On the membership problem for regular DNLC grammars

AbstractThere are (at least) three motivations to study the class of regular directed node-label controlled graph grammars (regular DNLC grammars for shor): (1) it fits very well into the hierarchy of subclasses of DNLC grammars, (2) it generalizes naturally right-linear string grammars and (3) it provides a useful framework for the theory of concurrent systems based on the theory of traces.The complexity of (the membership problem for) the class of regular DNLC grammars is investigated

Boundary graph grammars with dynamic edge relabeling

AbstractMost NLC-like graph grammars generate node-labeled graphs. As one of the exceptions, eNCE graph grammars generate graphs with edge labels as well. We investigate this type of graph grammar and show that the use of edge labels (together with the NCE feature) is responsible for some new properties. Especially boundary eNCE (B-eNCE) grammars are considered. First, although eNCE grammars have the context-sensitive feature of “blocking edges,” we show that B-eNCE grammars do not. Second, we show the existence of a Chomsky normal form and a Greibach normal form for B-eNCE grammars. Third, the boundary eNCE languages are characterized in terms of regular tree and string languages. Fourth, we prove that the class of (boundary) eNCE languages properly contains the closure of the class of (boundary) NLC languages under node relabelings. Analogous results are shown for linear eNCE grammars

Symbol–Relation Grammars: A Formalism for Graphical Languages

AbstractA common approach to the formal description of pictorial and visual languages makes use of formal grammars and rewriting mechanisms. The present paper is concerned with the formalism of Symbol–Relation Grammars (SR grammars, for short). Each sentence in an SR language is composed of a set of symbol occurrences representing visual elementary objects, which are related through a set of binary relational items. The main feature of SR grammars is the uniform way they use context-free productions to rewrite symbol occurrences as well as relation items. The clearness and uniformity of the derivation process for SR grammars allow the extension of well-established techniques of syntactic and semantic analysis to the case of SR grammars. The paper provides an accurate analysis of the derivation mechanism and the expressive power of the SR formalism. This is necessary to fully exploit the capabilities of the model. The most meaningful features of SR grammars as well as their generative power are compared with those of well-known graph grammar families. In spite of their structural simplicity, variations of SR grammars have a generative power comparable with that of expressive classes of graph grammars, such as the edNCE and the N-edNCE classes