平衡质量与效率：伪代码到代码转换的改进型非自回归模型

IF 3.7 2区计算机科学 Q1 COMPUTER SCIENCE, SOFTWARE ENGINEERING

Journal of Systems and Software Pub Date : 2024-09-12 DOI:10.1016/j.jss.2024.112206

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引用次数: 0

摘要

伪代码可以有效地表示算法逻辑，但手动转换为可执行代码需要更多时间。最近的研究应用自回归（AR）模型来自动实现伪代码到代码的转换，取得了良好的效果，但生成速度较慢。非自回归（NAR）模型具有并行生成的优势。然而，它们在有效捕捉上下文信息方面面临挑战，导致生成输出的质量可能下降。本文提出了一种改进的 NAR 模型，用于平衡伪代码转换的质量和效率。首先，本文提出了两种策略来解决词汇不足和重复问题。其次，在转换矩阵中使用线性平滑和自适应技术建立了改进的 NAR 模型，从而减轻了 "赢家通吃 "效应。最后，提出了一种新的综合潜力指标，用于评估伪代码转换。实验结果表明，所提出的方法与 AR 模型的性能相匹配，同时将生成速度提高了 10 倍以上。此外，在 WMT14 机器翻译的 EN-DE 和 DE-EN 任务中，所提出的 NAR 模型缩小了与 AR 模型在 BLEU 分数上的差距。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Balancing quality and efficiency: An improved non-autoregressive model for pseudocode-to-code conversion

Pseudocode can efficiently represent algorithm logic, but manual conversion to executable code requires more time. Recent works have applied autoregressive (AR) models to automate pseudocode-to-code conversion, achieving good results but slow generation speed. Non-autoregressive (NAR) models offer the advantage of parallel generation. However, they face challenges in effectively capturing contextual information, leading to a potential degradation in the quality of the generated output. This paper presents an improved NAR model for balancing quality and efficiency in pseudocode conversion. Firstly, two strategies are proposed to address out-of-vocabulary and repetition problems. Secondly, an improved NAR model is built using linear smoothing and adaptive techniques in the transition matrix, which can mitigate the “winner takes all” effect. Finally, a new synthesis potential metric is proposed for evaluating pseudocode conversion. Experimental results show that the proposed method matches AR model performance while accelerating generation over 10-fold. Further, the proposed NAR model reduces the gap with the AR model in terms of the BLEU score on the EN-DE and DE-EN tasks of the WMT14 machine translation.

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来源期刊

Journal of Systems and Software 工程技术-计算机：理论方法

CiteScore

8.60

自引率

5.70%

发文量

193

审稿时长

16 weeks

期刊介绍： The Journal of Systems and Software publishes papers covering all aspects of software engineering and related hardware-software-systems issues. All articles should include a validation of the idea presented, e.g. through case studies, experiments, or systematic comparisons with other approaches already in practice. Topics of interest include, but are not limited to: • Methods and tools for, and empirical studies on, software requirements, design, architecture, verification and validation, maintenance and evolution • Agile, model-driven, service-oriented, open source and global software development • Approaches for mobile, multiprocessing, real-time, distributed, cloud-based, dependable and virtualized systems • Human factors and management concerns of software development • Data management and big data issues of software systems • Metrics and evaluation, data mining of software development resources • Business and economic aspects of software development processes The journal welcomes state-of-the-art surveys and reports of practical experience for all of these topics.