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Regulated Syntax-Directed Translation
Dvořák, Tomáš ; Kocman, Radim (referee) ; Meduna, Alexandr (advisor)
This thesis deals with formal and syntax directed translation. This thesis contains theoretical part, which defines regular, context free, context sensitive and recursively enumerable languages a grammar. There are given examples of grammars which are able to generate languages that are not context free. Covered by this thesis are matrix grammars, random context grammars and programed grammars. Researched are also finite, pushdown, deep and regular automata, transducers and their part within format syntax directed translation. This project also defines regular transducers based as regulated automata. Thesis defines regulated methods of syntax analysis based on predictive parsers. These methods cover analysis of studied regulated grammars. The final part of this thesis describes new language capable of effective description of these grammars and compiler producing parser code for these grammars written in this new language and their graphical analyzer.
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Parsing Based on Regulated Automata
Genčúrová, Ľubica ; Martiško, Jakub (referee) ; Meduna, Alexandr (advisor)
This work deals with the design, applicability and the implementation of parsing methods based on pushdown automata that regulate the use of their rules by linear control languages. These automata are more powerful than ordinary automata and they are as powerful as Turing machine. The pushdown automata regulated by linear control languages characterize the family of recursively enumerable languages.
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Regulated Automata Systems
Krčmář, Radim ; Kučera, Jiří (referee) ; Meduna, Alexandr (advisor)
This thesis defines and studies two new types of automata, cooperating distributed pushdown automata systems (CDPDAS) and parallel communicating pushdown automata systems (PCPDAS). CDPDAS and PCPDAS adapt the main concept of cooperating distributed grammar systems (CDGS) and parallel communicating automata systems (PCPDAS), respectively. CDPDAS are proven to have the same power as PDA and this thesis further explores the reason why CDPDAS do not increase power while CDGS do and introduces an automata system inspired by CDPDAS that does increase the power. PCGS have similar power as CDGS, but PCPDAS are equvalent with TM, which is proven by creating a communication protocol to access a second stack.
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Regulated Syntax-Directed Translation
Dvořák, Tomáš ; Kocman, Radim (referee) ; Meduna, Alexandr (advisor)
This thesis deals with formal and syntax directed translation. This thesis contains theoretical part, which defines regular, context free, context sensitive and recursively enumerable languages a grammar. There are given examples of grammars which are able to generate languages that are not context free. Covered by this thesis are matrix grammars, random context grammars and programed grammars. Researched are also finite, pushdown, deep and regular automata, transducers and their part within format syntax directed translation. This project also defines regular transducers based as regulated automata. Thesis defines regulated methods of syntax analysis based on predictive parsers. These methods cover analysis of studied regulated grammars. The final part of this thesis describes new language capable of effective description of these grammars and compiler producing parser code for these grammars written in this new language and their graphical analyzer.
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|
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Parsing Based on Regulated Automata
Genčúrová, Ľubica ; Martiško, Jakub (referee) ; Meduna, Alexandr (advisor)
This work deals with the design, applicability and the implementation of parsing methods based on pushdown automata that regulate the use of their rules by linear control languages. These automata are more powerful than ordinary automata and they are as powerful as Turing machine. The pushdown automata regulated by linear control languages characterize the family of recursively enumerable languages.
|
|
|
Regulated Automata Systems
Krčmář, Radim ; Kučera, Jiří (referee) ; Meduna, Alexandr (advisor)
This thesis defines and studies two new types of automata, cooperating distributed pushdown automata systems (CDPDAS) and parallel communicating pushdown automata systems (PCPDAS). CDPDAS and PCPDAS adapt the main concept of cooperating distributed grammar systems (CDGS) and parallel communicating automata systems (PCPDAS), respectively. CDPDAS are proven to have the same power as PDA and this thesis further explores the reason why CDPDAS do not increase power while CDGS do and introduces an automata system inspired by CDPDAS that does increase the power. PCGS have similar power as CDGS, but PCPDAS are equvalent with TM, which is proven by creating a communication protocol to access a second stack.
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