Let's create two tables. The capitals table contains
state capitals which are also cities. Naturally, the
capitals table should inherit from cities.
CREATE TABLE cities (
name text,
population float,
altitude int -- (in ft)
);
CREATE TABLE capitals (
state char(2)
) INHERITS (cities);
In this case, a row of capitals inherits all
attributes (name, population, and altitude) from its
parent, cities. The type of the attribute name is
text, a native PostgreSQL type for variable length
ASCII strings. The type of the attribute population is
float, a native PostgreSQL type for double precision
floating-point numbers. State capitals have an extra
attribute, state, that shows their state. In PostgreSQL,
a table can inherit from zero or more other tables,
and a query can reference either all rows of a
table or all rows of a table plus all of its
descendants.
Note: The inheritance hierarchy is actually a directed acyclic graph.
For example, the following query finds the names of all cities,
including state capitals, that are located at an altitude
over 500ft:
SELECT name, altitude
FROM cities
WHERE altitude > 500;
which returns:
name | altitude
-----------+----------
Las Vegas | 2174
Mariposa | 1953
Madison | 845
On the other hand, the following query finds
all the cities that are not state capitals and
are situated at an altitude over 500ft:
SELECT name, altitude
FROM ONLY cities
WHERE altitude > 500;
name | altitude
-----------+----------
Las Vegas | 2174
Mariposa | 1953
Here the "ONLY" before cities indicates that the query should
be run over only cities and not tables below cities in the
inheritance hierarchy. Many of the commands that we
have already discussed -- SELECT,
UPDATE and DELETE --
support this "ONLY" notation.
In some cases you may wish to know which table a particular tuple
originated from. There is a system column called
TABLEOID in each table which can tell you the
originating table:
SELECT c.tableoid, c.name, c.altitude
FROM cities c
WHERE c.altitude > 500;
which returns:
tableoid | name | altitude
----------+-----------+----------
139793 | Las Vegas | 2174
139793 | Mariposa | 1953
139798 | Madison | 845
(If you try to reproduce this example, you will probably get different
numeric OIDs.) By doing a join with pg_class you can see the actual table
names:
SELECT p.relname, c.name, c.altitude
FROM cities c, pg_class p
WHERE c.altitude > 500 and c.tableoid = p.oid;
which returns:
relname | name | altitude
----------+-----------+----------
cities | Las Vegas | 2174
cities | Mariposa | 1953
capitals | Madison | 845
Deprecated: In previous versions of PostgreSQL, the
default was not to get access to child tables. This was found to
be error prone and is also in violation of the SQL standard. Under the old
syntax, to get the sub-tables you append * to the table name.
For example
SELECT * from cities*;
You can still explicitly specify scanning child tables by appending
*, as well as explicitly specify not scanning child tables by
writing "ONLY". But beginning in version 7.1, the default
behavior for an undecorated table name is to scan its child tables
too, whereas before the default was not to do so. To get the old
default behavior, set the configuration option
SQL_Inheritance to off, e.g.,
SET SQL_Inheritance TO OFF;
or add a line in your postgresql.conf file.
A limitation of the inheritance feature is that indexes (including
unique constraints) and foreign key constraints only apply to single
tables, not to their inheritance children. Thus, in the above example,
specifying that another table's column REFERENCES cities(name)
would allow the other table to contain city names but not capital names.
This deficiency will probably be fixed in some future release.