Open AccessAn Algorithm for Approximating the Satisfiability Problem of High-level Conditions
Author(s) -
KarlHeinz Pennemann
Publication year - 2008
Publication title -
electronic notes in theoretical computer science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.242
H-Index - 60
ISSN - 1571-0661
DOI - 10.1016/j.entcs.2008.04.075
Subject(s) - undecidable problem , algorithm , counterexample , boolean satisfiability problem , satisfiability , monotone polygon , mathematics , computer science , theory of computation , constructive , petri net , statement (logic) , theoretical computer science , decidability , discrete mathematics , programming language , geometry , process (computing) , political science , law
The satisfiability problem is the fundamental problem in proving the conflict-freeness of specifications, or in finding a counterexample for an invalid statement. In this paper, we present a non-deterministic, monotone algorithm for this undecidable problem on graphical conditions that is both correct and complete, but in general not guaranteed to terminate. For a fragment of high-level conditions, the algorithm terminates, hence it is able to decide. Instead of enumerating all possible objects of a category to approach the problem, the algorithm uses the input condition in a constructive way to progress towards a solution. To this aim, programs over transformation rules with external interfaces are considered. We use the framework of weak adhesive HLR categories. Consequently, the algorithm is applicable to a number of replacement capable structures, such as Petri-Nets, graphs or hypergraphs
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