SQL Constraints

In a database table, we can add rules to a column known as constraints. These rules control the data that can be stored in a column.

For example, if a column has NOT NULL constraint, it means the column cannot store NULL values.

The constraints used in SQL are:

Constraint Description
NOT NULL values cannot be null
UNIQUE values cannot match any older value
PRIMARY KEY used to uniquely identify a row
FOREIGN KEY references a row in another table
CHECK validates condition for new value
DEFAULT set default value if not passed
CREATE INDEX used to speedup the read process

Note: These constraints are also called integrity constraints.


NOT NULL Constraint

The NOT NULL constraint in a column means that the column cannot store NULL values. For example,

CREATE TABLE Colleges (
  college_id INT NOT NULL,
  college_code VARCHAR(20) NOT NULL,
  college_name VARCHAR(50)
);

Here, the college_id and the college_code columns of the Colleges table won't allow NULL values.

To learn more, visit SQL NOT NULL Constraint


UNIQUE Constraint

The UNIQUE constraint in a column means that the column must have unique value. For example,

CREATE TABLE Colleges (
  college_id INT NOT NULL UNIQUE,
  college_code VARCHAR(20) UNIQUE,
  college_name VARCHAR(50)
);

Here, the value of the college_code column must be unique. Similarly, the value of college_id must be unique as well as it cannot store NULL values.

To learn more, visit SQL UNIQUE Constraint.


PRIMARY KEY Constraint

The PRIMARY KEY constraint is simply a combination of NOT NULL and UNIQUE constraints. It means that the column value is used to uniquely identify the row. For example,

CREATE TABLE Colleges (
  college_id INT PRIMARY KEY,
  college_code VARCHAR(20) NOT NULL,
  college_name VARCHAR(50)
);

Here, the value of the college_id column is a unique identifier for a row. Similarly, it cannot store NULL value and must be UNIQUE.

To learn more, visit SQL PRIMARY KEY.


FOREIGN KEY Constraint

The FOREIGN KEY (REFERENCES in some databases) constraint in a column is used to reference a record that exists in another table. For example,

CREATE TABLE Orders (
  order_id INT PRIMARY KEY,
  customer_id int REFERENCES Customers(id)
);

Here, the value of the college_code column references the row in another table named Customers.

It means that the value of customer_id in the Orders table must be a value from the id column of the Customers table.

To learn more, visit SQL FOREIGN KEY.


CHECK Constraint

The CHECK constraint checks the condition before allowing values in a table. For example,

CREATE TABLE Orders (
  order_id INT PRIMARY KEY,
  amount int CHECK (amount >= 100)
);

Here, the value of the amount column must be greater than or equal to 100. If not, the SQL statement results in an error.

To learn more, visit SQL CHECK Constraint.


DEFAULT Constraint

The DEFAULT constraint is used to set the default value if we try to store NULL in a column. For example,

CREATE TABLE College (
  college_id INT PRIMARY KEY,
  college_code VARCHAR(20),
  college_country VARCHAR(20) DEFAULT 'US'
);

Here, the default value of the college_country column is US.

If we try to store the NULL value in the college_country column, its value will be US.

To learn more, visit SQL DEFAULT Constraint.


CREATE INDEX Constraint

If a column has CREATE INDEX constraint, it's faster to retrieve data if we use that column for data retrieval. For example,

-- create table
CREATE TABLE Colleges (
  college_id INT PRIMARY KEY,
  college_code VARCHAR(20) NOT NULL,
  college_name VARCHAR(50)
);

-- create index
CREATE INDEX college_index
ON Colleges(college_code);

Here, the SQL command creates an index named college_index on the Colleges table using college_id column.

Note: We cannot see the speed difference with less records in a table. However, we can easily notice the speed difference between using indexes and not using indexes.

To learn more, visit SQL CREATE INDEX.


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