Abstract
AGG is a general development environment for algebraic graph transformation systems which follows the interpretative approach. Its special power comes from a very flexible attribution concept. AGG graphs are allowed to be attributed by any kind of Java objects. Graph transformations can be equipped with arbitrary computations on these Java objects described by a Java expression. The AGG environment consists of a graphical user interface comprising several visual editors, an interpreter, and a set of validation tools. The interpreter allows the stepwise transformation of graphs as well as rule applications as long as possible. AGG supports several kinds of validations which comprise graph parsing, consistency checking of graphs and conflict detection in concurrent transformations by critical pair analysis of graph rules. Applications of AGG include graph and rule-based modeling of software, validation of system properties by assigning a graph transformation based semantics to some system model, graph transformation based evolution of software, and the definition of visual languages based on graph grammars.
Research partly supported by the German Research Council (DFG), and the EU Research Training Network SegraVis.
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References
Corradini, A., Montanari, U., Rossi, F., Ehrig, H., Heckel, R., Löwe, M.: Algebraic approaches to graph transformation part I: Basic concepts and double pushout approach. In: Rozenberg, G. (ed.) Handbook of Graph Grammars and Computing by Graph transformation: Foundations, vol. 1, pp. 163–246. World Scientific, Singapore (1997)
Ehrig, H., Heckel, R., Korff, M., Löwe, M., Ribeiro, L., Wagner, A., Corradini, A.: Algebraic approaches to graph transformation II: Single pushout approach and comparison with double pushout approach. In: Rozenberg, G. (ed.) The Handbook of Graph Grammars and Computing by Graph Transformations: Foundations, vol. 1, pp. 247–312. World Scientific, Singapore (1996)
Bardohl, R.: A Visual Environment for Visual Languages. Science of Computer Programming (SCP) 44(2), 181–203 (2002)
Bottoni, P., Koch, M., Parisi-Presicce, F., Taentzer, G.: Consistency Checking and Visualization of OCL Constraints. In: Evans, A., Kent, S., Selic, B. (eds.) UML 2000. LNCS, vol. 1939, pp. 294–308. Springer, Heidelberg (2000)
Bottoni, P., Schürr, A., Taentzer, G.: Efficient Parsing of Visual Languages based on Critical Pair Analysis and Contextual Layered Graph Transformation. In: Proc. IEEE Symposium on Visual Languages (September 2000); Long version available as technical report SI-2000-06, University of Rome
Corradini, A., Montanari, U., Rossi, F.: Graph Processes. Special Issue of Fundamenta Informaticae 26(3,4), 241–266 (1996)
Ermel, C., Rudolf, M., Taentzer, G.: The AGG-Approach: Language and Tool Environment. In: Ehrig, H., Engels, G., Kreowski, H.-J., Rozenberg, G. (eds.) Handbook of Graph Grammars and Computing by Graph Transformation: Applications, Languages and Tools, vol. 2, pp. 551–603. World Scientific, Singapore (1999)
Habel, A., Heckel, R., Taentzer, G.: Graph Grammars with Negative Application Conditions. Special issue of Fundamenta Informaticae 26(3,4) (1996)
Hausmann, J.H., Heckel, R., Taentzer, G.: Detection of Conflicting Functional Requirements in a Use Case-Driven Approach. In: Proc. of Int. Conference on Software Engineering 2002, Orlando, USA (2002) (to appear)
Heckel, R., Wagner, A.: Ensuring Consistency of Conditional Graph Grammars – A constructive Approach. In: Proc. of SEGRAGRA 1995, Graph Rewriting and Computation. Electronic Notes of TCS, vol. 2 (1995), http://www.elsevier.nl/locate/entcs/volume2.html
Löwe, M., Korff, M., Wagner, A.: An Algebraic Framework for the Transformation of Attributed Graphs. In: Sleep, M.R., Plasmeijer, M.J., van Eekelen, M.C. (eds.) Term Graph Rewriting: Theory and Practice, ch. 14, pp. 185–199. John Wiley & Sons Ltd, Chichester (1993)
Rozenberg, G. (ed.): Handbook of Graph Grammars and Computing by Graph Transformations: Foundations, vol. 1. World Scientific, Singapore (1997)
Schürr, A., Winter, A., Zündorf, A.: The PROGRES-approach: Language and environment. In: Ehrig, H., Engels, G., Kreowski, J.-J., Rozenberg, G. (eds.) Handbook of Graph Grammars and Computing by Graph Transformation: Applications, Languages and Tools, vol. 2, World Scientific, Singapore (1999)
Taentzer, G., Fischer, I.: Visual Design of Distributed Systems by Graph Transformation. In: Ehrig, H., Kreowski, H.-J., Montanari, U., Rozenberg, G. (eds.) Handbook of Graph Grammars and Computing by Graph Transformation: Concurrency, Parallelism, and Distribution, vol. 3, pp. 269–340. World Scientific, Singapore (1999)
The Extensible Markup Language, XML (2003), http://www.w3.org/XML/
GXL (2003), http://www.gupro.de/GXL
Fujaba Project Group (2003), Available at http://www.fujaba.de
Minas, M.: Concepts and realization of a diagram editor generator based on hypergraph transformation. Science of Computer Programming 44(3), 157–180 (2002)
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Taentzer, G. (2004). AGG: A Graph Transformation Environment for Modeling and Validation of Software. In: Pfaltz, J.L., Nagl, M., Böhlen, B. (eds) Applications of Graph Transformations with Industrial Relevance. AGTIVE 2003. Lecture Notes in Computer Science, vol 3062. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-25959-6_35
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DOI: https://doi.org/10.1007/978-3-540-25959-6_35
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