Abstract semantic graph
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In computer science, an abstract semantic graph (ASG) or term graph is a form of abstract syntax in which an expression of a formal or programming language is represented by a graph whose vertices are the expression's subterms. An ASG is at a higher level of abstraction than an abstract syntax tree (or AST), which is used to express the syntactic structure of an expression or program.
ASGs are more complex and concise than ASTs because they may contain shared subterms (also known as "common subexpressions").[1] Abstract semantic graphs are often used as an intermediate representation by compilers to store the results of performing common subexpression elimination upon abstract syntax trees. ASTs are trees and are thus incapable of representing shared terms. ASGs are usually directed acyclic graphs. However, they may contain cycles[clarification needed], particularly in the field of graph rewriting. Graphs that contain cycles may represent recursive expressions which are commonly used to express iteration in functional programming languages without looping constructs.
The nomenclature term graph is associated with the field of term graph rewriting,[2] which involves the transformation and processing of expressions by the specification of rewriting rules,[3] whereas abstract semantic graph is used when discussing linguistics, programming languages, type systems and compilation.
Abstract syntax trees are not capable of sharing subexpression nodes because in a proper tree it is not possible for a node to have more than one parent. Although this conceptual simplicity is appealing, it comes at the cost of redundant representation and, in turn, the inefficiency of possibly performing duplicate computations for identical terms. For this reason ASGs are often used as an intermediate language at a subsequent compilation stage to abstract syntax tree construction via parsing.
An abstract semantic graph is typically constructed from an abstract syntax tree by a process of enrichment and abstraction. The enrichment can for example be the addition of back-pointers, edges from an identifier node (where a variable is being used) to a node representing the declaration of that variable. The abstraction can entail the removal of details which are relevant only in parsing, not for semantics.
See also
References
- ^ Garner, Richard (2011). "An abstract view on syntax with sharing". Journal of Logic and Computation. 22 (6): 1427–1452. arXiv:1009.3682. doi:10.1093/logcom/exr021.
The notion of term graph encodes a refinement of inductively generated syntax in which regard is paid to the sharing and discard of subterms.
- ^ Plump, D. (1999). Ehrig, Hartmut; Engels, G.; Rozenberg, Grzegorz (eds.). Handbook of Graph Grammars and Computing by Graph Transformation: applications, languages and tools. Vol. 2. World Scientific. pp. 9–13. ISBN 9789810228842.
- ^ Barendregt, H. P.; van Eekelen, M. C. J. D.; Glauert, J. R. W.; Kennaway, J. R.; Plasmeijer, M. J.; Sleep, M. R. (1987). Term graph rewriting. Lecture Notes in Computer Science. Vol. 259. pp. 141–158. doi:10.1007/3-540-17945-3_8. ISBN 978-3-540-17945-0.
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External links
- Dean, Tom. "CPPX — C/C++ Fact Extractor".
- Devanbu, Premkumar T.; Rosenblum, David S.; Wolf, Alexander L. "Generating Testing and Analysis Tools with Aria".
{{cite journal}}: Cite journal requires|journal=(help) - Mamas, Evan; Kontogiannis, Kostas. "Towards Portable Source Code Representations Using XML". CiteSeerX 10.1.1.88.6173.
{{cite journal}}: Cite journal requires|journal=(help) - Raghavan, Shruti; Rohana, Rosanne; Leon, David; Podgurski, Andy; Augustine, Vinay (2004). Dex: a semantic-graph differencing tool for studying changes in large code bases. IEEE International Conference on Software Maintenance. pp. 188–197. doi:10.1109/icsm.2004.1357803.
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