It may be concluded from answers here that `NOT IN (subquery)`

doesn't handle nulls correctly and should be avoided in favour of `NOT EXISTS`

. However, such a conclusion may be premature. In the following scenario, credited to Chris Date (Database Programming and Design, Vol 2 No 9, Semptember 1989), it is `NOT IN`

that handles nulls correctly and returns the correct result, rather than `NOT EXISTS`

.

Consider a table `sp`

to represent suppliers (`sno`

) who are known to supply parts (`pno`

) in quantity (`qty`

). The table currently holds the following values:

```
VALUES ('S1', 'P1', NULL),
('S2', 'P1', 200),
('S3', 'P1', 1000)
```

Note that quantity is nullable i.e. to be able to record the fact a supplier is known to supply parts even if it is not known in what quantity.

The task is to find the supplier numbers of suppliers who are known supply part number 'P1' but not in quantities of 1000.

The following uses `NOT IN`

to correctly identify supplier 'S2' only:

```
WITH sp
AS
(
SELECT *
FROM (
VALUES ('S1', 'P1', NULL),
('S2', 'P1', 200),
('S3', 'P1', 1000)
) AS T (sno, pno, qty)
)
SELECT DISTINCT spx.sno
FROM sp spx
WHERE spy.pno = 'P1'
AND 1000 NOT IN (
SELECT spy.qty
FROM sp spy
WHERE spy.sno = spx.sno
AND spy.pno = 'P1'
);
```

However, the below query uses the same general structure with `NOT EXISTS`

but incorrectly includes supplier 'S1' in the result (i.e. for which the quantity is null):

```
WITH sp
AS
(
SELECT *
FROM (
VALUES ('S1', 'P1', NULL),
('S2', 'P1', 200),
('S3', 'P1', 1000)
) AS T (sno, pno, qty)
)
SELECT DISTINCT spx.sno
FROM sp spx
WHERE spx.pno = 'P1'
AND NOT EXISTS (
SELECT *
FROM sp spy
WHERE spy.sno = spx.sno
AND spy.pno = 'P1'
AND spy.qty = 1000
);
```

So `NOT EXISTS`

is not the silver bullet it may have appeared!

Of course, source of the problem is the presence of nulls, therefore the 'real' solution is to eliminate those nulls.

This can be achieved using two tables: one `sp`

to model suppliers known to supply parts and another `spq`

to model suppliers known to supply parts in known quantites (noting there could be a foreign key constraint for the second table to reference the first). The result can then be obtained using the 'minus' relational operator (the `EXCEPT`

keyword in Standard SQL) e.g.

```
WITH sp
AS
(
SELECT *
FROM (
VALUES ('S1', 'P1'),
('S2', 'P1'),
('S3', 'P1')
) AS T (sno, pno)
),
spq
AS
(
SELECT *
FROM (
VALUES ('S2', 'P1', 200),
('S3', 'P1', 1000)
) AS T (sno, pno, qty)
)
SELECT sno
FROM spq
WHERE pno = 'P1'
EXCEPT
SELECT sno
FROM spq
WHERE pno = 'P1'
AND qty = 1000;
```