## Ways without dynamic SQL

There is no cast from hex numbers in `text`

representation to a numeric type, but we can use `bit(n)`

as waypoint. There are **undocumented** casts from bit strings (`bit(n)`

) to integer types (`int2`

, `int4`

, `int8`

) - the internal representation is binary compatible. Quoting Tom Lane:

This is relying on some undocumented behavior of the bit-type input
converter, but I see no reason to expect that would break. A possibly
bigger issue is that it requires PG >= 8.3 since there wasn't a text
to bit cast before that.

`integer`

for max. 8 hex digits

Up to 8 hex digits can be converted to `bit(32)`

and then coerced to `integer`

(standard 4-byte integer):

`SELECT `**('x' || lpad(hex, 8, '0'))::bit(32)::int** AS int_val
FROM (
VALUES
('1'::text)
, ('f')
, ('100')
, ('7fffffff')
, ('80000000') -- overflow into negative number
, ('deadbeef')
, ('ffffffff')
, ('ffffffff123') -- too long
) AS t(hex);

```
int_val
------------
1
15
256
2147483647
-2147483648
-559038737
-1
```

Postgres uses a signed integer type, so hex numbers **above **`'7fffffff'`

overflow into **negative integer** numbers. This is still a valid, unique representation but the *meaning* is different. If that matters, switch to `bigint`

; see below.

For more than 8 hex digits the least significant characters (excess to the right) get *truncated*.

**4 bits** in a bit string encode **1 hex digit**. Hex numbers of known length can be cast to the respective `bit(n)`

directly. Alternatively, pad hex numbers of **unknown length** with leading zeros (`0`

) as demonstrated and cast to `bit(32)`

. Example with 7 hex digits and `int`

or 8 digits and `bigint`

:

```
SELECT ('x'|| 'deafbee')::bit(28)::int
, ('x'|| 'deadbeef')::bit(32)::bigint;
```

```
int4 | int8
-----------+------------
233503726 | 3735928559
```

`bigint`

for max. 16 hex digits

Up to 16 hex digits can be converted to `bit(64)`

and then coerced to `bigint`

(`int8`

, 8-byte integer) - overflowing into negative numbers in the upper half again:

`SELECT `**('x' || lpad(hex, 16, '0'))::bit(64)::bigint** AS int8_val
FROM (
VALUES
('ff'::text)
, ('7fffffff')
, ('80000000')
, ('deadbeef')
, ('7fffffffffffffff')
, ('8000000000000000') -- overflow into negative number
, ('ffffffffffffffff')
, ('ffffffffffffffff123') -- too long
) t(hex);

```
int8_val
---------------------
255
2147483647
2147483648
3735928559
9223372036854775807
-9223372036854775808
-1
-1
```

## Inverse

To convert back either `integer`

or `bigint`

, use the built-in (overloaded) function `to_hex()`

:

```
SELECT to_hex(3735928559); -- → 'deadbeef'
```

`uuid`

for max. 32 hex digits

The Postgres `uuid`

data type is **not a numeric type**. But it's the most efficient type in standard Postgres to store up to 32 hex digits, only occupying 16 bytes of storage. There is a **direct cast** from `text`

to `uuid`

(no need for `bit(n)`

as waypoint), but *exactly* 32 hex digits are required.

`SELECT `**lpad(hex, 32, '0')::uuid** AS uuid_val
FROM (
VALUES ('ff'::text)
, ('deadbeef')
, ('ffffffffffffffff')
, ('ffffffffffffffffffffffffffffffff')
, ('ffffffffffffffffffffffffffffffff123') -- too long
) t(hex);

```
uuid_val
--------------------------------------
00000000-0000-0000-0000-0000000000ff
00000000-0000-0000-0000-0000deadbeef
00000000-0000-0000-ffff-ffffffffffff
ffffffff-ffff-ffff-ffff-ffffffffffff
ffffffff-ffff-ffff-ffff-ffffffffffff
```

As you can see, standard output is a string of hex digits with typical separators for UUID.

### md5 hash

This is particularly useful to store **md5 hashes**:

```
SELECT md5('Store hash for long string, maybe for index?')::uuid AS md5_hash;
```

```
md5_hash
--------------------------------------
02e10e94-e895-616e-8e23-bb7f8025da42
```

See:

`0x`

in front of the hex: stackoverflow.com/a/78708293/5298879