src/test/singlenode_regress/sql/expressions.sql - cloudberry - Git at Google

 --
 -- expression evaluation tests that don't fit into a more specific file
 --

 --
 -- Tests for SQLVAlueFunction
 --


 -- current_date  (always matches because of transactional behaviour)
 SELECT date(now())::text = current_date::text;


 -- current_time / localtime
 SELECT now()::timetz::text = current_time::text;
 SELECT now()::timetz(4)::text = current_time(4)::text;
 SELECT now()::time::text = localtime::text;
 SELECT now()::time(3)::text = localtime(3)::text;

 -- current_timestamp / localtimestamp (always matches because of transactional behaviour)
 SELECT current_timestamp = NOW();
 -- precision
 SELECT length(current_timestamp::text) >= length(current_timestamp(0)::text);
 -- localtimestamp
 SELECT now()::timestamp::text = localtimestamp::text;

 -- current_role/user/user is tested in rolnames.sql

 -- current database / catalog
 SELECT current_catalog = current_database();

 -- current_schema
 SELECT current_schema;
 SET search_path = 'notme';
 SELECT current_schema;
 SET search_path = 'pg_catalog';
 SELECT current_schema;
 RESET search_path;


 --
 -- Tests for BETWEEN
 --

 explain (costs off)
 select count(*) from date_tbl
   where f1 between '1997-01-01' and '1998-01-01';
 select count(*) from date_tbl
   where f1 between '1997-01-01' and '1998-01-01';

 explain (costs off)
 select count(*) from date_tbl
   where f1 not between '1997-01-01' and '1998-01-01';
 select count(*) from date_tbl
   where f1 not between '1997-01-01' and '1998-01-01';

 explain (costs off)
 select count(*) from date_tbl
   where f1 between symmetric '1997-01-01' and '1998-01-01';
 select count(*) from date_tbl
   where f1 between symmetric '1997-01-01' and '1998-01-01';

 explain (costs off)
 select count(*) from date_tbl
   where f1 not between symmetric '1997-01-01' and '1998-01-01';
 select count(*) from date_tbl
   where f1 not between symmetric '1997-01-01' and '1998-01-01';


 --
 -- Test parsing of a no-op cast to a type with unspecified typmod
 --
 begin;

 create table numeric_tbl (f1 numeric(18,3), f2 numeric);

 create view numeric_view as
   select
     f1, f1::numeric(16,4) as f1164, f1::numeric as f1n,
     f2, f2::numeric(16,4) as f2164, f2::numeric as f2n
   from numeric_tbl;

 \d+ numeric_view

 explain (verbose, costs off) select * from numeric_view;

 -- bpchar, lacking planner support for its length coercion function,
 -- could behave differently

 create table bpchar_tbl (f1 character(16) unique, f2 bpchar);

 create view bpchar_view as
   select
     f1, f1::character(14) as f114, f1::bpchar as f1n,
     f2, f2::character(14) as f214, f2::bpchar as f2n
   from bpchar_tbl;

 \d+ bpchar_view

 explain (verbose, costs off) select * from bpchar_view
   where f1::bpchar = 'foo';

 rollback;


 --
 -- Ordinarily, IN/NOT IN can be converted to a ScalarArrayOpExpr
 -- with a suitably-chosen array type.
 --
 explain (verbose, costs off)
 select random() IN (1, 4, 8.0);
 explain (verbose, costs off)
 select random()::int IN (1, 4, 8.0);
 -- However, if there's not a common supertype for the IN elements,
 -- we should instead try to produce "x = v1 OR x = v2 OR ...".
 -- In most cases that'll fail for lack of all the requisite = operators,
 -- but it can succeed sometimes.  So this should complain about lack of
 -- an = operator, not about cast failure.
 select '(0,0)'::point in ('(0,0,0,0)'::box, point(0,0));


 --
 -- Tests for ScalarArrayOpExpr with a hashfn
 --

 -- create a stable function so that the tests below are not
 -- evaluated using the planner's constant folding.
 begin;

 create function return_int_input(int) returns int as $$
 begin
 	return $1;
 end;
 $$ language plpgsql stable;

 create function return_text_input(text) returns text as $$
 begin
 	return $1;
 end;
 $$ language plpgsql stable;

 select return_int_input(1) in (10, 9, 2, 8, 3, 7, 4, 6, 5, 1);
 select return_int_input(1) in (10, 9, 2, 8, 3, 7, 4, 6, 5, null);
 select return_int_input(1) in (null, null, null, null, null, null, null, null, null, null, null);
 select return_int_input(1) in (10, 9, 2, 8, 3, 7, 4, 6, 5, 1, null);
 select return_int_input(null::int) in (10, 9, 2, 8, 3, 7, 4, 6, 5, 1);
 select return_int_input(null::int) in (10, 9, 2, 8, 3, 7, 4, 6, 5, null);
 select return_text_input('a') in ('a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j');

 rollback;

 -- Test with non-strict equality function.
 -- We need to create our own type for this.

 begin;

 create type myint;
 create function myintin(cstring) returns myint strict immutable language
   internal as 'int4in';
 create function myintout(myint) returns cstring strict immutable language
   internal as 'int4out';
 create function myinthash(myint) returns integer strict immutable language
   internal as 'hashint4';

 create type myint (input = myintin, output = myintout, like = int4);

 create cast (int4 as myint) without function;
 create cast (myint as int4) without function;

 create function myinteq(myint, myint) returns bool as $$
 begin
   if $1 is null and $2 is null then
     return true;
   else
     return $1::int = $2::int;
   end if;
 end;
 $$ language plpgsql immutable;

 create operator = (
   leftarg    = myint,
   rightarg   = myint,
   commutator = =,
   negator    = <>,
   procedure  = myinteq,
   restrict   = eqsel,
   join       = eqjoinsel,
   merges
 );

 create operator class myint_ops
 default for type myint using hash as
   operator    1   =  (myint, myint),
   function    1   myinthash(myint);

 create table inttest (a myint);
 insert into inttest values(1::myint),(null);

 -- try an array with enough elements to cause hashing
 select * from inttest where a in (1::myint,2::myint,3::myint,4::myint,5::myint,6::myint,7::myint,8::myint,9::myint, null);
 -- ensure the result matched with the non-hashed version.  We simply remove
 -- some array elements so that we don't reach the hashing threshold.
 select * from inttest where a in (1::myint,2::myint,3::myint,4::myint,5::myint, null);

 rollback;
	--
	-- expression evaluation tests that don't fit into a more specific file
	--

	--
	-- Tests for SQLVAlueFunction
	--


	-- current_date (always matches because of transactional behaviour)
	SELECT date(now())::text = current_date::text;


	-- current_time / localtime
	SELECT now()::timetz::text = current_time::text;
	SELECT now()::timetz(4)::text = current_time(4)::text;
	SELECT now()::time::text = localtime::text;
	SELECT now()::time(3)::text = localtime(3)::text;

	-- current_timestamp / localtimestamp (always matches because of transactional behaviour)
	SELECT current_timestamp = NOW();
	-- precision
	SELECT length(current_timestamp::text) >= length(current_timestamp(0)::text);
	-- localtimestamp
	SELECT now()::timestamp::text = localtimestamp::text;

	-- current_role/user/user is tested in rolnames.sql

	-- current database / catalog
	SELECT current_catalog = current_database();

	-- current_schema
	SELECT current_schema;
	SET search_path = 'notme';
	SELECT current_schema;
	SET search_path = 'pg_catalog';
	SELECT current_schema;
	RESET search_path;


	--
	-- Tests for BETWEEN
	--

	explain (costs off)
	select count(*) from date_tbl
	where f1 between '1997-01-01' and '1998-01-01';
	select count(*) from date_tbl
	where f1 between '1997-01-01' and '1998-01-01';

	explain (costs off)
	select count(*) from date_tbl
	where f1 not between '1997-01-01' and '1998-01-01';
	select count(*) from date_tbl
	where f1 not between '1997-01-01' and '1998-01-01';

	explain (costs off)
	select count(*) from date_tbl
	where f1 between symmetric '1997-01-01' and '1998-01-01';
	select count(*) from date_tbl
	where f1 between symmetric '1997-01-01' and '1998-01-01';

	explain (costs off)
	select count(*) from date_tbl
	where f1 not between symmetric '1997-01-01' and '1998-01-01';
	select count(*) from date_tbl
	where f1 not between symmetric '1997-01-01' and '1998-01-01';


	--
	-- Test parsing of a no-op cast to a type with unspecified typmod
	--
	begin;

	create table numeric_tbl (f1 numeric(18,3), f2 numeric);

	create view numeric_view as
	select
	f1, f1::numeric(16,4) as f1164, f1::numeric as f1n,
	f2, f2::numeric(16,4) as f2164, f2::numeric as f2n
	from numeric_tbl;

	\d+ numeric_view

	explain (verbose, costs off) select * from numeric_view;

	-- bpchar, lacking planner support for its length coercion function,
	-- could behave differently

	create table bpchar_tbl (f1 character(16) unique, f2 bpchar);

	create view bpchar_view as
	select
	f1, f1::character(14) as f114, f1::bpchar as f1n,
	f2, f2::character(14) as f214, f2::bpchar as f2n
	from bpchar_tbl;

	\d+ bpchar_view

	explain (verbose, costs off) select * from bpchar_view
	where f1::bpchar = 'foo';

	rollback;


	--
	-- Ordinarily, IN/NOT IN can be converted to a ScalarArrayOpExpr
	-- with a suitably-chosen array type.
	--
	explain (verbose, costs off)
	select random() IN (1, 4, 8.0);
	explain (verbose, costs off)
	select random()::int IN (1, 4, 8.0);
	-- However, if there's not a common supertype for the IN elements,
	-- we should instead try to produce "x = v1 OR x = v2 OR ...".
	-- In most cases that'll fail for lack of all the requisite = operators,
	-- but it can succeed sometimes. So this should complain about lack of
	-- an = operator, not about cast failure.
	select '(0,0)'::point in ('(0,0,0,0)'::box, point(0,0));


	--
	-- Tests for ScalarArrayOpExpr with a hashfn
	--

	-- create a stable function so that the tests below are not
	-- evaluated using the planner's constant folding.
	begin;

	create function return_int_input(int) returns int as $$
	begin
	return $1;
	end;
	$$ language plpgsql stable;

	create function return_text_input(text) returns text as $$
	begin
	return $1;
	end;
	$$ language plpgsql stable;

	select return_int_input(1) in (10, 9, 2, 8, 3, 7, 4, 6, 5, 1);
	select return_int_input(1) in (10, 9, 2, 8, 3, 7, 4, 6, 5, null);
	select return_int_input(1) in (null, null, null, null, null, null, null, null, null, null, null);
	select return_int_input(1) in (10, 9, 2, 8, 3, 7, 4, 6, 5, 1, null);
	select return_int_input(null::int) in (10, 9, 2, 8, 3, 7, 4, 6, 5, 1);
	select return_int_input(null::int) in (10, 9, 2, 8, 3, 7, 4, 6, 5, null);
	select return_text_input('a') in ('a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j');

	rollback;

	-- Test with non-strict equality function.
	-- We need to create our own type for this.

	begin;

	create type myint;
	create function myintin(cstring) returns myint strict immutable language
	internal as 'int4in';
	create function myintout(myint) returns cstring strict immutable language
	internal as 'int4out';
	create function myinthash(myint) returns integer strict immutable language
	internal as 'hashint4';

	create type myint (input = myintin, output = myintout, like = int4);

	create cast (int4 as myint) without function;
	create cast (myint as int4) without function;

	create function myinteq(myint, myint) returns bool as $$
	begin
	if $1 is null and $2 is null then
	return true;
	else
	return $1::int = $2::int;
	end if;
	end;
	$$ language plpgsql immutable;

	create operator = (
	leftarg = myint,
	rightarg = myint,
	commutator = =,
	negator = <>,
	procedure = myinteq,
	restrict = eqsel,
	join = eqjoinsel,
	merges
	);

	create operator class myint_ops
	default for type myint using hash as
	operator 1 = (myint, myint),
	function 1 myinthash(myint);

	create table inttest (a myint);
	insert into inttest values(1::myint),(null);

	-- try an array with enough elements to cause hashing
	select * from inttest where a in (1::myint,2::myint,3::myint,4::myint,5::myint,6::myint,7::myint,8::myint,9::myint, null);
	-- ensure the result matched with the non-hashed version. We simply remove
	-- some array elements so that we don't reach the hashing threshold.
	select * from inttest where a in (1::myint,2::myint,3::myint,4::myint,5::myint, null);

	rollback;