For a bitmask, the type `bitstring`

would be the better choice. Could look like this then:

```
SELECT BoolD::int::bit
|| BoolC::int::bit
|| BoolB::int::bit
|| BoolA::int::bit
FROM tbl;
```

`TRUE`

converts to `1`

, `FALSE`

to `0`

. You can simply concatenate bits to a bitstring.

### Cast bit(n) to integer

It seems you need an `integer`

as result - there is a simple & fast way:

```
SELECT (BoolD::int::bit
|| BoolC::int::bit
|| BoolB::int::bit
|| BoolA::int::bit)::bit(4)::int
FROM tbl;
```

Be sure to read the fine print in the chapter "Bit String Functions and Operators" of the manual.

I came up with two more ideas and put together a quick test / reference with 10k rows to sum it all up.

Test setup:

```
CREATE TEMP TABLE t (boola bool, boolb bool, boolc bool, boold bool);
INSERT INTO t
SELECT random()::int::bool
, random()::int::bool
, random()::int::bool
, random()::int::bool
FROM generate_series(1,10000);
```

Demo:

```
SELECT CASE WHEN boold THEN 1 ELSE 0 END
+ (CASE WHEN boolc THEN 1 ELSE 0 END << 1)
+ (CASE WHEN boolb THEN 1 ELSE 0 END << 2)
+ (CASE WHEN boola THEN 1 ELSE 0 END << 3) AS andriy
, boold::int
+ (boolc::int << 1)
+ (boolb::int << 2)
+ (boola::int << 3) AS mike
, (boola::int::bit
|| boolb::int::bit
|| boolc::int::bit
|| boold::int::bit)::bit(4)::int AS erwin1
, boold::int
| (boolc::int << 1)
| (boolb::int << 2)
| (boola::int << 3) AS erwin2
, (((
boola::int << 1)
| boolb::int << 1)
| boolc::int << 1)
| boold::int AS erwin3
FROM t
LIMIT 15
```

You could also use a bitwise OR `|`

instead of the `+`

operator.

**Individual test runs** show basically the **same performance** for all five methods.