Open AccessSynthesis of Distributed Processes from Scenario-Based Specifications
Author(s) -
Jun Sun,
Jin Song Dong
Publication year - 2005
Publication title -
lecture notes in computer science
Language(s) - English
Resource type - Book series
SCImago Journal Rank - 0.249
H-Index - 400
eISSN - 1611-3349
pISSN - 0302-9743
ISBN - 3-540-27882-6
DOI - 10.1007/11526841_28
Subject(s) - computer science , sequence (biology) , sequence diagram , construct (python library) , set (abstract data type) , object (grammar) , programming language , point (geometry) , theoretical computer science , state (computer science) , key (lock) , distributed computing , artificial intelligence , unified modeling language , operating system , mathematics , genetics , geometry , software , biology
Given a set of sequence diagrams, the problem of synthesis is of deciding whether there exists a satisfying object system and if so, synthesize one automatically. It is crucial in the development of complex systems, since sequence diagrams serve as the manifestation of use cases and if synthesizable they could lead directly to implementation. It is even more interesting (and harder) if the synthesized object system is distributed. In this paper, we propose a systematic way of synthesizing distributed processes from Live Sequence Charts. The basic idea is to first construct a CSP specification from the LSC specification, and then use CSP algebraic laws to group the behaviors of each object effectively. The key point is that the behaviors of each object can be decided locally without constructing the global state machine.
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