Title :
A type system for the relational calculus of object systems
Author :
Zhao, Liang ; Zhao, Xiangpeng ; Long, Quan ; Zong Yan
Author_Institution :
Sch. of Math., Peking Univ., Beijing
Abstract :
Being a successful technique in software practice, object orientation (OO) is a hot topic in academic research fields. Among many formalisms, rCOS, a refinement calculus of object-oriented systems based on unifying theories of programming (UTP), has been proven a promising one in the sense of its applications to incremental software constructions, the formal use of UML, etc. However, equipped with a semantics reasoning on both static and dynamic properties, rCOS is not designed for static checking. We believe introducing static checking will extend the power of rCOS. In this paper, we develop a type system for rCOS and prove some type safety theorems. To make the theoretical results of this paper convincible and easy to be understood, we follow the traditional approaches of type systems construction. That is, we use an operational semantics as the basic explanation of rCOS language in spite of the fact that rCOS is originally developed in a denotational framework
Keywords :
object-oriented programming; program verification; refinement calculus; relational algebra; type theory; UML; object orientation; object systems; object-oriented systems; operational semantics; rCOS language; refinement calculus; relational calculus; semantics reasoning; static checking; type safety theorems; type system; unifying theories of programming; Application software; Calculus; Formal specifications; Informatics; Java; Mathematics; Object oriented modeling; Object oriented programming; Safety; Unified modeling language;
Conference_Titel :
Engineering of Complex Computer Systems, 2006. ICECCS 2006. 11th IEEE International Conference on
Conference_Location :
Stanford, CA
Print_ISBN :
0-7695-2530-X
DOI :
10.1109/ICECCS.2006.1690368
