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I have a table that looks like this:

id    feh    bar
1     10     A
2     20     A
3      3     B
4      4     B
5      5     C
6      6     D
7      7     D
8      8     D

And I want it to look like this:

bar  val1   val2   val3
A     10     20 
B      3      4 
C      5        
D      6      7     8

I have this query that does this:

SELECT bar, 
   MAX(CASE WHEN abc."row" = 1 THEN feh ELSE NULL END) AS "val1",
   MAX(CASE WHEN abc."row" = 2 THEN feh ELSE NULL END) AS "val2",
   MAX(CASE WHEN abc."row" = 3 THEN feh ELSE NULL END) AS "val3"
  SELECT bar, feh, row_number() OVER (partition by bar) as row
  FROM "Foo"
 ) abc

This is a very make-shifty approach and gets unwieldy if there are a lot of new columns to be created. I was wondering if the CASE statements can be made better to make this query more dynamic? Also, I'd love to see other approaches to doing this.

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If you can load the standard-contrib tablefunc module, the crosstab function will do what you want. –  Daniel Lyons Mar 19 '13 at 17:19
@flipflop99 You can use PL/PgSQL to query for the entry with the most values and use EXECUTE with the format function to generate the CASE statements dynamically. Daniel is right that it's probably better to just use crosstab though. –  Craig Ringer Mar 19 '13 at 23:39
@CraigRinger: I went into detail to explore "dynamic" possibilities with crosstab(). –  Erwin Brandstetter Mar 20 '13 at 20:29

2 Answers 2

up vote 19 down vote accepted

If you have not installed the additional module tablefunc, run this command once per database:


Answer to question

A proper crosstab solution for your case:

SELECT * FROM crosstab($$
  SELECT bar, val, feh
  FROM  (
     SELECT *, 'val' || row_number() OVER (PARTITION BY bar ORDER BY feh) AS val
     FROM tbl
     ) x
  ORDER BY 1,2$$)
 AS ct (bar text, val1 int, val2 int, val3 int);  -- add more colums here

The special difficulty here is, that the category (val) isn't even present in the base table yet. I synthesize it with the help of the window function row_number(), before I build the query for the crosstab on top of that.

This is one of the rare cases where the second parameter for the crosstab() function is not needed, because all NULL values only appear to the right by definition of this problem. It would look like this:

 ,$$VALUES ('val1'), ('val2'), ('val3')$$         -- add more columns here

The rest is pretty much run-of-the-mill. Find more explanation and links in these closely related answers.

PostgreSQL Crosstab Query

Pivot on Multiple Columns using Tablefunc
Merge a table and a change log into a view in PostgreSQL

Proper test setup

I append it here, since I can't create an SQLfiddle for this (cannot install additional modules).
That's how you should provide your test case to begin with:

CREATE TEMP TABLE tbl (id int, feh int, bar text);
INSERT INTO tbl (id, feh, bar) VALUES
   (1, 10, 'A')
  ,(2, 20, 'A')
  ,(3,  3, 'B')
  ,(4,  4, 'B')
  ,(5,  5, 'C')
  ,(6,  6, 'D')
  ,(7,  7, 'D')
  ,(8,  8, 'D');

Dynamic crosstab?

Now, that's not very dynamic, as @Clodoaldo commented. Dynamic return types are hard to achieve with plpgsql. But there are ways around it - with some limitations.

So not to further complicate the rest, I demonstrate with a simplified test case:

CREATE TEMP TABLE tbl (row_name text, attrib text, val int);
INSERT INTO tbl (row_name, attrib, val) VALUES
   ('A', 'val1', 10)
  ,('A', 'val2', 20)
  ,('B', 'val1', 3)
  ,('B', 'val2', 4)
  ,('C', 'val1', 5)
  ,('D', 'val3', 8)
  ,('D', 'val1', 6)
  ,('D', 'val2', 7);


SELECT * FROM crosstab('SELECT row_name, attrib, val FROM tbl ORDER BY 1,2')
AS ct (row_name text, val1 int, val2 int, val3 int);


 row_name | val1 | val2 | val3
 A        |   10 |   20 |
 B        |    3 |    4 |
 C        |    5 |      |
 D        |    6 |    7 |    8

Built-in feature of tablefunc module

The tablefunc module provides a simple infrastructure for generic crosstab() calls without providing a column definition list. A number of functions written in C (which is normally pretty fast):


crosstab1() - crosstab4() are pre-defined. One minor point: they require and return all text. So we need to cast our integer values. But it simplifies the call:

SELECT * FROM crosstab4('SELECT row_name, attrib, val::text  -- cast!
                         FROM tbl ORDER BY 1,2')


 row_name | category_1 | category_2 | category_3 | category_4
 A        | 10         | 20         |            |
 B        | 3          | 4          |            |
 C        | 5          |            |            |
 D        | 6          | 7          | 8          |

Custom crosstab() function

For more columns or other data types, we need to create our own composite type and function (once).

CREATE TYPE tablefunc_crosstab_int_5 AS (
  row_name text, val1 int, val2 int, val3 int, val4 int, val5 int);


CREATE OR REPLACE FUNCTION crosstab_int_5(text)
  RETURNS SETOF tablefunc_crosstab_int_5
AS '$libdir/tablefunc','crosstab' LANGUAGE c STABLE STRICT;


SELECT * FROM crosstab_int_5('SELECT row_name, attrib, val   -- no cast!
                              FROM tbl ORDER BY 1,2') AS f(text);


 text | val1 | val2 | val3 | val4 | val5
 A    |   10 |   20 |      |      |
 B    |    3 |    4 |      |      |
 C    |    5 |      |      |      |
 D    |    6 |    7 |    8 |      |

One polymorphic, dynamic function for all

This goes beyond what's covered by the tablefunc module.
To make the return type dynamic I use a polymorphic type with a technique detailed in this related answer:
Refactor a PL/pgSQL function to return the output of various SELECT queries

CREATE OR REPLACE FUNCTION crosstab_n(text, anyelement)
  RETURNS SETOF anyelement AS
   cols text;
          string_agg(quote_ident(attname) || ' ' || atttypid::regtype
                    ,', ' ORDER BY attnum)
   FROM   pg_attribute a 
   WHERE  attrelid = pg_typeof($2)::text::regclass
   AND    attnum > 0
   AND    NOT attisdropped;

   SELECT * FROM crosstab($$' || $1 || '$$) AS x (' || cols  || ')';
$func$  LANGUAGE plpgsql;

pg_typeof($2)::text::regclass: There is a "class" (table-like) defined for every user-defined composite type, so that attributes (columns) are listed in the system catalog pg_attribute. The fast lane to get to it is to cast the registered type (regtype) to text and cast this text to a registered class (regclass).

Create composite types once:

You need to define every return type you are going to use once:

CREATE TYPE tablefunc_crosstab_int_3 AS (
    row_name text, val1 int, val2 int, val3 int);

CREATE TYPE tablefunc_crosstab_int_4 AS (
    row_name text, val1 int, val2 int, val3 int, val4 int);


For ad-hoc calls, you could also just create a temporary table to the same (temporary) effect:

CREATE TEMP TABLE temp_xtype7 AS (
    row_name text, x1 int, x2 int, x3 int, x4 int, x5 int, x6 int, x7 int);


Using above types /tables ...

SELECT * FROM crosstab_n('SELECT row_name, attrib, val FROM tbl ORDER BY 1,2'

This one function works for all return types, while the crosstabN() framework provided by the tablefunc module needs a separate function for each.
If you have named your types in sequence like demonstrated above, you only have to replace the bold number. To find the maximum number of categories in the base table:

SELECT count(*) FROM tbl
GROUP  BY row_name

Returns: 3

That's about as dynamic as this gets if you want individual columns. Arrays like demonstrated by @Clocoaldo or a simple text representation work for any number of categories dynamically.

It's always potentially dangerous, when a function takes a string and executes it. Make sure this cannot be used for SQL injection. Don't take input from untrusted users.

Call for original question:

SELECT * FROM crosstab_n($$
  SELECT bar, val, feh
  FROM  (
     SELECT *, 'val' || row_number() OVER (PARTITION BY bar ORDER BY feh) AS val
     FROM tbl
     ) x
  ORDER BY 1,2$$
share|improve this answer
Not all that dynamic since the computed column names must be provided. And the OP says they can be many. –  Clodoaldo Neto Mar 20 '13 at 11:23
@ClodoaldoNeto: I dug deeper. You may be interested in the sizable update to my answer. –  Erwin Brandstetter Mar 20 '13 at 20:27
I wish I could upvote this a hundred times. –  Daniel Lyons Mar 20 '13 at 20:34
Yes very good, but still one must know the number of columns and create the types. I made it completely dynamic here but I have a genetic allergy to complexity so I think the array solution I gave for this question is much better if column names taken from the data are not required. –  Clodoaldo Neto Mar 20 '13 at 23:02
@ClodoaldoNeto: "Better" is defined by requirements. –  Erwin Brandstetter Mar 21 '13 at 0:10

In your case I guess an array is good. SQL Fiddle

    feh || array_fill(null::int, array[c - array_length(feh, 1)]) feh
        select bar, array_agg(feh) feh
        from foo
        group by bar
    ) s
    cross join (
        select count(*)::int c
        from foo
        group by bar
        order by c desc limit 1
    ) c(c)
 bar |      feh      
 A   | {10,20,NULL}
 B   | {3,4,NULL}
 C   | {5,NULL,NULL}
 D   | {6,7,8}
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