Abstract
Component-orientation is an emerging paradigm that promises components that are usable as prefabricated black-boxes. But components have the problem that they should be changeable and flexibly adaptable to a huge number of different application contexts and to changing requirements. We will argue, that sole parameterization — as the key variation technique of components — is not suitable to cope with all required change scenarios. A proper integration with multiple other paradigms, such as object-orientation, the usage of a scripting language as a flexible component glue, and the exploitation of high-level interception techniques can make components be easier (ex)-changeable and adaptable. These techniques can be applied without interfering with the component’s internals.
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References
M. Aksit, K. Wakita, J. Bosch, L. Bergmans, and A. Yonezawa. Abstracting object interactions using composition filters. In R. Guerraoui, O. Nierstrasz, and M. Riveill, editors, Object-Based Distributed Processing, pages 152–184. LCNS791, Springer-Verlag, 1993.
J. Bosch. Superimposition: A component adaptation technique. Information and Software Technology, 41, 1999.
J. O. Coplien. Multi-Paradigm Design for C++. Addison-Wesley, 1998.
E. Gamma, R. Helm, R. Johnson, and J. Vlissides. Design Patterns: Elements of Reusable Object-Oriented Software. Addison-Wesley, 1994.
M. Goedicke, J. Cramer, W. Fey, and M. Gro\( \ddot s \) 129-1e-Rhode. Towards a formally based component description language a foundation for reuse. Structured Programming, 12(2), 1991.
W. Harrison and H. Ossher. Subject-oriented programming-a critique of pure objects. In Proceedings of Conference on Object-Oriented Programming Systems, Languages (OOPSLA), 1993.
G. C. Hunt and M. L. Scott. Intercepting and insturmenting COM applications. In Proceedings of COOTS’99, 5th Conference on Object-Oriented Technologies and Systems, San Diego, California, USA, May 1999.
IONA Technologies Ltd. The orbix architecture, August 1993.
G. Kiczales, J. des Rivieres, and D. G. Bobrow. The Art of the Metaobject Protocol. MIT Press, 1991.
G. Kiczales, J. Lamping, A. Mendhekar, C. Maeda, C. V. Lopes, J. M. Loingtier, and J. Irwin. Aspect-oriented programming. In Proceedings of ECOOP’97, Finnland, June 1997. LCNS1241, Springer-Verlag.
B. B. Kristensen and K. østerbye. Roles: Conceptual abstraction theory & practical language issues. Theory and Practice of Object Systems, 2:143–160, 1996.
M. Goedicke, G. Neumann, and U. Zdun. Object system layer. Accepted for publication in EuroPlop 2000, 2000.
G. Neumann and U. Zdun. Enhancing object-based system composition through per-object mixins. In Proceedings of Asia-Pacific Software Engineering Conference (APSEC), Takamatsu, Japan, December 1999.
G. Neumann and U. Zdun. Filters as a language support for design patterns in object-oriented scripting languages. In Proceedings of COOTS’99, 5th Conference on Object-Oriented Technologies and Systems, San Diego, California, USA, May 1999.
G. Neumann and U. Zdun. Implementing object-specific design patterns using perobject mixins. In Proceedings of NOSA’99, Second Nordic Workshop on Software Architecture, Ronneby, Sweden, August 1999.
G. Neumann and U. Zdun. High-level design and architecture of an http-based infrastructure for webap plications. Accepted for publication in the World Wide WebJou rnal3(1), 2000.
G. Neumann and U. Zdun. Highly flexible design and implementation of an xml and rdf parser/interpreter. to appear, 2000.
G. Neumann and U. Zdun. XOTcl, an object-oriented scripting language. In Proceedings of Tcl2k: The 7th USENIX Tcl/Tk Conference, Austin, Texas, USA, February 2000.
J. K. Ousterhout. Scripting: Higher level programming for the 21st century. IEEE Computer, 31, March 1998.
W. Pree. Design Patterns for Object-Oriented Software Development. ACMPress Books. Addison-Wesley, 1995.
D. C. Schmidt. Wrapper facade: A structural pattern for encapsulating functions within classes. C++ Report, SIGS, 11(2), February 1999.
C. Szyperski. Component Software-Beyond Object-Oriented Programming. ACM Press Books. Addison-Wesley, 1997.
P. Wegner. Learning the language. Byte, 14:245–253, March 1989.
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Goedicke, M., Neumann, G., Zdun, U. (2001). Design and Implementation Constructs for the Development of Flexible, Component-Oriented Software Architectures. In: Butler, G., Jarzabek, S. (eds) Generative and Component-Based Software Engineering. GCSE 2000. Lecture Notes in Computer Science, vol 2177. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-44815-2_9
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DOI: https://doi.org/10.1007/3-540-44815-2_9
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