Regular Language: Difference between revisions

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imported>Pat Palmer
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imported>Howard C. Berkowitz
(Linked compllement to disambiguation)
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* <math>A \cup B = \{x ~|~ x \in A\ \mathrm{or}\ x \in B\}</math> ([[union]])
* <math>A \cup B = \{x ~|~ x \in A\ \mathrm{or}\ x \in B\}</math> ([[union]])
* <math>A \cap B = \{x ~|~ x \in A\ \mathrm{and}\ x \in B\}</math> ([[intersection]])
* <math>A \cap B = \{x ~|~ x \in A\ \mathrm{and}\ x \in B\}</math> ([[intersection]])
* <math>\bar{A} = \{x \in \Sigma^* ~|~ x \not\in A\}</math> ([[complement]])
* <math>\bar{A} = \{x \in \Sigma^* ~|~ x \not\in A\}</math> ([[complement (computer language)]])
* <math>AB = \{xy ~|~ x \in A\ \mathrm{and}\ y \in B\}</math> ([[concatenation]])
* <math>AB = \{xy ~|~ x \in A\ \mathrm{and}\ y \in B\}</math> ([[concatenation]])
* <math>A^* = \{x_1 x_2 \ldots x_n ~|~ n \geq 0\ \mathrm{and}\ x_i \in A,~1 \leq i \leq n\}</math> ([[asterate]])
* <math>A^* = \{x_1 x_2 \ldots x_n ~|~ n \geq 0\ \mathrm{and}\ x_i \in A,~1 \leq i \leq n\}</math> ([[asterate]])

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In computing theory, a regular language is one that is accepted by a finite automaton.

Equivalent Characterizations

Closure Properties

Suppose are regular languages. Then the following languages are also regular.

  • (union)
  • (intersection)
  • (complement (computer language))
  • (concatenation)
  • (asterate)
  • (difference)
  • (reversal)

Regular languages are also closed under homomorphic images and preimages. Suppose is a regular language and is a string homomorphism. Then the following languages are regular.

  • (homomorphic image)
  • (homomorphic preimage)