In PostgreSQL 9.1 or later you can do this with a single statement using a data-modifying CTE. This is generally less error prone. It minimizes the time frame between the two DELETEs in which a race conditions could lead to surprising results with concurrent operations:
WITH del_child AS (
DELETE FROM child
WHERE child_id = 1
RETURNING parent_id, child_id
)
DELETE FROM parent p
USING del_child x
WHERE p.parent_id = x.parent_id
AND NOT EXISTS (
SELECT 1
FROM child c
WHERE c.parent_id = x.parent_id
AND c.child_id <> x.child_id -- !
);
SQL Fiddle.
The child is deleted in any case. I quote the manual:
Data-modifying statements in WITH
are executed exactly once, and
always to completion, independently of whether the primary query reads
all (or indeed any) of their output. Notice that this is different
from the rule for SELECT
in WITH
: as stated in the previous section,
execution of a SELECT
is carried only as far as the primary query
demands its output.
The parent is only deleted if it has no other children.
Note the last condition. Contrary to what one might expect, this is necessary, since:
The sub-statements in WITH
are executed concurrently with each other
and with the main query. Therefore, when using data-modifying
statements in WITH
, the order in which the specified updates actually
happen is unpredictable. All the statements are executed with the same
snapshot (see Chapter 13), so they cannot "see" each others' effects
on the target tables.
Bold emphasis mine.
I used the column name parent_id
in place of the non-descriptive id
.
Eliminate race condition
To eliminate possible race conditions I mentioned above completely, lock the parent row first. Of course, all similar operations must follow the same procedure to make it work.
WITH lock_parent AS (
SELECT p.parent_id, c.child_id
FROM child c
JOIN parent p ON p.parent_id = c.parent_id
WHERE c.child_id = 12 -- provide child_id here once
FOR NO KEY UPDATE -- locks parent row.
)
, del_child AS (
DELETE FROM child c
USING lock_parent l
WHERE c.child_id = l.child_id
)
DELETE FROM parent p
USING lock_parent l
WHERE p.parent_id = l.parent_id
AND NOT EXISTS (
SELECT 1
FROM child c
WHERE c.parent_id = l.parent_id
AND c.child_id <> l.child_id -- !
);
This way only one transaction at a time can lock the same parent. So it cannot happen that multiple transactions delete children of the same parent, still see other children and spare the parent, while all of the children are gone afterwards. (Updates on non-key columns are still allowed with FOR NO KEY UPDATE
.)
If such cases never occur or you can live with it (hardly ever) happening - the first query is cheaper. Else, this is the secure path.
FOR NO KEY UPDATE
was introduced with Postgres 9.4. Details in the manual. In older versions use the stronger lock FOR UPDATE
instead.