Commenting Higher-level Code Unit: Full Code, Reduced Code, or Hierarchical Code Summarization
March 13, 2025 Β· Declared Dead Β· π arXiv.org
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Authors
Weisong Sun, Yiran Zhang, Jie Zhu, Zhihui Wang, Chunrong Fang, Yonglong Zhang, Yebo Feng, Jiangping Huang, Xingya Wang, Zhi Jin, Yang Liu
arXiv ID
2503.10737
Category
cs.SE: Software Engineering
Cross-listed
cs.AI
Citations
8
Venue
arXiv.org
Last Checked
4 months ago
Abstract
Commenting code is a crucial activity in software development, as it aids in facilitating future maintenance and updates. To enhance the efficiency of writing comments and reduce developers' workload, researchers has proposed various automated code summarization (ACS) techniques to automatically generate comments/summaries for given code units. However, these ACS techniques primarily focus on generating summaries for code units at the method level. There is a significant lack of research on summarizing higher-level code units, such as file-level and module-level code units, despite the fact that summaries of these higher-level code units are highly useful for quickly gaining a macro-level understanding of software components and architecture. To fill this gap, in this paper, we conduct a systematic study on how to use LLMs for commenting higher-level code units, including file level and module level. These higher-level units are significantly larger than method-level ones, which poses challenges in handling long code inputs within LLM constraints and maintaining efficiency. To address these issues, we explore various summarization strategies for ACS of higher-level code units, which can be divided into three types: full code summarization, reduced code summarization, and hierarchical code summarization. The experimental results suggest that for summarizing file-level code units, using the full code is the most effective approach, with reduced code serving as a cost-efficient alternative. However, for summarizing module-level code units, hierarchical code summarization becomes the most promising strategy. In addition, inspired by the research on method-level ACS, we also investigate using the LLM as an evaluator to evaluate the quality of summaries of higher-level code units. The experimental results demonstrate that the LLM's evaluation results strongly correlate with human evaluations.
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