I have to create a CFG which generates
{a^n (ab)^n c^m d^l e^k | n>0, k, l, m>=0, k<m, m=l+k}
The first part is easy enough, I came up with
S -> aS2abS3
S2 -> aS2ab | epsilon
However, the second part is very confusing. So far I have
S3 -> S4 | epsilon
The problem I have is how do I possibly keep track of all of these variables? K has to be less than m, m has to be equal to l + k, and l must be at least 1 by extension. Can someone give me some general tips for approaching these CFG's?
Think inside out (because that's the way CFGs work) and don't get confused by extraneous details.
Here's the tip: CFGs are push-down automata (PDAs) which mean that they have a stack. PDAs are good at symmetry but they can't do antisymmetry. So they can do palindromes, but not repetitions. That's the nature of a stack.
So you always need to look for the mirror images. For example, ambm is a trivial form of mirror iamge, where the mirror turns as into bs.
This one is just a little more complicated, but if you focus on looking for the symmetry, you'll find it.
Having said that, here's the solution:
Since m > l,
cmdlek
can be rewritten as:
cm-lcldlek
And since k = m - l, that's the same as:
ckcldlek
From there it's trivial:
Sinner → cd | c Sinner d Souter → Sinner | c Souter e
