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FIRST(A)  = { b, epsilon  }
FIRST(S) = { b, epsilon  }

FOLLOW(S)  = { a, $ }
FOLLOW(A) = { a, b, $ }

What is the Arithmetic Expressions for this First & Follow set?

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Is there a programming application to this? –  Poindexter Dec 1 '11 at 15:44
    
Looks like LL/LR/LALR parsing equations. –  Markus Jarderot Dec 1 '11 at 15:54

1 Answer 1

up vote 1 down vote accepted

FIRST(X) = the terminals which can appear first when trying parse the non-terminal X. If it can match an empty string, epsilon is also included.

FOLLOW(X) = the terminals which can appear immediately after the non-terminal X. This is a union of the FIRST-sets of all symbols appearing after X in any parsing rule.

Read more: LL parser

The clues given are:

  1. FIRST(A), FIRST(S) ⇒ All of the derivations of A and S respectively, must either begin with the terminal b, or be zero-length.

    Sb ... | ε
    Ab ... | ε

  2. FOLLOW(S) ⇒ There must be some construction where S is followed by the terminal a, or a non-terminal which can begin with a. (Neither A nor S qualify).

    Sb S a | ε
    Ab ... | ε

  3. FOLLOW(A) ⇒ There must be some construction where A is followed by each of the terminals a and b, or some non-terminal which can begin with those.

    Sb S a | ε
    Ab A b | b A a | ε

  4. FOLLOW(A) ⇒ Assuming S is the start-symbol, A must appear at the end of some branch of S, possibly followed by other nullable non-terminals.

    Sb S a | A | ε
    Ab A b | b A a | ε

    (NB. Adding A to S did not break the constraint on FIRST(S))

We can make the grammar a little smaller:

Sb S a | A | ε
Ab A b | ε

We can no longer generate strings like "bbbabb", but it does not violate the constraints.

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You right, FIRST(A) appeared twice, i made correction. I need to make the simplest grammar created by these groups. example: A->b | epsilon.... –  Dim Dec 1 '11 at 16:24

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