Prediction of fault-proneness at early phase in object-oriented development

Abstract

To analyse the complexity of object-oriented software, several metrics have been proposed. Among them, Chidamber and Kemerer's (1994) metrics are well-known object-oriented metrics. Also, their effectiveness has been empirically evaluated from the viewpoint of estimating the fault-proneness of object-oriented software. In the evaluations, these metrics were applied, not to the design specification but to the source code, because some of them measure the inner complexity of a class, and such information cannot be obtained until the algorithm and the class structure are determined at the end of the design phase. However, the estimation of the fault-proneness should be done in the early phase so as to effectively allocate effort for fixing the faults. This paper proposes a new method to estimate the fault-proneness of an object class in the early phase, using several complexity metrics for object-oriented software. In the proposed method, we introduce four checkpoints into the analysis/design/implementation phase, and we estimate the fault-prone classes using applicable metrics at each checkpoint.