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postgresql/src/test/regress/expected/constraints.out

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--
-- CONSTRAINTS
-- Constraints can be specified with:
-- - DEFAULT clause
-- - CHECK clauses
-- - PRIMARY KEY clauses
-- - UNIQUE clauses
-- - EXCLUDE clauses
--
-- directory paths are passed to us in environment variables
\getenv abs_srcdir PG_ABS_SRCDIR
--
-- DEFAULT syntax
--
CREATE TABLE DEFAULT_TBL (i int DEFAULT 100,
x text DEFAULT 'vadim', f float8 DEFAULT 123.456);
INSERT INTO DEFAULT_TBL VALUES (1, 'thomas', 57.0613);
INSERT INTO DEFAULT_TBL VALUES (1, 'bruce');
INSERT INTO DEFAULT_TBL (i, f) VALUES (2, 987.654);
INSERT INTO DEFAULT_TBL (x) VALUES ('marc');
INSERT INTO DEFAULT_TBL VALUES (3, null, 1.0);
SELECT * FROM DEFAULT_TBL;
i | x | f
-----+--------+---------
1 | thomas | 57.0613
1 | bruce | 123.456
2 | vadim | 987.654
100 | marc | 123.456
3 | | 1
(5 rows)
CREATE SEQUENCE DEFAULT_SEQ;
CREATE TABLE DEFAULTEXPR_TBL (i1 int DEFAULT 100 + (200-199) * 2,
i2 int DEFAULT nextval('default_seq'));
INSERT INTO DEFAULTEXPR_TBL VALUES (-1, -2);
INSERT INTO DEFAULTEXPR_TBL (i1) VALUES (-3);
INSERT INTO DEFAULTEXPR_TBL (i2) VALUES (-4);
INSERT INTO DEFAULTEXPR_TBL (i2) VALUES (NULL);
SELECT * FROM DEFAULTEXPR_TBL;
i1 | i2
-----+----
-1 | -2
-3 | 1
102 | -4
102 |
(4 rows)
-- syntax errors
-- test for extraneous comma
CREATE TABLE error_tbl (i int DEFAULT (100, ));
ERROR: syntax error at or near ")"
LINE 1: CREATE TABLE error_tbl (i int DEFAULT (100, ));
^
-- this will fail because gram.y uses b_expr not a_expr for defaults,
-- to avoid a shift/reduce conflict that arises from NOT NULL being
-- part of the column definition syntax:
CREATE TABLE error_tbl (b1 bool DEFAULT 1 IN (1, 2));
ERROR: syntax error at or near "IN"
LINE 1: CREATE TABLE error_tbl (b1 bool DEFAULT 1 IN (1, 2));
^
-- this should work, however:
CREATE TABLE error_tbl (b1 bool DEFAULT (1 IN (1, 2)));
DROP TABLE error_tbl;
--
-- CHECK syntax
--
CREATE TABLE CHECK_TBL (x int,
CONSTRAINT CHECK_CON CHECK (x > 3));
INSERT INTO CHECK_TBL VALUES (5);
INSERT INTO CHECK_TBL VALUES (4);
INSERT INTO CHECK_TBL VALUES (3);
ERROR: new row for relation "check_tbl" violates check constraint "check_con"
DETAIL: Failing row contains (3).
INSERT INTO CHECK_TBL VALUES (2);
ERROR: new row for relation "check_tbl" violates check constraint "check_con"
DETAIL: Failing row contains (2).
INSERT INTO CHECK_TBL VALUES (6);
INSERT INTO CHECK_TBL VALUES (1);
ERROR: new row for relation "check_tbl" violates check constraint "check_con"
DETAIL: Failing row contains (1).
SELECT * FROM CHECK_TBL;
x
---
5
4
6
(3 rows)
CREATE SEQUENCE CHECK_SEQ;
CREATE TABLE CHECK2_TBL (x int, y text, z int,
CONSTRAINT SEQUENCE_CON
CHECK (x > 3 and y <> 'check failed' and z < 8));
INSERT INTO CHECK2_TBL VALUES (4, 'check ok', -2);
INSERT INTO CHECK2_TBL VALUES (1, 'x check failed', -2);
ERROR: new row for relation "check2_tbl" violates check constraint "sequence_con"
DETAIL: Failing row contains (1, x check failed, -2).
INSERT INTO CHECK2_TBL VALUES (5, 'z check failed', 10);
ERROR: new row for relation "check2_tbl" violates check constraint "sequence_con"
DETAIL: Failing row contains (5, z check failed, 10).
INSERT INTO CHECK2_TBL VALUES (0, 'check failed', -2);
ERROR: new row for relation "check2_tbl" violates check constraint "sequence_con"
DETAIL: Failing row contains (0, check failed, -2).
INSERT INTO CHECK2_TBL VALUES (6, 'check failed', 11);
ERROR: new row for relation "check2_tbl" violates check constraint "sequence_con"
DETAIL: Failing row contains (6, check failed, 11).
INSERT INTO CHECK2_TBL VALUES (7, 'check ok', 7);
SELECT * from CHECK2_TBL;
x | y | z
---+----------+----
4 | check ok | -2
7 | check ok | 7
(2 rows)
--
-- Check constraints on INSERT
--
CREATE SEQUENCE INSERT_SEQ;
CREATE TABLE INSERT_TBL (x INT DEFAULT nextval('insert_seq'),
y TEXT DEFAULT '-NULL-',
z INT DEFAULT -1 * currval('insert_seq'),
CONSTRAINT INSERT_TBL_CON CHECK (x >= 3 AND y <> 'check failed' AND x < 8),
CHECK (x + z = 0));
INSERT INTO INSERT_TBL(x,z) VALUES (2, -2);
ERROR: new row for relation "insert_tbl" violates check constraint "insert_tbl_con"
DETAIL: Failing row contains (2, -NULL-, -2).
SELECT * FROM INSERT_TBL;
x | y | z
---+---+---
(0 rows)
SELECT 'one' AS one, nextval('insert_seq');
one | nextval
-----+---------
one | 1
(1 row)
INSERT INTO INSERT_TBL(y) VALUES ('Y');
ERROR: new row for relation "insert_tbl" violates check constraint "insert_tbl_con"
DETAIL: Failing row contains (2, Y, -2).
INSERT INTO INSERT_TBL(y) VALUES ('Y');
INSERT INTO INSERT_TBL(x,z) VALUES (1, -2);
ERROR: new row for relation "insert_tbl" violates check constraint "insert_tbl_check"
DETAIL: Failing row contains (1, -NULL-, -2).
INSERT INTO INSERT_TBL(z,x) VALUES (-7, 7);
INSERT INTO INSERT_TBL VALUES (5, 'check failed', -5);
ERROR: new row for relation "insert_tbl" violates check constraint "insert_tbl_con"
DETAIL: Failing row contains (5, check failed, -5).
INSERT INTO INSERT_TBL VALUES (7, '!check failed', -7);
INSERT INTO INSERT_TBL(y) VALUES ('-!NULL-');
SELECT * FROM INSERT_TBL;
x | y | z
---+---------------+----
3 | Y | -3
7 | -NULL- | -7
7 | !check failed | -7
4 | -!NULL- | -4
(4 rows)
INSERT INTO INSERT_TBL(y,z) VALUES ('check failed', 4);
ERROR: new row for relation "insert_tbl" violates check constraint "insert_tbl_check"
DETAIL: Failing row contains (5, check failed, 4).
INSERT INTO INSERT_TBL(x,y) VALUES (5, 'check failed');
ERROR: new row for relation "insert_tbl" violates check constraint "insert_tbl_con"
DETAIL: Failing row contains (5, check failed, -5).
INSERT INTO INSERT_TBL(x,y) VALUES (5, '!check failed');
INSERT INTO INSERT_TBL(y) VALUES ('-!NULL-');
SELECT * FROM INSERT_TBL;
x | y | z
---+---------------+----
3 | Y | -3
7 | -NULL- | -7
7 | !check failed | -7
4 | -!NULL- | -4
5 | !check failed | -5
6 | -!NULL- | -6
(6 rows)
SELECT 'seven' AS one, nextval('insert_seq');
one | nextval
-------+---------
seven | 7
(1 row)
INSERT INTO INSERT_TBL(y) VALUES ('Y');
ERROR: new row for relation "insert_tbl" violates check constraint "insert_tbl_con"
DETAIL: Failing row contains (8, Y, -8).
SELECT 'eight' AS one, currval('insert_seq');
one | currval
-------+---------
eight | 8
(1 row)
-- According to SQL, it is OK to insert a record that gives rise to NULL
-- constraint-condition results. Postgres used to reject this, but it
-- was wrong:
INSERT INTO INSERT_TBL VALUES (null, null, null);
SELECT * FROM INSERT_TBL;
x | y | z
---+---------------+----
3 | Y | -3
7 | -NULL- | -7
7 | !check failed | -7
4 | -!NULL- | -4
5 | !check failed | -5
6 | -!NULL- | -6
| |
(7 rows)
--
-- Check constraints on system columns
--
CREATE TABLE SYS_COL_CHECK_TBL (city text, state text, is_capital bool,
altitude int,
CHECK (NOT (is_capital AND tableoid::regclass::text = 'sys_col_check_tbl')));
INSERT INTO SYS_COL_CHECK_TBL VALUES ('Seattle', 'Washington', false, 100);
INSERT INTO SYS_COL_CHECK_TBL VALUES ('Olympia', 'Washington', true, 100);
ERROR: new row for relation "sys_col_check_tbl" violates check constraint "sys_col_check_tbl_check"
DETAIL: Failing row contains (Olympia, Washington, t, 100).
SELECT *, tableoid::regclass::text FROM SYS_COL_CHECK_TBL;
city | state | is_capital | altitude | tableoid
---------+------------+------------+----------+-------------------
Seattle | Washington | f | 100 | sys_col_check_tbl
(1 row)
DROP TABLE SYS_COL_CHECK_TBL;
--
-- Check constraints on system columns other then TableOid should return error
--
CREATE TABLE SYS_COL_CHECK_TBL (city text, state text, is_capital bool,
altitude int,
CHECK (NOT (is_capital AND ctid::text = 'sys_col_check_tbl')));
ERROR: system column "ctid" reference in check constraint is invalid
LINE 3: CHECK (NOT (is_capital AND ctid::text = 'sys_col_check...
^
--
-- Check inheritance of defaults and constraints
--
CREATE TABLE INSERT_CHILD (cx INT default 42,
cy INT CHECK (cy > x))
INHERITS (INSERT_TBL);
INSERT INTO INSERT_CHILD(x,z,cy) VALUES (7,-7,11);
INSERT INTO INSERT_CHILD(x,z,cy) VALUES (7,-7,6);
ERROR: new row for relation "insert_child" violates check constraint "insert_child_check"
DETAIL: Failing row contains (7, -NULL-, -7, 42, 6).
INSERT INTO INSERT_CHILD(x,z,cy) VALUES (6,-7,7);
ERROR: new row for relation "insert_child" violates check constraint "insert_tbl_check"
DETAIL: Failing row contains (6, -NULL-, -7, 42, 7).
INSERT INTO INSERT_CHILD(x,y,z,cy) VALUES (6,'check failed',-6,7);
ERROR: new row for relation "insert_child" violates check constraint "insert_tbl_con"
DETAIL: Failing row contains (6, check failed, -6, 42, 7).
SELECT * FROM INSERT_CHILD;
x | y | z | cx | cy
---+--------+----+----+----
7 | -NULL- | -7 | 42 | 11
(1 row)
DROP TABLE INSERT_CHILD;
--
-- Check NO INHERIT type of constraints and inheritance
--
CREATE TABLE ATACC1 (TEST INT
CHECK (TEST > 0) NO INHERIT);
CREATE TABLE ATACC2 (TEST2 INT) INHERITS (ATACC1);
-- check constraint is not there on child
INSERT INTO ATACC2 (TEST) VALUES (-3);
-- check constraint is there on parent
INSERT INTO ATACC1 (TEST) VALUES (-3);
ERROR: new row for relation "atacc1" violates check constraint "atacc1_test_check"
DETAIL: Failing row contains (-3).
DROP TABLE ATACC1 CASCADE;
NOTICE: drop cascades to table atacc2
CREATE TABLE ATACC1 (TEST INT, TEST2 INT
CHECK (TEST > 0), CHECK (TEST2 > 10) NO INHERIT);
CREATE TABLE ATACC2 () INHERITS (ATACC1);
-- check constraint is there on child
INSERT INTO ATACC2 (TEST) VALUES (-3);
ERROR: new row for relation "atacc2" violates check constraint "atacc1_test_check"
DETAIL: Failing row contains (-3, null).
-- check constraint is there on parent
INSERT INTO ATACC1 (TEST) VALUES (-3);
ERROR: new row for relation "atacc1" violates check constraint "atacc1_test_check"
DETAIL: Failing row contains (-3, null).
-- check constraint is not there on child
INSERT INTO ATACC2 (TEST2) VALUES (3);
-- check constraint is there on parent
INSERT INTO ATACC1 (TEST2) VALUES (3);
ERROR: new row for relation "atacc1" violates check constraint "atacc1_test2_check"
DETAIL: Failing row contains (null, 3).
DROP TABLE ATACC1 CASCADE;
NOTICE: drop cascades to table atacc2
-- NOT NULL NO INHERIT
CREATE TABLE ATACC1 (a int, not null a no inherit);
CREATE TABLE ATACC2 () INHERITS (ATACC1);
\d+ ATACC2
Table "public.atacc2"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | | | plain | |
Inherits: atacc1
DROP TABLE ATACC1, ATACC2;
CREATE TABLE ATACC1 (a int);
ALTER TABLE ATACC1 ADD NOT NULL a NO INHERIT;
CREATE TABLE ATACC2 () INHERITS (ATACC1);
\d+ ATACC2
Table "public.atacc2"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | | | plain | |
Inherits: atacc1
DROP TABLE ATACC1, ATACC2;
CREATE TABLE ATACC1 (a int);
CREATE TABLE ATACC2 () INHERITS (ATACC1);
ALTER TABLE ATACC1 ADD NOT NULL a NO INHERIT;
\d+ ATACC2
Table "public.atacc2"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | | | plain | |
Inherits: atacc1
DROP TABLE ATACC1, ATACC2;
-- overridding a no-inherit constraint with an inheritable one
CREATE TABLE ATACC2 (a int, CONSTRAINT a_is_not_null NOT NULL a NO INHERIT);
CREATE TABLE ATACC1 (a int);
CREATE TABLE ATACC3 (a int) INHERITS (ATACC2);
NOTICE: merging column "a" with inherited definition
INSERT INTO ATACC3 VALUES (null); -- make sure we scan atacc3
ALTER TABLE ATACC2 INHERIT ATACC1;
ALTER TABLE ATACC1 ADD CONSTRAINT ditto NOT NULL a;
ERROR: column "a" of relation "atacc3" contains null values
DELETE FROM ATACC3;
ALTER TABLE ATACC1 ADD CONSTRAINT ditto NOT NULL a;
\d+ ATACC[123]
Table "public.atacc1"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Not-null constraints:
"ditto" NOT NULL "a"
Child tables: atacc2
Table "public.atacc2"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Not-null constraints:
"a_is_not_null" NOT NULL "a" (local, inherited)
Inherits: atacc1
Child tables: atacc3
Table "public.atacc3"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Not-null constraints:
"ditto" NOT NULL "a" (inherited)
Inherits: atacc2
ALTER TABLE ATACC2 DROP CONSTRAINT a_is_not_null;
ALTER TABLE ATACC1 DROP CONSTRAINT ditto;
\d+ ATACC3
Table "public.atacc3"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | | | plain | |
Inherits: atacc2
DROP TABLE ATACC1, ATACC2, ATACC3;
-- The same cannot be achieved this way
CREATE TABLE ATACC2 (a int, CONSTRAINT a_is_not_null NOT NULL a NO INHERIT);
CREATE TABLE ATACC1 (a int, CONSTRAINT ditto NOT NULL a);
CREATE TABLE ATACC3 (a int) INHERITS (ATACC2);
NOTICE: merging column "a" with inherited definition
ALTER TABLE ATACC2 INHERIT ATACC1;
ERROR: cannot add NOT NULL constraint to column "a" of relation "atacc2" with inheritance children
DETAIL: Existing constraint "a_is_not_null" is marked NO INHERIT.
DROP TABLE ATACC1, ATACC2, ATACC3;
--
-- Check constraints on INSERT INTO
--
DELETE FROM INSERT_TBL;
ALTER SEQUENCE INSERT_SEQ RESTART WITH 4;
CREATE TEMP TABLE tmp (xd INT, yd TEXT, zd INT);
INSERT INTO tmp VALUES (null, 'Y', null);
INSERT INTO tmp VALUES (5, '!check failed', null);
INSERT INTO tmp VALUES (null, 'try again', null);
INSERT INTO INSERT_TBL(y) select yd from tmp;
SELECT * FROM INSERT_TBL;
x | y | z
---+---------------+----
4 | Y | -4
5 | !check failed | -5
6 | try again | -6
(3 rows)
INSERT INTO INSERT_TBL SELECT * FROM tmp WHERE yd = 'try again';
INSERT INTO INSERT_TBL(y,z) SELECT yd, -7 FROM tmp WHERE yd = 'try again';
INSERT INTO INSERT_TBL(y,z) SELECT yd, -8 FROM tmp WHERE yd = 'try again';
ERROR: new row for relation "insert_tbl" violates check constraint "insert_tbl_con"
DETAIL: Failing row contains (8, try again, -8).
SELECT * FROM INSERT_TBL;
x | y | z
---+---------------+----
4 | Y | -4
5 | !check failed | -5
6 | try again | -6
| try again |
7 | try again | -7
(5 rows)
DROP TABLE tmp;
--
-- Check constraints on UPDATE
--
UPDATE INSERT_TBL SET x = NULL WHERE x = 5;
UPDATE INSERT_TBL SET x = 6 WHERE x = 6;
UPDATE INSERT_TBL SET x = -z, z = -x;
UPDATE INSERT_TBL SET x = z, z = x;
ERROR: new row for relation "insert_tbl" violates check constraint "insert_tbl_con"
DETAIL: Failing row contains (-4, Y, 4).
SELECT * FROM INSERT_TBL;
x | y | z
---+---------------+----
4 | Y | -4
| try again |
7 | try again | -7
5 | !check failed |
6 | try again | -6
(5 rows)
-- DROP TABLE INSERT_TBL;
--
-- Check constraints on COPY FROM
--
CREATE TABLE COPY_TBL (x INT, y TEXT, z INT,
CONSTRAINT COPY_CON
CHECK (x > 3 AND y <> 'check failed' AND x < 7 ));
\set filename :abs_srcdir '/data/constro.data'
COPY COPY_TBL FROM :'filename';
SELECT * FROM COPY_TBL;
x | y | z
---+---------------+---
4 | !check failed | 5
6 | OK | 4
(2 rows)
\set filename :abs_srcdir '/data/constrf.data'
COPY COPY_TBL FROM :'filename';
ERROR: new row for relation "copy_tbl" violates check constraint "copy_con"
DETAIL: Failing row contains (7, check failed, 6).
CONTEXT: COPY copy_tbl, line 2: "7 check failed 6"
SELECT * FROM COPY_TBL;
x | y | z
---+---------------+---
4 | !check failed | 5
6 | OK | 4
(2 rows)
--
-- Primary keys
--
CREATE TABLE PRIMARY_TBL (i int PRIMARY KEY, t text);
INSERT INTO PRIMARY_TBL VALUES (1, 'one');
INSERT INTO PRIMARY_TBL VALUES (2, 'two');
INSERT INTO PRIMARY_TBL VALUES (1, 'three');
ERROR: duplicate key value violates unique constraint "primary_tbl_pkey"
DETAIL: Key (i)=(1) already exists.
INSERT INTO PRIMARY_TBL VALUES (4, 'three');
INSERT INTO PRIMARY_TBL VALUES (5, 'one');
INSERT INTO PRIMARY_TBL (t) VALUES ('six');
ERROR: null value in column "i" of relation "primary_tbl" violates not-null constraint
DETAIL: Failing row contains (null, six).
SELECT * FROM PRIMARY_TBL;
i | t
---+-------
1 | one
2 | two
4 | three
5 | one
(4 rows)
DROP TABLE PRIMARY_TBL;
CREATE TABLE PRIMARY_TBL (i int, t text,
PRIMARY KEY(i,t));
INSERT INTO PRIMARY_TBL VALUES (1, 'one');
INSERT INTO PRIMARY_TBL VALUES (2, 'two');
INSERT INTO PRIMARY_TBL VALUES (1, 'three');
INSERT INTO PRIMARY_TBL VALUES (4, 'three');
INSERT INTO PRIMARY_TBL VALUES (5, 'one');
INSERT INTO PRIMARY_TBL (t) VALUES ('six');
ERROR: null value in column "i" of relation "primary_tbl" violates not-null constraint
DETAIL: Failing row contains (null, six).
SELECT * FROM PRIMARY_TBL;
i | t
---+-------
1 | one
2 | two
1 | three
4 | three
5 | one
(5 rows)
DROP TABLE PRIMARY_TBL;
--
-- Unique keys
--
CREATE TABLE UNIQUE_TBL (i int UNIQUE, t text);
INSERT INTO UNIQUE_TBL VALUES (1, 'one');
INSERT INTO UNIQUE_TBL VALUES (2, 'two');
INSERT INTO UNIQUE_TBL VALUES (1, 'three');
ERROR: duplicate key value violates unique constraint "unique_tbl_i_key"
DETAIL: Key (i)=(1) already exists.
INSERT INTO UNIQUE_TBL VALUES (4, 'four');
INSERT INTO UNIQUE_TBL VALUES (5, 'one');
INSERT INTO UNIQUE_TBL (t) VALUES ('six');
INSERT INTO UNIQUE_TBL (t) VALUES ('seven');
INSERT INTO UNIQUE_TBL VALUES (5, 'five-upsert-insert') ON CONFLICT (i) DO UPDATE SET t = 'five-upsert-update';
INSERT INTO UNIQUE_TBL VALUES (6, 'six-upsert-insert') ON CONFLICT (i) DO UPDATE SET t = 'six-upsert-update';
-- should fail
INSERT INTO UNIQUE_TBL VALUES (1, 'a'), (2, 'b'), (2, 'b') ON CONFLICT (i) DO UPDATE SET t = 'fails';
ERROR: ON CONFLICT DO UPDATE command cannot affect row a second time
HINT: Ensure that no rows proposed for insertion within the same command have duplicate constrained values.
SELECT * FROM UNIQUE_TBL;
i | t
---+--------------------
1 | one
2 | two
4 | four
| six
| seven
5 | five-upsert-update
6 | six-upsert-insert
(7 rows)
DROP TABLE UNIQUE_TBL;
CREATE TABLE UNIQUE_TBL (i int UNIQUE NULLS NOT DISTINCT, t text);
INSERT INTO UNIQUE_TBL VALUES (1, 'one');
INSERT INTO UNIQUE_TBL VALUES (2, 'two');
INSERT INTO UNIQUE_TBL VALUES (1, 'three'); -- fail
ERROR: duplicate key value violates unique constraint "unique_tbl_i_key"
DETAIL: Key (i)=(1) already exists.
INSERT INTO UNIQUE_TBL VALUES (4, 'four');
INSERT INTO UNIQUE_TBL VALUES (5, 'one');
INSERT INTO UNIQUE_TBL (t) VALUES ('six');
INSERT INTO UNIQUE_TBL (t) VALUES ('seven'); -- fail
ERROR: duplicate key value violates unique constraint "unique_tbl_i_key"
DETAIL: Key (i)=(null) already exists.
INSERT INTO UNIQUE_TBL (t) VALUES ('eight') ON CONFLICT DO NOTHING; -- no-op
SELECT * FROM UNIQUE_TBL;
i | t
---+------
1 | one
2 | two
4 | four
5 | one
| six
(5 rows)
DROP TABLE UNIQUE_TBL;
CREATE TABLE UNIQUE_TBL (i int, t text,
UNIQUE(i,t));
INSERT INTO UNIQUE_TBL VALUES (1, 'one');
INSERT INTO UNIQUE_TBL VALUES (2, 'two');
INSERT INTO UNIQUE_TBL VALUES (1, 'three');
INSERT INTO UNIQUE_TBL VALUES (1, 'one');
ERROR: duplicate key value violates unique constraint "unique_tbl_i_t_key"
DETAIL: Key (i, t)=(1, one) already exists.
INSERT INTO UNIQUE_TBL VALUES (5, 'one');
INSERT INTO UNIQUE_TBL (t) VALUES ('six');
SELECT * FROM UNIQUE_TBL;
i | t
---+-------
1 | one
2 | two
1 | three
5 | one
| six
(5 rows)
DROP TABLE UNIQUE_TBL;
--
-- Deferrable unique constraints
--
CREATE TABLE unique_tbl (i int UNIQUE DEFERRABLE, t text);
INSERT INTO unique_tbl VALUES (0, 'one');
INSERT INTO unique_tbl VALUES (1, 'two');
INSERT INTO unique_tbl VALUES (2, 'tree');
INSERT INTO unique_tbl VALUES (3, 'four');
INSERT INTO unique_tbl VALUES (4, 'five');
BEGIN;
-- default is immediate so this should fail right away
UPDATE unique_tbl SET i = 1 WHERE i = 0;
ERROR: duplicate key value violates unique constraint "unique_tbl_i_key"
DETAIL: Key (i)=(1) already exists.
ROLLBACK;
-- check is done at end of statement, so this should succeed
UPDATE unique_tbl SET i = i+1;
SELECT * FROM unique_tbl;
i | t
---+------
1 | one
2 | two
3 | tree
4 | four
5 | five
(5 rows)
-- explicitly defer the constraint
BEGIN;
SET CONSTRAINTS unique_tbl_i_key DEFERRED;
INSERT INTO unique_tbl VALUES (3, 'three');
DELETE FROM unique_tbl WHERE t = 'tree'; -- makes constraint valid again
COMMIT; -- should succeed
SELECT * FROM unique_tbl;
i | t
---+-------
1 | one
2 | two
4 | four
5 | five
3 | three
(5 rows)
-- try adding an initially deferred constraint
ALTER TABLE unique_tbl DROP CONSTRAINT unique_tbl_i_key;
ALTER TABLE unique_tbl ADD CONSTRAINT unique_tbl_i_key
UNIQUE (i) DEFERRABLE INITIALLY DEFERRED;
BEGIN;
INSERT INTO unique_tbl VALUES (1, 'five');
INSERT INTO unique_tbl VALUES (5, 'one');
UPDATE unique_tbl SET i = 4 WHERE i = 2;
UPDATE unique_tbl SET i = 2 WHERE i = 4 AND t = 'four';
DELETE FROM unique_tbl WHERE i = 1 AND t = 'one';
DELETE FROM unique_tbl WHERE i = 5 AND t = 'five';
COMMIT;
SELECT * FROM unique_tbl;
i | t
---+-------
3 | three
1 | five
5 | one
4 | two
2 | four
(5 rows)
-- should fail at commit-time
BEGIN;
INSERT INTO unique_tbl VALUES (3, 'Three'); -- should succeed for now
COMMIT; -- should fail
ERROR: duplicate key value violates unique constraint "unique_tbl_i_key"
DETAIL: Key (i)=(3) already exists.
-- make constraint check immediate
BEGIN;
SET CONSTRAINTS ALL IMMEDIATE;
INSERT INTO unique_tbl VALUES (3, 'Three'); -- should fail
ERROR: duplicate key value violates unique constraint "unique_tbl_i_key"
DETAIL: Key (i)=(3) already exists.
COMMIT;
-- forced check when SET CONSTRAINTS is called
BEGIN;
SET CONSTRAINTS ALL DEFERRED;
INSERT INTO unique_tbl VALUES (3, 'Three'); -- should succeed for now
SET CONSTRAINTS ALL IMMEDIATE; -- should fail
ERROR: duplicate key value violates unique constraint "unique_tbl_i_key"
DETAIL: Key (i)=(3) already exists.
COMMIT;
-- test deferrable UNIQUE with a partitioned table
CREATE TABLE parted_uniq_tbl (i int UNIQUE DEFERRABLE) partition by range (i);
CREATE TABLE parted_uniq_tbl_1 PARTITION OF parted_uniq_tbl FOR VALUES FROM (0) TO (10);
CREATE TABLE parted_uniq_tbl_2 PARTITION OF parted_uniq_tbl FOR VALUES FROM (20) TO (30);
SELECT conname, conrelid::regclass FROM pg_constraint
WHERE conname LIKE 'parted_uniq%' ORDER BY conname;
conname | conrelid
-------------------------+-------------------
parted_uniq_tbl_1_i_key | parted_uniq_tbl_1
parted_uniq_tbl_2_i_key | parted_uniq_tbl_2
parted_uniq_tbl_i_key | parted_uniq_tbl
(3 rows)
BEGIN;
INSERT INTO parted_uniq_tbl VALUES (1);
SAVEPOINT f;
INSERT INTO parted_uniq_tbl VALUES (1); -- unique violation
ERROR: duplicate key value violates unique constraint "parted_uniq_tbl_1_i_key"
DETAIL: Key (i)=(1) already exists.
ROLLBACK TO f;
SET CONSTRAINTS parted_uniq_tbl_i_key DEFERRED;
INSERT INTO parted_uniq_tbl VALUES (1); -- OK now, fail at commit
COMMIT;
ERROR: duplicate key value violates unique constraint "parted_uniq_tbl_1_i_key"
DETAIL: Key (i)=(1) already exists.
DROP TABLE parted_uniq_tbl;
-- test naming a constraint in a partition when a conflict exists
CREATE TABLE parted_fk_naming (
id bigint NOT NULL default 1,
id_abc bigint,
CONSTRAINT dummy_constr FOREIGN KEY (id_abc)
REFERENCES parted_fk_naming (id),
PRIMARY KEY (id)
)
PARTITION BY LIST (id);
CREATE TABLE parted_fk_naming_1 (
id bigint NOT NULL default 1,
id_abc bigint,
PRIMARY KEY (id),
CONSTRAINT dummy_constr CHECK (true)
);
ALTER TABLE parted_fk_naming ATTACH PARTITION parted_fk_naming_1 FOR VALUES IN ('1');
SELECT conname FROM pg_constraint WHERE conrelid = 'parted_fk_naming_1'::regclass AND contype = 'f';
conname
--------------------------------
parted_fk_naming_1_id_abc_fkey
(1 row)
DROP TABLE parted_fk_naming;
-- test a HOT update that invalidates the conflicting tuple.
-- the trigger should still fire and catch the violation
BEGIN;
INSERT INTO unique_tbl VALUES (3, 'Three'); -- should succeed for now
UPDATE unique_tbl SET t = 'THREE' WHERE i = 3 AND t = 'Three';
COMMIT; -- should fail
ERROR: duplicate key value violates unique constraint "unique_tbl_i_key"
DETAIL: Key (i)=(3) already exists.
SELECT * FROM unique_tbl;
i | t
---+-------
3 | three
1 | five
5 | one
4 | two
2 | four
(5 rows)
-- test a HOT update that modifies the newly inserted tuple,
-- but should succeed because we then remove the other conflicting tuple.
BEGIN;
INSERT INTO unique_tbl VALUES(3, 'tree'); -- should succeed for now
UPDATE unique_tbl SET t = 'threex' WHERE t = 'tree';
DELETE FROM unique_tbl WHERE t = 'three';
SELECT * FROM unique_tbl;
i | t
---+--------
1 | five
5 | one
4 | two
2 | four
3 | threex
(5 rows)
COMMIT;
SELECT * FROM unique_tbl;
i | t
---+--------
1 | five
5 | one
4 | two
2 | four
3 | threex
(5 rows)
DROP TABLE unique_tbl;
--
-- EXCLUDE constraints
--
CREATE TABLE circles (
c1 CIRCLE,
c2 TEXT,
EXCLUDE USING gist
(c1 WITH &&, (c2::circle) WITH &&)
WHERE (circle_center(c1) <> '(0,0)')
);
-- these should succeed because they don't match the index predicate
INSERT INTO circles VALUES('<(0,0), 5>', '<(0,0), 5>');
INSERT INTO circles VALUES('<(0,0), 5>', '<(0,0), 4>');
-- succeed
INSERT INTO circles VALUES('<(10,10), 10>', '<(0,0), 5>');
-- fail, overlaps
INSERT INTO circles VALUES('<(20,20), 10>', '<(0,0), 4>');
ERROR: conflicting key value violates exclusion constraint "circles_c1_c2_excl"
DETAIL: Key (c1, (c2::circle))=(<(20,20),10>, <(0,0),4>) conflicts with existing key (c1, (c2::circle))=(<(10,10),10>, <(0,0),5>).
-- succeed, because violation is ignored
INSERT INTO circles VALUES('<(20,20), 10>', '<(0,0), 4>')
ON CONFLICT ON CONSTRAINT circles_c1_c2_excl DO NOTHING;
-- fail, because DO UPDATE variant requires unique index
INSERT INTO circles VALUES('<(20,20), 10>', '<(0,0), 4>')
ON CONFLICT ON CONSTRAINT circles_c1_c2_excl DO UPDATE SET c2 = EXCLUDED.c2;
ERROR: ON CONFLICT DO UPDATE not supported with exclusion constraints
-- succeed because c1 doesn't overlap
INSERT INTO circles VALUES('<(20,20), 1>', '<(0,0), 5>');
-- succeed because c2 doesn't overlap
INSERT INTO circles VALUES('<(20,20), 10>', '<(10,10), 5>');
-- should fail on existing data without the WHERE clause
ALTER TABLE circles ADD EXCLUDE USING gist
(c1 WITH &&, (c2::circle) WITH &&);
ERROR: could not create exclusion constraint "circles_c1_c2_excl1"
DETAIL: Key (c1, (c2::circle))=(<(0,0),5>, <(0,0),5>) conflicts with key (c1, (c2::circle))=(<(0,0),5>, <(0,0),4>).
-- try reindexing an existing constraint
REINDEX INDEX circles_c1_c2_excl;
DROP TABLE circles;
-- Check deferred exclusion constraint
CREATE TABLE deferred_excl (
f1 int,
f2 int,
CONSTRAINT deferred_excl_con EXCLUDE (f1 WITH =) INITIALLY DEFERRED
);
INSERT INTO deferred_excl VALUES(1);
INSERT INTO deferred_excl VALUES(2);
INSERT INTO deferred_excl VALUES(1); -- fail
ERROR: conflicting key value violates exclusion constraint "deferred_excl_con"
DETAIL: Key (f1)=(1) conflicts with existing key (f1)=(1).
INSERT INTO deferred_excl VALUES(1) ON CONFLICT ON CONSTRAINT deferred_excl_con DO NOTHING; -- fail
ERROR: ON CONFLICT does not support deferrable unique constraints/exclusion constraints as arbiters
BEGIN;
INSERT INTO deferred_excl VALUES(2); -- no fail here
COMMIT; -- should fail here
ERROR: conflicting key value violates exclusion constraint "deferred_excl_con"
DETAIL: Key (f1)=(2) conflicts with existing key (f1)=(2).
BEGIN;
INSERT INTO deferred_excl VALUES(3);
INSERT INTO deferred_excl VALUES(3); -- no fail here
COMMIT; -- should fail here
ERROR: conflicting key value violates exclusion constraint "deferred_excl_con"
DETAIL: Key (f1)=(3) conflicts with existing key (f1)=(3).
-- bug #13148: deferred constraint versus HOT update
BEGIN;
INSERT INTO deferred_excl VALUES(2, 1); -- no fail here
DELETE FROM deferred_excl WHERE f1 = 2 AND f2 IS NULL; -- remove old row
UPDATE deferred_excl SET f2 = 2 WHERE f1 = 2;
COMMIT; -- should not fail
SELECT * FROM deferred_excl;
f1 | f2
----+----
1 |
2 | 2
(2 rows)
ALTER TABLE deferred_excl DROP CONSTRAINT deferred_excl_con;
-- This should fail, but worth testing because of HOT updates
UPDATE deferred_excl SET f1 = 3;
ALTER TABLE deferred_excl ADD EXCLUDE (f1 WITH =);
ERROR: could not create exclusion constraint "deferred_excl_f1_excl"
DETAIL: Key (f1)=(3) conflicts with key (f1)=(3).
DROP TABLE deferred_excl;
-- verify constraints created for NOT NULL clauses
CREATE TABLE notnull_tbl1 (a INTEGER NOT NULL NOT NULL);
\d+ notnull_tbl1
Table "public.notnull_tbl1"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Not-null constraints:
"notnull_tbl1_a_not_null" NOT NULL "a"
select conname, contype, conkey from pg_constraint where conrelid = 'notnull_tbl1'::regclass;
conname | contype | conkey
-------------------------+---------+--------
notnull_tbl1_a_not_null | n | {1}
(1 row)
-- no-op
ALTER TABLE notnull_tbl1 ADD CONSTRAINT nn NOT NULL a;
\d+ notnull_tbl1
Table "public.notnull_tbl1"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Not-null constraints:
"notnull_tbl1_a_not_null" NOT NULL "a"
-- duplicate name
ALTER TABLE notnull_tbl1 ADD COLUMN b INT CONSTRAINT notnull_tbl1_a_not_null NOT NULL;
ERROR: constraint "notnull_tbl1_a_not_null" for relation "notnull_tbl1" already exists
-- DROP NOT NULL gets rid of both the attnotnull flag and the constraint itself
ALTER TABLE notnull_tbl1 ALTER a DROP NOT NULL;
\d notnull_tbl1
Table "public.notnull_tbl1"
Column | Type | Collation | Nullable | Default
--------+---------+-----------+----------+---------
a | integer | | |
select conname, contype, conkey from pg_constraint where conrelid = 'notnull_tbl1'::regclass;
conname | contype | conkey
---------+---------+--------
(0 rows)
-- SET NOT NULL puts both back
ALTER TABLE notnull_tbl1 ALTER a SET NOT NULL;
\d notnull_tbl1
Table "public.notnull_tbl1"
Column | Type | Collation | Nullable | Default
--------+---------+-----------+----------+---------
a | integer | | not null |
select conname, contype, conkey from pg_constraint where conrelid = 'notnull_tbl1'::regclass;
conname | contype | conkey
-------------------------+---------+--------
notnull_tbl1_a_not_null | n | {1}
(1 row)
-- Doing it twice doesn't create a redundant constraint
ALTER TABLE notnull_tbl1 ALTER a SET NOT NULL;
select conname, contype, conkey from pg_constraint where conrelid = 'notnull_tbl1'::regclass;
conname | contype | conkey
-------------------------+---------+--------
notnull_tbl1_a_not_null | n | {1}
(1 row)
-- Using the "table constraint" syntax also works
ALTER TABLE notnull_tbl1 ALTER a DROP NOT NULL;
ALTER TABLE notnull_tbl1 ADD CONSTRAINT foobar NOT NULL a;
\d notnull_tbl1
Table "public.notnull_tbl1"
Column | Type | Collation | Nullable | Default
--------+---------+-----------+----------+---------
a | integer | | not null |
select conname, contype, conkey from pg_constraint where conrelid = 'notnull_tbl1'::regclass;
conname | contype | conkey
---------+---------+--------
foobar | n | {1}
(1 row)
DROP TABLE notnull_tbl1;
-- nope
CREATE TABLE notnull_tbl2 (a INTEGER CONSTRAINT blah NOT NULL, b INTEGER CONSTRAINT blah NOT NULL);
ERROR: constraint "blah" for relation "notnull_tbl2" already exists
-- can't drop not-null in primary key
CREATE TABLE notnull_tbl2 (a INTEGER PRIMARY KEY);
ALTER TABLE notnull_tbl2 ALTER a DROP NOT NULL;
ERROR: column "a" is in a primary key
DROP TABLE notnull_tbl2;
-- make sure attnotnull is reset correctly when a PK is dropped indirectly,
-- or kept if there's a reason for that
CREATE TABLE notnull_tbl1 (c0 int, c1 int, PRIMARY KEY (c0, c1));
ALTER TABLE notnull_tbl1 DROP c1;
\d+ notnull_tbl1
Table "public.notnull_tbl1"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
c0 | integer | | | | plain | |
DROP TABLE notnull_tbl1;
-- same, via dropping a domain
CREATE DOMAIN notnull_dom1 AS INTEGER;
CREATE TABLE notnull_tbl1 (c0 notnull_dom1, c1 int, PRIMARY KEY (c0, c1));
DROP DOMAIN notnull_dom1 CASCADE;
NOTICE: drop cascades to column c0 of table notnull_tbl1
\d+ notnull_tbl1
Table "public.notnull_tbl1"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
c1 | integer | | | | plain | |
DROP TABLE notnull_tbl1;
-- with a REPLICA IDENTITY column. Here the not-nulls must be kept
CREATE DOMAIN notnull_dom1 AS INTEGER;
CREATE TABLE notnull_tbl1 (c0 notnull_dom1, c1 int UNIQUE, c2 int generated by default as identity, PRIMARY KEY (c0, c1, c2));
ALTER TABLE notnull_tbl1 DROP CONSTRAINT notnull_tbl1_c2_not_null;
ALTER TABLE notnull_tbl1 REPLICA IDENTITY USING INDEX notnull_tbl1_c1_key;
DROP DOMAIN notnull_dom1 CASCADE;
NOTICE: drop cascades to column c0 of table notnull_tbl1
ALTER TABLE notnull_tbl1 ALTER c1 DROP NOT NULL; -- can't be dropped
ERROR: column "c1" is in index used as replica identity
ALTER TABLE notnull_tbl1 ALTER c1 SET NOT NULL; -- can be set right
\d+ notnull_tbl1
Table "public.notnull_tbl1"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+----------------------------------+---------+--------------+-------------
c1 | integer | | not null | | plain | |
c2 | integer | | not null | generated by default as identity | plain | |
Indexes:
"notnull_tbl1_c1_key" UNIQUE CONSTRAINT, btree (c1) REPLICA IDENTITY
Not-null constraints:
"notnull_tbl1_c1_not_null" NOT NULL "c1"
DROP TABLE notnull_tbl1;
CREATE DOMAIN notnull_dom2 AS INTEGER;
CREATE TABLE notnull_tbl2 (c0 notnull_dom2, c1 int UNIQUE, c2 int generated by default as identity, PRIMARY KEY (c0, c1, c2));
ALTER TABLE notnull_tbl2 DROP CONSTRAINT notnull_tbl2_c2_not_null;
ALTER TABLE notnull_tbl2 REPLICA IDENTITY USING INDEX notnull_tbl2_c1_key;
DROP DOMAIN notnull_dom2 CASCADE;
NOTICE: drop cascades to column c0 of table notnull_tbl2
\d+ notnull_tbl2
Table "public.notnull_tbl2"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+----------------------------------+---------+--------------+-------------
c1 | integer | | not null | | plain | |
c2 | integer | | not null | generated by default as identity | plain | |
Indexes:
"notnull_tbl2_c1_key" UNIQUE CONSTRAINT, btree (c1) REPLICA IDENTITY
BEGIN;
/* make sure the table can be put right, but roll that back */
ALTER TABLE notnull_tbl2 REPLICA IDENTITY FULL, ALTER c2 DROP IDENTITY;
ALTER TABLE notnull_tbl2 ALTER c1 DROP NOT NULL, ALTER c2 DROP NOT NULL;
\d+ notnull_tbl2
Table "public.notnull_tbl2"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
c1 | integer | | | | plain | |
c2 | integer | | | | plain | |
Indexes:
"notnull_tbl2_c1_key" UNIQUE CONSTRAINT, btree (c1)
Replica Identity: FULL
ROLLBACK;
-- Leave this table around for pg_upgrade testing
CREATE TABLE notnull_tbl3 (a INTEGER NOT NULL, CHECK (a IS NOT NULL));
ALTER TABLE notnull_tbl3 ALTER A DROP NOT NULL;
ALTER TABLE notnull_tbl3 ADD b int, ADD CONSTRAINT pk PRIMARY KEY (a, b);
\d notnull_tbl3
Table "public.notnull_tbl3"
Column | Type | Collation | Nullable | Default
--------+---------+-----------+----------+---------
a | integer | | not null |
b | integer | | not null |
Indexes:
"pk" PRIMARY KEY, btree (a, b)
Check constraints:
"notnull_tbl3_a_check" CHECK (a IS NOT NULL)
ALTER TABLE notnull_tbl3 DROP CONSTRAINT pk;
\d notnull_tbl3
Table "public.notnull_tbl3"
Column | Type | Collation | Nullable | Default
--------+---------+-----------+----------+---------
a | integer | | |
b | integer | | |
Check constraints:
"notnull_tbl3_a_check" CHECK (a IS NOT NULL)
-- Primary keys in parent table cause NOT NULL constraint to spawn on their
-- children. Verify that they work correctly.
CREATE TABLE cnn_parent (a int, b int);
CREATE TABLE cnn_child () INHERITS (cnn_parent);
CREATE TABLE cnn_grandchild (NOT NULL b) INHERITS (cnn_child);
CREATE TABLE cnn_child2 (NOT NULL a NO INHERIT) INHERITS (cnn_parent);
CREATE TABLE cnn_grandchild2 () INHERITS (cnn_grandchild, cnn_child2);
NOTICE: merging multiple inherited definitions of column "a"
NOTICE: merging multiple inherited definitions of column "b"
ALTER TABLE cnn_parent ADD PRIMARY KEY (b);
\d+ cnn_grandchild
Table "public.cnn_grandchild"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | | | plain | |
b | integer | | not null | | plain | |
Not-null constraints:
"cnn_grandchild_b_not_null" NOT NULL "b" (local, inherited)
Inherits: cnn_child
Child tables: cnn_grandchild2
\d+ cnn_grandchild2
Table "public.cnn_grandchild2"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | | | plain | |
b | integer | | not null | | plain | |
Not-null constraints:
"cnn_grandchild_b_not_null" NOT NULL "b" (inherited)
Inherits: cnn_grandchild,
cnn_child2
ALTER TABLE cnn_parent DROP CONSTRAINT cnn_parent_pkey;
\set VERBOSITY terse
DROP TABLE cnn_parent CASCADE;
NOTICE: drop cascades to 4 other objects
\set VERBOSITY default
-- As above, but create the primary key ahead of time
CREATE TABLE cnn_parent (a int, b int PRIMARY KEY);
CREATE TABLE cnn_child () INHERITS (cnn_parent);
CREATE TABLE cnn_grandchild (NOT NULL b) INHERITS (cnn_child);
CREATE TABLE cnn_child2 (NOT NULL a NO INHERIT) INHERITS (cnn_parent);
CREATE TABLE cnn_grandchild2 () INHERITS (cnn_grandchild, cnn_child2);
NOTICE: merging multiple inherited definitions of column "a"
NOTICE: merging multiple inherited definitions of column "b"
ALTER TABLE cnn_parent ADD PRIMARY KEY (b);
ERROR: multiple primary keys for table "cnn_parent" are not allowed
\d+ cnn_grandchild
Table "public.cnn_grandchild"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | | | plain | |
b | integer | | not null | | plain | |
Not-null constraints:
"cnn_grandchild_b_not_null" NOT NULL "b" (local, inherited)
Inherits: cnn_child
Child tables: cnn_grandchild2
\d+ cnn_grandchild2
Table "public.cnn_grandchild2"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | | | plain | |
b | integer | | not null | | plain | |
Not-null constraints:
"cnn_grandchild_b_not_null" NOT NULL "b" (inherited)
Inherits: cnn_grandchild,
cnn_child2
ALTER TABLE cnn_parent DROP CONSTRAINT cnn_parent_pkey;
\set VERBOSITY terse
DROP TABLE cnn_parent CASCADE;
NOTICE: drop cascades to 4 other objects
\set VERBOSITY default
-- As above, but create the primary key using a UNIQUE index
CREATE TABLE cnn_parent (a int, b int);
CREATE TABLE cnn_child () INHERITS (cnn_parent);
CREATE TABLE cnn_grandchild (NOT NULL b) INHERITS (cnn_child);
CREATE TABLE cnn_child2 (NOT NULL a NO INHERIT) INHERITS (cnn_parent);
CREATE TABLE cnn_grandchild2 () INHERITS (cnn_grandchild, cnn_child2);
NOTICE: merging multiple inherited definitions of column "a"
NOTICE: merging multiple inherited definitions of column "b"
CREATE UNIQUE INDEX b_uq ON cnn_parent (b);
ALTER TABLE cnn_parent ADD PRIMARY KEY USING INDEX b_uq;
\d+ cnn_grandchild
Table "public.cnn_grandchild"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | | | plain | |
b | integer | | not null | | plain | |
Not-null constraints:
"cnn_grandchild_b_not_null" NOT NULL "b" (local, inherited)
Inherits: cnn_child
Child tables: cnn_grandchild2
\d+ cnn_grandchild2
Table "public.cnn_grandchild2"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | | | plain | |
b | integer | | not null | | plain | |
Not-null constraints:
"cnn_grandchild_b_not_null" NOT NULL "b" (inherited)
Inherits: cnn_grandchild,
cnn_child2
ALTER TABLE cnn_parent DROP CONSTRAINT cnn_parent_pkey;
ERROR: constraint "cnn_parent_pkey" of relation "cnn_parent" does not exist
-- keeps these tables around, for pg_upgrade testing
-- A primary key shouldn't attach to a unique constraint
create table cnn2_parted (a int primary key) partition by list (a);
create table cnn2_part1 (a int unique);
alter table cnn2_parted attach partition cnn2_part1 for values in (1);
\d+ cnn2_part1
Table "public.cnn2_part1"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Partition of: cnn2_parted FOR VALUES IN (1)
Partition constraint: ((a IS NOT NULL) AND (a = 1))
Indexes:
"cnn2_part1_pkey" PRIMARY KEY, btree (a)
"cnn2_part1_a_key" UNIQUE CONSTRAINT, btree (a)
drop table cnn2_parted;
-- ensure columns in partitions are marked not-null
create table cnn2_parted(a int primary key) partition by list (a);
create table cnn2_part1(a int);
alter table cnn2_parted attach partition cnn2_part1 for values in (1);
insert into cnn2_part1 values (null);
ERROR: null value in column "a" of relation "cnn2_part1" violates not-null constraint
DETAIL: Failing row contains (null).
drop table cnn2_parted, cnn2_part1;
create table cnn2_parted(a int not null) partition by list (a);
create table cnn2_part1(a int primary key);
alter table cnn2_parted attach partition cnn2_part1 for values in (1);
ERROR: column "a" in child table must be marked NOT NULL
drop table cnn2_parted, cnn2_part1;
create table cnn2_parted(a int) partition by list (a);
create table cnn_part1 partition of cnn2_parted for values in (1, null);
insert into cnn_part1 values (null);
alter table cnn2_parted add primary key (a);
ERROR: column "a" of relation "cnn_part1" contains null values
drop table cnn2_parted;
-- columns in regular and LIKE inheritance should be marked not-nullable
-- for primary keys, even if those are deferred
CREATE TABLE notnull_tbl4 (a INTEGER PRIMARY KEY INITIALLY DEFERRED);
CREATE TABLE notnull_tbl4_lk (LIKE notnull_tbl4);
CREATE TABLE notnull_tbl4_lk2 (LIKE notnull_tbl4 INCLUDING INDEXES);
CREATE TABLE notnull_tbl4_lk3 (LIKE notnull_tbl4 INCLUDING INDEXES, CONSTRAINT a_nn NOT NULL a);
CREATE TABLE notnull_tbl4_cld () INHERITS (notnull_tbl4);
CREATE TABLE notnull_tbl4_cld2 (PRIMARY KEY (a) DEFERRABLE) INHERITS (notnull_tbl4);
CREATE TABLE notnull_tbl4_cld3 (PRIMARY KEY (a) DEFERRABLE, CONSTRAINT a_nn NOT NULL a) INHERITS (notnull_tbl4);
\d+ notnull_tbl4
Table "public.notnull_tbl4"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Indexes:
"notnull_tbl4_pkey" PRIMARY KEY, btree (a) DEFERRABLE INITIALLY DEFERRED
Child tables: notnull_tbl4_cld,
notnull_tbl4_cld2,
notnull_tbl4_cld3
\d+ notnull_tbl4_lk
Table "public.notnull_tbl4_lk"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Not-null constraints:
"notnull_tbl4_lk_a_not_null" NOT NULL "a"
\d+ notnull_tbl4_lk2
Table "public.notnull_tbl4_lk2"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Indexes:
"notnull_tbl4_lk2_pkey" PRIMARY KEY, btree (a) DEFERRABLE INITIALLY DEFERRED
\d+ notnull_tbl4_lk3
Table "public.notnull_tbl4_lk3"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Indexes:
"notnull_tbl4_lk3_pkey" PRIMARY KEY, btree (a) DEFERRABLE INITIALLY DEFERRED
Not-null constraints:
"a_nn" NOT NULL "a"
\d+ notnull_tbl4_cld
Table "public.notnull_tbl4_cld"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Not-null constraints:
"notnull_tbl4_cld_a_not_null" NOT NULL "a" (inherited)
Inherits: notnull_tbl4
\d+ notnull_tbl4_cld2
Table "public.notnull_tbl4_cld2"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Indexes:
"notnull_tbl4_cld2_pkey" PRIMARY KEY, btree (a) DEFERRABLE
Not-null constraints:
"notnull_tbl4_cld2_a_not_null" NOT NULL "a" (inherited)
Inherits: notnull_tbl4
\d+ notnull_tbl4_cld3
Table "public.notnull_tbl4_cld3"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Indexes:
"notnull_tbl4_cld3_pkey" PRIMARY KEY, btree (a) DEFERRABLE
Not-null constraints:
"a_nn" NOT NULL "a" (local, inherited)
Inherits: notnull_tbl4
-- leave these tables around for pg_upgrade testing
-- also, if a NOT NULL is dropped underneath a deferrable PK, the column
-- should still be nullable afterwards. This mimics what pg_dump does.
CREATE TABLE notnull_tbl5 (a INTEGER CONSTRAINT a_nn NOT NULL);
ALTER TABLE notnull_tbl5 ADD PRIMARY KEY (a) DEFERRABLE;
ALTER TABLE notnull_tbl5 DROP CONSTRAINT a_nn;
\d+ notnull_tbl5
Table "public.notnull_tbl5"
Column | Type | Collation | Nullable | Default | Storage | Stats target | Description
--------+---------+-----------+----------+---------+---------+--------------+-------------
a | integer | | not null | | plain | |
Indexes:
"notnull_tbl5_pkey" PRIMARY KEY, btree (a) DEFERRABLE
DROP TABLE notnull_tbl5;
-- Comments
-- Setup a low-level role to enforce non-superuser checks.
CREATE ROLE regress_constraint_comments;
SET SESSION AUTHORIZATION regress_constraint_comments;
CREATE TABLE constraint_comments_tbl (a int CONSTRAINT the_constraint CHECK (a > 0));
CREATE DOMAIN constraint_comments_dom AS int CONSTRAINT the_constraint CHECK (value > 0);
COMMENT ON CONSTRAINT the_constraint ON constraint_comments_tbl IS 'yes, the comment';
COMMENT ON CONSTRAINT the_constraint ON DOMAIN constraint_comments_dom IS 'yes, another comment';
-- no such constraint
COMMENT ON CONSTRAINT no_constraint ON constraint_comments_tbl IS 'yes, the comment';
ERROR: constraint "no_constraint" for table "constraint_comments_tbl" does not exist
COMMENT ON CONSTRAINT no_constraint ON DOMAIN constraint_comments_dom IS 'yes, another comment';
ERROR: constraint "no_constraint" for domain constraint_comments_dom does not exist
-- no such table/domain
COMMENT ON CONSTRAINT the_constraint ON no_comments_tbl IS 'bad comment';
ERROR: relation "no_comments_tbl" does not exist
COMMENT ON CONSTRAINT the_constraint ON DOMAIN no_comments_dom IS 'another bad comment';
ERROR: type "no_comments_dom" does not exist
COMMENT ON CONSTRAINT the_constraint ON constraint_comments_tbl IS NULL;
COMMENT ON CONSTRAINT the_constraint ON DOMAIN constraint_comments_dom IS NULL;
-- unauthorized user
RESET SESSION AUTHORIZATION;
CREATE ROLE regress_constraint_comments_noaccess;
SET SESSION AUTHORIZATION regress_constraint_comments_noaccess;
COMMENT ON CONSTRAINT the_constraint ON constraint_comments_tbl IS 'no, the comment';
ERROR: must be owner of relation constraint_comments_tbl
COMMENT ON CONSTRAINT the_constraint ON DOMAIN constraint_comments_dom IS 'no, another comment';
ERROR: must be owner of type constraint_comments_dom
RESET SESSION AUTHORIZATION;
DROP TABLE constraint_comments_tbl;
DROP DOMAIN constraint_comments_dom;
DROP ROLE regress_constraint_comments;
DROP ROLE regress_constraint_comments_noaccess;
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