I realize this question is old. But it's among the most popular questions in plpgsql and didn't have a satisfying answer, yet.
Column / Row
... I don't need the transactional integrity to be maintained across
the entire operation, because I know that the column I'm changing is
not going to be written to or read during the update.
UPDATE in PostgreSQL's MVCC model writes a new version of the whole row. If concurrent transactions change any column of the same row, time-consuming concurrency issues arise. Details in the manual. Knowing the same column won't be touched by concurrent avoids some possible complications, but not others.
To avoid being diverted to an offtopic discussion, let's assume that
all the values of status for the 35 million columns are currently set
to the same (non-null) value, thus rendering an index useless.
When updating the whole table (or most of it) Postgres never uses an index. A sequential scan is faster when all or most rows have to be read. On the contrary: Index maintenance means additional cost for the
For example, let's say I have a table called "orders" with 35 million
rows, and I want to do this:
UPDATE orders SET status = null;
I understand you are aiming for a more general solution (see below). But to address the actual question asked: This can be dealt with in a matter milliseconds, regardless of table size:
ALTER TABLE orders DROP column status, ADD column status text;
When a column is added with
ADD COLUMN, all existing rows in the table
are initialized with the column's default value (
NULL if no
clause is specified).
DROP COLUMN form does not physically remove the column, but simply
makes it invisible to SQL operations. Subsequent insert and update
operations in the table will store a null value for the column. Thus,
dropping a column is quick but it will not immediately reduce the
on-disk size of your table, as the space occupied by the dropped
column is not reclaimed. The space will be reclaimed over time as
existing rows are updated. (These statements do not apply when
dropping the system oid column; that is done with an immediate rewrite.)
Make sure you don't have objects depending on the column (foreign key constraints, indices, views, ...). You would need to drop / recreate those. Barring that, tiny operations on the system catalog table
pg_attribute do the job. Requires an exclusive lock on the table which may be a problem for heavy concurrent load. Since it only takes a few milliseconds, you should still be fine.
If you have a column default you want to keep, add it back in a separate command. Doing it in the same command would apply it to all rows immediately, voiding the effect.
Follow the link and read the Notes the manual.
dblink has been mentioned in another answer. It allows access to "remote" Postgres databases in implicit separate connections. The "remote" database can be the current one, thereby achieving "autonomous transactions": what the function writes in the "remote" db is committed and can't be rolled back.
This allows to run a single function that updates a big table in smaller parts and each part is committed separately. Avoids building up transaction overhead for very big numbers of rows and, more importantly, releases locks after each part. This allows concurrent operations to proceed without much delay and makes deadlocks less likely.
First of all, lots of small transactions are actually more expensive. This only makes sense for big tables. The sweet spot depends on many factors.
If you are not sure what you are doing: a single transaction is the safe method. For this to work properly, concurrent operations on the table have to play along. For instance: concurrent writes can move a row to a partition that's supposedly already processed. Or concurrent reads can see inconsistent intermediary states. You have been warned.
The additional module dblink needs to be installed.
Assuming a serial primary key that's approximately continuous.
CREATE OR REPLACE FUNCTION f_update_in_steps()
RETURNS void AS
_step int; -- number of slices
_max int; -- minimum ID
_min int; -- maximum ID
SELECT min(order_id), max(order_id) FROM orders -- get actual numbers
INTO _min, _max;
_step := (_max - _min) / 100; -- rounded, possibly a bit too small
IF _step = 0 THEN -- avoid endless loop for small count
_step := 1;
FOR i IN 0..150 LOOP -- make sure we cross _max
PERFORM dblink_exec('dbname=' || current_database() -- current db
, $$UPDATE orders SET status = 'foo'
WHERE order_id BETWEEN $$ || _step * i + _min
|| ' AND ' || _step * (i+1) + (_min - 1)
|| $$ AND status IS DISTINCT FROM 'foo'$$); -- avoid empty update
EXIT WHEN _step * i + _min > _max; -- stop when done
$func$ LANGUAGE plpgsql;
You can parameterize any part according to your needs: the table name, column name, value, ... just be sure to sanitize identifiers to avoid SQL injection.