In PostgreSQL, I want to use an SQL statement to combine two columns and create a new column from them.
I'm thinking about using
concat(...), but is there a better way?
What's the best way to do this?
Generally, I agree with @kgrittn's advice. Go for it.
But to address your basic question about
concat(): it is useful if you need to deal with null values - and null has neither been ruled out in your question nor in the one you refer to.
SELECT col_a || col_b;
If either of your columns can be null, the result would be null in that case. You could defend with
SELECT COALESCE(col_a, '') || COALESCE(col_b, '');
But that gets tedious quickly with more arguments. That's where
concat() comes in, which never returns null, not even if all arguments are null. The manual:
NULL arguments are ignored.
SELECT concat(col_a, col_b);
The remaining corner case for both alternatives is where all input columns are null in which case we still get an empty string
''. To get null instead:
SELECT CASE WHEN col_a IS NULL THEN col_b WHEN col_b IS NULL THEN col_a ELSE col_a || col_b END;
This gets more complex with more columns quickly. Again, use
concat(), but add a check for the special condition:
SELECT CASE WHEN (col_a, col_b) IS NULL THEN NULL ELSE concat(col_a, col_b) END;
How does this work?
(col_a, col_b) is shorthand for
ROW (col_a, col_b). And a row type is only null if all columns are null. Detailed explanation:
concat_ws() to add separators between elements (
ws for "with separator").
An expression like the one in Kevin's answer:
SELECT $1.zipcode || ' - ' || $1.city || ', ' || $1.state;
is tedious to prepare for null values in PostgreSQL 8.3 (without
concat()). One way (of many):
SELECT COALESCE( CASE WHEN $1.zipcode IS NULL THEN $1.city WHEN $1.city IS NULL THEN $1.zipcode ELSE $1.zipcode || ' - ' || $1.city END, '') || COALESCE(', ' || $1.state, '');
STABLE functions, not
IMMUTABLE because they can invoke datatype output functions (like
timestamptz_out) that depend on locale settings.
Explanation by Tom Lane.
This prohibits their direct use in index expressions. If you know that the result is actually immutable in your case, you can work around this with an
IMMUTABLE function wrapper. Example here:
You don't need to store the column to reference it that way. Try this:
To set up:
CREATE TABLE tbl (zipcode text NOT NULL, city text NOT NULL, state text NOT NULL); INSERT INTO tbl VALUES ('10954', 'Nanuet', 'NY');
We can see we have "the right stuff":
\pset border 2 SELECT * FROM tbl;
+---------+--------+-------+ | zipcode | city | state | +---------+--------+-------+ | 10954 | Nanuet | NY | +---------+--------+-------+
Now add a function with the desired "column name" which takes the record type of the table as its only parameter:
CREATE FUNCTION combined(rec tbl) RETURNS text LANGUAGE SQL AS $$ SELECT $1.zipcode || ' - ' || $1.city || ', ' || $1.state; $$;
This creates a function which can be used as if it were a column of the table, as long as the table name or alias is specified, like this:
SELECT *, tbl.combined FROM tbl;
Which displays like this:
+---------+--------+-------+--------------------+ | zipcode | city | state | combined | +---------+--------+-------+--------------------+ | 10954 | Nanuet | NY | 10954 - Nanuet, NY | +---------+--------+-------+--------------------+
This works because PostgreSQL checks first for an actual column, but if one is not found, and the identifier is qualified with a relation name or alias, it looks for a function like the above, and runs it with the row as its argument, returning the result as if it were a column. You can even index on such a "generated column" if you want to do so.
Because you're not using extra space in each row for the duplicated data, or firing triggers on all inserts and updates, this can often be faster than the alternatives.
Did you check the string concatenation function? Something like:
update table_c set column_a = column_b || column_c
should work. More here