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-- regression test for the uuid datatype
-- creating test tables
CREATE TABLE guid1
(
guid_field UUID,
text_field TEXT DEFAULT(now())
);
CREATE TABLE guid2
(
guid_field UUID,
text_field TEXT DEFAULT(now())
);
CREATE TABLE guid3
(
id SERIAL,
guid_field UUID
);
-- inserting invalid data tests
-- too long
INSERT INTO guid1(guid_field) VALUES('11111111-1111-1111-1111-111111111111F');
-- too short
INSERT INTO guid1(guid_field) VALUES('{11111111-1111-1111-1111-11111111111}');
-- valid data but invalid format
INSERT INTO guid1(guid_field) VALUES('111-11111-1111-1111-1111-111111111111');
INSERT INTO guid1(guid_field) VALUES('{22222222-2222-2222-2222-222222222222 ');
-- invalid data
INSERT INTO guid1(guid_field) VALUES('11111111-1111-1111-G111-111111111111');
INSERT INTO guid1(guid_field) VALUES('11+11111-1111-1111-1111-111111111111');
-- test non-error-throwing API
SELECT pg_input_is_valid('11', 'uuid');
SELECT * FROM pg_input_error_info('11', 'uuid');
--inserting three input formats
INSERT INTO guid1(guid_field) VALUES('11111111-1111-1111-1111-111111111111');
INSERT INTO guid1(guid_field) VALUES('{22222222-2222-2222-2222-222222222222}');
INSERT INTO guid1(guid_field) VALUES('3f3e3c3b3a3039383736353433a2313e');
-- retrieving the inserted data
SELECT guid_field FROM guid1;
-- ordering test
SELECT guid_field FROM guid1 ORDER BY guid_field ASC;
SELECT guid_field FROM guid1 ORDER BY guid_field DESC;
-- = operator test
SELECT COUNT(*) FROM guid1 WHERE guid_field = '3f3e3c3b-3a30-3938-3736-353433a2313e';
-- <> operator test
SELECT COUNT(*) FROM guid1 WHERE guid_field <> '11111111111111111111111111111111';
-- < operator test
SELECT COUNT(*) FROM guid1 WHERE guid_field < '22222222-2222-2222-2222-222222222222';
-- <= operator test
SELECT COUNT(*) FROM guid1 WHERE guid_field <= '22222222-2222-2222-2222-222222222222';
-- > operator test
SELECT COUNT(*) FROM guid1 WHERE guid_field > '22222222-2222-2222-2222-222222222222';
-- >= operator test
SELECT COUNT(*) FROM guid1 WHERE guid_field >= '22222222-2222-2222-2222-222222222222';
-- btree and hash index creation test
CREATE INDEX guid1_btree ON guid1 USING BTREE (guid_field);
CREATE INDEX guid1_hash ON guid1 USING HASH (guid_field);
-- unique index test
CREATE UNIQUE INDEX guid1_unique_BTREE ON guid1 USING BTREE (guid_field);
EXPLAIN (COSTS OFF)
SELECT COUNT(*) FROM guid1 WHERE guid_field <> '11111111111111111111111111111111' OR
guid_field <> '3f3e3c3b-3a30-3938-3736-353433a2313e';
EXPLAIN (COSTS OFF)
SELECT COUNT(*) FROM guid1 WHERE guid_field <= '22222222-2222-2222-2222-222222222222' OR
guid_field <= '11111111111111111111111111111111' OR
guid_field <= '3f3e3c3b-3a30-3938-3736-353433a2313e';
EXPLAIN (COSTS OFF)
SELECT COUNT(*) FROM guid1 WHERE guid_field = '3f3e3c3b-3a30-3938-3736-353433a2313e' OR
guid_field = '11111111111111111111111111111111';
-- should fail
INSERT INTO guid1(guid_field) VALUES('11111111-1111-1111-1111-111111111111');
-- check to see whether the new indexes are actually there
SELECT count(*) FROM pg_class WHERE relkind='i' AND relname LIKE 'guid%';
-- populating the test tables with additional records
INSERT INTO guid1(guid_field) VALUES('44444444-4444-4444-4444-444444444444');
INSERT INTO guid2(guid_field) VALUES('11111111-1111-1111-1111-111111111111');
INSERT INTO guid2(guid_field) VALUES('{22222222-2222-2222-2222-222222222222}');
INSERT INTO guid2(guid_field) VALUES('3f3e3c3b3a3039383736353433a2313e');
-- join test
SELECT COUNT(*) FROM guid1 g1 INNER JOIN guid2 g2 ON g1.guid_field = g2.guid_field;
SELECT COUNT(*) FROM guid1 g1 LEFT JOIN guid2 g2 ON g1.guid_field = g2.guid_field WHERE g2.guid_field IS NULL;
-- generation test
TRUNCATE guid1;
INSERT INTO guid1 (guid_field) VALUES (gen_random_uuid());
INSERT INTO guid1 (guid_field) VALUES (gen_random_uuid());
SELECT count(DISTINCT guid_field) FROM guid1;
-- test of uuidv4() alias
TRUNCATE guid1;
INSERT INTO guid1 (guid_field) VALUES (uuidv4());
INSERT INTO guid1 (guid_field) VALUES (uuidv4());
SELECT count(DISTINCT guid_field) FROM guid1;
-- generation test for v7
TRUNCATE guid1;
INSERT INTO guid1 (guid_field) VALUES (uuidv7());
INSERT INTO guid1 (guid_field) VALUES (uuidv7());
INSERT INTO guid1 (guid_field) VALUES (uuidv7(INTERVAL '1 day'));
SELECT count(DISTINCT guid_field) FROM guid1;
-- test sortability of v7
INSERT INTO guid3 (guid_field) SELECT uuidv7() FROM generate_series(1, 10);
SELECT array_agg(id ORDER BY guid_field) FROM guid3;
-- Check the timestamp offsets for v7.
--
-- generate UUIDv7 values with timestamps ranging from 1970 (the Unix epoch year)
-- to 10888 (one year before the maximum possible year), and then verify that
-- the extracted timestamps from these UUIDv7 values have not overflowed.
WITH uuidts AS (
SELECT y, ts as ts, lag(ts) OVER (ORDER BY y) AS prev_ts
FROM (SELECT y, uuid_extract_timestamp(uuidv7((y || ' years')::interval)) AS ts
FROM generate_series(1970 - extract(year from now())::int, 10888 - extract(year from now())::int) y)
)
SELECT y, ts, prev_ts FROM uuidts WHERE ts < prev_ts;
-- extract functions
-- version
SELECT uuid_extract_version('11111111-1111-5111-8111-111111111111'); -- 5
SELECT uuid_extract_version(gen_random_uuid()); -- 4
SELECT uuid_extract_version('11111111-1111-1111-1111-111111111111'); -- null
SELECT uuid_extract_version(uuidv4()); -- 4
SELECT uuid_extract_version(uuidv7()); -- 7
-- timestamp
SELECT uuid_extract_timestamp('C232AB00-9414-11EC-B3C8-9F6BDECED846') = 'Tuesday, February 22, 2022 2:22:22.00 PM GMT+05:00'; -- RFC 9562 test vector for v1
SELECT uuid_extract_timestamp('017F22E2-79B0-7CC3-98C4-DC0C0C07398F') = 'Tuesday, February 22, 2022 2:22:22.00 PM GMT+05:00'; -- RFC 9562 test vector for v7
SELECT uuid_extract_timestamp(gen_random_uuid()); -- null
SELECT uuid_extract_timestamp('11111111-1111-1111-1111-111111111111'); -- null
-- clean up
DROP TABLE guid1, guid2, guid3 CASCADE;
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