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postgresql/doc/src/sgml/advanced.sgml
Peter Eisentraut 72ad5fe15c Add id' attributes to all chapter' and `sect1' tags, to generate useful 
names for the HTML files (e.g., not x4856.htm).
2000-09-29 20:21:34 +00:00

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<!--
$Header: /cvsroot/pgsql/doc/src/sgml/advanced.sgml,v 1.16 2000/09/29 20:21:33 petere Exp $
-->
<chapter id="advanced">
<title>Advanced <productname>Postgres</productname> <acronym>SQL</acronym> Features</title>
<para>
Having covered the basics of using
<productname>Postgres</productname> <acronym>SQL</acronym> to
access your data, we will now discuss those features of
<productname>Postgres</productname> that distinguish it from conventional data
managers. These features include inheritance, time
travel and non-atomic data values (array- and
set-valued attributes).
Examples in this section can also be found in
<filename>advance.sql</filename> in the tutorial directory.
(Refer to <xref linkend="QUERY"> for how to use it.)
</para>
<sect1 id="inheritance">
<title>Inheritance</title>
<para>
Let's create two classes. The capitals class contains
state capitals which are also cities. Naturally, the
capitals class should inherit from cities.
<programlisting>
CREATE TABLE cities (
name text,
population float,
altitude int -- (in ft)
);
CREATE TABLE capitals (
state char(2)
) UNDER cities;
</programlisting>
In this case, an instance of capitals <firstterm>inherits</firstterm> all
attributes (name, population, and altitude) from its
parent, cities. The type of the attribute name is
<type>text</type>, a native <productname>Postgres</productname>
type for variable length
ASCII strings. The type of the attribute population is
<type>float</type>, a native <productname>Postgres</productname>
type for double precision
floating point numbers. State capitals have an extra
attribute, state, that shows their state.
In <productname>Postgres</productname>,
a class can inherit from zero or more other classes,
and a query can reference either all instances of a
class or all instances of a class plus all of its
descendants.
<note>
<para>
The inheritance hierarchy is a directed acyclic graph.
</para>
</note>
</para>
<para>
For example, the following query finds the names of all cities,
including state capitals, that are located at an altitude
over 500ft, the query is:
<programlisting>
SELECT c.name, c.altitude
FROM cities c
WHERE c.altitude > 500;
</programlisting>
which returns:
<programlisting>
+----------+----------+
|name | altitude |
+----------+----------+
|Las Vegas | 2174 |
+----------+----------+
|Mariposa | 1953 |
+----------+----------+
|Madison | 845 |
+----------+----------+
</programlisting>
</para>
<para>
On the other hand, the following query finds
all the cities, but not capital cities
that are situated at an attitude of 500ft or higher:
<programlisting>
SELECT name, altitude
FROM ONLY cities
WHERE altitude &gt; 500;
+----------+----------+
|name | altitude |
+----------+----------+
|Las Vegas | 2174 |
+----------+----------+
|Mariposa | 1953 |
+----------+----------+
</programlisting>
</para>
<para>
Here the <quote>ONLY</quote> before cities indicates that the query should
be run over only cities and not classes below cities in the
inheritance hierarchy. Many of the commands that we
have already discussed -- <command>SELECT</command>,
<command>UPDATE</command> and <command>DELETE</command> --
support this <quote>ONLY</quote> notation.
</para>
<note>
<title>Deprecated</title>
<para>
In previous versions of <productname>Postgres</productname>, the
default was not to get access to child tables. This was found to
be error prone and is also in violation of SQL. Under the old
syntax, to get the sub-classes you append "*" to the table name.
For example
<programlisting>
SELECT * from cities*;
</programlisting>
To get the old behavior, the set configuration option
<literal>SQL_Inheritance</literal> to off, e.g.,
<programlisting>
SET SQL_Inheritance TO OFF;
</programlisting>
or add a line in your <filename>postgresql.conf</filename> file.
</para>
</note>
</sect1>
<sect1 id="non-atomic-values">
<title>Non-Atomic Values</title>
<para>
One of the tenets of the relational model is that the
attributes of a relation are atomic.
<productname>Postgres</productname> does not
have this restriction; attributes can themselves contain
sub-values that can be accessed from the query
language. For example, you can create attributes that
are arrays of base types.
</para>
<sect2>
<title>Arrays</title>
<para>
<productname>Postgres</productname> allows attributes of an
instance to be defined
as fixed-length or variable-length multi-dimensional
arrays. Arrays of any base type or user-defined type
can be created. To illustrate their use, we first create a
class with arrays of base types.
<programlisting>
CREATE TABLE SAL_EMP (
name text,
pay_by_quarter int4[],
schedule text[][]
);
</programlisting>
</para>
<para>
The above query will create a class named SAL_EMP with
a <firstterm>text</firstterm> string (name), a one-dimensional
array of <firstterm>int4</firstterm>
(pay_by_quarter), which represents the employee's
salary by quarter and a two-dimensional array of
<firstterm>text</firstterm>
(schedule), which represents the employee's weekly
schedule. Now we do some <firstterm>INSERTS</firstterm>s;
note that when
appending to an array, we enclose the values within
braces and separate them by commas. If you know
<firstterm>C</firstterm>,
this is not unlike the syntax for initializing structures.
<programlisting>
INSERT INTO SAL_EMP
VALUES ('Bill',
'{10000, 10000, 10000, 10000}',
'{{"meeting", "lunch"}, {}}');
INSERT INTO SAL_EMP
VALUES ('Carol',
'{20000, 25000, 25000, 25000}',
'{{"talk", "consult"}, {"meeting"}}');
</programlisting>
By default, <productname>Postgres</productname> uses the
"one-based" numbering
convention for arrays -- that is, an array of n elements
starts with array[1] and ends with array[n].
Now, we can run some queries on SAL_EMP. First, we
show how to access a single element of an array at a
time. This query retrieves the names of the employees
whose pay changed in the second quarter:
<programlisting>
SELECT name
FROM SAL_EMP
WHERE SAL_EMP.pay_by_quarter[1] &lt;&gt;
SAL_EMP.pay_by_quarter[2];
+------+
|name |
+------+
|Carol |
+------+
</programlisting>
</para>
<para>
This query retrieves the third quarter pay of all
employees:
<programlisting>
SELECT SAL_EMP.pay_by_quarter[3] FROM SAL_EMP;
+---------------+
|pay_by_quarter |
+---------------+
|10000 |
+---------------+
|25000 |
+---------------+
</programlisting>
</para>
<para>
We can also access arbitrary slices of an array, or
subarrays. This query retrieves the first item on
Bill's schedule for the first two days of the week.
<programlisting>
SELECT SAL_EMP.schedule[1:2][1:1]
FROM SAL_EMP
WHERE SAL_EMP.name = 'Bill';
+-------------------+
|schedule |
+-------------------+
|{{"meeting"},{""}} |
+-------------------+
</programlisting>
</para>
</sect2>
</sect1>
<sect1 id="more-advanced">
<title>More Advanced Features</title>
<para>
<productname>Postgres</productname> has many features not touched
upon in this
tutorial introduction, which has been oriented toward newer users of
<acronym>SQL</acronym>.
These are discussed in more detail in both the User's and
Programmer's Guides.
</para>
</sect1>
</chapter>
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