by Lambers, Leen, Ehrig, Hartmut and Orejas, Fernando
Abstract:
This paper introduces a new theory needed for the purpose of conflict detection for graph transformation with negative application conditions (NACs). Main results are the formulation of a conflict notion for graph transformation with NACs and a conflict characterization derived from it. A critical pair definition is introduced and completeness of the set of all critical pairs is shown. This means that for each conflict, occuring in a graph transformation system with NACs, there exists a critical pair expressing the same conflict in a minimal context. Moreover a necessary and sufficient condition is presented for parallel independence of graph transformation systems with NACs. In order to facilitate the implementation of the critical pair construction for a graph transformation system with NACs a correct construction is formulated. Finally, it is discussed how to continue with the development of conflict detection and analysis techniques in the near future.
Reference:
Conflict Detection for Graph Transformation with Negative Application Conditions (Lambers, Leen, Ehrig, Hartmut and Orejas, Fernando), In Proc. Third International Conference on Graph Transformation (ICGT'06), Springer, volume 4178, 2006.
Bibtex Entry:
@InProceedings{LEO06a,
AUTHOR = {Lambers, Leen and Ehrig, Hartmut and Orejas, Fernando},
TITLE = {{Conflict Detection for Graph Transformation with Negative Application Conditions}},
YEAR = {2006},
MONTH = {September},
BOOKTITLE = {Proc. Third International Conference on Graph Transformation (ICGT'06)},
VOLUME = {4178},
PAGES = {61--76},
SERIES = {Lecture Notes in Computer Science},
ADDRESS = {Natal, Brazil},
PUBLISHER = {Springer},
PDF = {uploads/pdf/LEO06a_conflictDetectionNACs.pdf},
OPTacc_pdf = {},
ABSTRACT = {This paper introduces a new theory needed for the purpose of conflict detection for graph transformation with negative application conditions (NACs). Main results are the formulation of a conflict notion for graph transformation with NACs and a conflict characterization derived from it. A critical pair definition is introduced and completeness of the set of all critical pairs is shown. This means that for each conflict, occuring in a graph transformation system with NACs, there exists a critical pair expressing the same conflict in a minimal context. Moreover a necessary and sufficient condition is presented for parallel independence of graph transformation systems with NACs. In order to facilitate the implementation of the critical pair construction for a graph transformation system with NACs a correct construction is formulated. Finally, it is discussed how to continue with the development of conflict detection and analysis techniques in the near future. }
}