Title :
Towards a Tool for Rigorous, Automated Code Comprehension Using Symbolic Execution and Semantic Analysis
Author :
Stewart, Mark E M
Author_Institution :
QSS Group Inc., NASA Glenn Research Center, Brook Park, OH
Abstract :
This paper presents an implementation and critical analysis of a technique for automated, rigorous scientific program comprehension and error detection. The procedure involves taking a user´s existing code, adding semantic declarations for some primitive variables, symbolically executing the user´s code, and recognizing semantic concepts from the symbolic expressions generated. This analysis provides high-level, semantic information and detects errors in a user´s code. Symbolic execution of a 5k line of code (LOC) scientific code demonstrates implementation of a practical symbolic execution/semantic analysis tool. Despite the promise of this technique, one key challenge is examined, namely ensuring reliability during the symbolic execution/semantic analysis procedure
Keywords :
natural sciences computing; program debugging; program diagnostics; programming language semantics; symbol manipulation; automated code comprehension; automated rigorous scientific program comprehension; error detection; semantic analysis tool; symbolic execution tool; Costs; Debugging; Hardware; Information analysis; Lab-on-a-chip; Manuals; NASA; Programming; Software engineering; Software maintenance;
Conference_Titel :
Software Engineering Workshop, 2005. 29th Annual IEEE/NASA
Conference_Location :
Greenbelt, MD
Print_ISBN :
0-7695-2306-4
DOI :
10.1109/SEW.2005.46
