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I'm reading a book on automata theory, and the book gives an example that a language with equal number of 0s and 1s intersects with 1*0* would result 1n0n, where n > 0

So my question is, how can I find some regular languages that when intersected with 1*0*, would also results in 1n0n. Is there a way to think about that?

update: Thanks for the answers! I guess what I'm trying to find is some regular languages, so the ones like 1n0n wouldn't work ;) Is it possible? Any ideas?

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There are many, many more. 1n0n1*. 1n0n0*. 1n0n(100)*. I have no easy way to classify them. –  btilly Feb 8 '11 at 21:40
Perhaps the book refers to the set of regular languages 1n0n, rather than the single language 1n0n. –  OrangeDog Feb 9 '11 at 23:40

2 Answers 2

up vote 0 down vote accepted

N.B. The language with an equal and unbounded number of 0s and 1s is not a regular language.

As for your question, I don't think there are any more restrictions you can add to some ones followed by some zeros to get n ones followed by n zeros other than the two you have given.

There are an infinite number of trivially-constructed languages that satisfy the conditions: A1nB0nC where A, B and C are any expressions that can match zero width.

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Just think of the question as: "What languages, when intersected with 1n0m, give the language 1n0n?" Basically, anything that adds the constraint that n=m.

One example is anbn, where a!=b. Another one is L = { 1n0n1m0m | n!=m, n >= 0, m >= 0 }.

Also, as OrangeDog pointed out, 1n0n is not regular, and since regular languages are closed under intersection, it follows that any language whose intersection with 1*0* gives 1n0n is not regular.

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