A Greenplum Database sequence object is a special single row table that functions as a number generator. You can use a sequence to generate unique integer identifiers for a row that you add to a table. Declaring a column of type SERIAL
implicitly creates a sequence counter for use in that table column.
Greenplum Database provides commands to create, alter, and drop a sequence. Greenplum Database also provides built-in functions to return the next value in the sequence (nextval()
) or to set the sequence to a specific start value (setval()
).
NoteThe PostgreSQL
currval()
andlastval()
sequence functions are not supported in Greenplum Database.
Attributes of a sequence object include the name of the sequence, its increment value, and the last, minimum, and maximum values of the sequence counter. Sequences also have a special boolean attribute named is_called
that governs the auto-increment behavior of a nextval()
operation on the sequence counter. When a sequence's is_called
attribute is true
, nextval()
increments the sequence counter before returning the value. When the is_called
attribute value of a sequence is false
, nextval()
does not increment the counter before returning the value.
Parent topic: Defining Database Objects
The CREATE SEQUENCE command creates and initializes a sequence with the given sequence name and optional start value. The sequence name must be distinct from the name of any other sequence, table, index, or view in the same schema. For example:
CREATE SEQUENCE myserial START 101;
When you create a new sequence, Greenplum Database sets the sequence is_called
attribute to false
. Invoking nextval()
on a newly-created sequence does not increment the sequence counter, but returns the sequence start value and sets is_called
to true
.
After you create a sequence with the CREATE SEQUENCE
command, you can examine the sequence and use the sequence built-in functions.
To examine the current attributes of a sequence, query the sequence directly. For example, to examine a sequence named myserial
:
SELECT * FROM myserial;
You can invoke the nextval()
built-in function to return and use the next value in a sequence. The following command inserts the next value of the sequence named myserial
into the first column of a table named vendors
:
INSERT INTO vendors VALUES (nextval('myserial'), 'acme');
nextval()
uses the sequence's is_called
attribute value to determine whether or not to increment the sequence counter before returning the value. nextval()
advances the counter when is_called
is true
. nextval()
sets the sequence is_called
attribute to true
before returning.
A nextval()
operation is never rolled back. A fetched value is considered used, even if the transaction that performed the nextval()
fails. This means that failed transactions can leave unused holes in the sequence of assigned values.
NoteYou cannot use the
nextval()
function inUPDATE
orDELETE
statements if mirroring is enabled in Greenplum Database.
You can use the Greenplum Database setval()
built-in function to set the counter value for a sequence. For example, the following command sets the counter value of the sequence named myserial
to 201
:
SELECT setval('myserial', 201);
setval()
has two function signatures: setval(sequence, start_val)
and setval(sequence, start_val, is_called)
. The default behaviour of setval(sequence, start_val)
sets the sequence is_called
attribute value to true
.
If you do not want the sequence counter advanced on the next nextval()
call, use the setval(sequence, start_val, is_called)
function signature, passing a false
argument:
SELECT setval('myserial', 201, false);
setval()
operations are never rolled back.
The ALTER SEQUENCE command changes the attributes of an existing sequence. You can alter the sequence start, minimum, maximum, and increment values. You can also restart the sequence at the start value or at a specified value.
Any parameters not set in the ALTER SEQUENCE
command retain their prior settings.
ALTER SEQUENCE sequence START WITH start_value
sets the sequence's start_value
attribute to the new starting value. It has no effect on the last_value
attribute or the value returned by the nextval(sequence)
function.
ALTER SEQUENCE sequence RESTART
resets the sequence's last_value
attribute to the current value of the start_value
attribute and the is_called
attribute to false
. The next call to the nextval(sequence)
function returns start_value
.
ALTER SEQUENCE sequence RESTART WITH restart_value
sets the sequence's last_value
attribute to the new value and the is_called
attribute to false
. The next call to the nextval(sequence)
returns restart_value
. This is the equivalent of calling setval(sequence, restart_value, false)
.
The following command restarts the sequence named myserial
at value 105
:
ALTER SEQUENCE myserial RESTART WITH 105;
The DROP SEQUENCE command removes a sequence. For example, the following command removes the sequence named myserial
:
DROP SEQUENCE myserial;
You can reference a sequence directly in the CREATE TABLE command in addition to using the SERIAL
or BIGSERIAL
types. For example:
CREATE TABLE tablename ( id INT4 DEFAULT nextval('myserial'), name text );
You can also alter a table column to set its default value to a sequence counter:
ALTER TABLE tablename ALTER COLUMN id SET DEFAULT nextval('myserial');
By default, a sequence does not wrap around. That is, when a sequence reaches the max value (+32767
for SMALLSERIAL
, +2147483647
for SERIAL
, +9223372036854775807
for BIGSERIAL
), every subsequent nextval()
call produces an error. You can alter a sequence to make it cycle around and start at 1
again:
ALTER SEQUENCE myserial CYCLE;
You can also specify the wraparound behaviour when you create the sequence:
CREATE SEQUENCE myserial CYCLE;