Related
Basically, users when they create a new record in mytable1, there is an id field that needs to be the same across multiple tables. I achieve this by having mytable2 with the s_id as primary key
My current function looks like
CREATE OR REPLACE FUNCTION test.new_record()
RETURNS trigger
LANGUAGE plpgsql
AS $function$
BEGIN
case when new.s_id in (select s_id from mytable1) then
insert into mytable2 (sprn, date_created) select max(s_id) +1, now() from mytable2 ;
update mytable1 set new.s_id = (select max(b.s_id) from mytable2 b);
end case;
RETURN new;
END;
$function$;
Intended was when the s_id is replicated then it would create a new entry on mytable2. This new entry would then be updated onto mytable1
Problem with this function is that right now it does not recognise the new on the update part of the function.
How to keep the s_id take the value on every new insert ?
If you want to have one "generator" across multiple tables, create one sequence that is used across all those tables for the default value:
create sequence the_id_sequence;
create table one
(
id integer primary key default nextval('the_id_sequence')
.... other columns
);
create table two
(
id integer primary key default nextval('the_id_sequence')
.... other columns ...
);
If you want to replicate an ID from one table to another during insert, you only need one sequence:
create table one
(
-- using identity is the preferred over "serial" to auto-generate PK values
id integer primary key generated always as identity
);
create table two
(
id integer primary key
);
create or replace function insert_two()
returns trigger
as
$$
begin
insert into two (id) values (new.id);
return new;
end;
$$
language plpgsql;
create trigger replicate_id
before insert on one
for each row
execute procedure insert_two();
Then if you run:
insert into one (id) values (default);
A row with exactly the same id value will be inserted into table two.
If you don't have a generated ID column so far, use the following syntax:
alter table one
add testidcolumn bigint generated always as identity;
Let's say I have the following PostgreSQL table:
id | key
---+--------
1 | 'a.b.c'
I need to prevent inserting records with a key that is a prefix of another key. For example, I should be able to insert:
'a.b.b'
But the following keys should not be accepted:
'a.b'
'a.b.c'
'a.b.c.d'
Is there a way to achieve this - either by a constraint or by a locking mechanism (check the existance before inserting)?
This solution is based on PostgreSQL user-defined operators and exclusion constraints (base syntax, more details).
NOTE: more testing shows this solution does not work (yet). See bottom.
Create a function has_common_prefix(text,text) which will calculate logically what you need. Mark the function as IMMUTABLE.
CREATE OR REPLACE FUNCTION
has_common_prefix(text,text)
RETURNS boolean
IMMUTABLE STRICT
LANGUAGE SQL AS $$
SELECT position ($1 in $2) = 1 OR position ($2 in $1) = 1
$$;
Create an operator for the index
CREATE OPERATOR <~> (
PROCEDURE = has_common_prefix,
LEFTARG = text,
RIGHTARG = text,
COMMUTATOR = <~>
);
Create exclusion constraint
CREATE TABLE keys ( key text );
ALTER TABLE keys
ADD CONSTRAINT keys_cannot_have_common_prefix
EXCLUDE ( key WITH <~> );
However, the last point produces this error:
ERROR: operator <~>(text,text) is not a member of operator family "text_ops"
DETAIL: The exclusion operator must be related to the index operator class for the constraint.
This is because to create an index PostgreSQL needs logical operators to be bound with physical indexing methods, via entities calles "operator classes". So we need to provide that logic:
CREATE OR REPLACE FUNCTION keycmp(text,text)
RETURNS integer IMMUTABLE STRICT
LANGUAGE SQL AS $$
SELECT CASE
WHEN $1 = $2 OR position ($1 in $2) = 1 OR position ($2 in $1) = 1 THEN 0
WHEN $1 < $2 THEN -1
ELSE 1
END
$$;
CREATE OPERATOR CLASS key_ops FOR TYPE text USING btree AS
OPERATOR 3 <~> (text, text),
FUNCTION 1 keycmp (text, text)
;
ALTER TABLE keys
ADD CONSTRAINT keys_cannot_have_common_prefix
EXCLUDE ( key key_ops WITH <~> );
Now, it works:
INSERT INTO keys SELECT 'ara';
INSERT 0 1
INSERT INTO keys SELECT 'arka';
INSERT 0 1
INSERT INTO keys SELECT 'barka';
INSERT 0 1
INSERT INTO keys SELECT 'arak';
psql:test.sql:44: ERROR: conflicting key value violates exclusion constraint "keys_cannot_have_common_prefix"
DETAIL: Key (key)=(arak) conflicts with existing key (key)=(ara).
INSERT INTO keys SELECT 'bark';
psql:test.sql:45: ERROR: conflicting key value violates exclusion constraint "keys_cannot_have_common_prefix"
DETAIL: Key (key)=(bark) conflicts with existing key (key)=(barka).
NOTE: more testing shows this solution does not work yet: The last INSERT should fail.
INSERT INTO keys SELECT 'a';
INSERT 0 1
INSERT INTO keys SELECT 'ac';
ERROR: conflicting key value violates exclusion constraint "keys_cannot_have_common_prefix"
DETAIL: Key (key)=(ac) conflicts with existing key (key)=(a).
INSERT INTO keys SELECT 'ab';
INSERT 0 1
You can use ltree module to achieve this, it will let you to create hierarchical tree-like structures. Also will help you to prevent from reinventing the wheel, creating complicated regular expressions and so on. You just need to have postgresql-contrib package installed. Take a look:
--Enabling extension
CREATE EXTENSION ltree;
--Creating our test table with a pre-loaded data
CREATE TABLE test_keys AS
SELECT
1 AS id,
'a.b.c'::ltree AS key_path;
--Now we'll do the trick with a before trigger
CREATE FUNCTION validate_key_path() RETURNS trigger AS $$
BEGIN
--This query will do our validation.
--It'll search if a key already exists in 'both' directions
--LIMIT 1 because one match is enough for our validation :)
PERFORM * FROM test_keys WHERE key_path #> NEW.key_path OR key_path <# NEW.key_path LIMIT 1;
--If found a match then raise a error
IF FOUND THEN
RAISE 'Duplicate key detected: %', NEW.key_path USING ERRCODE = 'unique_violation';
END IF;
--Great! Our new row is able to be inserted
RETURN NEW;
END;
$$ LANGUAGE plpgsql;
CREATE TRIGGER test_keys_validator BEFORE INSERT OR UPDATE ON test_keys
FOR EACH ROW EXECUTE PROCEDURE validate_key_path();
--Creating a index to speed up our validation...
CREATE INDEX idx_test_keys_key_path ON test_keys USING GIST (key_path);
--The command below will work
INSERT INTO test_keys VALUES (2, 'a.b.b');
--And the commands below will fail
INSERT INTO test_keys VALUES (3, 'a.b');
INSERT INTO test_keys VALUES (4, 'a.b.c');
INSERT INTO test_keys VALUES (5, 'a.b.c.d');
Of course I did not bother creating primary key and other constraints for this test. But do not forget to do so. Also, there is much more on ltree module than I'm showing, if you need something different take a look on its docs, perhaps you'll find the answer there.
You can try below trigger. Please note that key is sql reserve word. So I would suggest you avoid using that as column name in your table.
I have added my create table syntax also for testing purpose:
CREATE TABLE my_table
(myid INTEGER, mykey VARCHAR(50));
CREATE FUNCTION check_key_prefix() RETURNS TRIGGER AS $check_key_prefix$
DECLARE
v_match_keys INTEGER;
BEGIN
v_match_keys = 0;
SELECT COUNT(t.mykey) INTO v_match_keys
FROM my_table t
WHERE t.mykey LIKE CONCAT(NEW.mykey, '%')
OR NEW.mykey LIKE CONCAT(t.mykey, '%');
IF v_match_keys > 0 THEN
RAISE EXCEPTION 'Prefix Key Error occured.';
END IF;
RETURN NEW;
END;
$check_key_prefix$ LANGUAGE plpgsql;
CREATE TRIGGER check_key_prefix
BEFORE INSERT OR UPDATE ON my_table
FOR EACH ROW
EXECUTE PROCEDURE check_key_prefix();
Here is a CHECK - based solution - it may satisfy your needs.
CREATE TABLE keys ( id serial primary key, key text );
CREATE OR REPLACE FUNCTION key_check(text)
RETURNS boolean
STABLE STRICT
LANGUAGE SQL AS $$
SELECT NOT EXISTS (
SELECT 1 FROM keys
WHERE key ~ ( '^' || $1 )
OR $1 ~ ( '^' || key )
);
$$;
ALTER TABLE keys
ADD CONSTRAINT keys_cannot_have_common_prefix
CHECK ( key_check(key) );
PS. Unfortunately, it fails in one point (multi - row inserts).
SQL is a very powerful language. Usually you can do most of the things by plain select statements. I.e. if you do not like triggers, you can use a this method for your inserts.
The only assumption is there exists at least 1 row in the table. (*)
The table:
create table my_table
(
id integer primary key,
key varchar(100)
);
Because of the assumption, we'll have at least 1 row.(*)
insert into my_table (id, key) values (1, 'a.b.c');
Now the magic sql. The trick is replace the p_key value by your key value to insert. I have, intentionally, not put that statement into a stored procedure. Because I want it to be straight forward if you want to carry it to your application side. But usually putting sql into stored procedure is better.
insert into my_table (id, key)
select (select max(id) + 1 from my_table), p_key
from my_table
where not exists (select 'p' from my_table where key like p_key || '%' or p_key like key || '%')
limit 1;
Now the tests:
-- 'a.b.b' => Inserts
insert into my_table (id, key)
select (select max(id) + 1 from my_table), 'a.b.b'
from my_table
where not exists (select 'p' from my_table where key like 'a.b.b' || '%' or 'a.b.b' like key || '%')
limit 1;
-- 'a.b' => does not insert
insert into my_table (id, key)
select (select max(id) + 1 from my_table), 'a.b'
from my_table
where not exists (select 'p' from my_table where key like 'a.b' || '%' or 'a.b' like key || '%')
limit 1;
-- 'a.b.c' => does not insert
insert into my_table (id, key)
select (select max(id) + 1 from my_table), 'a.b.c'
from my_table
where not exists (select 'p' from my_table where key like 'a.b.c' || '%' or 'a.b.c' like key || '%')
limit 1;
-- 'a.b.c.d' does not insert
insert into my_table (id, key)
select (select max(id) + 1 from my_table), 'a.b.c.d'
from my_table
where not exists (select 'p' from my_table where key like 'a.b.c.d' || '%' or 'a.b.c.d' like key || '%')
limit 1;
(*) If you wish you can get rid of this existence of the single row by introducing an Oracle like dual table. If you wish modifying the insert statement is straight forward. Let me know if you wish to do so.
One possible solution is to create a secondary table that holds the prefixes of your keys, and then use a combination of unique and exclusion constraints with an insert trigger to enforce the uniqueness semantics you want.
At a high level, this approach breaks each key down into a list of prefixes and applies something similar to readers-writer lock semantics: any number of keys may share a prefix as long as none of the keys equals the prefix. To accomplish that, the list of prefixes includes the key itself with a flag that marks it as a terminal prefix.
The secondary table looks like this. We use a CHAR rather than a BOOLEAN for the flag because later on we’ll be adding a constraint that doesn’t work on boolean columns.
CREATE TABLE prefixes (
id INTEGER NOT NULL,
prefix TEXT NOT NULL,
is_terminal CHAR NOT NULL,
CONSTRAINT prefixes_id_fk
FOREIGN KEY (id)
REFERENCES your_table (id)
ON DELETE CASCADE,
CONSTRAINT prefixes_is_terminal
CHECK (is_terminal IN ('t', 'f'))
);
Now we’ll need to define a trigger on insert into your_table to also insert rows into prefixes, such that
INSERT INTO your_table (id, key) VALUES (1, ‘abc');
causes
INSERT INTO prefixes (id, prefix, is_terminal) VALUES (1, 'a', ‘f’);
INSERT INTO prefixes (id, prefix, is_terminal) VALUES (1, 'ab', ‘f’);
INSERT INTO prefixes (id, prefix, is_terminal) VALUES (1, 'abc', ’t’);
The trigger function might look like this. I’m only covering the INSERT case here, but the function could be made to handle UPDATE as well by deleting the old prefixes and then inserting the new ones. The DELETE case is covered by the cascading foreign-key constraint on prefixes.
CREATE OR REPLACE FUNCTION insert_prefixes() RETURNS TRIGGER AS $$
DECLARE
is_terminal CHAR := 't';
remaining_text TEXT := NEW.key;
BEGIN
LOOP
IF LENGTH(remaining_text) <= 0 THEN
EXIT;
END IF;
INSERT INTO prefixes (id, prefix, is_terminal)
VALUES (NEW.id, remaining_text, is_terminal);
is_terminal := 'f';
remaining_text := LEFT(remaining_text, -1);
END LOOP;
RETURN NEW;
END;
$$ LANGUAGE plpgsql;
We add this function to the table as a trigger in the usual way.
CREATE TRIGGER insert_prefixes
AFTER INSERT ON your_table
FOR EACH ROW
EXECUTE PROCEDURE insert_prefixes();
An exclusion constraint and a partial unique index will enforce that a row where is_terminal = ’t’ can't collide with another row of the same prefix regardless of its is_terminal value, and that there's only one row with is_terminal = ’t’:
ALTER TABLE prefixes ADD CONSTRAINT prefixes_forbid_conflicts
EXCLUDE USING gist (prefix WITH =, is_terminal WITH <>);
CREATE UNIQUE INDEX ON prefixes (prefix) WHERE is_terminal = 't';
This allows new rows that don’t conflict but prevents ones that do conflict, including in multi-row INSERTs.
db=# INSERT INTO your_table (id, key) VALUES (1, 'a.b.c');
INSERT 0 1
db=# INSERT INTO your_table (id, key) VALUES (2, 'a.b.b');
INSERT 0 1
db=# INSERT INTO your_table (id, key) VALUES (3, 'a.b');
ERROR: conflicting key value violates exclusion constraint "prefixes_forbid_conflicts"
db=# INSERT INTO your_table (id, key) VALUES (4, 'a.b.c');
ERROR: duplicate key value violates unique constraint "prefixes_prefix_idx"
db=# INSERT INTO your_table (id, key) VALUES (5, 'a.b.c.d');
ERROR: conflicting key value violates exclusion constraint "prefixes_forbid_conflicts"
db=# INSERT INTO your_table (id, key) VALUES (6, 'a.b.d'), (7, 'a');
ERROR: conflicting key value violates exclusion constraint "prefixes_forbid_conflicts"
It appears that there is no concept of AUTO_INCREMENT in Oracle, up until and including version 11g.
How can I create a column that behaves like auto increment in Oracle 11g?
There is no such thing as "auto_increment" or "identity" columns in Oracle as of Oracle 11g. However, you can model it easily with a sequence and a trigger:
Table definition:
CREATE TABLE departments (
ID NUMBER(10) NOT NULL,
DESCRIPTION VARCHAR2(50) NOT NULL);
ALTER TABLE departments ADD (
CONSTRAINT dept_pk PRIMARY KEY (ID));
CREATE SEQUENCE dept_seq START WITH 1;
Trigger definition:
CREATE OR REPLACE TRIGGER dept_bir
BEFORE INSERT ON departments
FOR EACH ROW
BEGIN
SELECT dept_seq.NEXTVAL
INTO :new.id
FROM dual;
END;
/
UPDATE:
IDENTITY column is now available on Oracle 12c:
create table t1 (
c1 NUMBER GENERATED by default on null as IDENTITY,
c2 VARCHAR2(10)
);
or specify starting and increment values, also preventing any insert into the identity column (GENERATED ALWAYS) (again, Oracle 12c+ only)
create table t1 (
c1 NUMBER GENERATED ALWAYS as IDENTITY(START with 1 INCREMENT by 1),
c2 VARCHAR2(10)
);
Alternatively, Oracle 12 also allows to use a sequence as a default value:
CREATE SEQUENCE dept_seq START WITH 1;
CREATE TABLE departments (
ID NUMBER(10) DEFAULT dept_seq.nextval NOT NULL,
DESCRIPTION VARCHAR2(50) NOT NULL);
ALTER TABLE departments ADD (
CONSTRAINT dept_pk PRIMARY KEY (ID));
SYS_GUID returns a GUID-- a globally unique ID. A SYS_GUID is a RAW(16). It does not generate an incrementing numeric value.
If you want to create an incrementing numeric key, you'll want to create a sequence.
CREATE SEQUENCE name_of_sequence
START WITH 1
INCREMENT BY 1
CACHE 100;
You would then either use that sequence in your INSERT statement
INSERT INTO name_of_table( primary_key_column, <<other columns>> )
VALUES( name_of_sequence.nextval, <<other values>> );
Or you can define a trigger that automatically populates the primary key value using the sequence
CREATE OR REPLACE TRIGGER trigger_name
BEFORE INSERT ON table_name
FOR EACH ROW
BEGIN
SELECT name_of_sequence.nextval
INTO :new.primary_key_column
FROM dual;
END;
If you are using Oracle 11.1 or later, you can simplify the trigger a bit
CREATE OR REPLACE TRIGGER trigger_name
BEFORE INSERT ON table_name
FOR EACH ROW
BEGIN
:new.primary_key_column := name_of_sequence.nextval;
END;
If you really want to use SYS_GUID
CREATE TABLE table_name (
primary_key_column raw(16) default sys_guid() primary key,
<<other columns>>
)
In Oracle 12c onward you could do something like,
CREATE TABLE MAPS
(
MAP_ID INTEGER GENERATED ALWAYS AS IDENTITY (START WITH 1 INCREMENT BY 1) NOT NULL,
MAP_NAME VARCHAR(24) NOT NULL,
UNIQUE (MAP_ID, MAP_NAME)
);
And in Oracle (Pre 12c).
-- create table
CREATE TABLE MAPS
(
MAP_ID INTEGER NOT NULL ,
MAP_NAME VARCHAR(24) NOT NULL,
UNIQUE (MAP_ID, MAP_NAME)
);
-- create sequence
CREATE SEQUENCE MAPS_SEQ;
-- create tigger using the sequence
CREATE OR REPLACE TRIGGER MAPS_TRG
BEFORE INSERT ON MAPS
FOR EACH ROW
WHEN (new.MAP_ID IS NULL)
BEGIN
SELECT MAPS_SEQ.NEXTVAL
INTO :new.MAP_ID
FROM dual;
END;
/
Here are three flavors:
numeric. Simple increasing numeric value, e.g. 1,2,3,....
GUID. globally univeral identifier, as a RAW datatype.
GUID (string). Same as above, but as a string which might be easier to handle in some languages.
x is the identity column. Substitute FOO with your table name in each of the examples.
-- numerical identity, e.g. 1,2,3...
create table FOO (
x number primary key
);
create sequence FOO_seq;
create or replace trigger FOO_trg
before insert on FOO
for each row
begin
select FOO_seq.nextval into :new.x from dual;
end;
/
-- GUID identity, e.g. 7CFF0C304187716EE040488AA1F9749A
-- use the commented out lines if you prefer RAW over VARCHAR2.
create table FOO (
x varchar(32) primary key -- string version
-- x raw(32) primary key -- raw version
);
create or replace trigger FOO_trg
before insert on FOO
for each row
begin
select cast(sys_guid() as varchar2(32)) into :new.x from dual; -- string version
-- select sys_guid() into :new.x from dual; -- raw version
end;
/
update:
Oracle 12c introduces these two variants that don't depend on triggers:
create table mytable(id number default mysequence.nextval);
create table mytable(id number generated as identity);
The first one uses a sequence in the traditional way; the second manages the value internally.
Oracle Database 12c introduced Identity, an auto-incremental (system-generated) column.
In the previous database versions (until 11g), you usually implement an Identity by creating a Sequence and a Trigger.
From 12c onward, you can create your own Table and define the column that has to be generated as an Identity.
Assuming you mean a column like the SQL Server identity column?
In Oracle, you use a SEQUENCE to achieve the same functionality. I'll see if I can find a good link and post it here.
Update: looks like you found it yourself. Here is the link anyway:
http://www.techonthenet.com/oracle/sequences.php
Trigger and Sequence can be used when you want serialized number that anyone can easily read/remember/understand. But if you don't want to manage ID Column (like emp_id) by this way, and value of this column is not much considerable, you can use SYS_GUID() at Table Creation to get Auto Increment like this.
CREATE TABLE <table_name>
(emp_id RAW(16) DEFAULT SYS_GUID() PRIMARY KEY,
name VARCHAR2(30));
Now your emp_id column will accept "globally unique identifier value".
you can insert value in table by ignoring emp_id column like this.
INSERT INTO <table_name> (name) VALUES ('name value');
So, it will insert unique value to your emp_id Column.
Starting with Oracle 12c there is support for Identity columns in one of two ways:
Sequence + Table - In this solution you still create a sequence as you normally would, then you use the following DDL:
CREATE TABLE MyTable
(ID NUMBER DEFAULT MyTable_Seq.NEXTVAL,
...)
Table Only - In this solution no sequence is explicitly specified. You would use the following DDL:
CREATE TABLE MyTable (ID NUMBER GENERATED AS IDENTITY, ...)
If you use the first way it is backward compatible with the existing way of doing things. The second is a little more straightforward and is more inline with the rest of the RDMS systems out there.
it is called Identity Columns and it is available only from oracle Oracle 12c
CREATE TABLE identity_test_tab
(
id NUMBER GENERATED ALWAYS AS IDENTITY,
description VARCHAR2 (30)
);
example of insert into Identity Columns as below
INSERT INTO identity_test_tab (description) VALUES ('Just DESCRIPTION');
1 row created.
you can NOT do insert like below
INSERT INTO identity_test_tab (id, description) VALUES (NULL, 'ID=NULL and DESCRIPTION');
ERROR at line 1: ORA-32795: cannot insert into a generated always
identity column
INSERT INTO identity_test_tab (id, description) VALUES (999, 'ID=999 and DESCRIPTION');
ERROR at line 1: ORA-32795: cannot insert into a generated always
identity column
useful link
Here is complete solution w.r.t exception/error handling for auto increment, this solution is backward compatible and will work on 11g & 12c, specifically if application is in production.
Please replace 'TABLE_NAME' with your appropriate table name
--checking if table already exisits
BEGIN
EXECUTE IMMEDIATE 'DROP TABLE TABLE_NAME';
EXCEPTION WHEN OTHERS THEN NULL;
END;
/
--creating table
CREATE TABLE TABLE_NAME (
ID NUMBER(10) PRIMARY KEY NOT NULL,
.
.
.
);
--checking if sequence already exists
BEGIN
EXECUTE IMMEDIATE 'DROP SEQUENCE TABLE_NAME_SEQ';
EXCEPTION WHEN OTHERS THEN NULL;
END;
--creating sequence
/
CREATE SEQUENCE TABLE_NAME_SEQ START WITH 1 INCREMENT BY 1 MINVALUE 1 NOMAXVALUE NOCYCLE CACHE 2;
--granting rights as per required user group
/
GRANT SELECT, INSERT, UPDATE, DELETE ON TABLE_NAME TO USER_GROUP;
-- creating trigger
/
CREATE OR REPLACE TRIGGER TABLE_NAME_TS BEFORE INSERT OR UPDATE ON TABLE_NAME FOR EACH ROW
BEGIN
-- auto increment column
SELECT TABLE_NAME_SEQ.NextVal INTO :New.ID FROM dual;
-- You can also put some other required default data as per need of your columns, for example
SELECT SYS_CONTEXT('USERENV', 'SESSIONID') INTO :New.SessionID FROM dual;
SELECT SYS_CONTEXT('USERENV','SERVER_HOST') INTO :New.HostName FROM dual;
SELECT SYS_CONTEXT('USERENV','OS_USER') INTO :New.LoginID FROM dual;
.
.
.
END;
/
Query to create auto increment in oracle. In below query incrmnt column value will be auto incremented wheneever a new row is inserted
CREATE TABLE table1(
id RAW(16) NOT NULL ENABLE,
incrmnt NUMBER(10,0) GENERATED ALWAYS AS IDENTITY
MINVALUE 1 MAXVALUE 999999999999999999999999999 INCREMENT BY 1 START WITH 1 NOORDER NOCYCLE NOT NULL ENABLE,
CONSTRAINT PK_table1 PRIMARY KEY (id) ENABLE);
This is how I did this on an existing table and column (named id):
UPDATE table SET id=ROWNUM;
DECLARE
maxval NUMBER;
BEGIN
SELECT MAX(id) INTO maxval FROM table;
EXECUTE IMMEDIATE 'DROP SEQUENCE table_seq';
EXECUTE IMMEDIATE 'CREATE SEQUENCE table_seq START WITH '|| TO_CHAR(TO_NUMBER(maxval)+1) ||' INCREMENT BY 1 NOMAXVALUE';
END;
CREATE TRIGGER table_trigger
BEFORE INSERT ON table
FOR EACH ROW
BEGIN
:new.id := table_seq.NEXTVAL;
END;
FUNCTION GETUNIQUEID_2 RETURN VARCHAR2
AS
v_curr_id NUMBER;
v_inc NUMBER;
v_next_val NUMBER;
pragma autonomous_transaction;
begin
CREATE SEQUENCE sequnce
START WITH YYMMDD0000000001
INCREMENT BY 1
NOCACHE
select sequence.nextval into v_curr_id from dual;
if(substr(v_curr_id,0,6)= to_char(sysdate,'yymmdd')) then
v_next_val := to_number(to_char(SYSDATE+1, 'yymmdd') || '0000000000');
v_inc := v_next_val - v_curr_id;
execute immediate ' alter sequence sequence increment by ' || v_inc ;
select sequence.nextval into v_curr_id from dual;
execute immediate ' alter sequence sequence increment by 1';
else
dbms_output.put_line('exception : file not found');
end if;
RETURN 'ID'||v_curr_id;
END;
FUNCTION UNIQUE2(
seq IN NUMBER
) RETURN VARCHAR2
AS
i NUMBER := seq;
s VARCHAR2(9);
r NUMBER(2,0);
BEGIN
WHILE i > 0 LOOP
r := MOD( i, 36 );
i := ( i - r ) / 36;
IF ( r < 10 ) THEN
s := TO_CHAR(r) || s;
ELSE
s := CHR( 55 + r ) || s;
END IF;
END LOOP;
RETURN 'ID'||LPAD( s, 14, '0' );
END;
Creating a Sequence:
CREATE SEQUENCE SEQ_CM_LC_FINAL_STATUS
MINVALUE 1 MAXVALUE 999999999999999999999999999
INCREMENT BY 1 START WITH 1 CACHE 20 NOORDER NOCYCLE;
Adding a Trigger
CREATE OR REPLACE TRIGGER CM_LC_FINAL_STATUS_TRIGGER
BEFORE INSERT
ON CM_LC_FINAL_STATUS
FOR EACH ROW
BEGIN
:NEW.LC_FINAL_STATUS_NO := SEQ_CM_LC_FINAL_STATUS.NEXTVAL;
END;
The first step is to create a SEQUENCE in your database, which is a data object that multiple users can access to automatically generate incremented values. As discussed in the documentation, a sequence in Oracle prevents duplicate values from being created simultaneously because multiple users are effectively forced to “take turns” before each sequential item is generated. –
Finally, we’ll create our SEQUENCE that will be utilized later to actually generate the unique, auto incremented value. –
While we have our table created and ready to go, our sequence is thus far just sitting there but never being put to use. This is where TRIGGERS come in. Similar to an event in modern programming languages, a TRIGGER in Oracle is a stored procedure that is executed when a particular event occurs. Typically a TRIGGER will be configured to fire when a table is updated or a record is deleted, providing a bit of cleanup when necessary. –
In our case, we want to execute our TRIGGER prior to INSERT into our CM_LC_FINAL_STATUS table, ensuring our SEQUENCE is incremented and that new value is passed onto our primary key column.
create trigger t1_trigger
before insert on AUDITLOGS
for each row
begin
select t1_seq.nextval into :new.id from dual;
end;
only I have to just change the table name (AUDITLOGS) with your table name and new.id with new.column_name
oracle has sequences AND identity columns in 12c
http://www.oracle-base.com/articles/12c/identity-columns-in-oracle-12cr1.php#identity-columns
I found this but not sure what rdb 7 is
http://www.oracle.com/technetwork/products/rdb/0307-identity-columns-128126.pdf
Maybe just try this simple script:
http://www.hlavaj.sk/ai.php
Result is:
CREATE SEQUENCE TABLE_PK_SEQ;
CREATE OR REPLACE TRIGGER TR_SEQ_TABLE BEFORE INSERT ON TABLE FOR EACH ROW
BEGIN
SELECT TABLE_PK_SEQ.NEXTVAL
INTO :new.PK
FROM dual;
END;
It appears that there is no concept of AUTO_INCREMENT in Oracle, up until and including version 11g.
How can I create a column that behaves like auto increment in Oracle 11g?
There is no such thing as "auto_increment" or "identity" columns in Oracle as of Oracle 11g. However, you can model it easily with a sequence and a trigger:
Table definition:
CREATE TABLE departments (
ID NUMBER(10) NOT NULL,
DESCRIPTION VARCHAR2(50) NOT NULL);
ALTER TABLE departments ADD (
CONSTRAINT dept_pk PRIMARY KEY (ID));
CREATE SEQUENCE dept_seq START WITH 1;
Trigger definition:
CREATE OR REPLACE TRIGGER dept_bir
BEFORE INSERT ON departments
FOR EACH ROW
BEGIN
SELECT dept_seq.NEXTVAL
INTO :new.id
FROM dual;
END;
/
UPDATE:
IDENTITY column is now available on Oracle 12c:
create table t1 (
c1 NUMBER GENERATED by default on null as IDENTITY,
c2 VARCHAR2(10)
);
or specify starting and increment values, also preventing any insert into the identity column (GENERATED ALWAYS) (again, Oracle 12c+ only)
create table t1 (
c1 NUMBER GENERATED ALWAYS as IDENTITY(START with 1 INCREMENT by 1),
c2 VARCHAR2(10)
);
Alternatively, Oracle 12 also allows to use a sequence as a default value:
CREATE SEQUENCE dept_seq START WITH 1;
CREATE TABLE departments (
ID NUMBER(10) DEFAULT dept_seq.nextval NOT NULL,
DESCRIPTION VARCHAR2(50) NOT NULL);
ALTER TABLE departments ADD (
CONSTRAINT dept_pk PRIMARY KEY (ID));
SYS_GUID returns a GUID-- a globally unique ID. A SYS_GUID is a RAW(16). It does not generate an incrementing numeric value.
If you want to create an incrementing numeric key, you'll want to create a sequence.
CREATE SEQUENCE name_of_sequence
START WITH 1
INCREMENT BY 1
CACHE 100;
You would then either use that sequence in your INSERT statement
INSERT INTO name_of_table( primary_key_column, <<other columns>> )
VALUES( name_of_sequence.nextval, <<other values>> );
Or you can define a trigger that automatically populates the primary key value using the sequence
CREATE OR REPLACE TRIGGER trigger_name
BEFORE INSERT ON table_name
FOR EACH ROW
BEGIN
SELECT name_of_sequence.nextval
INTO :new.primary_key_column
FROM dual;
END;
If you are using Oracle 11.1 or later, you can simplify the trigger a bit
CREATE OR REPLACE TRIGGER trigger_name
BEFORE INSERT ON table_name
FOR EACH ROW
BEGIN
:new.primary_key_column := name_of_sequence.nextval;
END;
If you really want to use SYS_GUID
CREATE TABLE table_name (
primary_key_column raw(16) default sys_guid() primary key,
<<other columns>>
)
In Oracle 12c onward you could do something like,
CREATE TABLE MAPS
(
MAP_ID INTEGER GENERATED ALWAYS AS IDENTITY (START WITH 1 INCREMENT BY 1) NOT NULL,
MAP_NAME VARCHAR(24) NOT NULL,
UNIQUE (MAP_ID, MAP_NAME)
);
And in Oracle (Pre 12c).
-- create table
CREATE TABLE MAPS
(
MAP_ID INTEGER NOT NULL ,
MAP_NAME VARCHAR(24) NOT NULL,
UNIQUE (MAP_ID, MAP_NAME)
);
-- create sequence
CREATE SEQUENCE MAPS_SEQ;
-- create tigger using the sequence
CREATE OR REPLACE TRIGGER MAPS_TRG
BEFORE INSERT ON MAPS
FOR EACH ROW
WHEN (new.MAP_ID IS NULL)
BEGIN
SELECT MAPS_SEQ.NEXTVAL
INTO :new.MAP_ID
FROM dual;
END;
/
Here are three flavors:
numeric. Simple increasing numeric value, e.g. 1,2,3,....
GUID. globally univeral identifier, as a RAW datatype.
GUID (string). Same as above, but as a string which might be easier to handle in some languages.
x is the identity column. Substitute FOO with your table name in each of the examples.
-- numerical identity, e.g. 1,2,3...
create table FOO (
x number primary key
);
create sequence FOO_seq;
create or replace trigger FOO_trg
before insert on FOO
for each row
begin
select FOO_seq.nextval into :new.x from dual;
end;
/
-- GUID identity, e.g. 7CFF0C304187716EE040488AA1F9749A
-- use the commented out lines if you prefer RAW over VARCHAR2.
create table FOO (
x varchar(32) primary key -- string version
-- x raw(32) primary key -- raw version
);
create or replace trigger FOO_trg
before insert on FOO
for each row
begin
select cast(sys_guid() as varchar2(32)) into :new.x from dual; -- string version
-- select sys_guid() into :new.x from dual; -- raw version
end;
/
update:
Oracle 12c introduces these two variants that don't depend on triggers:
create table mytable(id number default mysequence.nextval);
create table mytable(id number generated as identity);
The first one uses a sequence in the traditional way; the second manages the value internally.
Oracle Database 12c introduced Identity, an auto-incremental (system-generated) column.
In the previous database versions (until 11g), you usually implement an Identity by creating a Sequence and a Trigger.
From 12c onward, you can create your own Table and define the column that has to be generated as an Identity.
Assuming you mean a column like the SQL Server identity column?
In Oracle, you use a SEQUENCE to achieve the same functionality. I'll see if I can find a good link and post it here.
Update: looks like you found it yourself. Here is the link anyway:
http://www.techonthenet.com/oracle/sequences.php
Trigger and Sequence can be used when you want serialized number that anyone can easily read/remember/understand. But if you don't want to manage ID Column (like emp_id) by this way, and value of this column is not much considerable, you can use SYS_GUID() at Table Creation to get Auto Increment like this.
CREATE TABLE <table_name>
(emp_id RAW(16) DEFAULT SYS_GUID() PRIMARY KEY,
name VARCHAR2(30));
Now your emp_id column will accept "globally unique identifier value".
you can insert value in table by ignoring emp_id column like this.
INSERT INTO <table_name> (name) VALUES ('name value');
So, it will insert unique value to your emp_id Column.
Starting with Oracle 12c there is support for Identity columns in one of two ways:
Sequence + Table - In this solution you still create a sequence as you normally would, then you use the following DDL:
CREATE TABLE MyTable
(ID NUMBER DEFAULT MyTable_Seq.NEXTVAL,
...)
Table Only - In this solution no sequence is explicitly specified. You would use the following DDL:
CREATE TABLE MyTable (ID NUMBER GENERATED AS IDENTITY, ...)
If you use the first way it is backward compatible with the existing way of doing things. The second is a little more straightforward and is more inline with the rest of the RDMS systems out there.
it is called Identity Columns and it is available only from oracle Oracle 12c
CREATE TABLE identity_test_tab
(
id NUMBER GENERATED ALWAYS AS IDENTITY,
description VARCHAR2 (30)
);
example of insert into Identity Columns as below
INSERT INTO identity_test_tab (description) VALUES ('Just DESCRIPTION');
1 row created.
you can NOT do insert like below
INSERT INTO identity_test_tab (id, description) VALUES (NULL, 'ID=NULL and DESCRIPTION');
ERROR at line 1: ORA-32795: cannot insert into a generated always
identity column
INSERT INTO identity_test_tab (id, description) VALUES (999, 'ID=999 and DESCRIPTION');
ERROR at line 1: ORA-32795: cannot insert into a generated always
identity column
useful link
Here is complete solution w.r.t exception/error handling for auto increment, this solution is backward compatible and will work on 11g & 12c, specifically if application is in production.
Please replace 'TABLE_NAME' with your appropriate table name
--checking if table already exisits
BEGIN
EXECUTE IMMEDIATE 'DROP TABLE TABLE_NAME';
EXCEPTION WHEN OTHERS THEN NULL;
END;
/
--creating table
CREATE TABLE TABLE_NAME (
ID NUMBER(10) PRIMARY KEY NOT NULL,
.
.
.
);
--checking if sequence already exists
BEGIN
EXECUTE IMMEDIATE 'DROP SEQUENCE TABLE_NAME_SEQ';
EXCEPTION WHEN OTHERS THEN NULL;
END;
--creating sequence
/
CREATE SEQUENCE TABLE_NAME_SEQ START WITH 1 INCREMENT BY 1 MINVALUE 1 NOMAXVALUE NOCYCLE CACHE 2;
--granting rights as per required user group
/
GRANT SELECT, INSERT, UPDATE, DELETE ON TABLE_NAME TO USER_GROUP;
-- creating trigger
/
CREATE OR REPLACE TRIGGER TABLE_NAME_TS BEFORE INSERT OR UPDATE ON TABLE_NAME FOR EACH ROW
BEGIN
-- auto increment column
SELECT TABLE_NAME_SEQ.NextVal INTO :New.ID FROM dual;
-- You can also put some other required default data as per need of your columns, for example
SELECT SYS_CONTEXT('USERENV', 'SESSIONID') INTO :New.SessionID FROM dual;
SELECT SYS_CONTEXT('USERENV','SERVER_HOST') INTO :New.HostName FROM dual;
SELECT SYS_CONTEXT('USERENV','OS_USER') INTO :New.LoginID FROM dual;
.
.
.
END;
/
Query to create auto increment in oracle. In below query incrmnt column value will be auto incremented wheneever a new row is inserted
CREATE TABLE table1(
id RAW(16) NOT NULL ENABLE,
incrmnt NUMBER(10,0) GENERATED ALWAYS AS IDENTITY
MINVALUE 1 MAXVALUE 999999999999999999999999999 INCREMENT BY 1 START WITH 1 NOORDER NOCYCLE NOT NULL ENABLE,
CONSTRAINT PK_table1 PRIMARY KEY (id) ENABLE);
This is how I did this on an existing table and column (named id):
UPDATE table SET id=ROWNUM;
DECLARE
maxval NUMBER;
BEGIN
SELECT MAX(id) INTO maxval FROM table;
EXECUTE IMMEDIATE 'DROP SEQUENCE table_seq';
EXECUTE IMMEDIATE 'CREATE SEQUENCE table_seq START WITH '|| TO_CHAR(TO_NUMBER(maxval)+1) ||' INCREMENT BY 1 NOMAXVALUE';
END;
CREATE TRIGGER table_trigger
BEFORE INSERT ON table
FOR EACH ROW
BEGIN
:new.id := table_seq.NEXTVAL;
END;
FUNCTION GETUNIQUEID_2 RETURN VARCHAR2
AS
v_curr_id NUMBER;
v_inc NUMBER;
v_next_val NUMBER;
pragma autonomous_transaction;
begin
CREATE SEQUENCE sequnce
START WITH YYMMDD0000000001
INCREMENT BY 1
NOCACHE
select sequence.nextval into v_curr_id from dual;
if(substr(v_curr_id,0,6)= to_char(sysdate,'yymmdd')) then
v_next_val := to_number(to_char(SYSDATE+1, 'yymmdd') || '0000000000');
v_inc := v_next_val - v_curr_id;
execute immediate ' alter sequence sequence increment by ' || v_inc ;
select sequence.nextval into v_curr_id from dual;
execute immediate ' alter sequence sequence increment by 1';
else
dbms_output.put_line('exception : file not found');
end if;
RETURN 'ID'||v_curr_id;
END;
FUNCTION UNIQUE2(
seq IN NUMBER
) RETURN VARCHAR2
AS
i NUMBER := seq;
s VARCHAR2(9);
r NUMBER(2,0);
BEGIN
WHILE i > 0 LOOP
r := MOD( i, 36 );
i := ( i - r ) / 36;
IF ( r < 10 ) THEN
s := TO_CHAR(r) || s;
ELSE
s := CHR( 55 + r ) || s;
END IF;
END LOOP;
RETURN 'ID'||LPAD( s, 14, '0' );
END;
Creating a Sequence:
CREATE SEQUENCE SEQ_CM_LC_FINAL_STATUS
MINVALUE 1 MAXVALUE 999999999999999999999999999
INCREMENT BY 1 START WITH 1 CACHE 20 NOORDER NOCYCLE;
Adding a Trigger
CREATE OR REPLACE TRIGGER CM_LC_FINAL_STATUS_TRIGGER
BEFORE INSERT
ON CM_LC_FINAL_STATUS
FOR EACH ROW
BEGIN
:NEW.LC_FINAL_STATUS_NO := SEQ_CM_LC_FINAL_STATUS.NEXTVAL;
END;
The first step is to create a SEQUENCE in your database, which is a data object that multiple users can access to automatically generate incremented values. As discussed in the documentation, a sequence in Oracle prevents duplicate values from being created simultaneously because multiple users are effectively forced to “take turns” before each sequential item is generated. –
Finally, we’ll create our SEQUENCE that will be utilized later to actually generate the unique, auto incremented value. –
While we have our table created and ready to go, our sequence is thus far just sitting there but never being put to use. This is where TRIGGERS come in. Similar to an event in modern programming languages, a TRIGGER in Oracle is a stored procedure that is executed when a particular event occurs. Typically a TRIGGER will be configured to fire when a table is updated or a record is deleted, providing a bit of cleanup when necessary. –
In our case, we want to execute our TRIGGER prior to INSERT into our CM_LC_FINAL_STATUS table, ensuring our SEQUENCE is incremented and that new value is passed onto our primary key column.
create trigger t1_trigger
before insert on AUDITLOGS
for each row
begin
select t1_seq.nextval into :new.id from dual;
end;
only I have to just change the table name (AUDITLOGS) with your table name and new.id with new.column_name
oracle has sequences AND identity columns in 12c
http://www.oracle-base.com/articles/12c/identity-columns-in-oracle-12cr1.php#identity-columns
I found this but not sure what rdb 7 is
http://www.oracle.com/technetwork/products/rdb/0307-identity-columns-128126.pdf
Maybe just try this simple script:
http://www.hlavaj.sk/ai.php
Result is:
CREATE SEQUENCE TABLE_PK_SEQ;
CREATE OR REPLACE TRIGGER TR_SEQ_TABLE BEFORE INSERT ON TABLE FOR EACH ROW
BEGIN
SELECT TABLE_PK_SEQ.NEXTVAL
INTO :new.PK
FROM dual;
END;
It appears that there is no concept of AUTO_INCREMENT in Oracle, up until and including version 11g.
How can I create a column that behaves like auto increment in Oracle 11g?
There is no such thing as "auto_increment" or "identity" columns in Oracle as of Oracle 11g. However, you can model it easily with a sequence and a trigger:
Table definition:
CREATE TABLE departments (
ID NUMBER(10) NOT NULL,
DESCRIPTION VARCHAR2(50) NOT NULL);
ALTER TABLE departments ADD (
CONSTRAINT dept_pk PRIMARY KEY (ID));
CREATE SEQUENCE dept_seq START WITH 1;
Trigger definition:
CREATE OR REPLACE TRIGGER dept_bir
BEFORE INSERT ON departments
FOR EACH ROW
BEGIN
SELECT dept_seq.NEXTVAL
INTO :new.id
FROM dual;
END;
/
UPDATE:
IDENTITY column is now available on Oracle 12c:
create table t1 (
c1 NUMBER GENERATED by default on null as IDENTITY,
c2 VARCHAR2(10)
);
or specify starting and increment values, also preventing any insert into the identity column (GENERATED ALWAYS) (again, Oracle 12c+ only)
create table t1 (
c1 NUMBER GENERATED ALWAYS as IDENTITY(START with 1 INCREMENT by 1),
c2 VARCHAR2(10)
);
Alternatively, Oracle 12 also allows to use a sequence as a default value:
CREATE SEQUENCE dept_seq START WITH 1;
CREATE TABLE departments (
ID NUMBER(10) DEFAULT dept_seq.nextval NOT NULL,
DESCRIPTION VARCHAR2(50) NOT NULL);
ALTER TABLE departments ADD (
CONSTRAINT dept_pk PRIMARY KEY (ID));
SYS_GUID returns a GUID-- a globally unique ID. A SYS_GUID is a RAW(16). It does not generate an incrementing numeric value.
If you want to create an incrementing numeric key, you'll want to create a sequence.
CREATE SEQUENCE name_of_sequence
START WITH 1
INCREMENT BY 1
CACHE 100;
You would then either use that sequence in your INSERT statement
INSERT INTO name_of_table( primary_key_column, <<other columns>> )
VALUES( name_of_sequence.nextval, <<other values>> );
Or you can define a trigger that automatically populates the primary key value using the sequence
CREATE OR REPLACE TRIGGER trigger_name
BEFORE INSERT ON table_name
FOR EACH ROW
BEGIN
SELECT name_of_sequence.nextval
INTO :new.primary_key_column
FROM dual;
END;
If you are using Oracle 11.1 or later, you can simplify the trigger a bit
CREATE OR REPLACE TRIGGER trigger_name
BEFORE INSERT ON table_name
FOR EACH ROW
BEGIN
:new.primary_key_column := name_of_sequence.nextval;
END;
If you really want to use SYS_GUID
CREATE TABLE table_name (
primary_key_column raw(16) default sys_guid() primary key,
<<other columns>>
)
In Oracle 12c onward you could do something like,
CREATE TABLE MAPS
(
MAP_ID INTEGER GENERATED ALWAYS AS IDENTITY (START WITH 1 INCREMENT BY 1) NOT NULL,
MAP_NAME VARCHAR(24) NOT NULL,
UNIQUE (MAP_ID, MAP_NAME)
);
And in Oracle (Pre 12c).
-- create table
CREATE TABLE MAPS
(
MAP_ID INTEGER NOT NULL ,
MAP_NAME VARCHAR(24) NOT NULL,
UNIQUE (MAP_ID, MAP_NAME)
);
-- create sequence
CREATE SEQUENCE MAPS_SEQ;
-- create tigger using the sequence
CREATE OR REPLACE TRIGGER MAPS_TRG
BEFORE INSERT ON MAPS
FOR EACH ROW
WHEN (new.MAP_ID IS NULL)
BEGIN
SELECT MAPS_SEQ.NEXTVAL
INTO :new.MAP_ID
FROM dual;
END;
/
Here are three flavors:
numeric. Simple increasing numeric value, e.g. 1,2,3,....
GUID. globally univeral identifier, as a RAW datatype.
GUID (string). Same as above, but as a string which might be easier to handle in some languages.
x is the identity column. Substitute FOO with your table name in each of the examples.
-- numerical identity, e.g. 1,2,3...
create table FOO (
x number primary key
);
create sequence FOO_seq;
create or replace trigger FOO_trg
before insert on FOO
for each row
begin
select FOO_seq.nextval into :new.x from dual;
end;
/
-- GUID identity, e.g. 7CFF0C304187716EE040488AA1F9749A
-- use the commented out lines if you prefer RAW over VARCHAR2.
create table FOO (
x varchar(32) primary key -- string version
-- x raw(32) primary key -- raw version
);
create or replace trigger FOO_trg
before insert on FOO
for each row
begin
select cast(sys_guid() as varchar2(32)) into :new.x from dual; -- string version
-- select sys_guid() into :new.x from dual; -- raw version
end;
/
update:
Oracle 12c introduces these two variants that don't depend on triggers:
create table mytable(id number default mysequence.nextval);
create table mytable(id number generated as identity);
The first one uses a sequence in the traditional way; the second manages the value internally.
Oracle Database 12c introduced Identity, an auto-incremental (system-generated) column.
In the previous database versions (until 11g), you usually implement an Identity by creating a Sequence and a Trigger.
From 12c onward, you can create your own Table and define the column that has to be generated as an Identity.
Assuming you mean a column like the SQL Server identity column?
In Oracle, you use a SEQUENCE to achieve the same functionality. I'll see if I can find a good link and post it here.
Update: looks like you found it yourself. Here is the link anyway:
http://www.techonthenet.com/oracle/sequences.php
Trigger and Sequence can be used when you want serialized number that anyone can easily read/remember/understand. But if you don't want to manage ID Column (like emp_id) by this way, and value of this column is not much considerable, you can use SYS_GUID() at Table Creation to get Auto Increment like this.
CREATE TABLE <table_name>
(emp_id RAW(16) DEFAULT SYS_GUID() PRIMARY KEY,
name VARCHAR2(30));
Now your emp_id column will accept "globally unique identifier value".
you can insert value in table by ignoring emp_id column like this.
INSERT INTO <table_name> (name) VALUES ('name value');
So, it will insert unique value to your emp_id Column.
Starting with Oracle 12c there is support for Identity columns in one of two ways:
Sequence + Table - In this solution you still create a sequence as you normally would, then you use the following DDL:
CREATE TABLE MyTable
(ID NUMBER DEFAULT MyTable_Seq.NEXTVAL,
...)
Table Only - In this solution no sequence is explicitly specified. You would use the following DDL:
CREATE TABLE MyTable (ID NUMBER GENERATED AS IDENTITY, ...)
If you use the first way it is backward compatible with the existing way of doing things. The second is a little more straightforward and is more inline with the rest of the RDMS systems out there.
it is called Identity Columns and it is available only from oracle Oracle 12c
CREATE TABLE identity_test_tab
(
id NUMBER GENERATED ALWAYS AS IDENTITY,
description VARCHAR2 (30)
);
example of insert into Identity Columns as below
INSERT INTO identity_test_tab (description) VALUES ('Just DESCRIPTION');
1 row created.
you can NOT do insert like below
INSERT INTO identity_test_tab (id, description) VALUES (NULL, 'ID=NULL and DESCRIPTION');
ERROR at line 1: ORA-32795: cannot insert into a generated always
identity column
INSERT INTO identity_test_tab (id, description) VALUES (999, 'ID=999 and DESCRIPTION');
ERROR at line 1: ORA-32795: cannot insert into a generated always
identity column
useful link
Here is complete solution w.r.t exception/error handling for auto increment, this solution is backward compatible and will work on 11g & 12c, specifically if application is in production.
Please replace 'TABLE_NAME' with your appropriate table name
--checking if table already exisits
BEGIN
EXECUTE IMMEDIATE 'DROP TABLE TABLE_NAME';
EXCEPTION WHEN OTHERS THEN NULL;
END;
/
--creating table
CREATE TABLE TABLE_NAME (
ID NUMBER(10) PRIMARY KEY NOT NULL,
.
.
.
);
--checking if sequence already exists
BEGIN
EXECUTE IMMEDIATE 'DROP SEQUENCE TABLE_NAME_SEQ';
EXCEPTION WHEN OTHERS THEN NULL;
END;
--creating sequence
/
CREATE SEQUENCE TABLE_NAME_SEQ START WITH 1 INCREMENT BY 1 MINVALUE 1 NOMAXVALUE NOCYCLE CACHE 2;
--granting rights as per required user group
/
GRANT SELECT, INSERT, UPDATE, DELETE ON TABLE_NAME TO USER_GROUP;
-- creating trigger
/
CREATE OR REPLACE TRIGGER TABLE_NAME_TS BEFORE INSERT OR UPDATE ON TABLE_NAME FOR EACH ROW
BEGIN
-- auto increment column
SELECT TABLE_NAME_SEQ.NextVal INTO :New.ID FROM dual;
-- You can also put some other required default data as per need of your columns, for example
SELECT SYS_CONTEXT('USERENV', 'SESSIONID') INTO :New.SessionID FROM dual;
SELECT SYS_CONTEXT('USERENV','SERVER_HOST') INTO :New.HostName FROM dual;
SELECT SYS_CONTEXT('USERENV','OS_USER') INTO :New.LoginID FROM dual;
.
.
.
END;
/
Query to create auto increment in oracle. In below query incrmnt column value will be auto incremented wheneever a new row is inserted
CREATE TABLE table1(
id RAW(16) NOT NULL ENABLE,
incrmnt NUMBER(10,0) GENERATED ALWAYS AS IDENTITY
MINVALUE 1 MAXVALUE 999999999999999999999999999 INCREMENT BY 1 START WITH 1 NOORDER NOCYCLE NOT NULL ENABLE,
CONSTRAINT PK_table1 PRIMARY KEY (id) ENABLE);
This is how I did this on an existing table and column (named id):
UPDATE table SET id=ROWNUM;
DECLARE
maxval NUMBER;
BEGIN
SELECT MAX(id) INTO maxval FROM table;
EXECUTE IMMEDIATE 'DROP SEQUENCE table_seq';
EXECUTE IMMEDIATE 'CREATE SEQUENCE table_seq START WITH '|| TO_CHAR(TO_NUMBER(maxval)+1) ||' INCREMENT BY 1 NOMAXVALUE';
END;
CREATE TRIGGER table_trigger
BEFORE INSERT ON table
FOR EACH ROW
BEGIN
:new.id := table_seq.NEXTVAL;
END;
FUNCTION GETUNIQUEID_2 RETURN VARCHAR2
AS
v_curr_id NUMBER;
v_inc NUMBER;
v_next_val NUMBER;
pragma autonomous_transaction;
begin
CREATE SEQUENCE sequnce
START WITH YYMMDD0000000001
INCREMENT BY 1
NOCACHE
select sequence.nextval into v_curr_id from dual;
if(substr(v_curr_id,0,6)= to_char(sysdate,'yymmdd')) then
v_next_val := to_number(to_char(SYSDATE+1, 'yymmdd') || '0000000000');
v_inc := v_next_val - v_curr_id;
execute immediate ' alter sequence sequence increment by ' || v_inc ;
select sequence.nextval into v_curr_id from dual;
execute immediate ' alter sequence sequence increment by 1';
else
dbms_output.put_line('exception : file not found');
end if;
RETURN 'ID'||v_curr_id;
END;
FUNCTION UNIQUE2(
seq IN NUMBER
) RETURN VARCHAR2
AS
i NUMBER := seq;
s VARCHAR2(9);
r NUMBER(2,0);
BEGIN
WHILE i > 0 LOOP
r := MOD( i, 36 );
i := ( i - r ) / 36;
IF ( r < 10 ) THEN
s := TO_CHAR(r) || s;
ELSE
s := CHR( 55 + r ) || s;
END IF;
END LOOP;
RETURN 'ID'||LPAD( s, 14, '0' );
END;
Creating a Sequence:
CREATE SEQUENCE SEQ_CM_LC_FINAL_STATUS
MINVALUE 1 MAXVALUE 999999999999999999999999999
INCREMENT BY 1 START WITH 1 CACHE 20 NOORDER NOCYCLE;
Adding a Trigger
CREATE OR REPLACE TRIGGER CM_LC_FINAL_STATUS_TRIGGER
BEFORE INSERT
ON CM_LC_FINAL_STATUS
FOR EACH ROW
BEGIN
:NEW.LC_FINAL_STATUS_NO := SEQ_CM_LC_FINAL_STATUS.NEXTVAL;
END;
The first step is to create a SEQUENCE in your database, which is a data object that multiple users can access to automatically generate incremented values. As discussed in the documentation, a sequence in Oracle prevents duplicate values from being created simultaneously because multiple users are effectively forced to “take turns” before each sequential item is generated. –
Finally, we’ll create our SEQUENCE that will be utilized later to actually generate the unique, auto incremented value. –
While we have our table created and ready to go, our sequence is thus far just sitting there but never being put to use. This is where TRIGGERS come in. Similar to an event in modern programming languages, a TRIGGER in Oracle is a stored procedure that is executed when a particular event occurs. Typically a TRIGGER will be configured to fire when a table is updated or a record is deleted, providing a bit of cleanup when necessary. –
In our case, we want to execute our TRIGGER prior to INSERT into our CM_LC_FINAL_STATUS table, ensuring our SEQUENCE is incremented and that new value is passed onto our primary key column.
create trigger t1_trigger
before insert on AUDITLOGS
for each row
begin
select t1_seq.nextval into :new.id from dual;
end;
only I have to just change the table name (AUDITLOGS) with your table name and new.id with new.column_name
oracle has sequences AND identity columns in 12c
http://www.oracle-base.com/articles/12c/identity-columns-in-oracle-12cr1.php#identity-columns
I found this but not sure what rdb 7 is
http://www.oracle.com/technetwork/products/rdb/0307-identity-columns-128126.pdf
Maybe just try this simple script:
http://www.hlavaj.sk/ai.php
Result is:
CREATE SEQUENCE TABLE_PK_SEQ;
CREATE OR REPLACE TRIGGER TR_SEQ_TABLE BEFORE INSERT ON TABLE FOR EACH ROW
BEGIN
SELECT TABLE_PK_SEQ.NEXTVAL
INTO :new.PK
FROM dual;
END;