支持对xdsml进行高效和高级的全知调试

Proceedings of the 2015 ACM SIGPLAN International Conference on Software Language Engineering Pub Date : 2015-10-26 DOI:10.1145/2814251.2814262

E. Bousse, Jonathan Corley, B. Combemale, Jeffrey G. Gray, B. Baudry

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引用次数: 54

摘要

全知调试是一种很有前途的技术，它依靠执行跟踪来实现对系统在执行期间所达到的状态的自由遍历。虽然一些通用语言(gpl)已经支持全知调试，但是为任何可执行的领域特定建模语言(xDSML)开发这样一个复杂的工具仍然是一项具有挑战性且容易出错的任务。这个问题的解决方案是为所有xdsml定义一个通用的全知调试器。但是，一般地支持任何xDSML都会损害这种方法的效率和可用性。我们的贡献依赖于由生成的特定于领域的跟踪管理工具支持的部分通用的全知调试器。由于是特定于领域的，因此这些工具被调优为所考虑的xDSML，以获得更好的效率。通过提供多维的全知调试，增强了可用性。结果表明，与在每个步骤复制模型的通用解决方案相比，我们的方法在内存方面的效率平均提高3.0倍，在时间方面的效率提高5.03倍。

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Supporting efficient and advanced omniscient debugging for xDSMLs

Omniscient debugging is a promising technique that relies on execution traces to enable free traversal of the states reached by a system during an execution. While some General-Purpose Languages (GPLs) already have support for omniscient debugging, developing such a complex tool for any executable Domain-Specific Modeling Language (xDSML) remains a challenging and error prone task. A solution to this problem is to define a generic omniscient debugger for all xDSMLs. However, generically supporting any xDSML both compromises the efficiency and the usability of such an approach. Our contribution relies on a partly generic omniscient debugger supported by generated domain-specific trace management facilities. Being domain-specific, these facilities are tuned to the considered xDSML for better efficiency. Usability is strengthened by providing multidimensional omniscient debugging. Results show that our approach is on average 3.0 times more efficient in memory and 5.03 more efficient in time when compared to a generic solution that copies the model at each step.

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Proceedings of the 2015 ACM SIGPLAN International Conference on Software Language Engineering

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