A lemma mostly used to prove that a language is not regular/context-free.

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### Pumping lemma for regular language

I have a little confusion in checking whether the given language is regular or not using pumping lemma.
Suppose we have to check whether:
L. The language accepting even number of 0's in regular ...

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### To make sure: Pumping lemma for infinite regular languages only?

So this is not about the pumping lemma and how it works, it's about a pre-condition.
Everywhere in the net you can read, that regular languages must pass the pumping lemma, but noweher anybody talks ...

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### In Layman's terms, what is the pumping lemma

So I saw this question and was curious as to what the Pumping Lemma was (Wikipedia wasn't much help). I understand that its basically a theoretical proof that must be true in order for a language to ...

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### Pumping Lemma with Context Free Languages

I have the language {a^i b^j c^k | i,j,k>=0 & i>j & j>k}
I began by assuming some m is picked for me, such that a string
z = a^m b^(m-1) c^(m-2)
Then the string is split up ...

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### Why L={wxw^R| w, x belongs to {a,b}^+ } is a regular language

Using pumping lemma, we can easily prove that the language L1 = {WcW^R|W ∈ {a,b}*} is not a regular language. (the alphabet is {a,b,c}; W^R represents the reverse string W)
However, If we replace ...

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### What exactly is the 'pumping length' in the Pumping lemma?

I'm trying to understand what is this 'margical' number 'n' that is used in every application of the Pumping lemma. After hours of research on the subject, I came to this website --> ...

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### Using Ogden’s Lemma versus regular Pumping Lemma for Context-Free Grammars

so I'm learning the difference between the lemmata in the question. Every reference I can find uses the example:
{(a^i)(b^j)(c^k)(d^l) : i = 0 or j = k = l}
to show the difference between the two. ...

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### Closure properties of context free languages

I have the following problem:
Languages L1 = {a^n * b^n : n>=0} and L2 = {b^n * a^n : n>=0} are
context free languages so they are closed under the L1L2 so L={a^n *
b^2n A^n : n>=0} must be ...

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### Proof the language is regular or not regular using Pumping lemma?

Can any one help to figure out that L = { am bn, m ≥ n + 2, m ≤ 3 } is regular or not using pumping lemma, It seems to be a bit difficult to prove.
I have tried to used pumping lemma and it ...

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### generalizing the pumping lemma for UNIX-style regular expressions

Most UNIX regular expressions have, besides the usual **,+,?* operators a backslash operator where \1,\2,... match whatever's in the last parentheses, so for example *L=(a*)b\1* matches the (non ...

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### Pumping lemma (Regular language)

I need some help with a pumping lemma problem.
L = { {a,b,c}* | #a(L) < #b(L) < #c(L) }
This is what I got so far:
y = uvw is the string from the pumping lemma.
I let y = abbc^n, n is the ...

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**1**answer

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### Am using the pumping lemma correctly?

I'm trying to prove that the following language is not regular via the Pumping Lemma. But I'm not truly sure if I have done it correctly.
{L = a2n | n>= 0 }
What I've done so far is the following:
...

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### Pumping Lemma in context-free languages

A = {0^a 1^b 2^c | a < b < c}
I need to show that A is not context-free. I'm guessing I have to use the Pumping Lemma for this, but how?