Refining ChatGPT-Generated Code: Characterizing and Mitigating Code Quality Issues

IF 6.6 2区 计算机科学 Q1 COMPUTER SCIENCE, SOFTWARE ENGINEERING
Yue Liu, Thanh Le-Cong, Ratnadira Widyasari, Chakkrit Tantithamthavorn, Li Li, Xuan-Bach D. Le, David Lo
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引用次数: 0

Abstract

Since its introduction in November 2022, ChatGPT has rapidly gained popularity due to its remarkable ability in language understanding and human-like responses. ChatGPT, based on GPT-3.5 architecture, has shown great promise for revolutionizing various research fields, including code generation. However, the reliability and quality of code generated by ChatGPT remain unexplored, raising concerns about potential risks associated with the widespread use of ChatGPT-driven code generation.

In this paper, we systematically study the quality of 4,066 ChatGPT-generated code implemented in two popular programming languages, i.e., Java and Python, for 2,033 programming tasks. The goal of this work is three folds. First, we analyze the correctness of ChatGPT on code generation tasks and uncover the factors that influence its effectiveness, including task difficulty, programming language, time that tasks are introduced, and program size. Second, we identify and characterize potential issues with the quality of ChatGPT-generated code. Last, we provide insights into how these issues can be mitigated. Experiments highlight that out of 4,066 programs generated by ChatGPT, 2,756 programs are deemed correct, 1,082 programs provide wrong outputs, and 177 programs contain compilation or runtime errors. Additionally, we further analyze other characteristics of the generated code through static analysis tools, such as code style and maintainability, and find that 1,930 ChatGPT-generated code snippets suffer from maintainability issues. Subsequently, we investigate ChatGPT’s self-repairing ability and its interaction with static analysis tools to fix the errors uncovered in the previous step. Experiments suggest that ChatGPT can partially address these challenges, improving code quality by more than 20%, but there are still limitations and opportunities for improvement. Overall, our study provides valuable insights into the current limitations of ChatGPT and offers a roadmap for future research and development efforts to enhance the code generation capabilities of AI models like ChatGPT.

完善 ChatGPT 生成的代码:描述和缓解代码质量问题
自 2022 年 11 月问世以来,ChatGPT 凭借其出色的语言理解能力和类人反应迅速赢得了人们的青睐。基于 GPT-3.5 架构的 ChatGPT 在代码生成等多个研究领域都展现出了巨大的变革前景。然而,由 ChatGPT 生成的代码的可靠性和质量仍有待探索,这引发了人们对广泛使用 ChatGPT 驱动代码生成的潜在风险的担忧。在本文中,我们系统地研究了用两种流行编程语言(即 Java 和 Python)在 2033 个编程任务中生成的 4066 个 ChatGPT 代码的质量。这项工作的目标有三个方面。首先,我们分析了 ChatGPT 在代码生成任务中的正确性,并揭示了影响其有效性的因素,包括任务难度、编程语言、任务引入时间和程序大小。其次,我们识别并描述了 ChatGPT 生成代码质量的潜在问题。最后,我们就如何缓解这些问题提出了见解。实验表明,在 ChatGPT 生成的 4,066 个程序中,2,756 个程序被认为是正确的,1,082 个程序提供了错误的输出,177 个程序包含编译或运行时错误。此外,我们还通过静态分析工具进一步分析了生成代码的其他特征,如代码风格和可维护性,发现 ChatGPT 生成的 1,930 个代码片段存在可维护性问题。随后,我们研究了 ChatGPT 的自我修复能力及其与静态分析工具的交互,以修复上一步发现的错误。实验表明,ChatGPT 可以部分解决这些难题,将代码质量提高 20% 以上,但仍存在局限性和改进机会。总之,我们的研究对 ChatGPT 目前的局限性提供了有价值的见解,并为未来的研发工作提供了路线图,以增强 ChatGPT 等人工智能模型的代码生成能力。
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来源期刊
ACM Transactions on Software Engineering and Methodology
ACM Transactions on Software Engineering and Methodology 工程技术-计算机:软件工程
CiteScore
6.30
自引率
4.50%
发文量
164
审稿时长
>12 weeks
期刊介绍: Designing and building a large, complex software system is a tremendous challenge. ACM Transactions on Software Engineering and Methodology (TOSEM) publishes papers on all aspects of that challenge: specification, design, development and maintenance. It covers tools and methodologies, languages, data structures, and algorithms. TOSEM also reports on successful efforts, noting practical lessons that can be scaled and transferred to other projects, and often looks at applications of innovative technologies. The tone is scholarly but readable; the content is worthy of study; the presentation is effective.
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