Today, the syntax of visual specification languages such as UML is typically defined using meta-modelling techniques. However, this kind of syntax definition has drawbacks. In particular, graphic meta-models are not powerful enough, so they must be augmented by a textual constraint language. As an alternative, we present a text-based technique for the syntax definition of a graphic specification language. We exploit the fact that in a graphic specification language, most syntactic features are independent of the layout of the graph. So we map the graphic elements to textual ones and define the context-free syntax of this textual language in EBNF. Using our mapping, this grammar also defines the syntax of the graphic language. Simple spatial and context-sensitive constraints are then added by attributing the context-free grammar. Finally, for handling complex structural and dynamic information in the syntax, we give a set of operational rules that work on the attributed EBNF. We explain our syntax definition technique by applying it to the modelling language ADORA, which is being developed in our research group. We also briefly discuss the application of our technique to the syntax definition of UML. We mention the advantages of our method over the metamodeling techniques.
Description
Welcome to IEEE Xplore 2.0: Rigorous EBNF-based definition for a graphic modeling language
%0 Conference Paper
%1 Xia:2003
%A Xia, Y.
%A Glinz, M.
%B Software Engineering Conference, 2003. Tenth Asia-Pacific
%D 2003
%K graphic imported language modeling
%P 186- 196
%R 10.1109/APSEC.2003.1254371
%T Rigorous EBNF-based definition for a graphic modeling language
%U http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=1254371
%X Today, the syntax of visual specification languages such as UML is typically defined using meta-modelling techniques. However, this kind of syntax definition has drawbacks. In particular, graphic meta-models are not powerful enough, so they must be augmented by a textual constraint language. As an alternative, we present a text-based technique for the syntax definition of a graphic specification language. We exploit the fact that in a graphic specification language, most syntactic features are independent of the layout of the graph. So we map the graphic elements to textual ones and define the context-free syntax of this textual language in EBNF. Using our mapping, this grammar also defines the syntax of the graphic language. Simple spatial and context-sensitive constraints are then added by attributing the context-free grammar. Finally, for handling complex structural and dynamic information in the syntax, we give a set of operational rules that work on the attributed EBNF. We explain our syntax definition technique by applying it to the modelling language ADORA, which is being developed in our research group. We also briefly discuss the application of our technique to the syntax definition of UML. We mention the advantages of our method over the metamodeling techniques.
%@ 0-7695-2011-1
@inproceedings{Xia:2003,
abstract = {Today, the syntax of visual specification languages such as UML is typically defined using meta-modelling techniques. However, this kind of syntax definition has drawbacks. In particular, graphic meta-models are not powerful enough, so they must be augmented by a textual constraint language. As an alternative, we present a text-based technique for the syntax definition of a graphic specification language. We exploit the fact that in a graphic specification language, most syntactic features are independent of the layout of the graph. So we map the graphic elements to textual ones and define the context-free syntax of this textual language in EBNF. Using our mapping, this grammar also defines the syntax of the graphic language. Simple spatial and context-sensitive constraints are then added by attributing the context-free grammar. Finally, for handling complex structural and dynamic information in the syntax, we give a set of operational rules that work on the attributed EBNF. We explain our syntax definition technique by applying it to the modelling language ADORA, which is being developed in our research group. We also briefly discuss the application of our technique to the syntax definition of UML. We mention the advantages of our method over the metamodeling techniques.},
added-at = {2007-11-04T20:40:01.000+0100},
author = {Xia, Y. and Glinz, M.},
biburl = {https://www.bibsonomy.org/bibtex/2e162bc26401aed02368c56104b3066c8/wnpxrz},
booktitle = {Software Engineering Conference, 2003. Tenth Asia-Pacific},
description = {Welcome to IEEE Xplore 2.0: Rigorous EBNF-based definition for a graphic modeling language},
doi = {10.1109/APSEC.2003.1254371},
interhash = {b5f73250c5c843339f105162b0f4a534},
intrahash = {e162bc26401aed02368c56104b3066c8},
isbn = {0-7695-2011-1},
keywords = {graphic imported language modeling},
pages = {186- 196},
timestamp = {2007-11-04T20:40:01.000+0100},
title = {Rigorous EBNF-based definition for a graphic modeling language},
url = {http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=1254371},
year = 2003
}