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I'm stuck at solving this exercise, and I don't know where to begin:

A language B is Context Free; a language C is a subset of B: is C Context Free? Prove or disprove.

I've tryed using closure properties:

C = B - ( (A* - C) ∩ B ) [A* is the set of all words on the alphabet A]

and given that CF languages are not closed under complementation and intersection I would say that C is not forced to be CF. But I'm not sure this is a good prove.

Can anyone help?

share|improve this question
If you think it is not true, have you tried to find a counterexample? – Rachel Shallit Jun 16 '11 at 18:21
Yes, I've tryed but I can find noone – JustB Jun 16 '11 at 23:42
up vote 3 down vote accepted

Here's a hint. A subset of a regular language is not necessarily regular: a*b* is regular, but a^nb^n is a subset of a*b* and is not regular. Can you think of a parallel for context-free languages?

share|improve this answer
So for example: B= {A^n B^m C^n | n,m >0}; A={A^n B^m C^n | n=m}. A is a subset of B, but it isn't CF. – JustB Jun 22 '11 at 23:08
@JustB: excellent! – Rachel Shallit Jun 23 '11 at 2:41

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