Boosting just-in-time defect prediction with specific features of C/C++ programming languages in code changes

Boosting just-in-time defect prediction with specific features of C/C++ programming languages in code changes

Just-in-time (JIT) defect prediction can identify changes as defect-inducing ones or clean ones and many approaches are proposed based on several programming language-independent change-level features. However, different programming languages have different characteristics and consequently may affec...

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Bibliographic Details
Main Authors: NI, Chao, XU, Xiaodan, YANG, Kaiwen, LO, David
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2023
Subjects:
C++ programming
C/C++ programming language
Code changes
Defect prediction
Just-in-time
Language independents
Open-source
Quality of software
Software project
Supervised methods
Databases and Information Systems
Programming Languages and Compilers
Software Engineering
Online Access:https://ink.library.smu.edu.sg/sis_research/8623
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Institution: Singapore Management University
Language: English
Description
Summary:Just-in-time (JIT) defect prediction can identify changes as defect-inducing ones or clean ones and many approaches are proposed based on several programming language-independent change-level features. However, different programming languages have different characteristics and consequently may affect the quality of software projects. Meanwhile, the C programming language, one of the most popular ones, is widely used to develop foundation applications (i.e., operating system, database, compiler, etc.) in IT companies and its change-level characteristics on project quality have not been fully investigated. Additionally, whether open-source C projects have similar important features to commercial projects has not been studied much.To address the aforementioned limitations, in this paper, we investigate the impacts of programming language-specific features on the state-of-the-art JIT defect identification approach in an industrial setting. We collect and label the top-10 most starred C projects (i.e., 329,021 commits) on GitHub and 8 C projects in an ICT company (i.e., 12,983 commits). We also propose nine C-specific change-level features and focus our investigations on both open-source C projects on GitHub and C projects at the ICT company considering three aspects: (1) The effectiveness of C-specific change-level features in improving the performance of identification of defect-inducing changes, (2) The importance of features in the identification of defect-inducing changes between open-source C projects and commercial C projects, and (3) The effectiveness of combining language-independent features and C-specific features in a real-life setting at the ICT company.

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