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Let's suppose I have the following grammar:

S → X  
X → a | ϵ

If that grammar wouldn't have ϵ involved, I would construct the first state like:

S' → .S
S → .X
X → .a

but what about the ϵ symbol? Should I include:

X → .ϵ

too?

If so... when creating the next states... should I do GOTO(Io,ϵ), being Io that first state?

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up vote 6 down vote accepted

Since ϵ is not a terminal itself you have to remove it from your rule which gives you

X → .

Then later you won't have any strange GOTO with "symbol" ϵ but instead your state

S' → S.

is an accepting state in your graph.

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That makes sense. Do you have any example of a LR parser applied to a grammar where an epsilon is involved :? – Oscar Mederos Jun 28 '11 at 4:55
    
@Oscar Unfortunately I do not have an example which demonstrates how to proceed. But it should be straightforward to build this by hand based on your grammar. – Howard Jun 28 '11 at 16:23
    
I confirmed it in a book I read today ;) It is exactly as you said. Thank you for your response. – Oscar Mederos Jun 28 '11 at 18:15
    
Do you remember the book source? I didn't find it in the Purple Dragon Book.. – ssice May 20 '13 at 22:33

I agree with Howard. Your state in the DFA should contain the item: x → . Here's a DFA I drew for an SLR(1) parser that recognizes a grammar that uses two epsilon productions:SLR(1) DFA

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