How can I obtain a list of combinations from a list of lists? For example: ghci> getCombinations [[1,2,3],[10,20,30],[100,200,300]] ...
I know how to use list comprehension to do this, but how can I implement a function that will recursively compute the cartesian product given two sets? Here's where I'm stuck (and I'm a noob) ...
I have started learning Haskell and I have problem with understanding how cartesian product of lists of the list works here is the supposed code cprod = foldr f [[ ]] where f xs yss = foldr g ...
My question is about the sequence function in Prelude, the signature of which is as follows: sequence :: Monad m => [m a] -> m [a] I understand how this function works for List of Maybes. For ...
I wish to produce the cartesian product of 2 lists in Haskell, but I cannot work out how to do it. The cartesian product gives all combinations of the list elements: xs = [1,2,3] ys = [4,5,6] ...
Given two lists, I can produce a list of all permutations the Cartesian Product of these two lists: permute :: [a] -> [a] -> [[a]] permute xs ys = [ [x, y] | x <- xs, y <- ys ] ...