DCFGs are of great practical interest, as they can be parsed in linear time and in fact a parser can be automatically generated from the grammar by a parser generator. They are thus widely used throughout computer science. Various restricted forms of DCFGs can be parsed by simpler, less resource-intensive parsers, and thus are often used. These grammar classes are referred to by the type of parser that parses them, and important examples are LALR, SLR, and LL.
Historyedit
In the 1960s, theoretical research in computer science on regular expressions and finite automata led to the discovery that context-free grammars are equivalent to nondeterministic pushdown automata.[1][2][3] These grammars were thought to capture the syntax of computer programming languages. The first high-level computer programming languages were under development at the time (see History of programming languages) and writing compilers was difficult. But using context-free grammars to help automate the parsing part of the compiler simplified the task. Deterministic context-free grammars were particularly useful because they could be parsed sequentially by a deterministic pushdown automaton, which was a requirement due to computer memory constraints.[4] In 1965, Donald Knuth invented the LR(k) parser and proved that there exists an LR(k) grammar for every deterministic context-free language.[5] This parser still required a lot of memory. In 1969 Frank DeRemer invented the LALR and Simple LR parsers, both based on the LR parser and having greatly reduced memory requirements at the cost of less language recognition power. The LALR parser was the stronger alternative.[6] These two parsers have since been widely used in compilers of many computer languages. Recent research has identified methods by which canonical LR parsers may be implemented with dramatically reduced table requirements over Knuth's table-building algorithm.[7]
^Chomsky, Noam (1962). "Context Free Grammars and Pushdown Storage". Quarterly Progress Report, MIT Research Laboratory in Electronics. 65: 187–194.
^ Evey, R.J. (1963). "Application of Pushdown-Store Machines". 1963 AFIPS Proceedings of the Fall Joint Computer Conference: 215–227.
^Schützenberger, Marcel Paul (1963). "On Context-Free Languages and Push-Down Automata". Information and Control. 6 (3): 246–264. doi:10.1016/s0019-9958(63)90306-1.
^A. Salomaa; D. Wood; S. Yu, eds. (2001). A Half-Century of Automata Theory. World Scientific Publishing. pp. 38–39.
^Knuth, D. E. (July 1965). "On the translation of languages from left to right". Information and Control. 8 (6): 607–639. doi:10.1016/S0019-9958(65)90426-2.
^Franklin L. DeRemer (1969). (PDF). MIT, PhD Dissertation. Archived from the original (PDF) on 2012-04-05.
^X. Chen, Measuring and extending LR(1) parsing, University of Hawaii PhD dissertation, 2009.
March 16, 2024
deterministic, context, free, grammar, formal, grammar, theory, deterministic, context, free, grammars, dcfgs, proper, subset, context, free, grammars, they, subset, context, free, grammars, that, derived, from, deterministic, pushdown, automata, they, generat. In formal grammar theory the deterministic context free grammars DCFGs are a proper subset of the context free grammars They are the subset of context free grammars that can be derived from deterministic pushdown automata and they generate the deterministic context free languages DCFGs are always unambiguous and are an important subclass of unambiguous CFGs there are non deterministic unambiguous CFGs however DCFGs are of great practical interest as they can be parsed in linear time and in fact a parser can be automatically generated from the grammar by a parser generator They are thus widely used throughout computer science Various restricted forms of DCFGs can be parsed by simpler less resource intensive parsers and thus are often used These grammar classes are referred to by the type of parser that parses them and important examples are LALR SLR and LL History editIn the 1960s theoretical research in computer science on regular expressions and finite automata led to the discovery that context free grammars are equivalent to nondeterministic pushdown automata 1 2 3 These grammars were thought to capture the syntax of computer programming languages The first high level computer programming languages were under development at the time see History of programming languages and writing compilers was difficult But using context free grammars to help automate the parsing part of the compiler simplified the task Deterministic context free grammars were particularly useful because they could be parsed sequentially by a deterministic pushdown automaton which was a requirement due to computer memory constraints 4 In 1965 Donald Knuth invented the LR k parser and proved that there exists an LR k grammar for every deterministic context free language 5 This parser still required a lot of memory In 1969 Frank DeRemer invented the LALR and Simple LR parsers both based on the LR parser and having greatly reduced memory requirements at the cost of less language recognition power The LALR parser was the stronger alternative 6 These two parsers have since been widely used in compilers of many computer languages Recent research has identified methods by which canonical LR parsers may be implemented with dramatically reduced table requirements over Knuth s table building algorithm 7 See also editDeterministic parsing LL parserReferences edit Chomsky Noam 1962 Context Free Grammars and Pushdown Storage Quarterly Progress Report MIT Research Laboratory in Electronics 65 187 194 Evey R J 1963 Application of Pushdown Store Machines 1963 AFIPS Proceedings of the Fall Joint Computer Conference 215 227 Schutzenberger Marcel Paul 1963 On Context Free Languages and Push Down Automata Information and Control 6 3 246 264 doi 10 1016 s0019 9958 63 90306 1 A Salomaa D Wood S Yu eds 2001 A Half Century of Automata Theory World Scientific Publishing pp 38 39 Knuth D E July 1965 On the translation of languages from left to right Information and Control 8 6 607 639 doi 10 1016 S0019 9958 65 90426 2 Franklin L DeRemer 1969 Practical Translators for LR k languages PDF MIT PhD Dissertation Archived from the original PDF on 2012 04 05 X Chen Measuring and extending LR 1 parsing University of Hawaii PhD dissertation 2009 Retrieved from https en wikipedia org w index php title Deterministic context free grammar amp oldid 1102693152, wikipedia, wiki, book, books, library,
