common table expressions) that is described in another of the answers. The syntax used in this answer is very basic and has been long supported. – bovine Mar 6 '13 at 19:58
  • 7
    Warning, this is subject to lost updates in read committed isolation unless your application checks to make sure that the insert or the update have a non-zero rowcount. See – Craig Ringer Oct 7 '14 at 7:16

With PostgreSQL 9.1 this can be achieved using a writeable CTE (common table expression):

WITH new_values (id, field1, field2) as (
     (1, 'A', 'X'),
     (2, 'B', 'Y'),
     (3, 'C', 'Z')

upsert as
    update mytable m 
        set field1 = nv.field1,
            field2 = nv.field2
    FROM new_values nv
    WHERE =
INSERT INTO mytable (id, field1, field2)
SELECT id, field1, field2
FROM new_values
                  FROM upsert up 
                  WHERE =

See these blog entries:

Note that this solution does not prevent a unique key violation but it is not vulnerable to lost updates.
See the follow up by Craig Ringer on

  • 1
    @FrançoisBeausoleil: the chance of a race condition is much smaller than with the "try/handle exception" approach – a_horse_with_no_name Feb 21 '12 at 15:32
  • 2
    @a_horse_with_no_name How do you exactly mean that the chance on race conditions is much smaller? When I execute this query concurrently with the same records I'm getting the error "duplicate key value violates unique constraint" 100% of the times until the query detects that the record has been inserted. Is this a complete example? – Jeroen van Dijk Mar 26 '12 at 9:39
  • 4
    @a_horse_with_no_name Your solution seems to work in concurrent situations when you wrap the upsert statement with the following lock: BEGIN WORK; LOCK TABLE mytable IN SHARE ROW EXCLUSIVE MODE; <UPSERT HERE>; COMMIT WORK; – Jeroen van Dijk Mar 26 '12 at 11:15
  • 2
    @JeroenvanDijk: thanks. What I meant with "much smaller" is that if several transactions to this (and commit the change!) the time span between the update and the insert is smaller as everything is just a single statement. You can always generate a pk violation by two independent INSERT statements. If you lock the whole table, you effectively serialize all access to it (something you could achieve with the serializable isolation level as well). – a_horse_with_no_name Mar 26 '12 at 11:28
  • 12
    This solution is subject to lost updates if the inserting transaction rolls back; there's no check to enforce that the UPDATE affected any rows. – Craig Ringer Jun 24 '13 at 3:47

In PostgreSQL 9.5 and newer you can use INSERT ... ON CONFLICT UPDATE.

See the documentation.

A MySQL INSERT ... ON DUPLICATE KEY UPDATE can be directly rephrased to a ON CONFLICT UPDATE. Neither is SQL-standard syntax, they're both database-specific extensions. There are good reasons MERGE wasn't used for this, a new syntax wasn't created just for fun. (MySQL's syntax also has issues that mean it wasn't adopted directly).

e.g. given setup:

CREATE TABLE tablename (a integer primary key, b integer, c integer);
INSERT INTO tablename (a, b, c) values (1, 2, 3);

the MySQL query:

INSERT INTO tablename (a,b,c) VALUES (1,2,3)


INSERT INTO tablename (a, b, c) values (1, 2, 10)
ON CONFLICT (a) DO UPDATE SET c = tablename.c + 1;


  • You must specify the column name (or unique constraint name) to use for the uniqueness check. That's the ON CONFLICT (columnname) DO

  • The keyword SET must be used, as if this was a normal UPDATE statement

It has some nice features too:

  • You can have a WHERE clause on your UPDATE (letting you effectively turn ON CONFLICT UPDATE into ON CONFLICT IGNORE for certain values)

  • The proposed-for-insertion values are available as the row-variable EXCLUDED, which has the same structure as the target table. You can get the original values in the table by using the table name. So in this case EXCLUDED.c will be 10 (because that's what we tried to insert) and "table".c will be 3 because that's the current value in the table. You can use either or both in the SET expressions and WHERE clause.

For background on upsert see How to UPSERT (MERGE, INSERT ... ON DUPLICATE UPDATE) in PostgreSQL?

  • I have looked into PostgreSQL's 9.5 solution as you described above because I was experiencing gaps in the auto increment field while under MySQL's ON DUPLICATE KEY UPDATE. I have downloaded Postgres 9.5 and implemented your code but strangely the same issue occurs under Postgres: the primary key's serial field is not consecutive (there are gaps between the inserts and updates.). Any idea what is going on here? Is this normal? Any idea how to avoid this behavior? Thank you. – W.M. Aug 7 '16 at 10:47
  • @W.M. That's pretty much inherent to an upsert operation. You have to evaluate the function that generates the sequence before attempting the insert. Since such sequences are designed to operate concurrently they're exempt from normal transaction semantics, but even if they weren't the generation is not called in a subtransaction and rolled back, it completes normally and commits with the rest of the operation. So this would happen even with "gapless" sequence implementations. The only way the DB could avoid this would be to delay evaluation of sequence generation until after the key check. – Craig Ringer Aug 8 '16 at 1:15
  • 1
    @W.M. which would create its own problems. Basically, you're stuck. But if you're relying on serial / auto_increment being gapless you've already got bugs. You can have sequence gaps due to rollbacks including transient errors - reboots under load, client errors mid-transaction, crashes, etc. You must never, ever rely on SERIAL / SEQUENCE or AUTO_INCREMENT not having gaps. If you need gapless sequences they're more complex; you need to use a counter table usually. Google will tell you more. But be aware gapless sequences prevent all insert concurrency. – Craig Ringer Aug 8 '16 at 1:17
  • @W.M. If you absolutely do require gapless sequences and upsert, you could use the function-based upsert approach discussed in the manual along with a gapless sequence implementation that uses a counter table. Because the BEGIN ... EXCEPTION ... runs in a subtransaction that gets rolled back on error, your sequence increment would get rolled back if the INSERT failed. – Craig Ringer Aug 8 '16 at 1:18
  • Thank you very much @Craig Ringer, that was pretty informative. I realized that I can simply give up on having that auto increment primary key. I made a composite primary of 3 fields and for my particular current need, there is really no need for a gapless auto increment field. Thank you again, the information you provided would save me time in the future trying to prevent a natural and healthy DB behavior. I understand it better now. – W.M. Aug 8 '16 at 15:58

i was looking for the same thing when i came here, but the lack of a generic "upsert" function botherd me a bit so i thought you could just pass the update and insert sql as arguments on that function form the manual

that would look like this:

CREATE FUNCTION upsert (sql_update TEXT, sql_insert TEXT)
    LANGUAGE plpgsql
AS $$
        -- first try to update
        EXECUTE sql_update;
        -- check if the row is found
        END IF;
        -- not found so insert the row
            EXECUTE sql_insert;
            EXCEPTION WHEN unique_violation THEN
                -- do nothing and loop

and perhaps to do what you initially wanted to do, batch "upsert", you could use Tcl to split the sql_update and loop the individual updates, the preformance hit will be very small see

the highest cost is executing the query from your code, on the database side the execution cost is much smaller

  • 3
    You still have to run this in a retry loop and it's prone to races with a concurrent DELETE unless you lock the table or are in SERIALIZABLE transaction isolation on PostgreSQL 9.1 or greater. – Craig Ringer May 22 '13 at 10:00

There is no simple command to do it.

The most correct approach is to use function, like the one from docs.

Another solution (although not that safe) is to do update with returning, check which rows were updates, and insert the rest of them

Something along the lines of:

update table
set column = x.column
from (values (1,'aa'),(2,'bb'),(3,'cc')) as x (id, column)
where =
returning id;

assuming id:2 was returned:

insert into table (id, column) values (1, 'aa'), (3, 'cc');

Of course it will bail out sooner or later (in concurrent environment), as there is clear race condition in here, but usually it will work.

Here's a longer and more comprehensive article on the topic.

  • 1
    If using this option, be sure to check that the id is returned even if the update does nothing. I've seen databases optimise-away queries like "Update table foo set bar = 4 where bar = 4". – thelem Jan 20 '12 at 14:58

Personally, I've set up a "rule" attached to the insert statement. Say you had a "dns" table that recorded dns hits per customer on a per-time basis:

    "time" timestamp without time zone NOT NULL,
    customer_id integer NOT NULL,
    hits integer

You wanted to be able to re-insert rows with updated values, or create them if they didn't exist already. Keyed on the customer_id and the time. Something like this:

CREATE RULE replace_dns AS 
    ON INSERT TO dns 
    WHERE (EXISTS (SELECT 1 FROM dns WHERE ((dns."time" = new."time") 
            AND (dns.customer_id = new.customer_id)))) 
        SET hits = new.hits 
        WHERE ((dns."time" = new."time") AND (dns.customer_id = new.customer_id));

Update: This has the potential to fail if simultaneous inserts are happening, as it will generate unique_violation exceptions. However, the non-terminated transaction will continue and succeed, and you just need to repeat the terminated transaction.

However, if there are tons of inserts happening all the time, you will want to put a table lock around the insert statements: SHARE ROW EXCLUSIVE locking will prevent any operations that could insert, delete or update rows in your target table. However, updates that do not update the unique key are safe, so if you no operation will do this, use advisory locks instead.

Also, the COPY command does not use RULES, so if you're inserting with COPY, you'll need to use triggers instead.

I custom "upsert" function above, if you want to INSERT AND REPLACE :


 CREATE OR REPLACE FUNCTION upsert(sql_insert text, sql_update text)

    -- first try to insert and after to update. Note : insert has pk and update not...

    EXECUTE sql_insert;
    EXCEPTION WHEN unique_violation THEN
    EXECUTE sql_update; 
    END IF;
 COST 100;
 ALTER FUNCTION upsert(text, text)
 OWNER TO postgres;`

And after to execute, do something like this :

SELECT upsert($$INSERT INTO ...$$,$$UPDATE... $$)

Is important to put double dollar-comma to avoid compiler errors

  • check the speed...

I have the same issue for managing account settings as name value pairs. The design criteria is that different clients could have different settings sets.

My solution, similar to JWP is to bulk erase and replace, generating the merge record within your application.

This is pretty bulletproof, platform independent and since there are never more than about 20 settings per client, this is only 3 fairly low load db calls - probably the fastest method.

The alternative of updating individual rows - checking for exceptions then inserting - or some combination of is hideous code, slow and often breaks because (as mentioned above) non standard SQL exception handling changing from db to db - or even release to release.

 #This is pseudo-code - within the application:
 BEGIN TRANSACTION - get transaction lock
 SELECT all current name value pairs where id = $id into a hash record
 create a merge record from the current and update record
  (set intersection where shared keys in new win, and empty values in new are deleted).
 DELETE all name value pairs where id = $id
 COPY/INSERT merged records 
  • Welcome to SO. Nice introduction! :-) – Don Question Nov 8 '12 at 23:36
  • This is more like REPLACE INTO than INSERT INTO ... ON DUPLICATE KEY UPDATE, which may cause a problem if you use triggers. You'll end up running delete and insert triggers/rules, rather than update ones. – cHao May 15 '14 at 16:48

Similar to most-liked answer, but works slightly faster:

WITH upsert AS (UPDATE spider_count SET tally=1 WHERE date='today' RETURNING *)
INSERT INTO spider_count (spider, tally) SELECT 'Googlebot', 1 WHERE NOT EXISTS (SELECT * FROM upsert)


  • 3
    This will fail if run concurrently in two sessions, because neither update will see an existing row so both updates will hit zero rows, so both queries will issue an insert. – Craig Ringer May 8 '15 at 7:55
CREATE OR REPLACE FUNCTION save_user(_id integer, _name character varying)
  RETURNS boolean AS
    UPDATE users SET name = _name WHERE id = _id;
        RETURN true;
    END IF;
        INSERT INTO users (id, name) VALUES (_id, _name);
            UPDATE users SET name = _name WHERE id = _id;


UPDATE will return the number of modified rows. If you use JDBC (Java), you can then check this value against 0 and, if no rows have been affected, fire INSERT instead. If you use some other programming language, maybe the number of the modified rows still can be obtained, check documentation.

This may not be as elegant but you have much simpler SQL that is more trivial to use from the calling code. Differently, if you write ten line script in PL/PSQL, you probably should have unit test of one or another kind just for it.

I use this function merge

    IF EXISTS(SELECT a FROM tabla WHERE a = key)
            UPDATE tabla SET b = data WHERE a = key;
        INSERT INTO tabla(a,b) VALUES (key, data);
    END IF;
LANGUAGE plpgsql
  • 1
    It is more efficient to simply do the update first and then check the number of updated rows. (See Ahmad's answer) – a_horse_with_no_name Jan 9 '15 at 10:47

According the PostgreSQL documentation of the INSERT statement, handling the ON DUPLICATE KEY case is not supported. That part of the syntax is a proprietary MySQL extension.

  • @Lucian MERGE is also really more of an OLAP operation; see for explanation. It doesn't define concurrency semantics and most people who use it for upsert are just creating bugs. – Craig Ringer May 8 '15 at 7:56

Edit: This does not work as expected. Unlike the accepted answer, this produces unique key violations when two processes repeatedly call upsert_foo concurrently.

Eureka! I figured out a way to do it in one query: use UPDATE ... RETURNING to test if any rows were affected:


    UPDATE foo SET v = $2 WHERE k = $1 RETURNING $1
$$ LANGUAGE sql;

        SELECT $1, $2
        WHERE NOT EXISTS (SELECT update_foo($1, $2))
$$ LANGUAGE sql;

The UPDATE has to be done in a separate procedure because, unfortunately, this is a syntax error:


Now it works as desired:

SELECT upsert_foo(1, 'hi');
SELECT upsert_foo(1, 'bye');
SELECT upsert_foo(3, 'hi');
SELECT upsert_foo(3, 'bye');
  • 1
    You can combine them into one statement if you use a writeable CTE. But like most solutions posted here, this one is wrong and will fail in the presence of concurrent updates. – Craig Ringer May 8 '15 at 7:54

For merging small sets, using the above function is fine. However, if you are merging large amounts of data, I'd suggest looking into

The current best practice that I'm aware of is:

  1. COPY new/updated data into temp table (sure, or you can do INSERT if the cost is ok)
  2. Acquire Lock [optional] (advisory is preferable to table locks, IMO)
  3. Merge. (the fun part)

protected by Gurwinder Singh May 7 '17 at 18:56

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