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'\" t .\" Title: CREATE SEQUENCE .\" Author: The PostgreSQL Global Development Group .\" Generator: DocBook XSL Stylesheets v1.78.1 <http://docbook.sf.net/> .\" Date: 2017-11-06 .\" Manual: PostgreSQL 9.2.24 Documentation .\" Source: PostgreSQL 9.2.24 .\" Language: English .\" .TH "CREATE SEQUENCE" "7" "2017-11-06" "PostgreSQL 9.2.24" "PostgreSQL 9.2.24 Documentation" .\" ----------------------------------------------------------------- .\" * Define some portability stuff .\" ----------------------------------------------------------------- .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .\" http://bugs.debian.org/507673 .\" http://lists.gnu.org/archive/html/groff/2009-02/msg00013.html .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .ie \n(.g .ds Aq \(aq .el .ds Aq ' .\" ----------------------------------------------------------------- .\" * set default formatting .\" ----------------------------------------------------------------- .\" disable hyphenation .nh .\" disable justification (adjust text to left margin only) .ad l .\" ----------------------------------------------------------------- .\" * MAIN CONTENT STARTS HERE * .\" ----------------------------------------------------------------- .SH "NAME" CREATE_SEQUENCE \- define a new sequence generator .\" CREATE SEQUENCE .SH "SYNOPSIS" .sp .nf CREATE [ TEMPORARY | TEMP ] SEQUENCE \fIname\fR [ INCREMENT [ BY ] \fIincrement\fR ] [ MINVALUE \fIminvalue\fR | NO MINVALUE ] [ MAXVALUE \fImaxvalue\fR | NO MAXVALUE ] [ START [ WITH ] \fIstart\fR ] [ CACHE \fIcache\fR ] [ [ NO ] CYCLE ] [ OWNED BY { \fItable_name\fR\&.\fIcolumn_name\fR | NONE } ] .fi .SH "DESCRIPTION" .PP \fBCREATE SEQUENCE\fR creates a new sequence number generator\&. This involves creating and initializing a new special single\-row table with the name \fIname\fR\&. The generator will be owned by the user issuing the command\&. .PP If a schema name is given then the sequence is created in the specified schema\&. Otherwise it is created in the current schema\&. Temporary sequences exist in a special schema, so a schema name cannot be given when creating a temporary sequence\&. The sequence name must be distinct from the name of any other sequence, table, index, view, or foreign table in the same schema\&. .PP After a sequence is created, you use the functions \fBnextval\fR, \fBcurrval\fR, and \fBsetval\fR to operate on the sequence\&. These functions are documented in Section 9.16, \(lqSequence Manipulation Functions\(rq, in the documentation\&. .PP Although you cannot update a sequence directly, you can use a query like: .sp .if n \{\ .RS 4 .\} .nf SELECT * FROM \fIname\fR; .fi .if n \{\ .RE .\} .sp to examine the parameters and current state of a sequence\&. In particular, the last_value field of the sequence shows the last value allocated by any session\&. (Of course, this value might be obsolete by the time it\*(Aqs printed, if other sessions are actively doing \fBnextval\fR calls\&.) .SH "PARAMETERS" .PP TEMPORARY or TEMP .RS 4 If specified, the sequence object is created only for this session, and is automatically dropped on session exit\&. Existing permanent sequences with the same name are not visible (in this session) while the temporary sequence exists, unless they are referenced with schema\-qualified names\&. .RE .PP \fIname\fR .RS 4 The name (optionally schema\-qualified) of the sequence to be created\&. .RE .PP \fIincrement\fR .RS 4 The optional clause INCREMENT BY \fIincrement\fR specifies which value is added to the current sequence value to create a new value\&. A positive value will make an ascending sequence, a negative one a descending sequence\&. The default value is 1\&. .RE .PP \fIminvalue\fR, NO MINVALUE .RS 4 The optional clause MINVALUE \fIminvalue\fR determines the minimum value a sequence can generate\&. If this clause is not supplied or \fBNO MINVALUE\fR is specified, then defaults will be used\&. The defaults are 1 and \-263\-1 for ascending and descending sequences, respectively\&. .RE .PP \fImaxvalue\fR, NO MAXVALUE .RS 4 The optional clause MAXVALUE \fImaxvalue\fR determines the maximum value for the sequence\&. If this clause is not supplied or \fBNO MAXVALUE\fR is specified, then default values will be used\&. The defaults are 263\-1 and \-1 for ascending and descending sequences, respectively\&. .RE .PP \fIstart\fR .RS 4 The optional clause START WITH \fIstart\fR allows the sequence to begin anywhere\&. The default starting value is \fIminvalue\fR for ascending sequences and \fImaxvalue\fR for descending ones\&. .RE .PP \fIcache\fR .RS 4 The optional clause CACHE \fIcache\fR specifies how many sequence numbers are to be preallocated and stored in memory for faster access\&. The minimum value is 1 (only one value can be generated at a time, i\&.e\&., no cache), and this is also the default\&. .RE .PP CYCLE, NO CYCLE .RS 4 The CYCLE option allows the sequence to wrap around when the \fImaxvalue\fR or \fIminvalue\fR has been reached by an ascending or descending sequence respectively\&. If the limit is reached, the next number generated will be the \fIminvalue\fR or \fImaxvalue\fR, respectively\&. .sp If NO CYCLE is specified, any calls to \fBnextval\fR after the sequence has reached its maximum value will return an error\&. If neither CYCLE or NO CYCLE are specified, NO CYCLE is the default\&. .RE .PP OWNED BY \fItable_name\fR\&.\fIcolumn_name\fR, OWNED BY NONE .RS 4 The OWNED BY option causes the sequence to be associated with a specific table column, such that if that column (or its whole table) is dropped, the sequence will be automatically dropped as well\&. The specified table must have the same owner and be in the same schema as the sequence\&. OWNED BY NONE, the default, specifies that there is no such association\&. .RE .SH "NOTES" .PP Use \fBDROP SEQUENCE\fR to remove a sequence\&. .PP Sequences are based on bigint arithmetic, so the range cannot exceed the range of an eight\-byte integer (\-9223372036854775808 to 9223372036854775807)\&. .PP Unexpected results might be obtained if a \fIcache\fR setting greater than one is used for a sequence object that will be used concurrently by multiple sessions\&. Each session will allocate and cache successive sequence values during one access to the sequence object and increase the sequence object\*(Aqs last_value accordingly\&. Then, the next \fIcache\fR\-1 uses of \fBnextval\fR within that session simply return the preallocated values without touching the sequence object\&. So, any numbers allocated but not used within a session will be lost when that session ends, resulting in \(lqholes\(rq in the sequence\&. .PP Furthermore, although multiple sessions are guaranteed to allocate distinct sequence values, the values might be generated out of sequence when all the sessions are considered\&. For example, with a \fIcache\fR setting of 10, session A might reserve values 1\&.\&.10 and return \fBnextval\fR=1, then session B might reserve values 11\&.\&.20 and return \fBnextval\fR=11 before session A has generated nextval=2\&. Thus, with a \fIcache\fR setting of one it is safe to assume that \fBnextval\fR values are generated sequentially; with a \fIcache\fR setting greater than one you should only assume that the \fBnextval\fR values are all distinct, not that they are generated purely sequentially\&. Also, last_value will reflect the latest value reserved by any session, whether or not it has yet been returned by \fBnextval\fR\&. .PP Another consideration is that a \fBsetval\fR executed on such a sequence will not be noticed by other sessions until they have used up any preallocated values they have cached\&. .SH "EXAMPLES" .PP Create an ascending sequence called serial, starting at 101: .sp .if n \{\ .RS 4 .\} .nf CREATE SEQUENCE serial START 101; .fi .if n \{\ .RE .\} .PP Select the next number from this sequence: .sp .if n \{\ .RS 4 .\} .nf SELECT nextval(\*(Aqserial\*(Aq); nextval \-\-\-\-\-\-\-\-\- 101 .fi .if n \{\ .RE .\} .PP Select the next number from this sequence: .sp .if n \{\ .RS 4 .\} .nf SELECT nextval(\*(Aqserial\*(Aq); nextval \-\-\-\-\-\-\-\-\- 102 .fi .if n \{\ .RE .\} .PP Use this sequence in an \fBINSERT\fR command: .sp .if n \{\ .RS 4 .\} .nf INSERT INTO distributors VALUES (nextval(\*(Aqserial\*(Aq), \*(Aqnothing\*(Aq); .fi .if n \{\ .RE .\} .PP Update the sequence value after a \fBCOPY FROM\fR: .sp .if n \{\ .RS 4 .\} .nf BEGIN; COPY distributors FROM \*(Aqinput_file\*(Aq; SELECT setval(\*(Aqserial\*(Aq, max(id)) FROM distributors; END; .fi .if n \{\ .RE .\} .SH "COMPATIBILITY" .PP \fBCREATE SEQUENCE\fR conforms to the SQL standard, with the following exceptions: .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} The standard\*(Aqs AS <data type> expression is not supported\&. .RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} Obtaining the next value is done using the \fBnextval()\fR function instead of the standard\*(Aqs \fBNEXT VALUE FOR\fR expression\&. .RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} The OWNED BY clause is a PostgreSQL extension\&. .RE .SH "SEE ALSO" ALTER SEQUENCE (\fBALTER_SEQUENCE\fR(7)), DROP SEQUENCE (\fBDROP_SEQUENCE\fR(7))