用于预测程序属性的一般基于路径的表示

Uri Alon, Meital Zilberstein, Omer Levy, Eran Yahav
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引用次数: 191

摘要

预测程序属性(如名称或表达式类型)具有广泛的应用。它可以简化编程任务,并提高程序员的工作效率。从程序中学习的一个主要挑战是如何以一种促进有效学习的方式表示程序。我们提出了一种通用的基于路径的表示,用于从程序中学习。我们的表示是纯语法的,是自动提取的。其主要思想是使用抽象语法树(AST)中的路径来表示程序。这允许学习模型利用代码的结构化特性,而不是将其视为一个平面的令牌序列。我们表明这种表示是通用的,并且可以:(i)涵盖不同的预测任务,(ii)驱动不同的学习算法(用于生成和判别模型),以及(iii)跨不同的编程语言工作。我们在预测变量名、方法名和完整类型的任务上评估我们的方法。我们使用我们的表示来驱动基于crf和基于word2vec的学习,用于四种语言的程序:JavaScript, Java, Python和c#。我们的评估表明,我们的方法比跨不同任务和编程语言的特定于任务的手工表示获得更好的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A general path-based representation for predicting program properties
Predicting program properties such as names or expression types has a wide range of applications. It can ease the task of programming, and increase programmer productivity. A major challenge when learning from programs is how to represent programs in a way that facilitates effective learning. We present a general path-based representation for learning from programs. Our representation is purely syntactic and extracted automatically. The main idea is to represent a program using paths in its abstract syntax tree (AST). This allows a learning model to leverage the structured nature of code rather than treating it as a flat sequence of tokens. We show that this representation is general and can: (i) cover different prediction tasks, (ii) drive different learning algorithms (for both generative and discriminative models), and (iii) work across different programming languages. We evaluate our approach on the tasks of predicting variable names, method names, and full types. We use our representation to drive both CRF-based and word2vec-based learning, for programs of four languages: JavaScript, Java, Python and C#. Our evaluation shows that our approach obtains better results than task-specific handcrafted representations across different tasks and programming languages.
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