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/*
* This test is for Linux/glibc systems and assumes that a full set of
* locales is installed. It must be run in a database with UTF-8 encoding,
* because other encodings don't support all the characters used.
*/
SELECT getdatabaseencoding() <> 'UTF8' OR
(SELECT count(*) FROM pg_collation WHERE collname IN ('de_DE', 'en_US', 'sv_SE', 'tr_TR') AND collencoding = pg_char_to_encoding('UTF8')) <> 4 OR
version() !~ 'linux-gnu'
AS skip_test \gset
\if :skip_test
\quit
\endif
SET client_encoding TO UTF8;
CREATE SCHEMA collate_tests;
SET search_path = collate_tests;
CREATE TABLE collate_test1 (
a int,
b text COLLATE "en_US" NOT NULL
);
\d collate_test1
CREATE TABLE collate_test_fail (
a int,
b text COLLATE "ja_JP.eucjp"
);
CREATE TABLE collate_test_fail (
a int,
b text COLLATE "foo"
);
CREATE TABLE collate_test_fail (
a int COLLATE "en_US",
b text
);
CREATE TABLE collate_test_like (
LIKE collate_test1
);
\d collate_test_like
CREATE TABLE collate_test2 (
a int,
b text COLLATE "sv_SE"
);
CREATE TABLE collate_test3 (
a int,
b text COLLATE "C"
);
INSERT INTO collate_test1 VALUES (1, 'abc'), (2, 'äbc'), (3, 'bbc'), (4, 'ABC');
INSERT INTO collate_test2 SELECT * FROM collate_test1;
INSERT INTO collate_test3 SELECT * FROM collate_test1;
SELECT * FROM collate_test1 WHERE b >= 'bbc';
SELECT * FROM collate_test2 WHERE b >= 'bbc';
SELECT * FROM collate_test3 WHERE b >= 'bbc';
SELECT * FROM collate_test3 WHERE b >= 'BBC';
SELECT * FROM collate_test1 WHERE b COLLATE "C" >= 'bbc';
SELECT * FROM collate_test1 WHERE b >= 'bbc' COLLATE "C";
SELECT * FROM collate_test1 WHERE b COLLATE "C" >= 'bbc' COLLATE "C";
SELECT * FROM collate_test1 WHERE b COLLATE "C" >= 'bbc' COLLATE "en_US";
CREATE DOMAIN testdomain_sv AS text COLLATE "sv_SE";
CREATE DOMAIN testdomain_i AS int COLLATE "sv_SE"; -- fails
CREATE TABLE collate_test4 (
a int,
b testdomain_sv
);
INSERT INTO collate_test4 SELECT * FROM collate_test1;
SELECT a, b FROM collate_test4 ORDER BY b;
CREATE TABLE collate_test5 (
a int,
b testdomain_sv COLLATE "en_US"
);
INSERT INTO collate_test5 SELECT * FROM collate_test1;
SELECT a, b FROM collate_test5 ORDER BY b;
SELECT a, b FROM collate_test1 ORDER BY b;
SELECT a, b FROM collate_test2 ORDER BY b;
SELECT a, b FROM collate_test3 ORDER BY b;
SELECT a, b FROM collate_test1 ORDER BY b COLLATE "C";
-- star expansion
SELECT * FROM collate_test1 ORDER BY b;
SELECT * FROM collate_test2 ORDER BY b;
SELECT * FROM collate_test3 ORDER BY b;
-- constant expression folding
SELECT 'bbc' COLLATE "en_US" > 'äbc' COLLATE "en_US" AS "true";
SELECT 'bbc' COLLATE "sv_SE" > 'äbc' COLLATE "sv_SE" AS "false";
-- upper/lower
CREATE TABLE collate_test10 (
a int,
x text COLLATE "en_US",
y text COLLATE "tr_TR"
);
INSERT INTO collate_test10 VALUES (1, 'hij', 'hij'), (2, 'HIJ', 'HIJ');
SELECT a, lower(x), lower(y), upper(x), upper(y), initcap(x), initcap(y) FROM collate_test10;
SELECT a, lower(x COLLATE "C"), lower(y COLLATE "C") FROM collate_test10;
SELECT a, x, y FROM collate_test10 ORDER BY lower(y), a;
-- LIKE/ILIKE
SELECT * FROM collate_test1 WHERE b LIKE 'abc';
SELECT * FROM collate_test1 WHERE b LIKE 'abc%';
SELECT * FROM collate_test1 WHERE b LIKE '%bc%';
SELECT * FROM collate_test1 WHERE b ILIKE 'abc';
SELECT * FROM collate_test1 WHERE b ILIKE 'abc%';
SELECT * FROM collate_test1 WHERE b ILIKE '%bc%';
SELECT 'Türkiye' COLLATE "en_US" ILIKE '%KI%' AS "true";
SELECT 'Türkiye' COLLATE "tr_TR" ILIKE '%KI%' AS "false";
SELECT 'bıt' ILIKE 'BIT' COLLATE "en_US" AS "false";
SELECT 'bıt' ILIKE 'BIT' COLLATE "tr_TR" AS "true";
-- The following actually exercises the selectivity estimation for ILIKE.
SELECT relname FROM pg_class WHERE relname ILIKE 'abc%';
-- regular expressions
SELECT * FROM collate_test1 WHERE b ~ '^abc$';
SELECT * FROM collate_test1 WHERE b ~ '^abc';
SELECT * FROM collate_test1 WHERE b ~ 'bc';
SELECT * FROM collate_test1 WHERE b ~* '^abc$';
SELECT * FROM collate_test1 WHERE b ~* '^abc';
SELECT * FROM collate_test1 WHERE b ~* 'bc';
CREATE TABLE collate_test6 (
a int,
b text COLLATE "en_US"
);
INSERT INTO collate_test6 VALUES (1, 'abc'), (2, 'ABC'), (3, '123'), (4, 'ab1'),
(5, 'a1!'), (6, 'a c'), (7, '!.;'), (8, ' '),
(9, 'äbç'), (10, 'ÄBÇ');
SELECT b,
b ~ '^[[:alpha:]]+$' AS is_alpha,
b ~ '^[[:upper:]]+$' AS is_upper,
b ~ '^[[:lower:]]+$' AS is_lower,
b ~ '^[[:digit:]]+$' AS is_digit,
b ~ '^[[:alnum:]]+$' AS is_alnum,
b ~ '^[[:graph:]]+$' AS is_graph,
b ~ '^[[:print:]]+$' AS is_print,
b ~ '^[[:punct:]]+$' AS is_punct,
b ~ '^[[:space:]]+$' AS is_space
FROM collate_test6;
SELECT 'Türkiye' COLLATE "en_US" ~* 'KI' AS "true";
SELECT 'Türkiye' COLLATE "tr_TR" ~* 'KI' AS "false";
SELECT 'bıt' ~* 'BIT' COLLATE "en_US" AS "false";
SELECT 'bıt' ~* 'BIT' COLLATE "tr_TR" AS "true";
-- The following actually exercises the selectivity estimation for ~*.
SELECT relname FROM pg_class WHERE relname ~* '^abc';
-- to_char
SET lc_time TO 'tr_TR';
SELECT to_char(date '2010-02-01', 'DD TMMON YYYY');
SELECT to_char(date '2010-02-01', 'DD TMMON YYYY' COLLATE "tr_TR");
SELECT to_char(date '2010-04-01', 'DD TMMON YYYY');
SELECT to_char(date '2010-04-01', 'DD TMMON YYYY' COLLATE "tr_TR");
-- to_date
SELECT to_date('01 ŞUB 2010', 'DD TMMON YYYY');
SELECT to_date('01 Şub 2010', 'DD TMMON YYYY');
SELECT to_date('1234567890ab 2010', 'TMMONTH YYYY'); -- fail
-- backwards parsing
CREATE VIEW collview1 AS SELECT * FROM collate_test1 WHERE b COLLATE "C" >= 'bbc';
CREATE VIEW collview2 AS SELECT a, b FROM collate_test1 ORDER BY b COLLATE "C";
CREATE VIEW collview3 AS SELECT a, lower((x || x) COLLATE "C") FROM collate_test10;
SELECT table_name, view_definition FROM information_schema.views
WHERE table_name LIKE 'collview%' ORDER BY 1;
-- collation propagation in various expression types
SELECT a, coalesce(b, 'foo') FROM collate_test1 ORDER BY 2;
SELECT a, coalesce(b, 'foo') FROM collate_test2 ORDER BY 2;
SELECT a, coalesce(b, 'foo') FROM collate_test3 ORDER BY 2;
SELECT a, lower(coalesce(x, 'foo')), lower(coalesce(y, 'foo')) FROM collate_test10;
SELECT a, b, greatest(b, 'CCC') FROM collate_test1 ORDER BY 3;
SELECT a, b, greatest(b, 'CCC') FROM collate_test2 ORDER BY 3;
SELECT a, b, greatest(b, 'CCC') FROM collate_test3 ORDER BY 3;
SELECT a, x, y, lower(greatest(x, 'foo')), lower(greatest(y, 'foo')) FROM collate_test10;
SELECT a, nullif(b, 'abc') FROM collate_test1 ORDER BY 2;
SELECT a, nullif(b, 'abc') FROM collate_test2 ORDER BY 2;
SELECT a, nullif(b, 'abc') FROM collate_test3 ORDER BY 2;
SELECT a, lower(nullif(x, 'foo')), lower(nullif(y, 'foo')) FROM collate_test10;
SELECT a, CASE b WHEN 'abc' THEN 'abcd' ELSE b END FROM collate_test1 ORDER BY 2;
SELECT a, CASE b WHEN 'abc' THEN 'abcd' ELSE b END FROM collate_test2 ORDER BY 2;
SELECT a, CASE b WHEN 'abc' THEN 'abcd' ELSE b END FROM collate_test3 ORDER BY 2;
CREATE DOMAIN testdomain AS text;
SELECT a, b::testdomain FROM collate_test1 ORDER BY 2;
SELECT a, b::testdomain FROM collate_test2 ORDER BY 2;
SELECT a, b::testdomain FROM collate_test3 ORDER BY 2;
SELECT a, b::testdomain_sv FROM collate_test3 ORDER BY 2;
SELECT a, lower(x::testdomain), lower(y::testdomain) FROM collate_test10;
SELECT min(b), max(b) FROM collate_test1;
SELECT min(b), max(b) FROM collate_test2;
SELECT min(b), max(b) FROM collate_test3;
SELECT array_agg(b ORDER BY b) FROM collate_test1;
SELECT array_agg(b ORDER BY b) FROM collate_test2;
SELECT array_agg(b ORDER BY b) FROM collate_test3;
SELECT a, b FROM collate_test1 UNION ALL SELECT a, b FROM collate_test1 ORDER BY 2;
SELECT a, b FROM collate_test2 UNION SELECT a, b FROM collate_test2 ORDER BY 2;
SELECT a, b FROM collate_test3 WHERE a < 4 INTERSECT SELECT a, b FROM collate_test3 WHERE a > 1 ORDER BY 2;
SELECT a, b FROM collate_test3 EXCEPT SELECT a, b FROM collate_test3 WHERE a < 2 ORDER BY 2;
SELECT a, b FROM collate_test1 UNION ALL SELECT a, b FROM collate_test3 ORDER BY 2; -- fail
SELECT a, b FROM collate_test1 UNION ALL SELECT a, b FROM collate_test3; -- ok
SELECT a, b FROM collate_test1 UNION SELECT a, b FROM collate_test3 ORDER BY 2; -- fail
SELECT a, b COLLATE "C" FROM collate_test1 UNION SELECT a, b FROM collate_test3 ORDER BY 2; -- ok
SELECT a, b FROM collate_test1 INTERSECT SELECT a, b FROM collate_test3 ORDER BY 2; -- fail
SELECT a, b FROM collate_test1 EXCEPT SELECT a, b FROM collate_test3 ORDER BY 2; -- fail
CREATE TABLE test_u AS SELECT a, b FROM collate_test1 UNION ALL SELECT a, b FROM collate_test3; -- fail
-- ideally this would be a parse-time error, but for now it must be run-time:
select x < y from collate_test10; -- fail
select x || y from collate_test10; -- ok, because || is not collation aware
select x, y from collate_test10 order by x || y; -- not so ok
-- collation mismatch between recursive and non-recursive term
WITH RECURSIVE foo(x) AS
(SELECT x FROM (VALUES('a' COLLATE "en_US"),('b')) t(x)
UNION ALL
SELECT (x || 'c') COLLATE "de_DE" FROM foo WHERE length(x) < 10)
SELECT * FROM foo;
-- casting
SELECT CAST('42' AS text COLLATE "C");
SELECT a, CAST(b AS varchar) FROM collate_test1 ORDER BY 2;
SELECT a, CAST(b AS varchar) FROM collate_test2 ORDER BY 2;
SELECT a, CAST(b AS varchar) FROM collate_test3 ORDER BY 2;
-- propagation of collation in SQL functions (inlined and non-inlined cases)
-- and plpgsql functions too
CREATE FUNCTION mylt (text, text) RETURNS boolean LANGUAGE sql
AS $$ select $1 < $2 $$;
CREATE FUNCTION mylt_noninline (text, text) RETURNS boolean LANGUAGE sql
AS $$ select $1 < $2 limit 1 $$;
CREATE FUNCTION mylt_plpgsql (text, text) RETURNS boolean LANGUAGE plpgsql
AS $$ begin return $1 < $2; end $$;
SELECT a.b AS a, b.b AS b, a.b < b.b AS lt,
mylt(a.b, b.b), mylt_noninline(a.b, b.b), mylt_plpgsql(a.b, b.b)
FROM collate_test1 a, collate_test1 b
ORDER BY a.b, b.b;
SELECT a.b AS a, b.b AS b, a.b < b.b COLLATE "C" AS lt,
mylt(a.b, b.b COLLATE "C"), mylt_noninline(a.b, b.b COLLATE "C"),
mylt_plpgsql(a.b, b.b COLLATE "C")
FROM collate_test1 a, collate_test1 b
ORDER BY a.b, b.b;
-- collation override in plpgsql
CREATE FUNCTION mylt2 (x text, y text) RETURNS boolean LANGUAGE plpgsql AS $$
declare
xx text := x;
yy text := y;
begin
return xx < yy;
end
$$;
SELECT mylt2('a', 'B' collate "en_US") as t, mylt2('a', 'B' collate "C") as f;
CREATE OR REPLACE FUNCTION
mylt2 (x text, y text) RETURNS boolean LANGUAGE plpgsql AS $$
declare
xx text COLLATE "POSIX" := x;
yy text := y;
begin
return xx < yy;
end
$$;
SELECT mylt2('a', 'B') as f;
SELECT mylt2('a', 'B' collate "C") as fail; -- conflicting collations
SELECT mylt2('a', 'B' collate "POSIX") as f;
-- polymorphism
SELECT * FROM unnest((SELECT array_agg(b ORDER BY b) FROM collate_test1)) ORDER BY 1;
SELECT * FROM unnest((SELECT array_agg(b ORDER BY b) FROM collate_test2)) ORDER BY 1;
SELECT * FROM unnest((SELECT array_agg(b ORDER BY b) FROM collate_test3)) ORDER BY 1;
CREATE FUNCTION dup (anyelement) RETURNS anyelement
AS 'select $1' LANGUAGE sql;
SELECT a, dup(b) FROM collate_test1 ORDER BY 2;
SELECT a, dup(b) FROM collate_test2 ORDER BY 2;
SELECT a, dup(b) FROM collate_test3 ORDER BY 2;
-- indexes
CREATE INDEX collate_test1_idx1 ON collate_test1 (b);
CREATE INDEX collate_test1_idx2 ON collate_test1 (b COLLATE "C");
CREATE INDEX collate_test1_idx3 ON collate_test1 ((b COLLATE "C")); -- this is different grammatically
CREATE INDEX collate_test1_idx4 ON collate_test1 (((b||'foo') COLLATE "POSIX"));
CREATE INDEX collate_test1_idx5 ON collate_test1 (a COLLATE "C"); -- fail
CREATE INDEX collate_test1_idx6 ON collate_test1 ((a COLLATE "C")); -- fail
SELECT relname, pg_get_indexdef(oid) FROM pg_class WHERE relname LIKE 'collate_test%_idx%' ORDER BY 1;
-- schema manipulation commands
CREATE ROLE regress_test_role;
CREATE SCHEMA test_schema;
-- We need to do this this way to cope with varying names for encodings:
do $$
BEGIN
EXECUTE 'CREATE COLLATION test0 (locale = ' ||
quote_literal((SELECT datcollate FROM pg_database WHERE datname = current_database())) || ');';
END
$$;
CREATE COLLATION test0 FROM "C"; -- fail, duplicate name
CREATE COLLATION IF NOT EXISTS test0 FROM "C"; -- ok, skipped
CREATE COLLATION IF NOT EXISTS test0 (locale = 'foo'); -- ok, skipped
do $$
BEGIN
EXECUTE 'CREATE COLLATION test1 (lc_collate = ' ||
quote_literal((SELECT datcollate FROM pg_database WHERE datname = current_database())) ||
', lc_ctype = ' ||
quote_literal((SELECT datctype FROM pg_database WHERE datname = current_database())) || ');';
END
$$;
CREATE COLLATION test3 (lc_collate = 'en_US.utf8'); -- fail, need lc_ctype
CREATE COLLATION testx (locale = 'nonsense'); -- fail
CREATE COLLATION test4 FROM nonsense;
CREATE COLLATION test5 FROM test0;
SELECT collname FROM pg_collation WHERE collname LIKE 'test%' ORDER BY 1;
ALTER COLLATION test1 RENAME TO test11;
ALTER COLLATION test0 RENAME TO test11; -- fail
ALTER COLLATION test1 RENAME TO test22; -- fail
ALTER COLLATION test11 OWNER TO regress_test_role;
ALTER COLLATION test11 OWNER TO nonsense;
ALTER COLLATION test11 SET SCHEMA test_schema;
COMMENT ON COLLATION test0 IS 'US English';
SELECT collname, nspname, obj_description(pg_collation.oid, 'pg_collation')
FROM pg_collation JOIN pg_namespace ON (collnamespace = pg_namespace.oid)
WHERE collname LIKE 'test%'
ORDER BY 1;
DROP COLLATION test0, test_schema.test11, test5;
DROP COLLATION test0; -- fail
DROP COLLATION IF EXISTS test0;
SELECT collname FROM pg_collation WHERE collname LIKE 'test%';
DROP SCHEMA test_schema;
DROP ROLE regress_test_role;
-- ALTER
ALTER COLLATION "en_US" REFRESH VERSION;
-- also test for database while we are here
SELECT current_database() AS datname \gset
ALTER DATABASE :"datname" REFRESH COLLATION VERSION;
-- dependencies
CREATE COLLATION test0 FROM "C";
CREATE TABLE collate_dep_test1 (a int, b text COLLATE test0);
CREATE DOMAIN collate_dep_dom1 AS text COLLATE test0;
CREATE TYPE collate_dep_test2 AS (x int, y text COLLATE test0);
CREATE VIEW collate_dep_test3 AS SELECT text 'foo' COLLATE test0 AS foo;
CREATE TABLE collate_dep_test4t (a int, b text);
CREATE INDEX collate_dep_test4i ON collate_dep_test4t (b COLLATE test0);
DROP COLLATION test0 RESTRICT; -- fail
DROP COLLATION test0 CASCADE;
\d collate_dep_test1
\d collate_dep_test2
DROP TABLE collate_dep_test1, collate_dep_test4t;
DROP TYPE collate_dep_test2;
-- test range types and collations
create type textrange_c as range(subtype=text, collation="C");
create type textrange_en_us as range(subtype=text, collation="en_US");
select textrange_c('A','Z') @> 'b'::text;
select textrange_en_us('A','Z') @> 'b'::text;
drop type textrange_c;
drop type textrange_en_us;
-- standard collations
SELECT * FROM collate_test2 ORDER BY b COLLATE UCS_BASIC;
-- nondeterministic collations
-- (not supported with libc provider)
CREATE COLLATION ctest_det (locale = 'en_US.utf8', deterministic = true);
CREATE COLLATION ctest_nondet (locale = 'en_US.utf8', deterministic = false);
-- cleanup
SET client_min_messages TO warning;
DROP SCHEMA collate_tests CASCADE;
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