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# Check grammar ambiguity

The following is the extract of a piece of grammar that I'm trying to see whether it is ambiguous or not.

``````Y->b
Y->Z
Z->bW
W->d
W->ϵ
``````

When I compute the first set of the grammar I stumble upon this irregularity for first of Y.

``````First(Y) = {b,First(Z)}
First of Z = b so I have the set First(Y)={b,b}.
``````

What I want to know is that sufficient enough to prove that the grammar given this evidence is ambigious or not. Or should the set be `First(Y) = {b}`.

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I think all you have proven is that it's not LL1 – Jan Dvorak Dec 30 '12 at 14:45
Grand just means I have to finish it out and construct the parse table. Just curious seeing that sort of set. – Stephen Hynes Dec 30 '12 at 14:48

To prove a grammar is ambiguous, you simply need to prove that there's at least two different ways to reach a result.

Considering your example, and considering your edit, you do have an ambiguous grammar, since you're be able to derive the expression `b` by:

``````Y -> b
Y -> Z
Z -> bW
Y -> d
W -> ϵ
``````

First way:

``````Y -> b
``````

Second way:

``````Y -> Z
Y -> Z -> bW
Y -> Z -> bW -> bϵ
Y -> Z -> bW -> bϵ -> b
``````

This is an ambiguous grammar.

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I should of noted that E was actually epsilon in this example so yes you are right. – Stephen Hynes Dec 30 '12 at 15:02
@StephenHynes Answer edited considering your comment! – Rubens Dec 30 '12 at 15:10