Title :
Linear complexity object-oriented similarity for clone detection and software evolution analyses
Author :
Merlo, E. ; Antoniol, G. ; Di Penta, M. ; Rollo, V.F.
Author_Institution :
Ecole Polytechnique de Montreal, Que., Canada
Abstract :
With the widespread adoption of object-oriented technologies, the lack of computationally efficient and scalable approaches is limiting the ability to model and analyze the history of large object-oriented software systems. This paper proposes an approximate representation of object-oriented code characteristics, inspired by pattern recognition centroids for clustering. An interesting application of such a representation is a linear-time complexity algorithm to detect duplicate or nearly duplicated code in object-oriented systems. The algorithm accuracy and time complexity were assessed on 11 releases of a large software system, the Eclipse framework.
Keywords :
computational complexity; data flow analysis; object-oriented programming; pattern recognition; software maintenance; software prototyping; Eclipse framework; clone detection; large object-oriented software system; linear complexity object-oriented similarity; linear-time complexity algorithm; object-oriented code characteristics; object-oriented software evolution; pattern recognition centroids; software evolution analysis; source code analysis; time complexity; Application software; Cloning; Clustering algorithms; History; Object oriented modeling; Open source software; Pattern recognition; Software algorithms; Software maintenance; Software systems;
Conference_Titel :
Software Maintenance, 2004. Proceedings. 20th IEEE International Conference on
Print_ISBN :
0-7695-2213-0
DOI :
10.1109/ICSM.2004.1357826
