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Object Relational Features

ADVANCED DATABASES. Object Relational Features. Khawaja Mohiuddin Assistant Professor Department of Computer Sciences Bahria University (Karachi Campus) Khawaja.mohiuddin@bimcs.edu.pk https://sites.google.com/site/khawajamcs. Contents for this lecture are taken from:

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Object Relational Features

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  1. ADVANCED DATABASES Object Relational Features Khawaja Mohiuddin Assistant Professor Department of Computer Sciences Bahria University (Karachi Campus) Khawaja.mohiuddin@bimcs.edu.pk https://sites.google.com/site/khawajamcs Contents for this lecture are taken from: Chapter 10 of “Database Systems: Models, Languages …”, 6th Ed.” by Elmasri and Navathe (Chapter 11 of “Fundamentals of Database Systems” 6th Ed. by Elmasri and Navathe)

  2. Objectives • To explain what Object-relation databases are • To cover the Object Database extensions to SQL • To understand how UDTs are declared • To go over examples of following Object Database concepts: • Inheritance • Encapsulation • Reference Type • Instantiability • Referencing and dereferencing attributes

  3. Object-Relational Databases • Relational DBMS (RDBMS) vendors recognized need to add object database features. • The resulting database systems characterized as Object-Relational Database Systems or ORDBMS. • SQL first specified by Chamberlin and Boyce (1974), underwent enhancements and standardization in 1989 and 1992. New standard, initially called SQL3 and later known as SQL:99 • Starting with SQL3 version, features from object databases were incorporated into the SQL standard. • At first, these extensions were known as SQL/Object SQL standard 2008 for RDBMSs includes many ODBMS features - originally known as SQL/Object - now have merged into main SQL specification known as SQL/Foundation.

  4. Object-Relational Features:Object Database Extensions to SQL • Relational model with object database enhancements referred to as the object-relational model. • Type constructors • Specify complex objects • Includes the row type (tuple or struct) constructor and array type • set, list, and bag constructors were included later in the standard • Mechanism for specifying object identity included • Encapsulation of operations • Provided through user-defined types (UDTs) • May include operations also • Inheritance mechanisms • Provided using keyword UNDER

  5. User-Defined Types (UDT) and Complex Structures for Objects • To allow the creation of complex-structured objects • To separate the declaration of a type from creation of a table • Can be used as either the type for an attribute or as the type for a table • UDT within UDT (complex structure for objects in a table) • UDT syntax: • CREATE TYPE TYPE_NAME AS (<component declarations>);

  6. User-Defined Types and Complex Structures for Objects (cont’d.) • UDT example: CREATE TYPE STREET_ADDR_TYPE AS ( NUMBER VARCHAR (5), STREET_NAME VARCHAR (25), APT_NO VARCHAR (5), SUITE_NO VARCHAR (5) ); CREATE TYPE USA_ADDR_TYPE AS ( STREET_ADDR STREET_ADDR_TYPE, CITY VARCHAR (25), ZIP VARCHAR (10) ); • CREATE TYPE USA_PHONE_TYPE AS ( • PHONE_TYPE VARCHAR (5), • AREA_CODE CHAR (3), • PHONE_NUM CHAR (7) • ); • CREATE TYPE PERSON_TYPE AS ( NAME VARCHAR (35), SEX CHAR, BIRTH_DATE DATE, PHONES USA_PHONE_TYPEARRAY[4], ADDR USA_ADDR_TYPE . .

  7. User-Defined Types and Complex Structures for Objects (cont’d.) • ROW TYPE • Directly create a structured attribute using the keyword ROW if a UDT does not have any operation • CREATE TYPE USA_ADDR_TYPE AS ( • STREET_ADDR ROW ( NUMBER VARCHAR (5), • STREET_NAME VARCHAR (25), • APT_NO VARCHAR (5), • SUITE_NO VARCHAR (5) ), • CITY VARCHAR (25), • ZIP VARCHAR (10) • );

  8. User-Defined Types and Complex Structures for Objects (cont’d.) • Array type • Reference elements using []Example: PHONES USA_PHONE_TYPE ARRAY[4] • PHONES[1] refers to the first location value in a PHONES attribute • CARDINALITY function • Returns the current number of elements in an array • PHONES[CARDINALITY (PHONES)] refers to the last element in the array • Dot notation: • ADDR.CITY refers to the CITY component of an ADDR attribute

  9. Object Identifiers Using Reference Types • Reference type • Create unique system-generated object identifiers. Example: REF IS SYSTEM GENERATED • CREATE TYPE PERSON_TYPE AS ( • NAME VARCHAR (35), • SEX CHAR, • BIRTH_DATE DATE, • PHONES USA_PHONE_TYPE ARRAY [4], • ADDR USA_ADDR_TYPE • INSTANTIABLE • NOT FINAL • REF IS SYSTEM GENERATED • INSTANCE METHOD AGE() RETURNS INTEGER; • CREATE INSTANCE METHOD AGE() RETURNS INTEGER • FOR PERSON_TYPE • BEGIN • RETURN /* CODE TO CALCULATE A • PERSON’S AGE FROM TODAY’S DATE • AND SELF.BIRTH_DATE */ • END; • );

  10. Object Identifiers Using Reference Types (cont’d.) • Reference type (cont’d.) • Complete Syntax is: REF IS <OID_ATTRIBUTE> <VALUE_GENERATION_METHOD>; • <OID_ATTRIBUTE> is user declared attribute name to indentify individual tuples in a table • The options for <VALUE_GENERATION_METHOD> are: • SYSTEM GENERATED - system will automatically generate a unique identifier for each tuple • DERIVED - user provided primary key value to identify tuples is applied

  11. Creating Tables Based on the UDTs • INSTANTIABLE • Specify that UDT is instantiable (see PERSON_TYPE declaration) • Causes one or more tables to be created • UDTs STREET_ADDR_TYPE and USA_ADDR_TYPE are noninstantiable, and hence can only be used as types for attributes, but not as a basis for table creation CREATE TABLE PERSON OF PERSON_TYPE REF IS PERSON_ID SYSTEM GENERATED; • Create a table PERSON based on the PERSON_TYPE UDT • Attribute PERSON_ID will hold the system-generated object identifier whenever a new PERSON record (object) is created and inserted in the table

  12. Encapsulation of Operations • User-defined type • Specify methods (or operations) in addition to the attributes • Format: CREATE TYPE <TYPE-NAME> ( <LIST OF COMPONENT ATTRIBUTES AND THEIR TYPES> <DECLARATION OF FUNCTIONS (METHODS)> ); • Example: method Age() of type PERSON_TYPE

  13. Encapsulation of Operations (cont’d.) • Constructor function TYPE_T( ) • Returns a new object of that type • Observer function X.A • Returns the value of attribute A of TYPE_T if X is of type TYPE_T • Mutator function • Sets the value of the attribute to a new value • User Defined functions (Internal Functions) • Format INSTANCEMETHOD <NAME> (<ARGUMENT_LIST>) RETURNS <RETURN_TYPE>;

  14. Encapsulation of Operations (cont’d.) • External functions • Written in a host language, with only their signature (interface) appearing in the UDT definition • Format DECLARE EXTERNAL <FUNCTION_NAME> <SIGNATURE> LANGUAGE <LANGUAGE_NAME>; • Categories of attributes and functions • PUBLIC (visible at the UDT interface) • PRIVATE (not visible at the UDT interface) • PROTECTED (visible only to subtypes)

  15. Specifying Inheritance and Overloading of Functions • Inheritance rules: • All attributes inherited (phrase NOT FINAL must be included) • Order of supertypes in UNDER clause determines inheritance hierarchy • Instance of a subtype can be used in every context in which a supertypeinstance is used • Subtype can redefine any function defined in supertype • When a function is called, best match selected based on types of all arguments • For dynamic linking, runtime types of parameters is considered

  16. Specifying Inheritance and Overloading of Functions (cont’d.) • Example of inheritance of types: • CREATE TYPE EMPLOYEE_TYPE UNDER PERSON_TYPE AS ( • JOB_CODE CHAR (4), • SALARY FLOAT, • SSN CHAR (11) • INSTANTIABLE • NOT FINAL ); • CREATE TYPE MANAGER_TYPE UNDER EMPLOYEE_TYPE AS ( • DEPT_MANAGED CHAR (20) • INSTANTIABLE ); • Example of inheritance of tables: • CREATE TABLE EMPLOYEE OF EMPLOYEE_TYPE • UNDER PERSON; • CREATE TABLE MANAGER OF MANAGER_TYPE • UNDER EMPLOYEE;

  17. Specifying Relationships via Reference • Component attribute of one tuple may be a reference to a tuple of another table • Specified using keyword REF • Keyword SCOPE • Specify name of table whose tuples referenced • Concept is similar to foreign key • Dot notation • Build path expressions that refer to the component attribute of tuples and row types

  18. Specifying Relationships via Reference • –> • Used for dereferencing for an attribute whose type is REF • SELECT E.Employee–>NAME • FROM EMPLOYMENT AS E • WHERE E.Company–>COMP_NAME = ‘ABCXYZ’; • In SQL, –> is has the same meaning assigned to it in the C programming language. Thus, if r is a reference to a tuple and a is a component attribute in that tuple, then r –> a is the value of attribute a in that tuple.

  19. Conclusion In this Lecture, we… • To explain what Object-relation databases are • To cover the Object Database extensions to SQL • To understand how UDTs are declared • To go over examples of following Object Database concepts: • Inheritance • Encapsulation • Reference Type • Instantiability • Referencing and dereferencing attributes

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