Static Code Analysis of Multilanguage Software Systems
June 03, 2019 Β· Declared Dead Β· π arXiv.org
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Authors
Anas Shatnawi, Hafedh Mili, Manel Abdellatif, Yann-GaΓ«l GuΓ©hΓ©neuc, Naouel Moha, Geoffrey Hecht, Ghizlane El Boussaidi, Jean Privat
arXiv ID
1906.00815
Category
cs.SE: Software Engineering
Citations
13
Venue
arXiv.org
Last Checked
4 months ago
Abstract
Identifying dependency call graphs of multilanguage software systems using static code analysis is challenging. The different languages used in developing today's systems often have different lexical, syntactical, and semantic rules that make thorough analysis difficult. Also, they offer different modularization and dependency mechanisms, both within and between components. Finally, they promote and--or require varieties of frameworks offering different sets of services, which introduce hidden dependencies, invisible with current static code analysis approaches. In this paper, we identify five important challenges that static code analysis must overcome with multilanguage systems and we propose requirements to handle them. Then, we present solutions of these requirements to handle JEE applications, which combine server-side Java source code with a number of client-side Web dialects (e.g., JSP, JSF) while relying on frameworks (e.g., Web and EJB containers) that create hidden dependencies. Finally, we evaluate our implementations of the solutions by developing a set of tools to analyze JEE applications to build a dependency call graph and by applying these tools on two sample JEE applications. Our evaluation shows that our tools can solve the identified challenges and improve the recall in the identification of multilanguage dependencies compared to standard JEE static code analysis and, thus, indirectly that the proposed requirements are useful to build multilanguage static code analysis.
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