Prompt Tuning in Code Intelligence: An Experimental Evaluation

Wang, Chaozheng; Yang, Yuanhang; Gao, Cuiyun; Peng, Yun; Zhang, Hongyu; Lyu, Michael R.

Title: Prompt Tuning in Code Intelligence: An Experimental Evaluation
Creator: Wang, Chaozheng; Yang, Yuanhang; Gao, Cuiyun; Peng, Yun; Zhang, Hongyu; Lyu, Michael R.
Relation: IEEE Transactions on Software Engineering Vol. 49, Issue 11, p. 4869-4885
Publisher Link: http://dx.doi.org/10.1109/TSE.2023.3313881
Publisher: Institute of Electrical and Electronics Engineers (IEEE)
Resource Type: journal article
Date: 2023
Description: Pre-trained models have been shown effective in many code intelligence tasks, such as automatic code summarization and defect prediction. These models are pre-trained on large-scale unlabeled corpus and then fine-tuned in downstream tasks. However, as the inputs to pre-training and downstream tasks are in different forms, it is hard to fully explore the knowledge of pre-trained models. Besides, the performance of fine-tuning strongly relies on the amount of downstream task data, while in practice, the data scarcity scenarios are common. Recent studies in the natural language processing (NLP) field show that prompt tuning, a new paradigm for tuning, alleviates the above issues and achieves promising results in various NLP tasks. In prompt tuning, the prompts inserted during tuning provide task-specific knowledge, which is especially beneficial for tasks with relatively scarce data. In this article, we empirically evaluate the usage and effect of prompt tuning in code intelligence tasks. We conduct prompt tuning on popular pre-trained models CodeBERT and CodeT5 and experiment with four code intelligence tasks including defect prediction, code search, code summarization, and code translation. Our experimental results show that prompt tuning consistently outperforms fine-tuning in all four tasks. In addition, prompt tuning shows great potential in low-resource scenarios, e.g., improving the BLEU scores of fine-tuning by more than 26% on average for code summarization. Our results suggest that instead of fine-tuning, we could adapt prompt tuning for code intelligence tasks to achieve better performance, especially when lacking task-specific data. We also discuss the implications for adapting prompt tuning in code intelligence tasks.
Subject: code intelligence; prompt tuning; empirical study; predictive models
Identifier: http://hdl.handle.net/1959.13/1496616
Identifier: uon:54193
Identifier: ISSN:0098-5589
Language: eng
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