ROVER: A Framework for the Evolution of Relationships

Authors: 
Claypool, K.T.; Rundensteiner, E.A.; Heineman, G.T.
Author: 
Claypool, K
Rundensteiner, E
Heineman, G
Year: 
2000
Venue: 
Proc. Conceptual modeling (ER), 2000, LNCS 1920
URL: 
http://www.springerlink.com/content/4K25A2WU3LCBYBE2/fulltext.pdf
Citations: 
6
Citations range: 
1 - 9
AttachmentSize
Claypool2000ROVERAFrameworkfortheEvolutionofRelationships.pdf466.22 KB

Relationships have been repeatedly identified as an important object-oriented modeling construct. Today most emerging modeling standards such as the ODMG object model and UML have some support for relationships. However while dealing with schema evolution, OODB systems have largely ignored the existence of relationships. We are the first to propose comprehensive support for relationship evolution. A complete schema evolution facility for any OODB system must provide (1) primitives to manipulate all object model constructs; (2) and also maintenance strategies for the structural and referential integrity of the database under such evolution. We hence propose a set of basic evolution primitives for relationships as well as a compound set of changes that can be applied to the same. However, given the myriad of possible change semantics a user may desire in the future, any pre-defined set is not sufficient. Rather we present a flexible schema evolution framework which allows the user to define new relationship transformations as well as to extend the existing ones. Addressing the second problem, namely of updating the schema evolution primitives to conform to the new set of invariants, can be a very expensive re-engineering effort. In this paper we present an approach that de-couples the constraints from the schema evolution code, thereby enabling their update without any re-coding effort.