Tag: Context Free Grammar Examples

Context Free Grammar | Context Free Language

Context Free Grammar-

 

A context Free Grammar (CFG) is a 4-tuple such that-

G = (V , T , P , S)

where-

  • V = Finite non-empty set of variables / non-terminal symbols
  • T = Finite set of terminal symbols
  • P = Finite non-empty set of production rules of the form A → α where A ∈ V and α ∈ (V ∪ T)*
  • S = Start symbol

 

Why Context Free Grammar Is Called So?

 

Context Free Grammar provides no mechanism to restrict the usage of the production rule A → α within some specific context unlike other types of grammars.

That is why it is called as “Context Free” Grammar.

 

Example-01:

 

Consider a grammar G = (V , T , P , S) where-

  • V = { S }
  • T = { a , b }
  • P = { S → aSbS , S → bSaS , S → ∈ }
  • S = { S }

 

  • This grammar is an example of a context free grammar.
  • It generates the strings having equal number of a’s and b’s.

 

Example-02:

 

Consider a grammar G = (V , T , P , S) where-

  • V = { S }
  • T = { ( , ) }
  • P = { S → SS , S → (S) , S → ∈ }
  • S = { S }

 

  • This grammar is an example of a context free grammar.
  • It generates the strings of balanced parenthesis.

 

Applications-

 

Context Free Grammar (CFG) is of great practical importance. It is used for following purposes-

 

  • For defining programming languages
  • For parsing the program by constructing syntax tree
  • For translation of programming languages
  • For describing arithmetic expressions
  • For construction of compilers

 

Context Free Language-

 

The language generated using Context Free Grammar is called as Context Free Language.

 

Properties-

 

  • The context free languages are closed under union.
  • The context free languages are closed under concatenation.
  • The context free languages are closed under kleen closure.
  • The context free languages are not closed under intersection and complement.
  • The family of regular language is a proper subset of the family of context free language.
  • Each Context Free Language is accepted by a Pushdown automaton.

 

Remember

If L1 and L2 are two context free languages, then-

  • L1 ∪ L2 is also a context free language.
  • L1.L2 is also a context free language.
  • L1* and L2* are also context free languages.
  • L1 ∩ L2 is not a context free language.
  • L1′ and L2′ are not context free languages.

 

Ambiguity in Context Free Grammar-

 

A grammar is said to be ambiguous if for a given string generated by the grammar, there exists-

  • more than one leftmost derivation
  • or more than one rightmost derivation
  • or more than one parse tree (or derivation tree).

 

Read More- Grammar Ambiguity

 

To gain better understanding about Context Free Grammar,

Watch this Video Lecture

 

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