Here's a possibly somewhat saner approach using multi-dimensional arrays.

Please never, ever, ever, ever use the following query:

```
CREATE EXTENSION tablefunc;
SELECT * FROM crosstab(
'SELECT ''row1''::text, width_bucket(x, 1, 53001, 100), array_agg(x order by x)::integer[] from generate_series(1,53000) x GROUP BY 2'
) ct(
rowname text,
col1 integer[], col2 integer[], col3 integer[], col4 integer[], col5
integer[], col6 integer[], col7 integer[], col8 integer[], col9 integer[],
col10 integer[], col11 integer[], col12 integer[], col13 integer[], col14
integer[], col15 integer[], col16 integer[], col17 integer[], col18 integer[],
col19 integer[], col20 integer[], col21 integer[], col22 integer[], col23
integer[], col24 integer[], col25 integer[], col26 integer[], col27 integer[],
col28 integer[], col29 integer[], col30 integer[], col31 integer[], col32
integer[], col33 integer[], col34 integer[], col35 integer[], col36 integer[],
col37 integer[], col38 integer[], col39 integer[], col40 integer[], col41
integer[], col42 integer[], col43 integer[], col44 integer[], col45 integer[],
col46 integer[], col47 integer[], col48 integer[], col49 integer[], col50
integer[], col51 integer[], col52 integer[], col53 integer[], col54 integer[],
col55 integer[], col56 integer[], col57 integer[], col58 integer[], col59
integer[], col60 integer[], col61 integer[], col62 integer[], col63 integer[],
col64 integer[], col65 integer[], col66 integer[], col67 integer[], col68
integer[], col69 integer[], col70 integer[], col71 integer[], col72 integer[],
col73 integer[], col74 integer[], col75 integer[], col76 integer[], col77
integer[], col78 integer[], col79 integer[], col80 integer[], col81 integer[],
col82 integer[], col83 integer[], col84 integer[], col85 integer[], col86
integer[], col87 integer[], col88 integer[], col89 integer[], col90 integer[],
col91 integer[], col92 integer[], col93 integer[], col94 integer[], col95
integer[], col96 integer[], col97 integer[], col98 integer[], col99 integer[],
col100 integer[]
);
```

The correct way to solve this problem is almost certainly *in your application*. SQL is good at many things. This isn't one of them, especially in PostgreSQL with its very limited pivot support. In any database this would be a crazy thing to do.

As far as I'm concerned, if I have to use a query just to generate the column-list, that's a sign the system is being forced to do something it isn't well suited for:

```
select string_agg('col'||n||' integer[]',', ') FROM generate_series(1,100) n;
```

weirdthing to want. What's the underlying problem you're trying to solve with this, the reason you want to do it? – Craig Ringer Oct 31 '12 at 0:37`SELECT array_agg(x) from generate_series(1,53000) x GROUP BY width_bucket(x, 1, 53000, 100) ORDER BY 1;`

. Of course you'd replace`generate_series`

with your table. Note that the values are not ordered within the arrays. If you want ordered arrays you need slower approaches using`array_agg`

as a window function. – Craig Ringer Oct 31 '12 at 0:47`SELECT array_agg(x order by x) from generate_series(1,53000) x GROUP BY width_bucket(x, 1, 53000, 100) ORDER BY 1;`

. That gives you the result you want, just row-oriented instead of column-oriented. Converting it to columns is (a) a pretty bad idea since PostgreSQL is limited to 250-1600 columns per row anyway (postgresql.org/about) and (b) going to require a verbose and annoying crostab query if it works at all. – Craig Ringer Oct 31 '12 at 0:56`[]`

operator eg`[32]`

. – Craig Ringer Oct 31 '12 at 1:13