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CS457 Object-Oriented Databases Chapters 21-22 as reference

CS457 Object-Oriented Databases Chapters 21-22 as reference. Limitations to the relational model? Examples of applications that will not work well with the relational model?. Shortcomings of DB models for:. CAD/CAM - keep track of 1000's of matching parts and subassemblies

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CS457 Object-Oriented Databases Chapters 21-22 as reference

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  1. CS457 Object-Oriented Databases Chapters 21-22 as reference

  2. Limitations to the relational model? • Examples of applications that will not work well with the relational model?

  3. Shortcomings of DB models for: • CAD/CAM - keep track of 1000's of matching parts and subassemblies • relational inefficient for this • object versioning • complex market-oriented operations (securities) • geographical information systems • CASE • OA (office automation) • multimedia databases • WWW

  4. Different because of: • more complex structures for objects • new data types for storing images, text, user defined types • nonstandard application specific operations • stored procedures (available in some RDBS, such as ORACLE) 

  5. OODB systems • prototypes: ORION, IRIS, ENCORE, • Commercial products: Postgres, ObjectStore, Versant, Objectivity/DB, O2, Itasca (commercial version of ORION), Gemstone/Opal, POET

  6. OODB  • Some people felt the word object-oriented is too close to OOPL • ODB is more generic

  7. Different approaches to designing ODB 1. Applications written in extension of existing OOPL (1st generation OODB) • language, compiler, execution environment, etc. extended to incorporate  • DB functionality • store and manage objects created by OOPL  • Selling point - unified programming and DB language but need query optimization, etc.  • Gemstone (Smalltalk), Poet (C++)

  8. Designing cont’d 2. Extend relational DB to include OO features: • OID, type hierarchy, inheritance, encapsulation, arbitrary data types, nested objects, etc. • Already familiar with DBMS but performance decreased   • Postgres - extended Ingres, Oracle

  9. Designing cont’d 3. Start entire process from scratch (next generation?) • unify relational and OO system  

  10. Object Data Model • Bring concepts of OOPL into DB systems • Object corresponds to real-world object • Object is data and behavior, object has attributes and operations • Data object has OID - immutable • Group data objects into classes - abstract mechanism, share same structure and behavior

  11. ODM Class has: • instances • methods and data - encapsulation for information hiding - access only through methods • composite classes - composed of multiple types • nested objects - contains another object • complex objects - set of objects       • class hierarachy (ISA) – specialization - define new classes from existing ones • inheritance of attributes and methods - reuse

  12. ODM Completeness • DBS needs to be computationally complete (Turing) • SQL not computationally complete - unless embedded SQL - impedance mismatch, since sets • connections with DML and OOPL in ODB more acceptable

  13. ODM Add features such as: • concurrency • recovery • schema evolution • Versions • What about query language? • Performance?

  14. ODM Object identity OID • correspondence between real-world and database objects • used to refer to objects in application programs and in references between objects (relationships)  • unique identity to each independent object

  15. OID vs. primary key • identity based vs. value-based • unique over entire DB and even over distributed DB (if primary key changes, still same real-world object) • immutable - values of OID for object should not change - OID not assigned to another object - not dependent on any attribute values - not use physical address       • system generated OID • not visible to user

  16. Swizzling • All references in cached objects replaced with object's address • pointer to other memory resident objects - swizzling • saves OID lookup with subsequent references

  17. ODM Encapsulation • information and operations, structure and behavior • implementation hidden • define behavior of object using operations • object accessible through predefined operations - methods • method invoked by sending messages • If query on attributes? SQL violates encapsulation

  18.   OSQL – Object SQL  • ODMG has provided standards for ODB just like relational databases. • Result is OSQL

  19. Implementation Issues: • composite objects • nested - no joins needed • path queries instead of joins • pointer (OID) to nested object • when bring in an object into memory, bring in nested objects as well • replace OID with memory address (can't do this in relational) • eager and lazy swizzling • fast access - memory resident

  20. Placing objects on disk? • clustering of objects • all of same class together • subclass follows superclass • nested objects • indexes for objects? (just like relations)

  21. Additional topics • schema evolution? • views? • Extended relational • Now object-relational • Examine Oracle documentation to see how OO features included in 9i • Can create both tables and objects

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