A check constraint is a type of integrity constraint in SQL which specifies a requirement that must be met by each row in a database table. The constraint must be a predicate. It can refer to a single column, or multiple columns of the table. The result of the predicate can be either
UNKNOWN, depending on the presence of NULLs. If the predicate evaluates to
UNKNOWN, then the constraint is not violated and the row can be inserted or updated in the table. This is contrary to predicates in
WHERE clauses in
For example, in a table containing products, one could add a check constraint such that the price of a product and quantity of a product is a non-negative value:
PRICE >= 0
QUANTITY >= 0
If these constraints were not in place, it would be possible to have a negative price (−$30) or quantity (−3 items).
Check constraints are used to ensure the validity of data in a database and to provide data integrity. If they are used at the database level, applications that use the database will not be able to add invalid data or modify valid data so the data becomes invalid, even if the application itself accepts invalid data.
Each check constraint has to be defined in the
CREATE TABLE or
ALTER TABLE statement using the syntax:
CREATE TABLE table_name ( ..., CONSTRAINT constraint_name CHECK ( predicate ), ... )
ALTER TABLE table_name ADD CONSTRAINT constraint_name CHECK ( predicate )
If the check constraint refers to a single column only, it is possible to specify the constraint as part of the column definition.
CREATE TABLE table_name ( ... column_name type CHECK ( predicate ), ... )
NOT NULL constraintEdit
NOT NULL constraint is functionally equivalent to the following check constraint with an
IS NOT NULL predicate:
CHECK (column IS NOT NULL)
Most database management systems restrict check constraints to a single row, with access to constants and deterministic functions, but not to data in other tables, or to data invisible to the current transaction because of transaction isolation.
Such constraints are not truly table check constraints but rather row check constraints. Because these constraints are generally only verified when a row is directly updated (for performance reasons,) and often implemented as implied
UPDATE triggers, integrity constraints could be violated by indirect action were it not for these limitations. Furthermore, otherwise-valid modifications to these records would then be prevented by the
CHECK constraint. Some examples of dangerous constraints include:
CHECK ((select count(*) from invoices where invoices.customerId = customerId) < 1000)
CHECK (dateInserted = CURRENT_DATE)
CHECK (countItems = RAND())
User-defined triggers can be used to work around these restrictions. Although similar in implementation, it is semantically clear that triggers will only be fired when the table is directly modified, and that it is the designer's responsibility to handle indirect, important changes in other tables; constraints on the other hand are intended to be "true at all times" regardless of the user's actions or the designer's lack of foresight.
- PostgreSQL 13 Documentation, Chapter 5. Data Definition, Section 5.4.2. Not-Null Constraints, Website: https://www.postgresql.org/docs/13/ddl-constraints.html, Accessed on Jan 9, 2021