Publication Type

Journal Article

Version

acceptedVersion

Publication Date

12-2018

Abstract

Modern Code Review (MCR) has been widely used by open source and proprietary software projects. Inspecting code changes consumes reviewers much time and effort since they need to comprehend patches, and many reviewers are often assigned to review many code changes. Note that a code change might be eventually abandoned, which causes waste of time and effort. Thus, a tool that predicts early on whether a code change will be merged can help developers prioritize changes to inspect, accomplish more things given tight schedule, and not waste reviewing effort on low quality changes. In this paper, motivated by the above needs, we build a merged code change prediction tool. Our approach first extracts 34 features from code changes, which are grouped into 5 dimensions: code, file history, owner experience, collaboration network, and text. And then we leverage machine learning techniques such as random forest to build a prediction model. To evaluate the performance of our approach, we conduct experiments on three open source projects (i.e., Eclipse, LibreOffice, and OpenStack), containing a total of 166,215 code changes. Across three datasets, our approach statistically significantly improves random guess classifiers and two prediction models proposed by Jeong et al. (2009) and Gousios et al. (2014) in terms ofseveral evaluation metrics. Besides, we also study the important features which distinguishmerged code changes from abandoned ones.

Keywords

Code review, Predictive model, Features

Discipline

Computer and Systems Architecture | Software Engineering

Research Areas

Software and Cyber-Physical Systems

Publication

Empirical Software Engineering

Volume

23

Issue

6

First Page

3346

Last Page

3393

ISSN

1382-3256

Identifier

10.1007/s10664-018-9602-0

Publisher

Springer

Copyright Owner and License

Authors

Additional URL

https://doi.org/10.1007/s10664-018-9602-0

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