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ORION - A Component-Based Software Engineering Environment

ORION - A Component-Based Software Engineering Environment. Eduardo Almeida esa2@cin.ufpe.br. Agenda. Context Requirements for Component-Based Software Engineering Environments Components of the Orion Environment The Component-Based Software Engineering Environment Summary References.

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ORION - A Component-Based Software Engineering Environment

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  1. ORION - A Component-Based Software Engineering Environment Eduardo Almeida esa2@cin.ufpe.br

  2. Agenda • Context • Requirements for Component-Based Software Engineering Environments • Components of the Orion Environment • The Component-Based Software Engineering Environment • Summary • References

  3. Context • Tools and “Environments” – Operating Systems • Small collections of stand-alone tools • UNIX • Editors, compilers, debuggers • grep, find • Did not provide real means of integrating tools, coordinating their executions, or automating common tasks • Programming Support Environment (PSE) • The first significant efforts in producing tightly integrated development environment • Collections of tools that support coding activities • Some support for task automation • Support only one software engineering activity and its artifacts

  4. Context • Software Engineering Environments (SEE) • Identification of the need for integrated support for software engineering activities {motivation} • Integrated collections of tools that facilitate software engineering activities – across the software lifecycle • Traceability • Process-centered Software Engineering Environment (PSEE) • Hypothesis – Software engineering process – piece of software • Need for semi-automated support for the software process

  5. Requirements for Component-Based Software Engineering Environments • Tool integration • Platform integration • Data integration • Presentation integration • Control integration • Process integration • Support for Component-Based Software Engineering activities • Domain Engineering • Component-Based Development • Reusability • Referential Integrity • Software Configuration Management (SCM) • Multiple Views of Information • Security • Technology and Language Independence

  6. Components of the Orion Environment • MVCASE • JADE (JAVA DESIGNER) • MoDPAI • JAMP Platform • Repository • Incremental Process Model (IPM)

  7. MVCASE

  8. XMI <XMI.content> ... <Class ...> <Element.name>Frame1</Element.name> ... <Method ...> <Element.name>Frame1</Element.name> <Method.visibility xmi.value="public"/> </Method> <Attribute ...> <Element.name>counter</Element.name> <Attribute.visibility xmi.value="public"/> <Attribute.type> <Class xmi.uuid="int"...> </Attribute.type> </Attribute> </Class> </XMI.content> ... JADE

  9. Network MoDPAI SNMP / PING Requests MoDPAI

  10. JAMP Platform

  11. CASE Tools XMI XMI XMI Middleware Store and search services Artifacts repository - Version Control - Security and Transaction Management XMI XMI XMI Repository

  12. Incremental Process Model (IPM)

  13. The Component-Based Software Engineering Environment

  14. Development of Distributed Components

  15. . Development of Distributed Components

  16. Development of Distributed Components

  17. Service Order Model Framework Development of Distributed Components Repository MVCASE

  18. MVCASE Repository Distributed Independent Layer DAP Structure Development of Distributed Components

  19. JADE MVCASE (3) XMI Partially-generated code (1) (2) + Repository Added operations (4) XMI Completed code + Development of Distributed Components

  20. Development of Distributed Applications

  21. Network topology information (XML) MoDPAI (3) (2) MVCASE Physical Network (1) (4) (6) (5) JAMP Development of Distributed Applications

  22. Summary • Tool integration • Platform integration • Data integration • Presentation integration • Control integration • Process integration • Support for Component-Based Software Engineering activities • Reusability • Referential Integrity • Software Configuration Management (SCM) • Multiple Views of Information • Security • Technology and Language Independence • PSEE in CBSE area

  23. References Almeida, E, S.; Bianchini, C, P.; Prado, A, F.; Trevelin, L, C. IPM: An Incremental Process Model for Distributed Component-Based Software Development. In: The 5th International Conference On Enterprise Information Systems (ICEIS), 2003, Angers - França. ACM Press Almeida, E, S.; Bianchini, C, P.; Prado, A, F.; Trevelin, L, C. MVCase: An Integrating Technologies Tool for Distributed Component-Based Software Development. In: The 6Th Asia - Pacific Network Operations and Management Symposium, Proceedings of IEEE, Poster Session, Jeju Island – Korea, 2002. Alves, V., Borba, P., 2001. Distributed Adapters Pattern (DAP): A Design Pattern for Object-Oriented Distributed Applications. In SugarLoafPlop’2001, The First Latin American Conference on Pattern Languages of Programming Bianchini, C.P., ... [et al]. Devices Monitoring Tool using Pervasive Computing and Software Agents. Proceedings of the 2002 International Conference on Security and Management. P 70-74. Las Vegas, Nevada, USA, 2002. Guimarães, M.P. Implementation Design for Cooperative Work Support in JAMP Platform (in portuguese), MSc. Dissertation - Federal University of São Carlos, 2000. Harrison, W., Ossher, H., and Tarr, P. Software Engineering Tools and Environments: A Roadmap. In The Future of Software Engineering. ACM, New York, 2000, 261-277. Heineman, G., T., Councill, W., T., 2001. Component-Based Software Engineering, Putting the Pieces Together, Addison-Wesley. USA. Lüer, C. and Rosenblum, D. S. WREN: An Environment for Component-Based Development. ACM SIGSOFT Software Engineering Notes. Volume 26. Number 5. September 2001. pp. 207-217. Souza, L.F.H. de, Trevelin, L.C. - JAMP Platform and Multimedia Oriented Middleware Services, International Conference on Intelligente Multimedia and Distance Learning Education (ICIMADE'01) June 2001 Fargo, North Dakota, USA.

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