PL/pgSQL is a loadable procedural language for the PostgreSQL database system. The design goals of PL/pgSQL were to create a loadable procedural language that
can be used to create functions and triggers,
adds control structures to the SQL language,
can perform complex computations,
inherits all user-defined types, functions, and operators,
can be defined to be trusted by the server,
is easy to use.
Functions created with PL/pgSQL can be used anywhere that built-in functions could be used. For example, it is possible to create complex conditional computation functions and later use them to define operators or use them in index expressions.
In PostgreSQL 9.0 and later, PL/pgSQL is installed by default. However it is still a loadable module, so especially security-conscious administrators could choose to remove it.
SQL is the language PostgreSQL and most other relational databases use as query language. It's portable and easy to learn. But every SQL statement must be executed individually by the database server.
That means that your client application must send each query to the database server, wait for it to be processed, receive and process the results, do some computation, then send further queries to the server. All this incurs interprocess communication and will also incur network overhead if your client is on a different machine than the database server.
With PL/pgSQL you can group a block of computation and a series of queries inside the database server, thus having the power of a procedural language and the ease of use of SQL, but with considerable savings of client/server communication overhead.
Extra round trips between client and server are eliminated
Intermediate results that the client does not need do not have to be marshaled or transferred between server and client
Multiple rounds of query parsing can be avoided
This can result in a considerable performance increase as compared to an application that does not use stored functions.
Also, with PL/pgSQL you can use all the data types, operators and functions of SQL.
Functions written in PL/pgSQL can accept
as arguments any scalar or array data type supported by the server,
and they can return a result of any of these types. They can also
accept or return any composite type (row type) specified by name.
It is also possible to declare a PL/pgSQL
function as accepting record
, which means that any
composite type will do as input, or
as returning record
, which means that the result
is a row type whose columns are determined by specification in the
calling query, as discussed in Section 7.2.1.4.
PL/pgSQL functions can be declared to accept a variable
number of arguments by using the VARIADIC
marker. This
works exactly the same way as for SQL functions, as discussed in
Section 38.5.5.
PL/pgSQL functions can also be declared to accept
and return the polymorphic types
anyelement
, anyarray
, anynonarray
,
anyenum
, and anyrange
. The actual
data types handled by a polymorphic function can vary from call to
call, as discussed in Section 38.2.5.
An example is shown in Section 43.3.1.
PL/pgSQL functions can also be declared to return
a “set” (or table) of any data type that can be returned as
a single instance. Such a function generates its output by executing
RETURN NEXT
for each desired element of the result
set, or by using RETURN QUERY
to output the result of
evaluating a query.
Finally, a PL/pgSQL function can be declared to return
void
if it has no useful return value. (Alternatively, it
could be written as a procedure in that case.)
PL/pgSQL functions can also be declared with output
parameters in place of an explicit specification of the return type.
This does not add any fundamental capability to the language, but
it is often convenient, especially for returning multiple values.
The RETURNS TABLE
notation can also be used in place
of RETURNS SETOF
.
Specific examples appear in Section 43.3.1 and Section 43.6.1.