Access to the database itself from your Perl function can be done via the following functions:
spi_exec_query
(query
[, max-rows
])
spi_exec_query
executes an SQL command and
returns the entire row set as a reference to an array of hash
references. You should only use this command when you know
that the result set will be relatively small. Here is an
example of a query (SELECT
command) with the
optional maximum number of rows:
$rv = spi_exec_query('SELECT * FROM my_table', 5);
This returns up to 5 rows from the table
my_table
. If my_table
has a column my_column
, you can get that
value from row $i
of the result like this:
$foo = $rv->{rows}[$i]->{my_column};
The total number of rows returned from a SELECT
query can be accessed like this:
$nrows = $rv->{processed}
Here is an example using a different command type:
$query = "INSERT INTO my_table VALUES (1, 'test')"; $rv = spi_exec_query($query);
You can then access the command status (e.g.,
SPI_OK_INSERT
) like this:
$res = $rv->{status};
To get the number of rows affected, do:
$nrows = $rv->{processed};
Here is a complete example:
CREATE TABLE test ( i int, v varchar ); INSERT INTO test (i, v) VALUES (1, 'first line'); INSERT INTO test (i, v) VALUES (2, 'second line'); INSERT INTO test (i, v) VALUES (3, 'third line'); INSERT INTO test (i, v) VALUES (4, 'immortal'); CREATE OR REPLACE FUNCTION test_munge() RETURNS SETOF test AS $$ my $rv = spi_exec_query('select i, v from test;'); my $status = $rv->{status}; my $nrows = $rv->{processed}; foreach my $rn (0 .. $nrows - 1) { my $row = $rv->{rows}[$rn]; $row->{i} += 200 if defined($row->{i}); $row->{v} =~ tr/A-Za-z/a-zA-Z/ if (defined($row->{v})); return_next($row); } return undef; $$ LANGUAGE plperl; SELECT * FROM test_munge();
spi_query(command
)
spi_fetchrow(cursor
)
spi_cursor_close(cursor
)
spi_query
and spi_fetchrow
work together as a pair for row sets which might be large, or for cases
where you wish to return rows as they arrive.
spi_fetchrow
works only with
spi_query
. The following example illustrates how
you use them together:
CREATE TYPE foo_type AS (the_num INTEGER, the_text TEXT); CREATE OR REPLACE FUNCTION lotsa_md5 (INTEGER) RETURNS SETOF foo_type AS $$ use Digest::MD5 qw(md5_hex); my $file = '/usr/share/dict/words'; my $t = localtime; elog(NOTICE, "opening file $file at $t" ); open my $fh, '<', $file # ooh, it's a file access! or elog(ERROR, "cannot open $file for reading: $!"); my @words = <$fh>; close $fh; $t = localtime; elog(NOTICE, "closed file $file at $t"); chomp(@words); my $row; my $sth = spi_query("SELECT * FROM generate_series(1,$_[0]) AS b(a)"); while (defined ($row = spi_fetchrow($sth))) { return_next({ the_num => $row->{a}, the_text => md5_hex($words[rand @words]) }); } return; $$ LANGUAGE plperlu; SELECT * from lotsa_md5(500);
Normally, spi_fetchrow
should be repeated until it
returns undef
, indicating that there are no more
rows to read. The cursor returned by spi_query
is automatically freed when
spi_fetchrow
returns undef
.
If you do not wish to read all the rows, instead call
spi_cursor_close
to free the cursor.
Failure to do so will result in memory leaks.
spi_prepare(command
, argument types
)
spi_query_prepared(plan
, arguments
)
spi_exec_prepared(plan
[, attributes
], arguments
)
spi_freeplan(plan
)
spi_prepare
, spi_query_prepared
, spi_exec_prepared
,
and spi_freeplan
implement the same functionality but for prepared queries.
spi_prepare
accepts a query string with numbered argument placeholders ($1, $2, etc)
and a string list of argument types:
$plan = spi_prepare('SELECT * FROM test WHERE id > $1 AND name = $2', 'INTEGER', 'TEXT');
Once a query plan is prepared by a call to spi_prepare
, the plan can be used instead
of the string query, either in spi_exec_prepared
, where the result is the same as returned
by spi_exec_query
, or in spi_query_prepared
which returns a cursor
exactly as spi_query
does, which can be later passed to spi_fetchrow
.
The optional second parameter to spi_exec_prepared
is a hash reference of attributes;
the only attribute currently supported is limit
, which sets the maximum number of rows returned by a query.
The advantage of prepared queries is that is it possible to use one prepared plan for more
than one query execution. After the plan is not needed anymore, it can be freed with
spi_freeplan
:
CREATE OR REPLACE FUNCTION init() RETURNS VOID AS $$ $_SHARED{my_plan} = spi_prepare('SELECT (now() + $1)::date AS now', 'INTERVAL'); $$ LANGUAGE plperl; CREATE OR REPLACE FUNCTION add_time( INTERVAL ) RETURNS TEXT AS $$ return spi_exec_prepared( $_SHARED{my_plan}, $_[0] )->{rows}->[0]->{now}; $$ LANGUAGE plperl; CREATE OR REPLACE FUNCTION done() RETURNS VOID AS $$ spi_freeplan( $_SHARED{my_plan}); undef $_SHARED{my_plan}; $$ LANGUAGE plperl; SELECT init(); SELECT add_time('1 day'), add_time('2 days'), add_time('3 days'); SELECT done(); add_time | add_time | add_time ------------+------------+------------ 2005-12-10 | 2005-12-11 | 2005-12-12
Note that the parameter subscript in spi_prepare
is defined via
$1, $2, $3, etc, so avoid declaring query strings in double quotes that might easily
lead to hard-to-catch bugs.
Another example illustrates usage of an optional parameter in spi_exec_prepared
:
CREATE TABLE hosts AS SELECT id, ('192.168.1.'||id)::inet AS address FROM generate_series(1,3) AS id; CREATE OR REPLACE FUNCTION init_hosts_query() RETURNS VOID AS $$ $_SHARED{plan} = spi_prepare('SELECT * FROM hosts WHERE address << $1', 'inet'); $$ LANGUAGE plperl; CREATE OR REPLACE FUNCTION query_hosts(inet) RETURNS SETOF hosts AS $$ return spi_exec_prepared( $_SHARED{plan}, {limit => 2}, $_[0] )->{rows}; $$ LANGUAGE plperl; CREATE OR REPLACE FUNCTION release_hosts_query() RETURNS VOID AS $$ spi_freeplan($_SHARED{plan}); undef $_SHARED{plan}; $$ LANGUAGE plperl; SELECT init_hosts_query(); SELECT query_hosts('192.168.1.0/30'); SELECT release_hosts_query(); query_hosts ----------------- (1,192.168.1.1) (2,192.168.1.2) (2 rows)
spi_commit()
spi_rollback()
Commit or roll back the current transaction. This can only be called
in a procedure or anonymous code block (DO
command)
called from the top level. (Note that it is not possible to run the
SQL commands COMMIT
or ROLLBACK
via spi_exec_query
or similar. It has to be done
using these functions.) After a transaction is ended, a new
transaction is automatically started, so there is no separate function
for that.
Here is an example:
CREATE PROCEDURE transaction_test1() LANGUAGE plperl AS $$ foreach my $i (0..9) { spi_exec_query("INSERT INTO test1 (a) VALUES ($i)"); if ($i % 2 == 0) { spi_commit(); } else { spi_rollback(); } } $$; CALL transaction_test1();
elog(level
, msg
)
Emit a log or error message. Possible levels are
DEBUG
, LOG
, INFO
,
NOTICE
, WARNING
, and ERROR
.
ERROR
raises an error condition; if this is not trapped by the surrounding
Perl code, the error propagates out to the calling query, causing
the current transaction or subtransaction to be aborted. This
is effectively the same as the Perl die
command.
The other levels only generate messages of different
priority levels.
Whether messages of a particular priority are reported to the client,
written to the server log, or both is controlled by the
log_min_messages and
client_min_messages configuration
variables. See Chapter 20 for more
information.
quote_literal(string
)
Return the given string suitably quoted to be used as a string literal in an SQL
statement string. Embedded single-quotes and backslashes are properly doubled.
Note that quote_literal
returns undef on undef input; if the argument
might be undef, quote_nullable
is often more suitable.
quote_nullable(string
)
Return the given string suitably quoted to be used as a string literal in an SQL statement string; or, if the argument is undef, return the unquoted string "NULL". Embedded single-quotes and backslashes are properly doubled.
quote_ident(string
)
Return the given string suitably quoted to be used as an identifier in an SQL statement string. Quotes are added only if necessary (i.e., if the string contains non-identifier characters or would be case-folded). Embedded quotes are properly doubled.
decode_bytea(string
)
Return the unescaped binary data represented by the contents of the given string,
which should be bytea
encoded.
encode_bytea(string
)
Return the bytea
encoded form of the binary data contents of the given string.
encode_array_literal(array
)
encode_array_literal(array
, delimiter
)
Returns the contents of the referenced array as a string in array literal format
(see Section 8.15.2).
Returns the argument value unaltered if it's not a reference to an array.
The delimiter used between elements of the array literal defaults to ",
"
if a delimiter is not specified or is undef.
encode_typed_literal(value
, typename
)
Converts a Perl variable to the value of the data type passed as a second argument and returns a string representation of this value. Correctly handles nested arrays and values of composite types.
encode_array_constructor(array
)
Returns the contents of the referenced array as a string in array constructor format
(see Section 4.2.12).
Individual values are quoted using quote_nullable
.
Returns the argument value, quoted using quote_nullable
,
if it's not a reference to an array.
looks_like_number(string
)
Returns a true value if the content of the given string looks like a
number, according to Perl, returns false otherwise.
Returns undef if the argument is undef. Leading and trailing space is
ignored. Inf
and Infinity
are regarded as numbers.
is_array_ref(argument
)
Returns a true value if the given argument may be treated as an
array reference, that is, if ref of the argument is ARRAY
or
PostgreSQL::InServer::ARRAY
. Returns false otherwise.