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How can I know whether the languages are context free or not?

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3 Answers 3

You need a grammar for the language to determine if it is context free. A grammar is context free if all it's productions has form "(non-terminal) -> sequence of terminals and non-terminals".

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Yes thanks. Then 0^n 1^n is context free. so The complement of {(0^n1^n)^m | m, n > 0} is Context Free or not. –  user423733 Aug 18 '10 at 8:19
    
It should be pointed out that just because you can come up with non-context-free grammar for a language that does not mean that there is no context free grammar for that language. In short you can only use constructing a grammar to show that a language is context-free, not to show that it isn't. –  sepp2k Aug 18 '10 at 10:16

First, you should attempt to build a context-free grammar that forms the language in subject. A grammar is context-free if left-hand sides of all productions contain exactly one non-terminal symbol. By definition, if one exists, then the language is context-free.

An equivalent construct would be a pushdown automaton. It's the same as DFA, but with a stack available. It may be easier to build than a grammar.

However, if you fail to build a grammar or an automaton, it doesn't mean that a language is not context-freee; perhaps, it's just you who can't build a grammar tricky enough (for example, I once spent about 7 hours to build a grammar for a tricky language).

If you start to doubt if the language is context-free, you should use a so-called "pumping lemma for context-free languages". It describes a property of all context-free languages, and if your language violates it, then it's definitely not context-free (see usage noets at Wikipedia).

This lemma is a colloraly of Ogden's lemma. So Ogden's is more powerful, and if you failed to apply pumping lemma, you might try Ogden's (it's used the same way).

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All this is good, but you do realise that none of this completely determines an answer, right? What if you can't find a context-free grammar, and Ogden's lemma doesn't contradict any known property of your language? You're still stuck with the problem. (Which I believe is hard, so your answer is perhaps as good as it gets; just pointing out that it's not exhaustive.) –  ShreevatsaR Aug 20 '10 at 5:33
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@ShreevatsaR, exactly. It may happen that none of the above works. But I actually don't know what to do in that case. –  Pavel Shved Aug 20 '10 at 5:46

Edit

As suggested in the comments to prove a language to be non-CFG, I believe is by using an ogdens' lemma. The inherent misinterpretation contained in my earlier answer is to be excused :) Retaining the earlier answer for lurkers.

Old answer

By looking at the grammar and rules used! As seen from the image (courtesy wikipedia chomsky hierarchy). Only regular languages are non-context-free. Implying anything which uses things of form A->aB or A->Ba alone are not context free.

alt text

Edit A->aB and A->Ba definitions are meant to express Left and Right recursive grammars and are not to be taken literally.

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Technically, regular languages are context-free, but I agree that the term "context-free" is often used to mean "context-free, but not regular" - i.e. that the labels in the diagram are applied to the smallest enclosing areas they're in, rather than the smallest circles they're in. –  reinierpost Aug 18 '10 at 10:08
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"Only regular languages are non-context-free." What? I think you're reading the diagram the wrong way around. Regular languages are a subset of context-free languages and thus they definitely are context-free. However most context-sensitive languages are not context-free which makes the context-sensitive languages a strict superset of context-free languages. –  sepp2k Aug 18 '10 at 10:14
    
Sepp2k, I meant those in terms of the expressive power. For instance expressive power of context free languages is far higher than those of regular languages. A regular grammar will not have the same expressive power. However a CSL can be more expressive than a CFG. So a CSL is definitely a candidate for CFG but RG is not. –  questzen Aug 18 '10 at 11:15
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@questzen: The question was how to show whether a language is context-free. A language is context-free if it is within the area labeled context-free in your diagram - including the area labeled regular, which is entirely contained within the context-free area. It is not context-free if it is outside the area. If the OP reads your answer he might be inclined to prove context-freeness by proving non-regularness (which is basically what you told him to do), which will get him a failing grade. –  sepp2k Aug 18 '10 at 11:29
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@Sepp2k, a very valid argument! I stand corrected –  questzen Aug 20 '10 at 5:12

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