I am trying to work out if it is possible to pattern match in Haskell set comprehensions. I have a list of lists containing Tuples, or nested lists and tuples;
[[(1,("A",1)), (2,("B",1))], [(0,("A",1)), (3,("B",2)), (2,("C",1))]]
I want to discard the tuples containing "A" and preform arbitrary computations on the others.
I was thinking along the lines:
pack(xs:xss) = [package x | x <- xs, x /= (1,("A", 1))] : (pack xss) pack(_) =  package x = case x of (i, ("B", j)) -> (i + j, ("B", j * i)) (i, ("C", j)) -> (i * j, ("C", j + i)) (otherwise) -> x
Where the following might permit wildcards:
x /= (1,("A", 1))
x /= (_,("A", _))
It is worth noting that the numbers in the nested tuple will always be of type int, not sure if that helps...
I have looked around but can not see if this is possible, it appears that maybe filtering is a better option as noted below; however we are filtering on unknowns.
My issue is an abstracted example from a larger piece of work/function but hopefully I have captured the essence of the issue here. I am open to alternative suggestions.