提高静态分析仪可靠性和精度的系统方法

Proceedings of the 6th ACM SIGPLAN International Workshop on State Of the Art in Program Analysis Pub Date : 2017-06-18 DOI:10.1145/3088515.3088521

Esben Andreasen, Anders Møller, Benjamin Barslev Nielsen

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引用次数: 36

摘要

为现代编程语言构建静态分析器是很困难的。通常，可靠性是一种要求，可能有一些定义良好的例外，并且精度必须足以在实际输入程序中产生有用的结果。在实践中，正式证明复杂静态分析实现的这些属性很少是一种选择，这就提出了如何确定可靠性和精度问题的原因和重要性的挑战。通过一系列的例子，我们介绍了基于增量调试和动态分析的半自动化方法的经验，以提高JavaScript静态分析器的可靠性和精度。个别的方法是众所周知的，但据我们所知，很少系统地和组合地使用。

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Systematic approaches for increasing soundness and precision of static analyzers

Building static analyzers for modern programming languages is difficult. Often soundness is a requirement, perhaps with some well-defined exceptions, and precision must be adequate for producing useful results on realistic input programs. Formally proving such properties of a complex static analysis implementation is rarely an option in practice, which raises the challenge of how to identify causes and importance of soundness and precision problems. Through a series of examples, we present our experience with semi-automated methods based on delta debugging and dynamic analysis for increasing soundness and precision of a static analyzer for JavaScript. The individual methods are well known, but to our knowledge rarely used systematically and in combination.

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Proceedings of the 6th ACM SIGPLAN International Workshop on State Of the Art in Program Analysis

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