基于声明性方程的语言中组合图变换的语义引导过滤

Proceedings. Second IEEE International Workshop on Source Code Analysis and Manipulation Pub Date : 2002-10-01 DOI:10.1109/SCAM.2002.1134116

Peter Bunus, P. Fritzson

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引用次数: 0

摘要

本文讨论了使用静态分析来调试声明式面向对象的基于方程的建模语言。它提出了一个框架，在该框架中，这些语言指定的仿真模型中存在的过度和欠约束情况通过在扁平的中间代码上执行的组合图转换来检测，并通过从原始语言派生的语义转换规则进行过滤。这足够强大，可以静态地检测大范围的错误，而无需执行仿真模型。与这些语言的模拟环境相关联的调试器可以基于中间代码的基于图形的表示提供有效的错误修复策略。本文的重点是对某些仿真模型规范中存在的过约束方程进行检测和调试。本文讨论了扩展该方法以允许对原始建模源代码进行静态全局分析的各种方法。

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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Semantics guided filtering of combinatorial graph transformations in declarative equation-based languages

This paper concerns the use of static analysis for debugging purposes of declarative object-oriented equation-based modeling languages. It proposes a framework where over- and under-constraining situations present in simulation models specified in such languages are detected by combinatorial graph transformations performed on the flattened intermediate code and filtered by the semantic transformation rules derived from the original language. This is powerful enough to statically detect a broad range of errors without having to execute the simulation model. Debuggers associated with simulation environments for such languages can provide efficient error-fixing strategies based on the graph-based representation of the intermediate code. The emphasis, in this paper, is on detecting and debugging over-constraining equations, which are present in some simulation model specifications. The paper discusses various ways in which the approach is extended to allow static global analysis of the original modeling source code.

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Proceedings. Second IEEE International Workshop on Source Code Analysis and Manipulation

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