Constraints are categorized as follows.
Domain integrity
constraints
ü Not null
ü Check
Entity integrity
constraints
ü Unique
ü Primary key
Referential integrity
constraints
ü Foreign key
Constraints are always attached to a column not a table.
We can add constraints in three ways.
ü Column level -- along with the column definition
ü Table level -- after the table definition
ü Alter level -- using alter command
While adding constraints you need not specify the name but the
type only, oracle will internally name the constraint.
If you want to give a name to the constraint, you have to use
the constraint clause.
NOT NULL
This is used to avoid null values.
We can add this constraint in column level only.
Ex:
SQL> create table student(no number(2) not null, name varchar(10),
marks number(3));
SQL> create table student(no
number(2) constraint nn not null, name varchar(10), marks
number(3));
CHECK
This is used to insert the values based on specified condition.
We can add this constraint in all three levels.
Ex:
COLUMN LEVEL
SQL> create table student(no
number(2) , name varchar(10), marks number(3) check
(marks >
300));
SQL> create table student(no
number(2) , name varchar(10), marks number(3) constraint ch
check(marks
> 300));
TABLE LEVEL
SQL> create table student(no
number(2) , name varchar(10), marks number(3), check
(marks >
300));
SQL> create table student(no number(2)
, name varchar(10), marks number(3), constraint
ch check(marks
> 300));
ALTER LEVEL
SQL> alter table student add
check(marks>300);
SQL> alter table student add
constraint ch check(marks>300);
UNIQUE
This is used to avoid duplicates but it allow nulls.
We can add this constraint in all three levels.
Ex:
COLUMN LEVEL
SQL> create table student(no
number(2) unique, name varchar(10), marks number(3));
SQL> create table student(no
number(2) constraint un unique, name
varchar(10), marks
number(3));
TABLE LEVEL
SQL> create table student(no
number(2) , name varchar(10), marks number(3),
unique(no));
SQL> create table student(no
number(2) , name varchar(10), marks number(3), constraint
un unique(no));
ALTER LEVEL
SQL> alter table student add unique(no);
SQL> alter table student add
constraint un unique(no);
PRIMARY KEY
This is used to avoid duplicates and nulls. This will work as
combination of unique and not null.
Primary key always attached to the parent table.
We can add this constraint in all three levels.
Ex:
COLUMN LEVEL
SQL> create table student(no
number(2) primary key, name varchar(10), marks number(3));
SQL> create table student(no
number(2) constraint pk primary key,
name varchar(10),
marks number(3));
TABLE LEVEL
SQL> create table student(no
number(2) , name varchar(10), marks number(3),
primary
key(no));
SQL> create table student(no
number(2) , name varchar(10), marks number(3), constraint
pk primary
key(no));
ALTER LEVEL
SQL> alter table student add primary
key(no);
SQL> alter table student add
constraint pk primary key(no);
FOREIGN KEY
This is used to reference the parent table primary key column
which allows duplicates.
Foreign key always attached to the child table.
We can add this constraint in table and alter levels only.
Ex:
TABLE LEVEL
SQL> create table emp(empno number(2), ename varchar(10), deptno
number(2),
primary key(empno), foreign
key(deptno) references dept(deptno));
SQL> create table emp(empno number(2), ename varchar(10), deptno
number(2),
constraint pk primary key(empno),
constraint fk foreign key(deptno) references
dept(deptno));
ALTER LEVEL
SQL> alter table emp add
foreign key(deptno) references dept(deptno);
SQL> alter table emp add constraint fk foreign key(deptno) references
dept(deptno);
Once the primary key and foreign key relationship has been
created then you can not remove any parent record if the dependent childs
exists.
USING ON DELTE CASCADE
By using this clause you can remove the parent record even it
childs exists.
Because when ever you
remove parent record oracle automatically removes all its dependent records
from child table, if this clause is present while creating foreign key
constraint.
Ex:
TABLE LEVEL
SQL> create table emp(empno number(2), ename varchar(10), deptno
number(2),
primary key(empno), foreign
key(deptno) references dept(deptno) on delete cascade);
SQL> create table emp(empno number(2), ename varchar(10), deptno
number(2),
constraint pk primary key(empno),
constraint fk foreign key(deptno) references
dept(deptno) on delete cascade);
ALTER LEVEL
SQL> alter table emp add
foreign key(deptno) references dept(deptno) on delete cascade;
SQL> alter table emp add constraint fk foreign key(deptno) references
dept(deptno) on
delete cascade;
COMPOSITE KEYS
A composite key can be defined on a combination of columns.
We can define composite keys on entity integrity and referential
integrity constraints.
Composite key can be defined in table and alter levels only.
Ex:
UNIQUE (TABLE LEVEL)
SQL> create table student(no
number(2) , name varchar(10), marks number(3),
unique(no,name));
SQL> create table student(no
number(2) , name varchar(10), marks number(3), constraint
un
unique(no,name));
UNIQUE (ALTER LEVEL)
SQL> alter table student add unique(no,name);
SQL> alter table student add
constraint un unique(no,name);
PRIMARY KEY (TABLE LEVEL)
SQL> create table student(no
number(2) , name varchar(10), marks number(3),
primary
key(no,name));
SQL> create table student(no
number(2) , name varchar(10), marks number(3), constraint
pk primary
key(no,name));
PRIMARY KEY (ALTER LEVEL)
SQL> alter table student add primary
key(no,anme);
SQL> alter table student add
constraint pk primary key(no,name);
FOREIGN KEY (TABLE LEVEL)
SQL> create table emp(empno number(2), ename varchar(10), deptno
number(2), dname
varchar(10), primary key(empno),
foreign key(deptno,dname) references
dept(deptno,dname));
SQL> create table emp(empno number(2), ename varchar(10), deptno
number(2), dname
varchar(10),
constraint pk primary key(empno), constraint fk foreign
key(deptno,dname) references dept(deptno,dname));
FOREIGN KEY (ALTER LEVEL)
SQL> alter table emp add
foreign key(deptno,dname) references dept(deptno,dname);
SQL> alter table emp add constraint fk foreign key(deptno,dname)
references
dept(deptno,dname);
DEFERRABLE CONSTRAINTS
Each constraint has two additional attributes to support
deferred checking of constraints.
Ø Deferred initially
immediate
Ø Deferred initially
deferred
Deferred initially immediate checks for constraint violation at
the time of insert.
Deferred initially deferred checks for constraint violation at
the time of commit.
Ex:
SQL> create table student(no
number(2), name varchar(10), marks number(3), constraint
un unique(no)
deferred initially immediate);
SQL> create table student(no
number(2), name varchar(10), marks number(3), constraint
un unique(no)
deferred initially deferred);
SQL> alter table student add
constraint un unique(no) deferrable initially deferred;
SQL> set constraints all
immediate;
This will enable all
the constraints violations at the time of inserting.
SQL> set constraints all
deferred;
This will enable all the
constraints violations at the time of commit.
OPERATIONS WITH CONSTRAINTS
Possible operations with constraints as follows.
Ø Enable
Ø Disable
Ø Enforce
Ø Drop
ENABLE
This will enable the constraint. Before enable, the constraint
will check the existing data.
Ex:
SQL> alter table student
enable constraint un;
DISABLE
This will disable the constraint.
Ex:
SQL> alter table student
enable constraint un;
ENFORCE
This will enforce the constraint rather than enable for future
inserts or updates.
This will not check for existing data while enforcing data.
Ex:
SQL> alter table student
enforce constraint un;
DROP
This will remove the constraint.
Ex:
SQL> alter table student drop
constraint un;
Once the table is dropped,
constraints automatically will drop.
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