postgresql/contrib/array
Bruce Momjian 558fae16e3 The attached patch enables the contrib subtree to build cleanly under
Cygwin with the possible exception of mSQL-interface.  Since I don't
have mSQL installed, I skipped this tool.

Except for dealing with a missing getopt.h (oid2name) and HUGE (seg),
the bulk of the patch uses the standard PostgreSQL approach to deal with
Windows DLL issues.

I tested the build aspect of this patch under Cygwin and Linux without
any ill affects.  Note that I did not actually attempt to test the code
for functionality.

The procedure to apply the patch is as follows:

    $ # save the attachment as /tmp/contrib.patch
    $ # change directory to the top of the PostgreSQL source tree
    $ patch -p0 </tmp/contrib.patch

Jason
2001-06-18 21:38:02 +00:00
..
array_iterator.c Fix portability problems recently exposed by regression tests on Alphas. 2000-12-27 23:59:14 +00:00
array_iterator.h
array_iterator.sql.in
Makefile The attached patch enables the contrib subtree to build cleanly under 2001-06-18 21:38:02 +00:00
README.array_iterator Add missing /contrib files 2000-06-19 14:02:16 +00:00

Array iterator functions, by Massimo Dal Zotto <dz@cs.unitn.it>
Copyright (C) 1999, Massimo Dal Zotto <dz@cs.unitn.it>

This software is distributed under the GNU General Public License
either version 2, or (at your option) any later version.


This loadable module defines a new class of functions which take
an array and a scalar value, iterate a scalar operator over the
elements of the array and the value, and compute a result as
the logical OR or AND of the iteration results.
For example array_int4eq returns true if some of the elements
of an array of int4 is equal to the given value:

	array_int4eq({1,2,3}, 1)  -->  true
	array_int4eq({1,2,3}, 4)  -->  false

If we have defined T array types and O scalar operators we can
define T x O x 2 array functions, each of them has a name like
"array_[all_]<basetype><operation>" and takes an array of type T
iterating the operator O over all the elements. Note however
that some of the possible combination are invalid, for example
the array_int4_like because there is no like operator for int4.

We can then define new operators based on these functions and use
them to write queries with qualification clauses based on the
values of some of the elements of an array.
For example to select rows having some or all element of an array
attribute equal to a given value or matching a regular expression:

	create table t(id int4[], txt text[]);

	-- select tuples with some id element equal to 123
	select * from t where t.id *= 123;

	-- select tuples with some txt element matching '[a-z]'
	select * from t where t.txt *~ '[a-z]';

	-- select tuples with all txt elements matching '^[A-Z]'
	select * from t where t.txt[1:3] **~ '^[A-Z]';

The scheme is quite general, each operator which operates on a base type
can be iterated over the elements of an array. It seem to work well but
defining each new operators requires writing a different C function.
Furthermore in each function there are two hardcoded OIDs which reference
a base type and a procedure. Not very portable. Can anyone suggest a
better and more portable way to do it ?

See also array_iterator.sql for an example on how to use this module.