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Cartesian product

I'm Haskell newbie and I have a problem. I want to do some function that will take first element of list and connect to all elements of second list, after that take second element from first list and do the same. For example I want to take: [[1],[2],[3]) and [[4],[5],[6]] and get in output

[([1],[4]),([1],[5]),([1],[6]),
([2],[4]),([2],[5]),([2],[6]),
([3],[4]),([3],[5]),([3],[6])]

The closes one I found is transpose

transpose [[1,2,3],[4,5,6]]
[[1,4],[2,5],[3,6]]

I would appreciate any help.

Edit: Shame on me. I found solution

[[x,y] | x <- [[1],[2],[3]], y <- [[4],[5],[6]]]

Which result is:

[[[1],[4]],[[1],[5]],[[1],[6]],[[2],[4]],[[2],[5]],[[2],[6]],[[3],[4]],[[3],[5]],[[3],[6]]]
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marked as duplicate by Mat, Gilles, ShreevatsaR, Dylan Markow, gbn Jun 19 '11 at 19:52

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

2  
seems like: stackoverflow.com/questions/4119730/cartesian-product –  Kru Jun 19 '11 at 12:43
    
thanks it is exactly what I was looking for:) –  ahaw Jun 19 '11 at 14:26

3 Answers 3

up vote 1 down vote accepted

I'm also new to haskell, here is my solution to your question, hope it's helpful:

f [] _ = []
f (x:xs) ys = zip (take (length ys) (repeat x)) ys ++ f xs ys 

I think the code explains itself quite straight forward :)

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import Control.Applicative

(,) <$> [[1],[2],[3]] <*> [[4],[5],[6]]

--[([1],[4]),([1],[5]),([1],[6]),([2],[4]),([2],[5]),([2],[6]),([3],[4]),([3],[5]),([3],[6])]

See http://learnyouahaskell.com/functors-applicative-functors-and-monoids#applicative-functors for an explanation.

You can also use do-Notation, as lists are not only Applicative, but Monads, too:

do x<-[[1],[2],[3]]; y<-[[4],[5],[6]]; return (x,y)

--[([1],[4]),([1],[5]),([1],[6]),([2],[4]),([2],[5]),([2],[6]),([3],[4]),([3],[5]),([3],[6])]
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This is interesting.

sequence [[[1],[2],[3]] , [[4],[5],[6]]]
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