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Regular Expressions

Regular Expressions. Regular Expressions. Regular expressions describe regular languages Example: describes the language. Given regular expressions and. Are regular expressions. Recursive Definition. Primitive regular expressions:. Not a regular expression:.

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Regular Expressions

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  1. Regular Expressions Prof. Busch - LSU

  2. Regular Expressions Regular expressions describe regular languages Example: describes the language Prof. Busch - LSU

  3. Given regular expressions and Are regular expressions Recursive Definition Primitive regular expressions: Prof. Busch - LSU

  4. Not a regular expression: Examples A regular expression: Prof. Busch - LSU

  5. Languages of Regular Expressions : language of regular expression Example Prof. Busch - LSU

  6. Definition For primitive regular expressions: Prof. Busch - LSU

  7. Definition (continued) For regular expressions and Prof. Busch - LSU

  8. Example Regular expression: Prof. Busch - LSU

  9. Example Regular expression Prof. Busch - LSU

  10. Example Regular expression Prof. Busch - LSU

  11. = { all strings containing substring 00 } Example Regular expression Prof. Busch - LSU

  12. = { all strings without substring 00 } Example Regular expression Prof. Busch - LSU

  13. Equivalent Regular Expressions Definition: Regular expressions and are equivalent if Prof. Busch - LSU

  14. and are equivalent regular expressions Example = { all strings without substring 00 } Prof. Busch - LSU

  15. Regular ExpressionsandRegular Languages Prof. Busch - LSU

  16. Theorem Languages Generated by Regular Expressions Regular Languages Prof. Busch - LSU

  17. Proof: Languages Generated by Regular Expressions Regular Languages Languages Generated by Regular Expressions Regular Languages Prof. Busch - LSU

  18. For any regular expression the language is regular Proof by induction on the size of Proof - Part 1 Languages Generated by Regular Expressions Regular Languages Prof. Busch - LSU

  19. regular languages Induction Basis Primitive Regular Expressions: Corresponding NFAs Prof. Busch - LSU

  20. Inductive Hypothesis Suppose that for regular expressions and , and are regular languages Prof. Busch - LSU

  21. Inductive Step We will prove: Are regular Languages Prof. Busch - LSU

  22. By definition of regular expressions: Prof. Busch - LSU

  23. We also know: Regular languages are closed under: Union Concatenation Star By inductive hypothesis we know: and are regular languages Prof. Busch - LSU

  24. Therefore: Are regular languages is trivially a regular language (by induction hypothesis) End of Proof-Part 1 Prof. Busch - LSU

  25. Using the regular closure of these operations, we can construct recursively the NFA that accepts Example: Prof. Busch - LSU

  26. Proof - Part 2 Languages Generated by Regular Expressions Regular Languages For any regular language there is a regular expression with We will convert an NFA that accepts to a regular expression Prof. Busch - LSU

  27. Since is regular, there is a NFA that accepts it Take it with a single accept state Prof. Busch - LSU

  28. From construct the equivalent Generalized Transition Graph in which transition labels are regular expressions Example: Corresponding Generalized transition graph Prof. Busch - LSU

  29. Another Example: Transition labels are regular expressions Prof. Busch - LSU

  30. Reducing the states: Transition labels are regular expressions Prof. Busch - LSU

  31. Resulting Regular Expression: Prof. Busch - LSU

  32. In General Removing a state: Prof. Busch - LSU

  33. By repeating the process until two states are left, the resulting graph is Initial graph Resulting graph The resulting regular expression: End of Proof-Part 2 Prof. Busch - LSU

  34. Standard Representations of Regular Languages Regular Languages DFAs Regular Expressions NFAs Prof. Busch - LSU

  35. When we say: We are given a Regular Language We mean: Language is in a standard representation (DFA, NFA, or Regular Expression) Prof. Busch - LSU

  36. Ekuivalensi NFA-ε Dengan ER (Ekspresi Regular) NFA- ε = NFA-λ (Automata Hingga Non-deterministik = NFA) atau λ atau r1 ˅ r2 atau r1 + r2 Prof. Busch - LSU

  37. Tentukan NFA untuk ekspresi regular r = 0(1|23)* Prof. Busch - LSU

  38. Prof. Busch - LSU

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