# Pattern matching of nested list in Haskell

I want to use nested lists of nestedness 2 to represent matrix (e.g. `[[1,2,3],[4,5,6]]`). How would I define a function that process small submatrices (say 2*2)? I expected something like this: `f (a1:a2:a) : (b1:b2:b) : x = ...` Where a1, a2 are two consecutive elements of first row and b1, b2 — second row. a, b are rests of first and second row correspondigly. x is the rest of matrix rows.

But this clearly doesn't work.

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In what way does it not work? We need more details to help. – Paul Johnson Jan 29 '11 at 21:43
@Paul Johnson thanks but the answer is already given. – Artem Pelenitsyn Jan 29 '11 at 22:20
If you have a fixed number of items, use tuples. If it's not fixed, don't code against a specific number of items. – delnan Jan 29 '11 at 22:34
Offtopic: If you don't mind me asking, is Haskell what you are being/was taught at university/school? – Yasir Arsanukaev Jan 30 '11 at 4:33
@delnan I need to work with 2*2 submatrices so I need to code it somewhere. Of curse, there would be two patterns for function to match: one for matrix that has 2*2 submatrix anr one for all other cases (through wildcard). – Artem Pelenitsyn Jan 31 '11 at 7:52

I expected something like this: `f (a1:a2:a) : (b1:b2:b) : x = ...`

You've got the right idea. All you're missing is a pair of parentheses:

``````f ((a1:a2:a) : (b1:b2:b) : x) = ...
``````
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Don't forget you can just use a bit of `where` syntax

``````f xs = ...
It's worth noting, however, that pattern matching gives you the benefit of falling down to the next definition of the function if the pattern doesn't match. It would take more guards and stuff to make this `where` version do that.