Lessons Learned from Using a Deep Tree-Based Model for Software Defect Prediction in Practice

K. Dam, Trang Pham, S. W. Ng, T. Tran, J. Grundy, A. Ghose, Taeksu Kim, Chul-Joo Kim
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引用次数: 61

Abstract

Defects are common in software systems and cause many problems for software users. Different methods have been developed to make early prediction about the most likely defective modules in large codebases. Most focus on designing features (e.g. complexity metrics) that correlate with potentially defective code. Those approaches however do not sufficiently capture the syntax and multiple levels of semantics of source code, a potentially important capability for building accurate prediction models. In this paper, we report on our experience of deploying a new deep learning tree-based defect prediction model in practice. This model is built upon the tree-structured Long Short Term Memory network which directly matches with the Abstract Syntax Tree representation of source code. We discuss a number of lessons learned from developing the model and evaluating it on two datasets, one from open source projects contributed by our industry partner Samsung and the other from the public PROMISE repository.
应用深度树模型进行软件缺陷预测的经验教训
缺陷在软件系统中是常见的,并且会给软件用户带来很多问题。已经开发了不同的方法来对大型代码库中最有可能存在缺陷的模块进行早期预测。大多数关注于设计与潜在缺陷代码相关的特性(例如复杂性度量)。然而,这些方法不能充分捕获源代码的语法和多层语义,而这是构建准确预测模型的潜在重要能力。在本文中,我们报告了我们在实践中部署一个新的基于深度学习树的缺陷预测模型的经验。该模型建立在树形结构的长短期记忆网络的基础上,该网络与源代码的抽象语法树表示直接匹配。我们讨论了从开发模型和在两个数据集上评估模型中学到的一些经验教训,一个来自我们的行业合作伙伴三星提供的开源项目,另一个来自公共PROMISE存储库。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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