--
-- Test result value processing
--

CREATE OR REPLACE FUNCTION perl_int(int) RETURNS INTEGER AS $$
return undef;
$$ LANGUAGE plperl;

SELECT perl_int(11);
SELECT * FROM perl_int(42);

CREATE OR REPLACE FUNCTION perl_int(int) RETURNS INTEGER AS $$
return $_[0] + 1;
$$ LANGUAGE plperl;

SELECT perl_int(11);
SELECT * FROM perl_int(42);


CREATE OR REPLACE FUNCTION perl_set_int(int) RETURNS SETOF INTEGER AS $$
return undef;
$$ LANGUAGE plperl;

SELECT perl_set_int(5);
SELECT * FROM perl_set_int(5);

CREATE OR REPLACE FUNCTION perl_set_int(int) RETURNS SETOF INTEGER AS $$
return [0..$_[0]];
$$ LANGUAGE plperl;

SELECT perl_set_int(5);
SELECT * FROM perl_set_int(5);


CREATE TYPE testnestperl AS (f5 integer[]);
CREATE TYPE testrowperl AS (f1 integer, f2 text, f3 text, f4 testnestperl);

CREATE OR REPLACE FUNCTION perl_row() RETURNS testrowperl AS $$
    return undef;
$$ LANGUAGE plperl;

SELECT perl_row();
SELECT * FROM perl_row();


CREATE OR REPLACE FUNCTION perl_row() RETURNS testrowperl AS $$
    return {f2 => 'hello', f1 => 1, f3 => 'world', 'f4' => { 'f5' => [[1]] } };
$$ LANGUAGE plperl;

SELECT perl_row();
SELECT * FROM perl_row();

-- test returning a composite literal
CREATE OR REPLACE FUNCTION perl_row_lit() RETURNS testrowperl AS $$
    return '(1,hello,world,"({{1}})")';
$$ LANGUAGE plperl;

SELECT perl_row_lit();


CREATE OR REPLACE FUNCTION perl_set() RETURNS SETOF testrowperl AS $$
    return undef;
$$  LANGUAGE plperl;

SELECT perl_set();
SELECT * FROM perl_set();

CREATE OR REPLACE FUNCTION perl_set() RETURNS SETOF testrowperl AS $$
    return [
        { f1 => 1, f2 => 'Hello', f3 =>  'World' },
        undef,
        { f1 => 3, f2 => 'Hello', f3 =>  'PL/Perl', 'f4' => {} },
        { f1 => 4, f2 => 'Hello', f3 =>  'PL/Perl', 'f4' => { 'f5' => undef }},
        { f1 => 5, f2 => 'Hello', f3 =>  'PL/Perl', 'f4' => { 'f5' => '{1}' }},
        { f1 => 6, f2 => 'Hello', f3 =>  'PL/Perl', 'f4' => { 'f5' => [1] }},
    ];
$$  LANGUAGE plperl;

SELECT perl_set();
SELECT * FROM perl_set();

CREATE OR REPLACE FUNCTION perl_set() RETURNS SETOF testrowperl AS $$
    return [
        { f1 => 1, f2 => 'Hello', f3 =>  'World' },
        { f1 => 2, f2 => 'Hello', f3 =>  'PostgreSQL', 'f4' => undef },
        { f1 => 3, f2 => 'Hello', f3 =>  'PL/Perl', 'f4' => {} },
        { f1 => 4, f2 => 'Hello', f3 =>  'PL/Perl', 'f4' => { 'f5' => undef }},
        { f1 => 5, f2 => 'Hello', f3 =>  'PL/Perl', 'f4' => { 'f5' => '{1}' }},
        { f1 => 6, f2 => 'Hello', f3 =>  'PL/Perl', 'f4' => { 'f5' => [1] }},
        { f1 => 7, f2 => 'Hello', f3 =>  'PL/Perl', 'f4' => '({1})' },
    ];
$$  LANGUAGE plperl;

SELECT perl_set();
SELECT * FROM perl_set();

CREATE OR REPLACE FUNCTION perl_record() RETURNS record AS $$
    return undef;
$$ LANGUAGE plperl;

SELECT perl_record();
SELECT * FROM perl_record();
SELECT * FROM perl_record() AS (f1 integer, f2 text, f3 text, f4 testnestperl);

CREATE OR REPLACE FUNCTION perl_record() RETURNS record AS $$
    return {f2 => 'hello', f1 => 1, f3 => 'world', 'f4' => { 'f5' => [1] } };
$$ LANGUAGE plperl;

SELECT perl_record();
SELECT * FROM perl_record();
SELECT * FROM perl_record() AS (f1 integer, f2 text, f3 text, f4 testnestperl);


CREATE OR REPLACE FUNCTION perl_record_set() RETURNS SETOF record AS $$
    return undef;
$$  LANGUAGE plperl;

SELECT perl_record_set();
SELECT * FROM perl_record_set();
SELECT * FROM perl_record_set() AS (f1 integer, f2 text, f3 text);

CREATE OR REPLACE FUNCTION perl_record_set() RETURNS SETOF record AS $$
    return [
        { f1 => 1, f2 => 'Hello', f3 =>  'World' },
        undef,
        { f1 => 3, f2 => 'Hello', f3 =>  'PL/Perl' }
    ];
$$  LANGUAGE plperl;

SELECT perl_record_set();
SELECT * FROM perl_record_set();
SELECT * FROM perl_record_set() AS (f1 integer, f2 text, f3 text);

CREATE OR REPLACE FUNCTION perl_record_set() RETURNS SETOF record AS $$
    return [
        { f1 => 1, f2 => 'Hello', f3 =>  'World' },
        { f1 => 2, f2 => 'Hello', f3 =>  'PostgreSQL' },
        { f1 => 3, f2 => 'Hello', f3 =>  'PL/Perl' }
    ];
$$  LANGUAGE plperl;

SELECT perl_record_set();
SELECT * FROM perl_record_set();
SELECT * FROM perl_record_set() AS (f1 integer, f2 text, f3 text);

CREATE OR REPLACE FUNCTION
perl_out_params(f1 out integer, f2 out text, f3 out text) AS $$
    return {f2 => 'hello', f1 => 1, f3 => 'world'};
$$ LANGUAGE plperl;

SELECT perl_out_params();
SELECT * FROM perl_out_params();
SELECT (perl_out_params()).f2;

CREATE OR REPLACE FUNCTION
perl_out_params_set(out f1 integer, out f2 text, out f3 text)
RETURNS SETOF record AS $$
    return [
        { f1 => 1, f2 => 'Hello', f3 =>  'World' },
        { f1 => 2, f2 => 'Hello', f3 =>  'PostgreSQL' },
        { f1 => 3, f2 => 'Hello', f3 =>  'PL/Perl' }
    ];
$$  LANGUAGE plperl;

SELECT perl_out_params_set();
SELECT * FROM perl_out_params_set();
SELECT (perl_out_params_set()).f3;

--
-- Check behavior with erroneous return values
--

CREATE TYPE footype AS (x INTEGER, y INTEGER);

CREATE OR REPLACE FUNCTION foo_good() RETURNS SETOF footype AS $$
return [
    {x => 1, y => 2},
    {x => 3, y => 4}
];
$$ LANGUAGE plperl;

SELECT * FROM foo_good();

CREATE OR REPLACE FUNCTION foo_bad() RETURNS footype AS $$
    return {y => 3, z => 4};
$$ LANGUAGE plperl;

SELECT * FROM foo_bad();

CREATE OR REPLACE FUNCTION foo_bad() RETURNS footype AS $$
return 42;
$$ LANGUAGE plperl;

SELECT * FROM foo_bad();

CREATE OR REPLACE FUNCTION foo_bad() RETURNS footype AS $$
return [
    [1, 2],
    [3, 4]
];
$$ LANGUAGE plperl;

SELECT * FROM foo_bad();

CREATE OR REPLACE FUNCTION foo_set_bad() RETURNS SETOF footype AS $$
    return 42;
$$ LANGUAGE plperl;

SELECT * FROM foo_set_bad();

CREATE OR REPLACE FUNCTION foo_set_bad() RETURNS SETOF footype AS $$
    return {y => 3, z => 4};
$$ LANGUAGE plperl;

SELECT * FROM foo_set_bad();

CREATE OR REPLACE FUNCTION foo_set_bad() RETURNS SETOF footype AS $$
return [
    [1, 2],
    [3, 4]
];
$$ LANGUAGE plperl;

SELECT * FROM foo_set_bad();

CREATE OR REPLACE FUNCTION foo_set_bad() RETURNS SETOF footype AS $$
return [
    {y => 3, z => 4}
];
$$ LANGUAGE plperl;

SELECT * FROM foo_set_bad();

CREATE DOMAIN orderedfootype AS footype CHECK ((VALUE).x <= (VALUE).y);

CREATE OR REPLACE FUNCTION foo_ordered() RETURNS orderedfootype AS $$
    return {x => 3, y => 4};
$$ LANGUAGE plperl;

SELECT * FROM foo_ordered();

CREATE OR REPLACE FUNCTION foo_ordered() RETURNS orderedfootype AS $$
    return {x => 5, y => 4};
$$ LANGUAGE plperl;

SELECT * FROM foo_ordered();  -- fail

CREATE OR REPLACE FUNCTION foo_ordered_set() RETURNS SETOF orderedfootype AS $$
return [
    {x => 3, y => 4},
    {x => 4, y => 7}
];
$$ LANGUAGE plperl;

SELECT * FROM foo_ordered_set();

CREATE OR REPLACE FUNCTION foo_ordered_set() RETURNS SETOF orderedfootype AS $$
return [
    {x => 3, y => 4},
    {x => 9, y => 7}
];
$$ LANGUAGE plperl;

SELECT * FROM foo_ordered_set();  -- fail

--
-- Check passing a tuple argument
--

CREATE OR REPLACE FUNCTION perl_get_field(footype, text) RETURNS integer AS $$
    return $_[0]->{$_[1]};
$$ LANGUAGE plperl;

SELECT perl_get_field((11,12), 'x');
SELECT perl_get_field((11,12), 'y');
SELECT perl_get_field((11,12), 'z');

CREATE OR REPLACE FUNCTION perl_get_cfield(orderedfootype, text) RETURNS integer AS $$
    return $_[0]->{$_[1]};
$$ LANGUAGE plperl;

SELECT perl_get_cfield((11,12), 'x');
SELECT perl_get_cfield((11,12), 'y');
SELECT perl_get_cfield((12,11), 'x');  -- fail

CREATE OR REPLACE FUNCTION perl_get_rfield(record, text) RETURNS integer AS $$
    return $_[0]->{$_[1]};
$$ LANGUAGE plperl;

SELECT perl_get_rfield((11,12), 'f1');
SELECT perl_get_rfield((11,12)::footype, 'y');
SELECT perl_get_rfield((11,12)::orderedfootype, 'x');
SELECT perl_get_rfield((12,11)::orderedfootype, 'x');  -- fail

--
-- Test return_next
--

CREATE OR REPLACE FUNCTION perl_srf_rn() RETURNS SETOF RECORD AS $$
my $i = 0;
for ("World", "PostgreSQL", "PL/Perl") {
    return_next({f1=>++$i, f2=>'Hello', f3=>$_});
}
return;
$$ language plperl;
SELECT * from perl_srf_rn() AS (f1 INTEGER, f2 TEXT, f3 TEXT);

--
-- Test spi_query/spi_fetchrow
--

CREATE OR REPLACE FUNCTION perl_spi_func() RETURNS SETOF INTEGER AS $$
my $x = spi_query("select 1 as a union select 2 as a");
while (defined (my $y = spi_fetchrow($x))) {
    return_next($y->{a});
}
return;
$$ LANGUAGE plperl;
SELECT * from perl_spi_func();

--
-- Test spi_fetchrow abort
--
CREATE OR REPLACE FUNCTION perl_spi_func2() RETURNS INTEGER AS $$
my $x = spi_query("select 1 as a union select 2 as a");
spi_cursor_close( $x);
return 0;
$$ LANGUAGE plperl;
SELECT * from perl_spi_func2();


---
--- Test recursion via SPI
---


CREATE OR REPLACE FUNCTION recurse(i int) RETURNS SETOF TEXT LANGUAGE plperl
AS $$

  my $i = shift;
  foreach my $x (1..$i)
  {
    return_next "hello $x";
  }
  if ($i > 2)
  {
    my $z = $i-1;
    my $cursor = spi_query("select * from recurse($z)");
    while (defined(my $row = spi_fetchrow($cursor)))
    {
      return_next "recurse $i: $row->{recurse}";
    }
  }
  return undef;

$$;

SELECT * FROM recurse(2);
SELECT * FROM recurse(3);


---
--- Test array return
---
CREATE OR REPLACE FUNCTION  array_of_text() RETURNS TEXT[][]
LANGUAGE plperl as $$
    return [['a"b',undef,'c,d'],['e\\f',undef,'g']];
$$;

SELECT array_of_text();

--
-- Test spi_prepare/spi_exec_prepared/spi_freeplan
--
CREATE OR REPLACE FUNCTION perl_spi_prepared(INTEGER) RETURNS INTEGER AS $$
   my $x = spi_prepare('select $1 AS a', 'INTEGER');
   my $q = spi_exec_prepared( $x, $_[0] + 1);
   spi_freeplan($x);
return $q->{rows}->[0]->{a};
$$ LANGUAGE plperl;
SELECT * from perl_spi_prepared(42);

--
-- Test spi_prepare/spi_query_prepared/spi_freeplan
--
CREATE OR REPLACE FUNCTION perl_spi_prepared_set(INTEGER, INTEGER) RETURNS SETOF INTEGER AS $$
  my $x = spi_prepare('SELECT $1 AS a union select $2 as a', 'INT4', 'INT4');
  my $q = spi_query_prepared( $x, 1+$_[0], 2+$_[1]);
  while (defined (my $y = spi_fetchrow($q))) {
      return_next $y->{a};
  }
  spi_freeplan($x);
  return;
$$ LANGUAGE plperl;
SELECT * from perl_spi_prepared_set(1,2);

--
-- Test prepare with a type with spaces
--
CREATE OR REPLACE FUNCTION perl_spi_prepared_double(double precision) RETURNS double precision AS $$
  my $x = spi_prepare('SELECT 10.0 * $1 AS a', 'DOUBLE PRECISION');
  my $q = spi_query_prepared($x,$_[0]);
  my $result;
  while (defined (my $y = spi_fetchrow($q))) {
      $result = $y->{a};
  }
  spi_freeplan($x);
  return $result;
$$ LANGUAGE plperl;
SELECT perl_spi_prepared_double(4.35) as "double precision";

--
-- Test with a bad type
--
CREATE OR REPLACE FUNCTION perl_spi_prepared_bad(double precision) RETURNS double precision AS $$
  my $x = spi_prepare('SELECT 10.0 * $1 AS a', 'does_not_exist');
  my $q = spi_query_prepared($x,$_[0]);
  my $result;
  while (defined (my $y = spi_fetchrow($q))) {
      $result = $y->{a};
  }
  spi_freeplan($x);
  return $result;
$$ LANGUAGE plperl;
SELECT perl_spi_prepared_bad(4.35) as "double precision";

-- Test with a row type
CREATE OR REPLACE FUNCTION perl_spi_prepared() RETURNS INTEGER AS $$
   my $x = spi_prepare('select $1::footype AS a', 'footype');
   my $q = spi_exec_prepared( $x, '(1, 2)');
   spi_freeplan($x);
return $q->{rows}->[0]->{a}->{x};
$$ LANGUAGE plperl;
SELECT * from perl_spi_prepared();

CREATE OR REPLACE FUNCTION perl_spi_prepared_row(footype) RETURNS footype AS $$
   my $footype = shift;
   my $x = spi_prepare('select $1 AS a', 'footype');
   my $q = spi_exec_prepared( $x, {}, $footype );
   spi_freeplan($x);
return $q->{rows}->[0]->{a};
$$ LANGUAGE plperl;
SELECT * from perl_spi_prepared_row('(1, 2)');

-- simple test of a DO block
DO $$
  $a = 'This is a test';
  elog(NOTICE, $a);
$$ LANGUAGE plperl;

-- check that restricted operations are rejected in a plperl DO block
DO $$ system("/nonesuch"); $$ LANGUAGE plperl;
DO $$ qx("/nonesuch"); $$ LANGUAGE plperl;
DO $$ open my $fh, "</nonesuch"; $$ LANGUAGE plperl;

-- check that eval is allowed and eval'd restricted ops are caught
DO $$ eval q{chdir '.';}; warn "Caught: $@"; $$ LANGUAGE plperl;

-- check that compiling do (dofile opcode) is allowed
-- but that executing it for a file not already loaded (via require) dies
DO $$ warn do "/dev/null"; $$ LANGUAGE plperl;

-- check that we can't "use" a module that's not been loaded already
-- compile-time error: "Unable to load blib.pm into plperl"
DO $$ use blib; $$ LANGUAGE plperl;

-- check that we can "use" a module that has already been loaded
-- runtime error: "Can't use string ("foo") as a SCALAR ref while "strict refs" in use
DO $do$ use strict; my $name = "foo"; my $ref = $$name; $do$ LANGUAGE plperl;

-- check that we can "use warnings" (in this case to turn a warn into an error)
-- yields "ERROR:  Useless use of sort in scalar context."
DO $do$ use warnings FATAL => qw(void) ; my @y; my $x = sort @y; 1; $do$ LANGUAGE plperl;

-- make sure functions marked as VOID without an explicit return work
CREATE OR REPLACE FUNCTION myfuncs() RETURNS void AS $$
   $_SHARED{myquote} = sub {
       my $arg = shift;
       $arg =~ s/(['\\])/\\$1/g;
       return "'$arg'";
   };
$$ LANGUAGE plperl;

SELECT myfuncs();

-- make sure we can't return an array as a scalar
CREATE OR REPLACE FUNCTION text_arrayref() RETURNS text AS $$
	return ['array'];
$$ LANGUAGE plperl;

SELECT text_arrayref();

--- make sure we can't return a hash as a scalar
CREATE OR REPLACE FUNCTION text_hashref() RETURNS text AS $$
	return {'hash'=>1};
$$ LANGUAGE plperl;

SELECT text_hashref();

---- make sure we can't return a blessed object as a scalar
CREATE OR REPLACE FUNCTION text_obj() RETURNS text AS $$
	return bless({}, 'Fake::Object');
$$ LANGUAGE plperl;

SELECT text_obj();

-- test looking through a scalar ref
CREATE OR REPLACE FUNCTION text_scalarref() RETURNS text AS $$
	my $str = 'str';
	return \$str;
$$ LANGUAGE plperl;

SELECT text_scalarref();

-- check safe behavior when a function body is replaced during execution
CREATE OR REPLACE FUNCTION self_modify(INTEGER) RETURNS INTEGER AS $$
   spi_exec_query('CREATE OR REPLACE FUNCTION self_modify(INTEGER) RETURNS INTEGER AS \'return $_[0] * 3;\' LANGUAGE plperl;');
   spi_exec_query('select self_modify(42) AS a');
   return $_[0] * 2;
$$ LANGUAGE plperl;

SELECT self_modify(42);
SELECT self_modify(42);