Codd's twelve rules are a set of thirteen rules ( numbered zero to twelve) proposed by

Edgar F. Codd Edgar Frank "Ted" Codd (19 August 1923 – 18 April 2003) was a British computer scientist who, while working for IBM, invented the relational model for database management, the theoretical basis for relational databases and relational database ...

, a pioneer of the

relational model The relational model (RM) is an approach to managing data using a structure and language consistent with first-order predicate logic, first described in 1969 by English computer scientist Edgar F. Codd, where all data are represented in terms of t ...

for

database In computing, a database is an organized collection of data or a type of data store based on the use of a database management system (DBMS), the software that interacts with end users, applications, and the database itself to capture and a ...

s, designed to define what is required from a

database management system In computing, a database is an organized collection of data or a type of data store based on the use of a database management system (DBMS), the software that interacts with end users, applications, and the database itself to capture and an ...

in order for it to be considered ''relational'', i.e., a

relational database management system A relational database (RDB) is a database based on the relational model of data, as proposed by E. F. Codd in 1970. A Relational Database Management System (RDBMS) is a type of database management system that stores data in a structured for ...

(RDBMS).. They are sometimes referred to as "Codd's Twelve Commandments".

History

Codd originally set out the rules in 1970, and developed them further in a 1974 conference paper. His aim was to prevent the vision of the original relational database from being diluted, as database vendors scrambled in the early 1980s to repackage existing products with a relational veneer. Rule 12 was particularly designed to counter such a positioning. While in 1999, a textbook stated "Nowadays, most RDBMSs ... pass the test", another in 2007 suggested "no database system complies with all twelve rules." Codd himself, in his book "The Relational Model for Database Management: Version 2", acknowledged that while his original set of 12 rules can be used for coarse distinctions, the 333 features of his Relational Model Version 2 (RM/V2) are needed for distinctions of a finer grain.

Rules

Rule 0: The ''foundation rule'': :For any system that is advertised as, or claimed to be, a relational data base management system, that system must be able to manage data bases entirely through its relational capabilities. Rule 1: The ''information rule'': :All information in a relational data base is represented explicitly at the logical level and in exactly one way by values in tables. Rule 2: The ''guaranteed access rule'': :Each and every datum (atomic value) in a relational data base is guaranteed to be logically accessible by resorting to a combination of table name, primary key value and column name. Rule 3: ''Systematic treatment of null values'': :Null values (distinct from the empty character string or a string of blank characters and distinct from zero or any other number) are supported in fully relational DBMS for representing missing information and inapplicable information in a systematic way, independent of data type. Rule 4: ''Dynamic

online In computer technology and telecommunications, online indicates a state of connectivity, and offline indicates a disconnected state. In modern terminology, this usually refers to an Internet connection, but (especially when expressed as "on lin ...

catalog based on the relational model'': :The data base description is represented at the logical level in the same way as ordinary data, so that authorized users can apply the same relational language to its interrogation as they apply to the regular data. Rule 5: The ''comprehensive data sublanguage rule'': :A relational system may support several languages and various modes of terminal use (for example, the fill-in-the-blanks mode). However, there must be at least one language whose statements are expressible, per some well-defined syntax, as character strings and that is comprehensive in supporting all of the following items: ::#Data definition. ::#View definition. ::#Data manipulation (interactive and by program). ::#Integrity constraints. ::#Authorization. ::#Transaction boundaries (begin, commit and rollback). Rule 6: The '' view updating rule'': :All views that are theoretically updatable are also updatable by the system. Rule 7: Relational Operations Rule / ''Possible for high-level insert, update, and delete'': :The capability of handling a base relation or a derived relation as a single operand applies not only to the retrieval of data but also to the insertion, update and deletion of data. Rule 8: ''Physical data independence'': :Application programs and terminal activities remain logically unimpaired whenever any changes are made in either storage representations or access methods. Rule 9: ''Logical data independence'': :Application programs and terminal activities remain logically unimpaired when information-preserving changes of any kind that theoretically permit unimpairment are made to the base tables. Rule 10: ''Integrity independence'': :Integrity constraints specific to a particular relational data base must be definable in the relational data sublanguage and storable in the catalog, not in the application programs. Rule 11: ''Distribution independence'': :The end-user must not be able to see that the data is distributed over various locations. Users should always get the impression that the data is located at one site only. Rule 12: The ''nonsubversion rule'': :If a relational system has a low-level (single-record-at-a-time) language, that low level cannot be used to subvert or bypass the integrity rules and constraints expressed in the higher level relational language (multiple-records-at-a-time).

History

Rules

See also

References

Further reading