DeepJIT: An End-to-End Deep Learning Framework for Just-in-Time Defect Prediction

2019 IEEE/ACM 16th International Conference on Mining Software Repositories (MSR) Pub Date : 2019-05-01 DOI:10.1109/MSR.2019.00016

Thong Hoang, K. Dam, Yasutaka Kamei, D. Lo, Naoyasu Ubayashi

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引用次数: 134

Abstract

Software quality assurance efforts often focus on identifying defective code. To find likely defective code early, change-level defect prediction – aka. Just-In-Time (JIT) defect prediction – has been proposed. JIT defect prediction models identify likely defective changes and they are trained using machine learning techniques with the assumption that historical changes are similar to future ones. Most existing JIT defect prediction approaches make use of manually engineered features. Unlike those approaches, in this paper, we propose an end-to-end deep learning framework, named DeepJIT, that automatically extracts features from commit messages and code changes and use them to identify defects. Experiments on two popular software projects (i.e., QT and OPENSTACK) on three evaluation settings (i.e., cross-validation, short-period, and long-period) show that the best variant of DeepJIT (DeepJIT-Combined), compared with the best performing state-of-the-art approach, achieves improvements of 10.36-11.02% for the project QT and 9.51-13.69% for the project OPENSTACK in terms of the Area Under the Curve (AUC).

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DeepJIT:用于即时缺陷预测的端到端深度学习框架

软件质量保证工作通常集中于识别有缺陷的代码。为了尽早发现可能有缺陷的代码，变更级缺陷预测——又名。即时(JIT)缺陷预测已经被提出。JIT缺陷预测模型识别可能有缺陷的更改，并且使用机器学习技术训练它们，假设历史更改与未来更改相似。大多数现有的JIT缺陷预测方法都使用人工设计的特性。与这些方法不同，在本文中，我们提出了一个端到端的深度学习框架，名为DeepJIT，它可以自动从提交消息和代码更改中提取特征，并使用它们来识别缺陷。在两个流行的软件项目(即QT和OPENSTACK)上进行的三种评估设置(即交叉验证、短周期和长周期)实验表明，与性能最好的最先进方法相比，DeepJIT的最佳变种(DeepJIT- combined)在曲线下面积(AUC)方面实现了QT项目10.36-11.02%和OPENSTACK项目9.51-13.69%的改进。

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来源期刊

2019 IEEE/ACM 16th International Conference on Mining Software Repositories (MSR)

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