Reusability
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In computer science and software engineering, reusability is the use of existing assets in some form within the software product development process; these assets are products and by-products of the software development life cycle and include code, software components, test suites, designs and documentation. The opposite concept of reusability is leverage, which modifies existing assets as needed to meet specific system requirements. Because reuse implies the creation of a separately maintained version of the assets[clarification needed], it is preferred over leverage.[1]
Subroutines or functions are the simplest form of reuse. A chunk of code is regularly organized using modules or namespaces into layers. Proponents claim that objects and software components offer a more advanced form of reusability, although it has been tough to objectively measure and define levels or scores of reusability.
The ability to reuse relies in an essential way on the ability to build larger things from smaller parts, and being able to identify commonality among those parts. Reusability is often a required characteristic of platform software. Reusability brings several aspects to software development that do not need to be considered when reusability is not required.
Reusability implies some explicit management of build, packaging, distribution, installation, configuration, deployment, maintenance and upgrade issues. If these issues are not considered, software may appear to be reusable from design point of view, but will not be reused in practice.
Software reusability more specifically refers to design features of a software element (or collection of software elements) that enhance its suitability for reuse.
Many reuse design principles were developed at the WISR workshops.[2]
Candidate design features for software reuse include:
- Adaptable
- Brief: small size
- Consistency
- Correctness
- Extensibility
- Fast
- Flexible
- Generic
- Localization of volatile (changeable) design assumptions (David Parnas)
- Modularity
- Orthogonality
- Simple: low complexity
- Stability under changing requirements
Consensus has not yet been reached on this list on the relative importance of the entries nor on the issues which make each one important for a particular class of applications.
See also
References
- ^ Lombard Hill Group (October 22, 2014). "What is Software Reuse". www.lombardhill.com. Lombard Hill Group. Archived from the original on 2014-10-22. Retrieved 22 October 2014.
- ^ "Design for Reuse and Object Oriented Reuse Methods". Umcs.maine.edu. 1995-01-20. Archived from the original on 1997-07-15. Retrieved 2012-07-31.